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authorKarl Berry <karl@freefriends.org>2011-08-01 00:47:16 +0000
committerKarl Berry <karl@freefriends.org>2011-08-01 00:47:16 +0000
commitaec2bbc3994991ebc6c5f4dbc90ad15c55f1a1fb (patch)
tree8940f33f6b173fb5cc630cc58ed4b791ad29e3fe /Master/texmf-dist/tex/generic
parent868233e6288b5e35a7d7aabd79bf8e56a802bc12 (diff)
pgfplots 1.5 (29jul11)
git-svn-id: svn://tug.org/texlive/trunk@23292 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Master/texmf-dist/tex/generic')
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.surfshading.code.tex167
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/pgfplotslibrary.code.tex28
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.colormaps.code.tex99
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex55
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex54
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex1783
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex733
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.smithchart.code.tex1761
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.ternary.code.tex904
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex107
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructure.code.tex11
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex87
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsmatrix.code.tex544
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex135
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex145
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex4
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex335
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreexternal.code.tex464
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeys.code.tex5
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeysfiltered.code.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex4
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryplothandlers.code.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.code.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.pdflinks.code.tex8
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex216
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathparse.opt.code.tex122
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex73
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzlibraryexternal.code.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex2999
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex5654
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotscore.code.tex4
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex2185
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex2230
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsstackedplots.code.tex99
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex568
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def10
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-pdftex.def10
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/sys/pgfplotssysgeneric.code.tex30
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex286
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex320
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.verb.code.tex97
44 files changed, 18167 insertions, 4183 deletions
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.surfshading.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.surfshading.code.tex
index 58664dc323d..c45b5a613f0 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.surfshading.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.surfshading.code.tex
@@ -55,6 +55,7 @@
/pgfplots/surf shading/south west corner/.initial={\pgfpointorigin},%
/pgfplots/surf shading/north east corner/.initial={\pgfqpoint{6cm}{6cm}},%
/pgfplots/surf shading/anchor/.initial=\pgfpointorigin,%
+ /pgfplots/surf shading/shading type/.initial=5,% triangles in form of lattice
/pgfplots/surf shading/precision/.is choice,
/pgfplots/surf shading/precision/pdf/.code={%
% Lossless coordinate output.
@@ -77,6 +78,7 @@
/pgfplots/surf shading/precision/ps},%
/pgfplots/surf shading/precision/ps,%
/pgfplots/surf shading/cols/.initial=,%
+ /pgfplots/surf shading/colorspace/.initial=rgb,% rgb or cmyk
/pgfplots/surf shading/colormap/.initial={%
<<
/FunctionType 2
@@ -124,22 +126,57 @@
0 \pgfplotscolormappdfmax % map [0,2^BitsPerComponent-1] linearly to [0 1] for parametric color data
}%
\def\pgfplotslibrarysurf@count{0}%
+\newcount\c@pgfplotslibrarysurf@no
% driver specific:
\def\pgfplotslibrarysurf@initstream{}
\def\pgfplotslibrarysurf@advancestreamlen#1{}%
\def\pgfplotslibrarysurfstreamstart{%
- \pgfplotsapplistXnewempty\pgfplotslibrarysurf@binarystream@accum
+ \pgfplotslibrarysurf@translate@colorspace
+ \let\pgfplotslibrarysurf@colorspace=\pgfplotsretval
+ \pgfkeysgetvalue{/pgfplots/surf shading/shading type}\pgfplotslibrarysurf@type
+ \pgfplotsapplistXglobalnewempty\pgfplotslibrarysurf@binarystream@accum
\pgfplotslibrarysurf@initstream
\ifx\pgfplotslibrarysurf@filter@encode\pgfutil@empty
\else
\pgfkeysalso{/pgfplots/bin/\pgfplotslibrarysurf@filter@encode}%
\fi
+ \ifcase\pgfplotslibrarysurf@type\relax
+ % 0
+ \pgfplotslibrarysurf@initstream@wrongtype
+ \or% 1
+ \pgfplotslibrarysurf@initstream@wrongtype
+ \or% 2
+ \pgfplotslibrarysurf@initstream@wrongtype
+ \or% 3
+ \or% 4
+ % ok, triangle meshes.
+ \def\pgfplotslibrarysurf@edgeflag{\pgfplotscharno{0}}%
+ \or% 5 triangles in lattice form. disable edge flag:
+ \let\pgfplotslibrarysurf@edgeflag=\pgfutil@empty
+ \or% 6 coons patches:
+ \global\let\pgfplotslibrarysurf@cubicpatch@cdata=\pgfutil@empty
+ \global\c@pgfplotslibrarysurf@no=0
+ \def\pgfplotslibrarysurf@cubicpatch@numverts{12}%
+ \let\pgfplotslibrarysurfstreamcoord=\pgfplotslibrarysurfstreamcoord@cubicpatch
+ \def\pgfplotslibrarysurf@edgeflag{\pgfplotscharno{0}}%
+ \or% 7 full tensor product cubic bezier patches:
+ \global\let\pgfplotslibrarysurf@cubicpatch@cdata=\pgfutil@empty
+ \global\c@pgfplotslibrarysurf@no=0
+ \def\pgfplotslibrarysurf@cubicpatch@numverts{16}%
+ \let\pgfplotslibrarysurfstreamcoord=\pgfplotslibrarysurfstreamcoord@cubicpatch
+ \def\pgfplotslibrarysurf@edgeflag{\pgfplotscharno{0}}%
+ \else
+ \pgfplotslibrarysurf@initstream@wrongtype
+ \fi
+}%
+\def\pgfplotslibrarysurf@initstream@wrongtype{%
+ \pgfplots@error{CRITICAL: shader=interp: got unsupported pdf shading type '\pgfplotslibrarysurf@type'. This may correct your pdf!}%
}%
\def\pgfplotslibrarysurfstreamend{%
- \pgfplotsapplistXlet\pgfplotslibrarysurf@binarystream=\pgfplotslibrarysurf@binarystream@accum
- \pgfplotsapplistXnewempty\pgfplotslibrarysurf@binarystream@accum
+ \pgfplotsapplistXgloballet\pgfplotslibrarysurf@binarystream=\pgfplotslibrarysurf@binarystream@accum
+ \pgfplotsapplistXglobalnewempty\pgfplotslibrarysurf@binarystream@accum
}%
% #1: a pgf point.
@@ -195,11 +232,131 @@
\pgfplotsbinaryencodeunsigned\pgfplots@glob@TMPa
%\message{\pgfplotsbinaryresult.}%
\t@pgfplots@tokc=\expandafter{\pgfplotsbinaryresult}%
- \edef\pgfplots@loc@TMPa{\the\t@pgfplots@toka\the\t@pgfplots@tokb\the\t@pgfplots@tokc}%
- \expandafter\pgfplotsapplistXpushback\pgfplots@loc@TMPa\to\pgfplotslibrarysurf@binarystream@accum
+ \edef\pgfplots@loc@TMPa{\pgfplotslibrarysurf@edgeflag\the\t@pgfplots@toka\the\t@pgfplots@tokb\the\t@pgfplots@tokc}%
+ \expandafter\pgfplotsapplistXglobalpushback\pgfplots@loc@TMPa\to\pgfplotslibrarysurf@binarystream@accum
\pgfplotslibrarysurf@advancestreamlen{10}%
}
+\def\pgfplotslibrarysurf@translate@colorspace{%
+ \pgfkeysgetvalue{/pgfplots/surf shading/colorspace}\pgfplots@loc@TMPd
+ \edef\pgfplots@loc@TMPd{\pgfplots@loc@TMPd}%
+ \def\pgfplots@loc@TMPa{rgb}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPd
+ \def\pgfplotsretval{RGB}%
+ \else
+ \def\pgfplots@loc@TMPa{cmyk}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPd
+ \def\pgfplotsretval{CMYK}%
+ \else
+ \def\pgfplots@loc@TMPa{cmy}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPd
+ \def\pgfplotsretval{CMY}%
+ \else
+ \pgfplots@error{Sorry, the 'surfshading' lib failed to recognise the '/pgfplots/surf shading=\pgfplots@loc@TMPd\space choice... maybe you misspelled it?}%
+ \def\pgfplotsretval{RGB}%
+ \fi
+ \fi
+ \fi
+}%
+
+% special routine for coons type patches and cubic tensor product type
+% patches. It has FIRST all vertices,
+% THEN the cdata. Furthermore, it only has 4 CDATA points, but a total
+% of 12 vertices.
+%
+% #1: a pgf point.
+% #2: a color coordinate in the range [0,1000]
+\def\pgfplotslibrarysurfstreamcoord@cubicpatch#1#2{%
+ \pgfplotsbinarysetbytes\pgfplotslibrarysurf@bytespercoordinate%
+ %\pgf@process{#1}% this here causes `{retaining \pgf@x}' messages and pollutes the save stack! Avoid it. See \tracingrestores=2
+ #1%
+ % The idea is to map
+ % the low-level point coordinates LINEARLY into [0,2^{8*<bytes>}].
+ %
+ % This is what the pdf standard expects for surface shadings.
+ %
+ % To do that, we simply map
+ % [-16384,16384] linearly into [0,2^{32}]
+ % and write the resulting integer in big endian binary format to
+ % the pdf low level stream.
+ %
+ % The decode procedure tells the pdf viewer how to invert that
+ % stuff.
+ %
+ \pgf@xa=\pgf@x
+ \pgf@sys@bp@correct\pgf@xa%
+ \pgfplotsbinaryencodedimenmaplinearly\pgf@xa
+%\message{POINT \the\c@pgfplots@scanlineindex: ENCODING(x=\the\pgf@x)=\pgfplotsbinaryresult.}\advance\c@pgfplots@scanlineindex by1
+ \t@pgfplots@toka=\expandafter{\pgfplotsbinaryresult}%
+ \pgf@ya=\pgf@y
+ \pgf@sys@bp@correct\pgf@ya%
+ \pgfplotsbinaryencodedimenmaplinearly\pgf@ya
+%\message{ENCODING(y=\the\pgf@y)=\pgfplotsbinaryresult.}%
+ \t@pgfplots@tokb=\expandafter{\pgfplotsbinaryresult}%
+ \def\pgfplotslibrarysurf@cubicpatch@hascdata{0}%
+ \ifnum\c@pgfplotslibrarysurf@no=0
+ \def\pgfplotslibrarysurf@cubicpatch@hascdata{1}%
+ % prepend edge flag. it is a new patch.
+ \t@pgfplots@toka=\expandafter{\expandafter\pgfplotslibrarysurf@edgeflag\the\t@pgfplots@toka}%
+ \else
+ \ifnum\c@pgfplotslibrarysurf@no=3
+ \def\pgfplotslibrarysurf@cubicpatch@hascdata{1}%
+ \else
+ \ifnum\c@pgfplotslibrarysurf@no=6
+ \def\pgfplotslibrarysurf@cubicpatch@hascdata{1}%
+ \else
+ \ifnum\c@pgfplotslibrarysurf@no=9
+ \def\pgfplotslibrarysurf@cubicpatch@hascdata{1}%
+ \fi
+ \fi
+ \fi
+ \fi
+ \if1\pgfplotslibrarysurf@cubicpatch@hascdata
+ {%
+ % read fixed point input (in the range [0,1000]).
+ \pgf@xa=#2pt
+ % convert to integer (= *65536):
+ \c@pgf@counta=\pgf@xa
+ % provide map [0,1000] -> [0,2^16-1]
+ \divide\c@pgf@counta by1000
+ % now, we have \c@pgf@counta in [0,2^16]. Simply strip it into
+ % the required range, that's ok.
+ \ifnum\c@pgf@counta<0
+ \c@pgf@counta=0
+ \else
+ \ifnum\c@pgf@counta>65535
+ \c@pgf@counta=65535
+ \fi
+ \fi
+ % Now, we have CDATA in the range [0,65535]
+ \xdef\pgfplots@glob@TMPa{\the\c@pgf@counta}%
+ %\message{ENCODING(C=\pgfplots@glob@TMPa\space for \the\pgf@xa)=}%
+ }%
+ \pgfplotsbinarysetbytes2%
+ \pgfplotsbinaryencodeunsigned\pgfplots@glob@TMPa
+ %\message{\pgfplotsbinaryresult.}%
+ \t@pgfplots@tokc=\expandafter{\pgfplotslibrarysurf@cubicpatch@cdata}%
+ \xdef\pgfplotslibrarysurf@cubicpatch@cdata{%
+ \the\t@pgfplots@tokc
+ \pgfplotsbinaryresult
+ }%
+ \fi
+ \global\advance\c@pgfplotslibrarysurf@no by1
+ %
+ \ifnum\pgfplotslibrarysurf@cubicpatch@numverts=\c@pgfplotslibrarysurf@no %finalize patch.
+ \t@pgfplots@tokc=\expandafter{\pgfplotslibrarysurf@cubicpatch@cdata}%
+ \global\let\pgfplotslibrarysurf@cubicpatch@cdata=\pgfutil@empty
+ \global\c@pgfplotslibrarysurf@no=0
+ \else
+ \t@pgfplots@tokc={}%
+ \fi
+ % edge flag is already in \t@pgfplots@toka (if this is the first
+ % vertex)
+ \edef\pgfplots@loc@TMPa{\the\t@pgfplots@toka\the\t@pgfplots@tokb\the\t@pgfplots@tokc}%
+ \expandafter\pgfplotsapplistXglobalpushback\pgfplots@loc@TMPa\to\pgfplotslibrarysurf@binarystream@accum
+ %\pgfplotslibrarysurf@advancestreamlen{10}%
+}
+
\def\pgfplotslibrarysurfactivateshadefill{%
\pgfplotssys@do@surfshading@fillpaths\pgfplots@loc@TMPa%
\expandafter\pgfutil@addpdfresource@patterns\expandafter{\pgfplots@loc@TMPa}%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/pgfplotslibrary.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/pgfplotslibrary.code.tex
index 06bade77b9e..4f414535eec 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/pgfplotslibrary.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/pgfplotslibrary.code.tex
@@ -36,18 +36,22 @@
\def\use@@pgfplotslibrary#1{%
\edef\pgf@list{#1}%
\pgfutil@for\pgf@temp:=\pgf@list\do{%
- \expandafter\ifx\csname pgfp@library@\pgf@temp @loaded\endcsname\relax%
- \expandafter\global\expandafter\let\csname pgfp@library@\pgf@temp @loaded\endcsname=\pgfutil@empty%
- \expandafter\edef\csname tikz@library@#1@atcode\endcsname{\the\catcode`\@}
- \expandafter\edef\csname tikz@library@#1@barcode\endcsname{\the\catcode`\|}
- \catcode`\@=11
- \catcode`\|=12
- \pgfplots@iffileexists{tikzlibrarypgfplots.\pgf@temp.code.tex}{%
- \input tikzlibrarypgfplots.\pgf@temp.code.tex}{%
- \input pgflibrarypgfplots.\pgf@temp.code.tex}%
- \catcode`\@=\csname tikz@library@#1@atcode\endcsname
- \catcode`\|=\csname tikz@library@#1@barcode\endcsname
- \fi%
+ \expandafter\pgfkeys@spdef\expandafter\pgf@temp\expandafter{\pgf@temp}%
+ \ifx\pgf@temp\pgfutil@empty
+ \else
+ \expandafter\ifx\csname pgfp@library@\pgf@temp @loaded\endcsname\relax%
+ \expandafter\global\expandafter\let\csname pgfp@library@\pgf@temp @loaded\endcsname=\pgfutil@empty%
+ \expandafter\edef\csname tikz@library@#1@atcode\endcsname{\the\catcode`\@}
+ \expandafter\edef\csname tikz@library@#1@barcode\endcsname{\the\catcode`\|}
+ \catcode`\@=11
+ \catcode`\|=12
+ \pgfplots@iffileexists{tikzlibrarypgfplots.\pgf@temp.code.tex}{%
+ \input tikzlibrarypgfplots.\pgf@temp.code.tex}{%
+ \input pgflibrarypgfplots.\pgf@temp.code.tex}%
+ \catcode`\@=\csname tikz@library@#1@atcode\endcsname
+ \catcode`\|=\csname tikz@library@#1@barcode\endcsname
+ \fi%
+ \fi
}%
}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.colormaps.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.colormaps.code.tex
new file mode 100644
index 00000000000..d6060e15e2b
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.colormaps.code.tex
@@ -0,0 +1,99 @@
+%--------------------------------------------
+%
+% Package pgfplots, library for additional colormaps, especially those
+% related to matlab (tm).
+%
+% Copyright 2011 by Christian Feuersänger and Patrick Häcker.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%
+
+\pgfplotsset{
+ /pgfplots/colormap/autumn/.style={
+ /pgfplots/colormap={autumn}{rgb255=(255,0,0) rgb255=(255,255,0)}
+ },
+ /pgfplots/colormap/bled/.style={
+ /pgfplots/colormap={bled}{rgb255=(0,0,0) rgb255=(43,43,0) rgb255=(0,85,0) rgb255=(0,128,128) rgb255=(0,0,170) rgb255=(213,0,213) rgb255=(255,0,0)}
+ },
+ /pgfplots/colormap/bright/.style={
+ /pgfplots/colormap={bright}{rgb255=(0,0,0) rgb255=(78,3,100) rgb255=(2,74,255) rgb255=(255,21,181) rgb255=(255,113,26) rgb255=(147,213,114) rgb255=(230,255,0) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/cold/.style={
+ /pgfplots/colormap={cold}{rgb255=(0,0,0) rgb255=(0,0,255) rgb255=(0,255,255) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/copper/.style={
+ /pgfplots/colormap={copper}{[1cm]rgb255(0cm)=(0,0,0) rgb255(4cm)=(255,159,101) rgb255(5cm)=(255,199,127)}
+ },
+ /pgfplots/colormap/copper2/.style={
+ /pgfplots/colormap={copper2}{rgb255=(0,0,0) rgb255=(68,62,63) rgb255=(170,112,95) rgb255=(207,194,138) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/earth/.style={
+ /pgfplots/colormap={earth}{rgb255=(0,0,0) rgb255=(0,28,15) rgb255=(42,39,6) rgb255=(28,73,33) rgb255=(67,85,24) rgb255=(68,112,46) rgb255=(81,129,83) rgb255=(124,137,87) rgb255=(153,147,122) rgb255=(145,173,164) rgb255=(144,202,180) rgb255=(171,220,177) rgb255=(218,229,168) rgb255=(255,235,199) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/gray/.style={
+ /pgfplots/colormap={gray}{rgb255=(0,0,0) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/hsv/.style={
+ /pgfplots/colormap={hsv}{rgb255=(255,0,0) rgb255=(255,255,0) rgb255=(0,255,0) rgb255=(0,255,255) rgb255=(0,0,255) rgb255=(255,0,255) rgb255=(255,0,0)}
+ },
+ /pgfplots/colormap/hsv2/.style={
+ /pgfplots/colormap={hsv2}{rgb255=(0,0,0) rgb255=(128,0,128) rgb255=(0,0,230) rgb255=(0,255,255) rgb255=(0,255,0) rgb255=(255,255,0) rgb255=(255,0,0)}
+ },
+ /pgfplots/colormap/pastel/.style={
+ /pgfplots/colormap={pastel}{rgb255=(0,0,0) rgb255=(120,0,5) rgb255=(0,91,172) rgb255=(215,35,217) rgb255=(120,172,78) rgb255=(255,176,24) rgb255=(230,255,0) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/pink/.style={
+ /pgfplots/colormap={pink}{rgb255=(0,0,0) rgb255=(12,16,46) rgb255=(62,22,43) rgb255=(53,53,65) rgb255=(79,72,58) rgb255=(122,80,67) rgb255=(147,91,102) rgb255=(147,115,140) rgb255=(144,145,154) rgb255=(173,163,146) rgb255=(216,171,149) rgb255=(250,179,179) rgb255=(255,198,227) rgb255=(246,229,255) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/sepia/.style={
+ /pgfplots/colormap={sepia}{rgb255(0cm)=(0,0,0) rgb255(1cm)=(26,13,0) rgb255(18cm)=(255,230,204) rgb255(20cm)=(255,255,255)}
+ },
+ /pgfplots/colormap/bone/.style={
+ /pgfplots/colormap={bone}{[1cm]rgb255(0cm)=(0,0,0) rgb255(3cm)=(84,84,116) rgb255(6cm)=(167,199,199) rgb255(8cm)=(255,255,255)}
+},
+ %--------------------------------------------------
+ % % mesh width is too fine for these:
+ % /pgfplots/colormap/dusk/.style={
+ % /pgfplots/colormap={dusk}{
+ % [1cm]rgb255(0cm)=(0,0,0)
+ % rgb255(114cm)=(0,0,128) rgb255(701cm)=(0,128,128)
+ % rgb255(1000cm)=(128,128,128) rgb255(1299cm)=(255,128,128)
+ % rgb255(1886cm)=(255,255,128) rgb255(2000cm)=(255,255,255)}
+ % },
+ % /pgfplots/colormap/hicontrast/.style={
+ % /pgfplots/colormap={hicontrast}{
+ % [1cm]rgb255(0cm)=(0,0,0) rgb255(114cm)=(0,0,255) rgb255(299cm)=(255,0,0) rgb255(413cm)=(255,0,255)
+ % rgb255(587cm)=(0,255,0) rgb255(701cm)=(0,255,255) rgb255(886cm)=(255,255,0)
+ % rgb255(1000cm)=(255,255,255)}
+ % },
+ %--------------------------------------------------
+ /pgfplots/colormap/spring/.style={
+ /pgfplots/colormap={spring}{rgb255=(255,0,255) rgb255=(255,255,0)}
+ },
+ /pgfplots/colormap/summer/.style={
+ /pgfplots/colormap={summer}{rgb255=(0,128,102) rgb255=(255,255,102)}
+ },
+ /pgfplots/colormap/temp/.style={
+ /pgfplots/colormap={temp}{rgb255=(36,0,217) rgb255=(25,29,247) rgb255=(41,87,255) rgb255=(61,135,255) rgb255=(87,176,255) rgb255=(117,211,255) rgb255=(153,235,255) rgb255=(189,249,255) rgb255=(235,255,255) rgb255=(255,255,235) rgb255=(255,242,189) rgb255=(255,214,153) rgb255=(255,172,117) rgb255=(255,120,87) rgb255=(255,61,61) rgb255=(247,40,54) rgb255=(217,22,48) rgb255=(166,0,33)}
+ },
+ /pgfplots/colormap/thermal/.style={
+ /pgfplots/colormap={thermal}{rgb255=(0,0,0) rgb255=(77,0,179) rgb255=(255,51,0) rgb255=(255,255,0) rgb255=(255,255,255)}
+ },
+ /pgfplots/colormap/winter/.style={
+ /pgfplots/colormap={winter}{rgb255=(0,0,255) rgb255=(0,255,128)}
+ },
+}
+
+\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex
index 8ac9a7631c0..7e7e5232fc0 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex
@@ -52,6 +52,12 @@
\advance\pgf@xa by-\the\c@pgf@countb pt
\ifdim\pgf@xa>0.5pt
\advance\c@pgf@countb by1
+ \ifnum\c@pgf@countb=60
+ \c@pgf@countb=#4 %
+ \advance\c@pgf@countb by1
+ \edef#4{\the\c@pgf@countb}%
+ \c@pgf@countb=0
+ \fi
\fi
\edef#5{\the\c@pgf@countb}%
}
@@ -94,8 +100,8 @@
\let\pgfplots@calender@ZEROSHIFT=\pgfmathresult
},
date ZERO=2006-01-01,
- /pgfplots/date coordinates in/.style={
- /pgfplots/#1 coord trafo/.code={%
+ /pgfplots/date coordinates in/.code={%
+ \pgfkeysdef{/pgfplots/#1 coord trafo}{%
\begingroup
\edef\pgfplotstempjuliandate{##1}%
% check if we also have a TIME like '2006-01-01 11:21'
@@ -126,8 +132,8 @@
\fi
\pgfmath@smuggleone\pgfmathresult
\endgroup
- },
- /pgfplots/#1 coord inv trafo/.code={%
+ }%
+ \pgfkeysdef{/pgfplots/#1 coord inv trafo}{%
\begingroup
\pgfplotslibdateplot@number@to@julian@and@time##1\julianto{\c@pgf@counta}\hourto\Hour\minuteto\Minute%
\advance\c@pgf@counta by\pgfplots@calender@ZEROSHIFT\relax
@@ -152,12 +158,43 @@
\def\Second{0}%
\def\second{00}%
\edef\lowlevel{##1}%
- \edef\pgfmathresult{\year-\month-\day}%
- },
- /pgfplots/#1ticklabel={\tick},%
- /pgfplots/scaled #1 ticks=false,
- /pgfplots/plot coordinates/math parser=false,%
+ \pgfkeysifdefined{/pgfplots/date default inv/#1}{%
+ \edef\pgfmathresult{\pgfkeysvalueof{/pgfplots/date default inv/#1}}%
+ }{%
+ \edef\pgfmathresult{\year-\month-\day\space\hour:\minute:\second}%
+ }%
+ }%
+ \pgfkeysifdefined{/pgfplots/#1ticklabel/.@cmd}{%
+ \pgfkeysalso{%
+ /pgfplots/#1ticklabel={\tick},%
+ /pgfplots/scaled #1 ticks=false,%
+ /pgfplots/plot coordinates/math parser=false,%
+ }%
+ }{%
+ % OK. The style can be used for other coordinates as well
+ % (like hist/data)
+ }%
+ %
+ \pgfkeysifdefined{/pgfplots/#1 is expr}{%
+ \pgfkeyssetvalue{/pgfplots/#1 is expr}{0}%
+ }{}%
+ %
+ % Allow a callback (optional)
+ \pgfkeysifdefined{/pgfplots/#1/@execute on coord trafo changed/.@cmd}{%
+ \pgfkeysalso {/pgfplots/#1/@execute on coord trafo changed}%
+ }{}%
},
/pgfplots/date coordinates in/.value required,
+ %
+ % #1: the argument for 'data coordinates in={#1}
+ % #2: the default for the inverse transformation. If there is
+ % none, a default will be chosen automatically (with full
+ % information)
+ /pgfplots/date coordinates default inverse/.style 2 args={%
+ /pgfplots/date default inv/#1/.initial=#2,
+ },
+ /pgfplots/date coordinates default inverse={x}{\year-\month-\day},
+ /pgfplots/date coordinates default inverse={y}{\year-\month-\day},
+ /pgfplots/date coordinates default inverse={z}{\year-\month-\day},
}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex
index 5086fef9d47..32b0e5f32ee 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex
@@ -56,38 +56,58 @@
/pgfplots/group/shared labels=false,
/pgfplots/group/xticklabels at/.is choice,
/pgfplots/group/xticklabels at/all/.code=\def\pgfplots@group@xticklabels{all},
- /pgfplots/group/xticklabels at/edge top/.code=\def\pgfplots@group@xticklabels{upper},
+ /pgfplots/group/xticklabels at/edge top/.code=\def\pgfplots@group@xticklabels{top},
/pgfplots/group/xticklabels at/edge bottom/.code=\def\pgfplots@group@xticklabels{lower},
+ /pgfplots/group/xticklabels at/edge left/.code=\def\pgfplots@group@xticklabels{left}, % TODO
+ /pgfplots/group/xticklabels at/edge right/.code=\def\pgfplots@group@xticklabels{right}, % TODO
/pgfplots/group/xticklabels at=all,
/pgfplots/group/yticklabels at/.is choice,
/pgfplots/group/yticklabels at/all/.code=\def\pgfplots@group@yticklabels{all},
/pgfplots/group/yticklabels at/edge left/.code=\def\pgfplots@group@yticklabels{left},
/pgfplots/group/yticklabels at/edge right/.code=\def\pgfplots@group@yticklabels{right},
+ /pgfplots/group/yticklabels at/edge top/.code=\def\pgfplots@group@yticklabels{top}, % TODO
+ /pgfplots/group/yticklabels at/edge bottom/.code=\def\pgfplots@group@yticklabels{bottom}, % TODO
/pgfplots/group/yticklabels at=all,
/pgfplots/group/xlabels at/.is choice,
/pgfplots/group/xlabels at/all/.code=\def\pgfplots@group@xlabels{all},
- /pgfplots/group/xlabels at/edge top/.code=\def\pgfplots@group@xlabels{upper},
+ /pgfplots/group/xlabels at/edge top/.code=\def\pgfplots@group@xlabels{top},
/pgfplots/group/xlabels at/edge bottom/.code=\def\pgfplots@group@xlabels{lower},
+ /pgfplots/group/xlabels at/edge right/.code=\def\pgfplots@group@xlabels{right}, % TODO
+ /pgfplots/group/xlabels at/edge left/.code=\def\pgfplots@group@xlabels{left},% TODO
/pgfplots/group/xlabels at=all,
/pgfplots/group/ylabels at/.is choice,
/pgfplots/group/ylabels at/all/.code=\def\pgfplots@group@ylabels{all},
/pgfplots/group/ylabels at/edge left/.code=\def\pgfplots@group@ylabels{left},
/pgfplots/group/ylabels at/edge right/.code=\def\pgfplots@group@ylabels{right},
+ /pgfplots/group/ylabels at/edge top/.code=\def\pgfplots@group@ylabels{top}, % TODO
+ /pgfplots/group/ylabels at/edge bottom/.code=\def\pgfplots@group@ylabels{bottom}, % TODO
/pgfplots/group/ylabels at=all,
/pgfplots/group/x descriptions at/.is choice,
- /pgfplots/group/x descriptions at/all/.style=
- {/pgfplots/group/xlabels at=all,/pgfplots/group/xticklabels at=all},
- /pgfplots/group/x descriptions at/edge bottom/.style=
- {/pgfplots/group/xlabels at=edge bottom, /pgfplots/group/xticklabels at=edge bottom},
- /pgfplots/group/x descriptions at/edge top/.style=
- {/pgfplots/group/xlabels at=edge top, /pgfplots/group/xticklabels at=edge top},
+ /pgfplots/group/x descriptions at/all/.style={
+ /pgfplots/group/xlabels at=all,
+ /pgfplots/group/xticklabels at=all
+ },
+ /pgfplots/group/x descriptions at/edge bottom/.style={
+ /pgfplots/group/xlabels at=edge bottom,
+ /pgfplots/group/xticklabels at=edge bottom
+ },
+ /pgfplots/group/x descriptions at/edge top/.style={
+ /pgfplots/group/xlabels at=edge top,
+ /pgfplots/group/xticklabels at=edge top
+ },
/pgfplots/group/y descriptions at/.is choice,
- /pgfplots/group/y descriptions at/all/.style=
- {/pgfplots/group/ylabels at=all, /pgfplots/group/yticklabels at=all},
- /pgfplots/group/y descriptions at/edge left/.style=
- {/pgfplots/group/ylabels at=edge left, /pgfplots/group/yticklabels at=edge left},
- /pgfplots/group/y descriptions at/edge right/.style=
- {/pgfplots/group/ylabels at=edge right, /pgfplots/group/yticklabels at=edge right},
+ /pgfplots/group/y descriptions at/all/.style={
+ /pgfplots/group/ylabels at=all,
+ /pgfplots/group/yticklabels at=all
+ },
+ /pgfplots/group/y descriptions at/edge left/.style={
+ /pgfplots/group/ylabels at=edge left,
+ /pgfplots/group/yticklabels at=edge left
+ },
+ /pgfplots/group/y descriptions at/edge right/.style={
+ /pgfplots/group/ylabels at=edge right,
+ /pgfplots/group/yticklabels at=edge right
+ },
/pgfplots/group/group name/.store in=\pgfplots@group@name,
/pgfplots/group/empty plot/.style={/pgfplots/hide axis=true},
}
@@ -200,9 +220,9 @@
}%
\fi%
\else
- \def\pgfplots@loc@TMPb{upper}%
+ \def\pgfplots@loc@TMPb{top}%
\ifx\pgfplots@loc@TMPb\pgfplots@group@xlabels%
- % xlabels at=upper
+ % xlabels at=top
\ifnum1<\pgfplots@group@rows\relax
\foreach \pgfplots@column in {1,...,\pgfplots@group@columns} {%
\foreach \pgfplots@row in {1,...,\pgfplots@group@rows} {%
@@ -264,7 +284,7 @@
%
\def\pgfplots@group@determine@ticklabels{%
\def\pgfplots@loc@TMPa{all}
- \def\pgfplots@loc@TMPb{upper}
+ \def\pgfplots@loc@TMPb{top}
\def\pgfplots@loc@TMPc{lower}
\ifx\pgfplots@loc@TMPa\pgfplots@group@xticklabels%
% Do nothing as all should have xticklabels
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex
new file mode 100644
index 00000000000..4076e37281c
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex
@@ -0,0 +1,1783 @@
+%--------------------------------------------
+%
+% Package pgfplots, library for higher order patch plots.
+% It contains advanced patch plots like quadratic triangles,
+% biquadratic quadrilaterals, coons patches and others.
+% The basic implementation for patches supports already line, triangle
+% and rectangle (=2 triangles) patches.
+%
+% Copyright 2007/2008/2009 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%--------------------------------------------
+
+ % NOTES:
+ % In general, a Bezier spline C:[0,1] -> \R of order n fulfills
+ % C'(0) = n ( P_1 - P_0 ),
+ % C'(1) = n ( P_n - P_{n-1} ).
+ % For n=3 and given P_0 and P_3, I can directly compute P_1 and P_2 once I know
+ % the derivatives at t=0 and t=1.
+ %
+ %
+ %
+%--------------------------------------------------
+% 4-point Lagrange interpolation on {0,1/3,2/3,1}:
+% C(x) =
+% a * (1/3 - x)/(1/3) * (2/3-x)/(2/3) * (1-x) +
+% b * (0 - x)/(0 - 1/3) * (2/3-x)/(2/3-1/3) * (1-x)/(1-1/3) +
+% c * (0 - x)/(0 - 2/3) * (1/3-x)/(1/3-2/3) * (1-x)/(1-2/3) +
+% d * (0 - x)/(0 - 1) * (1/3-x)/(1/3-1) * (2/3-x) /(2/3-1)
+%
+%
+% Derivative:
+%
+% (-9*c + 2*d + 72*c*x - 18*d*x - 81*c*x^2 + 27*d*x^2 +
+% a*(-11 + 36*x - 27*x^2) + 9*b*(2 - 10*x + 9*x^2))/2
+%
+% bezier control points are
+% P1 = (-5*a)/6 + 3*b - (3*c)/2 + d/3
+% = -0.833333 a + 3. b - 1.5 c + 0.333333 d
+%
+% P2 = 0.333333 (0.5 (2. a - 9. b + 18. c - 11. d) + 3. d)
+% = 0.333333 a - 1.5 b + 3. c - 0.833333 d
+%--------------------------------------------------
+
+
+
+\pgfplotsdeclarepatchclass{quadratic spline}{%
+ allow matrix=0,
+ uses view depth=0,
+ new=\def\pgfplotspatchclass@qspline@no{A},
+ set next vertex={%
+ % EXPECTED ORDERING: first 2 corners, then 1 mid nodes
+ % (interpolatory).
+ % defines \pgfplotspatchclass@qspline@A ... \pgfplotspatchclass@qspline@C (3 points)
+ \expandafter\edef\csname pgfplotspatchclass@qspline@\pgfplotspatchclass@qspline@no\endcsname{#1}%
+ \if C\pgfplotspatchclass@qspline@no
+ \def\pgfplotspatchclass@qspline@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@qspline@no\csname pgfpptchindexnext@\pgfplotspatchclass@qspline@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@qspline@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qspline@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qspline@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qspline@C\endvertex #1%
+ },
+ fill path={%
+ \begingroup
+ % Draw the patch boundary using a bezier curves.
+ %
+ % Since I have lagrange points to describe the patch (i.e.
+ % points the patch passes through), I have to convert the
+ % lagrange representation to bezier.
+ %
+ % Furthermore, I convert to *cubic* bezier since pdf only
+ % supports cubic curves.
+ %
+ % See the docs for 'biquadratic::fill path' for more details,
+ % in does the same.
+ \def\pgfplots@edge{%
+ \ifx\pgfplotspatchclass@qspline@A\PA
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\PA\endvertex}%
+ \fi
+ \pgfpathcurveto {%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ }{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ }{%
+ \expandafter\pgfplotspointpatchvertex\PC\endvertex
+ }%
+ }%
+ \let\PA=\pgfplotspatchclass@qspline@A
+ \let\PB=\pgfplotspatchclass@qspline@C
+ \let\PC=\pgfplotspatchclass@qspline@B
+ \pgfplots@edge
+ \endgroup
+ },
+ triangulate class=line,
+ triangulate={%
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{line}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@B}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ recursive refine@={%
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@C\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qspline@AC
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@AC}%
+ #1%
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qspline@C\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qspline@CB
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qspline@CB}%
+ #1%
+ %
+ },%
+ get pdf shading type=0,
+ get num vertices=3,
+}%
+
+\pgfplotsdeclarepatchclass{cubic spline}{%
+ allow matrix=0,
+ uses view depth=0,
+ new=\def\pgfplotspatchclass@cspline@no{A},
+ set next vertex={%
+ % EXPECTED ORDERING: first 2 corners, then 1 mid nodes
+ % (interpolatory).
+ % defines \pgfplotspatchclass@cspline@A ... \pgfplotspatchclass@cspline@D (4 points)
+ \expandafter\edef\csname pgfplotspatchclass@cspline@\pgfplotspatchclass@cspline@no\endcsname{#1}%
+ \if D\pgfplotspatchclass@cspline@no
+ \def\pgfplotspatchclass@cspline@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@cspline@no\csname pgfpptchindexnext@\pgfplotspatchclass@cspline@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@cspline@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@cspline@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@cspline@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@cspline@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@cspline@D\endvertex #1%
+ },
+ fill path={%
+ % Draw the patch boundary using a bezier curve.
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@cspline@A\endvertex}%
+ % switch basis from lagrange to bezier (see formular on top of
+ % this file)
+ \pgfpathcurveto {%
+ \begingroup
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@A\times{-0.833333}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@C\times{3}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@D\times{-1.5}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@B\times{0.3333333}%
+ \pgfplotspatchvertexfinish\pgfplots@loc@TMPa
+ \expandafter\pgfplotspointpatchvertex\pgfplots@loc@TMPa\endvertex
+ \endgroup
+ }{%
+ \begingroup
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@A\times{0.333333}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@C\times{-1.5}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@D\times{3}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@cspline@B\times{-0.833333}%
+ \pgfplotspatchvertexfinish\pgfplots@loc@TMPa
+ \expandafter\pgfplotspointpatchvertex\pgfplots@loc@TMPa\endvertex
+ \endgroup
+ }{%
+ \expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@cspline@B\endvertex
+ }%
+ },
+ triangulate class=line,
+ triangulate={%
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{line}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@B}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ recursive refine@={%
+ % The 4-point lagrangian interpolation formular is shown on
+ % the top of this page. What I do here is simply to evaluate
+ % C(i*1/9) for i =0,...,9:
+ % 0
+ % 0.493827 A +0.740741 C -0.296296 D +0.0617284 B
+ % 0.17284 A +1.03704 C -0.259259 D +0.0493827 B
+ % 1/3
+ % -0.0617284 A +0.740741 C +0.37037 D -0.0493827 B
+ % -0.0493827 A +0.37037 C +0.740741 D -0.0617284 B
+ % 2/3
+ % 0.0493827 A -0.259259 C +1.03704 D +0.17284 B
+ % 0.0617284 A -0.296296 C +0.740741 D +0.493827 B
+ % 1
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{0.493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{0.0617284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{0.740741}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{-0.296296}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AA
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{0.17284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{0.0493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{1.03704}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{-0.259259}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AB
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AA}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AB}%
+ #1%
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{-0.0617284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{-0.0493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{0.740741}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{0.37037}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AA
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{-0.0493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{-0.0617284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{0.37037}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{0.740741}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AB
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AA}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AB}%
+ #1%
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{0.0493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{0.17284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{-0.259259}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{+1.03704}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AA
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@A\times{0.0617284}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@B\times{0.493827}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@C\times{-0.296296}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@cspline@D\times{0.740741}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@cspline@AB
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AA}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@cspline@AB}%
+ #1%
+ },
+ get pdf shading type=0,
+ get num vertices=4,
+}%
+
+% make a linearized sequence around the edge of the quad.triangle.
+% note the ordering: first 3 corners, then 3 mid nodes:
+\def\pgfplots@qtri@next@A{D}%
+\def\pgfplots@qtri@next@B{E}%
+\def\pgfplots@qtri@next@C{F}%
+\def\pgfplots@qtri@next@D{B}%
+\def\pgfplots@qtri@next@E{C}%
+\def\pgfplots@qtri@next@F{A}%
+
+\def\pgfplots@qtri@rnext@A{F}%
+\def\pgfplots@qtri@rnext@B{D}%
+\def\pgfplots@qtri@rnext@C{E}%
+\def\pgfplots@qtri@rnext@D{A}%
+\def\pgfplots@qtri@rnext@E{B}%
+\def\pgfplots@qtri@rnext@F{C}%
+
+\def\pgfplotspatchclass@qtri@recursiverefine@newnames{%
+ \let\pgfplotspatchclass@qtri@A@=\pgfplotspatchclass@qtri@A%
+ \let\pgfplotspatchclass@qtri@B@=\pgfplotspatchclass@qtri@B%
+ \let\pgfplotspatchclass@qtri@C@=\pgfplotspatchclass@qtri@C%
+ \let\pgfplotspatchclass@qtri@D@=\pgfplotspatchclass@qtri@D%
+ \let\pgfplotspatchclass@qtri@E@=\pgfplotspatchclass@qtri@E%
+ \let\pgfplotspatchclass@qtri@F@=\pgfplotspatchclass@qtri@F%
+}%
+
+
+% A 3-point interpolatory patch which draws quadratic polynomial
+% splines (functions f(x), x 1d).
+\pgfplotsdeclarepatchclass{triangle quadr}{%
+ allow matrix=0,
+ uses view depth=1,
+ new=\def\pgfplotspatchclass@qtri@no{A}\let\pgfplotspatchclass@qtrie@AB\relax,
+ set next vertex={%
+ % EXPECTED ORDERING: first 3 corners, then 3 mid nodes.
+ % defines \pgfplotspatchclass@qtri@A ... \pgfplotspatchclass@qtri@F (6 points)
+ \expandafter\edef\csname pgfplotspatchclass@qtri@\pgfplotspatchclass@qtri@no\endcsname{#1}%
+ \if F\pgfplotspatchclass@qtri@no
+ \def\pgfplotspatchclass@qtri@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@qtri@no\csname pgfpptchindexnext@\pgfplotspatchclass@qtri@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@E\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@F\endvertex #1%
+ },
+ fill path={%
+ \begingroup
+ % Draw the patch boundary using three bezier curves.
+ %
+ % Since I have lagrange points to describe the patch (i.e.
+ % points the patch passes through), I have to convert the
+ % lagrange representation to bezier.
+ %
+ % Furthermore, I convert to *cubic* bezier since pdf only
+ % supports cubic curves.
+ %
+ % See the docs for 'biquadratic::fill path' for more details,
+ % in does the same.
+ \def\pgfplots@edge{%
+ \ifx\pgfplotspatchclass@qtri@A\PA
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\PA\endvertex}%
+ \fi
+ \pgfpathcurveto {%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ }{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ }{%
+ \expandafter\pgfplotspointpatchvertex\PC\endvertex
+ }%
+ }%
+ \let\PA=\pgfplotspatchclass@qtri@A
+ \let\PB=\pgfplotspatchclass@qtri@D
+ \let\PC=\pgfplotspatchclass@qtri@B
+ \pgfplots@edge
+ %
+ \let\PA=\pgfplotspatchclass@qtri@B
+ \let\PB=\pgfplotspatchclass@qtri@E
+ \let\PC=\pgfplotspatchclass@qtri@C
+ \pgfplots@edge
+ %
+ \let\PA=\pgfplotspatchclass@qtri@C
+ \let\PB=\pgfplotspatchclass@qtri@F
+ \let\PC=\pgfplotspatchclass@qtri@A
+ \pgfplots@edge
+ \endgroup
+ \pgfpathclose
+ },
+ %--------------------------------------------------
+ % stroke path={%
+ % \ifx\pgfplotspatchclass@qtrie@AB\relax
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@A\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@B\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@C\endvertex}%
+ % \pgfpathclose
+ % \else
+ % \if1\pgfplotspatchclass@qtrie@AB
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@A\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@B\endvertex}%
+ % \fi
+ % \if1\pgfplotspatchclass@qtrie@BC
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@B\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@C\endvertex}%
+ % \fi
+ % \if1\pgfplotspatchclass@qtrie@CA
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@C\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@qtri@A\endvertex}%
+ % \fi
+ % \fi
+ % },
+ %--------------------------------------------------
+ stream to shader={%
+ % create a degenerate coons patch:
+ \begingroup
+%\message{EDGE INIT^^J}%
+ % this defines \Pcur and \Pnextseq :
+ \pgfplotspatchclass@tri@to@coonspatch@findshadingsequence@for@depth
+ %
+ \pgfutil@namelet{Pstart}{pgfplotspatchclass@qtri@\Pcur}%
+ %
+ % see the docus for "fill path" about these 1.33333 and -0.33333 factors
+ \def\pgfplots@coonsedge{%
+%\message{EDGE \Pcur^^J}%
+ \expandafter\let\expandafter\PA\csname pgfplotspatchclass@qtri@\Pcur\endcsname
+ \edef\Pcur{\csname pgfplots@qtri@\Pnextseq next@\Pcur\endcsname}%
+%\message{---> \Pcur^^J}%
+ \expandafter\let\expandafter\PB\csname pgfplotspatchclass@qtri@\Pcur\endcsname
+ \edef\Pcur{\csname pgfplots@qtri@\Pnextseq next@\Pcur\endcsname}%
+%\message{---> \Pcur^^J}%
+ \expandafter\let\expandafter\PC\csname pgfplotspatchclass@qtri@\Pcur\endcsname
+ \ifx\PA\Pstart
+ \expandafter\pgfplotspatchvertex\PA\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ % degenerate: the "edge" \PA -- \PA collabses into one
+ % point.
+ % Per construction, the "edge" is the FOREGROUND.
+%\message{STREAMING COLLAPSED EDGE AT START POINT^^J}%
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ }{}%
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ }{}%
+ \ifx\PC\Pstart
+ \else
+ \expandafter\pgfplotspatchvertex\PC\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+ }%
+ \pgfplots@coonsedge
+ %
+ \pgfplots@coonsedge
+ %
+ \pgfplots@coonsedge
+ %
+ %
+ \endgroup
+ },%
+ triangulate={%
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{triangle}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}11%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}20%
+ % Ok. Now create 4 triangles. The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D}%
+ %
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}00%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}10%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E}%
+ %
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}11%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ set edge visible={%
+ \ifcase#1
+ \edef\pgfplotspatchclass@qtrie@AB{#2}%
+ \or
+ \edef\pgfplotspatchclass@qtrie@BC{#2}%
+ \or
+ \edef\pgfplotspatchclass@qtrie@CA{#2}%
+ \fi
+ },
+ serialize except vertices={%
+ \ifx\pgfplotspatchclass@qtrie@AB\relax
+ \let\pgfplotsretval\pgfutil@empty%
+ \else
+ \edef\pgfplotsretval{%
+ \noexpand\def\noexpand\pgfplotspatchclass@qtrie@AB{\pgfplotspatchclass@qtrie@AB}%
+ \noexpand\def\noexpand\pgfplotspatchclass@qtrie@BC{\pgfplotspatchclass@qtrie@BC}%
+ \noexpand\def\noexpand\pgfplotspatchclass@qtrie@CA{\pgfplotspatchclass@qtrie@CA}%
+ }%
+ \fi
+ },%
+ deserialize except vertices=%
+ \let\pgfplotspatchclass@qtrie@AB\relax
+ #1,
+ recursive refine@={%
+ \pgfplotspatchclass@qtri@recursiverefine@newnames
+ %
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ %--------------------------------------------------
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}01%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}11%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}20%
+ %--------------------------------------------------
+ % The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ %
+ % I used the reference triangle and shape functions as listed in
+ % http://www.colorado.edu/engineering/CAS/courses.d/IFEM.d/
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@AD
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@DF
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@AF
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@A@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@AF}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@AD}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@DF}%
+ %
+ #1\pgfplotspatchclass@qtri@recursiverefine@newnames
+ %
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@DF
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.25}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@DE
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@EF
+ %
+ %
+ %--------------------------------------------------
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}00%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}10%
+ %--------------------------------------------------
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@DF}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@DE}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@EF}%
+ % %
+ % %--------------------------------------------------
+ % % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}01%
+ % % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}11%
+ % %--------------------------------------------------
+ #1\pgfplotspatchclass@qtri@recursiverefine@newnames
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@DB
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.25}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@DE
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@BE
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@D@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@B@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@DB}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@BE}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@DE}%
+ %
+ #1\pgfplotspatchclass@qtri@recursiverefine@newnames
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@EC
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@B\times{-.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@D\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@E\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@EF
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@C\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@qtri@F\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@qtri@CF
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@E@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@C@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@F@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@EC}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@CF}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@qtri@EF}%
+ %
+ #1%
+ %
+ },%
+ get pdf shading type=6,
+ get num vertices=6,
+}%
+
+
+% see
+% \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
+% and its documentation.
+%
+% POSTCONDITION:
+% \Pcur and \Pnextseq are defined.
+\def\pgfplotspatchclass@tri@to@coonspatch@findshadingsequence@for@depth{%
+ \def\Pcur{A}%
+ \def\Pnextseq{}%
+ %
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@A\endvertex
+ \ifx\pgfplotspatchvertexdepth\pgfutil@empty
+ \else
+ % ah. We have view depth. Use it!
+ % The idea here is as follows.
+ % According to pdf standard, the COONS Shading is
+ % generated in the unit cube and then mapped to the
+ % shading. If u,v in [0,1] are the coordinates in the unit
+ % cube, pixel values for v=1 overwrite values for v=0.
+ % If pixel values have the same v, u=1 overwrites u=0.
+ % In other words, the loop is
+ % for v= 0 to Nv
+ % for u = 0 to Nu
+ % shade pixel for (u,v)
+ %
+ % BB-------CC <--v=1
+ % | |
+ % | |
+ % | |
+ % AA-------DD <--v=0
+ % | |
+ % u=0 u=1
+ %
+ %
+ % IDEA: re-order the sequence of vertices such that z
+ % buffering is obtained.
+ %
+ % APPROACH:
+ % the edge BB--CC collapses into just one point, namely
+ % the FOREGROUND point (i.e. it is drawn on top of
+ % everything else).
+ %
+ % The AA point is the second nearest foreground point.
+ % The sequence is chosen such that AA,BB is the first
+ % edge.
+ %
+ % What is to do (besides determining the vertices for AA
+ % and BB)? Well, make sure, that we can arrange them in
+ % the desired order. This involves a periodic "next vertex"
+ % algorithm which might either go forward
+ % or backward.
+ %
+ % sort according to depth.
+ % To do so, prepare macros \PA,\PB,\PC for use in
+ % \pgfplotsutilsortthree. FORMAT:
+ % \PA={<sortkey>pt <originalindex>}
+ \edef\PA{\pgfplotspatchvertexdepth pt A}%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@B\endvertex
+ \edef\PB{\pgfplotspatchvertexdepth pt B}%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@qtri@C\endvertex
+ \edef\PC{\pgfplotspatchvertexdepth pt C}%
+ \pgfplotsutilsortthree\PA\PB\PC
+ \def\toCHAR##1pt ##2{##2}% get original index
+ %
+ \edef\Pcur{\expandafter\toCHAR\PB}%%
+ \edef\Pnext{\csname pgfplots@qtri@next@\Pcur\endcsname}%
+ \edef\Pnext{\csname pgfplots@qtri@next@\Pnext\endcsname}%
+ \if\Pnext\PA
+ % ok, next(next(AA)) = BB.
+ % that means we have to advance forward.
+ \def\Pnextseq{}%
+ \else
+ % well, since we have a triangle, there only remains
+ % the backwards direction.
+ \def\Pnextseq{r}%
+ \fi
+%\message{FOREGROUND VERTEX = \PA.^^J}%
+%\message{SECOND NEAREST VERTEX = \PB.^^J}%
+ \fi
+}
+\def\pgfplotspatchclass@tri@to@coonspatch@findshadingsequence@for@depth@no@op{%
+ \def\Pcur{A}%
+ \def\Pnextseq{}%
+}
+
+% bilinear is the same as 'rectangle', but it uses a different shader.
+\pgfplotsdeclarepatchclass{bilinear}{%
+ allow matrix=1,
+ new=\def\pgfplotspatchclass@rect@no{0},
+ set next vertex={%
+ \ifcase\pgfplotspatchclass@rect@no\relax
+ \edef\pgfplotspatchclass@rect@A{#1}%
+ \def\pgfplotspatchclass@rect@no{1}%
+ \or
+ \edef\pgfplotspatchclass@rect@B{#1}%
+ \def\pgfplotspatchclass@rect@no{2}%
+ \or
+ \edef\pgfplotspatchclass@rect@C{#1}%
+ \def\pgfplotspatchclass@rect@no{3}%
+ \or
+ \edef\pgfplotspatchclass@rect@D{#1}%
+ \def\pgfplotspatchclass@rect@no{0}%
+ \pgfplotspatchready%
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@D\endvertex #1%
+ },
+ stream to shader={%
+ % create a coons patch:
+ \begingroup
+ \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
+ {pgfplotspatchclass@rect@}{\Pcur}{\Pnextseq}%
+ %
+ \pgfutil@namelet{Pstart}{pgfplotspatchclass@rect@\Pcur}%
+ \def\pgfplots@coonsedge{%
+%\message{EDGE \Pcur^^J}%
+ \expandafter\let\expandafter\PA\csname pgfplotspatchclass@rect@\Pcur\endcsname
+ \edef\Pcur{\csname pgfplots@rect@\Pnextseq next@\Pcur\endcsname}%
+%\message{---> \Pcur^^J}%
+ \expandafter\let\expandafter\PB\csname pgfplotspatchclass@rect@\Pcur\endcsname
+ \ifx\PA\Pstart
+ \expandafter\pgfplotspatchvertex\PA\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+ %
+ % CONTROL POINT A+1/3(B-A)
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{0.6666666}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ {\pgfqpointscale{0.3333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ }{}%
+ % CONTROL POINT A+2/3(B-A)
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{0.3333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ {\pgfqpointscale{0.6666666}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ }{}%
+ \ifx\PB\Pstart
+ \else
+ \expandafter\pgfplotspatchvertex\PB\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+ }%
+ %
+ \pgfplots@coonsedge
+ %
+ \pgfplots@coonsedge
+ %
+ \pgfplots@coonsedge
+ %
+ \pgfplots@coonsedge
+ %
+ \endgroup
+ },%
+ fill path={%
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@B\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@C\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@D\endvertex}%
+ \pgfpathclose
+ },
+ triangulate={%
+ \pgfplotscoordmath{meta}{parsenumber}{0.25}%
+ \let\pgfplots@loc@scale=\pgfmathresult
+ %
+ \pgf@xa=0pt
+ \pgf@ya=0pt
+ \pgf@yb=0pt
+ \pgfplotscoordmath{meta}{zero}%
+ \def\pgfplots@loc@accum@mean{%
+ \advance\pgf@xa by\pgfplotspatchvertexx\relax
+ \advance\pgf@ya by\pgfplotspatchvertexy\relax
+ \pgfplotscoordmath{meta}{op}{add}{{\pgfmathresult}{\pgfplotspatchvertexmeta}}%
+ \ifx\pgfplotspatchvertexdepth\pgfutil@empty
+ \else
+ \advance\pgf@yb by\pgfplotspatchvertexdepth pt\relax
+ \fi
+ }%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex \pgfplots@loc@accum@mean%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@B\endvertex \pgfplots@loc@accum@mean%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@C\endvertex \pgfplots@loc@accum@mean%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@D\endvertex \pgfplots@loc@accum@mean%
+ %
+ \divide\pgf@xa by4
+ \divide\pgf@ya by4
+ \divide\pgf@yb by4
+ \pgfplotscoordmath{meta}{op}{multiply}{{\pgfmathresult}{\pgfplots@loc@scale}}%
+ \edef\pgfplotspatchclass@rect@M{{\the\pgf@xa}{\the\pgf@ya}{\pgfmathresult}\ifx\pgfplotspatchvertexdepth\pgfutil@empty\else \pgf@sys@tonumber\pgf@yb\fi}%
+ %
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{triangle}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}10%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}20%
+ % Ok. Now create 4 triangles. The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@M}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@M}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@M}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@M}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ recursive refine@={%
+ \pgfplotspatchclass@rect@refine@{#1}%
+ },%
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,%
+ deserialize except vertices=,
+ get pdf shading type=6,
+ get num vertices=4,
+}%
+
+\pgfplotsdeclarepatchclass{rectangle}{%
+ recursive refine@={%
+ \pgfplotspatchclass@rect@refine@{#1}%
+ },%
+}
+\def\pgfplotspatchclass@rect@refine@#1{%
+ \pgfplotspatchclass@rect@recursiverefine@newnames
+ %
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ %--------------------------------------------------
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}01%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}11%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}20%
+ %--------------------------------------------------
+ % The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@A\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@B\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@C\times{0.25}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@D\times{0.25}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@M
+ %
+ \expandafter\pgfplotspatchclass@rect@refine@@\expandafter{\pgfplotspatchclass@rect@M}{#1}%
+}
+\def\pgfplotspatchclass@rect@refine@@#1#2{%
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@A\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@B\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@AB
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@A\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@D\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@DA
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@A@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@AB}%
+ \pgfplotsplothandlermesh@setnextvertex{#1}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@DA}%
+ #2\pgfplotspatchclass@rect@recursiverefine@newnames
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@A\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@B\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@AB
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@B\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@C\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@BC
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@AB}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@B@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@BC}%
+ \pgfplotsplothandlermesh@setnextvertex{#1}%
+ #2\pgfplotspatchclass@rect@recursiverefine@newnames
+ %
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@C\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@D\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@CD
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@B\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@C\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@BC
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@BC}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@C@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@CD}%
+ \pgfplotsplothandlermesh@setnextvertex{#1}%
+ #2\pgfplotspatchclass@rect@recursiverefine@newnames
+ %
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@C\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@D\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@CD
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@D\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@rect@A\times{0.5}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@rect@DA
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@CD}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@D@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@DA}%
+ \pgfplotsplothandlermesh@setnextvertex{#1}%
+ #2\pgfplotspatchclass@rect@recursiverefine@newnames
+ %
+}%
+
+\def\pgfplotspatchclass@rect@recursiverefine@newnames{%
+ \let\pgfplotspatchclass@rect@A@=\pgfplotspatchclass@rect@A%
+ \let\pgfplotspatchclass@rect@B@=\pgfplotspatchclass@rect@B%
+ \let\pgfplotspatchclass@rect@C@=\pgfplotspatchclass@rect@C%
+ \let\pgfplotspatchclass@rect@D@=\pgfplotspatchclass@rect@D%
+}%
+
+\def\pgfplots@biquad@next@A{E}
+\def\pgfplots@biquad@next@B{F}
+\def\pgfplots@biquad@next@C{G}
+\def\pgfplots@biquad@next@D{H}
+\def\pgfplots@biquad@next@E{B}
+\def\pgfplots@biquad@next@F{C}
+\def\pgfplots@biquad@next@G{D}
+\def\pgfplots@biquad@next@H{A}
+
+
+\def\pgfplots@biquad@rnext@A{H}
+\def\pgfplots@biquad@rnext@B{E}
+\def\pgfplots@biquad@rnext@C{F}
+\def\pgfplots@biquad@rnext@D{G}
+\def\pgfplots@biquad@rnext@E{A}
+\def\pgfplots@biquad@rnext@F{B}
+\def\pgfplots@biquad@rnext@G{C}
+\def\pgfplots@biquad@rnext@H{D}
+
+\def\pgfplotspatchclass@biquad@recursiverefine@newnames{%
+ \let\pgfplotspatchclass@biquad@A@=\pgfplotspatchclass@biquad@A%
+ \let\pgfplotspatchclass@biquad@B@=\pgfplotspatchclass@biquad@B%
+ \let\pgfplotspatchclass@biquad@C@=\pgfplotspatchclass@biquad@C%
+ \let\pgfplotspatchclass@biquad@D@=\pgfplotspatchclass@biquad@D%
+ \let\pgfplotspatchclass@biquad@E@=\pgfplotspatchclass@biquad@E%
+ \let\pgfplotspatchclass@biquad@F@=\pgfplotspatchclass@biquad@F%
+ \let\pgfplotspatchclass@biquad@G@=\pgfplotspatchclass@biquad@G%
+ \let\pgfplotspatchclass@biquad@H@=\pgfplotspatchclass@biquad@H%
+ \let\pgfplotspatchclass@biquad@I@=\pgfplotspatchclass@biquad@I%
+}%
+
+
+% mathematica shape functions parameterized in
+% (xi,eta) in [-1,1]x[-1,1]:
+%f[xi_, eta_] =
+% a*1/4*(1 - xi) (1 - eta) xi*eta +
+% b 1/4 (-1 - xi) (1 - eta) xi*eta +
+% c* 1/4 (-1 - xi) (-1 - eta) xi*eta +
+% d *1/4 (1 - xi) (-1 - eta) xi*eta +
+% e * 1/2 (xi^2 - 1) (1 - eta) eta +
+% f*1/2 (-1 - xi) (eta^2 - 1) xi +
+% g* -1/2 (1 - xi^2) (-1 - eta) eta +
+% h* -1/2 (1 - xi) (1 - eta^2) xi +
+% i*(1 - xi^2) (1 - eta^2)
+% here, a,b,...,i are the 9 nodes.
+\pgfplotsdeclarepatchclass{biquadratic}{%
+ allow matrix=0,
+ new=\def\pgfplotspatchclass@biquad@no{A}\let\pgfplotspatchclass@biquade@AB\relax,
+ set next vertex={%
+ % defines \pgfplotspatchclass@biquad@A ... \pgfplotspatchclass@biquad@I (9 points)
+ \expandafter\edef\csname pgfplotspatchclass@biquad@\pgfplotspatchclass@biquad@no\endcsname{#1}%
+ \if I\pgfplotspatchclass@biquad@no
+ \def\pgfplotspatchclass@biquad@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@biquad@no\csname pgfpptchindexnext@\pgfplotspatchclass@biquad@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@E\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@F\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@G\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@H\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@biquad@I\endvertex #1%
+ },
+ fill path={%
+ \begingroup
+ % Visualize the patch boundary using four bezier curves.
+ %
+ % This involves a change from Lagrange to bezier
+ % representation of the boundary curves.
+ %
+ % Furthermore, pdf supports only **cubic** bezier curves. What
+ % I am doing here is
+ % a) change of basis from 3-point lagrange ---> 3 point quadratic bezier
+ % b) expression 3 point quadratic bezier ----> 4 point cubic bezier
+ %
+ % INPUT:
+ % 3 langrange points (i.e. the patch passes through them)
+ % \PA,\PB,\PC (start,middle,end)
+ %
+ % OUTPUT:
+ % \PA,bezier control 1, bezier control 2, \PC.
+ %
+ \def\pgfplots@edge{%
+ \ifx\pgfplotspatchclass@biquad@A\PA
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\PA\endvertex}%
+ \fi
+ \pgfpathcurveto {%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ }{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ }{%
+ \expandafter\pgfplotspointpatchvertex\PC\endvertex
+ }%
+ }%
+ \let\PA=\pgfplotspatchclass@biquad@A
+ \let\PB=\pgfplotspatchclass@biquad@E
+ \let\PC=\pgfplotspatchclass@biquad@B
+ \pgfplots@edge
+ %
+ \let\PA=\pgfplotspatchclass@biquad@B
+ \let\PB=\pgfplotspatchclass@biquad@F
+ \let\PC=\pgfplotspatchclass@biquad@C
+ \pgfplots@edge
+ %
+ \let\PA=\pgfplotspatchclass@biquad@C
+ \let\PB=\pgfplotspatchclass@biquad@G
+ \let\PC=\pgfplotspatchclass@biquad@D
+ \pgfplots@edge
+ %
+ \let\PA=\pgfplotspatchclass@biquad@D
+ \let\PB=\pgfplotspatchclass@biquad@H
+ \let\PC=\pgfplotspatchclass@biquad@A
+ \pgfplots@edge
+ \endgroup
+ \pgfpathclose
+ },
+ %--------------------------------------------------
+ % stroke path={%
+ % \ifx\pgfplotspatchclass@biquade@AB\relax
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@A\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@B\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@C\endvertex}%
+ % \pgfpathclose
+ % \else
+ % \if1\pgfplotspatchclass@biquade@AB
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@A\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@B\endvertex}%
+ % \fi
+ % \if1\pgfplotspatchclass@biquade@BC
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@B\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@C\endvertex}%
+ % \fi
+ % \if1\pgfplotspatchclass@biquade@CA
+ % \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@C\endvertex}%
+ % \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@biquad@A\endvertex}%
+ % \fi
+ % \fi
+ % },
+ %--------------------------------------------------
+ stream to shader={%
+ \begingroup
+ \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
+ {pgfplotspatchclass@biquad@}{\Pcur}{\Pnextseq}%
+ %
+ \let\Pstartidx\Pcur%
+ \pgfutil@namelet{Pstart}{pgfplotspatchclass@biquad@\Pcur}%
+ %
+ % create a tensor cubic bezier patch.
+ %
+ % Again, the outer boundary involves a map from 3 point lagrange
+ % representation to 4 point cubic bezier.
+ %
+ % The main complication arises to support the INNER node (\pgfplotspatchclass@biquad@I) .
+ % We need the four inner bezier control points to get it
+ % correctly.
+ %
+ % this here handles only the OUTER shaper. It is the same as
+ % for 'fill path'.
+ % See 'fill path' for docs.
+ %
+ \pgfplotspatchclass@biquad@coonsedge
+ %
+ \pgfplotspatchclass@biquad@coonsedge
+ %
+ \pgfplotspatchclass@biquad@coonsedge
+ %
+ \pgfplotspatchclass@biquad@coonsedge
+ %
+ % FIXME:
+ % \pgfplotspatchclass@biquad@innercontrolpoints
+ %
+ \endgroup
+ },%
+ triangulate={%
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{triangle}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}10%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}20%
+ % Ok. Now create 4 triangles. The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@E}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@H}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@E}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@F}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@H}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@G}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@G}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@F}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ %--------------------------------------------------
+ % set edge visible={%
+ % \ifcase#1
+ % \edef\pgfplotspatchclass@biquade@AB{#2}%
+ % \or
+ % \edef\pgfplotspatchclass@biquade@BC{#2}%
+ % \or
+ % \edef\pgfplotspatchclass@biquade@CA{#2}%
+ % \fi
+ % },
+ %--------------------------------------------------
+ serialize except vertices={%
+ \ifx\pgfplotspatchclass@biquade@AB\relax
+ \let\pgfplotsretval\pgfutil@empty%
+ \else
+ \edef\pgfplotsretval{%
+ \noexpand\def\noexpand\pgfplotspatchclass@biquade@AB{\pgfplotspatchclass@biquade@AB}%
+ \noexpand\def\noexpand\pgfplotspatchclass@biquade@BC{\pgfplotspatchclass@biquade@BC}%
+ \noexpand\def\noexpand\pgfplotspatchclass@biquade@CA{\pgfplotspatchclass@biquade@CA}%
+ }%
+ \fi
+ },%
+ deserialize except vertices=%
+ \let\pgfplotspatchclass@biquade@AB\relax
+ #1,
+ recursive refine@={%
+ \pgfplotspatchclass@biquad@recursiverefine@newnames
+ %
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ %--------------------------------------------------
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}01%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}11%
+ % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}20%
+ %--------------------------------------------------
+ % The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ %
+ % I used the reference triangle and shape functions as listed in
+ % http://www.colorado.edu/engineering/CAS/courses.d/IFEM.d/,
+ % see above for the definition of f[xi,eta]
+ %
+ % N[{f[-1/2, -1], f[0, -1/2], f[-1/2, 0], f[-1, -1/2], f[-1/2, -1/2]}]
+ % {0.375` a - 0.125` b + 0.75` e,
+ % 0.375` e - 0.125` g + 0.75` i,
+ % -0.125` f + 0.375` h + 0.75` i,
+ % 0.375` a - 0.125` d + 0.75` h,
+ % 0.140625` a - 0.046875` b + 0.015625` c - 0.046875` d +
+ % 0.28125` e - 0.09375` f - 0.09375` g + 0.28125` h +
+ % 0.5625` i}
+ %--------------------------------------------------
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@AE
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@EI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@HI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@AH
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{0.140625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{0.015625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.5625}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@AEIH
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@A@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@E@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@H@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@AE}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@EI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@HI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@AH}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@AEIH}%
+ %
+ #1\pgfplotspatchclass@biquad@recursiverefine@newnames
+ %
+ % N[{f[1/2, -1], f[1, -1/2], f[1/2, 0], f[1/2, -1/2]}]
+ % {-0.125` a + 0.375` b + 0.75` e,
+ % 0.375` b - 0.125` c + 0.75` f,
+ % 0.375` f - 0.125` h + 0.75` i,
+ % -0.046875 a + 0.140625 b - 0.046875 c + 0.015625 d + 0.28125 e + 0.28125 f - 0.09375 g - 0.09375 h + 0.5625 i}
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@EB
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@BF
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@FI
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@EI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{0.140625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{0.015625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.5625}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@EBFI
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@E@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@B@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@F@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@EB}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@BF}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@FI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@EI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@EBFI}%
+ %
+ #1\pgfplotspatchclass@biquad@recursiverefine@newnames
+ %
+ %
+ % N[ {f[1, 1/2], f[1/2, 1], f[0, 1/2], f[1/2, 1/2]}]
+ % {-0.125` b + 0.375` c + 0.75` f,
+ % 0.375` c - 0.125` d + 0.75` g,
+ % -0.125` e + 0.375` g + 0.75` i,
+ % 0.015625` a - 0.046875` b + 0.140625` c - 0.046875` d - 0.09375` e + 0.28125` f + 0.28125` g - 0.09375` h + 0.5625` i}
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@FC
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@CG
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@GI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@FI
+ %
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{0.015625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{0.140625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.5625}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@IFCG
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@F@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@C@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@G@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@FI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@FC}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@CG}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@GI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@IFCG}%
+ %
+ #1\pgfplotspatchclass@biquad@recursiverefine@newnames
+ %
+ %
+ % N[{f[-1/2, 1], f[-1, 1/2], f[-1/2, 1/2]}]
+ % {-0.125 c + 0.375 d + 0.75 g,
+ % -0.125 a + 0.375 d + 0.75 h,
+ % -0.046875 a + 0.015625 b - 0.046875 c + 0.140625 d - 0.09375 e - 0.09375 f + 0.28125 g + 0.28125 h + 0.5625 i}
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@GD
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@DH
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@GI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{-0.125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@HI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@A\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@B\times{0.015625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@C\times{-0.046875}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@D\times{0.140625}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@E\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@F\times{-0.09375}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@G\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@H\times{0.28125}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@biquad@I\times{0.5625}%
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@biquad@HIGD
+ %
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@H@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@I@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@G@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@D@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@HI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@GI}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@GD}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@DH}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@biquad@HIGD}%
+ %
+ #1%
+ %
+ },%
+ get pdf shading type=6,
+ get num vertices=9,
+}%
+
+% see docs in 'biquadratic::stream to shader' for details.
+% PRECONDITION: to be used inside of 'stream to shader'.
+\def\pgfplotspatchclass@biquad@coonsedge{%
+%\message{EDGE \Pcur^^J}%
+ \expandafter\let\expandafter\PA\csname pgfplotspatchclass@biquad@\Pcur\endcsname
+ \edef\Pcur{\csname pgfplots@biquad@\Pnextseq next@\Pcur\endcsname}%
+ \expandafter\let\expandafter\PB\csname pgfplotspatchclass@biquad@\Pcur\endcsname
+%\message{---> \Pcur^^J}%
+ \edef\Pcur{\csname pgfplots@biquad@\Pnextseq next@\Pcur\endcsname}%
+ \expandafter\let\expandafter\PC\csname pgfplotspatchclass@biquad@\Pcur\endcsname
+%\message{---> \Pcur^^J}%
+ \ifx\PA\Pstart
+ \expandafter\pgfplotspatchvertex\PA\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ }{}%
+ \pgfplotslibrarysurfstreamcoord{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ }{}%
+ \ifx\PC\Pstart
+ \else
+ \expandafter\pgfplotspatchvertex\PC\endvertex
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
+ \fi
+}%
+\def\pgfplotspatchclass@biquad@innercontrolpoints{%
+ \begingroup
+ %
+ % This here computes the FOUR INNER CONTROL POINTS of a tensor
+ % cubic bezier patch (Shading Type 7).
+ %
+ %
+ % the following point coordinates have been acquired from
+ % biquadratic::recursive refine. See above for documentation.
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@A\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@B\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@E\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@AE
+ %
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@F\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@H\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@HI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@A\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@B\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@E\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@EB
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@F\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@H\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@I\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@FI
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@C\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@D\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@G\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@CG
+ %
+ \pgfplotspatchvertexaccumstart
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@C\times{-0.125}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@D\times{0.375}%
+ \expandafter\pgfplotspatchvertexaddXY\pgfplotspatchclass@biquad@G\times{0.75}%
+ \pgfplotspatchvertexfinishXY\pgfplotspatchclass@biquad@GD
+ %
+ %
+ \let\PA=\pgfplotspatchclass@biquad@AE
+ \let\PB=\pgfplotspatchclass@biquad@HI
+ \let\PC=\pgfplotspatchclass@biquad@GD
+ \pgfplotspatchclass@biquad@innercontrolpoints@PREPARE\pgfplotspatchclass@biquad@@A\pgfplotspatchclass@biquad@@D
+ %
+ \let\PA=\pgfplotspatchclass@biquad@EB
+ \let\PB=\pgfplotspatchclass@biquad@FI
+ \let\PC=\pgfplotspatchclass@biquad@CG
+ \pgfplotspatchclass@biquad@innercontrolpoints@PREPARE\pgfplotspatchclass@biquad@@B\pgfplotspatchclass@biquad@@C
+ %
+ %
+ \let\Pcur=\Pstartidx
+ \pgfplotslibrarysurfstreamcoord{\csname pgfplotspatchclass@biquad@@\Pcur\endcsname}{}%
+ %
+ \edef\Pcur{\csname pgfplots@rect@\Pnextseq next@\Pcur\endcsname}%
+ \pgfplotslibrarysurfstreamcoord{\csname pgfplotspatchclass@biquad@@\Pcur\endcsname}{}%
+ %
+ \edef\Pcur{\csname pgfplots@rect@\Pnextseq next@\Pcur\endcsname}%
+ \pgfplotslibrarysurfstreamcoord{\csname pgfplotspatchclass@biquad@@\Pcur\endcsname}{}%
+ %
+ \edef\Pcur{\csname pgfplots@rect@\Pnextseq next@\Pcur\endcsname}%
+ \pgfplotslibrarysurfstreamcoord{\csname pgfplotspatchclass@biquad@@\Pcur\endcsname}{}%
+ \endgroup
+}%
+\def\pgfplotspatchclass@biquad@innercontrolpoints@PREPARE#1#2{%
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}}%
+ \edef#1{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ %
+ \pgfpointadd
+ {\pgfqpointscale{1.333333}{\expandafter\pgfplotspointpatchvertex\PB\endvertex}}%
+ {\pgfqpointscale{-0.333333}{\expandafter\pgfplotspointpatchvertex\PA\endvertex}}%
+ \edef#2{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ %
+\pgfpathcircle{\expandafter\pgfplotspointpatchvertex\PA\endvertex}{1pt}\pgfusepath{fill}%
+\pgfpathcircle{\expandafter\pgfplotspointpatchvertex\PB\endvertex}{1pt}\pgfusepath{fill}%
+\pgfpathcircle{\expandafter\pgfplotspointpatchvertex\PC\endvertex}{1pt}\pgfusepath{fill}%
+\pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\PA\endvertex}%
+\pgfpathcurveto{#1}{#2}{\expandafter\pgfplotspointpatchvertex\PC\endvertex}%
+\pgfusepath{stroke}%
+}
+
+% Direct interface to coons patches (pdf shading type 6).
+% See manual and/or pdf reference
+\pgfplotsdeclarepatchclass{coons}{%
+ allow matrix=0,
+ new=\def\pgfplotspatchclass@coons@no{A},
+ set next vertex={%
+ % defines \pgfplotspatchclass@coons@A ... \pgfplotspatchclass@coons@L (12 points)
+ \expandafter\edef\csname pgfplotspatchclass@coons@\pgfplotspatchclass@coons@no\endcsname{#1}%
+ \if L\pgfplotspatchclass@coons@no
+ \def\pgfplotspatchclass@coons@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@coons@no\csname pgfpptchindexnext@\pgfplotspatchclass@coons@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@E\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@F\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@G\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@H\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@I\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@J\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@K\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@L\endvertex #1%
+ },
+ foreach cdata vertex={%
+ % 0, 3, 6, 9
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@G\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@coons@J\endvertex #1%
+ },
+ fill path={%
+ \pgfpathmoveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@A\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@B\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@C\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@D\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@E\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@F\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@G\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@H\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@I\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@J\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@K\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@L\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@coons@A\endvertex}%
+ \pgfpathclose
+ },
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,%
+ deserialize except vertices=,
+ get pdf shading type=6,
+ get num vertices=12,
+ get num cdata vertices=4,
+}%
+
+% Direct interface to tensor product bezier patches (pdf shading type 7).
+% See manual and/or pdf reference
+\pgfplotsdeclarepatchclass{tensor bezier}{%
+ allow matrix=0,
+ new=\def\pgfplotspatchclass@tensor@no{A},
+ set next vertex={%
+ % defines \pgfplotspatchclass@tensor@A ... \pgfplotspatchclass@tensor@P (16 points)
+ \expandafter\edef\csname pgfplotspatchclass@tensor@\pgfplotspatchclass@tensor@no\endcsname{#1}%
+ \if P\pgfplotspatchclass@tensor@no
+ \def\pgfplotspatchclass@tensor@no{A}%
+ \pgfplotspatchready
+ \else
+ \expandafter\let\expandafter\pgfplotspatchclass@tensor@no\csname pgfpptchindexnext@\pgfplotspatchclass@tensor@no\endcsname
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@E\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@F\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@G\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@H\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@I\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@J\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@K\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@L\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@M\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@N\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@O\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@P\endvertex #1%
+ },
+ foreach cdata vertex={%
+ % 0, 3, 6, 9
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@D\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@G\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tensor@J\endvertex #1%
+ },
+ fill path={%
+ \pgfpathmoveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@A\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@B\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@C\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@D\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@E\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@F\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@G\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@H\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@I\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@J\endvertex}%
+ \pgfpathcurveto {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@K\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@L\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tensor@A\endvertex}%
+ \pgfpathclose
+ },
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,%
+ deserialize except vertices=,
+ get pdf shading type=7,
+ get num vertices=16,
+ get num cdata vertices=4,
+}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex
new file mode 100644
index 00000000000..7502dac1c36
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex
@@ -0,0 +1,733 @@
+%--------------------------------------------
+%
+% Package pgfplots, library for polar coordinates.
+%
+% Copyright 2010 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+% A polar axis lives in (ANGLE,LENGTH).
+% That is
+% x == ANGLE
+% y == LENGTH
+%
+%
+
+\pgfplotsdefineaxistype[polar]{polar}{%
+ \pgfplots@polaraxis@activate
+}%
+
+\newif\ifpgfplots@polaraxis@rellimits
+
+\pgfplotsset{
+ /pgfplots/every polar axis/.style={
+ grid=major,
+ xtick pos=right,
+ ytick pos=right,
+ every axis title shift=1.2\baselineskip,
+ legend style={anchor=center},
+ },
+ /pgfplots/xticklabel in circle/.style={
+ xtick align=inside,
+ xticklabel style={
+ rotate=90,
+ sloped like x axis={%
+ execute for upside down={\tikzset{anchor=north east}},
+ %allow upside down,
+ reset nontranslations=false},
+ anchor=south west,
+ %font=\tiny,
+ }
+ },
+}
+
+\def\pgfplots@polaraxis@activate{%
+ \let\pgfplotsqpointxy@cart=\pgfplotsqpointxy
+ \let\pgfplotsqpointxy=\pgfplotsqpointxy@polaraxis
+ \let\pgfplotsqpointxy@orthogonal=\pgfplotsqpointxy
+% \def\pgfplotsqpointxyz##1##2##3{\pgfplotsqpointxy{##1}{##2}}% FIXME
+ \let\pgfplotspointouternormalvectorofaxis@=\pgfplotspointouternormalvectorofaxis@polaraxis
+ \def\pgfplotspointouternormalvectorofaxis@ifdependson@v##1##2##3{##2}%
+ \def\pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf##1{}%
+ \let\pgfplots@clippath@prepare@for@axistype=\pgfplots@clippath@prepare@for@axistype@polaraxis
+ \let\pgfplots@handle@invalid@range@defaultlimits=\pgfplots@handle@invalid@range@defaultlimits@polar%
+ \let\pgfplots@check@invalid@range=\pgfplots@check@invalid@range@polar
+ \let\pgfplotspointonorientedsurfaceabwithbshift=\pgfplotspointonorientedsurfaceabwithbshift@polaraxis
+ \let\pgfplots@drawgridlines@onorientedsurf@fromto=\pgfplots@drawgridlines@onorientedsurf@fromto@polar
+ \let\pgfplotspoint@initialisation@axes=\pgfplotspoint@initialisation@axes@polar%
+ \let\pgfplotspoint@initialisation@units=\pgfplotspoint@initialisation@units@polar
+ \let\pgfplotsaxisifcontainspoint=\pgfplotsaxisifcontainspoint@polar
+ \let\pgfplots@prepare@axis@API=\pgfplots@prepare@axis@API@polar
+ \def\axisdefaultheight{\axisdefaultwidth}%
+ \let\pgfplots@initsizes=\pgfplots@initsizes@polar
+ \let\pgfplots@limits@ready=\pgfplots@limits@ready@polar
+ \let\pgfplots@assign@default@tick@foraxis@normalizetickdist=\pgfplots@assign@default@tick@foraxis@normalizetickdist@polar
+ \let\pgfplots@show@ticklabel@=\pgfplots@show@ticklabel@@polar
+ \let\pgfplots@enlarge@limit@for=\pgfplots@enlarge@limit@for@polar
+ \def\pgfplots@xtick@disable@last@tick{0}%
+ \let\pgfplots@xtick@check@tickshow=\pgfplots@xtick@check@tickshow@polar%
+ \let\pgfplots@set@options@sanitize=\relax
+ \let\pgfplots@set@options@sanitizemode=\relax
+ \let\pgfplotscoordmathnotifydatascalesetfor=\pgfplotscoordmathnotifydatascalesetfor@polar
+ %
+ % this here is set *before* 'every polar axis' is invoked.
+ \pgfplotsset{
+ enlarge x limits=false,
+ }%
+ \expandafter\def\expandafter\pgfplots@notify@options@are@set\expandafter{%
+ \pgfplots@notify@options@are@set
+ \pgfplotsset{separate axis lines}%
+ }%
+ \def\pgfplots@xticklabel@pos{}%
+ \def\pgfplots@yticklabel@pos{}%
+ \def\pgfplots@zticklabel@pos{}%
+ \def\pgfplots@init@ticklabelaxisspecfor##1##2{}%
+ \def\pgfplots@init@ticklabelaxisspec@twodim@for##1##2{}%
+ \def\pgfplots@xticklabelaxisspec{v10}%
+ \def\pgfplots@yticklabelaxisspec{0v0}%
+ \def\pgfplots@zticklabelaxisspec{00v}%
+ %
+ % cartesian cs
+ \tikzdeclarecoordinatesystem{cartesian}{\edef\pgfplots@loc@TMPa{##1}\expandafter\pgfplotspointcartesian@\pgfplots@loc@TMPa\pgfplots@coord@end}%
+ %
+}%
+
+\let\pgfplots@prepare@axis@API@orig=\pgfplots@prepare@axis@API
+\def\pgfplots@prepare@axis@API@polar{%
+ \pgfplots@prepare@axis@API@orig
+ \let\pgfplotsaxisupdatelimitsforcoordinatetwodim=\pgfplotsaxisupdatelimitsforcoordinatetwodim@polar
+ \let\pgfplotsaxisupdatelimitsforcoordinatethreedim=\pgfplotsaxisupdatelimitsforcoordinatetwodim@polar
+}%
+
+\def\pgfplotsaxisupdatelimitsforcoordinatetwodim@polar#1#2#3{%
+ %
+ %
+ % Update limits:
+ % I do not respect x limits (since they are periodic).
+ % Consequently, I do not respect the clip limits options here (I
+ % suppose it is useless)
+ %
+ % for y (radius) limits, I always use the ABSOLUTE value:
+ \pgfmathfloatabs@{#2}%
+ \let\pgfplots@loc@limit=\pgfmathresult
+ %
+ \ifpgfplots@autocompute@ymax
+ \ifpgfplots@yislinear
+ \pgfplotsmathfloatmax{\pgfplots@ymax}{\pgfplots@loc@limit}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ \else
+ \pgfplotsmathmax{\pgfplots@ymax}{\pgfplots@loc@limit}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ \fi
+ \fi
+ %
+ % Compute data range:
+ \pgfplotsmathfloatmin{\pgfplots@data@xmin}{#1}%
+ \global\let\pgfplots@data@xmin=\pgfmathresult
+ \pgfplotsmathfloatmax{\pgfplots@data@xmax}{#1}%
+ \global\let\pgfplots@data@xmax=\pgfmathresult
+ \pgfplotsmathfloatmin{\pgfplots@data@ymin}{#2}%
+ \global\let\pgfplots@data@ymin=\pgfmathresult
+ \pgfplotsmathfloatmax{\pgfplots@data@ymax}{#2}%
+ \global\let\pgfplots@data@ymax=\pgfmathresult
+%\pgfplots@message{Updated limits: (\pgfplots@xmin,\pgfplots@ymin) rectangle (\pgfplots@xmax,\pgfplots@ymax).}%
+%
+%\tracingmacros=0\tracingcommands=0
+}%
+\def\pgfplotsaxisifcontainspoint@polar#1#2{%
+ \pgfmath@basic@mod@{\pgfplots@current@point@x}{360}%
+ \pgf@xa=\pgfmathresult pt %
+ %
+ \pgf@ya=\pgfplots@current@point@y pt %
+ \ifdim\pgf@ya<0pt
+ % absolute value:
+ \pgf@ya=-\pgf@ya
+ \fi
+ %
+ % I assume that \pgfplots@[xyz]min@reg and min@reg are registers
+ % containing the limits.
+ \pgfplots@loop@CONTINUEfalse
+ \ifdim\pgf@ya<\pgfplots@ymin@reg
+ \else
+ \ifdim\pgf@ya>\pgfplots@ymax@reg
+ \else
+ \if1\b@pgfplots@polar@limit@around@zero
+ % check condition
+ % x <= max || x >= min
+ % <=> ! (x > max && x < min)
+ \pgfplots@loop@CONTINUEtrue
+ \ifdim\pgf@xa>\pgfplots@xmax@mod pt %
+ \ifdim\pgf@xa<\pgfplots@xmin@mod pt %
+ \pgfplots@loop@CONTINUEfalse
+ \fi
+ \fi
+ \else
+ \ifdim\pgf@xa<\pgfplots@xmin@mod pt %
+ \else
+ \ifdim\pgf@xa>\pgfplots@xmax@mod pt %
+ \else
+ \pgfplots@loop@CONTINUEtrue
+ \fi
+ \fi
+ \fi
+ \fi
+ \fi
+ \ifpgfplots@loop@CONTINUE
+ \def\pgfplots@loc@TMPa{#1}%
+ \else
+ \def\pgfplots@loc@TMPa{#2}%
+ \fi
+ \pgfplots@loc@TMPa%
+}
+
+\def\pgfplots@check@invalid@range@polar{%
+ %
+ % A polar axis allows \addplot3, but it ignores the third
+ % coordinate.
+ \pgfplots@threedimfalse
+ %
+ \pgfplots@limits@are@computedtrue
+ \ifx\pgfplots@xmin\pgfplots@invalidrange@xmin
+ \pgfplotscoordmath{x}{zero}%
+ \let\pgfplots@xmin=\pgfmathresult
+ \fi
+ \ifx\pgfplots@xmax\pgfplots@invalidrange@xmax
+ \pgfplotscoordmath{x}{parsenumber}{360}%
+ \let\pgfplots@xmax=\pgfmathresult
+ \fi
+ \ifx\pgfplots@ymin\pgfplots@invalidrange@ymin
+ \pgfplotscoordmath{y}{zero}%
+ \let\pgfplots@ymin=\pgfmathresult
+ \fi
+ \ifx\pgfplots@ymax\pgfplots@invalidrange@ymax
+ \pgfplots@limits@are@computedfalse
+ \fi
+ \ifpgfplots@limits@are@computed
+ \ifx\pgfplots@data@xmin\pgfplots@invalidrange@xmin
+ \global\let\pgfplots@data@xmin=\pgfplots@xmin
+ \fi
+ \ifx\pgfplots@data@xmin\pgfplots@invalidrange@xmax
+ \global\let\pgfplots@data@xmax=\pgfplots@xmax
+ \fi
+ \ifx\pgfplots@data@ymin\pgfplots@invalidrange@ymin
+ \global\let\pgfplots@data@ymin=\pgfplots@ymin
+ \fi
+ \ifx\pgfplots@data@ymin\pgfplots@invalidrange@ymax
+ \global\let\pgfplots@data@ymax=\pgfplots@ymax
+ \fi
+ \ifpgfplots@clip@limits
+ \else
+ % there is a rare change that min > max.
+ % Handle that ...
+ \pgfplotscoordmath{x}{min}{\pgfplots@xmin}{\pgfplots@xmax}%
+ \global\let\pgfplots@xmin=\pgfmathresult
+ \pgfplotscoordmath{x}{max}{\pgfplots@xmin}{\pgfplots@xmax}%
+ \global\let\pgfplots@xmax=\pgfmathresult
+ %
+ \pgfplotscoordmath{y}{min}{\pgfplots@ymin}{\pgfplots@ymax}%
+ \global\let\pgfplots@ymin=\pgfmathresult
+ \pgfplotscoordmath{y}{max}{\pgfplots@ymin}{\pgfplots@ymax}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ %
+ \ifpgfplots@threedim
+ \pgfplotscoordmath{z}{min}{\pgfplots@zmin}{\pgfplots@zmax}%
+ \global\let\pgfplots@zmin=\pgfmathresult
+ \pgfplotscoordmath{z}{max}{\pgfplots@zmin}{\pgfplots@zmax}%
+ \global\let\pgfplots@zmax=\pgfmathresult
+ \fi
+ \fi
+ \else
+ \pgfplots@handle@invalid@range
+ \fi
+}%
+
+\def\pgfplotspointcartesian@#1,#2\pgfplots@coord@end{%
+ \pgfpointxy@orig{#1}{#2}%
+}%
+\def\pgfplotscoordmathnotifydatascalesetfor@polar#1{%
+ \def\pgfplotscoordmathnotifydatascalesetfor##1{}%
+ \edef\pgfplotscoordmathnotifydatascalesetfor@{#1}%
+ \def\pgfplotscoordmathnotifydatascalesetfor@@{x}%
+ \ifx\pgfplotscoordmathnotifydatascalesetfor@@\pgfplotscoordmathnotifydatascalesetfor@
+ \pgfplotscoordmath{#1}{datascaletrafo set params}{0}{0}%
+ \else
+ \def\pgfplotscoordmathnotifydatascalesetfor@@{y}%
+ \ifx\pgfplotscoordmathnotifydatascalesetfor@@\pgfplotscoordmathnotifydatascalesetfor@
+ \pgfplotscoordmath{#1}{datascaletrafo set shift}{0}%
+ \fi
+ \fi
+ \let\pgfplotscoordmathnotifydatascalesetfor=\pgfplotscoordmathnotifydatascalesetfor@polar
+}%
+
+% #1: the "a" value on the oriented surf
+% #2: the "b" value.
+% #3: the shift along the normal.
+%
+\def\pgfplotspointonorientedsurfaceabwithbshift@polaraxis#1#2#3{%
+ % implement the shift in "b" direction explicitly:
+ %
+ \pgfplotspointonorientedsurfaceab{#1}{#2}%
+ \edef\pgfplots@loc@TMPe{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ \pgfpointadd
+ {\pgfplots@loc@TMPe}%
+ {%
+ \begingroup
+ % I need a '-' here because for polaraxis axes, the "b" axis
+ % points to the *outside* instead of the inside.
+ \pgf@xa=-#3\relax
+ \if r\pgfkeysvalueof{/pgfplots/\pgfplotspointonorientedsurfaceB\space dir/value}%
+ % oh. a reversed axis.
+ \pgf@xa=-\pgf@xa
+ \fi
+ \edef\pgfmathresult{\pgf@sys@tonumber\pgf@xa}%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfqpointscale{\pgfplots@loc@TMPa}{%
+ \if x\pgfplotspointonorientedsurfaceB
+ % the angle.
+ % FIXME : datascaling!
+ % FIXME : aspect ratios!
+ \pgfmath@basic@sin@{#2}%
+ \pgf@x=-\pgfmathresult pt
+ \pgfmath@basic@cos@{#2}%
+ \pgf@y=\pgfmathresult pt
+ \else
+ % the length.
+ % FIXME : datascaling!
+ % FIXME : aspect ratios!
+ % perhaps pgfpointpolarxy?
+ \if y\pgfplotspointonorientedsurfaceB
+ \pgfqpointpolar{#1}{1pt}%
+ \else
+ \pgfpointorigin
+ \fi
+ \fi
+ }%
+ }%
+}
+
+
+\def\pgfplotsqpointxy@polaraxis#1#2{%
+ \pgf@process{%
+ \pgfplotsmathpoltocartbasic{#1}{#2}\x\y
+ \pgfqpointxy@orig\x\y
+%\message{pgfplotsqpointxy{#1}{#2} ---> (\x,\y) ---> (\the\pgf@x,\the\pgf@y)}%
+ }%
+}%
+\def\pgfplots@clippath@prepare@for@axistype@polaraxis{%
+ \def\pgfplots@clippath@install##1{%
+ \pgfpathmoveto
+ {\pgfplotsqpointxy\pgfplots@xmin\pgfplots@ymax}%
+ \pgfpatharcaxes{\pgfplots@xmin}{\pgfplots@xmax}
+ {\pgfqpointxy@orig{\pgfplots@ymax}{0}}%
+ {\pgfqpointxy@orig{0}{\pgfplots@ymax}}%
+ \if1\pgfplots@xtick@disable@last@tick
+ % we have min angle = max angle.
+ \ifdim\pgfplots@ymin pt=0pt
+ \else
+ \pgfseteorule
+ \pgfpathmoveto
+ {\pgfplotsqpointxy\pgfplots@xmin\pgfplots@ymin}%
+ \pgfpatharcaxes{\pgfplots@xmin}{\pgfplots@xmax}
+ {\pgfqpointxy@orig{\pgfplots@ymin}{0}}%
+ {\pgfqpointxy@orig{0}{\pgfplots@ymin}}%
+ \fi
+ \else
+ % we have min angle != max angle.
+ \ifdim\pgfplots@ymin pt=0pt
+ % Ok, then pass through origin:
+ \pgfpathlineto\pgfplotspointaxisorigin
+ \else
+ % complicated special case.
+ \pgfpathlineto
+ {\pgfplotsqpointxy\pgfplots@xmax\pgfplots@ymin}%
+ \pgfpatharcaxes{\pgfplots@xmax}{\pgfplots@xmin}
+ {\pgfqpointxy@orig{\pgfplots@ymin}{0}}%
+ {\pgfqpointxy@orig{0}{\pgfplots@ymin}}%
+ \fi
+ \pgfpathclose
+ \fi
+ \pgfplots@clippath@use@{##1}%
+ }%
+}%
+
+\def\pgfplotspointouternormalvectorofaxis@polaraxis#1#2#3\relax{%
+ \if v#1%
+ \pgfplotspointouternormalvectorofaxisgetv{#1#2#3}%
+ % in direction of the length.
+ \ifx\pgfplotsretval\pgfutil@empty
+ \def\pgfplotsretval{0}%
+ \fi
+ % FIXME : datascaling!
+ % FIXME : aspect ratios!
+ % perhaps pgfpointpolarxy?
+ \pgfqpointpolar{\pgfplotsretval}{1pt}%
+ \else
+ \if v#2%
+ \if#10%
+ \def\pgfplotsretval{\pgfplots@xmin}%
+ \else
+ \def\pgfplotsretval{\pgfplots@xmax}%
+ \fi
+ % in direction of the angle.
+ % FIXME : datascaling!
+ % FIXME : aspect ratios!
+ \pgfmath@basic@sin@{\pgfplotsretval}%
+ \pgf@x=-\pgfmathresult pt
+ \pgfmath@basic@cos@{\pgfplotsretval}%
+ \pgf@y=\pgfmathresult pt
+ \else
+ \pgfqpoint{0pt}{1pt}%
+ \fi
+ \fi
+ %\pgf@process{\pgfpointnormalised{}}%
+ \pgf@process{}%
+ \endgroup
+}%
+
+\def\pgfplotspoint@initialisation@axes@polar{%
+ %
+ \begingroup
+ \pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}%
+ \xdef\pgfplotspointminminmin{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ %
+ \pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}%
+ \xdef\pgfplotspointxaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ %
+ % the length of the "angle" axis is 2*pi*r .
+ % The radius, however, is the length of (0,ymax) which is (0pt,\pgf@xx*ymax):
+ \pgfmath@basic@multiply@{\pgf@sys@tonumber\pgf@xx}{\pgfplots@ymax}%
+ \pgfmathmultiply@{\pgfmathresult}{6.28318530717959}% 2*pi * r
+ \if0\pgfplots@xtick@disable@last@tick
+ % oh: minangle != maxangle. We have a partial circle.
+ % compute the arc length (<360 deg)
+ \pgf@xa=\pgfplots@xmax pt
+ \advance\pgf@xa by-\pgfplots@xmin pt
+ \divide\pgf@xa by360
+ \ifdim\pgf@xa<1pt
+ \edef\pgfplots@loc@TMPa{\pgf@sys@tonumber\pgf@xa}%
+ \pgfmathmultiply@{\pgfmathresult}{\pgfplots@loc@TMPa}%
+ \fi
+ \fi
+ \xdef\pgfplotspointxaxislength{\pgfmathresult pt}%
+ %
+ \pgfpointdiff
+ {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}%
+ {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}%
+ \xdef\pgfplotspointyaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \xdef\pgfplotspointyaxislength{\pgfmathresult pt}%
+ %
+ \global\let\pgfplotspointzaxis=\pgfpointorigin
+ \gdef\pgfplotspointzaxislength{0pt}%
+ \endgroup
+ %
+}
+\let\pgfplotspoint@initialisation@units@orig=\pgfplotspoint@initialisation@units
+\def\pgfplotspoint@initialisation@units@polar{%
+ \def\pgfplotspointunitx{%
+ \pgfplotspointouternormalvectorofaxisgetv{v10}% angle varying, radius at outer pos
+ \ifx\pgfplotsretval\pgfutil@empty
+ \def\pgfplotsretval{0}%
+ \fi
+ \pgfmath@basic@sin@{\pgfplotsretval}%
+ \pgf@x=-\pgfmathresult pt
+ \pgfmath@basic@cos@{\pgfplotsretval}%
+ \pgf@y=\pgfmathresult pt
+ }%
+ \def\pgfplotsunitxlength{1}%
+ \def\pgfplotsunitxinvlength{1}%
+ %
+ \def\pgfplotspointunity{%
+ \pgfqpointpolar{\pgfplots@xmin}{1pt}%
+ }%
+ \def\pgfplotsunitylength{1}%
+ \def\pgfplotsunityinvlength{1}%
+}%
+
+\def\pgfplots@drawgridlines@onorientedsurf@fromto@polar#1{%
+ \if x\pgfplotspointonorientedsurfaceA
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{#1}{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceab{#1}{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}}%
+ \else
+ \if y\pgfplotspointonorientedsurfaceA\relax
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{#1}{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}}%
+ \pgf@x=#1\pgf@xx
+ \pgf@y=#1\pgf@yy
+ \edef\pgfplots@loc@TMPa{\the\pgf@x\space and \the\pgf@y}%
+ \def\pgfplots@loc@TMPb{\pgfpatharc{\pgfplots@xmin}{\pgfplots@xmax}}%
+ \expandafter\pgfplots@loc@TMPb\expandafter{\pgfplots@loc@TMPa}%
+ \else
+ \fi
+ \fi
+}%
+
+\def\pgfplots@initsizes@polar{%
+ % I copy-pasted most of this code, up to just one position where
+ % I introduced the modified scaling for polar axes
+ %----------------------------------
+ % INIT.
+ %
+ %
+ \pgfmath@basic@mod@{\pgfplots@xmin}{360}%
+ \let\pgfplots@xmin@mod=\pgfmathresult
+ \pgfmath@basic@mod@{\pgfplots@xmax}{360}%
+ \let\pgfplots@xmax@mod=\pgfmathresult
+ \ifdim\pgfplots@xmax@mod pt<\pgfplots@xmin@mod pt
+ \def\b@pgfplots@polar@limit@around@zero{1}%
+ \else
+ \def\b@pgfplots@polar@limit@around@zero{0}%
+ \fi
+ %
+ \pgfplots@xmin@reg=\pgfplots@xmin pt %
+ \pgfplots@xmax@reg=\pgfplots@xmax pt %
+ %
+ %
+ \pgfplots@ymin@reg=\pgfplots@ymin pt %
+ \pgfplots@ymax@reg=\pgfplots@ymax pt %
+ \ifpgfplots@threedim
+ \pgfplots@zmin@reg=\pgfplots@zmin pt %
+ \pgfplots@zmax@reg=\pgfplots@zmax pt %
+ \fi
+ %
+ %
+ %-----------------------------------------
+ % PROCESS THE 'width' and 'height' options
+ %-----------------------------------------
+ %
+ %
+ \pgfkeysgetvalue{/pgfplots/view/az}{\pgfplots@view@az}%
+ \pgfkeysgetvalue{/pgfplots/view/el}{\pgfplots@view@el}%
+ \ifpgfplots@threedim
+ \def\pgfplots@tmpZscale{1pt}%
+ \else
+ \def\pgfplots@tmpZscale{0pt}%
+ \let\pgfplots@view@el=\pgfutil@empty
+ \let\pgfplots@view@az=\pgfutil@empty
+ \fi
+ \ifx\pgfplots@view@az\pgfutil@empty
+ %\let\pgfplots@rectangle@width=\pgfutil@empty
+ %\let\pgfplots@rectangle@height=\pgfutil@empty
+ \def\pgfplots@view@dir@threedim@x{0}%
+ \def\pgfplots@view@dir@threedim@y{0}%
+ \def\pgfplots@view@dir@threedim@z{1}%
+ %
+ % FIXME HERE COMES THE polar MODIFICATION
+ %--------------------------------------------------
+ % \pgfpointdiff
+ % {\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}
+ % {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}%
+ %--------------------------------------------------
+ % instead of scaling from (min) (max), we only need the UPPER
+ % bound -- in both, x and y directions (since we have a cycle.
+ % Furthermore, we need it twice since we are interested in the
+ % diameter, not the radius.
+ \global\pgf@x=\pgfplots@ymax pt % radius
+ \global\multiply\pgf@x by2 % diameter
+ \global\pgf@y=\pgf@x % same for y
+ %
+ % only used temporarily in this macro to compute the correct
+ % length for unit vectors:
+ \edef\pgfplots@initsizes@axisdiag@x{\the\pgf@x}%
+ \edef\pgfplots@initsizes@axisdiag@y{\the\pgf@y}%
+ %
+ \ifx\pgfplots@x\pgfutil@empty
+ \ifx\pgfplots@width\pgfutil@empty
+ \pgfplots@error{INTERNAL LOGIC ERROR! WIDTH NOT SET}%
+ \fi
+ \pgfplots@initsizes@getXscale\pgfplots@initsizes@axisdiag@x\into\pgfplots@tmpXscale
+ %\ifpgfplots@scale@only@axis
+ % \let\pgfplots@rectangle@width=\pgfplots@width
+ %\fi
+ \else
+ \def\pgfplots@tmpXscale{1}%
+ \fi
+ %
+ \ifx\pgfplots@y\pgfutil@empty
+ \ifx\pgfplots@height\pgfutil@empty
+ \pgfplots@error{INTERNAL LOGIC ERROR! HEIGHT NOT SET}%
+ \fi
+ \pgfplots@initsizes@getYscale\pgfplots@initsizes@axisdiag@y\into\pgfplots@tmpYscale
+ %\ifpgfplots@scale@only@axis
+ % \let\pgfplots@rectangle@height=\pgfplots@height
+ %\fi
+ \else
+ \def\pgfplots@tmpYscale{1}%
+ \fi
+ %
+ \edef\pgfplots@tmpXscale{\pgfplots@tmpXscale pt}%
+ \edef\pgfplots@tmpYscale{\pgfplots@tmpYscale pt}%
+ %
+ \pgfplots@initsizes@setunitvector{x}{0}{\pgfplots@tmpXscale}{\pgfplots@tmp@xisaxisparallel}%
+ \pgfplots@initsizes@setunitvector{y}{1}{\pgfplots@tmpYscale}{\pgfplots@tmp@yisaxisparallel}%
+ \pgfplots@initsizes@setunitvector{z}{2}{\pgfplots@tmpZscale}{\pgfplots@loc@TMPc}%
+ \else
+ % 3D case is currently always initialised by `view':
+ \let\pgfplots@x=\pgfutil@empty
+ \let\pgfplots@y=\pgfutil@empty
+ \let\pgfplots@z=\pgfutil@empty
+ \pgfplotssetaxesfromazel{\pgfplots@view@az}{\pgfplots@view@el}{\pgfplots@tmp@xisaxisparallel}%
+ \if1\pgfplots@tmp@xisaxisparallel%
+ \def\pgfplots@tmp@yisaxisparallel{1}%
+ \fi
+ \fi
+%\message{Pgfplots debug: initialised unit vectors to x=(\the\pgf@xx,\the\pgf@xy), y=(\the\pgf@yx,\the\pgf@yy), z=(\the\pgf@zx,\the\pgf@zy). }%
+ %
+ \let\pgfplotsmathfloatviewdepthxyz@=\pgfplotsmathfloatviewdepthxyz@infigure
+ \let\pgfplotsmathviewdepthxyz@=\pgfplotsmathviewdepthxyz@infigure
+ %
+ \pgfplotsmath@ifzero{\pgfplots@x@veclength}{\pgfplots@hide@xtrue\pgfplots@shownothingof@xtrue}{}%
+ \pgfplotsmath@ifzero{\pgfplots@y@veclength}{\pgfplots@hide@ytrue\pgfplots@shownothingof@ytrue}{}%
+ \ifpgfplots@threedim
+ \pgfplotsmath@ifzero{\pgfplots@z@veclength}{\pgfplots@hide@ztrue\pgfplots@shownothingof@ztrue}{}%
+ \else
+ \if1\pgfplots@tmp@xisaxisparallel%
+ \if1\pgfplots@tmp@yisaxisparallel%
+ % Optimize for axis-parallel case!
+ % puh. Did not make any measureable difference!? Ok...
+ \let\pgfplotsqpointxy=\pgfplotsqpointxy@orthogonal
+ \fi
+ \fi
+ \fi
+ %
+ % FIXME : unit vector ratio / axis equal
+}
+
+\def\pgfplots@handle@invalid@range@defaultlimits@polar{%
+ \def\pgfplots@loc@TMPa{0}%
+ \ifx\pgfplots@xmin\pgfplots@invalidrange@xmin
+ \def\pgfplots@loc@TMPa{1}%
+ \fi
+ \ifx\pgfplots@xmax\pgfplots@invalidrange@xmax
+ \def\pgfplots@loc@TMPa{1}%
+ \fi
+ \if\pgfplots@loc@TMPa1%
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \global\let\pgfplots@xmin=\pgfmathresult
+ \pgfplotscoordmath{x}{parsenumber}{360}%
+ \global\let\pgfplots@xmax=\pgfmathresult
+ \global\let\pgfplots@data@xmin=\pgfplots@xmin
+ \global\let\pgfplots@data@xmax=\pgfplots@xmax
+ \fi
+ %
+ \pgfplotscoordmath{y}{parsenumber}{0}%
+ \global\let\pgfplots@ymin=\pgfmathresult
+ \pgfplotscoordmath{y}{parsenumber}{1}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ \global\let\pgfplots@data@ymin=\pgfplots@ymin
+ \global\let\pgfplots@data@ymax=\pgfplots@ymax
+}
+
+\let\pgfplots@show@ticklabel@@orig=\pgfplots@show@ticklabel@
+\def\pgfplots@show@ticklabel@@polar#1#2{%
+ \def\pgfmathresult{#2}%
+ \if#1x%
+ \ifdim#2pt>360pt
+ \pgfmath@basic@mod@{#2}{360}%
+ \fi
+ \fi
+ \def\pgfplots@loc@TMPa{\pgfplots@show@ticklabel@@orig{#1}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}%
+}%
+
+\let\pgfplots@xtick@check@tickshow@orig=\pgfplots@xtick@check@tickshow%
+\def\pgfplots@xtick@check@tickshow@polar{%
+ \if1\pgfplots@xtick@disable@last@tick
+ \pgfplotsmath@ifapproxequal@dim
+ {\pgfplots@tmpa}{\pgfplots@xmax pt}
+ {\pgfplots@loc@tick@placement@tolerance}
+ {%
+ \pgfplots@tickshowfalse
+ }{%
+ \pgfplots@xtick@check@tickshow@orig
+ }%
+ \else
+ \pgfplots@xtick@check@tickshow@orig
+ \fi
+}
+
+\let\pgfplots@enlarge@limit@for@orig=\pgfplots@enlarge@limit@for
+\def\pgfplots@enlarge@limit@for@polar#1{%
+ \if#1x%
+ % ignore 'enlarge x limits' (degrees).
+ \else
+ % allow 'enlarge y limits', but only for UPPER radius
+ \def\bool@pgfplots@loc@enlargelimits@min{0}%
+ \pgfplots@enlarge@limit@for@orig{#1}%
+ \fi
+}%
+
+\let\pgfplots@assign@default@tick@foraxis@normalizetickdist@orig=\pgfplots@assign@default@tick@foraxis@normalizetickdist
+\def\pgfplots@assign@default@tick@foraxis@normalizetickdist@polar#1#2{%
+ \if#1x%
+ % special handling for the angles:
+ \begingroup
+ \pgfmathfloattofixed{#2}%
+ \let\H=\pgf@xb
+ \H=\pgfmathresult pt
+ % only allow step sizes of
+ % 90, 45, 30, 15, 10, 5.
+ %
+ % Prefer the LARGER step size during the snap-to-nearest.
+ % The following decision boundaries are heuristics and have no
+ % mathematical foundation.
+ \ifdim\H>67pt
+ \H=90pt
+ \else
+ \ifdim\H>30pt
+ \H=45pt
+ \else
+ \ifdim\H>18pt
+ \H=30pt
+ \else
+ \ifdim\H>10pt
+ \H=15pt
+ \else
+ \ifdim\H>6pt
+ \H=10pt
+ \else
+ \H=5pt
+ \fi
+ \fi
+ \fi
+ \fi
+ \fi
+ \edef\pgfplots@loc@TMPa{\pgf@sys@tonumber\H}%
+ \pgfmathfloatparsenumber{\pgfplots@loc@TMPa}%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+ \else
+ \pgfplots@assign@default@tick@foraxis@normalizetickdist@orig{#1}{#2}%
+ \fi
+}%
+
+\let\pgfplots@limits@ready@orig=\pgfplots@limits@ready
+\def\pgfplots@limits@ready@polar{%
+ \pgfplots@limits@ready@orig
+ %
+ % Avoid tick labels at upper *and* lower angle range if both are the
+ % same:
+ \pgfmath@basic@subtract@{\pgfplots@xmax}{\pgfplots@xmin}%
+ \pgfmath@basic@mod@{\pgfmathresult}{360}%
+ \pgfplotsmath@ifapproxequal@dim
+ {\pgfmathresult pt}{0pt}%
+ {0.002pt}
+ {%
+ \def\pgfplots@xtick@disable@last@tick{1}%
+ }{%
+ }%
+ %
+}%
+\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.smithchart.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.smithchart.code.tex
new file mode 100644
index 00000000000..7d24c53216d
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.smithchart.code.tex
@@ -0,0 +1,1761 @@
+%--------------------------------------------
+%
+% Package pgfplots, library for smith charts.
+%
+% Copyright 2010 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+% A smithchart maps the complex halfplane
+% H subset \C,
+% H := [0,infty] x [-infty,infty]
+% =~ \{ z = a+ j *b | a >=0, b \in \R }
+%
+% to the unit circle.
+%
+% A number z = a+jb is mapped to r(z) = (z-1) / (z+1) which is, per
+% definition, in the 2d unit circle.
+%
+% Grid lines (i.e. a==const or b==const) are mapped on circles.
+%
+% In PGFPlots, the a=Re(z) is the x axis and b = Im(z) is the y axis.
+%
+% - CARTESIAN INPUT
+% - tick/grid coordinates are from
+% - input coordinates can be either from H or (perhaps preferred) from
+% the unit circle.
+% this "preferred" needs to be discussed.
+% - the transformed data range is the unit circle (or a sequeezed variant)
+% - in order to compute limits etc., I should accept data in H. this
+% should simplify the logic to determine ticks etc considerably.
+% problem: this transformation appears to be quite difficult (?)
+% -> r(z) = (z-1)/(z+1)
+% in complex arithmetics (but the G-tutorial.pdf says something
+% about these circle equations!?)
+%
+% www.amanogawa.com/archive/docs/G-tutorial.pdf
+%
+%
+% Idea:
+% - work on H
+% - transform whereever necessary
+% - implement all pgfplots wrinkles in analogy to polar axes
+% - provide support for normalized input coords (combined with
+% untransformed limits or something like that)
+
+\pgfplotsdefineaxistype{smithchart}{%
+ \pgfplots@smithchartaxis@activate
+}%
+
+\newif\ifpgfplotspointisinsmithchartCS
+\newif\ifpgfplots@smithchart@showorigin
+\newif\ifpgfplots@smithchart@mirrored
+
+\pgfplotsset{
+ /pgfplots/xgrid each nth passes y/.initial=,% format: CSV list, each entry of the form '<at> | <at> ':' <eachnth> | <at> 'if <' <xvalue> | <at> ':' <eachnth> 'if <' <xvalue>'
+ /pgfplots/xgrid each nth passes y start/.initial=0,
+ /pgfplots/ygrid each nth passes x/.initial=,
+ /pgfplots/ygrid each nth passes x start/.initial=0,
+ %
+ /pgfplots/xgrid stop at y/.initial=,% individual stop map of the form '<xpos> ':' <stopaty>', separated by white space
+ /pgfplots/ygrid stop at x/.initial=,
+ %
+ % FIXME : this is undocumented:
+ /pgfplots/smithchart mirrored/.is if=pgfplots@smithchart@mirrored,
+ /pgfplots/smithchart mirrored/.default=true,
+ %
+ % this boolean may only be used inside of \addplot. It will be
+ % ignored otherwise.
+ /pgfplots/is smithchart cs/.is if=pgfplotspointisinsmithchartCS,
+ /pgfplots/is smithchart cs/.default=true,
+ /pgfplots/show origin/.is if=pgfplots@smithchart@showorigin,
+ /pgfplots/show origin/.default=true,
+ /pgfplots/show origin code/.code={%
+ \path[draw=black,fill=white] (0pt,0pt) circle (2.5pt);
+ \path[fill=black] (0pt,0pt) circle (0.5pt);
+ },
+ /pgfplots/every smithchart axis/.style={
+ grid=both,
+ xmin=0,
+ xmax=16000,% FIXME : more is not possible because some code uses the \pgfplots@xmin@reg registers... (ticks)
+ ymin=-16000,ymax=16000,
+ scaled ticks=false, % never draw the \cdot 10^4 labels
+ major tick style={draw=black},
+ xtick align=center,
+ ytick align=center,
+ every axis title shift=1.2\baselineskip,
+ legend style={anchor=center},
+ },
+ /pgfplots/default smithchart xtick/.code=,
+ /pgfplots/default smithchart ytick/.code=,
+ /pgfplots/default smithchart xytick/.code=,
+ /pgfplots/smithchart ticks by size/.code 2 args={%
+ \ifdim#1<14cm
+ \pgfkeysalso{/pgfplots/few smithchart ticks}%
+ \else
+ \ifdim#1<20cm
+ \pgfkeysalso{/pgfplots/many smithchart ticks}%
+ \else
+ \pgfkeysalso{/pgfplots/dense smithchart ticks}%
+ \fi
+ \fi
+ },
+ /pgfplots/few smithchart ticks*/.style={
+ default smithchart xtick/.style={
+ xtick={0.2,0.5,1,2,5},
+ },
+ default smithchart ytick/.style={
+ ytick={%
+ 0,%
+ 0.2, 0.5, 1, 2, 5,%
+ -0.2,-0.5,-1,-2,-5},
+ },
+ default smithchart xytick/.style={
+ xgrid each nth passes y={2},
+ ygrid each nth passes x={2},
+ },
+ },
+ /pgfplots/few smithchart ticks/.style={/pgfplots/few smithchart ticks*},
+ /pgfplots/few smithchart ticks*,% use it as initial config
+ /pgfplots/many smithchart ticks*/.style={
+ default smithchart xtick/.style={
+ xtick={
+ 0.1,0.2,0.3,0.4,0.5,1,1.5,2,3,4,5,10,20%
+ },
+ minor xtick={0.6,0.7,0.8,0.9,1.1,1.2,1.3,1.4,1.6,1.7,1.8,1.9,2.2,2.4,2.6,2.8,3.2,3.4,3.6,3.8,4.5,6,7,8,9,50},
+ },
+ default smithchart ytick/.style={
+ ytick={%
+ 0,%
+ 0.1,0.2,...,1,1.5,2,3,4,5,10,20,%
+ -0.1,-0.2,...,-1,-1.5,-2,-3,-4,-5,-10,-20%
+ },
+ minor ytick={%
+ 1.1,1.2,1.3,1.4,1.6,1.7,1.8,1.9,2.2,2.4,2.6,2.8,3.2,3.4,3.6,3.8,4.5,6,7,8,9,50,%
+ -1.1,-1.2,-1.3,-1.4,-1.6,-1.7,-1.8,-1.9,-2.2,-2.4,-2.6,-2.8,-3.2,-3.4,-3.6,-3.8,-4.5,-6,-7,-8,-9,-50%
+ },
+ },
+ default smithchart xytick/.style={
+ xgrid each nth passes y={1,2,4,5,10,20},
+ ygrid each nth passes x={1,2,3,5,10:3,20:3},
+ },
+ },
+ /pgfplots/many smithchart ticks/.style={
+ many smithchart ticks*,
+ every axis title shift=6pt,
+ yticklabel in circle,
+ show origin=true,
+ },
+ /pgfplots/dense smithchart ticks*/.style={
+ default smithchart xtick/.style={
+ %ygrid each nth passes x start=0,
+ xtick={
+ 0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1,1.2,1.4,1.6,1.8,2,3,4,5,10,20%
+ },
+ minor xtick={%
+ 0.01,0.02,0.03,0.04,0.05,0.06,0.07,0.08,0.09,0.11,0.12,0.13,0.14,0.15,0.16,0.17,0.18,0.19,%
+ 0.22,0.24,0.26,0.28,0.32,0.34,0.36,0.38,0.42,0.44,0.46,0.48,%
+ 0.52,%
+ 0.55,0.65,0.75,0.85,0.95,%
+ %0.6,0.7,0.8,0.9,%
+ 1.1,1.3,1.5,1.7,1.9,%
+ 2.2,2.4,2.6,2.8,3.2,3.4,3.6,3.8,4.5,6,7,8,9,50},
+ },
+ default smithchart ytick/.style={
+ ytick={%
+ 0,%
+ 0.1,0.2,...,1,1.2,1.4,1.6,1.8,2,3,4,5,10,20,%
+ -0.1,-0.2,...,-1,-1.2,-1.4,-1.6,-1.8,-2,-3,-4,-5,-10,-20%
+ },
+ minor ytick={%
+ 0.01,0.02,0.03,0.04,0.05,0.06,0.07,0.08,0.09,0.11,0.12,0.13,0.14,0.15,0.16,0.17,0.18,0.19,%
+ 0.22,0.24,0.26,0.28,0.32,0.34,0.36,0.38,0.42,0.44,0.46,0.48,%
+ 0.55,0.65,0.75,0.85,0.95,%
+ 1.1,1.3,1.5,1.7,1.9,2.2,2.4,2.6,2.8,3.2,3.4,3.6,3.8,4.5,6,7,8,9,50,%
+ -0.01,-0.02,-0.03,-0.04,-0.05,-0.06,-0.07,-0.08,-0.09,-0.11,-0.12,-0.13,-0.14,-0.15,-0.16,-0.17,-0.18,-0.19,%
+ -0.22,-0.24,-0.26,-0.28,-0.32,-0.34,-0.36,-0.38,-0.42,-0.44,-0.46,-0.48,%
+ -0.55,-0.65,-0.75,-0.85,-0.95,%
+ -1.1,-1.3,-1.5,-1.7,-1.9,-2.2,-2.4,-2.6,-2.8,-3.2,-3.4,-3.6,-3.8,-4.5,-6,-7,-8,-9,-50%
+ },
+ },
+ default smithchart xytick/.style={
+ xgrid each nth passes y={0.2 if < 0.2001,0.5 if < 0.50001,1 if < 1.001,2,4,5,10,20},
+ ygrid each nth passes x={0.2 if < 0.2001,0.52 if < 0.52001,1 if < 1.001,2,3,5,10:3,20:3},
+ },
+ },
+ /pgfplots/dense smithchart ticks/.style={
+ yticklabel in circle,
+ every axis title shift=6pt,
+ dense smithchart ticks*,
+ show origin=true,
+ every major grid/.style={black!60},
+ },
+ /pgfplots/yticklabel in circle/.style={
+ ytick align=inside,
+ yticklabel style={
+ rotate=90,
+ sloped like y axis={%
+ execute for upside down={\tikzset{anchor=north east}},
+ %allow upside down,
+ reset nontranslations=false},
+ anchor=south west,
+ %font=\tiny,
+ }
+ },
+}
+
+\def\pgfplots@smithchartaxis@activate{%
+ \def\axisdefaultwidth{207pt}%
+ \def\axisdefaultheight{207pt}%
+ \let\pgfplotsqpointxy@cart=\pgfplotsqpointxy
+ \let\pgfplotsqpointxy=\pgfplotsqpointxy@smithchartaxis
+ \let\pgfplotsqpointxy@orthogonal=\pgfplotsqpointxy
+ \def\pgfplotsqpointxyz##1##2##3{\pgfplotsqpointxy{##1}{##2}}% FIXME
+ \let\pgfplotspointouternormalvectorofaxis@=\pgfplotspointouternormalvectorofaxis@smithchartaxis
+ \def\pgfplotspointouternormalvectorofaxis@ifdependson@v##1##2##3{##2}%
+ \def\pgfplots@drawticklines@INSTALLCLIP@onorientedsurf##1{}%
+ \let\pgfplots@drawgridlines@INSTALLCLIP@onorientedsurf=\pgfplots@drawgridlines@INSTALLCLIP@onorientedsurf@smithchartaxis
+ \def\pgfplots@visphase@notify@changeofcanvaslimits##1{}%
+ \def\pgfplots@avoid@empty@axis@range@for##1{}%
+ \def\pgfplotsaxisifcontainspoint##1##2{##1}%
+ \let\pgfplots@set@default@size@options=\pgfplots@set@default@size@options@smithchart%
+ %
+ \def\b@pgfplots@smithchart@defaultticks@x{0}%
+ \def\b@pgfplots@smithchart@defaultticks@y{0}%
+ \let\pgfplots@assign@default@tick@foraxis=\pgfplots@assign@default@tick@foraxis@smithchart
+ \def\pgfplots@checkisuniformLINEARtick##1##2{%
+ % don't do anything here. I suppose it is useless and is a
+ % waste of time for many ticks.
+ \global\pgfplots@isuniformtickfalse
+ }%
+ \let\pgfplots@clippath@prepare@for@axistype=\pgfplots@clippath@prepare@for@axistype@smithchartaxis
+ %
+ % invalid range: do not clear plots. simply assign default limits.
+ \let\pgfplots@handle@invalid@range@defaultlimits=\pgfplots@handle@invalid@range@defaultlimits@smithchart%
+ \def\pgfplots@handle@invalid@range{\pgfplots@handle@invalid@range@defaultlimits}%
+ %
+ \let\pgfplotspointonorientedsurfaceabwithbshift=\pgfplotspointonorientedsurfaceabwithbshift@smithchartaxis
+ \let\pgfplots@draw@axis@is@prepared=\pgfplots@draw@axis@is@prepared@smithchartaxis
+ \let\pgfplots@drawgridlines@onorientedsurf@fromto=\pgfplots@drawgridlines@onorientedsurf@fromto@smithchart
+ \let\pgfplots@drawaxis@innerlines@onorientedsurf=\pgfplots@drawaxis@innerlines@onorientedsurf@smithchart
+ \let\pgfplots@drawaxis@outerlines@separate@onorientedsurf=\pgfplots@drawaxis@outerlines@separate@onorientedsurf@smithchartaxis
+ \let\pgfplotspoint@initialisation@axes=\pgfplotspoint@initialisation@axes@smithchart%
+ \let\pgfplotspoint@initialisation@units=\pgfplotspoint@initialisation@units@smithchart
+ \expandafter\def\expandafter\pgfplots@create@axis@descriptions@\expandafter{%
+ \pgfplots@create@axis@descriptions@
+ \ifpgfplots@smithchart@showorigin
+ \pgfkeysvalueof{/pgfplots/show origin code/.@cmd}\pgfeov%
+ \fi
+ }%
+ \def\axisdefaultheight{\axisdefaultwidth}%
+ \let\pgfplots@initsizes=\pgfplots@initsizes@smithchart
+ %\let\pgfplots@limits@ready=\pgfplots@limits@ready@smithchart
+ %\let\pgfplots@show@ticklabel@=\pgfplots@show@ticklabel@@smithchart
+ %\def\pgfplots@xtick@disable@last@tick{0}%
+ \let\pgfplots@xtick@check@tickshow=\pgfplots@xtick@check@tickshow@smithchart%
+ \let\pgfplots@ytick@check@tickshow=\pgfplots@ytick@check@tickshow@smithchart%
+ \let\pgfplots@set@options@sanitize=\relax
+ \let\pgfplots@set@options@sanitizemode=\relax
+ \let\pgfplotscoordmathnotifydatascalesetfor=\pgfplotscoordmathnotifydatascalesetfor@smithchart
+ %
+ \expandafter\def\expandafter\pgfplots@notify@options@are@set\expandafter{%
+ \pgfplots@notify@options@are@set
+ \pgfplotsset{%
+ separate axis lines,%
+ is smithchart cs=false,%
+ xtick pos=left,
+ ytick pos=left,
+ axis x line*=center,
+ disabledatascaling,
+ }%
+ \def\pgfplots@xtickposnum{2}%
+ %
+ \ifx\pgfplots@xtick\pgfutil@empty
+ \def\b@pgfplots@smithchart@defaultticks@x{1}%
+ \fi
+ \ifx\pgfplots@ytick\pgfutil@empty
+ \def\b@pgfplots@smithchart@defaultticks@y{1}%
+ \fi
+ \pgfplotscoordmath{default}{parsenumber}{0.002}%
+ \let\pgfplots@almost@zero@thresh=\pgfmathresult
+ }%
+ \def\pgfplots@xticklabel@pos{}%
+ \def\pgfplots@yticklabel@pos{}%
+ \def\pgfplots@zticklabel@pos{}%
+ \def\pgfplots@init@ticklabelaxisspecfor##1##2{}%
+ \def\pgfplots@init@ticklabelaxisspec@twodim@for##1##2{}%
+ \def\pgfplotspointonorientedsurfaceabmatchaxisline@warn##1{}% clear warning. It works for smith charts.
+ \def\pgfplots@xticklabelaxisspec{v20}%
+ \def\pgfplots@yticklabelaxisspec{0v0}%
+ \def\pgfplots@zticklabelaxisspec{00v}%
+ %
+ % cartesian cs
+ \tikzdeclarecoordinatesystem{cartesian}{\edef\pgfplots@loc@TMPa{##1}\expandafter\pgfplotspointcartesian@\pgfplots@loc@TMPa\pgfplots@coord@end}%
+ %
+ %
+ % Special treatment for
+ % \pgfplots@prepare@tick@coordlists@for: make sure we don't need
+ % to use the register arithmetics in \pgfplots@xmin@reg and its
+ % variants! I want an UNRESTRICTED max data range!
+ \def\pgfplots@prepare@tick@coordlists@for@assign##1=##2{\edef##1{##2}}%
+ \def\pgfplots@prepare@tick@coordlists@for@advance##1by##2{%
+ % THIS IS NEVER USED (at the time of this writing).
+ \edef\pgfplots@loc@TMPa{##2}%
+ \pgfplotscoordmath{default}{parsenumber}{##1}%
+ \pgfplotscoordmath{default}{op}{add}{{\pgfmathresult}{\pgfplots@loc@TMPa}}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let##1=\pgfmathresult
+ }%
+ \def\pgfplots@prepare@tick@coordlists@for@tofixed##1{\edef\pgfmathresult{##1}}%
+ \def\pgfplots@prepare@tick@coordlists@for@handletolerance##1{}% does not apply to smithcharts.
+ \def\pgfplots@prepare@tick@coordlists@for@checktickmin##1{%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tmpa}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@##1tickmin\endcsname}%
+ \let\pgfplots@loc@TMPb=\pgfmathresult
+ \pgfplotscoordmath{default}{if less than}{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{%
+ \pgfplots@tickshowfalse
+ }{%
+ }%
+ }%
+ \def\pgfplots@prepare@tick@coordlists@for@checktickmax##1{%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tmpa}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@##1tickmin\endcsname}%
+ \let\pgfplots@loc@TMPb=\pgfmathresult
+ \pgfplotscoordmath{default}{if less than}{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPa}{%
+ \pgfplots@tickshowfalse
+ }{%
+ }%
+ }%
+ \def\pgfplots@prepare@tick@coordlists@for@checkdatalimits##1{}% I won't do this here. Smithcharts are somewhat special.
+}%
+
+\def\pgfplotspointcartesian@#1,#2\pgfplots@coord@end{%
+ \pgfpointxy@orig{#1}{#2}%
+}%
+\def\pgfplotscoordmathnotifydatascalesetfor@smithchart#1{%
+ \def\pgfplotscoordmathnotifydatascalesetfor##1{}%
+ \edef\pgfplotscoordmathnotifydatascalesetfor@{#1}%
+ \def\pgfplotscoordmathnotifydatascalesetfor@@{x}%
+ \ifx\pgfplotscoordmathnotifydatascalesetfor@@\pgfplotscoordmathnotifydatascalesetfor@
+ \pgfplotscoordmath{#1}{datascaletrafo set params}{0}{0}%
+ \else
+ \def\pgfplotscoordmathnotifydatascalesetfor@@{y}%
+ \ifx\pgfplotscoordmathnotifydatascalesetfor@@\pgfplotscoordmathnotifydatascalesetfor@
+ \pgfplotscoordmath{#1}{datascaletrafo set shift}{0}%
+ \fi
+ \fi
+ \let\pgfplotscoordmathnotifydatascalesetfor=\pgfplotscoordmathnotifydatascalesetfor@smithchart
+}%
+
+% #1: the "a" value on the oriented surf
+% #2: the "b" value.
+% #3: the shift along the normal.
+%
+\def\pgfplotspointonorientedsurfaceabwithbshift@smithchartaxis#1#2#3{%
+ % implement the shift in "b" direction explicitly:
+ \pgfpointadd
+ {\pgfplotspointonorientedsurfaceab{#1}{#2}}%
+ {%
+ \pgfplotspointonorientedsurfaceabtolinespec{v}{0}%
+ \afterassignment\pgfplots@gobble@until@relax
+ \pgf@xa=-#3\relax
+ \edef\pgfplots@shift@no@unit{\pgf@sys@tonumber\pgf@xa}%
+ \pgfqpointscale
+ {\pgfplots@shift@no@unit}
+ {\expandafter\pgfplotspointouternormalvectorofaxis\expandafter{\pgfplotsretval}}%
+ }%
+}
+
+
+% Computes the complex division
+% (A + j B) / (C + j D) = (A C + B D + j (B C - A D) ) / (C^2 + D^2)
+% and assigns the result to \pgfmathresult and \pgfmathresultim . Here
+% 'j = sqrt{-1}' is the imaginary unit.
+%
+% #1 : A
+% #2 : B
+% #3 : C
+% #4 : D
+%
+% The arithmetics is performed in \pgfplotscoordmath{default} (which
+% uses the floating point unit in the initial configuration)
+%
+% Numbers are expected to be already parsed (i.e. you need to invoke
+% \pgfplotscoordmath{default}{parsenumber}{#1}%
+% \let\A=\pgfmathresult
+% before)
+\def\pgfplotscoordmathcomplexdivision#1#2#3#4{%
+ \begingroup
+ \edef\pgfplots@A{#1}%
+ \edef\pgfplots@B{#2}%
+ \edef\pgfplots@C{#3}%
+ \edef\pgfplots@D{#4}%
+ %
+ %
+ % ok, compute it:
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@A}{\pgfplots@C}}%
+ \let\pgfplots@AC=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@A}{\pgfplots@D}}%
+ \let\pgfplots@AD=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@B}{\pgfplots@D}}%
+ \let\pgfplots@BD=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@B}{\pgfplots@C}}%
+ \let\pgfplots@BC=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@C}{\pgfplots@C}}%
+ \let\pgfplots@CC=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplots@D}{\pgfplots@D}}%
+ \let\pgfplots@DD=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@CC}{\pgfplots@DD}}%
+ \pgfplotscoordmath{default}{op}{reciprocal}{{\pgfmathresult}}%
+ \let\pgfplots@scale=\pgfmathresult
+ %
+ %
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@AC}{\pgfplots@BD}}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\pgfplots@scale}}%
+ \let\pgfplots@x=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplots@BC}{\pgfplots@AD}}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\pgfplots@scale}}%
+ \let\pgfplots@y=\pgfmathresult
+ %
+ \xdef\pgfplots@glob@TMPa{%
+ \noexpand\def\noexpand\pgfmathresult{\pgfplots@x}%
+ \noexpand\def\noexpand\pgfmathresultim{\pgfplots@y}%
+ }%
+ \endgroup
+ \pgfplots@glob@TMPa
+}%
+
+\def\pgfplotsqpointxy@smithchartaxis#1#2{%
+ \pgf@process{%
+ \ifpgfplotspointisinsmithchartCS
+ \def\pgfplots@x{#1}%
+ \def\pgfplots@y{#2}%
+ \else
+ % compute rx + j* ry = (#1 + j * #2 -1) / (#1 + j*#2 + 1)
+ %
+ % I write
+ % #1 - 1 + j * #2 = A + j * B
+ % 1 + #1 + j * #2 = C + j * D
+ %
+ % -> rx + j * ry = (A + j B) / (C + j D) = (A C + B D + j (B C - A D) ) / (C^2 + D^2)
+ \pgfplotscoordmath{default}{parsenumber}{#1}%
+ \let\pgfplots@x=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{parsenumber}{#2}%
+ \let\pgfplots@D=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{one}%
+ \let\pgfplots@one=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@one}{\pgfplots@x}}%
+ \let\pgfplots@C=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplots@x}{\pgfplots@one}}%
+ \let\pgfplots@A=\pgfmathresult
+ %
+ \let\pgfplots@B=\pgfplots@D
+ %
+ \pgfplotscoordmathcomplexdivision\pgfplots@A\pgfplots@B\pgfplots@C\pgfplots@D
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@x=\pgfmathresult
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresultim}%
+ \let\pgfplots@y=\pgfmathresult
+ \fi
+ %
+ \pgfplotsqpointxy@smithchart@canvas\pgfplots@x\pgfplots@y
+%\message{pgfplotsqpointxy{#1}{#2} ---> (\pgfplots@x,\pgfplots@y) ---> (\the\pgf@x,\the\pgf@y)}%
+ }%
+}%
+
+\def\pgfplotsqpointxy@smithchart@canvas#1#2{%
+ \ifpgfplots@smithchart@mirrored
+ \pgfqpointxy@orig{-#1}{#2}%
+ \else
+ \pgfqpointxy@orig{#1}{#2}%
+ \fi
+}%
+
+\def\pgfplots@clippath@prepare@for@axistype@smithchartaxis{%
+ \def\pgfplots@clippath@install##1{%
+ \pgfpathellipse
+ {\pgfplotsqpointxy@smithchart@canvas{0}{0}}
+ {\pgfplotsqpointxy@smithchart@canvas{1}{0}}
+ {\pgfplotsqpointxy@smithchart@canvas{0}{1}}%
+ \pgfplots@clippath@use@{##1}%
+ }%
+}%
+
+\def\pgfplotspointouternormalvectorofaxis@smithchartaxis#1#2#3\relax{%
+ \if v#1%
+ \pgfqpoint{0pt}{1pt}%
+ \else
+ \if v#2%
+ \pgfplotspointouternormalvectorofaxisgetv{#1#2#3}%
+ \ifx\pgfplotsretval\pgfutil@empty
+ \def\pgfplotsretval{0}%
+ \fi
+ \pgfpointdiff
+ {\pgfplotsqpointxy@smithchart@canvas{0}{0}}%
+ {\pgfplotsqpointxy{0}{\pgfplotsretval}}%
+ \pgfpointnormalised{}%
+ \else
+ \pgfqpoint{0pt}{1pt}%
+ \fi
+ \fi
+ \pgf@process{}%
+ \endgroup
+}%
+
+\def\pgfplotspoint@initialisation@axes@smithchart{%
+ \begingroup
+ %\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}%
+ \gdef\pgfplotspointminminmin{\pgfplotsqpointxy@smithchart@canvas{0}{0}}%
+ %
+ % the "x" axis is the diameter of the circle (for fixed y=0)
+ \pgf@x=2\pgf@xx
+ \pgf@y=0pt
+ \xdef\pgfplotspointxaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \xdef\pgfplotspointxaxislength{\pgfmathresult pt}%
+ %
+ \pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}%
+ \xdef\pgfplotspointyaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ %
+ % the length of the "y" axis is 2*pi*r (for fixed x=0, the outer
+ % circle).
+ % The radius is the length of (0,1) which is (0pt,\pgf@xx1):
+ \pgfmath@basic@multiply@{\pgf@sys@tonumber\pgf@xx}{1}%
+ \pgfmathmultiply@{\pgfmathresult}{6.28318530717959}% 2*pi * r
+ \xdef\pgfplotspointyaxislength{\pgfmathresult pt}%
+ %
+ \global\let\pgfplotspointzaxis=\pgfpointorigin
+ \gdef\pgfplotspointzaxislength{0pt}%
+ \endgroup
+ %
+ \edef\pgfplots@loc@TMPa{\pgf@sys@tonumber\pgf@xx}%
+ \pgfmathdivide@{16000}{\pgfplots@loc@TMPa}%
+ \let\pgfplots@smithchart@axis@max@xradius@for@ycircle=\pgfmathresult
+ %
+ \ifdim\pgf@xx=\pgf@yy
+ \def\pgfplots@smithchart@axis@ratioxy{1}%
+ \def\pgfplots@smithchart@axis@ratioyx{1}%
+ \let\pgfplots@smithchart@axis@max@yradius@for@ycircle=\pgfplots@smithchart@axis@max@xradius@for@ycircle
+ \else
+ \edef\pgfplots@loc@TMPb{\pgf@sys@tonumber\pgf@yy}%
+ \pgfmathdivide@\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \let\pgfplots@smithchart@axis@ratioxy=\pgfmathresult
+ \pgfmathdivide@\pgfplots@loc@TMPb\pgfplots@loc@TMPa
+ \let\pgfplots@smithchart@axis@ratioyx=\pgfmathresult
+ %
+ \pgfmathdivide@{16000}{\pgfplots@loc@TMPb}%
+ \let\pgfplots@smithchart@axis@max@yradius@for@ycircle=\pgfmathresult
+ \fi
+}
+\let\pgfplotspoint@initialisation@units@orig=\pgfplotspoint@initialisation@units
+\def\pgfplotspoint@initialisation@units@smithchart{%
+ \pgfplotspoint@initialisation@units@orig
+ \def\pgfplotspointunity{%
+ \pgfplotspointouternormalvectorofaxisgetv{0v0}% x=0 (outer circle) and v varies (the yticks)
+ \ifx\pgfplotsretval\pgfutil@empty
+ \def\pgfplotsretval{0}%
+ \fi
+ \pgfpointnormalised{\pgfplotsqpointxy{0}{\ifx\pgfplotsretval\pgfutil@empty 0\else\pgfplotsretval\fi}}%
+ \pgf@xa=-\pgf@y
+ \global\pgf@y=\pgf@x
+ \global\pgf@x=\pgf@xa
+ }%
+ \def\pgfplotsunitylength{1}%
+ \def\pgfplotsunityinvlength{1}%
+}%
+
+\def\pgfplots@drawgridlines@INSTALLCLIP@onorientedsurf@smithchartaxis#1{%
+ %\pgfplots@clippath@install{\pgfusepath{clip}}%
+}%
+
+% At this time, the minor/major tick lists are initialised.
+\def\pgfplots@draw@axis@is@prepared@smithchartaxis{%
+ \pgfplots@gridlines@init@grid@stop@points@for xy%
+ \pgfplots@gridlines@init@grid@stop@points@for yx%
+ %
+ % and finalize x:
+ \def\pgfplots@finalize@constraints{1}%
+ \pgfplots@gridlines@init@grid@stop@points@for@computethem{x}{y}{\pgfplots@finalize@constraints}%
+}%
+
+
+% Initialises the '#1grid each nth passes #2' and '#1grid stop at #2'
+% features. All it does is to prepare the
+% method \pgfplots@get@current@grid@stop@point.
+%
+% The method is quite involved. Please refer to the manual for what it
+% is supposed to do, and refer to the code comments below for
+% implementational details.
+%
+% #1 either x or y
+% #2 either x or y
+\def\pgfplots@gridlines@init@grid@stop@points@for#1#2{%
+ %
+ \expandafter\let\csname pgfplots@#1grid@stop@points\endcsname=\relax
+ %
+ \pgfkeysgetvalue{/pgfplots/#1grid each nth passes #2}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ % we have no "xticknum -> xtickpos" lookup table yet.
+ \expandafter\def\csname b@pgfplots@#2ticknum@to@pos@lookup\endcsname{0}%
+ %
+ \pgfplotslistnewempty\pgfplots@loc@TMPd
+ % normalise the argument for 'ygrid each nth passes x': each list element
+ % should be of the form '<xtickpos>:<n>' where <n> means that each
+ % <n>th arc can pass.
+ \expandafter\pgfplotsutilforeachcommasep\pgfplots@loc@TMPa\as\entry{%
+ \expandafter\pgfplots@gridlines@init@grid@stop@points@for@normalise\entry\relax#1#2%
+ \expandafter\pgfplotslistpushback\entry\to\pgfplots@loc@TMPd
+ }%
+ \expandafter\let\csname pgfplots@#1grid@stop@points\endcsname=\pgfplots@loc@TMPd
+ %
+ % Ok.
+ %
+ % Now, the 'ygrid each nth passes x' feature relies *crucially* on grid line
+ % indices (for the 'each nth' feature).
+ %
+ % I sort the arcs according to their absolute magnitude and assign
+ % indices into the resulting arrays to normalize that stuff.
+ %
+ % The array is of the form
+ % A[i] = entry of \pgfplots@prepared@tick@positions@*
+ % and contains *both*, major and minor grid lines.
+ \pgfplotsarraynewempty\pgfplots@gridlines
+ \pgfplotscoordmath{default}{zero}%
+ \edef\elem{{-1}{\pgfmathresult}}% require 0 to be zero for symmetry even if there is no such tick pos
+ \expandafter\pgfplotsarraypushback\elem\to\pgfplots@gridlines
+ \pgfplots@if{pgfplots@#1majorgrids}{%
+ % insert all major tick positions, using their absolute value.
+ \expandafter
+ \pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@major@#1\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tick}%
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfmathresult}}%
+ \edef\elem{{\pgfplots@ticknum}{\pgfmathresult}}%
+ \expandafter\pgfplotsarraypushback\elem\to\pgfplots@gridlines
+ }%
+ }{}%
+ \pgfplots@if{pgfplots@#1minorgrids}{%
+ % now the same for minor grid positions:
+ \expandafter
+ \pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@minor@#1\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tick}%
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfmathresult}}%
+ \edef\elem{{\pgfplots@ticknum}{\pgfmathresult}}%
+ \expandafter\pgfplotsarraypushback\elem\to\pgfplots@gridlines
+ }%
+ }{}%
+ % sort the array!
+ \pgfkeysgetvalue{/pgfplots/smithchart@sortlt/.@cmd}\pgfplots@loc@TMPa
+ \pgfkeyslet{/pgfplots/iflessthan/.@cmd}\pgfplots@loc@TMPa
+ \pgfplotsarraysort\pgfplots@gridlines
+ %
+ % ok. Now it is sorted.
+ %
+ % I finally need a lookup
+ % \pgfplots@ticknum --> sort index.
+ % If the associated values have the same absolute value, the same
+ % sort index should be assigned.
+ %
+ % For example, the array might be associated to the following tick
+ % positions, sorted by absolute value:
+ % 0.0, 1.0, -1.0, 3.0, -3.0, 4.0, -4.0, 5.0, -5.0
+ % What I want is that
+ % 0.0 gets sort index 0
+ % 1.0 and -1.0 get sort index 1
+ % 3.0 and -3.0 get sort index 2
+ % 4.0 and -4.0 get sort index 3
+ % and so on. The array contains only absolute values, so that's
+ % not too difficult to check.
+ %
+ % Since each of the tick positions can be (uniquely) identified by
+ % its associated \pgfplots@ticknum value, I map \pgfplots@ticknum
+ % to the sort index.
+ \countdef\c@sortindex=\c@pgf@counta
+ \c@sortindex=\pgfkeysvalueof{/pgfplots/#1grid each nth passes #2 start} % this is assigned to the '0.0' gridline (if any)
+ \def\pgfplots@lasttickpos{}%
+ \pgfplotsarrayforeachungrouped\pgfplots@gridlines\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \ifx\pgfplots@lasttickpos\pgfutil@empty
+ \else
+ \ifx\pgfplots@lasttickpos\pgfplots@tick
+ \else
+ \advance\c@sortindex by1
+ \fi
+ \fi
+ \expandafter\edef\csname pgfplots@#1tickpos@to@sortidx@\pgfplots@ticknum\endcsname{\the\c@sortindex}%
+%\message{\pgfplots@ticknum\space(abs(tickpos) = \pgfplots@tick)---> sort index \csname pgfplots@#1tickpos@to@sortidx@\pgfplots@ticknum\endcsname^^J}%
+ \let\pgfplots@lasttickpos=\pgfplots@tick
+ }%
+ %
+ % unfortunately, I can't free the \pgfplots@gridlines array
+ % without extensive overhead :-(
+ \fi
+ %
+ \expandafter\let\csname b@pgfplots@#1gridline@stopmap\endcsname\relax
+ \pgfkeysgetvalue{/pgfplots/#1grid stop at #2}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa,}% this inserts the final comma and handles any active ':' sign (for french babel)
+ \def\pgfplots@loc@TMPb{\pgfplots@gridlines@init@stop@maps #1#2}%
+ \expandafter\pgfplots@loc@TMPb\pgfplots@loc@TMPa\pgfplots@EOI%
+ \fi
+ %
+ %
+ % Now, compute all final stop positions. Also prepare the cross
+ % dependencies between x grids and y grids here (such that there
+ % is no grid line stopping in white space)
+ %
+ \if#1x%
+ \def\pgfplots@finalize@constraints{0}% we have to wait until y stop points are known.
+ \else
+ \def\pgfplots@finalize@constraints{1}%
+ \fi
+ \pgfplots@gridlines@init@grid@stop@points@for@computethem{#1}{#2}{\pgfplots@finalize@constraints}%
+}%
+% #1,#2,#3 the arguments for
+% \pgfplots@gridlines@preparation@get@current@grid@stop@point
+\def\pgfplots@gridlines@init@grid@stop@points@for@computethem#1#2#3{%
+ %
+ \expandafter\pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@major@#1\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tick}\let\pgfplots@tick=\pgfmathresult
+ \pgfplots@gridlines@preparation@get@current@grid@stop@point{#1}{#2}{\pgfplots@tick}{#3}%
+ \if1#3%
+ \pgfplots@gridlines@let{#1}{\pgfplots@tick@prepared}=\pgfplotsretval
+ \fi
+ }%
+ \expandafter\pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@minor@#1\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@tick}\let\pgfplots@tick=\pgfmathresult
+ \pgfplots@gridlines@preparation@get@current@grid@stop@point{#1}{#2}{\pgfplots@tick}{#3}%
+ \if1#3%
+ \pgfplots@gridlines@let{#1}{\pgfplots@tick@prepared}=\pgfplotsretval
+ \fi
+ }%
+ \expandafter\def\csname b@pgfplots@#1gridline@stopmap\endcsname{1}%
+}
+
+\def\pgfplots@gridlines@init@stop@maps#1#2{%
+ \pgfutil@ifnextchar\pgfplots@EOI{%
+ \pgfutil@gobble
+ }{%
+ \pgfutil@ifnextchar,{%
+ \pgfplots@gridlines@init@stop@maps@next@@#1#2%
+ }{%
+ \pgfplots@gridlines@init@stop@maps@next#1#2%
+ }%
+ }%
+}%
+\def\pgfplots@gridlines@init@stop@maps@next#1#2#3:#4,{%
+ \pgfplotscoordmath{default}{parsenumber}{#4}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplots@gridlines@stopmap@prepare{#3}%
+ \pgfplots@gridlines@let{#1}{\pgfmathresult}=\pgfplots@loc@TMPa
+ \expandafter\def\csname b@pgfplots@#1gridline@stopmap\endcsname{1}%
+ %
+ \pgfplots@gridlines@init@stop@maps #1#2%
+}
+% just eat one empty comma:
+\def\pgfplots@gridlines@init@stop@maps@next@@#1#2,{\pgfplots@gridlines@init@stop@maps #1#2}%
+\def\pgfplots@gridlines@let#1#2=#3{%
+ \expandafter\let\csname pgfplots@#1gridline@stopmap@#2\endcsname=#3%
+ \if#1y%
+ % support symmetry:
+ % add -\pgfmathresult to the map.
+ % To disable this symmetry, use 'ygrid stop at x={0.2:4 -0.2:5}
+ % you can also use an empty value '-0.2:{}', that's also ok.
+ \expandafter\let\csname pgfplots@#1gridline@stopmap@-#2\endcsname=#3%
+ \fi
+}%
+
+\def\pgfplots@gridlines@stopmap@prepare@digits{2}%
+\def\pgfplots@gridlines@stopmap@prepare#1{%
+ \begingroup
+ \pgfmathfloatparsenumber{#1}%
+ \let\pgfmathfloat@round@precision=\pgfplots@gridlines@stopmap@prepare@digits%
+ \pgfmathfloatroundzerofill\pgfmathresult
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+}%
+\def\pgfplots@gridlines@stopmap@trunc@#1.#2#3#4\relax{%
+ \def\pgfmathresult{#1.#2#3}%
+}%
+
+\pgfkeysdefargs{/pgfplots/smithchart@sortlt}{#1#2#3#4}{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack#1%
+ \let\pgfplots@A=\pgfplots@tick
+ \expandafter\pgfplots@prepared@tick@pos@unpack#2%
+ \let\pgfplots@B=\pgfplots@tick
+ \pgfplotscoordmath{default}{if less than}{\pgfplots@A}{\pgfplots@B}{#3}{#4}%
+}%
+
+% initialise a lookuptable from ticknumber -> tick position (sort
+% of an array)
+%
+% This is only invoked if it is needed (if 'arc
+% limits={[index]4,[index]2}' or something like that is used, see the
+% manual).
+%
+% #1 either x or y
+% #2 either x or y
+\def\pgfplots@gridlines@init@grid@stop@points@for@init@ticknum@lookup#1#2{%
+ \c@pgf@counta=0
+ \pgfplots@if{pgfplots@#1majorgrids}{%
+ \expandafter
+ \pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@major@#2\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \expandafter\let\csname pgfplots@#2tick@num@to@pos@\the\c@pgf@counta\endcsname=\pgfplots@tick
+ \advance\c@pgf@counta by1
+ }%
+ }{}%
+ \pgfplots@if{pgfplots@#1minorgrids}{%
+ \expandafter
+ \pgfplotslistforeachungrouped\csname pgfplots@prepared@tick@positions@minor@#2\endcsname\as\elem{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\elem
+ \expandafter\let\csname pgfplots@#2tick@num@to@pos@\the\c@pgf@counta\endcsname=\pgfplots@tick
+ \advance\c@pgf@counta by1
+ }%
+ }{}%
+ \expandafter\def\csname b@pgfplots@#2ticknum@to@pos@lookup\endcsname{1}%
+}%
+\def\pgfplots@gridlines@init@grid@stop@points@for@normalise#1\relax#2#3{%
+ \def\b@pgfplots@haslt{0}%
+ %
+ \pgfutil@in@{if <}{#1}%
+ \ifpgfutil@in@
+ % strip the white space between 'if' and '<':
+ \def\pgfplots@loc@TMPa##1if <##2\relax{\edef\entry{##1if<##2}}%
+ \expandafter\pgfplots@loc@TMPa\entry\relax
+ \def\b@pgfplots@haslt{1}%
+ \fi
+ %
+ \pgfutil@in@{if<}{#1}%
+ \ifpgfutil@in@
+ \def\b@pgfplots@haslt{1}%
+ \fi
+ %
+ \pgfutil@in@:{#1}%
+ \ifpgfutil@in@
+ \def\b@pgfplots@hascolon{1}%
+ \else
+ \def\b@pgfplots@hascolon{0}%
+ \fi
+ %
+ \if1\b@pgfplots@hascolon
+ \edef\entry{\entry\if0\b@pgfplots@haslt if<\fi}%
+ \else
+ \if1\b@pgfplots@haslt
+ \expandafter\pgfplots@gridlines@stop@at@unpack@@@\entry\relax
+ \edef\entry{\pgfplots@grid@stop@at:2if<\pgfplots@grid@stop@at@iflt}%
+ \else
+ \edef\entry{\entry:2if<}%
+ \fi%
+ \fi%
+ %
+ \pgfutil@in@{[index]}{#1}%
+ \ifpgfutil@in@
+ \if0\csname b@pgfplots@#3ticknum@to@pos@lookup\endcsname
+ \pgfplots@gridlines@init@grid@stop@points@for@init@ticknum@lookup#2#3%
+ \fi
+ \expandafter\pgfplots@gridlines@stop@at@unpack\entry\relax
+ \pgfutil@ifundefined{pgfplots@#3tick@num@to@pos@\pgfplots@grid@stop@at}{%
+ \pgfplots@warning{There is no #3tick with index '\pgfplots@grid@stop@at'. Skipping it.}%
+ \let\entry=\pgfutil@empty
+ }{%
+ \edef\entry{\csname pgfplots@#3tick@num@to@pos@\pgfplots@grid@stop@at\endcsname:\pgfplots@grid@stop@at@eachnth}%
+ }%
+ \fi
+ %
+ \expandafter\pgfplots@gridlines@stop@at@unpack\entry\relax
+ \pgfplotscoordmath{default}{parsenumber}\pgfplots@grid@stop@at
+ \let\pgfplots@grid@stop@at=\pgfmathresult
+ \ifx\pgfplots@grid@stop@at@iflt\pgfutil@empty
+ \else
+ \pgfplotscoordmath{default}{parsenumber}\pgfplots@grid@stop@at@iflt
+ \let\pgfplots@grid@stop@at@iflt=\pgfmathresult
+ \fi
+ \edef\entry{\pgfplots@grid@stop@at:\pgfplots@grid@stop@at@eachnth if<\pgfplots@grid@stop@at@iflt}%
+}%
+\def\pgfplots@gridlines@stop@at@unpack@@@#1if<#2\relax{%
+ \def\pgfplots@grid@stop@at{#1}%
+ \def\pgfplots@grid@stop@at@iflt{#2}%
+}%
+\def\pgfplots@gridlines@stop@at@unpack#1:#2if<#3\relax{%
+ \def\pgfplots@grid@stop@at{#1}%
+ \def\pgfplots@grid@stop@at@eachnth{#2}%
+ \def\pgfplots@grid@stop@at@iflt{#3}%
+}%
+
+% Returns the xtick position which should end the current arc.
+%
+% This is an INTERNAL preparation method. See
+% \pgfplots@get@current@grid@stop@point for the final one.
+%
+% Note that arcs correspond to ygrid lines.
+%
+% #1 either x or y
+% #2 either x or y
+% #3 the value of the current grid line
+% #4 a boolean which expands either to 0 or to 1.
+% The \pgfplots@get@current@grid@stop@point@handle@constraints method
+% will be invoked if and only if #4=1
+%
+% @POSTCONDITION On output,
+% - \pgfplotsretval will be filled with the
+% result. If the result is empty, no restriction is imposed.
+% Otherwise, it contains the #2tick value at which the current #1grid shall end.
+% The result is already processed with
+% \pgfplotscoordmath{default}{parsenumber}{<value>}
+% - \pgfplots@tick@prepared contains a rounded representation of #3.
+%
+% The method relies on the 'ygrid each nth passes x' feature, more specifically the
+% stuff prepared by \pgfplots@gridlines@init@grid@stop@points@for
+\def\pgfplots@gridlines@preparation@get@current@grid@stop@point#1#2#3#4{%
+ \def\pgfplotsretval{}%
+ %
+ \pgfplots@gridlines@stopmap@prepare{#3}%
+ \let\pgfplots@tick@prepared=\pgfmathresult
+ \pgfmathfloatabs@\pgfplots@tick@prepared
+ \let\pgfplots@tick@prepared@abs=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{abs}{{#3}}%
+ \let\pgfplots@tick@abs=\pgfmathresult
+ %
+ % first: check the '#1grid stop at #2':
+ \expandafter\ifx\csname b@pgfplots@#1gridline@stopmap\endcsname\relax%
+ % ok. there is no such thing.
+ \else
+ % ah - process it!
+ \pgfutil@ifundefined{pgfplots@#1gridline@stopmap@\pgfplots@tick@prepared}{%
+ }{%
+ \edef\pgfplotsretval{\csname pgfplots@#1gridline@stopmap@\pgfplots@tick@prepared\endcsname}%
+ }%
+ \fi
+ %
+ \ifx\pgfplotsretval\pgfutil@empty
+ % the individual map failed. Ok, then check for the '#1grid each nth passes #2'
+ \expandafter\ifx\csname pgfplots@#1grid@stop@points\endcsname\relax
+ \else
+ % \pgfplots@ticknum is defined in this context here.
+ \pgfutil@ifundefined{pgfplots@#1tickpos@to@sortidx@\pgfplots@ticknum}{%
+ \pgfplots@warning{Sorry, I can't get the current arc limit for #1grid no \#\pgfplots@ticknum\space(value \pgfplots@tick). This seems like an internal error!?}%
+ }{%
+ % get the sort index for the current tick (which is
+ % uniquely identified by its \pgfplots@ticknum)
+ \expandafter\let\expandafter\pgfplots@k\csname pgfplots@#1tickpos@to@sortidx@\pgfplots@ticknum\endcsname
+ %
+ \expandafter\pgfplotslistforeachungrouped\csname pgfplots@#1grid@stop@points\endcsname\as\pgfplots@loc@TMPa{%
+ \ifx\pgfplotsretval\pgfutil@empty
+ % we found no final limit so far. proceed.
+ \expandafter\pgfplots@gridlines@stop@at@unpack\pgfplots@loc@TMPa\relax
+ \ifx\pgfplots@grid@stop@at@iflt\pgfutil@empty
+ \pgfplots@loop@CONTINUEtrue
+ \else
+ \pgfplotscoordmath{default}{if less than}{\pgfplots@tick@abs}{\pgfplots@grid@stop@at@iflt}{%
+ \pgfplots@loop@CONTINUEtrue
+ }{%
+ \pgfplots@loop@CONTINUEfalse
+ }%
+ \fi
+ %
+ \ifpgfplots@loop@CONTINUE
+ \pgfplotsmathmodint\pgfplots@k\pgfplots@grid@stop@at@eachnth
+ \ifnum\pgfmathresult=0
+ \c@pgf@counta=\pgfplots@k
+ \divide\c@pgf@counta by\pgfplots@grid@stop@at@eachnth\relax
+ \edef\pgfplots@k{\the\c@pgf@counta}%
+ \else
+ % found the final limit.
+ %
+ % Now, check the constraints which couple
+ % X and Y.
+ \let\pgfplotsretval=\pgfplots@grid@stop@at
+ \if1#4%
+ \pgfplots@get@current@grid@stop@point@handle@constraints #1#2{#3}%
+ \fi
+ \fi
+ \fi
+ \fi
+ }%
+ }%
+ \fi
+ \fi
+ \ifx\pgfplotsretval\pgfutil@empty
+ \else
+ \expandafter\let\csname pgfplots@final@stop@point@for@#1tick@\pgfplots@tick@prepared\endcsname=\pgfplotsretval
+%\message{#1 grid line: storing end value for '#3' END[\pgfplots@tick@prepared] = \pgfplotsretval.^^J}%
+ \fi
+}%
+
+% PRECONDITION
+% \pgfplotsretval contains a non-zero constraint for the ygrid at #1.
+%
+% POSTCONDITION
+% either \pgfplotsretval is unchanged, or it is reset to
+% \pgfutil@empty if constraints are violated.
+%
+% The constraints are ONLY effective if BOTH, incomplete x- and y grid
+% lines are in effect. In that case, it should never happen that a
+% single grid line ends in a dead-end somewhere in white space.
+%
+% I enforce two constraints which apply only to ygrid to fix this
+% issue (this may be improved later).
+%
+% The idea is simple:
+% 1. suppose the grid line 'x=1' stops at 'y=5'.
+% Suppose further that the y grid line 'y=0.95' should stop at 'x=1'.
+% Is that acceptable? Yes, because |y| < 5.
+% Now, suppose an y grid line with |y| > 5 should stop at 'x=1'.
+% Is this allowed? NO! Because it would become a dead end since
+% the 'x=1' line ends at 'y=5'!
+%
+% So, whenever we consider ygrids and stop point candidates "x=X",
+% acquire the value Q where the x (!) grid line "x=X" stops.
+% If |y| > Q, the candidate "x=X" is rejected.
+%
+% 2. There might still be the case that x grid lines have dead-ends.
+% The current solution applies the idea first to all y grid lines,
+% and once the y grid lines are ready, it applies the same idea to
+% x grid lines.
+%
+% Uncomment the routine(s) and run the test cases to see what happens.
+\def\pgfplots@get@current@grid@stop@point@handle@constraints#1#2#3{%
+ \ifx\pgfplotsretval\pgfutil@empty
+ \else
+ \pgfplots@gridlines@stopmap@prepare{\pgfplotsretval}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ %
+%\message{checking ending '#1=#3' at '#2=\pgfplotsretval'. '#2=\pgfplots@loc@TMPa' stops}%
+ \pgfutil@ifundefined{pgfplots@final@stop@point@for@#2tick@\pgfplots@loc@TMPa}{%
+ % no constraint. Ok.
+%\message{ nowhere. No constraint.^^J}%
+ }{%
+%\message{ at \pgfplots@loc@TMPa. Feasible: }%
+ % Oh, a constraint. That means
+ % further work.
+ \expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@final@stop@point@for@#2tick@\pgfmathresult\endcsname
+ \pgfplotscoordmath{default}{op}{abs}{{#3}}%
+ \pgfplotscoordmath{default}{if less than}{\pgfmathresult}{\pgfplots@loc@TMPa}{%
+ % ok, we can use the found
+ % stop value.
+%\message{YES.^^J}%
+ }{%
+%\message{NO.^^J}%
+ % no, the stop value is
+ % invalid; it would stop in
+ % white space!
+ \let\pgfplotsretval=\pgfutil@empty
+ }%
+ }%
+ \fi
+}%
+
+% Returns the xtick position which should end the current arc.
+%
+% Note that arcs correspond to ygrid lines.
+%
+% #1 either x or y
+% #2 either x or y
+% #3 the value of the current grid line
+%
+% @POSTCONDITION On output, \pgfplotsretval will be filled with the
+% result. If the result is empty, no restriction is imposed.
+% Otherwise, it contains the #2tick value at which the current #1grid shall end.
+% The result is already processed with
+% \pgfplotscoordmath{default}{parsenumber}{<value>}
+%
+% The method relies on the 'ygrid each nth passes x' feature, more specifically the
+% stuff prepared by \pgfplots@gridlines@init@grid@stop@points@for
+%
+% Note that all work has already been done by
+% \pgfplots@gridlines@init@grid@stop@points@for. We only need to query
+% the result at this point.
+% @see \pgfplots@gridlines@init@grid@stop@points@for
+% @see \pgfplots@gridlines@preparation@get@current@grid@stop@point
+\def\pgfplots@get@current@grid@stop@point#1#2#3{%
+ \def\pgfplotsretval{}%
+ %
+ % check the '#1grid stop at #2':
+ \expandafter\ifx\csname b@pgfplots@#1gridline@stopmap\endcsname\relax%
+ % ok. there is no such thing.
+ \else
+ %
+ \pgfplots@gridlines@stopmap@prepare{#3}%
+ \let\pgfplots@tick@prepared=\pgfmathresult
+ \pgfmathfloatabs@\pgfplots@tick@prepared
+ \let\pgfplots@tick@prepared@abs=\pgfmathresult
+ %
+ % ah - process it!
+ \pgfutil@ifundefined{pgfplots@#1gridline@stopmap@\pgfplots@tick@prepared}{%
+ \let\pgfplotsretval\pgfutil@empty
+ }{%
+ \edef\pgfplotsretval{\csname pgfplots@#1gridline@stopmap@\pgfplots@tick@prepared\endcsname}%
+ }%
+ \fi
+ %
+}%
+
+
+\def\pgfplots@smithchart@draw@xcircle#1{%
+ \pgfplotscoordmath{default}{one}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{parsenumber}{#1}%
+ \let\pgfplots@x=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@loc@TMPa}{\pgfplots@x}}%
+ \let\pgfplots@radius@inverse=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{reciprocal}{{\pgfmathresult}}%
+ \let\pgfplots@radius=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\pgfplots@x}}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@center=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@radius}%
+ \let\pgfplots@radius=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@radius@inverse}%
+ \let\pgfplots@radius@inverse=\pgfmathresult
+ %
+ % This here would suffice in case 'xgrid each nth passes y={}':
+% \pgfpathellipse
+% {\pgfplotsqpointxy@smithchart@canvas{\pgfplots@center}{0}}
+% {\pgfplotsqpointxy@smithchart@canvas{\pgfplots@radius}{0}}
+% {\pgfplotsqpointxy@smithchart@canvas{0}{\pgfplots@radius}}%
+ %
+ % but we also check for the 'xgrid each nth passes y' feature:
+ \pgfplots@get@current@grid@stop@point xy{\pgfplots@x}%
+ \let\pgfplots@arc@ends@at@y@arc@value\pgfplotsretval%
+ %
+ \ifx\pgfplots@arc@ends@at@y@arc@value\pgfutil@empty
+ % Ok. There is no specific end point -- simply use the
+ % (1,0) point (i.e. draw the full circle).
+ %
+ \pgfmathadd@{\pgfplots@center}{\pgfplots@radius}%
+ \let\pgfplots@start=\pgfmathresult%
+ \def\pgfplots@startim{0}%
+ \def\pgfplots@startangle{0}%
+ \let\pgfplots@end=\pgfplots@start
+ \let\pgfplots@endim=\pgfplots@startim
+ \def\pgfplots@endangle{360}%
+ \else
+ % Ok. The arc should end before it reaches the (1,0)
+ % point. Determine the exact position and the
+ % corresponding arc end angle.
+ %
+ % In general, the intersection between the circle for
+ % fixed x=A and fixed y=B is given by
+ %
+ % p + j * q = (A + j * B -1 ) / ( A + j*B +1)
+ % see http://www.siart.de/lehre/tutorien.xhtml#smishort
+ \pgfplotscoordmath{default}{one}%
+ \let\pgfplots@one=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{-1}%
+ \let\pgfplots@mone=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@x}{\pgfplots@mone}}%
+ \let\pgfplots@A@mone=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@x}{\pgfplots@one}}%
+ \let\pgfplots@A@one=\pgfmathresult
+ % oh - we should only draw a partial arc.
+ % Well, then compute its end point and the
+ % corresponding end angle.
+ \pgfplotscoordmathcomplexdivision
+ {\pgfplots@A@mone}{\pgfplots@arc@ends@at@y@arc@value}%
+ {\pgfplots@A@one}{\pgfplots@arc@ends@at@y@arc@value}%
+ \let\pgfplots@start=\pgfmathresult
+ \let\pgfplots@startim=\pgfmathresultim
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@start}%
+ \let\pgfplots@start=\pgfmathresult
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@startim}%
+ \let\pgfplots@startim=\pgfmathresult
+ %
+ \pgfplots@compute@angle@of@point@in@circle\pgfplots@start\pgfplots@startim{\pgfplots@center}{\pgfplots@radius}{\pgfplots@radius@inverse}%
+ \let\pgfplots@startangle=\pgfmathresult
+ \pgfmathsubtract@{360}{\pgfplots@startangle}%
+ \let\pgfplots@endangle=\pgfmathresult
+ \let\pgfplots@end=\pgfplots@start
+ \edef\pgfplots@endim{-\pgfplots@startim}%
+ \ifdim\pgfplots@startangle pt>\pgfplots@endangle pt
+ \let\pgfplots@loc@TMPa=\pgfplots@startangle
+ \let\pgfplots@startangle=\pgfplots@endangle
+ \let\pgfplots@endangle=\pgfplots@loc@TMPa
+ \fi
+ \fi
+ %
+%\message{X grid line \#\csname pgfplots@ticknum\endcsname \space at '#1': center = (\pgfplots@center,0); radius = \pgfplots@radius\space(start angle \pgfplots@startangle, end angle = \pgfplots@endangle; stops at y = \pgfplots@arc@ends@at@y@arc@value).^^J}%
+ %
+ % Now, compute the arc.
+ %
+ % first, compute the absolute x/y radii:
+ \pgf@xa=\pgfplots@radius\pgf@xx
+ \pgf@xb=\pgfplots@radius\pgf@yy
+ \edef\pgfplots@mirror@sign{\ifpgfplots@smithchart@mirrored -\fi}%
+ \pgfpathmoveto{\pgfplotsqpointxy@smithchart@canvas{\pgfplots@start}{\pgfplots@startim}}%
+ % note that the case startangle > endangle is
+ % automatically correct; patharc handles that.
+ %\edef\pgfplots@loc@TMPa{{\pgfplots@startangle}{\pgfplots@endangle}{\pgfplots@mirror@sign\the\pgf@xa\space and \the\pgf@xb}}%
+ %\expandafter\pgfpatharc\pgfplots@loc@TMPa
+ %
+ % prefer \pgfpatharctoprecomputed. It is faster and more accurate
+ \edef\pgfplots@loc@TMPa{%
+ {\noexpand\pgfplotsqpointxy@smithchart@canvas{\pgfplots@center}{0}}%
+ {\pgfplots@startangle}%
+ {\pgfplots@endangle}%
+ {\noexpand\pgfplotsqpointxy@smithchart@canvas{\pgfplots@end}{\pgfplots@endim}}%
+ {\pgfplots@mirror@sign\the\pgf@xa}%
+ {\the\pgf@xb}%
+ {\pgfplots@mirror@sign\pgfplots@smithchart@axis@ratioxy}%
+ {\pgfplots@mirror@sign\pgfplots@smithchart@axis@ratioyx}%
+ }%
+ \expandafter\pgfpatharctoprecomputed\pgfplots@loc@TMPa
+}
+
+\def\pgfplots@smithchart@draw@yarc#1{%
+ \pgfplotscoordmath{default}{parsenumber}{#1}%
+ \let\pgfplots@y\pgfmathresult
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfplots@y}}%
+ \pgfplotscoordmath{default}{if less than}{\pgfmathresult}{\pgfplots@almost@zero@thresh}{%
+ \pgfpathmoveto{\pgfplotsqpointxy@smithchart@canvas{-1}{0}}%
+ \pgfpathlineto{\pgfplotsqpointxy@smithchart@canvas{1}{0}}%
+ }{%
+ \pgfplotscoordmath{default}{op}{reciprocal}{{\pgfplots@y}}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@signedradius=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@y}%
+ \ifdim\pgfplots@signedradius pt<0pt
+ \def\pgfplots@radius@sign{-}%
+ \edef\pgfplots@radius@inverse{-\pgfmathresult}%
+ \edef\pgfplots@radius{-\pgfplots@signedradius}%
+ \else
+ \def\pgfplots@radius@sign{}%
+ \edef\pgfplots@radius@inverse{\pgfmathresult}%
+ \let\pgfplots@radius=\pgfplots@signedradius
+ \fi
+ % this here is the correct, complete circle -- together
+ % with a clip path, you get what you want:
+ %\pgfpathellipse
+ % {\pgfplotsqpointxy@smithchart@canvas{1}{\pgfplots@signedradius}}
+ % {\pgfplotsqpointxy@smithchart@canvas{\pgfplots@signedradius}{0}}
+ % {\pgfplotsqpointxy@smithchart@canvas{0}{\pgfplots@signedradius}}%
+ % But I only want the arc (probably stopped earlier to
+ % improve qualtity of the chart)
+ %
+ % compute start point for the arc.
+ %
+ % To do so, we need to compute the intersection between
+ % the circle for fixed x=0 and the circle for y=#1.
+ %
+ % In general, the intersection between the circle for
+ % fixed x=A and fixed y=B is given by
+ %
+ % p + j * q = (A + j * B -1 ) / ( A + j*B +1)
+ % see http://www.siart.de/lehre/tutorien.xhtml#smishort
+ %
+ % inserting A = 0 and B = #1 yields the result
+ % p=\pgfplots@start
+ % q=\pgfplots@startim
+ % as follows:
+ \pgfplotscoordmath{default}{one}%
+ \let\pgfplots@one=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{-1}%
+ \let\pgfplots@mone=\pgfmathresult
+ \pgfplotscoordmathcomplexdivision{\pgfplots@mone}{\pgfplots@y}{\pgfplots@one}{\pgfplots@y}%
+ \let\pgfplots@start=\pgfmathresult
+ \let\pgfplots@startim=\pgfmathresultim
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@start}%
+ \let\pgfplots@start=\pgfmathresult
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@startim}%
+ \let\pgfplots@startim=\pgfmathresult
+ %
+ \pgfplots@compute@angle@of@point@in@circle\pgfplots@start\pgfplots@startim{1}{\pgfplots@signedradius}{\pgfplots@radius@inverse}%
+ \let\pgfplots@startangle=\pgfmathresult
+ %
+ %
+ % compute end angle.
+ \pgfplots@get@current@grid@stop@point yx{\pgfplots@y}%
+ \let\pgfplots@arc@ends@at@x@circle@value\pgfplotsretval%
+ %
+ \ifx\pgfplots@arc@ends@at@x@circle@value\pgfutil@empty
+ % Ok. There is no specific end point -- simply use the
+ % (1,0) point (i.e. draw the full arc).
+ %
+ % The "0 degree" angle in my circles is in the direction
+ % of (1,0) .
+ \ifdim\pgfplots@startim pt>0pt
+ % ok; this arc belongs to the upper hemisphere.
+ \def\pgfplots@endangle{270}%
+ \else
+ % ok; this arc belongs to the lower hemisphere.
+ \def\pgfplots@endangle{90}%
+ \fi
+ \def\pgfplots@end{1}%
+ \def\pgfplots@endim{0}%
+ \else
+ % Ok. The arc should end before it reaches the (1,0)
+ % point. Determine the exact position and the
+ % corresponding arc end angle.
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@arc@ends@at@x@circle@value}{\pgfplots@mone}}%
+ \let\pgfplots@A@mone=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@arc@ends@at@x@circle@value}{\pgfplots@one}}%
+ \let\pgfplots@A@one=\pgfmathresult
+ % oh - we should only draw a partial arc.
+ % Well, then compute its end point and the
+ % corresponding end angle.
+ \pgfplotscoordmathcomplexdivision{\pgfplots@A@mone}{\pgfplots@y}{\pgfplots@A@one}{\pgfplots@y}%
+ \let\pgfplots@end=\pgfmathresult
+ \let\pgfplots@endim=\pgfmathresultim
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@end}%
+ \let\pgfplots@end=\pgfmathresult
+ \pgfplotscoordmath{default}{tofixed}{\pgfplots@endim}%
+ \let\pgfplots@endim=\pgfmathresult
+ %
+ \pgfplots@compute@angle@of@point@in@circle\pgfplots@end\pgfplots@endim{1}{\pgfplots@signedradius}{\pgfplots@radius@inverse}%
+ \let\pgfplots@endangle=\pgfmathresult
+ \fi
+ %
+ %
+ %
+ % Now, compute the arc.
+ %
+ % first, compute the absolute x/y radii:
+ %
+ % Note that for small y (like y=0.01), the arc is almost a
+ % straight line. Consequently, the ellipsis radius will be much larger
+ % than 16000, violating TeX's number range.
+ %
+ % To avoid that, I clip it to the highest allowed value.
+ % The final radius is
+ % \pgfplots@radius * \pgf@xx and \pgfplots@radius * \pgf@yy.
+ % the clipped value thus needs to respect the magnitude of \pgf@xx and \pgf@yy.
+ \ifdim\pgfplots@radius pt<\pgfplots@smithchart@axis@max@xradius@for@ycircle pt
+ \let\pgfplots@radius@x\pgfplots@radius
+ \else
+ \let\pgfplots@radius@x=\pgfplots@smithchart@axis@max@xradius@for@ycircle
+ \fi
+ \ifdim\pgfplots@radius pt<\pgfplots@smithchart@axis@max@yradius@for@ycircle pt
+ \let\pgfplots@radius@y\pgfplots@radius
+ \else
+ \let\pgfplots@radius@y=\pgfplots@smithchart@axis@max@yradius@for@ycircle
+ \fi
+%\message{Y grid line \#\csname pgfplots@ticknum\endcsname\space at '#1': center = (1,\pgfplots@signedradius); signedradius = \pgfplots@signedradius\space clipped radii = \pgfplots@radius@x*\the\pgf@xx\space and \pgfplots@radius@y*\the\pgf@yy\space ( start angle \pgfplots@startangle, end angle \pgfplots@endangle, arc limit: \ifx\pgfplots@arc@ends@at@x@circle@value\pgfutil@empty NONE\else \pgfplots@arc@ends@at@x@circle@value\fi)^^J}%
+ \pgf@xa=\pgfplots@radius@x\pgf@xx
+ \pgf@xb=\pgfplots@radius@y\pgf@yy
+ \edef\pgfplots@mirror@sign{\ifpgfplots@smithchart@mirrored -\fi}%
+ \pgfpathmoveto{\pgfplotsqpointxy@smithchart@canvas{\pgfplots@start}{\pgfplots@startim}}%
+ % note that the case startangle > endangle is
+ % automatically correct; patharc handles that.
+ %\edef\pgfplots@loc@TMPa{{\pgfplots@startangle}{\pgfplots@endangle}{\pgfplots@mirror@sign\the\pgf@xa\space and \the\pgf@xb}}%
+ %\expandafter\pgfpatharc\pgfplots@loc@TMPa
+ %
+ % prefer \pgfpatharctoprecomputed. It is faster and more accurate
+ \ifdim\pgfplots@startangle pt>\pgfplots@endangle pt
+ \let\pgfplots@loc@TMPa=\pgfplots@startangle
+% \let\pgfplots@startangle=\pgfplots@endangle
+% \let\pgfplots@endangle=\pgfplots@loc@TMPa
+ \fi
+ \edef\pgfplots@loc@TMPa{%
+ {\noexpand\pgfplotsqpointxy@smithchart@canvas{1}{\pgfplots@radius@sign\pgfplots@radius@y}}%
+ {\pgfplots@startangle}%
+ {\pgfplots@endangle}%
+ {\noexpand\pgfplotsqpointxy@smithchart@canvas{\pgfplots@end}{\pgfplots@endim}}%
+ {\pgfplots@mirror@sign\the\pgf@xa}%
+ {\the\pgf@xb}%
+ {\pgfplots@mirror@sign\pgfplots@smithchart@axis@ratioxy}%
+ {\pgfplots@mirror@sign\pgfplots@smithchart@axis@ratioyx}%
+ }%
+ \expandafter\pgfpatharctoprecomputed\pgfplots@loc@TMPa
+ }%
+}
+
+\def\pgfplots@drawgridlines@onorientedsurf@fromto@smithchart#1{%
+ \if x\pgfplotspointonorientedsurfaceA
+ \pgfplots@smithchart@draw@xcircle{#1}%
+ \else
+ \pgfplots@smithchart@draw@yarc{#1}%
+ \fi
+}%
+
+% Given a circle with center point (#3,#4), we search for the angle
+% of the point (#1,#2). The point is expected to be on the circle.
+% The resulting angle is returned in \pgfmathresult
+%
+% #1 x coordinate of the point for which an angle is searched
+% #2 y coordinate of the point for which an angle is searched
+% #3 x coordinate of the circle's center point
+% #4 y coordinate of the circle's center point
+% #5 is either empty or it is expected to contain the inverse radius, 1/r
+% this information is available in my context, so I don't recompute
+% it.
+%
+% All coordinates are expected in standard TeX precision (numbers
+% without unit)
+\def\pgfplots@compute@angle@of@point@in@circle#1#2#3#4#5{%
+ %
+ % 1. compute diff vector from center=(1,\pgfplots@signedradius) to start:
+ \pgfmathsubtract@{#1}{#3}%
+ \let\pgfplots@D\pgfmathresult
+ \pgfmathsubtract@{#2}{#4}%
+ \let\pgfplots@Dim\pgfmathresult
+ %
+ % 2. compute the start angle.
+ % It is related to the angle between the point (1,0) and
+ % diff, which, in turn is given by
+ % < (1,0), (D,Dim) > = cos(alpha) ||(D,Dim)||
+ % < (1,0), (D,Dim) > = D
+ %
+ % Note that ||(D,Dim)|| = r, the radius of the involved circle
+ % around (#3,#4). If 1/r is already available, use it! Saves a lot
+ % of time.
+ %
+ \def\pgfplots@loc@TMPa{#5}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \pgfmathveclen\pgfplots@D\pgfplots@Dim
+ \let\pgfplots@veclen=\pgfmathresult
+ \pgfmathreciprocal@\pgfplots@veclen
+ \let\pgfplots@inverseveclen=\pgfmathresult
+ \else
+ % oh, good -- we already have 1/||(D,Dim)||. Use it.
+ \def\pgfplots@inverseveclen{#5}%
+%\message{using already available inverseveclen '#5' }%
+ \fi
+ \pgfmathmultiply@{\pgfplots@D}{\pgfplots@inverseveclen}%
+%\message{D= (\pgfplots@D,\pgfplots@Dim).. acos(\pgfplots@D * \pgfplots@inverseveclen) = acos(\pgfmathresult)}%
+ \pgfmathacos@{\pgfmathresult}% the '-' comes from D<0 .
+%\message{= \pgfmathresult^^J}%
+ \let\pgfplots@tmpangle\pgfmathresult%
+ % ok. tmpangle is per definition less than 180; it is the
+ % smaller angle between (1,0) and (D,Dim).
+ %
+ % compute the angle relative to (1,0):
+ \ifdim\pgfplots@Dim pt<0pt
+ \pgfmathsubtract@{360}{\pgfplots@tmpangle}%
+ \fi
+}%
+
+\def\pgfplots@drawaxis@innerlines@onorientedsurf@smithchart#1#2#3{%
+ \if2\csname pgfplots@#1axislinesnum\endcsname
+ \draw[/pgfplots/every inner #1 axis line,%
+ decorate,%
+ #1discont,%
+ decoration={pre length=\csname #1disstart\endcsname, post length=\csname #1disend\endcsname}]
+ \pgfextra
+ \csname pgfplotspointonorientedsurfaceabsetupforset#3\endcsname{\csname pgfplots@logical@ZERO@#3\endcsname}{2}%
+ \if#1x%
+ \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ \pgfplots@drawgridlines@onorientedsurf@fromto{0}%
+ \else
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1min\endcsname}{\csname pgfplots@logical@ZERO@#2\endcsname}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1max\endcsname}{\csname pgfplots@logical@ZERO@#2\endcsname}}%
+ \fi
+ \endpgfextra
+ ;
+ \fi
+}%
+\def\pgfplots@drawaxis@outerlines@separate@onorientedsurf@smithchartaxis#1#2{%
+ \if2\csname pgfplots@#1axislinesnum\endcsname
+ % centered axis lines handled elsewhere.
+ \else
+ \scope[/pgfplots/every outer #1 axis line,
+ #1discont,decoration={pre length=\csname #1disstart\endcsname, post length=\csname #1disend\endcsname}]
+ \if#1x
+ \draw decorate {
+ \pgfextra
+ % exchange roles of A <-> B axes:
+ \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ \pgfplots@drawgridlines@onorientedsurf@fromto{0}%
+ \endpgfextra
+ };
+ \else
+ \pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn{0}{%
+ \draw decorate {
+ \pgfextra
+ % exchange roles of A <-> B axes:
+ \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ \pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2min\endcsname}%
+ \endpgfextra
+ };
+ }{}%
+ %--------------------------------------------------
+ % \pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn{1}{%
+ % \draw decorate {
+ % \pgfextra
+ % % exchange roles of A <-> B axes:
+ % \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ % \pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2max\endcsname}%
+ % \endpgfextra
+ % };
+ % }{}%
+ %--------------------------------------------------
+ \fi
+ \endscope
+ \fi
+}%
+
+\def\pgfplots@initsizes@smithchart{%
+ % I copy-pasted most of this code, up to just one position where
+ % I introduced the modified scaling for smithchart axes
+ %----------------------------------
+ % INIT.
+ %
+ %
+ \def\pgfplots@minmax@reg@forbidden{\pgfplots@error{Sorry, an internal logic error occured during smithchart processing (a routine tried to access \string\pgfplots@xmin@reg\space or its variants). Please report this as bug, sorry}}%
+ \iffalse
+ \pgfplots@xmin@reg=\pgfplots@xmin pt %
+ \pgfplots@xmax@reg=\pgfplots@xmax pt %
+ \pgfplots@ymin@reg=\pgfplots@ymin pt %
+ \pgfplots@ymax@reg=\pgfplots@ymax pt %
+ \ifpgfplots@threedim
+ \pgfplots@zmin@reg=\pgfplots@zmin pt %
+ \pgfplots@zmax@reg=\pgfplots@zmax pt %
+ \fi
+ \else
+ \let\pgfplots@xmin@reg=\pgfplots@minmax@reg@forbidden
+ \let\pgfplots@xmax@reg=\pgfplots@minmax@reg@forbidden
+ \let\pgfplots@ymin@reg=\pgfplots@minmax@reg@forbidden
+ \let\pgfplots@ymax@reg=\pgfplots@minmax@reg@forbidden
+ \let\pgfplots@zmin@reg=\pgfplots@minmax@reg@forbidden
+ \let\pgfplots@zmax@reg=\pgfplots@minmax@reg@forbidden
+ \fi
+ %
+ %
+ %-----------------------------------------
+ % PROCESS THE 'width' and 'height' options
+ %-----------------------------------------
+ %
+ %
+ \pgfkeysgetvalue{/pgfplots/view/az}{\pgfplots@view@az}%
+ \pgfkeysgetvalue{/pgfplots/view/el}{\pgfplots@view@el}%
+ \ifpgfplots@threedim
+ \def\pgfplots@tmpZscale{1pt}%
+ \else
+ \def\pgfplots@tmpZscale{0pt}%
+ \let\pgfplots@view@el=\pgfutil@empty
+ \let\pgfplots@view@az=\pgfutil@empty
+ \fi
+ \ifx\pgfplots@view@az\pgfutil@empty
+ %\let\pgfplots@rectangle@width=\pgfutil@empty
+ %\let\pgfplots@rectangle@height=\pgfutil@empty
+ \def\pgfplots@view@dir@threedim@x{0}%
+ \def\pgfplots@view@dir@threedim@y{0}%
+ \def\pgfplots@view@dir@threedim@z{1}%
+ %
+ % FIXME HERE COMES THE smithchart MODIFICATION
+ %--------------------------------------------------
+ % \pgfpointdiff
+ % {\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}
+ % {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}%
+ %--------------------------------------------------
+ % instead of scaling from (min) (max), we only need the UPPER
+ % bound -- in both, x and y directions (since we have a cycle.
+ % Furthermore, we need it twice since we are interested in the
+ % diameter, not the radius.
+ \global\pgf@x=2 pt % radius
+ \global\pgf@y=\pgf@x % same for y
+ %
+ % only used temporarily in this macro to compute the correct
+ % length for unit vectors:
+ \edef\pgfplots@initsizes@axisdiag@x{\the\pgf@x}%
+ \edef\pgfplots@initsizes@axisdiag@y{\the\pgf@y}%
+ %
+ \ifx\pgfplots@x\pgfutil@empty
+ \ifx\pgfplots@width\pgfutil@empty
+ \pgfplots@error{INTERNAL LOGIC ERROR! WIDTH NOT SET}%
+ \fi
+ \pgfplots@initsizes@getXscale\pgfplots@initsizes@axisdiag@x\into\pgfplots@tmpXscale
+ %\ifpgfplots@scale@only@axis
+ % \let\pgfplots@rectangle@width=\pgfplots@width
+ %\fi
+ \else
+ \def\pgfplots@tmpXscale{1}%
+ \fi
+ %
+ \ifx\pgfplots@y\pgfutil@empty
+ \ifx\pgfplots@height\pgfutil@empty
+ \pgfplots@error{INTERNAL LOGIC ERROR! HEIGHT NOT SET}%
+ \fi
+ \pgfplots@initsizes@getYscale\pgfplots@initsizes@axisdiag@y\into\pgfplots@tmpYscale
+ %\ifpgfplots@scale@only@axis
+ % \let\pgfplots@rectangle@height=\pgfplots@height
+ %\fi
+ \else
+ \def\pgfplots@tmpYscale{1}%
+ \fi
+ %
+ \edef\pgfplots@tmpXscale{\pgfplots@tmpXscale pt}%
+ \edef\pgfplots@tmpYscale{\pgfplots@tmpYscale pt}%
+ %
+ \pgfplots@initsizes@setunitvector{x}{0}{\pgfplots@tmpXscale}{\pgfplots@tmp@xisaxisparallel}%
+ \pgfplots@initsizes@setunitvector{y}{1}{\pgfplots@tmpYscale}{\pgfplots@tmp@yisaxisparallel}%
+ \pgfplots@initsizes@setunitvector{z}{2}{\pgfplots@tmpZscale}{\pgfplots@loc@TMPc}%
+ \else
+ % 3D case is currently always initialised by `view':
+ \let\pgfplots@x=\pgfutil@empty
+ \let\pgfplots@y=\pgfutil@empty
+ \let\pgfplots@z=\pgfutil@empty
+ \pgfplotssetaxesfromazel{\pgfplots@view@az}{\pgfplots@view@el}{\pgfplots@tmp@xisaxisparallel}%
+ \if1\pgfplots@tmp@xisaxisparallel%
+ \def\pgfplots@tmp@yisaxisparallel{1}%
+ \fi
+ \fi
+%\message{Pgfplots debug: initialised unit vectors to x=(\the\pgf@xx,\the\pgf@xy), y=(\the\pgf@yx,\the\pgf@yy), z=(\the\pgf@zx,\the\pgf@zy). }%
+ %
+ \let\pgfplotsmathfloatviewdepthxyz@=\pgfplotsmathfloatviewdepthxyz@infigure
+ \let\pgfplotsmathviewdepthxyz@=\pgfplotsmathviewdepthxyz@infigure
+ %
+ \pgfplotsmath@ifzero{\pgfplots@x@veclength}{\pgfplots@hide@xtrue\pgfplots@shownothingof@xtrue}{}%
+ \pgfplotsmath@ifzero{\pgfplots@y@veclength}{\pgfplots@hide@ytrue\pgfplots@shownothingof@ytrue}{}%
+ \ifpgfplots@threedim
+ \pgfplotsmath@ifzero{\pgfplots@z@veclength}{\pgfplots@hide@ztrue\pgfplots@shownothingof@ztrue}{}%
+ \else
+ \if1\pgfplots@tmp@xisaxisparallel%
+ \if1\pgfplots@tmp@yisaxisparallel%
+ % Optimize for axis-parallel case!
+ % puh. Did not make any measureable difference!? Ok...
+ \let\pgfplotsqpointxy=\pgfplotsqpointxy@orthogonal
+ \fi
+ \fi
+ \fi
+ %
+ % FIXME : unit vector ratio / axis equal
+ %
+}
+
+\def\pgfplots@handle@invalid@range@defaultlimits@smithchart{%
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \global\let\pgfplots@xmin=\pgfmathresult
+ \pgfplotscoordmath{x}{parsenumber}{16000}%
+ \global\let\pgfplots@xmax=\pgfmathresult
+ \global\let\pgfplots@data@xmin=\pgfplots@xmin
+ \global\let\pgfplots@data@xmax=\pgfplots@xmax
+ %
+ \pgfplotscoordmath{y}{parsenumber}{0}%
+ \global\let\pgfplots@ymin=\pgfmathresult
+ \pgfplotscoordmath{y}{parsenumber}{16000}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ \global\let\pgfplots@data@ymin=\pgfplots@ymin
+ \global\let\pgfplots@data@ymax=\pgfplots@ymax
+ \pgfplotsset{enlargelimits=false}%
+}
+
+\let\pgfplots@set@default@size@options@standard=\pgfplots@set@default@size@options
+\def\pgfplots@set@default@size@options@smithchart{%
+ \pgfplots@set@default@size@options@standard
+ \pgfplotsset{smithchart ticks by size={\pgfkeysvalueof{/pgfplots/width}}{\pgfkeysvalueof{/pgfplots/height}}}%
+ %
+ \if1\b@pgfplots@smithchart@defaultticks@x
+ \if1\b@pgfplots@smithchart@defaultticks@y
+ \pgfplotsset{default smithchart xytick}%
+ \fi
+ \fi
+}
+\def\pgfplots@assign@default@tick@foraxis@smithchart#1{%
+ % do nothing here. I don't know the algorithm yet... but for
+ % smithcharts, it may be sufficient to simply predefine several
+ % sets of ticks, depending on the final size.
+ %
+ % This is realized in
+ % \pgfplots@set@default@size@options@smithchart (which is invoked
+ % before the ticks are processed).
+ \pgfplots@determinedefaultvalues@needs@check@uniformtickfalse
+ \expandafter\let\csname pgfplots@tick@distance@#1\endcsname=\pgfutil@empty
+ %
+ \pgfplotsset{default smithchart #1tick}%
+ % ok, I expect the '#1tick' key to be set now. Process it.
+ % Note that the earlier processing of pgfplots has been bypassed
+ % at this point -- we need to preprocess the tick list *here*:
+ \expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tick\endcsname
+ \expandafter\pgfplots@assign@default@tick@foraxis@smithchart@\expandafter{\pgfplots@loc@TMPa}%
+ \expandafter\let\csname pgfplots@#1tick\endcsname=\pgfplotsretval
+ %
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \expandafter\pgfplots@assign@default@tick@foraxis@smithchart@\expandafter{\pgfplots@loc@TMPa}%
+ \pgfkeyslet{/pgfplots/minor #1tick}\pgfplotsretval
+ \fi
+ %
+}%
+% #1: a \foreach list
+% on output, \pgfplotsretval contains a parsed list of positions
+\def\pgfplots@assign@default@tick@foraxis@smithchart@#1{%
+ \pgfplotsapplistXXglobalnewempty
+ \gdef\pgfplots@loc@TMPd{1}%
+ \foreach \pgfplots@loc@TMPb in {#1} {%
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ \else
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}% per convention...
+ \edef\pgfmathresult{\if0\pgfplots@loc@TMPd,\fi\pgfmathresult}%
+ \gdef\pgfplots@loc@TMPd{0}%
+ \expandafter\pgfplotsapplistXXglobalpushback\expandafter{\pgfmathresult}%
+ \fi
+ }%
+ \pgfplotsapplistXXgloballet\pgfplotsretval
+ \pgfplotsapplistXXglobalclear
+}%
+
+\let\pgfplots@show@ticklabel@@orig=\pgfplots@show@ticklabel@
+\def\pgfplots@show@ticklabel@@smithchart#1#2{%
+ \def\pgfmathresult{#2}%
+ \if#1x%
+ \ifdim#2pt>360pt
+ \pgfmath@basic@mod@{#2}{360}%
+ \fi
+ \fi
+ \def\pgfplots@loc@TMPa{\pgfplots@show@ticklabel@@orig{#1}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}%
+}%
+
+\def\pgfplots@xtick@check@tickshow@smithchart{%
+ \pgfplots@tickshowtrue
+}
+\def\pgfplots@ytick@check@tickshow@smithchart{%
+ \pgfplots@tickshowtrue
+}
+
+\let\pgfplots@limits@ready@orig=\pgfplots@limits@ready
+\def\pgfplots@limits@ready@smithchart{%
+ \pgfplots@limits@ready@orig
+ %
+ % Avoid tick labels at upper *and* lower angle range if both are the
+ % same:
+ \pgfmath@basic@sin@{\pgfplots@xmin}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfmath@basic@sin@{\pgfplots@xmax}%
+ \pgfplotsmath@ifapproxequal@dim
+ {\pgfmathresult pt}{\pgfplots@loc@TMPa pt}%
+ {0.002pt}
+ {%
+ \def\pgfplots@xtick@disable@last@tick{1}%
+ }{%
+ }%
+}%
+
+\def\smithchart{\smithchartaxis}
+\def\endsmithchart{\endsmithchartaxis}
+
+\def\startsmithchart{\smithchart}%
+\def\stopsmithchart{\endsmithchart}%
+\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.ternary.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.ternary.code.tex
new file mode 100644
index 00000000000..dfb520af190
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.ternary.code.tex
@@ -0,0 +1,904 @@
+%--------------------------------------------
+%
+% Package pgfplots, library for ternary plots (triangular axes).
+%
+% Copyright 2010 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%
+% This is a library to draw ternary diagrams.
+%
+% A ternary diagram visualizes percentages of three components in a
+% triangle.
+%
+% Sometimes there is also contour data drawn on top of the ternary
+% diagram, i.e. data (x,y,z, T(x,y,z) ), but I can't do that yet.
+%
+% How to read a ternary diagram: http://csmres.jmu.edu/geollab/fichter/SedRx/readternary.html
+%
+% Another usage example: http://www.sv.vt.edu/classes/MSE2094_NoteBook/96ClassProj/experimental/ternary2.html
+%
+% Drawing ternary diagrams: http://staff.aist.go.jp/a.noda/programs/ternary/ternary-en.html
+%
+% computing these coordinates: http://www.gamedev.net/community/forums/topic.asp?topic_id=451357
+%
+
+\pgfplotsdefineaxistype{ternary}{%
+ \pgfplots@ternary@activate
+}%
+
+\newif\ifpgfplots@ternary@rellimits
+
+
+\pgfplotsset{
+ /pgfplots/ternary limits relative/.is if=pgfplots@ternary@rellimits,
+ /pgfplots/ternary limits relative=true,
+ /pgfplots/ternary limits relative/.default=true,
+ /pgfplots/ternary relative limits/.style={/pgfplots/ternary limits relative=#1},
+ /pgfplots/ternary start x/.initial=, % FIXME : implement
+ /pgfplots/ternary start y/.initial=,
+ /pgfplots/ternary start z/.initial=,
+ /pgfplots/every ternary axis/.style={
+ /pgfplots/tick align=outside,
+ grid=major,
+ xticklabel style={anchor=west},
+ % yticklabel style={anchor=south east},
+ % zticklabel style={anchor=north},
+ /pgfplots/every 3d description/.style={},
+ /pgfplots/every axis x label/.style={at={(ticklabel cs:0.5)},anchor=near ticklabel},%
+ /pgfplots/every axis y label/.style={at={(ticklabel cs:0.5)},anchor=near ticklabel},%
+ /pgfplots/every axis z label/.style={at={(ticklabel cs:0.5)},anchor=near ticklabel},%
+ /pgfplots/every x tick scale label/.style={at={(xticklabel cs:0.95,5pt)},anchor=near xticklabel,inner sep=0pt},
+ /pgfplots/every y tick scale label/.style={at={(yticklabel cs:0.95,5pt)},anchor=near yticklabel,inner sep=0pt},
+ /pgfplots/every z tick scale label/.style={at={(yticklabel cs:0.95,5pt)},anchor=near yticklabel,inner sep=0pt},
+ /pgfplots/every axis title shift=15pt,
+ /pgfplots/every axis legend/.style={%
+ cells={anchor=center},
+ inner xsep=3pt,inner ysep=2pt,nodes={inner sep=2pt,text depth=0.15em},
+ shape=rectangle,%
+ fill=white,%
+ draw=black,
+ at={(1.03,1.03)},
+ anchor=north west,%
+ },
+ annot/point format 3d/.initial={(\%.2f, \%.2f, \%.2f)},
+ },
+}
+
+\def\pgfplots@ternary@activate{%
+ \let\pgfplotsqpointxy=\pgfplotsqpointxy@ternary
+ \let\pgfplotsqpointxy@orthogonal=\pgfplotsqpointxy
+ \let\pgfplotsqpointxyz=\pgfplotsqpointxyz@ternary
+ \let\pgfplots@draw@axis=\pgfplots@draw@axis@ternary
+ \def\pgfplots@drawaxis@outerlines@separate@onorientedsurf##1##2{}%
+ \def\pgfplots@drawaxis@innerlines@onorientedsurf##1##2##3{}%
+ \let\pgfplots@draw@axis@post=\pgfplots@draw@axis@post@ternary
+ \let\pgfplots@initsizes=\pgfplots@initsizes@ternary
+ \let\pgfplotspoint@initialisation@axes=\pgfplotspoint@initialisation@axes@ternary
+ \let\pgfplotspoint@initialisation@units=\pgfplotspoint@initialisation@units@ternary
+ \let\pgfplots@initsizes@setunitvector=\pgfplots@initsizes@setunitvector@ternary
+ \let\pgfplotspointouternormalvectorofaxis@=\pgfplotspointouternormalvectorofaxis@ternary
+ \let\pgfplots@prepare@ZERO@coordinates=\pgfplots@prepare@ZERO@coordinates@ternary
+ \let\pgfplotsgetnormalforcurrentview=\relax
+ \def\pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf##1{}%
+ \let\pgfplots@clippath@prepare@for@axistype=\pgfplots@clippath@prepare@for@axistype@ternary
+ %
+ \pgfkeys{/pgfplots/oriented surf installed/.add={}{%
+ \let\pgfplotspointonorientedsurfaceab@ternary@orig=\pgfplotspointonorientedsurfaceab
+ \let\pgfplotspointonorientedsurfaceab=\pgfplotspointonorientedsurfaceab@ternary
+ }}%
+ \let\pgfplotspointonorientedsurfaceabwithbshift=\pgfplotspointonorientedsurfaceabwithbshift@ternary
+ \pgfkeyssetvalue{/pgfplots/view/az}{}%
+ \pgfkeyssetvalue{/pgfplots/view/el}{}%
+ \let\pgfplots@set@options@sanitize=\relax
+ \let\pgfplots@set@options@sanitizemode=\relax
+ %
+ \expandafter\def\expandafter\pgfplots@notify@options@are@set\expandafter{\pgfplots@notify@options@are@set
+ \ifpgfplots@ternary@rellimits
+ \pgfplotsset{scaled ticks=false,ticklabel style={/pgf/number format/precision=0}}%
+ \let\pgfplots@show@ticklabel@orig=\pgfplots@show@ticklabel@
+ \let\pgfplots@show@ticklabel@=\pgfplots@show@ticklabel@ternary@relative
+ \fi
+ }%
+ %
+ % this here is set *before* 'every ternary axis' is invoked.
+ \pgfplotsset{
+ /pgfplots/footnotesize/.append style= {/pgfplots/every axis title shift=15pt},%
+ /pgfplots/tiny/.append style= {/pgfplots/every axis title shift=15pt},%
+ enlargelimits=false,
+ xmin=0,xmax=1,
+ ymin=0,ymax=1,
+ zmin=0,zmax=1,
+ annot/point format/.style={/pgfplots/annot/point format 3d={##1}},
+ }%
+ \def\pgfplots@xticklabel@pos{}%
+ \def\pgfplots@yticklabel@pos{}%
+ \def\pgfplots@zticklabel@pos{}%
+ %\def\pgfplots@xaxislinesnum{1}%
+ %\def\pgfplots@yaxislinesnum{3}%
+ %\def\pgfplots@zaxislinesnum{3}%
+ \def\pgfplotsifaxissurfaceisforeground##1##2##3{##2}%
+ \def\pgfplots@init@ticklabelaxisspecfor##1##2{}%
+ \def\pgfplots@xticklabelaxisspec{v00}%
+ \def\pgfplots@yticklabelaxisspec{0v0}%
+ \def\pgfplots@zticklabelaxisspec{00v}%
+ \def\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@##1##2##3{%
+ \pgfplotspointonorientedsurfaceabtolinespec v##1%
+ \edef\pgfplots@loc@TMPe{\csname pgfplots@\pgfplotspointonorientedsurfaceA ticklabelaxisspec\endcsname}%
+ \ifx\pgfplots@loc@TMPe\pgfplotsretval
+%\message{pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@{##1}---> TRUE.}%
+ ##2%
+ \else
+%\message{pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@{##1}---> FALSE.}%
+ ##3%
+ \fi
+ }%
+ \def\pgfplots@ifgridlines@onorientedsurf@should@be@drawn##1##2{%
+ ##1% FIXME
+ }%
+ \def\pgfplotspointonorientedsurfaceabmatchaxisline##1##2{%
+ \pgfplotspointonorientedsurfaceabtolinespec v0% FIXME that's just a bad guess!
+ \edef\pgfplots@loc@TMPe{##1}%
+ \ifx\pgfplots@loc@TMPe\pgfplotsretval
+ \def##2{0}%
+ \else
+ \def##2{}%
+ \fi
+ }%
+ \let\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn=\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@%
+ %
+ %
+ % cartesian cs
+ \tikzdeclarecoordinatesystem{cartesian}{\edef\pgfplots@loc@TMPa{##1}\expandafter\pgfplotspointcartesian@\pgfplots@loc@TMPa\pgfplots@coord@end}
+}%
+
+\def\pgfplots@show@ticklabel@ternary@relative#1#2{%
+ \csname pgfplots@ternary@map@to@unit@#1\endcsname{#2}%
+ \pgfmathfloatparsenumber\pgfmathresult
+ \pgfmathfloatshift@\pgfmathresult{2}%
+ \let\tick=\pgfmathresult
+}%
+
+\def\pgfplotspointcartesian@#1,#2\pgfplots@coord@end{%
+ \pgfpointxy@orig{#1}{#2}%
+}%
+
+% This here is *the* key point why ternary axes can be processed with
+% almost the same code as rectangular axes.
+%
+% Recall that rectangular axes are drawn using "oriented surfaces",
+% the complete code is based on them. The "a" axis is the direction in
+% which we have tick positions and the "b" axis is the direction in
+% which tick lines (or grid lines) shall be drawn).
+%
+% Now, ternary axes do not directly fit into the "oriented surface"
+% framework. But they have a lot of structure which allows to use it
+% with a specialed "pointonorientedsurfaceab" routine: by noting that
+% - there are only three axes,
+% - the axis containing tick lines (and grid lines) *always* has one
+% component set to 0 (lower limit), and the remaining two components
+% sum to 1. Thus, we can simply use one value (for example the "a"
+% value) and compute the remaining one,
+% - \pgfplotspointonorientedsurfaceab is *always* invoked with
+% b set to either the lower or the upper limit.
+% The lower limit is easy, see above. The upper limit is mainly used
+% for grid lines, more precisely it denotes the target point of the grid line.
+% I use special handling to find this target point (by exchanging
+% coordinate components, see the implementation).
+%
+% #1: the "a" value on the oriented surf
+% #2: the "b" value. Note that *only* the lower *or* the upper limit
+% on the "b" axis are supported here!
+%
+\def\pgfplotspointonorientedsurfaceab@ternary#1#2{%
+ \let\pgfplotspointonorientedsurfaceab@ternary@fixedx=\pgfplotspointonorientedsurfaceabsetupfor@fixedx
+ \let\pgfplotspointonorientedsurfaceab@ternary@fixedy=\pgfplotspointonorientedsurfaceabsetupfor@fixedy
+ \let\pgfplotspointonorientedsurfaceab@ternary@fixedz=\pgfplotspointonorientedsurfaceabsetupfor@fixedz
+ %
+%\message{\string\pgfplotspointonorientedsurfaceab{#1}{#2} -----> }%
+ \ifpgfplots@ternary@next@is@unitinterval
+ \edef\pgfplotspointonorientedsurfaceab@ternary@A{#1}%
+ \edef\pgfplotspointonorientedsurfaceab@ternary@B{#2}%
+ \else
+ \csname pgfplots@ternary@map@to@unit@\pgfplotspointonorientedsurfaceA\endcsname{#1}%
+ \let\pgfplotspointonorientedsurfaceab@ternary@A=\pgfmathresult
+ %
+ \csname pgfplots@ternary@map@to@unit@\pgfplotspointonorientedsurfaceB\endcsname{#2}%
+ \let\pgfplotspointonorientedsurfaceab@ternary@B=\pgfmathresult
+ \fi
+ \if0\pgfplotspointonorientedsurfacespecsymbol
+ \else
+ \pgfplots@error{Internal processing error: only \string\pgfplotspointonorientedsurfaceab\space for ternary axes works only for oriented surfs fixed to LOWER or UPPER axis limits.}%
+ \fi
+%\message{A=\pgfplotspointonorientedsurfaceab@ternary@A; B=\pgfplotspointonorientedsurfaceab@ternary@B -----> }%
+ \ifdim\pgfplotspointonorientedsurfaceab@ternary@B pt=0pt
+ \pgfmath@basic@subtract@{1}{\pgfplotspointonorientedsurfaceab@ternary@A}%
+ \let\pgfplotspointonorientedsurfaceab@ternary@B=\pgfmathresult
+ \expandafter\def\csname pgfplotspointonorientedsurfaceabsetupfor@fixed\pgfplotspointonorientedsurfaceN\endcsname{0}%
+ \else
+ %\let\pgfplots@loc@TMPa=\pgfplotspointonorientedsurfaceab@ternary@A
+ %\pgfmath@basic@subtract@{1}{\pgfplotspointonorientedsurfaceab@ternary@A}%
+ %\let\pgfplotspointonorientedsurfaceab@ternary@A=\pgfmathresult
+ %\let\pgfplotspointonorientedsurfaceab@ternary@B=\pgfplots@loc@TMPa
+ \pgfmath@basic@subtract@{1}{\pgfplotspointonorientedsurfaceab@ternary@A}%
+ \def\pgfplotspointonorientedsurfaceab@ternary@B{0}%
+ \expandafter\let\csname pgfplotspointonorientedsurfaceabsetupfor@fixed\pgfplotspointonorientedsurfaceN\endcsname=\pgfmathresult%
+ \fi
+ %
+ \global\pgfplots@ternary@next@is@unitintervaltrue
+%\message{\string\pgfplotspointonorientedsurfaceab@orig{\pgfplotspointonorientedsurfaceab@ternary@A}{\pgfplotspointonorientedsurfaceab@ternary@B}[fixedsymbol=\pgfplotspointonorientedsurfacespecsymbol; a=\pgfplotspointonorientedsurfaceA,b=\pgfplotspointonorientedsurfaceB.]}%
+ \pgfplotspointonorientedsurfaceab@ternary@orig
+ {\pgfplotspointonorientedsurfaceab@ternary@A}%
+ {\pgfplotspointonorientedsurfaceab@ternary@B}%
+ %
+ \let\pgfplotspointonorientedsurfaceabsetupfor@fixedx=\pgfplotspointonorientedsurfaceab@ternary@fixedx
+ \let\pgfplotspointonorientedsurfaceabsetupfor@fixedy=\pgfplotspointonorientedsurfaceab@ternary@fixedy
+ \let\pgfplotspointonorientedsurfaceabsetupfor@fixedz=\pgfplotspointonorientedsurfaceab@ternary@fixedz
+}%
+
+\def\pgfplotspointonorientedsurfaceabwithbshift@ternary#1#2#3{%
+ % implement the shift in "b" direction explicitly:
+ %
+ \pgfplotspointonorientedsurfaceab@ternary{#1}{#2}%
+ \edef\pgfplots@loc@TMPe{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ \pgfpointadd
+ {\pgfplots@loc@TMPe}%
+ {%
+ \begingroup
+ % I need a '-' here because for ternary axes, the "b" axis
+ % points to the *outside* instead of the inside.
+ \pgf@xa=-#3\relax
+ \if r\pgfkeysvalueof{/pgfplots/\pgfplotspointonorientedsurfaceB\space dir/value}%
+ % oh. a reversed axis.
+ \pgf@xa=-\pgf@xa
+ \fi
+ \edef\pgfplots@loc@TMPa{\pgf@sys@tonumber\pgf@xa}%
+ \pgfmath@basic@multiply@{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}{\pgfplots@loc@TMPa}%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfqpointscale{\pgfplots@loc@TMPa}{\csname pgfplotspointunit\pgfplotspointonorientedsurfaceB\endcsname}%
+ }%
+}
+
+
+\let\pgfplots@initsizes@ternary@orig=\pgfplots@initsizes
+\def\pgfplots@initsizes@ternary{%
+ \ifpgfplots@threedim
+ \else
+ \pgfplots@error{Sorry, 'axis type=ternary' needs a three dimensional axes. Make sure you supplied three dimensional coordinates (using \string\addplot3, for example). This error is critical; I can't recover}%
+ \fi
+%\message{ternary with limits x=[\pgfplots@xmin:\pgfplots@xmax], y=[\pgfplots@ymin:\pgfplots@ymax]; z=[\pgfplots@zmin:\pgfplots@zmax].}%
+ \pgfplots@ternary@init@map@to@unit x
+ \pgfplots@ternary@init@map@to@unit y
+ \pgfplots@ternary@init@map@to@unit z
+ %
+ \pgfplots@initsizes@get@width@withoutlabels
+ \pgf@x=\pgfmathresult
+ \edef\pgfplots@width@ternary{\pgf@sys@tonumber\pgf@x}%
+ %
+ \pgfplots@initsizes@ternary@orig
+ %
+}%
+
+\def\pgfplots@ternary@init@map@to@unit#1{%
+ \begingroup
+ \pgfmath@basic@subtract@
+ {\csname pgfplots@#1max\endcsname}
+ {\csname pgfplots@#1min\endcsname}%
+ \pgfmath@basic@reciprocal@\pgfmathresult
+ \let\pgfplots@map@to@unit@scale=\pgfmathresult
+ %
+ \expandafter\xdef\csname pgfplots@ternary@map@to@unit@#1\endcsname##1{%
+ \noexpand\pgfmath@basic@subtract@{##1}{\csname pgfplots@#1min\endcsname}%
+ \noexpand\pgfmath@basic@multiply@{\noexpand\pgfmathresult}{\pgfplots@map@to@unit@scale}%
+ }%
+ \endgroup
+}
+
+\def\pgfplots@initsizes@setunitvector@ternary#1#2#3#4{%
+ % ternary axis are DIFFERENT here.
+ % They don't use the (xx,xy), (yx,yy), (zx,zy) vectors, so we can
+ % use them to realize *cartesian* coordinates.
+ %
+ % Thus, any \draw (0,0) inside of a ternary axis will yield
+ % cartesian coordinates.
+ %
+ % The relevant quantities to *draw* the diagram are the three
+ % axis, they are also prepared here.
+ %
+ \def#4{0}% whether we have (#1,0) or (0,#1)
+ \ifcase#2%
+ \pgfsetxvec{%
+ \pgfqpoint{\pgfplots@width@ternary pt}{0pt}%
+ }%
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary001}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary100}%
+ \or
+ \pgfsetyvec{%
+ \pgfqpoint{0pt}{\pgfplots@width@ternary pt}%
+ }%
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary100}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary010}%
+ \or
+ \pgfsetzvec{%
+ \pgfpointorigin
+ }%
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary010}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary001}%
+ \fi
+ \expandafter\xdef\csname pgfplotspoint#1axis\endcsname{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
+ \pgfplotsmath@ifzero{\pgfmathresult}{%
+ \expandafter\def\csname pgfplots@#1@inverseveclength\endcsname{infty}%
+ }{%
+ \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
+ }%
+ \expandafter\xdef\csname pgfplotspoint#1axislength\endcsname{\pgfplots@x@veclength pt}%
+ %
+%\message{-> got unitvector(#1) = (\the\csname pgf@#1x\endcsname, \the\csname pgf@#1y\endcsname).}%
+}%
+
+\newif\ifpgfplots@ternary@next@is@unitinterval
+
+% Deduce z = 1-x-y after transformation to relative coordinates.
+\def\pgfplotsqpointxy@ternary#1#2{%
+ \pgf@process{%
+ \ifpgfplots@ternary@next@is@unitinterval
+ \dimen1=#1pt
+ \dimen2=#2pt
+ \else
+ \pgfplots@ternary@map@to@unit@x{#1}%
+ \dimen1=\pgfmathresult pt
+ %
+ \pgfplots@ternary@map@to@unit@y{#2}%
+ \dimen2=\pgfmathresult pt
+ \fi
+ \dimen4=\dimen1
+ \advance\dimen4 by\dimen2
+ \dimen3=1pt
+ \advance\dimen3 by-\dimen4
+ %
+ \global\pgfplots@ternary@next@is@unitintervalfalse
+ \pgfplotsqpointxyz@ternary@
+ }%
+}%
+% gx(x,y,z) = 0.5 * (x + 2*z)/(x+y+z)
+% gy(x,y,z) = (sqrt(3) / 2) * x / (x+y+z)
+\def\pgfplotsqpointxyz@ternary#1#2#3{%
+ \pgf@process{%
+ \ifpgfplots@ternary@next@is@unitinterval
+ \dimen1=#1pt
+ \dimen2=#2pt
+ \dimen3=#3pt
+ \else
+ \pgfplots@ternary@map@to@unit@x{#1}%
+ \dimen1=\pgfmathresult pt
+ %
+ \pgfplots@ternary@map@to@unit@y{#2}%
+ \dimen2=\pgfmathresult pt
+ %
+ \pgfplots@ternary@map@to@unit@z{#3}%
+ \dimen3=\pgfmathresult pt
+ \fi
+ \global\pgfplots@ternary@next@is@unitintervalfalse
+ %
+ \pgfplotsqpointxyz@ternary@
+ }%
+}%
+\def\pgfplotsqpointxyz@ternary@{%
+ %\dimen1=#1
+ %\dimen2=#2
+ %\dimen3=#3
+ % FIXME . I didn't understand that stuff.
+ \if r\pgfkeysvalueof{/pgfplots/x dir/value}% reversed
+ %\multiply\dimen1 by-1
+ %\advance\dimen1 by1pt
+ %\dimen1=#2
+ %\dimen2=#3
+ %\dimen3=#1
+ \fi
+ %--------------------------------------------------
+ % \if r\pgfkeysvalueof{/pgfplots/y dir/value}% reversed
+ % \multiply\dimen2 by-1
+ % \advance\dimen2 by1pt
+ % \fi
+ % \if r\pgfkeysvalueof{/pgfplots/z dir/value}% reversed
+ % \multiply\dimen3 by-1
+ % \advance\dimen3 by1pt
+ % \fi
+ %--------------------------------------------------
+ \pgfplotsqpointxyz@ternary@@%
+}%
+\def\pgfplotsqpointxyz@ternary@@{%
+ % Disable renormalization!?
+ %\dimen4=\dimen1
+ %\advance\dimen4 by\dimen2
+ %\advance\dimen4 by\dimen3
+ %\edef\pgfplots@ternary@sum{\pgf@sys@tonumber{\dimen4}}%
+ %\pgfmathapproxequalto@{1}{\pgfplots@ternary@sum}%
+ \pgfmathcomparisontrue
+ \ifpgfmathcomparison
+ \let\pgfplots@ternary@scale=\pgfplots@width@ternary
+ \else
+ \pgfmath@basic@divide@
+ {\pgfplots@width@ternary}%
+ {\pgfplots@ternary@sum}%
+ \let\pgfplots@ternary@scale=\pgfmathresult
+ \fi
+ %
+ \dimen4=2\dimen3
+ \advance\dimen4 by \dimen1
+ \divide\dimen4 by2
+ \pgf@x=\pgfplots@ternary@scale\dimen4
+ %
+ \dimen4=\dimen1
+ \dimen4=0.866025403784\dimen4 % *= sqrt(3)/2
+ \pgf@y=\pgfplots@ternary@scale\dimen4
+ %
+}%
+\def\pgfplotspoint@initialisation@units@ternary{%
+ \let\pgfplotspointunitx\pgfplotspointxaxis
+ \let\pgfplotspointunity\pgfplotspointyaxis
+ \let\pgfplotsunitxlength=\pgfplots@x@veclength
+ \let\pgfplotsunitylength=\pgfplots@y@veclength
+ \let\pgfplotsunitxinvlength=\pgfplots@x@inverseveclength
+ \let\pgfplotsunityinvlength=\pgfplots@y@inverseveclength
+ \ifpgfplots@threedim
+ \let\pgfplotspointunitz=\pgfplotspointzaxis
+ \let\pgfplotsunitzlength=\pgfplots@z@veclength
+ \let\pgfplotsunitzinvlength=\pgfplots@z@inverseveclength
+ \fi
+}%
+
+% POSTCONDITION: the macros
+% \pgfplotspointminminmin
+% \pgfplotspoint[xyz]axis
+% \pgfplotspoint[xyz]axislength
+% are defined (globally).
+\def\pgfplotspoint@initialisation@axes@ternary{%
+ \xdef\pgfplotspointminminmin{\noexpand\pgfpointorigin}%
+ %
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary001}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary100}%
+ \if r\pgfkeysvalueof{/pgfplots/x dir/value}% reverse
+ \pgfqpointscale{-1}{}%
+ \fi
+ \xdef\pgfplotspointxaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \expandafter\let\csname pgfplots@x@veclength\endcsname=\pgfmathresult
+ \pgfplotsmath@ifzero{\pgfmathresult}{%
+ \expandafter\def\csname pgfplots@x@inverseveclength\endcsname{infty}%
+ }{%
+ \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\let\csname pgfplots@x@inverseveclength\endcsname=\pgfmathresult
+ }%
+ \xdef\pgfplotspointxaxislength{\pgfplots@x@veclength pt}%
+ %
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary100}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary010}%
+ \if r\pgfkeysvalueof{/pgfplots/y dir/value}% reverse
+ \pgfqpointscale{-1}{}%
+ \fi
+ \xdef\pgfplotspointyaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \expandafter\let\csname pgfplots@y@veclength\endcsname=\pgfmathresult
+ \pgfplotsmath@ifzero{\pgfmathresult}{%
+ \expandafter\def\csname pgfplots@y@inverseveclength\endcsname{infty}%
+ }{%
+ \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\let\csname pgfplots@y@inverseveclength\endcsname=\pgfmathresult
+ }%
+ \xdef\pgfplotspointyaxislength{\pgfplots@y@veclength pt}%
+ %
+ \pgfpointdiff
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary010}
+ {\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz@ternary001}%
+ \if r\pgfkeysvalueof{/pgfplots/z dir/value}% reverse
+ \pgfqpointscale{-1}{}%
+ \fi
+ \xdef\pgfplotspointzaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \expandafter\let\csname pgfplots@z@veclength\endcsname=\pgfmathresult
+ \pgfplotsmath@ifzero{\pgfmathresult}{%
+ \expandafter\def\csname pgfplots@z@inverseveclength\endcsname{infty}%
+ }{%
+ \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\let\csname pgfplots@z@inverseveclength\endcsname=\pgfmathresult
+ }%
+ \xdef\pgfplotspointzaxislength{\pgfplots@z@veclength pt}%
+ %
+}
+\def\pgfplots@prepare@ZERO@coordinates@ternary{%
+ \ifpgfplots@xislinear
+ \ifpgfplots@apply@datatrafo@x
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \pgfplotscoordmath{x}{datascaletrafo}{\pgfmathresult}%
+ \global\let\pgfplots@logical@ZERO@x=\pgfmathresult
+ \else
+ \gdef\pgfplots@logical@ZERO@x{0}%
+ \fi
+ \pgfplotsmathmax{\pgfplots@logical@ZERO@x}{\pgfplots@xmin}%
+ \global\let\pgfplots@logical@ZERO@x=\pgfmathresult
+ \pgfplotsmathmin{\pgfplots@logical@ZERO@x}{\pgfplots@xmax}%
+ \global\let\pgfplots@logical@ZERO@x=\pgfmathresult
+ \else
+ \global\let\pgfplots@logical@ZERO@x=\pgfplots@xmin%
+ \fi
+ %
+ \ifpgfplots@yislinear
+ \ifpgfplots@apply@datatrafo@y
+ \pgfplotscoordmath{y}{parsenumber}{0}%
+ \pgfplotscoordmath{y}{datascaletrafo}{\pgfmathresult}%
+ \global\let\pgfplots@logical@ZERO@y=\pgfmathresult
+ \else
+ \gdef\pgfplots@logical@ZERO@y{0}%
+ \fi
+ \pgfplotsmathmax{\pgfplots@logical@ZERO@y}{\pgfplots@ymin}%
+ \global\let\pgfplots@logical@ZERO@y=\pgfmathresult
+ \pgfplotsmathmin{\pgfplots@logical@ZERO@y}{\pgfplots@ymax}%
+ \global\let\pgfplots@logical@ZERO@y=\pgfmathresult
+ \else
+ \global\let\pgfplots@logical@ZERO@y=\pgfplots@ymin%
+ \fi
+ %
+ \ifpgfplots@threedim
+ \ifpgfplots@zislinear
+ \ifpgfplots@apply@datatrafo@z
+ \pgfplotscoordmath{z}{parsenumber}{0}%
+ \pgfplotscoordmath{z}{datascaletrafo}{\pgfmathresult}%
+ \global\let\pgfplots@logical@ZERO@z=\pgfmathresult
+ \else
+ \gdef\pgfplots@logical@ZERO@z{0}%
+ \fi
+ \pgfplotsmathmax{\pgfplots@logical@ZERO@z}{\pgfplots@zmin}%
+ \global\let\pgfplots@logical@ZERO@z=\pgfmathresult
+ \pgfplotsmathmin{\pgfplots@logical@ZERO@z}{\pgfplots@zmax}%
+ \global\let\pgfplots@logical@ZERO@z=\pgfmathresult
+ \else
+ \global\let\pgfplots@logical@ZERO@z=\pgfplots@zmin%
+ \fi
+ \fi
+ %
+ %
+ \global\pgfplots@ternary@next@is@unitintervaltrue
+ \pgfplotsqpointxyz100%
+ \xdef\pgfplots@ZERO@x{\the\pgf@x}%
+ \xdef\pgfplots@ZERO@y{\the\pgf@y}%
+ \xdef\pgfplotspointaxisorigin{\noexpand\pgf@x=\pgfplots@ZERO@x\space\noexpand\pgf@y=\pgfplots@ZERO@y\space}%
+}%
+
+
+\def\pgfplots@draw@axis@ternary{%
+ %
+ % this should become the line for varying y:
+ \pgfplotspointonorientedsurfaceabsetupforsetz{\pgfplots@zmin}{0}%
+ \pgfplots@draw@axis@insurface yxz
+ %
+ % this should become the line for varying z:
+ \pgfplotspointonorientedsurfaceabsetupforsetx{\pgfplots@xmin}{0}%
+ \pgfplots@draw@axis@insurface zyx
+ %
+ %
+ % this should become the line for varying x:
+ \pgfplotspointonorientedsurfaceabsetupforsety{\pgfplots@ymin}{0}%
+ \pgfplots@draw@axis@insurface xzy
+ %
+ \pgfplots@ternary@draw@axislines
+}%
+\def\pgfplots@ternary@draw@axislines{%
+ \if r\pgfkeysvalueof{/pgfplots/x dir/value}% reverse
+ \pgfplots@separate@axis@linestrue
+ \fi
+ \if r\pgfkeysvalueof{/pgfplots/y dir/value}% reverse
+ \pgfplots@separate@axis@linestrue
+ \fi
+ \if r\pgfkeysvalueof{/pgfplots/z dir/value}% reverse
+ \pgfplots@separate@axis@linestrue
+ \fi
+ \ifpgfplots@separate@axis@lines
+ \scope[/pgfplots/every outer x axis line,
+ xdiscont,decoration={pre length=\csname xdisstart\endcsname, post length=\csname xdisend\endcsname}]
+ \draw decorate {
+ \pgfextra
+ \if r\pgfkeysvalueof{/pgfplots/x dir/value}% reverse
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \else
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \fi
+ \endpgfextra
+ };
+ \endscope
+ %
+ \scope[/pgfplots/every outer y axis line,
+ ydiscont,decoration={pre length=\csname ydisstart\endcsname, post length=\csname ydisend\endcsname}]
+ \draw decorate {
+ \pgfextra
+ \if r\pgfkeysvalueof{/pgfplots/y dir/value}% reverse
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \else
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \fi
+ \endpgfextra
+ };
+ \endscope
+ %
+ \scope[/pgfplots/every outer z axis line,
+ zdiscont,decoration={pre length=\csname zdisstart\endcsname, post length=\csname zdisend\endcsname}]
+ \draw decorate {
+ \pgfextra
+ \if r\pgfkeysvalueof{/pgfplots/z dir/value}% reverse
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \else
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \fi
+ \endpgfextra
+ };
+ \endscope
+ \else
+ \draw[
+ /pgfplots/every outer x axis line, % FIXME! these outer styles need much more attention :-(
+ /pgfplots/every outer y axis line]
+ \pgfextra{%
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \pgfpathclose
+ };
+ \fi
+}%
+\def\pgfplots@clippath@prepare@for@axistype@ternary{%
+ \def\pgfplots@clippath@install##1{%
+ \pgfpathmoveto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz001}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz100}%
+ \pgfpathlineto{\global\pgfplots@ternary@next@is@unitintervaltrue\pgfplotsqpointxyz010}%
+ \pgfpathclose
+ \pgfplots@clippath@use@{##1}%
+ }%
+}%
+
+\def\pgfplots@draw@axis@post@ternary{%
+ % do nothing. There is no 3d box to draw here.
+}%
+
+\def\pgfplotspointouternormalvectorofaxis@ternary#1#2#3\relax{%
+ \edef\pgfplots@loc@TMPa{\if r\pgfkeysvalueof{/pgfplots/x dir/value}-\fi}% reverse
+ \edef\pgfplots@loc@TMPb{\if r\pgfkeysvalueof{/pgfplots/y dir/value}-\fi}% reverse
+ \edef\pgfplots@loc@TMPc{\if r\pgfkeysvalueof{/pgfplots/z dir/value}-\fi}% reverse
+ \if v#1%
+ \pgfpointadd
+ {\pgfqpointscale{\pgfplots@loc@TMPb-1}{\pgfplotspointyaxis}}%
+ {\pgfqpointscale{\pgfplots@loc@TMPc}{\pgfplotspointzaxis}}%
+ \else
+ \if v#2%
+ \pgfpointadd
+ {\pgfqpointscale{\pgfplots@loc@TMPa}{\pgfplotspointxaxis}}%
+ {\pgfqpointscale{\pgfplots@loc@TMPc-1}{\pgfplotspointzaxis}}%
+ \else
+ \pgfpointadd
+ {\pgfqpointscale{\pgfplots@loc@TMPa-1}{\pgfplotspointxaxis}}%
+ {\pgfqpointscale{\pgfplots@loc@TMPb}{\pgfplotspointyaxis}}%
+ \fi
+ \fi
+ \pgf@process{\pgfpointnormalised{}}%
+ \endgroup
+}%
+
+
+\def\pgfplotsclickable@check@enable@axistype@ternaryaxis{%
+ \def\pgfplotsretval{1}%
+}%
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
+% tieline plots
+%
+\pgfplotsset{
+ tieline/.code={%
+ \let\tikz@plot@handler=\pgfplotsplothandlertieline
+ \pgfkeysifdefined{/pgfplots/table/tie end x}{}{%
+ % provide these keys locally:
+ \pgfkeyslet{/pgfplots/table/tie end x}\pgfutil@empty%
+ \pgfkeyslet{/pgfplots/table/tie end y}\pgfutil@empty%
+ \pgfkeyslet{/pgfplots/table/tie end z}\pgfutil@empty%
+ \pgfkeyslet{/pgfplots/table/tie end x index}\pgfutil@empty%
+ \pgfkeyslet{/pgfplots/table/tie end y index}\pgfutil@empty%
+ \pgfkeyslet{/pgfplots/table/tie end z index}\pgfutil@empty%
+ }%
+ \pgfqkeys{/pgfplots/tieline}{#1}%
+ },
+ tieline/every tieline/.style={},
+ tieline/tieline style/.style={/pgfplots/tieline/every tieline/.append style={#1}},
+ tieline/every curve/.style={},
+ tieline/curve style/.style={/pgfplots/tieline/every curve/.append style={#1}},
+ tieline/each nth tie/.initial=,
+}
+\def\pgfplotsplothandlertieline{%
+ \pgfplotsresetplothandler
+ \let\pgf@plotstreamstart=\pgfplotsplothandlervisbegin@tieline
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@tieline
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@tieline
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@tieline
+}%
+\def\pgfplotsplothandlervisbegin@tieline{%
+ \pgfplotsapplistXnewempty\pgfp@binodal@A
+ \pgfplotsapplistXnewempty\pgfp@ties
+ \pgfplotsprependlistXnewempty{pgfp@binodal@B@reverse}
+ \def\b@pgfplotsplothandlersurveystart@tieline@even{1}%
+ %
+ \global\let\pgf@plotstreampoint=\pgfplotsplothandlervis@streampoint@tieline
+ \global\let\pgf@plotstreamend=\pgfplotsplothandlervis@streamend@tieline
+ %
+ \pgfkeysgetvalue{/pgfplots/tieline/each nth tie}\pgfplots@eachnth@tie
+ \ifx\pgfplots@eachnth@tie\pgfutil@empty
+ \def\pgfplots@eachnth@tie{1}%
+ \fi
+ \let\c@pgfplots@tiecounter=\c@pgfplotstable@counta
+ \c@pgfplots@tiecounter=0
+}%
+\def\pgfplotsplothandlervis@streampoint@tieline#1{%
+ \pgf@process{#1}%
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfplots@stream@withmeta@
+ {\pgfplots@current@point@coordindex}%
+ {\the\pgf@x}{\the\pgf@y}%
+ {\pgfplots@current@point@meta}%
+ }%
+ \if1\b@pgfplotsplothandlersurveystart@tieline@even
+ \let\pgfplotsplothandlervis@streampoint@tieline@last=\pgfplots@loc@TMPa
+ \expandafter\pgfplotsapplistXpushback\pgfplots@loc@TMPa\to\pgfp@binodal@A
+ \def\b@pgfplotsplothandlersurveystart@tieline@even{0}%
+ \else
+ \expandafter\pgfplotsprependlistXpushfront\pgfplots@loc@TMPa\to{pgfp@binodal@B@reverse}%
+ %
+ \advance\c@pgfplots@tiecounter by1
+ \ifnum\pgfplots@eachnth@tie=\c@pgfplots@tiecounter
+ \t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPa}%
+ \t@pgfplots@tokb=\expandafter{\pgfplotsplothandlervis@streampoint@tieline@last}%
+ \edef\pgfplots@loc@TMPa{\the\t@pgfplots@toka\the\t@pgfplots@tokb\noexpand\pgfplotsplothandlertieline@finishtie}%
+ \expandafter\pgfplotsapplistXpushback\pgfplots@loc@TMPa\to\pgfp@ties
+ \c@pgfplots@tiecounter=0
+ \fi
+ %
+ \def\b@pgfplotsplothandlersurveystart@tieline@even{1}%
+ \fi
+}%
+\def\pgfplotsplothandlervis@streamend@tieline{%
+ \begingroup
+ \pgfplots@drawmodes@appendtrue
+ \path[/pgfplots/tieline/every curve]%
+ \pgfextra
+ \ifx\tikz@plot@handler\pgfplotsplothandlertieline
+ \let\tikz@plot@handler\pgfplothandlerlineto
+ \fi
+ \pgfplotsresetplothandler
+ \tikz@plot@handler
+ \pgf@plotstreamstart
+ %
+ \pgfplotsapplistXlet\pgfplots@loc@TMPa=\pgfp@binodal@A
+ \pgfplots@loc@TMPa
+ \pgfplotsapplistXnewempty\pgfp@binodal@A
+ \pgfplotsprependlistXlet\pgfplots@loc@TMPa={pgfp@binodal@B@reverse}%
+ \pgfplots@loc@TMPa
+ \pgfplotsprependlistXnewempty{pgfp@binodal@B@reverse}%
+ %
+ \pgf@plotstreamend
+ \endpgfextra;
+ \endgroup
+ %
+ %
+ \pgfplotsset{/pgfplots/tieline/every tieline}%
+ \ifx\tikz@plot@handler\pgfplotsplothandlertieline
+ \let\tikz@plot@handler\pgfplothandlerlineto
+ \fi
+ \pgfplotsresetplothandler
+ \tikz@plot@handler
+ \pgf@plotstreamstart
+ %
+ \def\pgfplotsplothandlertieline@finishtie{%
+ \pgfplotsplothandlervisualizejump
+ }%
+ \pgfplotsapplistXlet\pgfplots@loc@TMPa=\pgfp@ties
+ \pgfplots@loc@TMPa
+ \pgfplotsapplistXnewempty\pgfp@ties
+ %
+ \pgf@plotstreamend
+}%
+
+\def\pgfplotsplothandlersurveystart@tieline{%
+ \def\pgfplots@loc@TMPa{table}%
+ \ifx\pgfplotssurveyphaseinputclass\pgfplots@loc@TMPa
+ \else
+ \pgfplots@error{Sorry, 'tieline' plots are currently only supported for \string\addplot\space table}%
+ \fi
+ \def\b@pgfplotsplothandlersurveystart@tieline@init{0}%
+}%
+\def\pgfplotsplothandlersurveyend@tieline{%
+}%
+
+\def\pgfplotsplothandlersurveypoint@tieline@init{%
+ \pgfplotsplothandlersurveypoint@tieline@init@find@tieendcolfor x\pgfplotsplothandlertieline@Bx
+ \pgfplotsplothandlersurveypoint@tieline@init@find@tieendcolfor y\pgfplotsplothandlertieline@By
+ \ifpgfplots@curplot@threedim
+ \pgfplotsplothandlersurveypoint@tieline@init@find@tieendcolfor z\pgfplotsplothandlertieline@Bz
+ \fi
+ %
+ \def\b@pgfplotsplothandlersurveystart@tieline@init{1}%
+}%
+\def\pgfplotsplothandlersurveypoint@tieline@init@find@tieendcolfor#1#2{%
+ \let#2=\relax
+ \pgfkeysgetvalue{/pgfplots/table/tie end #1}{\pgfplots@loc@TMPa}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \pgfkeysgetvalue{/pgfplots/table/tie end #1 index}{\pgfplots@loc@TMPa}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \edef#2{\noexpand\getthisrowno{\pgfplots@loc@TMPa}\noexpand\pgfmathresult}%
+ \fi
+ \else
+ \edef#2{\noexpand\getthisrow{\pgfplots@loc@TMPa}\noexpand\pgfmathresult}%
+ \fi
+ \ifx#2\relax
+ \pgfplotsplothandlersurveypoint@tieline@init@find@colindex@for #1\pgfplots@loc@ind
+ \c@pgf@countd=\pgfplots@loc@ind\relax
+ \advance\c@pgf@countd by3
+ \ifnum\c@pgf@countd<\pgfplotstablecols\relax
+ \else
+ \c@pgf@countd=0
+ \pgfplots@error{Sorry, I can't find the 'tie end #1 index' automatically. Please provide 'table[tie end #1={<colname>}]' or 'table[tie end #1 index=<col index>]' manually and verify the all, x,y and z components are correct}%
+ \fi
+ \edef\pgfplots@loc@ind{\the\c@pgf@countd}%
+ \pgfkeyslet{/pgfplots/table/tie end #1 index}\pgfplots@loc@ind
+ \edef#2{\noexpand\getthisrowno{\pgfplots@loc@ind}\noexpand\pgfmathresult}%
+ \fi
+}%
+
+\def\pgfplotsplothandlersurveypoint@tieline@init@find@colindex@for#1#2{%
+ \pgfkeysgetvalue{/pgfplots/table/#1}{\pgfplots@loc@TMPa}%
+ \pgfkeysgetvalue{/pgfplots/table/#1 index}{\pgfplots@loc@TMPb}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \let#2=\pgfplots@loc@TMPb
+ \else
+ \def\pgfplots@loc@TMPb{\expandafter\pgfplotstablegetcolumnindexforname\expandafter{\pgfplots@loc@TMPa}\of}%
+ \expandafter\pgfplots@loc@TMPb\pgfplotstablename\to#2%
+ \fi
+}%
+
+\def\pgfplotsplothandlersurveypoint@tieline{%
+ \if0\b@pgfplotsplothandlersurveystart@tieline@init
+ \pgfplotsplothandlersurveypoint@tieline@init
+ \fi
+ \pgfplotsplothandlersurveypoint@default
+ %
+ \pgfplotsplothandlertieline@Bx\let\pgfplots@current@point@x=\pgfmathresult
+ \pgfplotsplothandlertieline@By\let\pgfplots@current@point@y=\pgfmathresult
+ \ifpgfplots@curplot@threedim
+ \pgfplotsplothandlertieline@Bz\let\pgfplots@current@point@z=\pgfmathresult
+ \fi
+ \pgfplotsplothandlersurveypoint@default
+}%
+\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex
index 1a0ce28dc03..59b69da9712 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex
@@ -58,10 +58,12 @@
%
% the elements won't be initialised. Use 'set' for each element.
\def\pgfplotsarrayresize#1#2{%
- \pgfplotsarray@@edef{#1@size}{#2}%
+ \c@pgfplotsarray@tmp=#2
+ \pgfplotsarray@@edef{#1@size}{\the\c@pgfplotsarray@tmp}%
}
\def\pgfplotsarrayresizeglobal#1#2{%
- \expandafter\xdef\csname\string#1@size\endcsname{#2}%
+ \c@pgfplotsarray@tmp=#2
+ \expandafter\xdef\csname\string#1@size\endcsname{\the\c@pgfplotsarray@tmp}%
}
% Invokes code '#2' if the array named '#1' exists and '#3' if it does
@@ -136,7 +138,7 @@
\def\pgfplotsarray@@let#1=#2{%
\def\pgfplotsarray@TMP@@{\expandafter\let\csname\string#1\endcsname}%
- \expandafter\pgfplotsarray@TMP@@\expandafter=\csname\string#2\endcsname
+ \expandafter\pgfplotsarray@TMP@@\csname\string#2\endcsname
}%
\def\pgfplotsarray@@#1#2{%
@@ -178,6 +180,12 @@
\advance\c@pgfplotsarray@tmp by1
\pgfplotsarray@@edef{#2@size}{\the\c@pgfplotsarray@tmp}%
}
+\long\def\pgfplotsarraypushbackglobal#1\to#2{%
+ \pgfplotsarraysize{#2}\to\c@pgfplotsarray@tmp
+ \pgfplotsarray@@\gdef{#2@\the\c@pgfplotsarray@tmp}{#1}%
+ \advance\c@pgfplotsarray@tmp by1
+ \pgfplotsarray@@\xdef{#2@size}{\the\c@pgfplotsarray@tmp}%
+}
\long\def\pgfplotsarraypushbackglobal#1\to#2{%
\pgfplotsarraysize{#2}\to\c@pgfplotsarray@tmp
@@ -245,6 +253,23 @@
\expandafter\global\expandafter\let\csname\string#2@\the\c@pgfplotsarray@tmp\endcsname=#3\relax
}
+% Defines \pgfplotsretval to be a text-representation of the array.
+% It will contain \t to separate cells.
+%
+\def\pgfplotsarraytotext#1{%
+ \begingroup
+ \pgfplotsapplistXnewempty\pgfplotsretval@
+ \pgfplotsarrayforeachungrouped#1\as\entry{%
+ \pgfmathfloatparsenumber\entry
+ \pgfmathfloattosci\pgfmathresult
+ \edef\entry{\pgfmathresult\noexpand\t}%
+ \expandafter\pgfplotsapplistXpushback\entry\to\pgfplotsretval@
+ }%
+ \pgfplotsapplistXlet\pgfplotsretval=\pgfplotsretval@
+ \pgfmath@smuggleone\pgfplotsretval
+ \endgroup
+}
+
% Sets the boolean \ifpgfplotsarrayempty depending on whether array #1 is empty
% or not.
% Example:
@@ -296,11 +321,19 @@
\pgfplotsarray@@getsizeto{#1}{\pgfplotsarray@TMP}%
\c@pgfplotsarray@tmp=0\relax
\def\pgfplotsarrayforeachindex{\the\c@pgfplotsarray@tmp}%
- \long\def\pgfplotsarray@TMPb{#3}%
\pgfutil@loop
\ifnum\c@pgfplotsarray@tmp<\pgfplotsarray@TMP\relax
\expandafter\let\expandafter#2\expandafter=\csname\string#1@\the\c@pgfplotsarray@tmp\endcsname%
- \pgfplotsarray@TMPb
+ \begingroup
+ \toks0={#3}%
+ \xdef\pgfplotsarray@glob@TMP{%
+ \the\toks0 %
+ % restore loop state:
+ \c@pgfplotsarray@tmp=\the\c@pgfplotsarray@tmp\space
+ \noexpand\def\noexpand\pgfplotsarray@TMP{\pgfplotsarray@TMP}%
+ }%
+ \endgroup
+ \pgfplotsarray@glob@TMP
\advance\c@pgfplotsarray@tmp by1
\pgfutil@repeat
\let\pgfplotsarrayforeachindex=\relax%
@@ -417,6 +450,9 @@
% [\pgfplotsarrayforeach\testarray\as\elem{\elem\space}]
%
%--------------------------------------------------
+%
+% @see \pgfplotsutilsortthree
+% @see \pgfplotsutilsortfour
\def\pgfplotsarraysort{%
\pgfutil@ifnextchar[{\pgfplotsarraysort@opt}{\pgfplotsarraysort@opt[]}%
}%
@@ -570,3 +606,64 @@
\pgfplotsarray@mergesort{#1}{#2}{#3}%
\pgfplotsarray@mergesort{#1}{#4}{#5}%
}
+
+
+% A simple, ungrouped insert sort algorithm for small arrays.
+%
+% for i := 1; i < N; ++i do
+% begin
+% value := A[i];
+% j := i - 1;
+% done := false;
+% repeat
+% if A[j] > value then
+% begin
+% A[j + 1] := A[j];
+% j := j - 1;
+% if j < 0 then
+% done := true;
+% end
+% else
+% done := true;
+% until done;
+% A[j + 1] := value;
+% end;
+\def\pgfplotsarrayinsertionsort#1{%
+ \pgfkeysgetvalue{/pgfplots/iflessthan/.@cmd}\pgfplotsarraysort@iflt
+ \pgfplotsarraysizetomacro#1\to\pgfplotsarrayinsertionsort@N
+ \c@pgf@countd=1
+ \pgfplotsarrayinsertionsort@{#1}%
+}%
+\def\pgfplotsarrayinsertionsort@#1{%
+ \ifnum\c@pgf@countd<\pgfplotsarrayinsertionsort@N\relax
+ \pgfplotsarrayselect\c@pgf@countd\of#1\to\pgfplotsarrayinsertionsort@v
+ %
+ \c@pgf@countb=\c@pgf@countd
+ \advance\c@pgf@countb by-1
+ %
+ \pgfplotsarrayinsertionsort@@{#1}%
+ \advance\c@pgf@countb by1
+ \pgfplotsarrayletentry\c@pgf@countb\of#1=\pgfplotsarrayinsertionsort@v
+ %
+ \advance\c@pgf@countd by1
+ \expandafter\pgfplotsarrayinsertionsort@\expandafter#1%
+ \fi
+}
+\def\pgfplotsarrayinsertionsort@@#1{%
+ \pgfplotsarrayselect\c@pgf@countb\of#1\to\pgfplotsarrayinsertionsort@j
+ \pgfplotsarraysort@iflt{\pgfplotsarrayinsertionsort@v}{\pgfplotsarrayinsertionsort@j}
+ {%
+ \advance\c@pgf@countb by1
+ \pgfplotsarrayletentry\c@pgf@countb\of#1=\pgfplotsarrayinsertionsort@j
+ \advance\c@pgf@countb by-2
+ \ifnum\c@pgf@countb<0
+ \let\pgfplotsarrayinsertionsort@@next\relax%
+ \else
+ \def\pgfplotsarrayinsertionsort@@next{\pgfplotsarrayinsertionsort@@#1}%
+ \fi
+ }{%
+ \let\pgfplotsarrayinsertionsort@@next\relax%
+ }\pgfeov%
+ \pgfplotsarrayinsertionsort@@next
+}%
+
diff --git a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructure.code.tex b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructure.code.tex
index b60ff65c4f7..34cb67bfe02 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructure.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructure.code.tex
@@ -384,7 +384,9 @@
% Each single element will be grouped with TeX groups.
\long\def\pgfplotslistforeach#1\as#2#3{%
\begingroup
- \long\def\pgfpl@@##1{\def#2{##1}%
+ \long\def\pgfpl@@##1{%
+ \t@pgfplots@tokc={##1}% this allows '#' inside of '##1'
+ \edef#2{\the\t@pgfplots@tokc}%
\begingroup #3\endgroup}%
#1\relax
\endgroup
@@ -415,13 +417,14 @@
% -> iterate through argument until \pgfplotslistforeachungrouped@EOI
% comes.
\long\def\pgfplotslistforeachungrouped@#1#2\pgfpl@@#3{%
- \def\pgfplots@loc@TMPa{#3}%
- \ifx\pgfplots@loc@TMPa\pgfplotslistforeachungrouped@EOI
+ \def\pgfplotslist@loc@TMPa{#3}%
+ \ifx\pgfplotslist@loc@TMPa\pgfplotslistforeachungrouped@EOI
% ok, terminate loop.
\let\pgfplotslistforeachungrouped@next=\relax
\else
% perform loop iteration ...
- \def#1{#3}%
+ \t@pgfplots@tokc={#3}%
+ \edef#1{\the\t@pgfplots@tokc}% this allows '#' inside of '#3'
#2\relax
% and continue iterating.
\def\pgfplotslistforeachungrouped@next{\pgfplotslistforeachungrouped@{#1}{#2}}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex
index bea65490068..fa90ea613f6 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex
@@ -72,6 +72,8 @@
% - it requires O(N) different macros.
% - it ***can't*** be copied outside of the current TeX group!
%
+% I have never used it (besides early tests)
+%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -132,6 +134,9 @@
% LOCAL, however: 'to global' is to be used inside of a local
% group such that the final result, when all buffers are flushed,
% is assigned globally.
+%
+% ATTENTION: maybe that [to global] thing is useless.
+% Consider using the \pgfplotsapplistXglobal list (see below)
\def\pgfplotsapplistXnewempty{%
\pgfutil@ifnextchar[{%
\pgfplotsapplistXnewempty@opt
@@ -526,3 +531,85 @@
\def\pgfplotsapplistXXglobalexecute#1{%
\pgfplotsapplistXXglobalflushbuffers
#1}%
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%
+% \pgfplotsapplistXglobalnewempty --> same as \pgfplotsapplistX, but
+% it always assigns everything *globally*.
+%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+\def\pgfplotsgloballet{\global\let}%
+
+% Usage:
+% \pgfplotsapplistXglobalnewempty\macro
+% \pgfplotsapplistXglobalnewempty[to global]\macro
+%
+% The 'to global' flag will configure the list such that all
+% assignments to \macro are global. The list accumulation is
+% LOCAL, however: 'to global' is to be used inside of a local
+% group such that the final result, when all buffers are flushed,
+% is assigned globally.
+\def\pgfplotsapplistXglobalnewempty#1{%
+ \pgfplotsgloballet#1=\pgfutil@empty
+ \expandafter\pgfplotsgloballet\csname\string#1@smallbuf\endcsname=\pgfutil@empty
+ \expandafter\pgfplotsgloballet\csname\string#1@bigbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#1@smallbuf@c\endcsname{0}%
+ \expandafter\gdef\csname\string#1@bigbuf@c\endcsname{0}%
+}%
+
+% #1: the item to append
+% #2: the list as macro name
+\long\def\pgfplotsapplistXglobalpushback#1\to#2{%
+ \begingroup
+ \c@pgf@counta=\csname\string#2@smallbuf@c\endcsname\relax
+ \advance\c@pgf@counta by1
+ \expandafter\xdef\csname\string#2@smallbuf@c\endcsname{\the\c@pgf@counta}%
+ \endgroup
+ \ifnum\csname\string#2@smallbuf@c\endcsname<40
+ \t@pgfplots@toka=\expandafter\expandafter\expandafter{\csname\string#2@smallbuf\endcsname#1}%
+ \expandafter\xdef\csname\string#2@smallbuf\endcsname{\the\t@pgfplots@toka}%
+ \else
+ \pgfplotsapplistXglobalpushback@smallbufoverfl{#1}{#2}%
+ \fi
+}%
+\long\def\pgfplotsapplistXglobalpushback@smallbufoverfl#1#2{%
+ \begingroup
+ \c@pgf@counta=\csname\string#2@bigbuf@c\endcsname\relax
+ \advance\c@pgf@counta by1
+ \expandafter\xdef\csname\string#2@bigbuf@c\endcsname{\the\c@pgf@counta}%
+ \endgroup
+ %
+ \ifnum\csname\string#2@bigbuf@c\endcsname<30
+ \t@pgfplots@toka=\expandafter\expandafter\expandafter{\csname\string#2@bigbuf\endcsname}%
+ \t@pgfplots@tokb=\expandafter\expandafter\expandafter{\csname\string#2@smallbuf\endcsname#1}%
+ \expandafter\xdef\csname\string#2@bigbuf\endcsname{\the\t@pgfplots@toka\the\t@pgfplots@tokb}%
+ \expandafter\pgfplotsgloballet\csname\string#2@smallbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#2@smallbuf@c\endcsname{0}%
+ \else%
+ \t@pgfplots@toka=\expandafter{#2}%
+ \t@pgfplots@tokb=\expandafter\expandafter\expandafter{\csname\string#2@bigbuf\endcsname}%
+ \t@pgfplots@tokc=\expandafter\expandafter\expandafter{\csname\string#2@smallbuf\endcsname#1}%
+ \xdef#2{\the\t@pgfplots@toka\the\t@pgfplots@tokb\the\t@pgfplots@tokc}%
+ \expandafter\pgfplotsgloballet\csname\string#2@smallbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#2@smallbuf@c\endcsname{0}%
+ \expandafter\pgfplotsgloballet\csname\string#2@bigbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#2@bigbuf@c\endcsname{0}%
+ \fi%
+}%
+\def\pgfplotsapplistXglobalflushbuffers#1{%
+ \t@pgfplots@toka=\expandafter{#1}%
+ \t@pgfplots@tokb=\expandafter\expandafter\expandafter{\csname\string#1@bigbuf\endcsname}%
+ \t@pgfplots@tokc=\expandafter\expandafter\expandafter{\csname\string#1@smallbuf\endcsname}%
+ \xdef#1{\the\t@pgfplots@toka\the\t@pgfplots@tokb\the\t@pgfplots@tokc}%
+ \expandafter\pgfplotsgloballet\csname\string#1@smallbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#1@smallbuf@c\endcsname{0}%
+ \expandafter\pgfplotsgloballet\csname\string#1@bigbuf\endcsname=\pgfutil@empty
+ \expandafter\gdef\csname\string#1@bigbuf@c\endcsname{0}%
+}%
+
+
+\def\pgfplotsapplistXgloballet#1=#2{%
+ \pgfplotsapplistXglobalflushbuffers#2%
+ \let#1=#2}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsmatrix.code.tex b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsmatrix.code.tex
new file mode 100644
index 00000000000..abc273378e0
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsmatrix.code.tex
@@ -0,0 +1,544 @@
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%
+% This is a helper package with an elementary (full) matrix datastructure,
+% featuring O(1) index access and O(N) creation, deletion, copy.
+%
+% The following macros are supplied:
+%
+% \pgfplotsmatrixnewempty
+% \pgfplotsmatrixresize
+% \pgfplotsmatrixsize
+% \pgfplotsmatrixselect
+% \pgfplotsmatrixset
+% \pgfplotsmatrixletentry
+% \pgfplotsmatrixforeach
+% \pgfplotsmatrixLUdecomp
+% \pgfplotsmatrixLUsolve
+%
+%
+% Copyright 2007/2008 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%
+%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+% Creates a new, empty matrix.
+\def\pgfplotsmatrixnewempty#1{%
+ \pgfplotsarray@@def{#1@rows}{0}%
+ \pgfplotsarray@@def{#1@cols}{1}%
+}
+
+% resizes (truncates) matrix #1 to #2 rows and #3 cols.
+%
+% the elements won't be initialised. Use 'set' for each element.
+\def\pgfplotsmatrixresize#1#2#3{%
+ \pgfplotsarray@@edef{#1@rows}{#2}%
+ \pgfplotsarray@@edef{#1@cols}{#3}%
+}
+
+% Invokes code '#2' if the matrix named '#1' exists and '#3' if it does
+% not exist.
+\def\pgfplotsmatrixifdefined#1#2#3{%
+ \pgfutil@ifundefined{#1@rows}{#3}{#2}%
+}%
+
+
+
+% Counts the number of rows/cols in matrix #1, storing it into the count
+% registers #2, #3.
+% Example:
+% \pgfplotsmatrixsize\foo\to{\count0}{\count1}%
+% \the\count0, \the\count1
+\long\def\pgfplotsmatrixsize#1\to#2#3{%
+ #2=\csname\string#1@rows\endcsname\relax
+ #3=\csname\string#1@cols\endcsname\relax
+}
+
+\long\def\pgfplotsmatrixsizetomacro#1\to#2#3{%
+ \expandafter\let\expandafter#2\csname\string#1@rows\endcsname
+ \expandafter\let\expandafter#3\csname\string#1@cols\endcsname
+}
+
+
+% Returns the (#1,#2) element of matrix #3 into macro #4
+% Arguments:
+% #1: a row index 0,...,N-1 where N is rowcount.
+% #1 must expand to an integer.
+% #2: a col index 0,...,N-1 where N is colcount.
+% #2 must expand to an integer.
+% #3: a matrix
+% #4: a macro name
+% Example:
+% Element 0:
+% \pgfplotsmatrixselect0,1\of\foo\to\elem
+% \elem
+% Element \count1:
+% \pgfplotsmatrixselect\count1,2\of\foo\to\elem
+\def\pgfplotsmatrixselect#1,#2\of#3\to#4{%
+ \expandafter\let\expandafter#4\csname\string#3@#1,#2\endcsname%
+ \ifx#4\relax
+ \pgfplotsthrow{no such element}{#1,#2}{No such element: \string\pgfplotsmatrixselect#1,#2\string\of{\string#3}}\pgfeov%
+ \fi
+}
+
+% Expands to the value (#1,#2) of matrix #3.
+% #1: a row index (not a register)
+% #2: a col index
+% #3: a matrix
+\def\pgfplotsmatrixvalueofelem#1,#2\of#3{\csname\string#3@#1,#2\endcsname}%
+
+% Sets element '#1,#2' of matrix '#3' to '#4'.
+\def\pgfplotsmatrixset#1,#2\of#3\to#4{%
+ \pgfutil@namedef{\string#3@#1,#2}{#4}%
+}
+\long\def\pgfplotsmatrixletentry#1,#2\of#3=#4{%
+ \expandafter\let\csname\string#3@#1,#2\endcsname=#4\relax
+}
+
+% During the loop, \pgfplotsmatrixforeachrowindex expands to the
+% current row index and \pgfplotsmatrixforeachcolindex to the actual
+% col index. It invokes \pgfplotsmatrixforeachrowend after each
+% complete row.
+%
+% This macro uses
+% \c@pgf@counta,\c@pgf@countb,\c@pgf@countc,\c@pgf@countd
+\long\def\pgfplotsmatrixforeach#1\as#2#3{%
+ \pgfplotsmatrixsize#1\to\c@pgf@countc\c@pgf@countd
+ \long\def\pgfplotsmatrixforeach@{#3}%
+ \def\pgfplotsmatrixforeach@assign##1{\def#2{##1}}%
+ \def\pgfplotsmat@select##1,##2\to{\pgfplotsmatrixselect##1,##2\of#1\to}%
+ \def\pgfplotsmatrixforeachrowindex{\the\c@pgf@counta}%
+ \def\pgfplotsmatrixforeachcolindex{\the\c@pgf@countb}%
+ \c@pgf@counta=0
+ \pgfplotsmatrixforeach@loop
+ \let\pgfplotsmatrixforeachcolindex\relax
+ \let\pgfplotsmatrixforeachrowindex\relax%
+}%
+\let\pgfplotsmatrixforeachrowend=\relax
+\def\pgfplotsmatrixforeach@loop{%
+ \ifnum\c@pgf@counta<\c@pgf@countc
+ \c@pgf@countb=0
+ \pgfplotsmatrixforeach@loop@
+ %
+ \pgfplotsmatrixforeachrowend
+ %
+ \advance\c@pgf@counta by1
+ \expandafter\pgfplotsmatrixforeach@loop
+ \fi
+}%
+\def\pgfplotsmatrixforeach@loop@{%
+ \ifnum\c@pgf@countb<\c@pgf@countd
+ \pgfplotsmat@select\the\c@pgf@counta,\the\c@pgf@countb\to\pgfplotsmat@Aij
+ \expandafter\pgfplotsmatrixforeach@assign\expandafter{\pgfplotsmat@Aij}%
+ \pgfplotsmatrixforeach@
+ %
+ \advance\c@pgf@countb by1
+ \expandafter\pgfplotsmatrixforeach@loop@
+ \fi
+}%
+
+% Defines \pgfplotsretval to be a text-representation of the matrix.
+% It will contain '\n' as newline macro and \t to separate cells.
+%
+\def\pgfplotsmatrixtotext#1{%
+ \begingroup
+ \pgfplotsapplistXnewempty\pgfplotsretval@
+ \def\pgfplotsmatrixforeachrowend{%
+ \pgfplotsapplistXpushback\n\to\pgfplotsretval@
+ }%
+ \pgfplotsmatrixforeach#1\as\entry{%
+ \pgfmathfloatparsenumber\entry
+ \pgfmathfloattosci\pgfmathresult
+ \edef\entry{\pgfmathresult\noexpand\t}%
+ \expandafter\pgfplotsapplistXpushback\entry\to\pgfplotsretval@
+ }%
+ \pgfplotsapplistXlet\pgfplotsretval=\pgfplotsretval@
+ \pgfmath@smuggleone\pgfplotsretval
+ \endgroup
+}
+
+% Takes a matrix #1 and replaces it by its LU decomposition.
+% The LU decomposition uses implicit pivoting; the pivoting
+% information is stored in a permutation array #2 and a sign macro #3.
+%
+% It is to be used together with \pgfplotsmatrixsolveLEQS.
+%
+% #1: the input matrix (square size)
+% #2: a macro name; will be used to store the permutation array for
+% the pivoting.
+% #3: a macro name, will contain the sign of the permutation (either
+% +1 or -1).
+%
+% The algorithm has been converted from Numerical Recipes in C (I did
+% not copy the comments, though). You find the complete reference in
+% Chapter 2 of Numerical Recipes.
+%
+% If the matrix is singular, an exception will be raised.
+% If the matrix is singular up to working precision,
+% \pgfplotsmatrixLUdecompwarnsingular will be invoked and the
+% algorithm continues with a small threshold.
+%
+% All arithmetics is computed with \pgfplotscoordmath{default} (which
+% is float in the initial configuration). Use
+% \pgfplotssetcoordmathfor{default}{pgfbasic} to switch it to standard
+% pgf arithmetics.
+%
+% ATTENTION. This routine re-uses the four counters
+% \c@pgf@counta,...\c@pgf@countd.
+% Furthermore, it does not free any memory.
+% Make sure you use it inside of local scopes.
+\def\pgfplotsmatrixLUdecomp#1\perm#2\sign#3{%
+ \let\pgfplotsmat@i=\c@pgf@counta
+ \let\pgfplotsmat@imax=\c@pgf@countb
+ \let\pgfplotsmat@j=\c@pgf@countc
+ \let\pgfplotsmat@k=\c@pgf@countd
+ \countdef\pgfplotsmat@n=0
+ \let\pgfplotsmat@big=\pgfutil@empty
+ \let\pgfplotsmat@dum=\pgfutil@empty
+ \let\pgfplotsmat@sum=\pgfutil@empty
+ \let\pgfplotsmat@temp=\pgfutil@empty
+ \pgfplotsmatrixsize#1\to\pgfplotsmat@n\c@pgf@countd
+ \ifnum\c@pgf@countd=\pgfplotsmat@n
+ \else
+ \pgfplots@error{Sorry, \string\pgfplotsmatrixLUdecomp\space expected an n x n matrix, but got \the\pgfplotsmat@n\space x \the\c@pgf@countd.}%
+ \fi
+ \pgfplotsarraynewempty\pgfplotsmat@vv
+ \pgfplotsarrayresize\pgfplotsmat@vv\pgfplotsmat@n
+ \pgfplotsarrayresize#2\pgfplotsmat@n
+ \def\pgfplotsmat@parity{1}%
+ \def\pgfplotsmat@select##1,##2\to{\pgfplotsmatrixselect##1,##2\of#1\to}%
+ \def\pgfplotsmat@letentry##1,##2={\pgfplotsmatrixletentry##1,##2\of#1=}%
+ \def\pgfplotsmat@letpermentry##1={\pgfplotsarrayletentry##1\of#2=}%
+ %
+ \pgfplotsmat@i=0
+ \pgfplotsmatrixLUdecomp@scalingloop
+ %
+ \ifnum\pgfplotsmat@n>0 % this is used for error recovery.
+ %
+ \pgfplotsmat@j=0
+ \pgfplotsmatrixLUdecomp@mainloop@j
+ %
+ \let#3=\pgfplotsmat@parity
+ \fi
+}%
+\def\pgfplotsmatrixLUdecomp@scalingloop{%
+ \ifnum\pgfplotsmat@i<\pgfplotsmat@n
+ \pgfplotscoordmath{default}{zero}%
+ \let\pgfplotsmat@big=\pgfmathresult
+ %
+ \pgfplotsmat@j=0
+ \pgfplotsmatrixLUdecomp@scalingloop@
+ %
+ \pgfplotscoordmath{default}{if is}{\pgfplotsmat@big}{0}{%
+ \pgfplotsthrow{invalid argument}{\pgfplots@loc@TMPa}{Singular matrix in \string\pgfplotsmatrixLUdecomp}\pgfeov%
+ \pgfplotsmat@n=-1
+ }{%
+ \pgfplotscoordmath{default}{op}{reciprocal}{{\pgfplotsmat@big}}%
+ \pgfplotsarrayletentry\pgfplotsmat@i\of\pgfplotsmat@vv=\pgfmathresult
+ }%
+ %
+ \advance\pgfplotsmat@i by1
+ \expandafter\pgfplotsmatrixLUdecomp@scalingloop
+ \fi
+}%
+\def\pgfplotsmatrixLUdecomp@scalingloop@{%
+ \ifnum\pgfplotsmat@j<\pgfplotsmat@n
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@Aij
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplotsmat@Aij}%
+ \let\pgfplotsmat@Aij=\pgfmathresult
+ \pgfplotsmat@letentry\the\pgfplotsmat@i,\the\pgfplotsmat@j=\pgfplotsmat@Aij
+ %
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfplotsmat@Aij}}%
+ \let\pgfplotsmat@temp=\pgfmathresult
+ \pgfplotscoordmath{default}{max}{\pgfplotsmat@temp}{\pgfplotsmat@big}%
+ \let\pgfplotsmat@big=\pgfmathresult
+ %
+ \advance\pgfplotsmat@j by1
+ \expandafter\pgfplotsmatrixLUdecomp@scalingloop@
+ \fi
+}%
+
+\def\pgfplotsmatrixLUdecomp@mainloop@j{%
+ \ifnum\pgfplotsmat@j<\pgfplotsmat@n
+ %
+ \pgfplotsmat@i=0
+ \pgfplotsmatrixLUdecomp@mainloop@j@i
+ %
+ \pgfplotscoordmath{default}{zero}%
+ \let\pgfplotsmat@big=\pgfmathresult
+ %
+ \pgfplotsmat@i=\pgfplotsmat@j
+ \pgfplotsmatrixLUdecomp@mainloop@j@i@second
+ %
+ \ifnum\pgfplotsmat@j=\pgfplotsmat@imax
+ \else
+ % interchange rows...
+ \pgfplotsmat@k=0
+ \pgfplotsmatrixLUdecomp@mainloop@j@k
+ %
+ \c@pgfplotsarray@tmp=-\pgfplotsmat@parity\relax%
+ \edef\pgfplotsmat@parity{\the\c@pgfplotsarray@tmp}%
+ %
+ % FIXME : this here is DIFFERENT. Seems there is something
+ % missing in Numerical Recipes book
+ \pgfplotsarrayselect\pgfplotsmat@j\of\pgfplotsmat@vv\to\pgfplotsmat@dum
+ %\pgfplotsarrayselect\pgfplotsmat@imax\of\pgfplotsmat@vv\to\pgfplotsmat@temp
+ %\pgfplotsarrayletentry\pgfplotsmat@j\of\pgfplotsmat@vv=\pgfplotsmat@temp
+ \pgfplotsarrayletentry\pgfplotsmat@imax\of\pgfplotsmat@vv=\pgfplotsmat@dum
+ \fi
+ %
+ \edef\pgfplotsmat@dum{\the\pgfplotsmat@imax}%
+ \pgfplotsmat@letpermentry\pgfplotsmat@j=\pgfplotsmat@dum
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@j,\the\pgfplotsmat@j\to\pgfplotsmat@Ajj
+ \pgfplotscoordmath{default}{if is}{\pgfplotsmat@Ajj}{0}{%
+ \pgfplotscoordmath{default}{parsenumber}{1e-15}%
+ \pgfplotsmatrixLUdecompwarnsingular
+ \pgfplotsmat@letentry\the\pgfplotsmat@j,\the\pgfplotsmat@j=\pgfmathresult
+ }{%
+ }%
+ %
+ %
+ \advance\pgfplotsmat@j by1
+ \ifnum\pgfplotsmat@j=\pgfplotsmat@n
+ \advance\pgfplotsmat@j by-1
+ \else
+ \advance\pgfplotsmat@j by-1
+ \pgfplotsmat@select\the\pgfplotsmat@j,\the\pgfplotsmat@j\to\pgfplotsmat@Ajj
+ \pgfplotscoordmath{default}{op}{reciprocal}{{\pgfplotsmat@Ajj}}%
+ \let\pgfplotsmat@dum=\pgfmathresult
+ \pgfplotsmat@i=\pgfplotsmat@j
+ \advance\pgfplotsmat@i by1
+ \pgfplotsmatrixLUdecomp@mainloop@j@i@final
+ \fi
+ \advance\pgfplotsmat@j by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j
+ \fi
+}%
+\def\pgfplotsmatrixLUdecompwarnsingular{%
+ \pgfplots@warning{Linear system is singular up to machine precision! Continuing with small threshold.}%
+}%
+\def\pgfplotsmatrixLUdecomp@mainloop@j@i{%
+ \ifnum\pgfplotsmat@i<\pgfplotsmat@j
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@sum
+ \pgfplotsmat@k=0
+ \pgfplotsmatrixLUdecomp@mainloop@j@i@k
+ \pgfplotsmat@letentry\the\pgfplotsmat@i,\the\pgfplotsmat@j=\pgfplotsmat@sum
+ %
+ \advance\pgfplotsmat@i by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@i
+ \fi
+}%
+\def\pgfplotsmatrixLUdecomp@mainloop@j@i@k{%
+ \ifnum\pgfplotsmat@k<\pgfplotsmat@i
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@k\to\pgfplotsmat@Aik
+ \pgfplotsmat@select\the\pgfplotsmat@k,\the\pgfplotsmat@j\to\pgfplotsmat@Akj
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplotsmat@Aik}{\pgfplotsmat@Akj}}%
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplotsmat@sum}{\pgfmathresult}}%
+ \let\pgfplotsmat@sum=\pgfmathresult
+ %
+ \advance\pgfplotsmat@k by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@i@k
+ \fi
+}
+\def\pgfplotsmatrixLUdecomp@mainloop@j@i@second{%
+ \ifnum\pgfplotsmat@i<\pgfplotsmat@n
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@sum
+ %
+ \pgfplotsmat@k=0
+ \pgfplotsmatrixLUdecomp@mainloop@j@i@second@k
+ \pgfplotsmat@letentry\the\pgfplotsmat@i,\the\pgfplotsmat@j=\pgfplotsmat@sum
+ %
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfplotsmat@sum}}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\pgfplotsarrayvalueofelem\the\pgfplotsmat@i\of\pgfplotsmat@vv}}%
+ \let\pgfplotsmat@dum=\pgfmathresult
+ \pgfplotscoordmath{default}{if less than}{\pgfplotsmat@dum}{\pgfplotsmat@big}{%
+ }{%
+ \let\pgfplotsmat@big=\pgfplotsmat@dum
+ \pgfplotsmat@imax=\pgfplotsmat@i
+ }%
+ %
+ \advance\pgfplotsmat@i by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@i@second
+ \fi
+}%
+\def\pgfplotsmatrixLUdecomp@mainloop@j@i@second@k{%
+ \ifnum\pgfplotsmat@k<\pgfplotsmat@j
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@k\to\pgfplotsmat@Aik
+ \pgfplotsmat@select\the\pgfplotsmat@k,\the\pgfplotsmat@j\to\pgfplotsmat@Akj
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplotsmat@Aik}{\pgfplotsmat@Akj}}%
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplotsmat@sum}{\pgfmathresult}}%
+ \let\pgfplotsmat@sum=\pgfmathresult
+ %
+ \advance\pgfplotsmat@k by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@i@second@k
+ \fi
+}%
+
+\def\pgfplotsmatrixLUdecomp@mainloop@j@k{%
+ \ifnum\pgfplotsmat@k<\pgfplotsmat@n
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@imax,\the\pgfplotsmat@k\to\pgfplotsmat@dum
+ \pgfplotsmat@select\the\pgfplotsmat@j,\the\pgfplotsmat@k\to\pgfplotsmat@Ajk
+ \pgfplotsmat@letentry\the\pgfplotsmat@imax,\the\pgfplotsmat@k=\pgfplotsmat@Ajk
+ \pgfplotsmat@letentry\the\pgfplotsmat@j,\the\pgfplotsmat@k=\pgfplotsmat@dum
+ %
+ \advance\pgfplotsmat@k by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@k
+ \fi
+}
+\def\pgfplotsmatrixLUdecomp@mainloop@j@i@final{%
+ \ifnum\pgfplotsmat@i<\pgfplotsmat@n
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@Aij
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplotsmat@Aij}{\pgfplotsmat@dum}}%
+ \pgfplotsmat@letentry\the\pgfplotsmat@i,\the\pgfplotsmat@j=\pgfmathresult
+ %
+ \advance\pgfplotsmat@i by1
+ \expandafter\pgfplotsmatrixLUdecomp@mainloop@j@i@final
+ \fi
+}
+
+
+
+% Solves the set of n linear equations Ax = b where A = LU is given in
+% (#1,#2) and b = #3.
+%
+% #1: is a result of \pgfplotsmatrixLUdecomp
+% #2: is the permutation vector returned by \pgfplotsmatrixLUdecomp
+% #3: the right hand side. On output, it will be *overwritten* with
+% the solution.
+%
+% The algorithm has been converted from Numerical Recipes in C (I did
+% not copy the comments, though). You find the complete reference in
+% Chapter 2 of Numerical Recipes.
+\def\pgfplotsmatrixLUbacksubst#1\perm#2\inout#3{%
+ \let\pgfplotsmat@i=\c@pgf@counta
+ \let\pgfplotsmat@ii=\c@pgf@countb
+ \let\pgfplotsmat@j=\c@pgf@countc
+ \let\pgfplotsmat@n=\c@pgf@countd
+ \let\pgfplotsmat@sum=\pgfutil@empty
+ \pgfplotsmatrixsize#1\to\pgfplotsmat@n\c@pgf@counta
+ \pgfplotsarraysize#3\to\c@pgf@counta
+ \ifnum\c@pgf@counta=\pgfplotsmat@n
+ \def\pgfplotsmat@select##1,##2\to{\pgfplotsmatrixselect##1,##2\of#1\to}%
+ \def\pgfplotsmat@selectperm##1\to{\pgfplotsarrayselect##1\of#2\to}%
+ \def\pgfplotsmat@selectb##1\to{\pgfplotsarrayselect##1\of#3\to}%
+ \def\pgfplotsmat@letresult##1={\pgfplotsarrayletentry##1\of#3=}%
+ %
+ \pgfplotsmat@ii=-1
+ \pgfplotsmat@i=0
+ \pgfplotsmatrixLUbacksubst@loop@i
+ %
+ \pgfplotsmat@i=\pgfplotsmat@n
+ \advance\pgfplotsmat@i by-1
+ \pgfplotsmatrixLUbacksubst@loop@i@backw
+ \else
+ \pgfplots@error{Sorry, \string\pgfplotsmatrixLUbacksubst\space expected a vector of length \the\pgfplotsmat@n\space, not \the\c@pgf@counta}%
+ \fi
+}%
+\def\pgfplotsmatrixLUbacksubst@loop@i{%
+ \ifnum\pgfplotsmat@i<\pgfplotsmat@n
+ %
+ \pgfplotsmat@selectperm\pgfplotsmat@i\to\pgfplotsmat@ip
+ \pgfplotsmat@selectb\pgfplotsmat@ip\to\pgfplotsmat@sum
+ \pgfplotsmat@selectb\pgfplotsmat@i\to\pgfplotsmat@temp
+ %
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplotsmat@sum}%
+ \let\pgfplotsmat@sum=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplotsmat@temp}%
+ \let\pgfplotsmat@temp=\pgfmathresult
+ %
+ \pgfplotsmat@letresult\pgfplotsmat@ip=\pgfplotsmat@temp
+ %
+ \ifnum\pgfplotsmat@ii<0
+ \pgfplotscoordmath{default}{if is}{\pgfplotsmat@sum}{0}{%
+ }{%
+ \pgfplotsmat@ii=\pgfplotsmat@i
+ }%
+ \else
+ \pgfplotsmat@j=\pgfplotsmat@ii
+ \pgfplotsmatrixLUbacksubst@loop@i@j
+ \fi
+ \pgfplotsmat@letresult\pgfplotsmat@i=\pgfplotsmat@sum
+ %
+ \advance\pgfplotsmat@i by1
+ \expandafter\pgfplotsmatrixLUbacksubst@loop@i
+ \fi
+}%
+\def\pgfplotsmatrixLUbacksubst@loop@i@j{%
+ \ifnum\pgfplotsmat@j<\pgfplotsmat@i
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@Aij
+ \pgfplotsmat@selectb\pgfplotsmat@j\to\pgfplotsmat@temp
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplotsmat@temp}{\pgfplotsmat@Aij}}%
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplotsmat@sum}{\pgfmathresult}}%
+ \let\pgfplotsmat@sum=\pgfmathresult
+ %
+ \advance\pgfplotsmat@j by1
+ \expandafter\pgfplotsmatrixLUbacksubst@loop@i@j
+ \fi
+}%
+
+\def\pgfplotsmatrixLUbacksubst@loop@i@backw{%
+ \ifnum\pgfplotsmat@i<0
+ \else
+ %
+ \pgfplotsmat@selectb\pgfplotsmat@i\to\pgfplotsmat@sum
+ \pgfplotsmat@j=\pgfplotsmat@i
+ \advance\pgfplotsmat@j by1
+ \pgfplotsmatrixLUbacksubst@loop@i@backw@j
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@i\to\pgfplotsmat@Aii
+ \pgfplotscoordmath{default}{op}{divide}{{\pgfplotsmat@sum}{\pgfplotsmat@Aii}}%
+ \pgfplotsmat@letresult\pgfplotsmat@i=\pgfmathresult
+ %
+ \advance\pgfplotsmat@i by-1
+ \expandafter\pgfplotsmatrixLUbacksubst@loop@i@backw
+ \fi
+}%
+\def\pgfplotsmatrixLUbacksubst@loop@i@backw@j{%
+ \ifnum\pgfplotsmat@j<\pgfplotsmat@n
+ %
+ \pgfplotsmat@select\the\pgfplotsmat@i,\the\pgfplotsmat@j\to\pgfplotsmat@Aij
+ \pgfplotsmat@selectb\pgfplotsmat@j\to\pgfplotsmat@temp
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfplotsmat@temp}{\pgfplotsmat@Aij}}%
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplotsmat@sum}{\pgfmathresult}}%
+ \let\pgfplotsmat@sum=\pgfmathresult
+ %
+ \advance\pgfplotsmat@j by1
+ \expandafter\pgfplotsmatrixLUbacksubst@loop@i@backw@j
+ \fi
+}%
+
+% Solves the linear equation system Ax = b.
+% #1: the matrix A
+% #2: the right-hand-side b. On output, #2 will contain the solution
+% and A will be overwritten.
+%
+% ATTENTION. This routine re-uses the four counters
+% \c@pgf@counta,...\c@pgf@countd.
+% Furthermore, it does not free any memory.
+% Make sure you use it inside of local scopes.
+\def\pgfplotsmatrixsolveLEQS#1=#2{%
+ \pgfplotsmatrixLUdecomp#1\perm\pgfplotsmatrix@perm\sign\pgfplotsmatrix@sign
+ \pgfplotsmatrixLUbacksubst#1\perm\pgfplotsmatrix@perm\inout#2%
+}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex
index b2c3d7bf946..b5480f58b5b 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex
@@ -44,6 +44,7 @@
\newif\ifpgfplotstabletypeset@force@remake
\newif\ifpgfplotstable@disable@rowcolstyles
+\let\pgfplotstable@outfile=\w@pgf@writea
\input pgfplotstable.coltype.code.tex
@@ -341,6 +342,12 @@
/pgfplots/table/every last column/.style={},
/pgfplots/table/every even column/.style={},
/pgfplots/table/every odd column/.style={},
+ /pgfplots/table/every nth row/.code 2 args={%
+ \pgfplotstabletypeset@append@every@nth@row{#1}{#2}%
+ },
+ /pgfplots/table/every nth row/.style 2 args/.code 2 args={%
+ \pgfplotstabletypeset@append@every@nth@row{#1}{#2}%
+ },
/pgfplots/table/before row/.initial=,
/pgfplots/table/after row/.initial=,
/pgfplots/table/begin table/.initial={\begin{tabular}},
@@ -464,6 +471,14 @@
\fi
}
},
+ /pgfplots/table/string replace*/.style 2 args={%
+ /pgfplots/table/preproc cell content/.append code={%
+ \pgfkeysgetvalue{/pgfplots/table/@cell content}\pgfmathresult
+ \def\pgfplots@loc@TMPa{\pgfplotsutilstrreplace{#1}{#2}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}%
+ \pgfkeyslet{/pgfplots/table/@cell content}{\pgfplotsretval}%
+ }
+ },
/pgfplots/table/preproc/expr/.code={%
\ifpgfplots@usefpu
\pgfkeysalso{/pgf/fpu=true,/pgf/fpu/output format=sci}%
@@ -501,7 +516,8 @@
\fi
}
},
- /pgfplots/table/multiply with/.code={%
+ /pgfplots/table/multiply with/.style={/pgfplots/table/multiply by={#1}},%
+ /pgfplots/table/multiply by/.code={%
\pgfmathfloatparsenumber{#1}%
\let\pgfplotstable@scale=\pgfmathresult
\pgfkeysalso{
@@ -519,7 +535,7 @@
}%
},
/pgfplots/table/divide by/.code={%
- \pgfkeysalso{/pgfplots/table/multiply with=#1}%
+ \pgfkeysalso{/pgfplots/table/multiply by=#1}%
\let\pgfplotstable@divisor=\pgfplotstable@scale
\pgfmathfloatcreate{1}{1.0}{0}%
\let\pgfplotstable@ONE=\pgfmathresult
@@ -1349,13 +1365,36 @@
%%%%%%%%%%%%%%%
+% #1: the original value
+% #2: the output macro
\long\def\pgfplotstabletypeset@getfinalentry#1#2{%
\begingroup
+ \def\pgfkeysdefaultpath{/pgfplots/table/}%
\def\pgfplotstablepartno{0}%
\pgfkeyssetvalue{/pgfplots/table/@cell content}{#1}%
\pgfkeyssetvalue{/pgfplots/table/@unprocessed cell content}{#1}%
+ \ifpgfplotstable@disable@rowcolstyles
+ \else
+ \def\pgfplots@loc@TMPb##1{%
+ \edef\pgfplotstable@loc@TMPa{/pgfplots/table/every row ##1\pgfplotstablerow\space column ##1\pgfplotstablecol}%
+ \pgfkeysifdefined{\pgfplotstable@loc@TMPa/.@cmd}{%
+ \expandafter\pgfplotstableset\expandafter{\pgfplotstable@loc@TMPa}%
+ }{}%
+ \edef\pgfplotstable@loc@TMPa{/pgfplots/table/every row ##1\pgfplotstablerow\space column \pgfplotstable@colname@for@styles}%
+ \pgfkeysifdefined{\pgfplotstable@loc@TMPa/.@cmd}{%
+ \expandafter\pgfplotstableset\expandafter{\pgfplotstable@loc@TMPa}%
+ }{}%
+ }%
+ \pgfplots@loc@TMPb{}%
+ % also accept the same with the 'row no' style:
+ \pgfplots@loc@TMPb{no }%
+ \pgfplotstable@debug@notify@cellcontent@afterrowcolstyles%
+ \fi
\pgfplotstable@debug@notify@cellcontent%
- \pgfkeysvalueof{/pgfplots/table/preproc cell content/.@cmd}#1\pgfeov
+ \pgfkeysgetvalue{/pgfplots/table/@cell content}\pgfmathresult%
+ \pgfkeyslet{/pgfplots/table/@cell content after rowcol styles}\pgfmathresult%
+ \pgfkeysgetvalue{/pgfplots/table/preproc cell content/.@cmd}\pgfplotstable@assigncell
+ \expandafter\pgfplotstable@assigncell\pgfmathresult\pgfeov
\pgfkeysgetvalue{/pgfplots/table/@cell content}\pgfmathresult%
\pgfkeyslet{/pgfplots/table/@preprocessed cell content}\pgfmathresult%
\pgfplotstable@debug@notify@cellcontent@preprocessed%
@@ -1391,6 +1430,7 @@
\def\pgfplotstable@debug@notify@cellcontent{}%
\def\pgfplotstable@debug@notify@cellcontent@preprocessed{}%
+\def\pgfplotstable@debug@notify@cellcontent@afterrowcolstyles{}%
\def\pgfplotstable@debug@notify@cellcontent@assigned{}%
\def\pgfplotstable@debug@notify@cellcontent@postprocessed{}%
\def\pgfplotstable@debug@notify@preprocess@incol#1{}%
@@ -1412,6 +1452,13 @@
\immediate\write16{Row \pgfplotstablerow/out \the\c@pgfplotstable@counta: After '@preproc cell content : `\the\toks0'}%
\endgroup
}%
+\def\pgfplotstable@debug@notify@cellcontent@afterrowcolstyles@ACTIVE{%
+ \begingroup
+ \pgfkeysgetvalue{/pgfplots/table/@cell content}\pgfmathresult%
+ \toks0=\expandafter{\pgfmathresult}%
+ \immediate\write16{Row \pgfplotstablerow/out \the\c@pgfplotstable@counta: After applying 'every row * column [no] *' styles : `\the\toks0'}%
+ \endgroup
+}%
\def\pgfplotstable@debug@notify@cellcontent@assigned@ACTIVE{%
\begingroup
\pgfkeysgetvalue{/pgfplots/table/@cell content}\pgfmathresult%
@@ -1454,6 +1501,7 @@
\let\pgfplotstable@debug@notify@preprocessed@col=\pgfplotstable@debug@notify@preprocessed@col@ACTIVE
\let\pgfplotstable@debug@notify@cellcontent=\pgfplotstable@debug@notify@cellcontent@ACTIVE
\let\pgfplotstable@debug@notify@cellcontent@preprocessed=\pgfplotstable@debug@notify@cellcontent@preprocessed@ACTIVE
+ \let\pgfplotstable@debug@notify@cellcontent@afterrowcolstyles=\pgfplotstable@debug@notify@cellcontent@afterrowcolstyles@ACTIVE
\let\pgfplotstable@debug@notify@cellcontent@assigned=\pgfplotstable@debug@notify@cellcontent@assigned@ACTIVE
\let\pgfplotstable@debug@notify@cellcontent@postprocessed=\pgfplotstable@debug@notify@cellcontent@postprocessed@ACTIVE
\let\pgfplotstable@debug@notify@balancingcell=\pgfplotstable@debug@notify@balancingcell@ACTIVE
@@ -1506,6 +1554,60 @@
\fi
}%
+% Upon execution, \pgfplotsretval contains a set of /pgfplots/table
+% keys from 'every nth row' styles.
+%
+% @PRECONDITION this macro assumes it is run in \pgfplotstabletypeset.
+\def\pgfplots@each@nth@styles{\let\pgfplotsretval\pgfutil@empty}%
+
+% Defines an 'every nth row' style for an integer #1.
+%
+% #1: integer
+% #2: style arguments
+%
+% All these styles are accumulated into the macro
+% \pgfplots@each@nth@styles.
+\def\pgfplotstabletypeset@append@every@nth@row#1#2{%
+ \edef\pgfplots@loc@TMPa{#1}%
+ % chech for the special 'each nth row={3[+1]}{...} format:
+ \expandafter\pgfutil@in@\expandafter[\expandafter{\pgfplots@loc@TMPa}%
+ \ifpgfutil@in@
+ \expandafter\pgfplotstabletypeset@append@every@nth@row@getshift\pgfplots@loc@TMPa%
+ \t@pgfplots@toka={#2}%
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfplotstabletypeset@append@every@nth@row@{\pgfplots@loc@TMPa}{\the\t@pgfplots@toka}{\pgfplots@loc@TMPb}%
+ }%
+ \pgfplots@loc@TMPa
+ \else
+ \expandafter\pgfplotstabletypeset@append@every@nth@row@\expandafter{\pgfplots@loc@TMPa}{#2}{0}%
+ \fi
+}%
+\def\pgfplotstabletypeset@append@every@nth@row@getshift#1[#2]{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifnum#2<0
+ \c@pgf@countc=#1\relax
+ \advance\c@pgf@countc by#2
+ \edef\pgfplots@loc@TMPb{\the\c@pgf@countc}%
+ \else
+ \def\pgfplots@loc@TMPb{#2}%
+ \fi
+}%
+% #3 is an additional shift. It is usually 0
+\def\pgfplotstabletypeset@append@every@nth@row@#1#2#3{%
+ \expandafter\def\expandafter\pgfplots@each@nth@styles\expandafter{%
+ \pgfplots@each@nth@styles
+ \expandafter\pgfplotsmathmodint\expandafter{\the\c@pgfplotstable@rowindex}{#1}%
+ \ifnum\pgfmathresult=#3\relax
+ \ifx\pgfplotsretval\pgfutil@empty
+ \def\pgfplotsretval{#2}%
+ \else
+ \expandafter\def\expandafter\pgfplotsretval\expandafter{\pgfplotsretval,%
+ #2}%
+ \fi
+ \fi
+ }%
+}
+
\def\pgfplotstable@insertemptycells@forbalance{%
\pgfutil@loop
\ifnum\c@pgfplotstable@counta<\pgfplotstable@firstnumrows\relax
@@ -1529,7 +1631,7 @@
% \pgfplotslistnewempty#2
% }{}%
%--------------------------------------------------
- \def\pgfplotstablename{#2}%
+ \def\pgfplotstablename{#2}% the name of the actual table struct
\def\pgfplotstablecolname{\pgfplotstable@colname}%
\def\pgfplotstablecol{\the\c@pgfplotstable@colindex}%
\def\pgfplotstablerow{\the\c@pgfplotstable@rowindex}%
@@ -1702,10 +1804,11 @@
\t@pgfplots@tokb=\expandafter{\pgfplotstable@colname}%
\expandafter\pgfplotstable@checkspecialchars@pgfkeys\the\t@pgfplots@tokb\pgfplotstable@EOI
\ifpgfutil@in@
- \edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,columns/{\the\t@pgfplots@tokb}/.try}%
+ \edef\pgfplotstable@colname@for@styles{{\the\t@pgfplots@tokb}}%
\else
- \edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,columns/\the\t@pgfplots@tokb/.try}%
+ \edef\pgfplotstable@colname@for@styles{\the\t@pgfplots@tokb}%
\fi
+ \edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,columns/\pgfplotstable@colname@for@styles/.try}%
\t@pgfplots@toka=\expandafter{\pgfplotstable@loc@TMPa}%
\t@pgfplots@tokb=\expandafter{\pgfplotstable@displaycolkey}%
\edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,\the\t@pgfplots@tokb}%
@@ -1901,6 +2004,21 @@
\else
\edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,every row no \the\c@pgfplotstable@rowindex/.try}%
\t@pgfplots@toka=\expandafter{\pgfplotstable@loc@TMPa}%
+ %
+ \ifnum\c@pgfplotstable@rowindex=0\relax
+ \else
+ % process 'every nth row' styles:
+ \begingroup
+ \pgfplots@each@nth@styles
+ \pgfmath@smuggleone\pgfplotsretval
+ \endgroup
+ \ifx\pgfplotsretval\pgfutil@empty
+ \else
+ \t@pgfplots@tokb=\expandafter{\pgfplotsretval}%
+ \edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka,\the\t@pgfplots@tokb}%
+ \t@pgfplots@toka=\expandafter{\pgfplotstable@loc@TMPa}%
+ \fi
+ \fi
\fi
% misuse as temporary variable:
\c@pgfplotstable@colindex=\c@pgfplotstable@rowindex
@@ -1987,13 +2105,14 @@
\pgfplots@glob@TMPa% execute 'write to macro' if set.
}%
+
\newif\ifpgfplotstable@isfirstrow
\newif\ifpgfplotstable@islastrow
\newif\ifpgfplotstablecreatecol@isreallynew
\def\pgfplotstablecreatecol@opt[#1]#2#3{%
\begingroup
- \def\pgfplotstablename{#3}%
+ \def\pgfplotstablename{#3}% the name of the table struct
\pgfplotstableset{columns=,#1,%
/pgf/fpu/handlers/empty number/.code 2 args={%
\pgfmathfloatcreate{0}{0.0}{0}%
@@ -2525,7 +2644,7 @@
\pgfkeysgetvalue{/pgfplots/table/create col/linear regression/variance src}{\pgfplotstable@variance@table}%
%
\ifx\pgfplotstable@table\pgfutil@empty
- \pgfutil@ifundefined{pgfplotstablename}{}{%
+ \pgfutil@ifundefined{pgfplotstablename}{}{% query the name of the actual table struct
\let\pgfplotstable@table=\pgfplotstablename
}%
\fi
diff --git a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex
index 4a31f8fc84d..37eed5ad6ce 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex
@@ -56,7 +56,6 @@
\newif\ifpgfplotstable@firstline@is@header
\newcount\c@pgfplotstable@counta
\newtoks\t@pgfplotstable@a
-\newwrite\pgfplotstable@outfile
\newif\ifpgfplots@addplotimpl@readcompletely
% should always be false; use only in grouped internal macros
\newif\ifpgfplots@table@options@areset
@@ -97,6 +96,8 @@
/pgfplots/table/z error expr/.initial=,
/pgfplots/table/ignore chars/.initial=,
/pgfplots/table/white space chars/.initial=,
+ /pgfplots/table/comment chars/.initial=,
+ /pgfplots/table/skip first n/.initial=0,
/pgfplots/table/trim cells/.is if=pgfplotstable@trimcells,
/pgfplots/table/trim cells/.default=true,
/pgfplots/table/read completely/.is choice,
@@ -481,9 +482,31 @@
\expandafter\pgfplotstablegetcolumnbyname\pgfplotstable@loc@TMPc\of#2\to{#3}%
}%
+% Defines #3 to be the column name of the column with index '#1'.
+%
+% #1: a column index (starting with 0)
+% #2: a loaded table structure
+% #3: an output macro name.
\def\pgfplotstablegetcolumnnamebyindex#1\of#2\to#3{%
\pgfplotslistselect#1\of#2\to#3\relax
}%
+
+% Defines #3 to be the column index of the column with name '#1'.
+%
+% #1: a column name
+% #2: a loaded table structure
+% #3: an output macro name which will be filled with the index (or -1
+% if there is no such index)
+\def\pgfplotstablegetcolumnindexforname#1\of#2\to#3{%
+ \def#3{-1}%
+ \edef\pgfplotstablegetcolumnindexforname@@{#1}%
+ \pgfplotstableforeachcolumn{#2}\as\pgfplotstablegetcolumnindexforname@{%
+ \relax
+ \ifx\pgfplotstablegetcolumnindexforname@\pgfplotstablegetcolumnindexforname@@
+ \edef#3{\pgfplotstablecol}%
+ \fi
+ }%
+}%
\def\pgfplotstablegetcolumnbyindex#1\of#2\to#3{%
\pgfplotslistselect#1\of#2\to#3\relax
\expandafter\pgfplotstablegetcolumnbyname#3\of#2\to{#3}%
@@ -664,7 +687,7 @@
}%
}%
\long\def\pgfplotstableread@impl@collectfirstarg#1#2{%
- \pgfutil@ifnextchar t{%
+ \pgfplotsutil@ifnextchar t{%
\pgfplotstableread@impl@@{#1}{#2}%
}{%
\pgfplotstableread@impl@{#1}{#2}%
@@ -752,6 +775,15 @@
\pgfplotstableread@inlinefalse
\fi
%
+ % optimizations:
+ \pgfkeysgetvalue{/pgfplots/table/comment chars}\pgfplots@loc@TMPd
+ \ifx\pgfplots@loc@TMPd\pgfutil@empty
+ \let\pgfplotstableread@checkspecial@line@default=\relax
+ \fi
+ \pgfkeysgetvalue{/pgfplots/table/skip first n}\pgfplots@loc@TMPd
+ \ifx\pgfplots@loc@TMPd\pgfutil@empty \let\pgfplotstableread@check@skipfirstn=\relax \fi
+ \ifnum\pgfplots@loc@TMPd=0 \let\pgfplotstableread@check@skipfirstn=\relax \fi
+ %
\ifpgfplotstableread@inline
\def\pgfplotstableread@impl@fCLOSE{}%
\let\pgfplotstableread@loop@over@lines=\pgfplotstableread@loop@over@lines@frominline%
@@ -877,6 +909,8 @@
\pgfplotstableset@every@table{#2}{#1}%
\fi
%
+ \def\pgfplotstablename{\pgfplotstable@colnames@glob}% provide the name of the actual table struct (during \pgfplotstableread, only partial functionality is available!)
+ %
% local counter definitions:
\ifpgfplots@tableread@use@begingroup
\let\pgfplotstableread@lineno=\c@pgf@counta
@@ -1024,10 +1058,17 @@
}%
}%
+\def\pgfplotstableread@check@skipfirstn{%
+ \ifnum\pgfplotstableread@lineno<\pgfkeysvalueof{/pgfplots/table/skip first n} %
+ \pgfplotstableread@skiplinetrue
+ \fi
+}%
+
% PRECONDITION:
% \pgfplotstable@LINE contains the current input line.
\def\pgfplotstableread@loop@processnextline{%
\expandafter\pgfplotstableread@checkspecial@line\pgfplotstable@LINE\pgfplotstable@EOI
+ \pgfplotstableread@check@skipfirstn
\ifpgfplotstableread@skipline
\def\pgfplotstableread@gnuplotcheck{####x y type}%
\ifx\pgfplotstableread@gnuplotcheck\pgfplotstable@LINE
@@ -1055,6 +1096,7 @@
\fi
\pgfplotstableread@impl@DO\pgfplotstableread@impl@countcols@and@identifynames@NEXT\pgfplotstable@LINE
\pgfplotstableread@countset\pgfplotstableread@numcols{\pgfplotstableread@curcol}%
+ \edef\pgfplotstablecols{\thepgfplotstableread@numcols}%
\pgfplotstableread@countreset\pgfplotstableread@curcol
% Create empty column lists:
\pgfplotstableread@create@column@lists
@@ -1109,30 +1151,78 @@
% WARNING: this routine is also used in pgfplots.code.tex ...
\def\pgfplotstableread@checkspecial@line{%
- \pgfutil@ifnextchar##{%
+ \futurelet\pgfplotstableread@tmp\pgfplotstableread@checkspecial@line@
+}%
+\def\pgfplotstableread@checkspecial@line@{%
+ \pgfplotstableread@skiplinefalse
+ \let\pgfplotstableread@checkspecial@line@@\pgfplotstableread@impl@gobble%
+ %
+ \let\pgfplotstableread@tmpb=##%
+ \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
\pgfplotstableread@skiplinetrue
- \pgfplotstableread@impl@gobble
- }{%
- \pgfutil@ifnextchar${%
- \pgfplotstableread@process@flags@line
- }{%
- \pgfutil@ifnextchar\pgfplotstable@EOI{%
+ \else
+ \let\pgfplotstableread@tmpb=$%
+ \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
+ \let\pgfplotstableread@checkspecial@line@@=\pgfplotstableread@process@flags@line
+ \else
+ \let\pgfplotstableread@tmpb=\pgfplotstable@EOI%
+ \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
\pgfplotstableread@skiplinetrue
\pgfplotsscanlinecomplete% the line is empty; same as \par!
- \pgfplotstableread@impl@gobble
- }{%
- \pgfutil@ifnextchar\par{%
+ \else
+ \let\pgfplotstableread@tmpb=\par%
+ \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
\pgfplotstableread@skiplinetrue
- \pgfplotsscanlinecomplete
- \pgfplotstableread@impl@gobble
- }{%
- \pgfplotstableread@skiplinefalse
- \pgfplotstableread@impl@gobble
- }%
- }%
+ \pgfplotsscanlinecomplete% the line is empty;
+ \else
+ \pgfplotstableread@checkspecial@line@default%
+ \fi
+ \fi
+ \fi
+ \fi
+ \pgfplotstableread@checkspecial@line@@
+}%
+\def\pgfplotstableread@checkspecial@line@default{%
+ % this routine can be optimized away
+ \pgfkeysgetvalue{/pgfplots/table/comment chars}\pgfplots@loc@TMPd
+ \ifx\pgfplots@loc@TMPd\pgfutil@empty
+ \else
+ \expandafter\pgfplotsutilforeachcommasep\expandafter{\pgfplots@loc@TMPd}\as\pgfplots@loc@TMPd{%
+ \expandafter\let\expandafter\pgfplotstableread@tmpb\pgfplots@loc@TMPd
+ \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
+ \pgfplotstableread@skiplinetrue
+ \fi
}%
- }%
-}
+ \fi
+}%
+
+%--------------------------------------------------
+% \def\pgfplotstableread@checkspecial@line{%
+% \pgfutil@ifnextchar##{%
+% \pgfplotstableread@skiplinetrue
+% \pgfplotstableread@impl@gobble
+% }{%
+% \pgfutil@ifnextchar${%
+% \pgfplotstableread@process@flags@line
+% }{%
+% \pgfutil@ifnextchar\pgfplotstable@EOI{%
+% \pgfplotstableread@skiplinetrue
+% \pgfplotsscanlinecomplete% the line is empty; same as \par!
+% \pgfplotstableread@impl@gobble
+% }{%
+% \pgfutil@ifnextchar\par{%
+% \pgfplotstableread@skiplinetrue
+% \pgfplotsscanlinecomplete
+% \pgfplotstableread@impl@gobble
+% }{%
+% \pgfplotstableread@skiplinefalse
+% \pgfplotstableread@impl@gobble
+% }%
+% }%
+% }%
+% }%
+% }
+%--------------------------------------------------
\long\def\pgfplotstableread@process@flags@line$flags {%
%\pgfplots@message{Ignoring flags line ...}%
@@ -1435,7 +1525,7 @@
\else
\begingroup
\t@pgfplots@tokc={#1}%
- \pgfplotstable@error{Table '\pgfplotstableread@filename' has too much columns in line \thepgfplotstableread@lineno: Ignoring '\the\t@pgfplots@tokc'. Please verify that every cell entry is separated correctly (use braces {<cell entry>} if necessary). This error is not critical}%
+ \pgfplotstable@error{Table '\pgfplotstableread@filename' appears to have too many columns in line \thepgfplotstableread@lineno: Ignoring '\the\t@pgfplots@tokc'. PGFPlots found that the number of columns is larger than the previously determined number of columns. Please verify that every cell entry is separated correctly (use braces {<cell entry>} if necessary. Also verify that column names are plain ASCII.). This error is not critical}%
\endgroup
\fi
}
@@ -1648,17 +1738,14 @@
}%
\let\pgfplotstablecol=\relax
}%
+\let\pgfplotstableforeachcolumn@orig=\pgfplotstableforeachcolumn
+
% A variant of \pgfplotstableforeachcolumn which is used inside of
% \pgfplotstableread to listener.
%
% It is used as \pgfplotstableforeachcolumn\as\cur{<do something with \cur>}
-\long\def\pgfplotstableforeachcolumn@listener\as#1#2{%
- \def\pgfplotstablecol{0}%
- \pgfplotslistforeachungrouped\pgfplotstable@colnames@glob\as#1{%
- #2\relax%
- \pgfplotsutil@advancestringcounter\pgfplotstablecol
- }%
- \let\pgfplotstablecol=\relax
+\long\def\pgfplotstableforeachcolumn@listener#1\as#2#3{%
+ \pgfplotstableforeachcolumn@orig\pgfplotstable@colnames@glob\as{#2}{#3}%
}%
% Reports every element t_{ij} for a fixed column j (in read-only
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex
index 180ca8ce195..42499218fef 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex
@@ -17,7 +17,7 @@
% #2: for normal processing.
\def\pgfplots@ifneedspgfcompabitibilitycode#1#2{%
%\pgfkeysifdefined{/pgf/number format/sci precision/.@cmd}{#2}{#1}%
- \pgfutil@ifundefined{tikzifinpicture}{#1}{#2}%
+ \pgfutil@ifundefined{pgfmath@tonumber@notrailingzero}{#1}{#2}%
}%
\pgfplots@ifneedspgfcompabitibilitycode
@@ -45,4 +45,6 @@
}
{}%
+
+
\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex
index 12d308255bd..dad89e7c7e1 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex
@@ -2,13 +2,14 @@
% ======================================================
% compatibility with PGF 2.0
% ======================================================
+\def\pgfutil@gobble@until@relax#1\relax{}
\expandafter\ifx\csname w@pgf@writea\endcsname\relax
-\newwrite\w@pgf@writea
+\csname newwrite\endcsname\w@pgf@writea
\fi
\expandafter\ifx\csname r@pgf@reada\endcsname\relax
-\newread\r@pgf@reada
+\csname newread\endcsname\r@pgf@reada
\fi
\let\pgfutil@inputcheck=\r@pgf@reada
@@ -442,3 +443,333 @@
\global\pgf@picmaxy=-16000pt\relax%
\global\pgf@picminy=16000pt\relax%
}%
+
+% from pgfcorepathconstruct.code.tex:
+
+
+\def\pgfpatharctomaxstepsize{45}
+
+% A specialized arc operation for an arc on an (axis--parallel) ellipse.
+%
+% In contrast to \pgfpatharc, it explicitly interpolates start- and end points.
+%
+% In contrast to \pgfpatharcto, this routine is numerically stable and
+% quite fast since it relies on a lot of precomputed information.
+%
+% #1 center of ellipse
+% #2 angle of last path position inside of the ellipse
+% #3 end angle
+% #4 end point (a \pgfpoint)
+% #5 xradius
+% #6 yradius
+% #7 the ratio xradius/yradius of the ellipse
+% #8 the ratio yradius/xradius of the ellipse
+% Example:
+% \def\cx{1cm}% center x
+% \def\cy{1cm}% center y
+% \def\startangle{0}%
+% \def\endangle{45}%
+% \def\a{5cm}% xradius
+% \def\b{10cm}% yradius
+% \pgfmathparse{\a/\b}\let\abratio=\pgfmathresult
+% \pgfmathparse{\b/\a}\let\baratio=\pgfmathresult
+%
+% \pgfpathmoveto{\pgfpoint{\cx+\a*cos(\startangle)}{\cy+\b*sin(\startangle)}}%
+% \pgfpatharctoprecomputed
+% {\pgfpoint{\cx}{\cy}}
+% {\startangle}
+% {\endangle}
+% {\pgfpoint{\cx+\a*cos(\endangle)}{\cy+\b*sin(\endangle)}}%
+% {\a}
+% {\b}
+% {\abratio}
+% {\baratio}
+%
+\def\pgfpatharctoprecomputed#1#2#3#4#5#6#7#8{%
+ \begingroup
+ % Implementation idea:
+ %
+ % let
+ % m = center (#1)
+ % \gamma_0 = start angle
+ % \gamma_1 = end angle
+ % a = x radius
+ % b = y radius
+ %
+ % an axis parallel ellipse is parameterized by
+ % C(\gamma) = m + ( a cos(\gamma), b sin(\gamma) ), \gamma in [0,360].
+ %
+ % Now, consider the segment \gamma(t),
+ % \gamma:[0,1] -> [\gamma_0,\gamma_1],
+ % t -> \gamma_0 + t(\gamma_1 - \gamma_0)
+ % and
+ % C(\gamma(t)) which is defined on [0,1].
+ %
+ % I'd like to approximate the arc by one or more cubic bezier
+ % splines which interpolate through the last and first provided
+ % points.
+ %
+ % In general, a Bezier spline C:[0,1] -> \R of order n fulfills
+ % C'(0) = n ( P_1 - P_0 ),
+ % C'(1) = n ( P_n - P_{n-1} ).
+ % For n=3 and given P_0 and P_3, I can directly compute P_1 and P_2 once I know
+ % the derivatives at t=0 and t=1.
+ %
+ % The derivatives in our case are
+ % ( C \circ \gamma )'(t) = C'[\gamma(t)] * \gamma'(t)
+ % = ( -a pi/180 sin(\gamma(t)), b pi/180 cos(\gamma(t)) ) * (\gamma_1 - \gamma_0).
+ % The pi/180 comes into play since we are working with degrees.
+ %
+ % Expression (C\circ\gamma)'(0) using P_0 and (C \circ \gamma)'(1)
+ % using P_3 yields the expressions
+ % (C \circ \gamma)'(0) =
+ % pi/180 * (\gamma_1 - \gamma_0)* [ - a/b(P_0^y - my), b/a (P_0^x - mx) ]
+ % (C \circ \gamma)'(1) =
+ % pi/180 * (\gamma_1 - \gamma_0)* [ - a/b(P_3^y - my), b/a (P_3^x - mx) ]
+ %
+ % defining
+ % scaleA = a/b * pi / (3*180) * (\gamma_1 - \gamma_0)
+ % and
+ % scaleB = b/a * pi / (3*180) * (\gamma_1 - \gamma_0)
+ % yields the direct expressions for the intermediate bezier
+ % control points
+ %
+ % P_1 = [
+ % P_0^x - scaleA* ( P_0^y -my),
+ % P_0^y + scaleB* ( P_0^x -mx) ]
+ % and
+ % P_2 = [
+ % P_3^x + scaleA* ( P_3^y -my),
+ % P_3^y - scaleB* ( P_3^x -mx) ].
+ %
+ % This works fast, with few operations, if
+ % - a/b and b/a are known in advance
+ % - P_0 and P_3 are known in advance
+ % - \gamma_0 and \gamma_1 are known.
+ %
+ % It is also reliable if (\gamma_1 - \gamma_0) is small
+ %
+ \pgf@process{#1}%
+ \edef\pgfpath@center@x{\the\pgf@x}%
+ \edef\pgfpath@center@y{\the\pgf@y}%
+ \def\pgfpath@completearcend{#4}%
+ % compute scale (#3-#2) * pi/(3*180) = (#3 - #2) * pi/27 * 1/20
+ % splitting pi/(3*180) into two scales has higher TeX accuracy
+ \pgf@xa=#2pt
+ \pgf@xb=#3pt
+ \edef\pgfpath@startangle{#2pt}%
+ \edef\pgfpath@endangle{\pgf@sys@tonumber\pgf@xb}%
+ %
+ \pgf@ya=\pgf@xb
+ \advance\pgf@ya by-\pgf@xa
+ %
+ \ifx\pgfpatharctomaxstepsize\pgfutil@empty
+ \def\pgfpath@N{1}%
+ \pgf@xc=\pgf@ya
+ \else
+ \pgf@xc=\pgf@ya% compute N = floor((gamma_1 - gamma_0) / max) +1
+ \ifdim\pgf@xc<0pt
+ \multiply\pgf@xc by-1
+ \fi
+ \divide\pgf@xc by\pgfpatharctomaxstepsize\relax
+ \afterassignment\pgfutil@gobble@until@relax
+ \c@pgf@counta=\the\pgf@xc\relax
+ \advance\c@pgf@counta by1
+ \edef\pgfpath@N{\the\c@pgf@counta}%
+ %
+ \pgf@xc=\pgf@ya
+ \divide\pgf@xc by\c@pgf@counta
+ \fi
+ %
+ \edef\pgfpath@h{\pgf@sys@tonumber\pgf@xc}%
+ %
+%\message{pgfpathellipse: using N =\pgfpath@N\space spline points y0 = \pgfpath@startangle, y0+i*h, yN=\pgfpath@endangle, i=1,...,(\pgfpath@N-1), with h=\pgfpath@h\space mesh width (total arc angle \pgf@sys@tonumber\pgf@ya).}%
+ %
+ %
+ \pgf@xc=0.116355283466289\pgf@xc % pi/27
+ \divide\pgf@xc by20
+ \pgf@xa=#7\pgf@xc
+ \edef\pgfpath@scale@A{\pgf@sys@tonumber\pgf@xa}%
+ \pgf@xa=#8\pgf@xc
+ \edef\pgfpath@scale@B{\pgf@sys@tonumber\pgf@xa}%
+ %
+ % compute intermediate spline segments for
+ % i = 1,...,N-1
+ % this is a no-op for N=1.
+ \c@pgf@countd=1
+ \pgfutil@loop
+ \ifnum\c@pgf@countd<\pgfpath@N\relax
+ %
+ \pgf@xa=\pgfpath@startangle % compute \pgf@xa = y_0 + i*h
+ \pgf@xb=\pgfpath@h pt
+ \multiply\pgf@xb by\c@pgf@countd
+ \advance\pgf@xa by\pgf@xb
+ \edef\pgfpath@angle@i{\pgf@sys@tonumber\pgf@xa}%
+%\message{angle \the\c@pgf@countd: \pgfpath@angle@i...}%
+ %
+ \pgfpatharcofellipse@{%
+ \pgfpoint
+ {\pgfpath@center@x + #5*cos(\pgfpath@angle@i)}
+ {\pgfpath@center@y + #6*sin(\pgfpath@angle@i)}
+ }%
+ %
+ \advance\c@pgf@countd by1
+ \pgfutil@repeat
+ %
+ % compute final spline segment. It only differs insofar as the
+ % final point is already known explicitly and should be
+ % interpolated without additional math error.
+%\message{angle \pgfpath@N: \pgfpath@endangle...}%
+ \pgfpatharcofellipse@{\pgfpath@completearcend}%
+ \endgroup
+}%
+\def\pgfpatharcofellipse@#1{%
+ \begingroup
+ \pgf@process{#1}%
+ \edef\pgfpath@endpt{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ %
+ \pgfpathcurveto{
+ \begingroup
+ \global\pgf@x=\pgf@path@lastx
+ \global\pgf@y=\pgf@path@lasty
+ \pgf@xa=\pgf@x \advance\pgf@xa by-\pgfpath@center@x
+ \pgf@ya=\pgf@y \advance\pgf@ya by-\pgfpath@center@y
+ \global\advance\pgf@x by-\pgfpath@scale@A\pgf@ya
+ \global\advance\pgf@y by \pgfpath@scale@B\pgf@xa
+ \endgroup
+ }{%
+ \begingroup
+ \pgfpath@endpt
+ \pgf@xa=\pgf@x \advance\pgf@xa by-\pgfpath@center@x
+ \pgf@ya=\pgf@y \advance\pgf@ya by-\pgfpath@center@y
+ \global\advance\pgf@x by \pgfpath@scale@A\pgf@ya
+ \global\advance\pgf@y by-\pgfpath@scale@B\pgf@xa
+ \endgroup
+ }{%
+ \pgfpath@endpt
+ }%
+ \endgroup
+}
+
+% bugfix for pgf 2.10, pgfmathfunctions.basic.code.tex :
+%
+\newif\ifpgfmath@divide@period
+\def\pgfmathdivide@#1#2{%
+ \begingroup%
+ \pgfmath@x=#1pt\relax%
+ \pgfmath@y=#2pt\relax%
+ \let\pgfmath@sign=\pgfmath@empty%
+ \ifdim0pt=\pgfmath@y%
+ \pgfmath@error{You've asked me to divide `#1' by `#2', %
+ but I cannot divide any number by `#2'}%
+ \fi%
+ \afterassignment\pgfmath@xa%
+ \c@pgfmath@counta\the\pgfmath@y\relax%
+ \ifdim0pt=\pgfmath@xa%
+ \divide\pgfmath@x by\c@pgfmath@counta%
+ \else%
+ \ifdim0pt>\pgfmath@x%
+ \def\pgfmath@sign{-}%
+ \pgfmath@x=-\pgfmath@x%
+ \fi%
+ \ifdim0pt>\pgfmath@y%
+ \expandafter\def\expandafter\pgfmath@sign\expandafter{\pgfmath@sign-}%
+ \pgfmath@y=-\pgfmath@y%
+ \fi%
+ \ifdim1pt>\pgfmath@y%
+ \pgfmathreciprocal@{\pgfmath@tonumber{\pgfmath@y}}%
+ \pgfmath@x=\pgfmath@sign\pgfmathresult\pgfmath@x%
+ \else%
+ \def\pgfmathresult{0}%
+ \pgfmath@divide@periodtrue%
+ \c@pgfmath@counta=0\relax%
+ \pgfmathdivide@@%
+ \pgfmath@x=\pgfmath@sign\pgfmathresult pt\relax%
+ \fi%
+ \fi%
+ \pgfmath@returnone\pgfmath@x%
+ \endgroup%
+}
+\def\pgfmath@small@number{0.00002}
+\def\pgfmathdivide@@{%
+ \let\pgfmath@next=\relax%
+ \ifdim\pgfmath@small@number pt<\pgfmath@x%
+ \ifdim\pgfmath@small@number pt<\pgfmath@y%
+ \ifdim\pgfmath@y>\pgfmath@x%
+ \ifpgfmath@divide@period%
+ \expandafter\def\expandafter\pgfmathresult\expandafter{\pgfmathresult.}%
+ \pgfmath@divide@periodfalse%
+ \fi%
+ \pgfmathdivide@dimenbyten\pgfmath@y%
+ \ifdim\pgfmath@y>\pgfmath@x%
+ \expandafter\def\expandafter\pgfmathresult\expandafter{\pgfmathresult0}%
+ \fi%
+ \else%
+ \c@pgfmath@counta=\pgfmath@x%
+ \c@pgfmath@countb=\pgfmath@y%
+ \divide\c@pgfmath@counta by\c@pgfmath@countb%
+ \pgfmath@ya=\c@pgfmath@counta\pgfmath@y%
+ \advance\pgfmath@x by-\pgfmath@ya%
+ \def\pgfmath@next{%
+ \toks0=\expandafter{\pgfmathresult}%
+ \edef\pgfmathresult{\the\toks0 \the\c@pgfmath@counta}%
+ }%
+ \ifpgfmath@divide@period
+ \else
+ % we are behind the period. It may happen that the
+ % result is more than one digit - in that case,
+ % introduce special handling:
+ \ifnum\c@pgfmath@counta>9 %
+ \expandafter\pgfmathdivide@advance@last@digit\pgfmathresult CCCCC\@@
+ \advance\c@pgfmath@counta by-10 %
+ \ifnum\c@pgfmath@counta=0
+ \let\pgfmath@next=\relax
+ \fi
+ \fi
+ \fi
+ \pgfmath@next
+ \fi%
+ \let\pgfmath@next=\pgfmathdivide@@%
+ \fi%
+ \fi%
+ \pgfmath@next%
+}
+
+% advances the last digit found in the number. Any missing digits are
+% supposed to be filled with 'C'.
+\def\pgfmathdivide@advance@last@digit#1.#2#3#4#5#6#7\@@{%
+ \pgfmath@ya=\pgfmathresult pt %
+ \if#2C%
+ \pgfmath@xa=1pt %
+ \else
+ \if#3C%
+ \pgfmath@xa=0.1pt %
+ \else
+ \if#4C%
+ \pgfmath@xa=0.01pt %
+ \else
+ \if#5C%
+ \pgfmath@xa=0.001pt %
+ \else
+ \if#6C%
+ \pgfmath@xa=0.0001pt %
+ \else
+ \pgfmath@xa=0.00001pt %
+ \fi
+ \fi
+ \fi
+ \fi
+ \fi
+ \advance\pgfmath@ya by\pgfmath@xa
+ \edef\pgfmathresult{\pgfmath@tonumber@notrailingzero\pgfmath@ya}%
+}%
+
+{
+\catcode`\p=12
+\catcode`\t=12
+\gdef\Pgf@geT@NO@TRAILING@ZERO#1.#2pt{%
+ #1.%
+ \ifnum#2=0 \else #2\fi
+}
+}
+\def\pgfmath@tonumber@notrailingzero#1{\expandafter\Pgf@geT@NO@TRAILING@ZERO\the#1}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreexternal.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreexternal.code.tex
index 8f769db849b..5b9be1a3087 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreexternal.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreexternal.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -27,16 +27,30 @@
%
% See the file doc/generic/pgf/licenses/LICENSE for more details.
-\ProvidesFileRCS $Header: /cvsroot/pgf/pgf/generic/pgf/basiclayer/pgfcoreexternal.code.tex,v 1.9 2010/07/14 19:32:13 ludewich Exp $
+\ProvidesFileRCS $Header: /cvsroot/pgf/pgf/generic/pgf/basiclayer/pgfcoreexternal.code.tex,v 1.17 2010/09/01 08:56:40 ludewich Exp $
\newif\ifpgfexternal@aux@in@dpth
+\newif\ifpgfexternal@info
\pgfkeys{
- /pgf/images/include external/.code={\pgfimage{#1}},
- /pgf/images/aux in dpth/.is if=pgfexternal@aux@in@dpth,
- /pgf/images/aux in dpth/.default=true
+ /pgf/images/include external/.code={\pgfimage{#1}},
+ /pgf/images/aux in dpth/.is if=pgfexternal@aux@in@dpth,
+ /pgf/images/aux in dpth/.default=true,
+ /pgf/images/trim external/.code n args={4}{%
+ \def\pgf@external@kern@left{#1}%
+ \def\pgf@external@kern@bottom{#2}%
+ \def\pgf@external@kern@right{#3}%
+ \def\pgf@external@kern@top{#4}%
+ \ifx\pgf@external@kern@left\pgfutil@empty\def\pgf@external@kern@left{0sp}\fi%
+ \ifx\pgf@external@kern@bottom\pgfutil@empty\def\pgf@external@kern@bottom{0sp}\fi%
+ \ifx\pgf@external@kern@right\pgfutil@empty\def\pgf@external@kern@right{0sp}\fi%
+ \ifx\pgf@external@kern@top\pgfutil@empty\def\pgf@external@kern@top{0sp}\fi%
+ },
+ /pgf/images/trim external={1truein}{1truein}{1truein}{1truein},
+ /pgf/images/external info/.is if=pgfexternal@info,
+ /pgf/images/external info/.default=true,
}
% The external read/write mechanism is used as follows:
@@ -103,68 +117,68 @@
\ifx\pgf@tempa\pgf@tempb%
\else%
\pgf@external@grabshipouttrue%
- \pgfexternal@nofiles% see also \pgf@external@init@aux@in@dpth
- \ifpgfexternalreadmainaux
- % and reset the jobname. This should allow to handle any
- % \label/\ref constructions which are stored in \jobname.aux (and
- % which won't be found otherwise)
- \gdef\jobname{#1}%
- \fi
- \ifpgfexternal@aux@in@dpth
- \csname newwrite\endcsname\w@pgfexternal@auxout
- \fi
+ \pgfexternal@nofiles% see also \pgf@external@init@aux@in@dpth
+ \ifpgfexternalreadmainaux
+ % and reset the jobname. This should allow to handle any
+ % \label/\ref constructions which are stored in \jobname.aux (and
+ % which won't be found otherwise)
+ \gdef\jobname{#1}%
+ \fi
+ \ifpgfexternal@aux@in@dpth
+ \csname newwrite\endcsname\w@pgfexternal@auxout
+ \fi
\fi%
\gdef\pgfrealjobname##1{}% avoid multiple calls.
}
\def\pgfexternal@nofiles{%
- % replace \relax. The \nofiles macros does
- % \let\makeglossary=\relax
- % but the glossary.sty calls \renewcommand\makeglossary (which
- % will fail if \makeglossary=\relax). Stupid, but it works.
- \let\pgfexternal@nofiles@=\relax
- \def\relax{\relax}%
- %
- % suppress generation of LaTeX .aux, .toc etc files.
- % generation of these files is not thread-safe.
- % the \csname \endcsname yields \relax if \nofiles doesn't exist.
- \csname nofiles\endcsname
- %
- \let\relax=\pgfexternal@nofiles@
+ % replace \relax. The \nofiles macros does
+ % \let\makeglossary=\relax
+ % but the glossary.sty calls \renewcommand\makeglossary (which
+ % will fail if \makeglossary=\relax). Stupid, but it works.
+ \let\pgfexternal@nofiles@=\relax
+ \def\relax{\relax}%
+ %
+ % suppress generation of LaTeX .aux, .toc etc files.
+ % generation of these files is not thread-safe.
+ % the \csname \endcsname yields \relax if \nofiles doesn't exist.
+ \csname nofiles\endcsname
+ %
+ \let\relax=\pgfexternal@nofiles@
}%
\newif\ifpgf@external@grabshipout
\newbox\pgfexternal@startupbox
\pgfutil@ifundefined{AtBeginDocument}{}{%
- \AtBeginDocument{%
- \ifpgf@external@grabshipout%
- \global\let\pgfexternal@originalshipout=\shipout%
- \global\def\shipout{\setbox\pgfpic=}%
- \maxdeadcycles=10000%
- % Ok, gather everything we have seen up to now in a box. This box
- % will contain any specials that have been used.
- {%
- \output{\global\setbox\pgfexternal@startupbox=\vbox{\csname @begindvi\endcsname\unvbox255}}%
- \hbox{}\eject%
- }%
- \fi%
- }
+ \AtBeginDocument{%
+ \ifpgf@external@grabshipout%
+ \global\let\pgfexternal@originalshipout=\shipout%
+ \global\def\shipout{\setbox\pgfpic=}%
+ \maxdeadcycles=10000%
+ % Ok, gather everything we have seen up to now in a box. This box
+ % will contain any specials that have been used.
+ {%
+ \output{\global\setbox\pgfexternal@startupbox=\vbox{\csname @begindvi\endcsname\unvbox255}}%
+ \hbox{}\eject%
+ }%
+ \fi%
+ }
}%
\pgfutil@ifundefined{AtEndDocument}{}{%
- \AtEndDocument{%
- \ifpgf@external@grabshipout
- \pgfutil@ifundefined{pgfexternal@did@a@shipout}{%
- \pgfexternal@error@no@shipout
- }{}%
- \fi
- }%
+ \AtEndDocument{%
+ \ifpgf@external@grabshipout
+ \pgfutil@ifundefined{pgfexternal@did@a@shipout}{%
+ \pgfexternal@error@no@shipout
+ }{}%
+ \fi
+ }%
}
% This will be overwritten by the tikz external lib if it is loaded.
\def\pgfexternal@error@no@shipout{%
- \PackageError{pgf}{Sorry, image externalization failed: the resulting image was EMPTY. I tried to externalize '\pgfactualjobname'. Perhaps there was a typo somewhere? Please check that your document contains '\string\beginpgfgraphicnamed{\pgfactualjobname} ... \string\endpgfgraphicnamed'}%
+ \PackageError{pgf}{Sorry, image externalization failed: the resulting image was EMPTY. I tried to externalize '\pgfactualjobname'. Perhaps there was a typo somewhere? Please check that your document contains '\string\beginpgfgraphicnamed{\pgfactualjobname} ... \string\endpgfgraphicnamed'}%
}%
@@ -215,7 +229,7 @@
}
\long\def\pgf@replacepicturebygraphic#1\endpgfgraphicnamed{%
- \expandafter\pgfincludeexternalgraphics\expandafter{\pgf@filename}\unskip
+ \expandafter\pgfincludeexternalgraphics\expandafter{\pgf@filename}\unskip
}
% This is almost the same as \includegraphics{#1}, but it checks
@@ -226,22 +240,22 @@
% collected for the external graphics (references). They start after
% the first line (if any).
\def\pgfincludeexternalgraphics#1{%
- \begingroup
- \pgfexternalreaddpth{#1}%
- \pgfkeysifdefined{/pgf/images/include external/#1/.@cmd}{%
- \pgfkeysgetvalue{/pgf/images/include external/#1/.@cmd}\pgf@tempa
- \pgfkeysgetlet{/pgf/images/include external/.@cmd}\pgf@tempa
- }{}%
- \setbox1=\hbox{\pgfkeysvalueof{/pgf/images/include external/.@cmd}{#1}\pgfeov}%
- \ifdim\pgfexternaltrimleft=0sp \else \kern\pgfexternaltrimleft\relax \fi
- \ifdim\pgfexternaldepth=0pt
- \box1
- \else
- \dimen0=\pgfexternaldepth\relax
- \hbox{\lower\dimen0 \box1 }%
- \fi
- \ifdim\pgfexternaltrimright=0sp \else \kern\pgfexternaltrimright\relax \fi
- \endgroup
+ \begingroup
+ \pgfexternalreaddpth{#1}%
+ \pgfkeysifdefined{/pgf/images/include external/#1/.@cmd}{%
+ \pgfkeysgetvalue{/pgf/images/include external/#1/.@cmd}\pgf@tempa
+ \pgfkeyslet{/pgf/images/include external/.@cmd}\pgf@tempa
+ }{}%
+ \setbox1=\hbox{\pgfkeysvalueof{/pgf/images/include external/.@cmd}{#1}\pgfeov}%
+ \ifdim\pgfexternaltrimleft=0sp \else \kern\pgfexternaltrimleft\relax \fi
+ \ifdim\pgfexternaldepth=0pt
+ \box1
+ \else
+ \dimen0=\pgfexternaldepth\relax
+ \hbox{\lower\dimen0 \box1 }%
+ \fi
+ \ifdim\pgfexternaltrimright=0sp \else \kern\pgfexternaltrimright\relax \fi
+ \endgroup
}
% Defines \pgfexternaldepth to be the depth of the external picture
@@ -252,81 +266,88 @@
% .dpth file (it appends it to the main aux file).
%
\def\pgfexternalreaddpth#1{%
- % no \begingroup. Handle that manually:
- \edef\pgfexternalreaddpth@restore{%
- \noexpand\endlinechar=\the\endlinechar\space
- \noexpand\catcode`\noexpand\@=\the\catcode`\@\space
- }%
- %
- \def\pgfexternaldepth{0sp}%
- \def\pgfexternaltrimleft{0sp}%
- \def\pgfexternaltrimright{0sp}%
- \endlinechar=-1 % suppress white space at end
- \catcode`\@=11
- \openin\r@pgf@reada=#1.dpth
- \pgfincludeexternalgraphics@read@dpth
- %
- \pgfexternalreaddpth@restore
+ % no \begingroup. Handle that manually:
+ \edef\pgfexternalreaddpth@restore{%
+ \noexpand\endlinechar=\the\endlinechar\space
+ \noexpand\catcode`\noexpand\@=\the\catcode`\@\space
+ }%
+ %
+ \def\pgfexternaldepth{0sp}%
+ \def\pgfexternaltrimleft{0sp}%
+ \def\pgfexternaltrimright{0sp}%
+ \endlinechar=-1 % suppress white space at end
+ \catcode`\@=11
+ \openin\r@pgf@reada=#1.dpth
+ \pgfincludeexternalgraphics@read@dpth
+ %
+ \pgfexternalreaddpth@restore
}%
%
% The .dpth consists of 0-N lines, where each is either a single
% dimension (the box' depth) or something which belongs to the .aux
% file (such lines will always start with a macro).
\def\pgfincludeexternalgraphics@read@dpth{%
- \ifeof\r@pgf@reada
- \closein\r@pgf@reada
- \else
- \read\r@pgf@reada to\pgfincludeexternalgraphics@auxline
- \ifx\pgfincludeexternalgraphics@auxline\pgfutil@empty
- \else
- \expandafter\pgfincludeexternalgraphics@read@dpth@line\pgfincludeexternalgraphics@auxline\pgfincludeexternalgraphics@read@dpth@line@EOI
- \fi
- \expandafter\pgfincludeexternalgraphics@read@dpth
- \fi
+ \ifeof\r@pgf@reada
+ \closein\r@pgf@reada
+ \else
+ \read\r@pgf@reada to\pgfincludeexternalgraphics@auxline
+ \ifx\pgfincludeexternalgraphics@auxline\pgfutil@empty
+ \else
+ \expandafter\pgfincludeexternalgraphics@read@dpth@line\pgfincludeexternalgraphics@auxline\pgfincludeexternalgraphics@read@dpth@line@EOI
+ \fi
+ \expandafter\pgfincludeexternalgraphics@read@dpth
+ \fi
}%
-\def\pgfexternal@restore#1{}%
-
-\long\def\pgfincludeexternalgraphics@read@dpth@line#1#2\pgfincludeexternalgraphics@read@dpth@line@EOI{%
- \ifcat\noexpand#1\relax
- % Ah -- the first token is a control sequence. It belongs to
- % the .aux file.
- %
- \ifx#1\pgfexternal@restore
- #2%
- \else
- % do NOT execute #1#2! many LaTeX commands don't support it (\label for example)
- \pgfutil@ifundefined{if@filesw}{%
- % sorry, .aux file support only for latex
- }{%
- % append to main .aux file (for forward references)
- \if@filesw
- {%
- \toks0={#1#2}%
- % believe it or not, but the
- % \def\dpthimport{...}\dpthimport *makes* a
- % difference! In ensures any occuring `##' characters are properly expanded to `#'.
- \immediate\write\@auxout{\noexpand\def\noexpand\dpthimport{\the\toks0 }\noexpand\dpthimport }%
- }%
- \fi
- }%
- \fi
- \else% it is the depth (which is simply a number for backwards compatibility)
- \def\pgfexternaldepth{#1#2}%
- \fi
+\def\pgfexternal@restore#1{#1}%
+
+\long\def\pgfincludeexternalgraphics@read@dpth@line@getfirst#1#2\pgfincludeexternalgraphics@read@dpth@line@EOI{%
+ \def\pgf@first{#1}%
+}%
+\long\def\pgfincludeexternalgraphics@read@dpth@line#1\pgfincludeexternalgraphics@read@dpth@line@EOI{%
+ \pgfincludeexternalgraphics@read@dpth@line@getfirst#1\pgfincludeexternalgraphics@read@dpth@line@EOI
+ \expandafter\ifcat\expandafter\noexpand\pgf@first\relax
+ % Ah -- the first token is a control sequence. It belongs to
+ % the .aux file.
+ %
+ \expandafter\ifx\pgf@first\pgfexternal@restore
+ #1%
+ \else
+ % do NOT execute #1! many LaTeX commands don't support it (\label for example)
+ \pgfutil@ifundefined{if@filesw}{%
+ % sorry, .aux file support only for latex
+ }{%
+ % append to main .aux file (for forward references)
+ \if@filesw
+ {%
+ \toks0={#1}%
+ % believe it or not, but the
+ % \def\dpthimport{...}\dpthimport *makes* a
+ % difference! In ensures any occuring `##' characters are properly expanded to `#'.
+ \immediate\write\@auxout{%
+ \noexpand\def\noexpand\dpthimport{\the\toks0}\noexpand\dpthimport}%
+ }%
+ \fi
+ }%
+ \fi
+ \else% it is the depth (which is simply a number for backwards compatibility)
+ \def\pgfexternaldepth{#1}%
+ \fi
}%
-% Stores '#1' into (expanded!) into the .dpth file of the currently
+% Stores '#1' (expanded!) into the .dpth file of the currently
% exported image.
%
-% Just before the image is included into the main document, '#1' will be
-% invoked.
-%
% This command has only an effect if an image is being exported.
+%
+% The stored contents will be read in the context where
+% /pgf/images/include external is active (i.e. by
+% \pgfexternalreaddpth).
+%
\def\pgfexternalstorecommand#1{%
}%
\def\pgfexternalstorecommand@isexporting#1{%
- \immediate\write\w@pgfexternal@auxout{\noexpand\pgfexternal@restore{#1}}%
+ \immediate\write\w@pgfexternal@auxout{\noexpand\pgfexternal@restore{#1}}%
}%
@@ -337,10 +358,10 @@
% this method is also invoked from within the tikz external library.
\def\pgf@external@grab#1{%
\def\pgf@filename{#1}%
- \ifpgfexternal@aux@in@dpth
- \begingroup
- \pgf@external@init@aux@in@dpth
- \let\G@refundefinedtrue=\pgf@external@grab@refundefinedtrue
+ \ifpgfexternal@aux@in@dpth
+ \begingroup
+ \pgf@external@init@aux@in@dpth
+ \let\G@refundefinedtrue=\pgf@external@grab@refundefinedtrue
\fi
\gdef\pgf@trimleft@final{0sp}%
\gdef\pgf@trimright@final{0sp}%
@@ -353,99 +374,115 @@
\expandafter\let\expandafter\pgf@external@grab@refundefinedtrue@orig\csname G@refundefinedtrue\endcsname
\def\pgf@external@grab@refundefinedtrue{%
- \pgf@external@grab@refundefinedtrue@orig
- \begingroup
- \def\n{\pgfexternal@hat\pgfexternal@hat J}%
- \pgfexternalstorecommand{%
- \noexpand\immediate\noexpand\write16{\pgf@external@grab@refundefinedtrue@warning}%
- \noexpand\G@refundefinedtrue
- }%
- \endgroup
+ \pgf@external@grab@refundefinedtrue@orig
+ \begingroup
+ \def\n{\pgfexternal@hat\pgfexternal@hat J}%
+ \pgfexternalstorecommand{%
+ \noexpand\immediate\noexpand\write16{\pgf@external@grab@refundefinedtrue@warning}%
+ \noexpand\G@refundefinedtrue
+ }%
+ \endgroup
}%
\def\pgf@external@grab@refundefinedtrue@warning{%
- LaTeX Warning: External picture `\pgfactualjobname' contains undefined references\noexpand\on@line.\n
+ LaTeX Warning: External picture `\pgfactualjobname' contains undefined references\noexpand\on@line.\n
}%
\let\pgf@external@@protected@write@orig=\protected@write
\long\def\pgf@external@@protected@write@immediate#1#2#3{%
- \begingroup
- \let\pgf@write@=\write
- \def\write{\noexpand\immediate\pgf@write@}%
- \pgf@external@@protected@write@orig{#1}{#2}{#3}%
- \endgroup
+ \begingroup
+ \let\pgf@write@=\write
+ \def\write{\noexpand\immediate\pgf@write@}%
+ \pgf@external@@protected@write@orig{#1}{#2}{#3}%
+ \endgroup
}%
\def\pgf@external@init@aux@in@dpth{%
- \let\pgfexternalstorecommand=\pgfexternalstorecommand@isexporting
- %
- % tell LaTeX to write aux files...
- \csname @fileswtrue\endcsname
- % ... but redirect output to the .dpth file!
- \immediate\openout\w@pgfexternal@auxout=\pgf@filename.dpth
- \let\@auxout=\w@pgfexternal@auxout
- % ... and disable the correct page numbers. I can't get that
- % (because the correct page number is only available in the
- % shipout routine). Use immediate output:
- \let\protected@write=\pgf@external@@protected@write@immediate
+ \let\pgfexternalstorecommand=\pgfexternalstorecommand@isexporting
+ %
+ % tell LaTeX to write aux files...
+ \csname @fileswtrue\endcsname
+ % ... but redirect output to the .dpth file!
+ \immediate\openout\w@pgfexternal@auxout=\pgf@filename.dpth
+ \let\@auxout=\w@pgfexternal@auxout
+ % ... and disable the correct page numbers. I can't get that
+ % (because the correct page number is only available in the
+ % shipout routine). Use immediate output:
+ \let\protected@write=\pgf@external@@protected@write@immediate
}%
\def\pgf@externalend@storeshifts#1{%
- \immediate\write#1{\the\dp\pgfpic}%
- \ifx\pgf@trimleft@final\pgfutil@empty\else
- \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternaltrimleft{\pgf@trimleft@final}}}%
- \fi
- \ifx\pgf@trimright@final\pgfutil@empty\else
- \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternaltrimright{\pgf@trimright@final}}}%
- \fi
+ \immediate\write#1{\the\dp\pgfpic}% store the depth simply as number for backw. compat.
+ \ifx\pgf@trimleft@final\pgfutil@empty\else
+ \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternaltrimleft{\pgf@trimleft@final}}}%
+ \fi
+ \ifx\pgf@trimright@final\pgfutil@empty\else
+ \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternaltrimright{\pgf@trimright@final}}}%
+ \fi
+ \ifpgfexternal@info
+ \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternalwidth{\the\wd\pgfpic}}}%
+ \immediate\write#1{\noexpand\pgfexternal@restore{\noexpand\def\noexpand\pgfexternalheight{\the\dimen0}}}%
+ \fi
}
% REMARK:
% this method is also invoked from within the tikz external library.
\def\pgf@externalend{%
\unskip\egroup\egroup%
{%
- \def\pgf@external@trim{0}%
- \def\pgf@external@store@dpth{0}%
- %
- \ifdim\pgf@trimleft@final=0sp \gdef\pgf@trimleft@final{} \else\def\pgf@external@trim{1}\fi
- \ifdim\pgf@trimright@final=0sp \gdef\pgf@trimright@final{} \else\def\pgf@external@trim{1}\fi
- \if1\pgf@external@trim
- % UNDO the trimming! export to pdf doesn't supported trimmed
- % bounding boxes (has to do with the mediabox/trimbox etc).
- % I'll keep the bounding box intact and store the trim information
- % into the .dpth file.
- \setbox\pgfpic=\hbox{%
- \ifx\pgf@trimleft@final\pgfutil@empty\else\kern-\pgf@trimleft@final\fi
- \box\pgfpic
- \ifx\pgf@trimright@final\pgfutil@empty\else\kern-\pgf@trimright@final\fi
- }%
- \def\pgf@external@store@dpth{1}%
- \fi
- %
+ \def\pgf@external@trim{0}%
+ \def\pgf@external@store@dpth{0}%
+ %
+ \ifpgf@trim@lowlevel
+ \gdef\pgf@trimleft@final{}%
+ \gdef\pgf@trimright@final{}%
+ \else
+ \ifdim\pgf@trimleft@final=0sp \gdef\pgf@trimleft@final{} \else\def\pgf@external@trim{1}\fi
+ \ifdim\pgf@trimright@final=0sp \gdef\pgf@trimright@final{} \else\def\pgf@external@trim{1}\fi
+ \if1\pgf@external@trim
+ % UNDO the trimming! export to pdf doesn't supported trimmed
+ % bounding boxes (has to do with the mediabox/trimbox etc).
+ % I'll keep the bounding box intact and store the trim information
+ % into the .dpth file.
+ \setbox\pgfpic=\hbox{%
+ \ifx\pgf@trimleft@final\pgfutil@empty\else\kern-\pgf@trimleft@final\fi
+ \box\pgfpic
+ \ifx\pgf@trimright@final\pgfutil@empty\else\kern-\pgf@trimright@final\fi
+ }%
+ \def\pgf@external@store@dpth{1}%
+ \fi
+ \fi
+ %
\parindent0pt % leave the space
% \leftmargin0pt%
% \rightmargin0pt%
+ \hoffset=0pt % reset to default
+ \voffset=0pt
\dimen0\ht\pgfpic%
\advance\dimen0\dp\pgfpic%
- \ifdim\dp\pgfpic=0pt\relax
- \else% store the picture's depth. Otherwise, it would be lost.
- \def\pgf@external@store@dpth{1}%
- \fi
- %
- \if1\pgf@external@store@dpth
- \ifpgfexternal@aux@in@dpth
- \pgf@externalend@storeshifts\@auxout
- \immediate\closeout\@auxout
- \else
- \immediate\openout\pgf@plotwrite=\pgf@filename.dpth
- \pgf@externalend@storeshifts\pgf@plotwrite
- \immediate\closeout\pgf@plotwrite
- \fi
- \fi
+ \ifdim\dp\pgfpic=0pt\relax
+ \else% store the picture's depth. Otherwise, it would be lost.
+ \def\pgf@external@store@dpth{1}%
+ \fi
+ \ifpgfexternal@info
+ \def\pgf@external@store@dpth{1}%
+ \fi
+ %
+ \if1\pgf@external@store@dpth
+ \ifpgfexternal@aux@in@dpth
+ \pgf@externalend@storeshifts\@auxout
+ \immediate\closeout\@auxout
+ \else
+ \immediate\openout\pgf@plotwrite=\pgf@filename.dpth
+ \pgf@externalend@storeshifts\pgf@plotwrite
+ \immediate\closeout\pgf@plotwrite
+ \fi
+ \fi
\pgfsys@papersize{\the\wd\pgfpic}{\the\dimen0}%
+ %
\setbox0=\vbox{%
- \kern -1truein %
+ % I admit that I don't know why there is this kerning:
+ \kern -\pgf@external@kern@top\relax%
\hbox{%
- \kern -1truein %
+ \kern -\pgf@external@kern@left\relax%
\hbox to0pt{%
\wd\pgfexternal@startupbox=0pt %
\ht\pgfexternal@startupbox=0pt %
@@ -453,29 +490,32 @@
\box\pgfexternal@startupbox%
\pgfsys@atbegindocument\hss}%
\box\pgfpic%
- \kern 1truein }%
- \kern1truein }%
- %
- % compatibility with eso-pic package: \nointerlineskip is not
- % allowed here, but the eso-pic package uses \nointerlineskip in
- % its shipout routine.
- \let\pgfexternal@nointerlineskip@orig=\nointerlineskip
- \let\nointerlineskip=\pgfexternal@nointerlineskip
- %
+ \kern\pgf@external@kern@right\relax%
+ }%
+ \kern\pgf@external@kern@bottom\relax%
+ }%
+ %
+ % compatibility with eso-pic package: \nointerlineskip is not
+ % allowed here, but the eso-pic package uses \nointerlineskip in
+ % its shipout routine.
+ \let\pgfexternal@nointerlineskip@orig=\nointerlineskip
+ \let\nointerlineskip=\pgfexternal@nointerlineskip
+ %
\pgfexternal@originalshipout\box0 %
- \gdef\pgfexternal@did@a@shipout{1}%
+ \gdef\pgfexternal@did@a@shipout{1}%
}%
\ifpgfexternal@aux@in@dpth
- \endgroup
+ \endgroup
\fi
}
\def\pgfexternal@nointerlineskip{%
- \ifvmode
- \pgfexternal@nointerlineskip@orig
- \else
- \relax% \nointerlineskip in horizontal mode not allowed. Silently ignore the error message.
- \fi
+ \ifvmode
+ \pgfexternal@nointerlineskip@orig
+ \else
+ \relax% \nointerlineskip in horizontal mode not allowed. Silently ignore the error message.
+ \fi
}%
\endinput
+% vi: tabstop=4 shiftwidth=2 expandtab
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeys.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeys.code.tex
index a1410e84a0f..59688c15a67 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeys.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeys.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -773,6 +773,7 @@
\pgfkeys{/handlers/.style args/.code 2 args=\pgfkeys{\pgfkeyscurrentpath/.code args={#1}{\pgfkeysalso{#2}}}}
\pgfkeys{/handlers/.estyle args/.code 2 args=\pgfkeys{\pgfkeyscurrentpath/.ecode args={#1}{\noexpand\pgfkeysalso{#2}}}}
\pgfkeys{/handlers/.style 2 args/.code=\pgfkeys{\pgfkeyscurrentpath/.code 2 args=\pgfkeysalso{#1}}}
+\pgfkeys{/handlers/.style n args/.code 2 args=\pgfkeys{\pgfkeyscurrentpath/.code n args={#1}{\pgfkeysalso{#2}}}}
% Adding to a style
@@ -924,7 +925,7 @@
\pgfkeys{/handlers/.expand twice/.code=\expandafter\expandafter\expandafter\pgfkeys@exp@call\expandafter\expandafter\expandafter{#1}}
\pgfkeys{/handlers/.expanded/.code=\edef\pgfkeys@temp{#1}\expandafter\pgfkeys@exp@call\expandafter{\pgfkeys@temp}}
-\def\pgfkeys@exp@call#1{\pgfkeysalso{\pgfkeyscurrentpath={#1}}}
+\long\def\pgfkeys@exp@call#1{\pgfkeysalso{\pgfkeyscurrentpath={#1}}}
% Try to set a key and do nothing if not define
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeysfiltered.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeysfiltered.code.tex
index 82fb11cd2e9..0094344d89b 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeysfiltered.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfkeysfiltered.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex
index 39c273655bf..c08f7dee2fe 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -750,7 +750,7 @@
% 100 <= m < 1000
% instead of 1 <= m < 10.
%
-% The 'extended precision' means we have higher accuracy when we apply pgfmath operations to mantisses.
+% The 'extended precision' means we have higher accuracy when we apply pgfmath operations to mantissas.
%
% The input argument is expected to be a normalized floating point number; the output argument is a non-normalized floating point number (well, normalized to extended precision).
%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryplothandlers.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryplothandlers.code.tex
index 054598b052e..1cb2e67de17 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryplothandlers.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryplothandlers.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.code.tex
index 79d03962283..cabffe11ba6 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.pdflinks.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.pdflinks.code.tex
index 366a3212cba..380a696a1df 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.pdflinks.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.pdflinks.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -143,6 +143,11 @@
/pdflinks/internal link prefix/.initial=pgf,
}
+\begingroup
+ \catcode`\_=12
+ \gdef\pgfmanualpdf@underscore{_}%
+\endgroup
+
\gdef\pgfmanualpdf@installreplacements{%
\def\marg##1{{##1}}%
\def\oarg##1{[##1]}%
@@ -156,6 +161,7 @@
\def\printanat{@}%
\def\protect{}%
\def\textasciicircum{o}%
+ \def\_{\pgfmanualpdf@underscore}%
\expandafter\edef\pgfmanual@verb@activebar{\pgfmanual@verb@bar}%
}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex
index dc5c3867277..b6ca2c4e2e0 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex
index b8d956b6054..6ef0b8f63ff 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -54,6 +54,13 @@
% can be changed with options.
\def\pgfmathfloat@round@precision{2}
+% I introduced this to acces the "original" precision in case a
+% formatted changes it locally... in this case, the formatter may
+% overwrite \pgfmathfloat@round@precision@orig to provide the original
+% one.
+% The default implementation here does nothing:
+\def\pgfmathfloat@round@precision@orig{\pgfmathfloat@round@precision}%
+
\gdef\pgfmathfloat@glob@TMP{}
@@ -63,7 +70,7 @@
% meaning
% [+-]X.XXXXXXX*10^C
% where
-% X.XXXXXX is a mantisse with first number != 0, C is an integer and
+% X.XXXXXX is a mantissa with first number != 0, C is an integer and
% FLAGS contains the sign and some other special cases.
%
% This method does NOT use TeX Registers to represent the numbers! The
@@ -124,13 +131,13 @@
\let\pgfmathfloatqparsenumber=\pgfmathfloatparsenumber
% Takes a floating point number #1 as input and writes flags to count
-% register #2, mantisse to dimen register #3 and exponent to count
+% register #2, mantissa to dimen register #3 and exponent to count
% register #4.
\def\pgfmathfloattoregisters#1#2#3#4{%
\expandafter\pgfmathfloat@decompose#1\relax{#2}{#3}{#4}%
}
-% the same, but writes the mantisse into a token register.
+% the same, but writes the mantissa into a token register.
\def\pgfmathfloattoregisterstok#1#2#3#4{%
\expandafter\pgfmathfloat@decompose@tok#1\relax{#2}{#3}{#4}%
}
@@ -144,14 +151,16 @@
\expandafter\pgfmathfloat@decompose@Fmacro#1\relax{#2}%
}%
-% Extracts the mantisse of #1 into the dimen register #2.
-\def\pgfmathfloatgetmantisse#1#2{%
+% Extracts the mantissa of #1 into the dimen register #2.
+\def\pgfmathfloatgetmantissa#1#2{%
\expandafter\pgfmathfloat@decompose@M#1\relax{#2}%
}
-% Extracts the mantisse of #1 into the token register #2.
-\def\pgfmathfloatgetmantissetok#1#2{%
+\let\pgfmathfloatgetmantisse=\pgfmathfloatgetmantissa
+% Extracts the mantissa of #1 into the token register #2.
+\def\pgfmathfloatgetmantissatok#1#2{%
\expandafter\pgfmathfloat@decompose@Mtok#1\relax{#2}%
}
+\let\pgfmathfloatgetmantissetok=\pgfmathfloatgetmantissatok
% Extracts the exponent of #1 into the count register #2.
\def\pgfmathfloatgetexponent#1#2{%
\expandafter\pgfmathfloat@decompose@E#1\relax{#2}%
@@ -189,14 +198,14 @@
% decomposes a lowlevel floating point representation into flags,
-% mantisse and exponent.
+% mantissa and exponent.
%
% #4: integer register for the flags.
-% #5: dimen registers for the mantisse.
+% #5: dimen registers for the mantissa.
% #6: integer register for the exponent.
%
% \expandafter\pgfmathfloat@decompose\pgfmathresult\relax\pgfmathfloat@a@S\pgfmathfloat@a@M\pgfmathfloat@a@E
-% -> the three temp registers contain flags, mantisse and exponent
+% -> the three temp registers contain flags, mantissa and exponent
\def\pgfmathfloat@decompose#1#2{% sanitize!
\ifx#2Y%
\expandafter\pgfmathfloat@decompose@%
@@ -211,11 +220,11 @@
#6=#3\relax%
}
-% overloaded, #5 needs to be a token register for the mantisse.
+% overloaded, #5 needs to be a token register for the mantissa.
% @see also \pgfmathfloatvalueof which does also employ the load
% level repr.
% \expandafter\pgfmathfloat@decompose@tok\pgfmathresult\relax\pgfmathfloat@a@S\pgfmathfloat@a@Mtok\pgfmathfloat@a@E
-% -> the three temp registers contain flags, mantisse and exponent
+% -> the three temp registers contain flags, mantissa and exponent
\def\pgfmathfloat@decompose@tok#1#2{%
\ifx#2Y%
\expandafter\pgfmathfloat@decompose@tok@%
@@ -329,7 +338,7 @@
\pgfmathfloat@decompose@TMP
}%
% Takes a floating point number #1 as input and writes flags to macro
-% #2, mantisse to macro #3 and exponent to macro #4.
+% #2, mantissa to macro #3 and exponent to macro #4.
\def\pgfmathfloattomacro#1#2#3#4{%
\begingroup
\expandafter\pgfmathfloat@decompose@tok#1\relax\pgfmathfloat@a@S\pgfmathfloat@a@Mtok\pgfmathfloat@a@E
@@ -344,7 +353,7 @@
% Defines \pgfmathresult as the floating point number encoded by
-% the flags #1, mantisse #2 and exponent #3.
+% the flags #1, mantissa #2 and exponent #3.
%
% All arguments are characters and will be expanded using '\edef'.
\def\pgfmathfloatcreate#1#2#3{%
@@ -490,7 +499,7 @@
\pgfkeysgetvalue{/pgf/number format/set decimal separator}\pgfmathprintnumber@fixed@styleDEFAULT@DEC@SEP
\pgfkeysgetvalue{/pgf/number format/@dec sep mark}\pgfmathprintnumber@fixed@styleDEFAULT@DEC@SEP@MARK
\pgfkeysgetvalue{/pgf/number format/set thousands separator}\pgfmathprintnumber@fixed@styleDEFAULT@THOUSAND@SEP
- \c@pgf@counta=#4\relax
+ \c@pgf@counta=#4\relax % it is the exponent here.
\ifnum#2=0
\c@pgf@counta=0
\fi
@@ -529,20 +538,30 @@
\else
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod#1\pgfmathfloat@EOI\pgfmathfloat@EOI\pgfmathfloat@EOI
\fi
+ \ifpgfmathprintnumber@thousand@sep@in@fractional
+ \let\pgfmathresultfractional\pgfutil@empty%
+ \pgfmathprintnumber@thousand@sep@in@fractional#2MMMM\@@
+ \else
+ \def\pgfmathresultfractional{#2}%
+ \fi
\begingroup
\toks0=\expandafter{\pgfmathresult}%
\toks1=\expandafter{\pgfmathprintnumber@fixed@styleDEFAULT@DEC@SEP@MARK}%
- \toks2=\expandafter{\pgfmathprintnumber@fixed@styleDEFAULT@DEC@SEP #2}%
- \xdef\pgfmathfloat@glob@TMP{\the\toks0 \the\toks1 \the\toks2 }%
+ \toks2=\expandafter{\pgfmathprintnumber@fixed@styleDEFAULT@DEC@SEP}%
+ \toks3=\expandafter{\pgfmathresultfractional}%
+ \xdef\pgfmathfloat@glob@TMP{\the\toks0 \the\toks1 \the\toks2 \the\toks3 }%
\endgroup
\let\pgfmathresult=\pgfmathfloat@glob@TMP
}%
+
+% assigns \pgfmathresult such that it contains the formatted result.
+% It assumes that none of the following tokens contains a period.
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod{%
\ifx\pgfmathprintnumber@fixed@styleDEFAULT@THOUSAND@SEP\pgfutil@empty
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT{%
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@printall}%
\else
- \ifnum\c@pgf@counta<0\relax
+ \ifnum\c@pgf@counta<0\relax % exponent of the number in this context
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT{%
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@printall}%
\else
@@ -579,7 +598,7 @@
\fi
\fi
\fi
- \ifnum\c@pgf@counta>0
+ \ifnum\c@pgf@counta>0 % \c@pgf@counta = N MOD 3 in this context
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT{%
\expandafter\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@printtrailingdigits\pgfmathfloat@loc@TMPb
}%
@@ -591,7 +610,8 @@
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT
}
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@printtrailingdigits#1#2{%
- \ifcase\c@pgf@counta
+ \ifcase\c@pgf@counta % = N MOD 3 in this context
+ % does not happen per construction
\or
\expandafter\def\expandafter\pgfmathresult\expandafter{\pgfmathresult #1}%
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT{%
@@ -603,7 +623,7 @@
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@counteverythird%
}%
\fi
- \ifnum\c@pgf@countb>0\relax
+ \ifnum\c@pgf@countb>0\relax % \c@pgf@countb = N DIV 3 in this context
\begingroup
\toks0=\expandafter{\pgfmathresult}%
\toks1=\expandafter{\pgfmathprintnumber@fixed@styleDEFAULT@THOUSAND@SEP}%
@@ -643,6 +663,32 @@
\fi
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT
}
+
+% \pgfmathprintnumber@thousand@sep@in@fractional 01234525MMMM\@@
+% ->
+% 012<sep>345<sep>25
+\def\pgfmathprintnumber@thousand@sep@in@fractional#1#2#3#4{%
+ \if#4M%
+ % Ok, no further separator
+ \def\pgfmathprint@next{\pgfmathprintnumber@thousand@sep@in@fractional@finish#1#2#3#4}%
+ \else
+ \begingroup
+ \toks0=\expandafter{\pgfmathresultfractional}%
+ \toks1={#1#2#3}%
+ \toks2=\expandafter{\pgfmathprintnumber@fixed@styleDEFAULT@THOUSAND@SEP}%
+ \xdef\pgfmathfloat@glob@TMP{\the\toks0 \the\toks1 \the\toks2 }%
+ \endgroup
+ \let\pgfmathresultfractional=\pgfmathfloat@glob@TMP
+ \def\pgfmathprint@next{\pgfmathprintnumber@thousand@sep@in@fractional#4}%
+ \fi
+ \pgfmathprint@next
+}%
+\def\pgfmathprintnumber@thousand@sep@in@fractional@finish#1M{%
+ \expandafter\def\expandafter\pgfmathresultfractional\expandafter{\pgfmathresultfractional #1}%
+ \pgfmathprintnumber@thousand@sep@in@fractional@finish@
+}%
+\def\pgfmathprintnumber@thousand@sep@in@fractional@finish@#1\@@{}%
+
\def\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@printall#1{%
\def\pgfmathfloat@loc@TMPb{#1}%
\let\pgfmathfloat@loc@TMPc=\pgfutil@empty
@@ -680,7 +726,7 @@
% The default style to display fixed point numbers.
%
-% It does not apply numerics, but it is responsable to typeset the
+% It does not apply numerics, but it is responsable for typesetting the
% rounded number.
% It can access the \ifpgfmathfloatroundhasperiod boolean.
%
@@ -699,12 +745,12 @@
% Rounds a normalized floating point number to \pgfmathfloat@round@precision
% digits precision and writes the result to \pgfmathresult.
%
-% This method uses \pgfmathroundto for the mantisse.
+% This method uses \pgfmathroundto for the mantissa.
%
% @see pgfmathfloatroundzerofill
%
% SIDE EFFECT: the global variable \ifpgfmathfloatroundhasperiod will be set to
-% whether the final mantisse #5 has a period or not.
+% whether the final mantissa #5 has a period or not.
\def\pgfmathfloatround#1{%
\pgfmathfloatroundhasperiodtrue
\begingroup
@@ -717,13 +763,13 @@
% Overload.
%
-% This method uses a fixed width for the mantisse and fills in zeros
+% This method uses a fixed width for the mantissa and fills in zeros
% if necessary.
%
-% This method uses \pgfmathroundtozerofill for the mantisse.
+% This method uses \pgfmathroundtozerofill for the mantissa.
%
% SIDE EFFECT: the global variable \ifpgfmathfloatroundhasperiod will be set to
-% whether the final mantisse #5 has a period or not.
+% whether the final mantissa #5 has a period or not.
\def\pgfmathfloatroundzerofill#1{%
\pgfmathfloatroundhasperiodtrue
\begingroup
@@ -734,16 +780,16 @@
\endgroup
}
-\newif\ifpgfmathfloatround@allow@empty@mantisse
-\def\pgfmathfloatround@mantisse@ONE{1.0}%
+\newif\ifpgfmathfloatround@allow@empty@mantissa
+\def\pgfmathfloatround@mantissa@ONE{1.0}%
% #1: sign
-% #2: mantisse
+% #2: mantissa
% #3: exponent
-% #4: CODE to display if the mantisse is drawn.
+% #4: CODE to display if the mantissa is drawn.
% This code will be shown just before the exponent.
% Example: #4=\cdot
-% #5: CODE to display if the mantisse is NOT draw. (unused currently)
+% #5: CODE to display if the mantissa is NOT draw. (unused currently)
% Might be used to display '10^1' instead of '1*10^1'.
% #6: CODE to display the exponent.
\def\pgfmathfloatrounddisplaystyle@shared@impl#1#2e#3\relax#4#5#6{%
@@ -828,11 +874,11 @@
\def\pgfmathfloatrounddisplaystyle@generic#1#2e#3\relax{%
\begingroup
\pgfkeysvalueof {/pgf/number format/sci generic/@/.@cmd}{#3}{#1}{#2}\pgfeov
- \pgfkeysgetvalue{/pgf/number format/sci generic/mantisse sep}\pgfmathdisplay@aftermantisse
- \pgfkeysgetvalue{/pgf/number format/sci generic/empty mantisse sep}\pgfmathdisplay@nomantisse
+ \pgfkeysgetvalue{/pgf/number format/sci generic/mantissa sep}\pgfmathdisplay@aftermantissa
+ \pgfkeysgetvalue{/pgf/number format/sci generic/empty mantissa sep}\pgfmathdisplay@nomantissa
\pgfkeysgetvalue{/pgf/number format/sci generic/exponent}\pgfmathdisplay@e
- \toks0=\expandafter{\pgfmathdisplay@aftermantisse}%
- \toks1=\expandafter{\pgfmathdisplay@nomantisse}%
+ \toks0=\expandafter{\pgfmathdisplay@aftermantissa}%
+ \toks1=\expandafter{\pgfmathdisplay@nomantissa}%
\toks2=\expandafter{\pgfmathdisplay@e}%
\xdef\pgfmathfloat@glob@TMP{\noexpand\pgfmathfloatrounddisplaystyle@shared@impl#1#2e#3\noexpand\relax{\the\toks0}{\the\toks1}{\the\toks2}}%
\endgroup
@@ -845,7 +891,7 @@
%
% PRECONDITION:
% the floating point number has already been rounded properly and
-% the mantisse has been rounded correcty.
+% the mantissa has been rounded correcty.
%
% The argument needs to be in the format returned by
% \pgfmathfloat@to@FMeE@style and terminated by '\relax'.
@@ -859,6 +905,7 @@
\long\def\pgfmathfloatfrac@verbatim#1#2{#1/#2}%
+\newif\ifpgfmathprintnumber@thousand@sep@in@fractional
\pgfkeys{%
/pgf/number format/.is family,
/pgf/number format,
@@ -866,6 +913,10 @@
sci/.code= \pgfmath@set@number@printer{pgfmathprintnumber@SCI},
std/.code= {\pgfmath@set@number@printer{pgfmathprintnumber@STD}\pgfmathprintnumber@STD@setparam{#1}},
std/.default=,%
+ % relative={<exponent base 10>}
+ relative/.code= {\pgfmath@set@number@printer{pgfmathprintnumber@RELATIVE}\def\pgfmathprintnumber@RELATIVE@param{#1}},%
+ relative/.value required,
+ every relative/.style=std,
int detect/.code= \pgfmath@set@number@printer{pgfmathprintnumber@INT@DETECT},
int trunc/.code= \pgfmath@set@number@printer{pgfmathprintnumber@INT@TRUNC},
frac/.code= \pgfmath@set@number@printer{pgfmathprintnumber@frac},%
@@ -902,6 +953,8 @@
@dec sep mark/.initial=,
@sci exponent mark/.initial=,
set thousands separator/.initial=,
+ 1000 sep in fractionals/.is if=pgfmathprintnumber@thousand@sep@in@fractional,
+ 1000 sep in fractionals/.default=true,
1000 sep/.style={/pgf/number format/set thousands separator=#1},
min exponent for 1000 sep/.initial=0,
use period/.style= {/pgf/number format/set decimal separator={.},/pgf/number format/set thousands separator={{{,}}}},
@@ -926,13 +979,15 @@
{##1##2##3}%
{\pgfqkeys{/pgf/number format/sci generic}{#1}}%
},
- sci generic/mantisse sep/.initial=,%
- sci generic/empty mantisse sep/.initial=,%
+ sci generic/mantissa sep/.initial=,%
+ sci generic/empty mantissa sep/.initial=,%
+ sci generic/mantisse sep/.style={/pgf/number format/sci generic/mantissa sep={#1}},%
+ sci generic/empty mantisse sep/.style={/pgf/number format/sci generic/empty mantissa sep={#1}},%
sci generic/exponent/.initial=,%
sci generic/.value required,
verbatim/.code={%
\pgfqkeys{/pgf/number format}{%
- sci generic={mantisse sep=,exponent={e##1}},
+ sci generic={mantissa sep=,exponent={e##1}},
1000 sep=,
skip 0.=false,
print sign=false,
@@ -944,8 +999,8 @@
@sci exponent mark=,
}%
},
-% sci may skip mantisse/.is if=pgfmathfloatround@allow@empty@mantisse,
-% sci may skip mantisse/.default=true,
+% sci may skip mantissa/.is if=pgfmathfloatround@allow@empty@mantissa,
+% sci may skip mantissa/.default=true,
}
@@ -962,7 +1017,7 @@
\ifx\pgfmathfloat@loc@TMPb\pgfutil@empty
% DEFAULT for lower and upper bound.
\def\pgfmathprintnumber@STD@getlowerbound{%
- \c@pgf@counta=\pgfmathfloat@round@precision\relax
+ \c@pgf@counta=\pgfmathfloat@round@precision@orig\relax
\divide\c@pgf@counta by-2\relax
}%
\def\pgfmathprintnumber@STD@upperbound{4}%
@@ -1008,6 +1063,55 @@
\fi
}
+\def\pgfmathprintnumber@RELATIVE#1{%
+ % parse the input:
+ \pgfmathfloatparsenumber{#1}%
+ \pgfmathfloat@to@FMeE@style\pgfmathresult
+ \expandafter\pgfmathprintnumber@RELATIVE@issci\pgfmathresult\relax
+}
+
+\def\pgfmathprintnumber@RELATIVE@issci#1#2e#3\relax{%
+ \begingroup
+ % format X / 10^{relative}:
+ \c@pgf@counta=#3\relax
+ \advance\c@pgf@counta by-\pgfmathprintnumber@RELATIVE@param\relax
+ \pgfmathfloatcreate{#1}{#2}{\the\c@pgf@counta}%
+ % OK, round it to the desired precision:
+ \ifnum\c@pgf@counta>0
+ % hm. for positive exponents, we should round the
+ % mantissa rather than only the fractional part.
+ \expandafter\pgfmathfloatround\expandafter{\pgfmathresult}%
+ \else
+ % negative exponent -> round fixed representation:
+ \pgfmathfloattofixed\pgfmathresult
+ \expandafter\pgfmathroundto\expandafter{\pgfmathresult}%
+ \pgfmathfloatparsenumber{\pgfmathresult}%
+ \pgfmathfloatroundhasperiodtrue% make sure the code below works:
+ \fi
+ % Now, compute result * 10^{relative} and format the result:
+ \pgfmathfloattoregisterstok\pgfmathresult\pgfmathfloat@a@S\pgfmathfloat@a@Mtok\pgfmathfloat@a@E
+ \ifnum\pgfmathfloat@a@S=0
+ \pgfmathfloat@a@E=\pgfmathfloat@a@S % avoid 0 * 10^8
+ \else
+ \advance\pgfmathfloat@a@E by+\pgfmathprintnumber@RELATIVE@param\relax
+ \fi
+ \edef\pgfmathresultX{%
+ \the\pgfmathfloat@a@S
+ \the\pgfmathfloat@a@Mtok
+ \ifpgfmathfloatroundhasperiod\else.0\fi
+ e\the\pgfmathfloat@a@E}%
+ % call another formatter for the result (but avoid rounding inside of it):
+ \pgfqkeys{/pgf/number format}{/pgf/number format/every relative}%
+ \ifx\pgfmathprintnumber@issci\pgfmathprintnumber@RELATIVE@issci
+ \pgfmath@error{The '/pgf/number format/every relative' style should set a valid display style}%
+ \fi
+ \let\pgfmathfloat@round@precision@orig=\pgfmathfloat@round@precision
+ \def\pgfmathfloat@round@precision{9999}%
+ \expandafter\pgfmathprintnumber@issci\pgfmathresultX\relax%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+}
+
\def\pgfmathprintnumber@frac#1{%
% parse the input:
\pgfmathfloatparsenumber{#1}%
@@ -1106,8 +1210,8 @@
\fi
%
\def\pgfmathfloat@loc@TMPa##1.##2\relax{%
- \def\pgfmathfloat@mantisse@first{##1}%
- \def\pgfmathfloat@mantisse@ltone{0.##2}%
+ \def\pgfmathfloat@mantissa@first{##1}%
+ \def\pgfmathfloat@mantissa@ltone{0.##2}%
}%
\expandafter\pgfmathfloat@loc@TMPa\the\pgfmathfloat@a@Mtok\relax
%
@@ -1126,7 +1230,7 @@
\ifx\pgfmath@target@denominator\pgfutil@empty
%
\pgfmathfloat@a@E=-\pgfmathfloat@a@E
- \ifdim\pgfmathfloat@mantisse@ltone pt=0pt
+ \ifdim\pgfmathfloat@mantissa@ltone pt=0pt
\def\pgfmathfloat@factor{1}%
\edef\pgfmathfloat@scaled@numerator{\the\pgfmathfloat@a@Mtok}%
\else
@@ -1135,14 +1239,14 @@
% The errors of 1/r are magnified by 10^k which
% doesn't work.
\pgfutil@ifundefined{FPdiv}{%
- \pgfmathfloatparsenumber{\pgfmathfloat@mantisse@ltone}%
+ \pgfmathfloatparsenumber{\pgfmathfloat@mantissa@ltone}%
\pgfmathfloatreciprocal@{\pgfmathresult}%
}{%
% \usepackage{fp}.
% yields higher absolute precision.
\FPmessagesfalse%
\FPdebugfalse%
- \FPdiv\pgfmathresult{1}{\pgfmathfloat@mantisse@ltone}%
+ \FPdiv\pgfmathresult{1}{\pgfmathfloat@mantissa@ltone}%
\pgfmathfloatparsenumber{\pgfmathresult}%
}%
\let\pgfmathfloat@inv=\pgfmathresult
@@ -1519,7 +1623,7 @@
%
% Let 'k' be the desired precision.
%
-% Please note that pgfmathroundto rounds the mantisse, that means |abs(x)|.
+% Please note that pgfmathroundto rounds the mantissa, that means |abs(x)|.
%
% There are exactly TWO cases:
% 1. The case with p<=k and x_{-p-1} = end of input.
@@ -1864,7 +1968,7 @@
%--------------------------------------------
-% flags, mantisse and exponent has already been stored into
+% flags, mantissa and exponent has already been stored into
% \pgfmathfloat@a@* [using ...@Mtok]
%
% PRECONDITION:
@@ -1895,7 +1999,7 @@
-% ATTENTION: this thing REQUIRES a period in the mantisse!
+% ATTENTION: this thing REQUIRES a period in the mantissa!
% collects everything into \pgfmathresult
\def\pgfmathfloattofixed@impl#1.#2\relax{%
\ifnum\pgfmathfloat@a@E<0
@@ -1942,7 +2046,7 @@
% \edef\pgfmathresult{#1.#2}%
% \else
% \pgfmathfloat@a@Mtok={#1}%
- % \pgfmathfloattofixed@impl@collectmantisse#2\count\pgfmathfloat@a@E
+ % \pgfmathfloattofixed@impl@collectmantissa#2\count\pgfmathfloat@a@E
% \edef\pgfmathresult{\the\pgfmathfloat@a@Mtok}%
% \fi
%--------------------------------------------------
@@ -1976,11 +2080,11 @@
\else%>=9
\pgfmathfloat@a@Mtok\expandafter{\the\pgfmathfloat@a@Mtok #1#2#3#4#5#6#7#8}%
\advance\pgfmathfloat@a@E by-8
- \pgfmathfloattofixed@impl@collectmantisse#9\count\pgfmathfloat@a@E
+ \pgfmathfloattofixed@impl@collectmantissa#9\count\pgfmathfloat@a@E
\fi
}%
-\def\pgfmathfloattofixed@impl@collectmantisse#1#2\count#3{%
+\def\pgfmathfloattofixed@impl@collectmantissa#1#2\count#3{%
\pgfmathfloat@a@Mtok=\expandafter{\the\pgfmathfloat@a@Mtok #1}%
\advance\pgfmathfloat@a@E by-1%
\def\pgfmathfloat@loc@TMPb{#2}%
@@ -1995,7 +2099,7 @@
\ifnum\pgfmathfloat@a@E=0
\pgfmathfloat@a@Mtok=\expandafter{\the\pgfmathfloat@a@Mtok .#2}%
\else
- \pgfmathfloattofixed@impl@collectmantisse#2\count#3%
+ \pgfmathfloattofixed@impl@collectmantissa#2\count#3%
\fi
\fi
}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathparse.opt.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathparse.opt.code.tex
deleted file mode 100644
index e74d47c814e..00000000000
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathparse.opt.code.tex
+++ /dev/null
@@ -1,122 +0,0 @@
-% A small optimization package which provides
-%
-% \beginpgfmathparsecheckfornumber
-% ...
-% \endpgfmathparsecheckfornumber
-%
-% in order to optimize \pgfmathparse. It works as follows: inside of
-% the environment (which doesn't use scopes), \pgfmathparse is
-% *replaced* by a different method which uses an extremely fast check
-% to decide whether the input is a number number. Is so, it returns
-% the number. Otherwise, it invokes the standard math parser.
-% It is about 400% faster than \pgfmathparse if the argument *is* a
-% number.
-%
-% The \endpgfmathparsecheckfornumber is optional (no groups are
-% introduced)
-%
-% Copyright 2010 by Christian Feuersänger.
-%
-% Replaces \pgfmathparse by the fast number checker.
-\def\beginpgfmathparsecheckfornumber{%
- \let\pgfmathparse=\pgfmathparsehashedcheck
-}%
-\def\endpgfmathparsecheckfornumber{%
- \let\pgfmathparse=\pgfmathparsehashedcheck@orig
-}%
-
-\def\pgfmp@EOI{\pgfmp@EOI}%
-\def\pgfmathparsehashedcheck@isnumber@gobble#1\pgfmp@EOI{}
-
-\newdimen\r@pgfmathparse@hashedcheck@
-\newcount\c@pgfmathparse@hashedcheck@
-\let\pgfmathparsehashedcheck@orig=\pgfmathparse
-
-\def\pgfmathparsehashedcheck#1{%
- \edef\pgfmathparse@temp{#1}%
- \expandafter\pgfmathparsehashedcheck@isnumber@loop\pgfmathparse@temp\pgfmp@EOI
- \pgfmathparsehashedcheck@finalize{#1}%
-}%
-\def\pgfmathparsehashedcheck@finalize@isnonumber#1{%
- \pgfmathparsehashedcheck@orig{#1}%
- \let\pgfmathparsehashedcheck@finalize\pgfmathparsehashedcheck@finalize@isnumber
-}%
-\def\pgfmathparsehashedcheck@finalize@isnumber#1{%
- \r@pgfmathparse@hashedcheck@=#1pt
- \expandafter\pgfmathparsehashed@assign\the\r@pgfmathparse@hashedcheck@
- %--------------------------------------------------
- % %
- % \let\KKK=\pgfmathresult
- % \pgfmathparsehashedcheck@orig{#1}%
- % \ifx\KKK\pgfmathresult
- % \else
- % \pgfplots@error{FAILED FOR #1: expected `\pgfmathresult'; got `\KKK' (temp = \pgf@temp)}%
- % \fi
- %--------------------------------------------------
-}%
-{\catcode`\p=12\catcode`\t=12\gdef\PGF@TEMP{pt}}
-\expandafter\def\expandafter\pgfmathparsehashed@assign\expandafter#\expandafter1\expandafter.\expandafter#\expandafter2\PGF@TEMP{%
- \def\pgf@temp{#2}%
- \ifx\pgf@temp0%
- \def\pgfmathresult{#1}%
- \else
- \def\pgfmathresult{#1.#2}%
- \fi
-}%
-\let\pgfmathparsehashedcheck@finalize\pgfmathparsehashedcheck@finalize@isnumber
-
-\expandafter\def\csname pgf@pp+\endcsname{1}
-\expandafter\def\csname pgf@pp-\endcsname{1}
-\expandafter\def\csname pgf@p0\endcsname{1}
-\expandafter\def\csname pgf@p1\endcsname{1}
-\expandafter\def\csname pgf@p2\endcsname{1}
-\expandafter\def\csname pgf@p3\endcsname{1}
-\expandafter\def\csname pgf@p4\endcsname{1}
-\expandafter\def\csname pgf@p5\endcsname{1}
-\expandafter\def\csname pgf@p6\endcsname{1}
-\expandafter\def\csname pgf@p7\endcsname{1}
-\expandafter\def\csname pgf@p8\endcsname{1}
-\expandafter\def\csname pgf@p9\endcsname{1}
-\expandafter\def\csname pgf@p.\endcsname{1}
-
-\pgfutil@ifundefined{ifcsname}{%
- \def\pgfmathparsehashedcheck@isnumber@loop#1{%
- \expandafter\ifx\csname pgf@pp\string#1\endcsname\relax
- \expandafter\pgfmathparsehashedcheck@isnumber@loop
- \else
- \expandafter\pgfmathparsehashedcheck@isnumber@loop@\expandafter#1%
- \fi
- }%
- \def\pgfmathparsehashedcheck@isnumber@loop@#1{%
- \expandafter\ifx\csname pgf@p\string#1\endcsname\relax
- \expandafter\pgfmathparsehashedcheck@isnumber@loop@
- \else
- \expandafter\pgfmathparsehashedcheck@isnumber@endfalse\expandafter#1%
- \fi
- }%
-}{%
- \def\pgfmathparsehashedcheck@isnumber@loop#1{%
- \ifcsname pgf@pp\string#1\endcsname
- \expandafter\pgfmathparsehashedcheck@isnumber@loop
- \else
- \expandafter\pgfmathparsehashedcheck@isnumber@loop@\expandafter#1%
- \fi
- }%
- \def\pgfmathparsehashedcheck@isnumber@loop@#1{%
- \ifcsname pgf@p\string#1\endcsname
- \expandafter\pgfmathparsehashedcheck@isnumber@loop@
- \else
- \expandafter\pgfmathparsehashedcheck@isnumber@endfalse\expandafter#1%
- \fi
- }%
-}%
-\def\pgfmathparsehashedcheck@isnumber@endfalse#1{%
- \ifx#1\pgfmp@EOI
- \else
- \let\pgfmathparsehashedcheck@finalize=\pgfmathparsehashedcheck@finalize@isnonumber
- \expandafter\pgfmathparsehashedcheck@isnumber@gobble
- \fi
-}%
-
-
-\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty
index 9025de703be..7dc97116753 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex
index 757439ed17f..2d7a81b2bf5 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
@@ -46,7 +46,6 @@
\toksdef\t@tikzexternal@tmpa=0
\toksdef\t@tikzexternal@tmpb=1
-\newwrite\tikzexternal@outfile
\newif\iftikzexternal@nestedflag
\newif\iftikzexternal@verboseio
\newif\iftikzexternal@genfigurelist
@@ -132,6 +131,9 @@
\pgfqkeys{/tikz/external}{
figure list/.is if=tikzexternal@genfigurelist,
aux in dpth/.style={/pgf/images/aux in dpth=#1},%
+ disable dependency files/.code={%
+ \let\tikzexternalfiledependsonfile@ACTIVE=\tikzexternalfiledependsonfile
+ },
% 'mode' applies only if \jobname==real job name.
mode/.is choice,
mode/only graphics/.code = {%
@@ -175,7 +177,7 @@
shell escape/.initial=-shell-escape,
read main aux/.is if=pgfexternalreadmainaux,
image discarded text/.initial={%
- [[ {\sc Image Discarded Due To} {\tt`/tikz/external/%
+ [[ \textsc{Image Discarded Due To} \texttt{`/tikz/external/%
\ifcase\tikzexternal@opmode\relax
mode=only graphics%
\or
@@ -215,6 +217,7 @@
\tikzexternal@optimize@RESTORE
},%
optimize=true,
+ optimize away text/.code={[ \textsc{\string#1\ optimized away because it does not contribute to exported PDF}]},
optimize/install/.code={},%
optimize/restore/.code={},%
% Expects two arguments, the command name and (optionally) a count
@@ -332,7 +335,7 @@
\tikzexternalenable
\def\tikzexternal@determineimgextension##1:##2\relax{\gdef\tikzexternalimgextension{##1}}%
\xdef\pgf@tempa{\pgfsys@imagesuffixlist}%
- \expandafter\tikzexternal@determineimgextension\pgf@tempa\relax
+ \expandafter\tikzexternal@determineimgextension\pgf@tempa:\relax
\pgfutil@ifundefined{includegraphics}{%
\let\tikzexternal@orig@includegraphics=\relax
}{%
@@ -344,6 +347,14 @@
}
\def\tikzexternalize@hasbeencalled{0}%
+\def\tikzifexternalizehasbeencalled#1#2{%
+ \if1\tikzexternalize@hasbeencalled
+ #1%
+ \else
+ #2%
+ \fi
+}%
+
% If mode=`convert with system call', the boolean \ifpgfexternalreadmainaux
% will be set depending on the current lock file.
%
@@ -459,27 +470,40 @@
\else
\ifx#1\@EOI
\else
- \expandafter\let\csname tikzexternalauxlock@handleref@orig@\string#1\endcsname=#1%
- \def#1{\tikzexternalauxlock@handleref@repl{#1}}%
+ {%
+ % strip the leading '\'
+ % this allows proper \protect ion when you write
+ % \caption{...\cite{..}} and #1=\cite
+ \escapechar=-1
+ \xdef\pgf@temp{\string#1}%
+ }%
+ \expandafter\let\csname tikzexternalauxlock@handleref@orig@\pgf@temp\endcsname=#1%
+ \edef#1{\noexpand\pgf@texdist@protect\noexpand\tikzexternalauxlock@handleref@repl{\pgf@temp}}%
\expandafter\expandafter\expandafter\tikzexternalauxlock@handleref@loop
\fi
\fi
}%
\def\tikzexternalauxlock@handleref@repl#1{\pgfutil@ifnextchar[{\tikzexternalauxlock@handleref@repl@{#1}}{\tikzexternalauxlock@handleref@repl@{#1}[]}}%
\def\tikzexternalauxlock@handleref@repl@#1[#2]#3{%
- \csname tikzexternalauxlock@handleref@orig@\string#1\endcsname{#3}%
- \begingroup
- \def\n{\pgfexternal@hat\pgfexternal@hat J}%
- \tikzexternal@assemble@systemcall{\pgfactualjobname}{\pgf@tempa}%
- \def\space{\noexpand\space}%
- \pgfexternalstorecommand{%
- \noexpand\begingroup
- \noexpand\toks0={\pgf@tempa}%
- \noexpand\immediate\noexpand\write16{\tikzexternalauxlock@handleref@warning{#3}{\noexpand\the\noexpand\toks0}}%
- \noexpand\G@refundefinedtrue
- \noexpand\endgroup
+ \tikzifexternalizingcurrent{%
+ % note that '#1' is NO control sequence! it is a protected string
+ \csname tikzexternalauxlock@handleref@orig@#1\endcsname{#3}%
+ \begingroup
+ \def\n{\pgfexternal@hat\pgfexternal@hat J}%
+ \tikzexternal@assemble@systemcall{\pgfactualjobname}{\pgf@tempa}%
+ \def\space{\noexpand\space}%
+ \pgfexternalstorecommand{%
+ \noexpand\begingroup
+ \noexpand\toks0={\pgf@tempa}%
+ \noexpand\immediate\noexpand\write16{\tikzexternalauxlock@handleref@warning{#3}{\noexpand\the\noexpand\toks0}}%
+ \noexpand\G@refundefinedtrue
+ \noexpand\endgroup
+ }%
+ \endgroup
+ }{%
+ % ok. We are not externalizing this part of the document.
+ % Throw the citation away without further notice.
}%
- \endgroup
}%
\def\tikzexternalauxlock@handleref@warning#1#2{%
\n
@@ -798,6 +822,11 @@
\else
\pgfutil@ifundefined{tikzexternal@listmode@openedfile}{%
\message{Opening '\tikzexternal@realjob.figlist' for writing.}%
+ \begingroup
+ \globaldefs=1
+ % this gets round '\outer\newwrite' in plain TeX:
+ \csname newwrite\endcsname\tikzexternal@outfile
+ \endgroup
\immediate\openout\tikzexternal@outfile=\tikzexternal@realjob.figlist\relax
\gdef\tikzexternal@listmode@openedfile{1}%
\if\tikzexternal@opmode5% mode='list and make'
@@ -818,6 +847,9 @@
\def\tikzexternal@list@and@make@gentarget#1{%
\tikzexternal@assemble@systemcall{#1}{\pgf@tempa}%
+ \def\tikzexternal@tempb{\pgfutilstrreplace{^^J}{^^J\tikzexternal@TABchar}}%
+ \expandafter\tikzexternal@tempb\expandafter{\pgf@tempa}%
+ \let\pgf@tempa=\pgfretval
\iftikzexternal@verboseio
\immediate\write16{Writing '#1' to '\tikzexternal@realjob.makefile'.}%
\fi
@@ -862,6 +894,7 @@
\def\tikzexternalmakefiledefaultdeprule{%
\immediate\write\tikzexternal@outmakefile{\tikzexternal@PERCENTchar.\tikzexternaldepext:}%
+ \immediate\write\tikzexternal@outmakefile{\tikzexternal@TABchar mkdir -p $(dir $@)}%
\immediate\write\tikzexternal@outmakefile{\tikzexternal@TABchar touch $@ \tikzexternal@HASHchar\space will be filled later.}%
}%
@@ -1056,7 +1089,9 @@
\iftikzexternal@verbose@optimize
\immediate\write16{The command '\the\toks0' has been optimized away. Use '/tikz/external/optimize=false' to disable this.}%
\fi
- [ {\sc \string#1\ optimized away because it does not contribute to exported PDF}]%
+ \endgroup
+ \begingroup
+ \pgfkeysvalueof{/tikz/external/optimize away text/.@cmd}#1\pgfeov%
\endgroup
}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzlibraryexternal.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzlibraryexternal.code.tex
index 42056506818..badd22fd89d 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzlibraryexternal.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzlibraryexternal.code.tex
@@ -14,7 +14,7 @@
%%% - nested \input commands have been updated
%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Do 5. Aug 20:33:50 CEST 2010 %%%
+%%% Date of this copy: Sa 30. Apr 21:00:37 CEST 2011 %%%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
index 14e4d2e9c3d..bca33bab29e 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
@@ -33,6 +33,7 @@
\input pgfplotsutil.code.tex
\input pgfplotscolormap.code.tex
\input pgfplotsstackedplots.code.tex
+\input pgfplotsplothandlers.code.tex
\input pgfplotscoordprocessing.code.tex
\input pgfplotsticks.code.tex
@@ -47,12 +48,12 @@
\newif\ifpgfplots@has@label@information
\newif\ifpgfplots@yislinear
\newif\ifpgfplots@zislinear
-\newif\ifpgfplots@axis@equal
-\newif\ifpgfplots@axis@equal@image
+\newif\ifpgfplots@unit@vector@rescale@keep@size
\newif\ifpgfplots@reverse@legend
\newif\ifpgfplots@transpose@legend
\newif\ifpgfplots@allow@reversal@of@rel@axis@cs
\newif\ifpgfplots@scanline@verbose
+\newif\ifpgfplots@plot@graphics@autoadjustaxis
\newcount\pgfplots@numplots
\newdimen\pgfplots@xmin@reg
\newdimen\pgfplots@xmax@reg
@@ -109,6 +110,7 @@
\newif\ifpgfplots@stacked@plus
\newif\ifpgfplots@plot@file@skipfirst
\newif\ifpgfplots@threedim
+\newif\ifpgfplots@curplot@threedim
\newif\ifpgfplotsthreedim
\newif\ifpgfplots@curplot@isirrelevant
\newif\ifpgfplots@colorbar
@@ -116,6 +118,8 @@
\newif\ifpgfplots@translategnuplot
\pgfplots@translategnuplottrue
\let\pgfnodepartimagebox=\pgfnodeparttextbox
+\newif\ifpgfplotsplothandlermesh@internaldepth
+\newif\ifpgfplotsplothandlermesh@hide@refined@edges
\newif\ifpgfplots@collect@firstplot@astick
\newif\ifpgfplots@units@use
@@ -127,6 +131,8 @@
\def\axisdefaultwidth{240pt}
\def\axisdefaultheight{207pt}
+\def\pgfplotsifaxisthreedim#1#2{\ifpgfplots@threedim #1\else #2\fi}%
+\def\pgfplotsifcurplotthreedim#1#2{\ifpgfplots@curplot@threedim #1\else #2\fi}%
% Invokes '#2' if a cycle list named '#1' exists and '#3' if not.
\long\def\pgfplotsifcyclelistexists#1#2#3{%
@@ -167,19 +173,34 @@
red,densely dashed,every mark/.append style={solid,fill=red!80!black},mark=diamond*\\%
}
\pgfplotscreateplotcyclelist{linestyles}{solid,dashed,dotted}
+\pgfplotscreateplotcyclelist{linestyles*}{solid,dashed,dotted,dashdotted,dashdotdotted}
\pgfplotscreateplotcyclelist{color list}{red,blue,black,yellow,brown,teal,orange,violet,cyan,green!70!black,magenta,gray}
\pgfplotscreateplotcyclelist{mark list}{%
- every mark/.append style={fill=.!80!black},mark=*\\%
- every mark/.append style={fill=.!80!black},mark=square*\\%
- every mark/.append style={fill=.!80!black},mark=triangle*\\%
- mark=star\\%
- every mark/.append style={fill=.!80!black},mark=diamond*\\%
- every mark/.append style={fill=.!80!black},mark=otimes*\\%
- mark=|\\%
- every mark/.append style={fill=.!80!black},mark=pentagon*\\%
- mark=text,text mark=p\\%
- mark=text,text mark=a\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=square*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=triangle*\\%
+ every mark/.append style={solid},mark=star\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=diamond*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill!40},mark=otimes*\\%
+ every mark/.append style={solid},mark=|\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=pentagon*\\%
+ every mark/.append style={solid},mark=text,text mark=p\\%
+ every mark/.append style={solid},mark=text,text mark=a\\%
+}
+\pgfplotscreateplotcyclelist{mark list*}{%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=square*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=triangle*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=halfsquare*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=pentagon*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=halfcircle*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill,rotate=180},mark=halfdiamond*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill!40},mark=otimes*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=diamond*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=halfsquare right*\\%
+ every mark/.append style={solid,fill=\pgfplots@mark@list@fill},mark=halfsquare left*\\%
}
+\def\pgfplots@mark@list@fill{\pgfkeysvalueof{/pgfplots/mark list fill}}
\pgfplotscreateplotcyclelist{exotic}{%
teal,every mark/.append style={fill=teal!80!black},mark=*\\%
orange,every mark/.append style={fill=orange!80!black},mark=square*\\%
@@ -200,8 +221,6 @@
\pgfplots@letcsname{pgfp@cyclist@\string\coloredplotspeclist @}={pgfp@cyclist@color@}%
%%%%
-\def\pgfplotsset#{\pgfqkeys{/pgfplots}}
-
\def\pgfplotsdeprecatedstylecheck#1{%
\pgfkeysifdefined{#1/.@cmd}{%
\begingroup
@@ -568,12 +587,12 @@
},
/pgfplots/outer axis line style/.style={
/pgfplots/every outer x axis line/.append style={#1},
- /pgfplots/every outer y axis line/.append style={#1}%
+ /pgfplots/every outer y axis line/.append style={#1},%
/pgfplots/every outer z axis line/.append style={#1}%
},
/pgfplots/inner axis line style/.style={
/pgfplots/every inner x axis line/.append style={#1},
- /pgfplots/every inner y axis line/.append style={#1}%
+ /pgfplots/every inner y axis line/.append style={#1},%
/pgfplots/every inner z axis line/.append style={#1}%
},
/pgfplots/axis line style/.style={
@@ -717,6 +736,15 @@
/pgfplots/every axis legend/.append code={\pgfplotsdeprecatedstylecheck{/tikz/every axis legend}},
/pgfplots/every axis legend/.belongs to family=/pgfplots/style commands,
%
+ % axis type:
+ /pgfplots/axis type/.initial=rectangle,
+ /pgfplots/axis type/.belongs to family=/pgfplots/scale,
+ /pgfplots/@expected axis cs/.initial=cart,
+ /pgfplots/every rectangle axis/.style={},
+ %
+ % see \pgfplotsdefinecstransform{<from>}{<to>}{<code>}
+ /pgfplots/data cs/.initial=cart,% the coordinate system of provided data. Will be transformed to the axis' internal coordinate system (@expected axis cs).
+ %
% Colorbar interface:
/pgfplots/colorbar/.is if=pgfplots@colorbar,
/pgfplots/colorbar/.default=true,
@@ -838,13 +866,6 @@
/pgfplots/colorbar/width/.initial=0.5cm,
/pgfplots/colorbar addplot/.initial=\addplot graphics {};,
/pgfplots/colorbar/draw/.code={%
- % FIXME : the semicolon after ';' has a fixed catcode, namely
- % the one assigned while pgfplots.code.tex has been read.
- %
- % The \pgfplots@checkandpreparefor@active@semicolon gets
- % confused if the catcodes change... this here is a
- % work-around for babel support.
- \let\pgfplots@checkandpreparefor@active@semicolon=\relax
\axis[every colorbar,colorbar shift,colorbar=false]
\pgfkeysvalueof{/pgfplots/colorbar addplot}%
\endaxis
@@ -1101,6 +1122,17 @@
/pgfplots/minor z tick num=#1,
},
/pgfplots/minor tick num/.belongs to family=/pgfplots/tick,
+ /pgfplots/minor xtick/.initial=,
+ /pgfplots/minor xtick/.belongs to family=/pgfplots/tick,
+ /pgfplots/minor ytick/.initial=,
+ /pgfplots/minor ytick/.belongs to family=/pgfplots/tick,
+ /pgfplots/minor ztick/.initial=,
+ /pgfplots/minor ztick/.belongs to family=/pgfplots/tick,
+ /pgfplots/minor tick/.style={
+ /pgfplots/minor xtick={#1},
+ /pgfplots/minor ytick={#1},
+ /pgfplots/minor ztick={#1},
+ },
/pgfplots/minor tick length/.estore in=\pgfplots@subtickwidth,
/pgfplots/minor tick length/.belongs to family=/pgfplots/tick,
/pgfplots/major tick length/.estore in=\pgfplots@tickwidth,
@@ -1285,6 +1317,21 @@
/pgfplots/anchor/.belongs to family=/pgfplots,
/pgfplots/anchor/.store in= \pgfplots@anchorname,
/pgfplots/anchor=south west,
+ /pgfplots/log origin x/.is choice,
+ /pgfplots/log origin x/infty/.code={\def\pgfplots@log@origin@choice@x{0}},
+ /pgfplots/log origin x/0/.code={\def\pgfplots@log@origin@choice@x{1}},
+ /pgfplots/log origin y/.is choice,
+ /pgfplots/log origin y/infty/.code={\def\pgfplots@log@origin@choice@y{0}},
+ /pgfplots/log origin y/0/.code={\def\pgfplots@log@origin@choice@y{1}},
+ /pgfplots/log origin z/.is choice,
+ /pgfplots/log origin z/infty/.code={\def\pgfplots@log@origin@choice@z{0}},
+ /pgfplots/log origin z/0/.code={\def\pgfplots@log@origin@choice@z{1}},
+ /pgfplots/log origin/.style={%
+ /pgfplots/log origin x={#1},
+ /pgfplots/log origin y={#1},
+ /pgfplots/log origin z={#1},
+ },
+ /pgfplots/log origin=0,
% tick options:
/pgfplots/ticks/.is choice,
/pgfplots/ticks/.belongs to family=/pgfplots/tick,
@@ -1462,8 +1509,6 @@
/pgfplots/ylabel shift={#1},
/pgfplots/zlabel shift={#1},
},%
- /pgfplots/before end axis/.code=,
- /pgfplots/after end axis/.code=,
/pgfplots/extra description/.code=,
% axis options:
/pgfplots/at/.code={%
@@ -1493,9 +1538,36 @@
/pgfplots/clip/.is if=pgfplots@clip,
% will be used if it exists:
%/pgfplots/axis background/.style={},
- /pgfplots/axis equal/.is if=pgfplots@axis@equal,
+ %
+ % 2d: 'unit vector ratio=2 1 is relative to y axis (x is twice as large as y)
+ % 3d: 'unit vector ratio=2 2 1 is relative to z axis (x and y are both twice as large as z)
+ % missing values are assumed to be 1.
+ /pgfplots/unit vector ratio/.initial=,% empty means 'disable rescale'.
+ /pgfplots/unit vector ratio axis/.initial=,% DEBUG. This is the reference axis which won't be scaled down. This key might vanish.
+ /pgfplots/unit vector ratio*/.style={%
+ /pgfplots/unit vector ratio={#1},
+ /pgfplots/unit rescale keep size=false,
+ },
+ /pgfplots/unit rescale keep size/.is if=pgfplots@unit@vector@rescale@keep@size,
+ /pgfplots/unit rescale keep size/.default=true,
+ /pgfplots/unit rescale keep size=true,
+ /pgfplots/axis equal/.is choice,
+ /pgfplots/axis equal/true/.style={
+ /pgfplots/unit vector ratio=1 1 1,
+ /pgfplots/unit rescale keep size=true
+ },
+ /pgfplots/axis equal/false/.style={
+ /pgfplots/unit vector ratio=,
+ },
/pgfplots/axis equal/.default=true,
- /pgfplots/axis equal image/.is if=pgfplots@axis@equal@image,
+ /pgfplots/axis equal image/.is choice,
+ /pgfplots/axis equal image/true/.style={%
+ /pgfplots/unit vector ratio=1 1 1,
+ /pgfplots/unit rescale keep size=false
+ },
+ /pgfplots/axis equal image/false/.style={%
+ /pgfplots/unit vector ratio=,
+ },
/pgfplots/axis equal image/.default=true,
/pgfplots/xmin/.initial=,
/pgfplots/xmax/.initial=,
@@ -1503,6 +1575,8 @@
/pgfplots/ymax/.initial=,
/pgfplots/zmin/.initial=,
/pgfplots/zmax/.initial=,
+ /pgfplots/min/.style={xmin={#1},ymin={#1},zmin={#1}},
+ /pgfplots/max/.style={xmax={#1},ymax={#1},zmax={#1}},
/pgfplots/xtickmin/.initial=,
/pgfplots/xtickmax/.initial=,
/pgfplots/ytickmin/.initial=,
@@ -1533,6 +1607,7 @@
/pgfplots/stack dir=plus,
/pgfplots/filter discard warning/.is if=pgfplots@warn@for@filter@discards,
/pgfplots/filter discard warning=true,
+ /pgfplots/pre filter/.code={},
/pgfplots/x filter/.code={},
/pgfplots/x filter/.belongs to family=/pgfplots,
/pgfplots/y filter/.code={},
@@ -1548,9 +1623,9 @@
/pgfplots/restrict y to domain*/.style={/pgfplots/@restrict to domain={y}{}{#1}{1}},%
/pgfplots/restrict z to domain*/.style={/pgfplots/@restrict to domain={z}{}{#1}{1}},%
/pgfplots/restrict expr to domain*/.style 2 args={/pgfplots/@restrict to domain={x}{#1}{#2}{1}},%
- % '#1': the filter to install
+ % '#1': the filter to install (like 'x', 'y', or even 'hist/data')
% '#2': a mathematical expression (or empty)
- % '#3': the interval. must be numeric currently.
+ % '#3': the interval. must be numeric currently, and of the form min:max
% '#4': bAssignLimits=0|1. if #4=1, any coordinate outside of the
% allowed domain will take the domain boundary as value. If #4=0,
% any coordinate outside of the allowed domain will get 'inf' or
@@ -1567,31 +1642,31 @@
\def\pgfplots@restrict@to@domain@tmp{#2}%
\ifx\pgfplots@restrict@to@domain@tmp\pgfutil@empty
% we don't have an expression.
- \pgfmathfloatparsenumber{\pgfmathresult}%
\else
% evaluate the expression!
\pgfmathparse{#2}%
\fi
+ \pgfplotscoordmath{default}{parsenumber}{\pgfmathresult}%
\let\pgfplots@restrict@to@domain@tmp=\pgfmathresult
- \pgfmathfloatlessthan@{\pgfplots@restrict@to@domain@tmp}{##1}% ##1 is the lower argument
- \ifpgfmathfloatcomparison
- \edef\pgfmathresult{\if0#4inf\else ##1\fi}%
- \else
- \pgfmathfloatgreaterthan@{\pgfplots@restrict@to@domain@tmp}{##2}%
- \ifpgfmathfloatcomparison
- \edef\pgfmathresult{\if0#4-inf\else ##2\fi}%
- \else
- \let\pgfmathresult=\pgfplots@restrict@to@domain@orig
- \fi
- \fi
+ %
+ \pgfplotscoordmath{default}{if less than}
+ {\pgfplots@restrict@to@domain@tmp}{##1}% ##1 is the lower argument
+ {%
+ \edef\pgfmathresult{\if0#4inf\else ##1\fi}%
+ }{%
+ \pgfplotscoordmath{default}{if less than}
+ {##2}{\pgfplots@restrict@to@domain@tmp}
+ {\edef\pgfmathresult{\if0#4-inf\else ##2\fi}}
+ {\let\pgfmathresult=\pgfplots@restrict@to@domain@orig}%
+ }%
}%
}%
}%
% when invoked, ##1 and ##2 will be the user-supplied args.
\def\pgfplots@loc@TMPc##1:##2\relax{%
- \pgfmathfloatparsenumber{##1}%
+ \pgfplotscoordmath{default}{parsenumber}{##1}%
\let\pgfplots@rangea=\pgfmathresult
- \pgfmathfloatparsenumber{##2}%
+ \pgfplotscoordmath{default}{parsenumber}{##2}%
\edef\pgfplots@loc@TMPc{\pgfplots@rangea:\pgfmathresult}%
\expandafter\pgfplots@loc@TMPb\pgfplots@loc@TMPc\relax
}%
@@ -1599,11 +1674,14 @@
\expandafter\pgfplots@loc@TMPc\pgfplots@loc@TMPa\relax
},%
% -> keeps only the nth point, all other ones will get ''.
- /pgfplots/each nth point/.style={%
- /pgfplots/x filter/.append code={%
+ /pgfplots/each nth point/.style={/pgfplots/each nth point*={x}{#1}},%
+ % #1: the filter name: x, y, z, or something exotic like hist/data
+ % #2: the N of 'each nth'
+ /pgfplots/each nth point*/.style 2 args={%
+ /pgfplots/#1 filter/.append code={%
\ifnum\coordindex=0
\def\c@pgfplots@eachnthpoint@xfilter{0}%
- \edef\c@pgfplots@eachnthpoint@xfilter@cmp{#1}%
+ \edef\c@pgfplots@eachnthpoint@xfilter@cmp{#2}%
\else
\pgfplotsutil@advancestringcounter\c@pgfplots@eachnthpoint@xfilter
\ifx\c@pgfplots@eachnthpoint@xfilter@cmp\c@pgfplots@eachnthpoint@xfilter
@@ -1614,11 +1692,14 @@
\fi
}%
},
- /pgfplots/skip coords between index/.style 2 args={%
- /pgfplots/x filter/.append code={%
- \ifnum\coordindex<#1\relax
+ /pgfplots/skip coords between index/.style 2 args={/pgfplots/skip coords between index*={x}{#1}{#2}},%
+ % #1: the filter name
+ % #2,#3: from 'skip coords between index'
+ /pgfplots/skip coords between index*/.style n args={3}{%
+ /pgfplots/#1 filter/.append code={%
+ \ifnum\coordindex<#2\relax
\else
- \ifnum\coordindex<#2\relax
+ \ifnum\coordindex<#3\relax
\let\pgfmathresult=\pgfutil@empty
\fi
\fi}
@@ -1647,6 +1728,7 @@
/pgfplots/samples y/.initial=,% empty -> use the same as 'samples'. For use in mesh plots.
/pgfplots/variable/.code={\pgfkeysalso{/tikz/variable={#1}}},
/pgfplots/variable y/.initial=\y,%
+ /pgfplots/sample dim/.initial=auto,
% and provide aliases in the '/pgfplots/' tree to avoid
% search path problems just for the following options:
/pgfplots/name/.code={\pgfkeysalso{/tikz/name={#1}}},
@@ -1662,9 +1744,17 @@
/pgfplots/height/.initial=,%
/pgfplots/height/.belongs to family=/pgfplots,
/pgfplots/execute at begin plot/.initial=,
+ /pgfplots/execute at begin plot visualization/.initial=,
/pgfplots/execute at begin plot@@/.initial=,% an internal variant
/pgfplots/execute at end plot/.initial=,
+ /pgfplots/execute at end plot visualization/.initial=,
/pgfplots/execute at end plot@@/.initial=,% an internal variant
+ /pgfplots/execute at end survey/.initial=,%
+ /pgfplots/execute at begin axis/.initial=,
+ /pgfplots/execute at end axis/.initial=,
+ /pgfplots/execute for finished point/.initial=,
+ /pgfplots/before end axis/.code=,
+ /pgfplots/after end axis/.code=,
/pgfplots/enlarge x limits/.initial=auto,
/pgfplots/enlarge x limits/.default=true,
/pgfplots/enlarge y limits/.initial=auto,
@@ -1684,16 +1774,31 @@
/pgfplots/y/.belongs to family=/pgfplots,
/pgfplots/z/.initial=,
/pgfplots/z/.belongs to family=/pgfplots,
+ /pgfplots/view dir/.initial=,% DEBUG
/pgfplots/x dir/.code={\pgfplots@setkey@axisdir@for x{#1}},%
/pgfplots/y dir/.code={\pgfplots@setkey@axisdir@for y{#1}},%
/pgfplots/z dir/.code={\pgfplots@setkey@axisdir@for z{#1}},%
/pgfplots/x dir=normal,%
/pgfplots/y dir=normal,%
/pgfplots/z dir=normal,%
+ /pgfplots/x post scale/.initial=,
+ /pgfplots/y post scale/.initial=,
+ /pgfplots/z post scale/.initial=,
+ /pgfplots/scale/.style={%
+ /pgfplots/x post scale={#1},%
+ /pgfplots/y post scale={#1},%
+ /pgfplots/z post scale={#1},%
+ },
+ /pgfplots/scale mode/.is choice,
+ /pgfplots/scale mode/auto/.code={\def\pgfplots@scale@mode@choice{0}},
+ /pgfplots/scale mode/none/.code={\def\pgfplots@scale@mode@choice{1}},
+ /pgfplots/scale mode/stretch to fill/.code={\def\pgfplots@scale@mode@choice{2}},
+ /pgfplots/scale mode/scale uniformly/.code={\def\pgfplots@scale@mode@choice{3}},
+ /pgfplots/scale mode/auto,
/pgfplots/allow reversal of rel axis cs/.is if=pgfplots@allow@reversal@of@rel@axis@cs,%
/pgfplots/allow reversal of rel axis cs/.default=true,%
/pgfplots/allow reversal of rel axis cs=true,%
- /pgfplots/plot box ratio/.initial={1}{1}{1},%
+ /pgfplots/plot box ratio/.initial=1 1 1,%
/pgfplots/view/az/.initial=25,%
/pgfplots/view/h/.code={\pgfkeyssetvalue{/pgfplots/view/az}{#1}},%
/pgfplots/view/el/.initial=30,%
@@ -1720,6 +1825,7 @@
/pgfplots/cycle list name/.belongs to family=/pgfplots,
/pgfplots/cycle list name=color,
/pgfplots/cycle list shift/.initial=,
+ /pgfplots/mark list fill/.initial=.!80!black,
% accepts arguments of the form
% <first list spec>\nextlist <second list spec>\nextlist ....
% where each list spec is EITHER a cycle list name OR a cycle list
@@ -2278,7 +2384,7 @@
\if1\csname pgfpmeta@\pgfplotspointmetainputhandler @issymbolic\endcsname%
\def\pgfplots@nodes@near@coords@align{above}%
\else
- \pgfmathfloatifflags{\pgfplotspointmeta}{2}{%
+ \pgfplotscoordmath{meta}{if is}{\pgfplotspointmeta}{-}{%
% \pgfplotspointmeta < 0
\def\pgfplots@nodes@near@coords@align{left}%
}{%
@@ -2292,7 +2398,7 @@
\if1\csname pgfpmeta@\pgfplotspointmetainputhandler @issymbolic\endcsname%
\def\pgfplots@nodes@near@coords@align{above}%
\else
- \pgfmathfloatifflags{\pgfplotspointmeta}{2}{%
+ \pgfplotscoordmath{meta}{if is}{\pgfplotspointmeta}{-}{%
% \pgfplotspointmeta < 0
\def\pgfplots@nodes@near@coords@align{below}%
}{%
@@ -2333,11 +2439,17 @@
},%
},%
/pgfplots/nodes near coords*/.default={\pgfmathprintnumber\pgfplotspointmeta},
+ /pgfplots/visualization depends on/list/.initial=,%
+ /pgfplots/visualization depends on/.style={%
+ /pgfplots/visualization depends on/list/.add={}{,{#1}}%
+ },
/pgfplots/bar cycle list/.style={/pgfplots/cycle list={%
{blue,fill=blue!30!white,mark=none},%
{red,fill=red!30!white,mark=none},%
{brown!60!black,fill=brown!30!white,mark=none},%
{black,fill=gray,mark=none},%
+ {violet!80!black,fill=violet,mark=none},%
+ {green,fill=green!80!black,mark=none}%
}
},
/pgfplots/area cycle list/.style={bar cycle list},
@@ -2354,6 +2466,9 @@
/pgfplots/ybar legend/.style={
/pgfplots/legend image code/.code={\draw[##1,/tikz/.cd,bar width=3pt,yshift=-0.2em,bar shift=0pt] plot coordinates {(0cm,0.8em) (2*\pgfplotbarwidth,0.6em)};},
},
+ /pgfplots/single ybar legend/.style={
+ /pgfplots/legend image code/.code={\draw[##1,/tikz/.cd,bar width=6pt,yshift=-0.2em,bar shift=0pt] plot coordinates {(0pt,0.8em)};},
+ },
/pgfplots/ybar/.style={
bar cycle list,
xtick align=outside,
@@ -2383,6 +2498,9 @@
/pgfplots/xbar legend/.style={
/pgfplots/legend image code/.code={\draw[##1,/tikz/.cd,bar width=3pt,yshift=-0.2em,bar shift=0pt] plot coordinates {(0cm,0.8em) (2*\pgfplotbarwidth,0.6em)};},
},
+ /pgfplots/single xbar legend/.style={
+ /pgfplots/legend image code/.code={\draw[##1,/tikz/.cd,bar width=6pt,yshift=-0.2em,bar shift=0pt] plot coordinates {(0pt,0.8em)};},
+ },
/pgfplots/xbar/.style={
bar cycle list,
ytick align=outside,
@@ -2444,6 +2562,7 @@
/pgfplots/xbar stacked/.style={
/pgfplots/set point meta if empty=x,%
bar cycle list,
+ single xbar legend,
stack plots=x,
stack dir=#1,
/tikz/xbar,
@@ -2452,6 +2571,7 @@
/pgfplots/ybar stacked/.style={
/pgfplots/set point meta if empty=f(x),%
bar cycle list,
+ single ybar legend,
stack plots=y,
stack dir=#1,
/tikz/ybar,
@@ -2460,6 +2580,7 @@
/pgfplots/xbar interval stacked/.style={
/pgfplots/set point meta if empty=x,%
bar cycle list,
+ single xbar legend,
stack plots=x,
stack dir=#1,
/tikz/xbar interval,
@@ -2468,6 +2589,7 @@
/pgfplots/ybar interval stacked/.style={
/pgfplots/set point meta if empty=f(x),%
bar cycle list,
+ single ybar legend,
stack plots=y,
stack dir=#1,
/tikz/ybar interval,
@@ -2496,6 +2618,29 @@
/pgfplots/plot graphics/ymax/.initial=,
/pgfplots/plot graphics/zmin/.initial=,
/pgfplots/plot graphics/zmax/.initial=,
+ %
+ % a) to provide a bounding box: points={(0,1) (0,2)}
+ % or b) to squeeze the graphics into internal image coordinates:
+ % points={(0,1,0) => (0,4) (0,0,1) => (40,600)}
+ % or c) both of them.
+ /pgfplots/plot graphics/points/.initial=,
+ /pgfplots/plot graphics/auto adjust axis/.is if=pgfplots@plot@graphics@autoadjustaxis,
+ /pgfplots/plot graphics/auto adjust axis=true,
+ /pgfplots/plot graphics/snap z/.initial=0.02,
+ /pgfplots/plot graphics/debug/.initial=,
+ /pgfplots/plot graphics/debug/.default=true,
+ /pgfplots/plot graphics/squeeze tol/.initial=2pt,
+ %
+ % this command key should defined \pgfmathresult to be
+ % \pgfmathresult -> {{<wd>}{<ht>}}
+ % where <wd> is the natural width of the input image and
+ % <ht> is the natural height.
+ % The input image file name is available as 'plot graphics/src'.
+ % The default implementation invoked 'lowlevel draw={}{}' and
+ % measures the resulting dimensions.
+ /pgfplots/plot graphics/lowlevel get natural size/.code={%
+ \pgfplots@plot@handler@graphics@getnaturalsize
+ },
/pgfplots/plot graphics/lowlevel draw/.code 2 args={%
\pgfplots@plot@handler@graphics@DRAW{#1}{#2}%
},%
@@ -2508,6 +2653,9 @@
at={(0pt,0pt)},
rectangle
},
+ % empty line=none|auto|scanline|nan|jump
+ % nan and jump is the same.
+ /pgfplots/empty line/.initial=auto,
% 'mesh' plots.
% The macro \pgfplots@meshmode is
% n if meshmode == false,
@@ -2531,6 +2679,44 @@
\pgfkeysalso{/pgfplots/mesh=#1}%
\def\pgfplots@meshmode{s}%
},%
+ /pgfplots/patch/.code={%
+ \pgfkeysalso{/pgfplots/surf=#1,/pgfplots/mesh input=patches,/pgfplots/every patch}%
+ },%
+ /pgfplots/every patch/.style={miter limit=1},
+ /pgfplots/patch table/value/.initial=,
+ /pgfplots/patch table/.code={
+ \pgfkeyssetvalue{/pgfplots/patch table/value}{#1}%
+ \pgfplotsplothandlermesh@patchtable@hascdatafalse
+ },
+ /pgfplots/patch table with point meta/.code={%
+ \pgfkeyssetvalue{/pgfplots/patch table/value}{#1}%
+ \pgfplotsplothandlermesh@patchtable@hascdatatrue
+ \pgfplotsplothandlermesh@patchtable@cdata@individualfalse
+ \pgfkeysalso{/pgfplots/point meta/explicit}%
+ },
+ /pgfplots/patch table with individual point meta/.code={%
+ \pgfkeyssetvalue{/pgfplots/patch table/value}{#1}%
+ \pgfplotsplothandlermesh@patchtable@hascdatatrue
+ \pgfplotsplothandlermesh@patchtable@cdata@individualtrue
+ \pgfkeysalso{/pgfplots/point meta/explicit}%
+ },
+ /pgfplots/patch type/.initial=,
+ /pgfplots/patch internal depth/.is if=pgfplotsplothandlermesh@internaldepth,
+ /pgfplots/patch internal depth=true,
+ /pgfplots/patch to triangles/.is choice,
+ /pgfplots/patch to triangles/false/.code= {\def\pgfplotsplothandlermesh@triangulate{0}},
+ /pgfplots/patch to triangles/true/.code= {\def\pgfplotsplothandlermesh@triangulate{1}},
+ /pgfplots/patch to triangles/true with edges/.code= {\def\pgfplotsplothandlermesh@triangulate{2}},
+ /pgfplots/patch to triangles=false,
+ /pgfplots/patch to triangles/.default=true,
+ /pgfplots/mesh input/.is choice,
+ /pgfplots/mesh input/lattice/.code= {\def\pgfplotsplothandlermesh@matrixinput{1}},
+ /pgfplots/mesh input/patches/.code= {\def\pgfplotsplothandlermesh@matrixinput{0}},
+ /pgfplots/mesh input/lattice,
+ /pgfplots/patch refines/.initial=0,
+ /pgfplots/hide refined edges/.is if=pgfplotsplothandlermesh@hide@refined@edges,
+ /pgfplots/hide refined edges/.default=true,
+ /pgfplots/mesh/refines/.style={/pgfplots/patch refines={#1}},
/pgfplots/mesh/rows/.initial=,
/pgfplots/mesh/cols/.initial=,
/pgfplots/mesh/scanline verbose/.is if=pgfplots@scanline@verbose,%
@@ -2566,7 +2752,7 @@
\pgfplotsplothandlermesh@defaultlegend@img{##1}%
}%
},
- /pgfplots/mesh/num points/.initial=\numcoords,% this is NOT part of the public interface. Don't change it.
+ /pgfplots/mesh/num points/.initial=,%\numcoords,% this is NOT part of the public interface. Don't change it.
/pgfplots/z buffer/.is choice,%
/pgfplots/z buffer/none/.code={\def\pgfplotsplothandlermesh@zbuffer@choice{0}},%
/pgfplots/z buffer/reverse x seq/.code={\def\pgfplotsplothandlermesh@zbuffer@choice{1}},%
@@ -2592,6 +2778,7 @@
/pgfplots/shader/flat/.style={/pgfplots/shader/flat mean},%
/pgfplots/shader/faceted/.code={\def\pgfplotsplothandlermesh@shader{1}},
/pgfplots/shader/interp/.code={\def\pgfplotsplothandlermesh@shader{2}},
+ /pgfplots/shader/faceted interp/.code={\def\pgfplotsplothandlermesh@shader{3}},
/pgfplots/shader/faceted,
/pgfplots/faceted color/.initial=mapped color!80!black,
/pgfplots/clip marker paths/.is if=pgfplots@clip@marker@paths,
@@ -2636,19 +2823,22 @@
/pgfplots/z coord trafo/.code={},
/pgfplots/z coord inv trafo/.code={},
%
- % #1 = {<symbol1>,<symbol2>,....<symboln>}
+ % #1 : the coordinate in question. Can be x,y,z, or even hist/data
+ % or similar constructs.
+ % #2 : {<symbol1>,<symbol2>,....<symboln>}
/pgfplots/symbolic coords/.code 2 args={%
- \pgfplotsarraynew\pgfplots@symbolic@coords@inverse{#2}%
- \pgfplotsarrayforeachungrouped\pgfplots@symbolic@coords@inverse\as\pgfplots@loc@TMPa{%
- \expandafter\edef\csname pgfp@symb@coords@\pgfplots@loc@TMPa\endcsname{\pgfplotsarrayforeachindex}%
+ \expandafter\pgfplotsarraynew\csname pgfplots@symbolic@coords@#1@inverse\endcsname{#2}%
+ \expandafter\pgfplotsarrayforeachungrouped\csname pgfplots@symbolic@coords@#1@inverse\endcsname\as\pgfplots@loc@TMPa{%
+ \expandafter\edef\csname pgfp@symb@coords@#1@\pgfplots@loc@TMPa\endcsname{\pgfplotsarrayforeachindex}%
}%
\pgfkeysdef{/pgfplots/#1 coord trafo}{%
- \pgfutil@ifundefined{pgfp@symb@coords@##1}{%
+ \pgfutil@ifundefined{pgfp@symb@coords@#1@##1}{%
\pgfplots@error{Sorry, the input coordinate `##1' has not been defined with 'symbolic #1 coords={#2}... Maybe it has been misspelled?}%
\def\pgfmathresult{0}%
}{%
- \edef\pgfmathresult{\csname pgfp@symb@coords@##1\endcsname}%
+ \edef\pgfmathresult{\csname pgfp@symb@coords@#1@##1\endcsname}%
}%
+%\message{#1 coord trafo{##1} --> \pgfmathresult^^J}%
}%
\pgfkeysdef{/pgfplots/#1 coord inv trafo}{%
\begingroup
@@ -2659,22 +2849,38 @@
\ifnum\count0<0
\count0=0
\else
- \count1=\pgfplotsarraysizeof\pgfplots@symbolic@coords@inverse\relax
+ \edef\pgfplots@loc@TMPa{\expandafter\pgfplotsarraysizeof\csname pgfplots@symbolic@coords@#1@inverse\endcsname}%
+ \count1=\pgfplots@loc@TMPa\relax
\ifnum\count0<\count1
\else
\count0=\count1
\advance\count0 by-1
\fi
\fi
- \pgfplotsarrayselect\count0 \of\pgfplots@symbolic@coords@inverse\to\pgfmathresult
+ \expandafter\pgfplotsarrayselect\expandafter\count\expandafter0\expandafter\of\csname pgfplots@symbolic@coords@#1@inverse\endcsname\to\pgfmathresult
+%\message{#1 coord inv trafo{##1} -->\the\count0 --> \pgfmathresult^^J}%
\pgfmath@smuggleone\pgfmathresult
\endgroup
}%
- \pgfkeysalso{%
- /pgfplots/#1ticklabel={\tick},%
- /pgfplots/scaled #1 ticks=false,%
- /pgfplots/plot coordinates/math parser=false,%
+ \pgfkeysifdefined{/pgfplots/#1ticklabel/.@cmd}{%
+ \pgfkeysalso{%
+ /pgfplots/#1ticklabel={\tick},%
+ /pgfplots/scaled #1 ticks=false,%
+ /pgfplots/plot coordinates/math parser=false,%
+ }%
+ }{%
+ % OK. The style can be used for other coordinates as well
+ % (like hist/data)
}%
+ %
+ \pgfkeysifdefined{/pgfplots/#1 is expr}{%
+ \pgfkeyssetvalue{/pgfplots/#1 is expr}{0}%
+ }{}%
+ %
+ % Allow a callback (optional)
+ \pgfkeysifdefined{/pgfplots/#1/@execute on coord trafo changed/.@cmd}{%
+ \pgfkeysalso {/pgfplots/#1/@execute on coord trafo changed}%
+ }{}%
},%
/pgfplots/symbolic x coords/.style={symbolic coords={x}{#1}},%
/pgfplots/symbolic y coords/.style={symbolic coords={y}{#1}},%
@@ -2712,6 +2918,7 @@
/pgfplots/colormap access/direct/.code={\def\pgfplots@colormap@access{d}},%
/pgfplots/colormap access/map/.code={\def\pgfplots@colormap@access{m}},%
/pgfplots/colormap access/map,%
+ %/pgfplots/colormap default colorspace/.initial=auto,% declared in pgfplotscolormap.code.tex
/pgfplots/colormap/.code 2 args={%
\pgfplotscreatecolormap{#1}{#2}%
\pgfkeysalso{/pgfplots/colormap name=#1}%
@@ -2719,6 +2926,9 @@
/pgfplots/colormap/hot/.style={
colormap name=hot
},
+ /pgfplots/colormap/hot2/.style={
+ /pgfplots/colormap={hot2}{[1cm]rgb255(0cm)=(0,0,0) rgb255(3cm)=(255,0,0) rgb255(6cm)=(255,255,0) rgb255(8cm)=(255,255,255)}
+ },
/pgfplots/colormap/bluered/.style={
/pgfplots/colormap={bluered}{rgb255(0cm)=(0,0,180); rgb255(1cm)=(0,255,255); rgb255(2cm)=(100,255,0); rgb255(3cm)=(255,255,0); rgb255(4cm)=(255,0,0); rgb255(5cm)=(128,0,0)}
},
@@ -2737,6 +2947,12 @@
/pgfplots/colormap/violet/.style={
colormap={violet}{rgb255=(25,25,122) color=(white) rgb255=(238,140,238)}
},
+ /pgfplots/colormap/jet/.style={
+ /pgfplots/colormap={jet}{rgb255(0cm)=(0,0,128) rgb255(1cm)=(0,0,255) rgb255(3cm)=(0,255,255) rgb255(5cm)=(255,255,0) rgb255(7cm)=(255,0,0) rgb255(8cm)=(128,0,0)}
+ },
+ %
+ %
+ %%
/pgfplots/scatter/.is choice,
/pgfplots/scatter/false/.code={%
\pgfplots@scatterplotenabledfalse
@@ -2909,8 +3125,18 @@
/pgfplots/compat/anchors/pre 1.3/.code={\pgfplots@deprecated@anchorstrue},% FIXME: WAS \global
/pgfplots/compat/anchors/1.3/.code= {\pgfplots@deprecated@anchorsfalse},%
/pgfplots/compat/anchors/1.4/.style= {/pgfplots/compat/anchors/1.3},%
+ /pgfplots/compat/anchors/1.5/.style= {/pgfplots/compat/anchors/1.3},%
/pgfplots/compat/anchors/newest/.style= {/pgfplots/compat/anchors/1.3},%
/pgfplots/compat/anchors/default/.style={/pgfplots/compat/anchors/1.3},%
+ %
+ /pgfplots/compat/empty line/.is choice,
+ /pgfplots/compat/empty line/pre 1.3/.code={\pgfplots@emptyline@compattrue},% FIXME: WAS \global
+ /pgfplots/compat/empty line/1.3/.style= {/pgfplots/compat/empty line/pre 1.3},%
+ /pgfplots/compat/empty line/1.4/.code= {\pgfplots@emptyline@compatfalse},%
+ /pgfplots/compat/empty line/1.5/.style= {/pgfplots/compat/empty line/1.4},%
+ /pgfplots/compat/empty line/newest/.style= {/pgfplots/compat/empty line/1.4},%
+ /pgfplots/compat/empty line/default/.style={/pgfplots/compat/empty line/1.4},%
+ %
/pgfplots/compat/labels/.is choice,
/pgfplots/compat/labels/pre 1.3/.style={%
/pgfplots/xlabel absolute,
@@ -2919,14 +3145,41 @@
/pgfplots/xlabel near ticks,
/pgfplots/ylabel near ticks},%
/pgfplots/compat/labels/1.4/.style= {/pgfplots/compat/labels/1.3},%
+ /pgfplots/compat/labels/1.5/.style= {/pgfplots/compat/labels/1.3},%
/pgfplots/compat/labels/newest/.style= {/pgfplots/compat/labels/1.3},%
/pgfplots/compat/labels/default/.style= {/pgfplots/compat/labels/pre 1.3},% maintain backwards compatibility for labels :-(
+ %
+ % search for the \pgfplots@compat@scaling@coordmath -- using float
+ % is much more accurate. But it changes the spacing slightly.
+ /pgfplots/compat/scaling/.is choice,
+ /pgfplots/compat/scaling/pre 1.3/.code={%
+ \def\pgfplots@compat@scaling@zunitfix@enable{0}%
+ \def\pgfplots@compat@scaling@coordmath{pgfbasic}},
+ /pgfplots/compat/scaling/1.3/.style={/pgfplots/compat/scaling/pre 1.3},
+ /pgfplots/compat/scaling/1.4/.code={%
+ \def\pgfplots@compat@scaling@zunitfix@enable{1}%
+ \def\pgfplots@compat@scaling@coordmath{float}},
+ /pgfplots/compat/scaling/1.5/.style={/pgfplots/compat/scaling/1.4},
+ /pgfplots/compat/scaling/newest/.style={/pgfplots/compat/scaling/1.4},
+ /pgfplots/compat/scaling/default/.style={/pgfplots/compat/scaling/1.4},
+ /pgfplots/compat/general/.is choice,
+ /pgfplots/compat/general/pre 1.3/.style={/pgfplots/log origin=infty},%
+ /pgfplots/compat/general/1.3/.style={/pgfplots/compat/general/pre 1.3},
+ /pgfplots/compat/general/1.4/.style={/pgfplots/compat/general/pre 1.3},%
+ /pgfplots/compat/general/1.5/.style={/pgfplots/compat/general/newest},%
+ /pgfplots/compat/general/newest/.style={/pgfplots/log origin=0},
+ /pgfplots/compat/general/default/.style={/pgfplots/compat/general/newest},
/pgfplots/compat/.style={%
+ % ATTENTION: *every* /pgfplots/compat/ setting needs to accept
+ % the same choices due to this construction:
/pgfplots/compat/anchors=#1,%
/pgfplots/compat/labels=#1,%
+ /pgfplots/compat/empty line=#1,%
+ /pgfplots/compat/scaling=#1,%
+ /pgfplots/compat/general=#1,%
},%
- /pgfplots/compat/.default=pre 1.3,%
- /pgfplots/compat=default,%
+ /pgfplots/compat/.default=pre 1.3,% this is used if you type '\pgfplotsset{compat}' without value
+ /pgfplots/compat=default,% this is the initial config.
%
/pgfplots/show outer normals/.style={%
extra description/.append code={
@@ -3004,6 +3257,8 @@
},%
}
+\pgfkeysgetvalue{/pgfplots/colorbar/draw/.@cmd}\pgfplots@colorbar@draw@defaultimpl
+
% call
% \pgfkeyslet{.../.@cmd}\pgfplots@cant@set@in@this@context
% to replace a key with a generic error message.
@@ -3014,10 +3269,10 @@
{
-\pgfkeysdef{/pgfplots/empty command key}{}%
-\pgfkeysgetvalue{/pgfplots/empty command key/.@cmd}\pgfplots@loc@TMPa
+\pgfkeysdef{/empty}{}%
+\pgfkeysgetvalue{/empty/.@cmd}\pgfplots@loc@TMPa
\global\let\pgfplots@empty@command@key=\pgfplots@loc@TMPa
-
+%
\pgfkeys{/empty/.style={}}%
\pgfkeysgetvalue{/empty/.@cmd}\pgfplots@loc@TMPa
\global\let\pgfplots@empty@style@key=\pgfplots@loc@TMPa
@@ -3138,7 +3393,7 @@
%
\pgfkeysgetvalue{/tikz/sloped/.@cmd}\pgfplots@loc@TMPa
\pgfkeyslet{/tikz/sloped/orig/.@cmd}\pgfplots@loc@TMPa
- \pgfkeysdef{/tikz/sloped}{\pgfkeysalso{/tikz/sloped like #1 axis}}%
+ \pgfkeysdef{/tikz/sloped}{\pgfkeysalso{/tikz/sloped like #1 axis={##1}}}%
%
\node
[/pgfplots/every axis label,%
@@ -3186,16 +3441,18 @@
\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn{0}{%
\draw decorate {
\pgfextra
- \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1min\endcsname}{\csname pgfplots@#2min\endcsname}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1max\endcsname}{\csname pgfplots@#2min\endcsname}}%
+ % exchange roles of A <-> B axes:
+ \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ \pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2min\endcsname}%
\endpgfextra
};
}{}%
\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn{1}{%
\draw decorate {
\pgfextra
- \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1min\endcsname}{\csname pgfplots@#2max\endcsname}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1max\endcsname}{\csname pgfplots@#2max\endcsname}}%
+ % exchange roles of A <-> B axes:
+ \pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
+ \pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2max\endcsname}%
\endpgfextra
};
}{}%
@@ -3215,52 +3472,50 @@
% drawn as box.
\def\pgfplots@drawaxis@outerlines@cycledpath{%
\draw[
- /pgfplots/every outer x axis line, % FIXME! these outer styles need much more attention :-(
+ /pgfplots/every outer x axis line, % using these outer styles is only useful in conjunction with 'separate axis lines=true'
/pgfplots/every outer y axis line]
- % FIXME : replace this here with basic layer! This should also
- % allow closed paths:
- (\pgfplots@xmin, \pgfplots@ymin)
+ \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}\endpgfextra
\ifpgfplots@hide@y
- { (\pgfplots@xmin, \pgfplots@ymax) }
+ { \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}\endpgfextra }
\else
- \ifcase\pgfplots@yaxislinesnum
- decorate [ydiscont,decoration={pre length=\ydisstart, post length=\ydisend}] { -- (\pgfplots@xmin, \pgfplots@ymax) }
- \or decorate [ydiscont,decoration={pre length=\ydisstart, post length=\ydisend}] { -- (\pgfplots@xmin, \pgfplots@ymax) }
- \or { (\pgfplots@xmin, \pgfplots@ymax) }
- \or { (\pgfplots@xmin, \pgfplots@ymax) }
- \fi
+ decorate [ydiscont,decoration={pre length=\ydisstart, post length=\ydisend}]
+ % { -- (\pgfplots@xmin, \pgfplots@ymax) }
+ { \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}\endpgfextra }
\fi
\ifpgfplots@hide@x
- { (\pgfplots@xmax, \pgfplots@ymax) }
+ %{ (\pgfplots@xmax, \pgfplots@ymax) }
+ { \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}\endpgfextra }
\else
- \ifcase\pgfplots@xaxislinesnum
- decorate [xdiscont,decoration={pre length=\xdisstart, post length=\xdisend}] { -- (\pgfplots@xmax, \pgfplots@ymax) }
- \or { (\pgfplots@xmax, \pgfplots@ymax) }
- \or { (\pgfplots@xmax, \pgfplots@ymax) }
- \or decorate [xdiscont,decoration={pre length=\xdisstart, post length=\xdisend}] { -- (\pgfplots@xmax, \pgfplots@ymax) }
- \fi
+ decorate [xdiscont,decoration={pre length=\xdisstart, post length=\xdisend}]
+ %{ -- (\pgfplots@xmax, \pgfplots@ymax) }
+ { \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}\endpgfextra }
\fi
\ifpgfplots@hide@y
- { (\pgfplots@xmax, \pgfplots@ymin) }
+ %{ (\pgfplots@xmax, \pgfplots@ymin) }
+ { \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}\endpgfextra }
\else
- \ifcase\pgfplots@yaxislinesnum
- decorate [ydiscont,decoration={pre length=\ydisend, post length=\ydisstart}] { -- (\pgfplots@xmax, \pgfplots@ymin) }
- \or { (\pgfplots@xmax, \pgfplots@ymin) }
- \or { (\pgfplots@xmax, \pgfplots@ymin) }
- \or decorate [ydiscont,decoration={pre length=\ydisend, post length=\ydisstart}] { -- (\pgfplots@xmax, \pgfplots@ymin) }
- \fi
+ decorate [ydiscont,decoration={pre length=\ydisend, post length=\ydisstart}]
+ %{ -- (\pgfplots@xmax, \pgfplots@ymin) }
+ { \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}\endpgfextra }
\fi
\ifpgfplots@hide@x
- { (\pgfplots@xmin, \pgfplots@ymin) }
+ %{ (\pgfplots@xmin, \pgfplots@ymin) }
+ { \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}\endpgfextra }
\else
- \ifcase\pgfplots@xaxislinesnum
- decorate [xdiscont,decoration={pre length=\xdisend, post length=\xdisstart}] { -- (\pgfplots@xmin, \pgfplots@ymin) }
- \or decorate [xdiscont,decoration={pre length=\xdisend, post length=\xdisstart}] { -- (\pgfplots@xmin, \pgfplots@ymin) }
- \or { (\pgfplots@xmin, \pgfplots@ymin) }
- \or { (\pgfplots@xmin, \pgfplots@ymin) }
- \fi% can't use cycle here!
+ decorate [xdiscont,decoration={pre length=\xdisend, post length=\xdisstart}]
+ %{ -- (\pgfplots@xmin, \pgfplots@ymin) }
+ { \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}\endpgfextra }
\fi
- ; % -- cycle;
+ % make sure that we do not have any of the axis discontinuities
+ % here - they should not be closed.
+ \if0\pgfplots@xaxisdiscontnum
+ \else
+ \if0\pgfplots@yaxisdiscontnum
+ \else
+ -- cycle
+ \fi
+ \fi
+ ;%
}%
% Assigns the macros
@@ -3311,12 +3566,13 @@
\fi
}%
-\def\pgfplots@rememberplotspec@for@label{\pgfutil@ifnextchar[{\pgfplots@rememberplotspec@for@label@}{\pgfplots@rememberplotspec@for@label@[]}}%
+\def\pgfplots@rememberplotspec@for@label{\pgfplotsutil@ifnextchar[{\pgfplots@rememberplotspec@for@label@}{\pgfplots@rememberplotspec@for@label@[]}}%
\def\pgfplots@rememberplotspec@for@label@[#1]#2{%
- \expandafter\gdef\csname pgfplots@last@plot@style@#1\endcsname{#2}%
+ \t@pgfplots@tokc={#2}% this token register stuff allows '#' inside of '#2'
+ \expandafter\xdef\csname pgfplots@last@plot@style@#1\endcsname{\the\t@pgfplots@tokc}%
\global\pgfplots@has@label@informationtrue
}%
-\def\pgfplots@rememberplotspec{\pgfutil@ifnextchar[{\pgfplots@rememberplotspec@opt}{\pgfplots@rememberplotspec@opt[]}}%
+\def\pgfplots@rememberplotspec{\pgfplotsutil@ifnextchar[{\pgfplots@rememberplotspec@opt}{\pgfplots@rememberplotspec@opt[]}}%
\def\pgfplots@rememberplotspec@opt[#1]#2{%
\pgfplots@rememberplotspec@for@label[#1]{#2}%
\pgfplotslistpushbackglobal{#2}\to\pgfplots@plotspeclist
@@ -3410,8 +3666,19 @@
\axispath\path#1;%
}
\def\pgfplots@replacement@for@scope{\pgfutil@ifnextchar[{\pgfplots@replacement@for@scope@}{\pgfplots@replacement@for@scope@[]}}%
-\def\pgfplots@replacement@for@scope@[#1]{\pgfplotsextra{\scope[#1]}}%
-\def\pgfplots@replacement@for@endscope{\pgfplotsextra\endscope}%
+\def\pgfplots@replacement@for@scope@[#1]{%
+ \pgfplotsextra{\scope[#1]}%
+ \begingroup
+ % I need to apply anything which might be relevant for \addplot
+ % here.
+ % But I do NOT want \scope since this might already affect the low
+ % level output. Try this:
+ \tikzset{#1}%
+}%
+\def\pgfplots@replacement@for@endscope{%
+ \endgroup
+ \pgfplotsextra\endscope%
+}%
{
% A block which handles active semicolons.
@@ -3463,23 +3730,54 @@
% Remembers the plotting command #2 and '#3=plot coordinates {...} ...';
% for later postprocessing of the coordinates.
%
-% #1: commands which should be executed before issueing the plotting
+% #1: pre-commands which should be executed before issueing the plotting
% command #2 #3.
-% #2:
-% the command which is responsable for drawing.
+% #2: the drawing-command.
% - If #2 is NOT '\pgfutil@empty', we expect #3 to contain only
% EXPANDABLE DATA.
% That's important for postponed floating point arithmetics in #3.
% - If #2='\pgfutil@empty', we don't make any assumption about #3
% and process it as-is.
%
-% #3: see above.
+% #3: the plot data. If #2 is empty, this can be any command.
%
% #4: commands which should be executed after '#2 #3'.
%
\long\def\pgfplots@path@enqueue@coords#1#2#3#4{%
- \pgfplotslistpushbackglobal{#1}{#2}{#3}{#4}\to\pgfplots@stored@plotlist
+ \begingroup
+ \def\pgfplots@loc@TMPa{#2}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \def\pgfplots@stored@current@precmd{#1}%
+ \def\pgfplots@stored@current@cmd{#2}%
+ \def\pgfplots@stored@current@data{#3}%
+ \def\pgfplots@stored@current@postcmd{#4}%
+ \ifx\pgfplots@stored@current@precmd\pgfutil@empty
+ \else
+ \pgfplots@wrong@plotlist@format@error
+ \fi
+ \ifx\pgfplots@stored@current@postcmd\pgfutil@empty
+ \else
+ \pgfplots@wrong@plotlist@format@error
+ \fi
+ \pgfplotslistpushbackglobal{#1}{#2}{#3}{#4}\to\pgfplots@stored@plotlist
+ \else
+ \pgfkeysgetvalue{/pgfplots/execute at begin plot visualization}\pgfplots@loc@TMPa
+ \pgfkeysgetvalue{/pgfplots/execute at end plot visualization}\pgfplots@loc@TMPb
+ \t@pgfplots@toka={#1}%
+ \t@pgfplots@tokb=\expandafter{\pgfplots@loc@TMPa}%
+ \t@pgfplots@tokc=\expandafter{\pgfplots@loc@TMPb}%
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfkeyssetvalue{/pgfplots/execute at begin plot visualization}{\the\t@pgfplots@tokb}%
+ \noexpand\pgfkeyssetvalue{/pgfplots/execute at end plot visualization}{\the\t@pgfplots@tokc}%
+ \the\t@pgfplots@toka
+ }%
+ \expandafter\pgfplotslistpushbackglobal\expandafter{\pgfplots@loc@TMPa}{#2}{#3}{#4}\to\pgfplots@stored@plotlist
+ \fi
+ \endgroup
}
+\def\pgfplots@wrong@plotlist@format@error{%
+ \pgfplots@error{Internal logic error: someone used \string \pgfplots@path@enqueue@coords\space in an unexpected way: if the second argument is empty, ONLY the third argument should be non-empty.^^J I found: pre command (1st arg): \meaning\pgfplots@stored@current@precmd;^^J command (2nd arg): \meaning\pgfplots@stored@current@cmd;^^J data (3rd arg): \meaning\pgfplots@stored@current@data^^J; post cmd (4th arg): \meaning\pgfplots@stored@current@postcmd^^J}%
+}%
% this was formerly slightly different than
% \pgfplots@path@enqueue@coords, but it is now the same.
@@ -3909,16 +4207,24 @@
{\tikz[/pgfplots/every legend to name picture/.try]{\pgfplots@legend@to@name}}%
\t@pgfplots@tokc=\expandafter{\pgfplotsretval}%
%
+ \begingroup
+ \pgfkeysgetvalue{/pgfplots/every legend image post/.@cmd}\pgfplots@loc@TMPa
+ % steal \toks0 temporarily. Within this group, it won't be
+ % used by any LaTeX code:
+ \toks0=\expandafter{\pgfplots@loc@TMPa\pgfeov}%
+ %
\expandafter\xdef\csname pgfplots@legend@to@name@\pgfplots@createlegend@toname\endcsname{%
\noexpand\begingroup
\noexpand\def\noexpand\pgfplots@legend@to@name{%
\noexpand\pgfkeysdef{/pgfplots/every axis legend}{\the\t@pgfplots@tokb}%
+ \noexpand\pgfkeysdef{/pgfplots/every legend image post}{\the\toks0 }%
\noexpand\def\noexpand\numplots{\numplots}%
\the\t@pgfplots@toka
}%
\the\t@pgfplots@tokc
\noexpand\endgroup
}%
+ \endgroup
\t@pgfplots@toka=\expandafter\expandafter\expandafter{\csname pgfplots@legend@to@name@\pgfplots@createlegend@toname\endcsname}%
\pgfplots@auxwrite{%
\noexpand\expandafter
@@ -3934,22 +4240,41 @@
\fi
}
+\pgfutil@ifundefined{AtBeginDocument}{}{%
+ \AtBeginDocument{%
+ \let\pgfplots@original@LaTeX@label@loadtime=\label
+ }%
+}
+
% Defines a new \label{#1}. When \ref{#1} is used, the code
-% \csname #2#1\endcsname
+% \csname #3#2\endcsname
% will be invoked.
-\def\pgfplots@label#1#2{%
+% \pgfplots@label[<optional prefix>]{<label name>}{<command prefix>}
+% invokes
+% \label<optional prefix>{<label name>}
+\def\pgfplots@label{\pgfutil@ifnextchar[{\pgfplots@label@@}{\pgfplots@label@@[]}}%
+\def\pgfplots@label@@[#1]#2#3{%
\begingroup
\edef\@currentlabel{%
\string\expandafter
\string\protect
- \string\csname\space #2#1\string\endcsname
+ \string\csname\space #3#2\string\endcsname
}%
\pgfutil@ifundefined{hyper@makecurrent}{}{%
\hyper@makecurrent{pgfplotslink}%
\hyper@anchorstart{\@currentHref}{}\hyper@anchorend
\pgfplotsutil@advancestringcounter@global\c@pgfplots@label
}%
- \expandafter\label\expandafter{#1}%
+ %
+ % this is a work-around to support the memoir class (it overwrites
+ % \label in sub
+ \let\sf@@memsub@label=\pgfplots@original@LaTeX@label@loadtime
+ %
+ \pgfutil@ifundefined{label}{%
+ }{%
+ \def\pgfplots@loc@TMPa{\label #1}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{#2}% the \expandafter is a convenience method; the name should be expandable anyway
+ }%
\endgroup
}%
\gdef\c@pgfplots@label{0}%
@@ -3988,6 +4313,22 @@
}%
}%
+\def\pgfplotsplotfromname#1{%
+ \pgfplots@texdist@protect\pgfplotsplotfromname@{#1}%
+}%
+\def\pgfplotsplotfromname@#1{%
+ \pgfutil@ifundefined{pgfplots@show@ref@#1}{%
+ \pgfutil@ifundefined{ref}{%
+ \pgfplots@warning{There is no \string\addplot\space label `#1', sorry. I am skipping it}%
+ \string\pgfplotsplotfromname{#1}: ??%
+ }{%
+ \ref{\string\pgfplotsplotfromname{#1}}%
+ }%
+ }{%
+ \csname pgfplots@show@ref@#1\endcsname
+ }%
+}%
+
\def\pgfplots@ifintikzpicture#1#2{%
\pgfutil@ifundefined{filldraw}{#2}{#1}%
}%
@@ -4011,6 +4352,8 @@
}
% Simply divides #1 by log(10).
+% ATTENTION: in order to implement per-axis log basis, this will be
+% OVERWRITTEN in pgfplotsticks.code.tex !
\def\pgfmathlogtologten@#1{%
\pgfmathmultiply@{#1}\reciproclogten%
}%
@@ -4073,7 +4416,7 @@
\pgfkeysdef{/pgfplots/@enlargelimits/rel}{\pgfkeysalso{true,value={#1}}}%
\pgfkeysdef{/pgfplots/@enlargelimits/abs value}{%
\begingroup
- \pgfutil@namelet{pgfplots@datascaletrafo@\pgfplots@enlargelimits@curaxis}{pgfplots@datascaletrafo@\pgfplots@enlargelimits@curaxis @noshift}%
+ \pgfplotscoordmath{\pgfplots@enlargelimits@curaxis}{datascaletrafo set shift}{0}%
\expandafter\csname pgfplotstransformcoordinate\pgfplots@enlargelimits@curaxis\endcsname{#1}%
\pgfmath@smuggleone\pgfmathresult
\endgroup
@@ -4163,7 +4506,8 @@
% helper for \pgfplots@check@and@apply@datatrafo@for.
%
\def\pgfplots@compute@number@order@for@trafo@isfloat#1\tocount#2{%
- \expandafter\pgfmathfloat@decompose@E#1\relax#2\relax
+ \pgfmathfloatparsenumber{#1}%
+ \expandafter\pgfmathfloat@decompose@E\pgfmathresult\relax#2\relax
\advance#2 by1\relax
}
@@ -4187,167 +4531,177 @@
% initialise data scale transformation
% T(x) = 10^{q-m} * x
%
- \begingroup
- \let\data@max@order=\c@pgf@counta
- \let\data@cur@order=\c@pgf@countb
- \let\data@dimen=\pgf@xa
- \let\data@tmp=\pgf@xb
- \let\data@dimen@order=\c@pgf@countc
- \let\data@EXPONENT=\c@pgf@countd
- \expandafter\let\expandafter\pgfplots@display@min@float\csname pgfplots@#1min\endcsname
- \expandafter\let\expandafter\pgfplots@display@max@float\csname pgfplots@#1max\endcsname
- \expandafter\let\expandafter\pgfplots@data@min@float\csname pgfplots@data@#1min\endcsname
- \expandafter\let\expandafter\pgfplots@data@max@float\csname pgfplots@data@#1max\endcsname
- \expandafter\let\expandafter\pgfplots@actual@trafo\csname pgfplots@datascaletrafo@#1\endcsname
- \ifpgfplots@autocompute@all@limits
- \else
- \pgfplotsmathfloatmax{\pgfplots@display@max@float}{\pgfplots@data@max@float}%
- \let\pgfplots@data@max@float=\pgfmathresult
- \pgfplotsmathfloatmin{\pgfplots@display@min@float}{\pgfplots@data@min@float}%
- \let\pgfplots@data@min@float=\pgfmathresult
- \fi
- %
- % Step 1: compute 'm', the data order
- \pgfplots@compute@number@order@for@trafo@isfloat
- \pgfplots@data@min@float
- \tocount\data@cur@order
- %
- \data@max@order=\data@cur@order
- %
- \pgfplots@compute@number@order@for@trafo@isfloat
- \pgfplots@data@max@float
- \tocount\data@cur@order
- %
- \ifnum\data@cur@order>\data@max@order
+ \ifpgfplots@disabledatascaling
+ % this here is a waste of time, I know it. One could really
+ % safe a lot of CPU time when disabledatascaling is enabled...
+ % but it requires so much extra cases; I really don't want
+ % that!
+ \gdef\pgfplots@glob@TMPa{0}%
+ \gdef\pgfplots@glob@TMPb{0}%
+ \else
+ \begingroup
+ \let\data@max@order=\c@pgf@counta
+ \let\data@cur@order=\c@pgf@countb
+ \let\data@dimen=\pgf@xa
+ \let\data@tmp=\pgf@xb
+ \let\data@dimen@order=\c@pgf@countc
+ \let\data@EXPONENT=\c@pgf@countd
+ \expandafter\let\expandafter\pgfplots@display@min@float\csname pgfplots@#1min\endcsname
+ \expandafter\let\expandafter\pgfplots@display@max@float\csname pgfplots@#1max\endcsname
+ \expandafter\let\expandafter\pgfplots@data@min@float\csname pgfplots@data@#1min\endcsname
+ \expandafter\let\expandafter\pgfplots@data@max@float\csname pgfplots@data@#1max\endcsname
+ \ifpgfplots@autocompute@all@limits
+ \else
+ \pgfplotscoordmath{#1}{max}{\pgfplots@display@max@float}{\pgfplots@data@max@float}%
+ \let\pgfplots@data@max@float=\pgfmathresult
+ \pgfplotscoordmath{#1}{min}{\pgfplots@display@min@float}{\pgfplots@data@min@float}%
+ \let\pgfplots@data@min@float=\pgfmathresult
+ \fi
+ %
+%\message{minmax = [\pgfplots@data@min@float,\pgfplots@data@max@float]}%
+ % Step 1: compute 'm', the data order
+ \pgfplots@compute@number@order@for@trafo@isfloat
+ \pgfplots@data@min@float
+ \tocount\data@cur@order
+ %
\data@max@order=\data@cur@order
- \fi
- %
- % Step 2: compute 'q', the #1-size of the axis.
- \expandafter\ifx\csname pgfplots@#1\endcsname\pgfutil@empty
- % We have 'width' or 'height'.
%
- % Use the order of these parameters.
- \def\pgfplots@loc@TMPa{#1}%
- \def\pgfplots@loc@TMPb{x}%
- \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
- \data@dimen=\pgfplots@width\relax
- \else
- \def\pgfplots@loc@TMPb{y}%
+ \pgfplots@compute@number@order@for@trafo@isfloat
+ \pgfplots@data@max@float
+ \tocount\data@cur@order
+ %
+ \ifnum\data@cur@order>\data@max@order
+ \data@max@order=\data@cur@order
+ \fi
+ %
+ % Step 2: compute 'q', the #1-size of the axis.
+ %\expandafter\ifx\csname pgfplots@#1\endcsname\pgfutil@empty
+ % We have 'width' or 'height' (I always have them).
+ %
+ % Use the order of these parameters.
+ \def\pgfplots@loc@TMPa{#1}%
+ \def\pgfplots@loc@TMPb{x}%
\ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
- \data@dimen=\pgfplots@height\relax
+ \data@dimen=\pgfplots@width\relax
+ \else
+ \if1\pgfplots@compat@scaling@zunitfix@enable
+ \data@dimen=\pgfplots@height\relax
+ \else
+ % this code here belongs to versions up to
+ % 1.3.1.
+ % It is now deprecated and produces small
+ % pixel differences.
+ \def\pgfplots@loc@TMPb{y}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \data@dimen=\pgfplots@height\relax
+ \else
+ \data@dimen=42pt % this is actually different from 1.3.1: there, it was UNDEFINED.
+ \fi
+ \fi
\fi
- \fi
- \pgfplots@compute@number@order@for@trafo@isdimen
- \data@dimen
- \tocount\data@dimen@order
- % This here is to avoid inaccuracies in the final
- % axis rectangle size, see \pgfplots@initsizes:
- %\advance\data@dimen@order by-1
- \else
- % FIXME:
- % we have either the 'x=1cm' or 'y=1cm' option!
- % How should I initialise the trafo!?
- \data@dimen@order=3
- \fi
- %
+ \pgfplots@compute@number@order@for@trafo@isdimen
+ \data@dimen
+ \tocount\data@dimen@order
+ % This here is to avoid inaccuracies in the final
+ % axis rectangle size, see \pgfplots@initsizes:
+ %\advance\data@dimen@order by-1
+ %\else
+ % FIXME:
+ % we have either the 'x=1cm' or 'y=1cm' option!
+ % How should I initialise the trafo!?
+ % \data@dimen@order=3
+ %\fi
+ %
%\message{Direction #1: data max order=\the\data@max@order; data dimen order=\the\data@dimen@order. }%
- \data@EXPONENT=\data@dimen@order
- \advance\data@EXPONENT by-\data@max@order
- % Now, I introduce a loop which shall avoid cancellation of
- % significant digits.
- %
- % Harmless Example:
- % if we have data shift = -3 and
- % max = 2e6, min = 1e6, then max-min = 1e6; T(max)-T(min) = 1e3 which is ok.
- % In this case, the loop won't change anything.
- %
- % Critical Example:
- % if we have data shift = -3 and
- % max = 1980, min = 1930 then
- % T(max) = 1.98 and T(min) = 1.93
- % and thus T(max)-T(min) = 0.05 .
- % Considering that this is the axis range
- % in which tick labels and plot points need to be computed, we
- % only have two or three digits left! That happens because the
- % prefix '19' is common and is cancelled in the subtraction.
- % Idea: while T(max)-T(min) < O(10^2) -> increase shift by +1
- % (and make sure that T(max) < MAX_VALID_TEX_NUMBER).
- %
- \pgfplots@loop@CONTINUEtrue
- \expandafter\edef\csname pgfplots@data@scale@trafo@SHIFT@#1\endcsname{0}%
- \pgfutil@loop
- \expandafter\edef\csname pgfplots@data@scale@trafo@EXPONENT@#1\endcsname{\the\data@EXPONENT}%
- \pgfplots@actual@trafo{\pgfplots@data@min@float}%
- \let\pgfplots@min@fixed=\pgfmathresult
- \ifpgfplots@loop@CONTINUE
- \pgfplots@actual@trafo{\pgfplots@data@max@float}%
- \let\pgfplots@max@fixed=\pgfmathresult
- \expandafter\data@tmp\pgfplots@max@fixed pt
+ \data@EXPONENT=\data@dimen@order
+ \advance\data@EXPONENT by-\data@max@order
+ % Now, I introduce a loop which shall avoid cancellation of
+ % significant digits.
+ %
+ % Harmless Example:
+ % if we have data shift = -3 and
+ % max = 2e6, min = 1e6, then max-min = 1e6; T(max)-T(min) = 1e3 which is ok.
+ % In this case, the loop won't change anything.
+ %
+ % Critical Example:
+ % if we have data shift = -3 and
+ % max = 1980, min = 1930 then
+ % T(max) = 1.98 and T(min) = 1.93
+ % and thus T(max)-T(min) = 0.05 .
+ % Considering that this is the axis range
+ % in which tick labels and plot points need to be computed, we
+ % only have two or three digits left! That happens because the
+ % prefix '19' is common and is cancelled in the subtraction.
+ % Idea: while T(max)-T(min) < O(10^2) -> increase shift by +1
+ % (and make sure that T(max) < MAX_VALID_TEX_NUMBER).
+ %
+ \def\pgfplotscoordmathnotifydatascalesetfor##1{}% disable temporarily. We are just testing it.
+ \pgfplots@loop@CONTINUEtrue
+ \pgfutil@loop
+ \pgfplotscoordmath{#1}{datascaletrafo set params}{\the\data@EXPONENT}{0}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\pgfplots@data@min@float}%
+ \let\pgfplots@min@fixed=\pgfmathresult
+ \ifpgfplots@loop@CONTINUE
+ \pgfplotscoordmath{#1}{datascaletrafo}{\pgfplots@data@max@float}%
+ \let\pgfplots@max@fixed=\pgfmathresult
+ \data@tmp=\pgfplots@max@fixed pt
%\message{Current trafo EXPONENT for #1 direction: \the\data@EXPONENT; original #1 data limits: [\pgfplots@data@min@float:\pgfplots@data@max@float]; current transformed #1 limits: [\pgfplots@min@fixed:\pgfplots@max@fixed]; cancellation check max-min running...}%
- \ifdim\data@tmp<0pt
- % I need absolute values here:
- \multiply\data@tmp by-1\relax
- \fi
- \pgfmathsubtract@{\pgfplots@max@fixed}{\pgfplots@min@fixed}%
- \expandafter\data@dimen\pgfmathresult pt
- \pgfplots@loop@CONTINUEfalse
- \ifdim\data@tmp<1500pt % a multiplication with '10' results in max = 15000 which is the upper limit.
- \ifdim\data@dimen<100pt % I guess if max-min = O(100), we have quite good accuracy
- \ifdim\data@dimen<0.0001pt
- \else
- \advance\data@EXPONENT by1
- \pgfplots@loop@CONTINUEtrue
+ \ifdim\data@tmp<0pt
+ % I need absolute values here:
+ \multiply\data@tmp by-1\relax
+ \fi
+ \pgfmathsubtract@{\pgfplots@max@fixed}{\pgfplots@min@fixed}%
+ \data@dimen=\pgfmathresult pt
+ \pgfplots@loop@CONTINUEfalse
+ \ifdim\data@tmp<1500pt % a multiplication with '10' results in max = 15000 which is the upper limit.
+ \ifdim\data@dimen<100pt % I guess if max-min = O(100), we have quite good accuracy
+ \ifdim\data@dimen<0.0001pt
+ \else
+ \advance\data@EXPONENT by1
+ \pgfplots@loop@CONTINUEtrue
+ \fi
\fi
\fi
- \fi
- %--------------------------------------------------
- % \ifdim\data@dimen>1200pt% FIXME : is this here ok!? CHECK IT!
- % \ifdim\data@dimen>7999pt
- % \advance\data@EXPONENT by-2
- % \else
- % \advance\data@EXPONENT by-1
- % \fi
- % \pgfplots@loop@CONTINUEfalse
- % \fi
- %--------------------------------------------------
- \pgfutil@repeat
- \xdef\pgfplots@glob@TMPa{\csname pgfplots@data@scale@trafo@EXPONENT@#1\endcsname}%
- \xdef\pgfplots@glob@TMPb{\pgfplots@min@fixed}%
- \endgroup
-%\message{Initialising the data scale transformation in direction #1 to 10^\pgfplots@glob@TMPa*#1 - \pgfplots@glob@TMPb...}%
- % COMPLETE INITIALISATION:
- \ifpgfplots@disabledatascaling
- % this here is a waste of time, I know it. One could really
- % safe a lot of CPU time when disabledatascaling is enabled...
- % but it requires so much extra cases; I really don't want
- % that!
- \gdef\pgfplots@glob@TMPa{0}%
- \gdef\pgfplots@glob@TMPb{0}%
+ %--------------------------------------------------
+ % \ifdim\data@dimen>1200pt% FIXME : is this here ok!? CHECK IT!
+ % \ifdim\data@dimen>7999pt
+ % \advance\data@EXPONENT by-2
+ % \else
+ % \advance\data@EXPONENT by-1
+ % \fi
+ % \pgfplots@loop@CONTINUEfalse
+ % \fi
+ %--------------------------------------------------
+ \pgfutil@repeat
+ \xdef\pgfplots@glob@TMPa{\the\data@EXPONENT}%
+ \xdef\pgfplots@glob@TMPb{\pgfplots@min@fixed}%
+ \endgroup
\fi
- \expandafter\let\csname pgfplots@data@scale@trafo@EXPONENT@#1\endcsname\pgfplots@glob@TMPa
- \expandafter\let\csname pgfplots@data@scale@trafo@SHIFT@#1\endcsname\pgfplots@glob@TMPb%
+ % COMPLETE INITIALISATION:
+%\message{Initialising the data scale transformation in direction #1 to 10^\pgfplots@glob@TMPa*#1 - \pgfplots@glob@TMPb...}%
+ \pgfplotscoordmath{#1}{datascaletrafo set params}{\pgfplots@glob@TMPa}{\pgfplots@glob@TMPb}%
%
% ... and apply transformation to any user input
%
% Transform axis limits:
%\message{#1- display limits BEFORE data transformation: [\csname pgfplots@#1min\endcsname:\csname pgfplots@#1max\endcsname]}%
- \expandafter\expandafter\csname pgfplots@datascaletrafo@#1\endcsname\expandafter{\csname pgfplots@#1min\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\csname pgfplots@#1min\endcsname}%
\expandafter\global\expandafter\let\csname pgfplots@#1min\endcsname=\pgfmathresult
%
- \expandafter\expandafter\csname pgfplots@datascaletrafo@#1\endcsname\expandafter{\csname pgfplots@#1max\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\csname pgfplots@#1max\endcsname}%
\expandafter\global\expandafter\let\csname pgfplots@#1max\endcsname=\pgfmathresult
%\message{#1- display limits after data transformation: [\csname pgfplots@#1min\endcsname:\csname pgfplots@#1max\endcsname]}%
% Transform tick limits (if they are set):
%\message{#1- display tick limits BEFORE data transformation: [\csname pgfplots@#1tickmin\endcsname:\csname pgfplots@#1tickmax\endcsname]}%
\expandafter\ifx\csname pgfplots@#1tickmin\endcsname\pgfutil@empty
\else
- \expandafter\expandafter\csname pgfplots@datascaletrafo@#1\endcsname\expandafter{\csname pgfplots@#1tickmin\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\csname pgfplots@#1tickmin\endcsname}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmin\endcsname=\pgfmathresult
\fi
%
\expandafter\ifx\csname pgfplots@#1tickmax\endcsname\pgfutil@empty
\else
- \expandafter\expandafter\csname pgfplots@datascaletrafo@#1\endcsname\expandafter{\csname pgfplots@#1tickmax\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\csname pgfplots@#1tickmax\endcsname}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmax\endcsname=\pgfmathresult
\fi
%\message{#1- display tick limits after data transformation: [\csname pgfplots@#1tickmin\endcsname:\csname pgfplots@#1tickmax\endcsname]}%
@@ -4357,7 +4711,6 @@
% this here should also work with 'xtick=\pgfutil@empty', the "No tick" command.
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \t@pgfplots@tokc=\expandafter{\csname pgfplots@datascaletrafo@#1\endcsname}%
\def\pgfplots@loc@TMPb{data}%
\ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
% we have #1tick = data
@@ -4367,15 +4720,19 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@firstplot@coords@#1\endcsname
\expandafter\pgfplotsutil@unify@short@csv@list\expandafter{\pgfplots@loc@TMPa}%
\t@pgfplots@toka=\expandafter{\pgfplotsretval}%
- \edef\pgfplots@loc@TMPa{{\the\t@pgfplots@toka}\the\t@pgfplots@tokc}%
- \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks@isfloat\pgfplots@loc@TMPa\to\pgfplots@loc@TMPc
+ \edef\pgfplots@loc@TMPa{{\the\t@pgfplots@toka}}%
+ \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks@isfloat\pgfplots@loc@TMPa
+ {\pgfplotscoordmath{#1}{datascaletrafo}}%
+ \to\pgfplots@loc@TMPc
% clear structure:
\expandafter\global\expandafter\let\csname pgfplots@firstplot@coords@#1\endcsname=\pgfutil@empty
\else
\t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPa}%
%\message{Converting #1tick='\csname pgfplots@#1tick\endcsname'}%
- \edef\pgfplots@loc@TMPa{{\the\t@pgfplots@toka}\the\t@pgfplots@tokc}%
- \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks\pgfplots@loc@TMPa\to\pgfplots@loc@TMPc
+ \edef\pgfplots@loc@TMPa{{\the\t@pgfplots@toka}}%
+ \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks\pgfplots@loc@TMPa
+ {\pgfplotscoordmath{#1}{datascaletrafo}}%
+ \to\pgfplots@loc@TMPc
\fi
\expandafter\let\csname pgfplots@#1tick\endcsname=\pgfplots@loc@TMPc
\fi
@@ -4384,17 +4741,29 @@
\edef\pgfplots@loc@TMPa{\csname pgfplots@extra@#1tick\endcsname}%
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \t@pgfplots@tokc=\expandafter{\csname pgfplots@datascaletrafo@#1\endcsname}%
- \edef\pgfplots@loc@TMPa{{\csname pgfplots@extra@#1tick\endcsname}\the\t@pgfplots@tokc}%
- \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks\pgfplots@loc@TMPa\to\pgfplots@loc@TMPc
+ \edef\pgfplots@loc@TMPa{{\csname pgfplots@extra@#1tick\endcsname}}%
+ \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks\pgfplots@loc@TMPa
+ {\pgfplotscoordmath{#1}{datascaletrafo}}%
+ \to\pgfplots@loc@TMPc
\expandafter\let\csname pgfplots@extra@#1tick\endcsname=\pgfplots@loc@TMPc
\fi
%
+ % Convert any minor tick lists in the same way.
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \edef\pgfplots@loc@TMPa{{\pgfplots@loc@TMPa}}%
+ \expandafter\pgfplots@apply@data@scale@trafo@to@user@ticks\pgfplots@loc@TMPa
+ {\pgfplotscoordmath{#1}{datascaletrafo}}%
+ \to\pgfplots@loc@TMPc
+ \pgfkeyslet{/pgfplots/minor #1tick}\pgfplots@loc@TMPc
+ \fi
+ %
% Transform any explicit axis unit scalings:
% WILL BE DONE LATER!
}{%
% case apply trafo == false:
- \expandafter\def\csname pgfplots@data@scale@trafo@SHIFT@#1\endcsname{0}%
+ \pgfplotscoordmath{#1}{datascaletrafo set params}{0}{0}%
\def\pgfplots@loc@TMPb{data}%
\expandafter\ifx\csname pgfplots@#1tick\endcsname\pgfplots@loc@TMPb
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@firstplot@coords@#1\endcsname
@@ -4412,31 +4781,26 @@
\newif\ifpgfplots@determinedefaultvalues@needs@check@uniformtick
\newif\ifpgfplots@limits@are@computed
+\def\pgfplots@handle@invalid@range@defaultlimits{%
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \global\let\pgfplots@xmin=\pgfmathresult
+ \pgfplotscoordmath{x}{parsenumber}{1}%
+ \global\let\pgfplots@xmax=\pgfmathresult
+ \global\let\pgfplots@data@xmin=\pgfplots@xmin
+ \global\let\pgfplots@data@xmax=\pgfplots@xmax
+ %
+ \pgfplotscoordmath{y}{parsenumber}{0}%
+ \global\let\pgfplots@ymin=\pgfmathresult
+ \pgfplotscoordmath{y}{parsenumber}{1}%
+ \global\let\pgfplots@ymax=\pgfmathresult
+ \global\let\pgfplots@data@ymin=\pgfplots@ymin
+ \global\let\pgfplots@data@ymax=\pgfplots@ymax
+}
\def\pgfplots@handle@invalid@range{%
% COMPLETELY EMPTY AXIS:
\pgfplots@warning{You have an axis with empty range. Replacing it with a default range and clearing all plots.}%
- \ifpgfplots@xislinear
- \pgfmathfloatcreate{0}{0.0}{0}%
- \global\let\pgfplots@xmin=\pgfmathresult
- \pgfmathfloatcreate{1}{1.0}{0}%
- \global\let\pgfplots@xmax=\pgfmathresult
- \global\let\pgfplots@data@xmin=\pgfplots@xmin
- \global\let\pgfplots@data@xmax=\pgfplots@xmax
- \else
- \gdef\pgfplots@xmin{0}%
- \gdef\pgfplots@xmax{1}%
- \fi
- \ifpgfplots@yislinear
- \pgfmathfloatcreate{0}{0.0}{0}%
- \global\let\pgfplots@ymin=\pgfmathresult
- \pgfmathfloatcreate{1}{1.0}{0}%
- \global\let\pgfplots@ymax=\pgfmathresult
- \global\let\pgfplots@data@ymin=\pgfplots@ymin
- \global\let\pgfplots@data@ymax=\pgfplots@ymax
- \else
- \gdef\pgfplots@ymin{0}%
- \gdef\pgfplots@ymax{1}%
- \fi
+ \pgfplots@handle@invalid@range@defaultlimits
+ %
\pgfplots@threedimfalse
\def\pgfplots@xtick{}%
\def\pgfplots@ytick{}%
@@ -4492,20 +4856,20 @@
\else
% there is a rare change that min > max.
% Handle that ...
- \pgfplotsmathfloatmin{\pgfplots@xmin}{\pgfplots@xmax}%
+ \pgfplotscoordmath{x}{min}{\pgfplots@xmin}{\pgfplots@xmax}%
\global\let\pgfplots@xmin=\pgfmathresult
- \pgfplotsmathfloatmax{\pgfplots@xmin}{\pgfplots@xmax}%
+ \pgfplotscoordmath{x}{max}{\pgfplots@xmin}{\pgfplots@xmax}%
\global\let\pgfplots@xmax=\pgfmathresult
%
- \pgfplotsmathfloatmin{\pgfplots@ymin}{\pgfplots@ymax}%
+ \pgfplotscoordmath{y}{min}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymin=\pgfmathresult
- \pgfplotsmathfloatmax{\pgfplots@ymin}{\pgfplots@ymax}%
+ \pgfplotscoordmath{y}{max}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymax=\pgfmathresult
%
\ifpgfplots@threedim
- \pgfplotsmathfloatmin{\pgfplots@zmin}{\pgfplots@zmax}%
+ \pgfplotscoordmath{z}{min}{\pgfplots@zmin}{\pgfplots@zmax}%
\global\let\pgfplots@zmin=\pgfmathresult
- \pgfplotsmathfloatmax{\pgfplots@zmin}{\pgfplots@zmax}%
+ \pgfplotscoordmath{z}{max}{\pgfplots@zmin}{\pgfplots@zmax}%
\global\let\pgfplots@zmax=\pgfmathresult
\fi
\fi
@@ -4532,31 +4896,6 @@
\def\pgfplots@determinedefaultvalues{%
\pgfplots@check@invalid@range
%
- %--------------------------------------------------
- %FIXME
- % \ifpgfplots@float@numerics@mode@x
- % \pgfplotsmathfloatmin{\pgfplots@xmin}{\pgfplots@xmax}%
- % \let\pgfplots@xmin=\pgfmathresult
- % \pgfplotsmathfloatmax{\pgfplots@xmin}{\pgfplots@xmax}%
- % \let\pgfplots@xmax=\pgfmathresult
- % \else
- % \pgfplotsmathmin{\pgfplots@xmin}{\pgfplots@xmax}%
- % \let\pgfplots@xmin=\pgfmathresult
- % \pgfplotsmathmax{\pgfplots@xmin}{\pgfplots@xmax}%
- % \let\pgfplots@xmax=\pgfmathresult
- % \fi
- % \ifpgfplots@float@numerics@mode@y
- % \pgfplotsmathfloatmin{\pgfplots@ymin}{\pgfplots@ymax}%
- % \let\pgfplots@ymin=\pgfmathresult
- % \pgfplotsmathfloatmax{\pgfplots@ymin}{\pgfplots@ymax}%
- % \let\pgfplots@ymax=\pgfmathresult
- % \else
- % \pgfplotsmathmin{\pgfplots@ymin}{\pgfplots@ymax}%
- % \let\pgfplots@ymin=\pgfmathresult
- % \pgfplotsmathmax{\pgfplots@ymin}{\pgfplots@ymax}%
- % \let\pgfplots@ymax=\pgfmathresult
- % \fi
- %--------------------------------------------------
%\message{untransformed: x = [\pgfplots@xmin:\pgfplots@xmax] y = [\pgfplots@ymin:\pgfplots@ymax]. }%
%
%
@@ -4578,200 +4917,146 @@
%
% From now on, we can always work with pgfmath.
% We simply need to apply the data scaling trafo before doing so.
- \pgfkeysgetvalue{/pgfplots/minor x tick num}\pgfplots@minor@xtick@num
- \ifpgfplots@xislinear
- \ifnum\pgfplots@minor@xtick@num=0\relax
- \pgfplots@xminorticksfalse
- \pgfplots@xminorgridsfalse
- \else
- \pgfplots@xminortickstrue
- \fi
- \fi
- %
\pgfplots@enlarge@limit@ifconfigured x
\pgfplots@avoid@empty@axis@range@for x%
%
- \pgfkeysgetvalue{/pgfplots/minor y tick num}\pgfplots@minor@ytick@num
- \ifpgfplots@yislinear
- \ifnum\pgfplots@minor@ytick@num=0\relax
- \pgfplots@yminorticksfalse
- \pgfplots@yminorgridsfalse
- \else
- \pgfplots@yminortickstrue
- \fi
- \fi
\pgfplots@enlarge@limit@ifconfigured y
\pgfplots@avoid@empty@axis@range@for y%
\ifpgfplots@threedim
- \pgfkeysgetvalue{/pgfplots/minor z tick num}\pgfplots@minor@ztick@num
- \ifpgfplots@zislinear
- \ifnum\pgfplots@minor@ztick@num=0\relax
- \pgfplots@zminorticksfalse
- \pgfplots@zminorgridsfalse
- \else
- \pgfplots@zminortickstrue
- \fi
- \fi
\pgfplots@enlarge@limit@ifconfigured z
\pgfplots@avoid@empty@axis@range@for z%
\fi
%
- %
\pgfplots@initsizes
%
+ \pgfplots@limits@ready
+ \pgfplotspoint@initialisation
+ %
%
\pgfplots@BEGIN@prepare@description@styles
%
%
+ \pgfplots@init@ticks@for x%
+ \pgfplots@init@ticks@for y%
+ \ifpgfplots@threedim
+ \pgfplots@init@ticks@for z%
+ \fi
+ \pgfplots@init@ticks@ready
+ %
+ %
+ \pgfplots@prepare@ZERO@coordinates
%
+ \pgfplots@decide@which@figure@surfaces@are@drawn
+ \pgfplots@init@ticklabelaxisspec
+ %
+ \pgfplots@define@threedim@marks
+ %
+ \pgfplots@clippath@prepare
+ %
+ \pgfplots@ticklabel@maxtickdimen@reset x%
+ \pgfplots@ticklabel@maxtickdimen@reset y%
+ \pgfplots@ticklabel@maxtickdimen@reset z%
+}
+\def\pgfplots@init@ticks@ready{}%
+\def\pgfplots@init@ticks@for#1{%
\pgfplots@isuniformticktrue
\pgfplots@determinedefaultvalues@needs@check@uniformticktrue
- \ifx\pgfplots@xtick\pgfutil@empty
- \pgfplots@assign@default@tick@foraxis{x}%
+ \expandafter\ifx\csname pgfplots@#1tick\endcsname\pgfutil@empty
+ \pgfplots@assign@default@tick@foraxis{#1}%
\fi
\ifpgfplots@determinedefaultvalues@needs@check@uniformtick
- \ifpgfplots@xislinear
- \expandafter\pgfplots@checkisuniformLINEARtick\expandafter{\pgfplots@xtick}{\pgfplots@tick@distance@x}%
- \else
- \expandafter\pgfplots@checkisuniformLOGtick\expandafter{\pgfplots@xtick}%
- \fi
+ \expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tick\endcsname
+ \pgfplots@if{pgfplots@#1islinear}{%
+ \def\pgfplots@loc@TMPb{\expandafter\pgfplots@checkisuniformLINEARtick\expandafter{\pgfplots@loc@TMPa}}%
+ \expandafter\pgfplots@loc@TMPb\csname pgfplots@tick@distance@#1\endcsname%
+ }{%
+ \expandafter\pgfplots@checkisuniformLOGtick\expandafter{\pgfplots@loc@TMPa}%
+ }%
\fi
+ \pgfplots@check@for@minor@ticks{#1}%
\ifpgfplots@isuniformtick
\else
- \pgfplots@xminorticksfalse
- \pgfplots@xminorgridsfalse
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPb
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ \csname pgfplots@#1minorticksfalse\endcsname
+ \csname pgfplots@#1minorgridsfalse\endcsname
+ \fi
\fi
%
- \if0\pgfplots@xaxislinesnum\else
- % axis x line* != box
- \let\pgfplots@xticklabel@pos=\pgfutil@empty
- \fi
- \if0\pgfplots@yaxislinesnum\else
- % axis y line* != box
- \let\pgfplots@yticklabel@pos=\pgfutil@empty
+ \expandafter\ifx\csname pgfplots@#1ticklabel\endcsname\pgfutil@empty
+ \pgfplots@if{pgfplots@#1islinear}{%
+ \expandafter\def\csname pgfplots@#1ticklabel\endcsname{\axisdefaultticklabel}%
+ }{%
+ \expandafter\def\csname pgfplots@#1ticklabel\endcsname{\axisdefaultticklabellog}%
+ }%
\fi
- \if0\pgfplots@zaxislinesnum\else
- % axis y line* != box
- \let\pgfplots@zticklabel@pos=\pgfutil@empty
+ \expandafter\ifx\csname pgfplots@extra@#1ticklabel\endcsname\pgfutil@empty
+ \pgfutil@namelet{pgfplots@extra@#1ticklabel}{pgfplots@#1ticklabel}%
\fi
%
- \ifx\pgfplots@xticklabel@pos\pgfutil@empty
- \def\pgfplots@xticklabel@pos{%
- \if3\pgfplots@xtickposnum% right
- u%
- \else
- l%
- \fi
- }%
+ \if0\csname pgfplots@#1axislinesnum\endcsname\else
+ % axis x line* != box
+ \expandafter\let\csname pgfplots@#1ticklabel@pos\endcsname=\pgfutil@empty
\fi
- \ifx\pgfplots@yticklabel@pos\pgfutil@empty
- \def\pgfplots@yticklabel@pos{%
- \if3\pgfplots@ytickposnum% right
+ \expandafter\ifx\csname pgfplots@#1ticklabel@pos\endcsname\pgfutil@empty
+ \expandafter\def\csname pgfplots@#1ticklabel@pos\endcsname{%
+ \if3\csname pgfplots@#1tickposnum\endcsname% right
u%
\else
l%
\fi
}%
\fi
- \ifx\pgfplots@zticklabel@pos\pgfutil@empty
- \def\pgfplots@zticklabel@pos{%
- \if3\pgfplots@ztickposnum% right
- u%
- \else
- l%
+}%
+
+\def\pgfplots@check@for@minor@ticks#1{%
+ \pgfkeysgetvalue{/pgfplots/minor #1 tick num}\pgfplots@loc@TMPa
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPb
+ \pgfplots@if{pgfplots@#1islinear}{%
+ \ifnum\pgfplots@loc@TMPa=0\relax
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ \csname pgfplots@#1minorticksfalse\endcsname
+ \csname pgfplots@#1minorgridsfalse\endcsname
\fi
- }%
- \fi
- %
- \ifx\pgfplots@xticklabel\pgfutil@empty
- \ifpgfplots@xislinear
- \def\pgfplots@xticklabel{\axisdefaultticklabel}%
\else
- \def\pgfplots@xticklabel{\axisdefaultticklabellog}%
+ \csname pgfplots@#1minortickstrue\endcsname
\fi
- \fi
- \ifx\pgfplots@extra@xticklabel\pgfutil@empty
- \let\pgfplots@extra@xticklabel=\pgfplots@xticklabel
- \fi
- %
- %
- %
- \pgfplots@isuniformticktrue
- \pgfplots@determinedefaultvalues@needs@check@uniformticktrue
- \ifx\pgfplots@ytick\pgfutil@empty
- \pgfplots@assign@default@tick@foraxis{y}%
- \fi
- \ifpgfplots@determinedefaultvalues@needs@check@uniformtick
- \ifpgfplots@yislinear
- \expandafter\pgfplots@checkisuniformLINEARtick\expandafter{\pgfplots@ytick}{\pgfplots@tick@distance@y}%
- \else
- \expandafter\pgfplots@checkisuniformLOGtick\expandafter{\pgfplots@ytick}%
- \fi
- \fi
- \ifpgfplots@isuniformtick
+ }{%
+ }%
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
\else
- \pgfplots@yminorticksfalse
- \pgfplots@yminorgridsfalse
- \fi
- %
- \ifx\pgfplots@yticklabel\pgfutil@empty
- \ifpgfplots@yislinear
- \def\pgfplots@yticklabel{\axisdefaultticklabel}%
- \else
- \def\pgfplots@yticklabel{\axisdefaultticklabellog}%
- \fi
- \fi
- \ifx\pgfplots@extra@yticklabel\pgfutil@empty
- \let\pgfplots@extra@yticklabel=\pgfplots@yticklabel
+ \csname pgfplots@#1minortickstrue\endcsname
\fi
- %
+}
+
+% Invoked as soon as all axis limits are ready and final (in TeX
+% number range, all data scaling is applied at this point).
+\def\pgfplots@limits@ready{%
+ \pgfplots@limits@ready@tostring{x}{min}%
+ \pgfplots@limits@ready@tostring{x}{max}%
+ \pgfplots@limits@ready@tostring{y}{min}%
+ \pgfplots@limits@ready@tostring{y}{max}%
\ifpgfplots@threedim
- \pgfplots@isuniformticktrue
- \pgfplots@determinedefaultvalues@needs@check@uniformticktrue
- \ifx\pgfplots@ztick\pgfutil@empty
- \pgfplots@assign@default@tick@foraxis{z}%
- \fi
- \ifpgfplots@determinedefaultvalues@needs@check@uniformtick
- \ifpgfplots@zislinear
- \expandafter\pgfplots@checkisuniformLINEARtick\expandafter{\pgfplots@ztick}{\pgfplots@tick@distance@z}%
- \else
- \expandafter\pgfplots@checkisuniformLOGtick\expandafter{\pgfplots@ztick}%
- \fi
- \fi
- \ifpgfplots@isuniformtick
- \else
- \pgfplots@zminorticksfalse
- \pgfplots@zminorgridsfalse
- \fi
- %
- \ifx\pgfplots@zticklabel\pgfutil@empty
- \ifpgfplots@zislinear
- \def\pgfplots@zticklabel{\axisdefaultticklabel}%
- \else
- \def\pgfplots@zticklabel{\axisdefaultticklabellog}%
- \fi
- \fi
- \ifx\pgfplots@extra@zticklabel\pgfutil@empty
- \let\pgfplots@extra@zticklabel=\pgfplots@zticklabel
- \fi
+ \pgfplots@limits@ready@tostring{z}{min}%
+ \pgfplots@limits@ready@tostring{z}{max}%
\fi
- %
- %
- \pgfplots@prepare@ZERO@coordinates
- %
- \pgfplotspoint@initialisation
- %
- \pgfplots@decide@which@figure@surfaces@are@drawn
- %
- \pgfplots@define@threedim@marks
- %
- \pgfplots@clippath@prepare
- %
- \pgfplots@ticklabel@maxtickdimen@reset x%
- \pgfplots@ticklabel@maxtickdimen@reset y%
- \pgfplots@ticklabel@maxtickdimen@reset z%
-}
+}%
+
+% write a limit into /pgfplots/#1#2
+% #1: either x,y or z
+% #2: either 'min' or 'max'
+%
+% \pgfplots@limits@ready@tostring{x}{min}
+\def\pgfplots@limits@ready@tostring#1#2{%
+ \pgfplots@if{pgfplots@apply@datatrafo@#1}{%
+ \pgfplotscoordmath{#1}{datascaletrafo inverse}{\csname pgfplots@#1#2\endcsname}%
+ }{%
+ \edef\pgfmathresult{\csname pgfplots@#1#2\endcsname}%
+ }%
+ \pgfplotscoordmath{#1}{tostring}{\pgfmathresult}%
+ \pgfkeyslet{/pgfplots/#1#2}\pgfmathresult
+}%
% Defines \pgfmathresult to be the desired width without axis labels.
%
@@ -4833,11 +5118,13 @@
{\pgf@sys@tonumber\pgf@xa}%
{\pgf@sys@tonumber\pgf@xb}%
}%
-%\pgfplots@message{pgfplots.sty: Computing 'x' such that 'width = c + x*(xmax-xmin)';
-% c=estimated,
-% width-c =\the\pgf@xa,
-% x*(xmax[=\the\pgfplots@xcoordmaxTEX] - xmin[=\the\pgfplots@xcoordminTEX)]) = \the\pgf@xb
-% -> x-scale =#2 }%
+%--------------------------------------------------
+% \message{pgfplots.sty: Computing 'x' such that 'width = c + x*(xmax-xmin)';
+% c=estimated,
+% width-c =\the\pgf@xa,
+% x*(xmax - xmin)]) = \the\pgf@xb
+% -> x-scale =\pgfmathresult }%
+%--------------------------------------------------
\pgfmath@smuggleone\pgfmathresult
\endgroup
\let#2=\pgfmathresult
@@ -4900,7 +5187,7 @@
\fi
\fi
\ifpgfplots@avoid@emptyrange@@range@is@approx@equal
- \pgfplots@warning{Axis range for axis #1 is approximately empty; enlargeing it.}%
+ \pgfplots@warning{Axis range for axis #1 is approximately empty; enlarging it.}%
% the case \pgfplots@@min ~= \pgfplots@@max
%
% enlarge \pgfplots@@max and shrink \min:
@@ -4930,39 +5217,45 @@
% -> we need to enlarge limits in floating
% point arithmetics.
%
- \pgfmathfloatcreate{0}{0.0}{0}%
+ \pgfplotscoordmath{#1}{parsenumber}{0}%
\let\pgfplotsmath@zero=\pgfmathresult
%
\ifx\max@unscaled\pgfplotsmath@zero
% max == 0
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{#1}{parsenumber}{1}%
\let\max@unscaled=\pgfmathresult
- \pgfmathfloatcreate{2}{1.0}{0}%
+ \pgfplotscoordmath{#1}{parsenumber}{-1}%
\let\min@unscaled=\pgfmathresult
\else
%
- \pgfmathfloatcreate{1}{1.2}{0}%
+ \pgfplotscoordmath{#1}{parsenumber}{1.2}%
\let\pgfplotsmath@scalea=\pgfmathresult
- \pgfmathfloatcreate{1}{8.0}{-1}%
+ \pgfplotscoordmath{#1}{parsenumber}{8e-1}%
\let\pgfplotsmath@scaleb=\pgfmathresult
%
- \pgfmathfloatlessthan@{\pgfplotsmath@zero}{\max@unscaled}%
- \ifpgfmathfloatcomparison
- % 0 < max
- \pgfmathfloatmultiply@{\max@unscaled}{\pgfplotsmath@scalea}%
- \let\max@unscaled=\pgfmathresult
- \pgfmathfloatmultiply@{\min@unscaled}{\pgfplotsmath@scaleb}%
- \let\min@unscaled=\pgfmathresult
- \else
- \pgfmathfloatmultiply@{\max@unscaled}{\pgfplotsmath@scaleb}%
- \let\max@unscaled=\pgfmathresult
- \pgfmathfloatmultiply@{\min@unscaled}{\pgfplotsmath@scalea}%
- \let\min@unscaled=\pgfmathresult
- \fi
+ \pgfplotscoordmath{#1}{if less than}
+ {\pgfplotsmath@zero}{\max@unscaled}%
+ {%
+ % 0 < max
+ \pgfplotscoordmath{#1}{op}{multiply}
+ {{\max@unscaled}{\pgfplotsmath@scalea}}%
+ \let\max@unscaled=\pgfmathresult
+ \pgfplotscoordmath{#1}{op}{multiply}
+ {{\min@unscaled}{\pgfplotsmath@scaleb}}%
+ \let\min@unscaled=\pgfmathresult
+ }%
+ {%
+ \pgfplotscoordmath{#1}{op}{multiply}
+ {{\max@unscaled}{\pgfplotsmath@scaleb}}%
+ \let\max@unscaled=\pgfmathresult
+ \pgfplotscoordmath{#1}{op}{multiply}
+ {{\min@unscaled}{\pgfplotsmath@scalea}}%
+ \let\min@unscaled=\pgfmathresult
+ }%
\fi
- \csname pgfplots@datascaletrafo@#1\endcsname{\min@unscaled}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\min@unscaled}%
\let\pgfplots@@min=\pgfmathresult
- \csname pgfplots@datascaletrafo@#1\endcsname{\max@unscaled}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\max@unscaled}%
\let\pgfplots@@max=\pgfmathresult
\min@d=\pgfplots@@min pt
\max@d=\pgfplots@@max pt
@@ -5013,89 +5306,102 @@
\pgfkeysgetvalue{/pgfplots/x}{\pgfplots@x}%
\pgfkeysgetvalue{/pgfplots/y}{\pgfplots@y}%
\pgfkeysgetvalue{/pgfplots/z}{\pgfplots@z}%
+ %\pgfkeysgetvalue{/pgfplots/viewdir}{\pgfplots@viewdir}%
\pgfkeysgetvalue{/pgfplots/width}{\pgfplots@width}%
\pgfkeysgetvalue{/pgfplots/height}{\pgfplots@height}%
\ifx\pgfplots@width\pgfutil@empty
+ \def\pgfplots@user@provided@width{0}%
\else
+ \def\pgfplots@user@provided@width{1}%
\pgfmathparse{\pgfplots@width}%
\edef\pgfplots@width{\pgfmathresult pt}%
\fi
\ifx\pgfplots@height\pgfutil@empty
+ \def\pgfplots@user@provided@height{0}%
\else
+ \def\pgfplots@user@provided@height{1}%
\pgfmathparse{\pgfplots@height}%
\edef\pgfplots@height{\pgfmathresult pt}%
\fi
%
% CASES:
- % hasx := 'x' option non-empty
- % hasy := 'y' option non-empty
% W := 'width' option non-empty
% H := 'height' option non-empty
%
- % hasx = 1 -> width is not interesting; we use 'x' option.
- % hasx = 0 -> determine final width:
% W H
% 0 0 -> \axisdefaultwidth
% 0 1 -> determine width out of H and the default aspect ratio
% 1 X -> ok, use the user parameter.
- %
- % hasy = 1 -> height is not interesting, we use 'y' option.
- % hasy = 0 -> determine final height:
- % W H
- % 0 0 -> \axisdefaultheight
- % X 1 -> ok, use the user parameter
- % 1 0 -> determine height out of W and the default aspect ratio
- %
- \ifx\pgfplots@x\pgfutil@empty
- \ifx\pgfplots@y\pgfutil@empty
- % hasx=0, hasy=0
- %
- % -> KEEP ASPECT RATIO if just one W, or H is given!
- \ifx\pgfplots@width\pgfutil@empty
- \ifx\pgfplots@height\pgfutil@empty
- % The case hasx=0, hasy=0, W=0 H=0:
- \let\pgfplots@width=\axisdefaultwidth
- \let\pgfplots@height=\axisdefaultheight
- \else
- % The case hasx=0, hasy=0, W=0 H=1:
- \pgfplots@compute@default@aspect@ratio
- \expandafter\pgfmath@y\pgfplots@height
- \pgfmathlog@invoke@expanded\pgfmathmultiply@{%
- {\pgf@sys@tonumber{\pgfmath@y}}%
- {\pgfplots@default@aspect@ratio}%
- }%
- \edef\pgfplots@width{\pgfmathresult pt}%
- \fi
- \else
- \ifx\pgfplots@height\pgfutil@empty
- % The case hasx=0, hasy=0, W=1 H=0:
- \pgfplots@compute@default@aspect@ratio
- \expandafter\pgfmath@x\pgfplots@width
- \pgfmathlog@invoke@expanded\pgfmathdivide@{%
- {\pgf@sys@tonumber{\pgfmath@x}}%
- {\pgfplots@default@aspect@ratio}%
- }%
- \edef\pgfplots@height{\pgfmathresult pt}%
- \else
- % The case hasx=0, hasy=0, W=1 H=1:
- \fi
- \fi
+ % -> KEEP ASPECT RATIO if just one W, or H is given!
+ \ifx\pgfplots@width\pgfutil@empty
+ \ifx\pgfplots@height\pgfutil@empty
+ % The case W=0 H=0:
+ \let\pgfplots@width=\axisdefaultwidth
+ \let\pgfplots@height=\axisdefaultheight
\else
- % hasx=0, hasy=1, W=0:
- \ifx\pgfplots@width\pgfutil@empty
- \let\pgfplots@width=\axisdefaultwidth
- \fi
+ % The case W=0 H=1:
+ \pgfplots@compute@default@aspect@ratio
+ \expandafter\pgfmath@y\pgfplots@height
+ \pgfmathlog@invoke@expanded\pgfmathmultiply@{%
+ {\pgf@sys@tonumber{\pgfmath@y}}%
+ {\pgfplots@default@aspect@ratio}%
+ }%
+ \edef\pgfplots@width{\pgfmathresult pt}%
\fi
\else
- \ifx\pgfplots@y\pgfutil@empty
- % hasx=1, hasy=0, H=0
- \ifx\pgfplots@height\pgfutil@empty
- \let\pgfplots@height=\axisdefaultheight
- \fi
+ \ifx\pgfplots@height\pgfutil@empty
+ % The case W=1 H=0:
+ \pgfplots@compute@default@aspect@ratio
+ \expandafter\pgfmath@x\pgfplots@width
+ \pgfmathlog@invoke@expanded\pgfmathdivide@{%
+ {\pgf@sys@tonumber{\pgfmath@x}}%
+ {\pgfplots@default@aspect@ratio}%
+ }%
+ \edef\pgfplots@height{\pgfmathresult pt}%
+ \else
+ % The case W=1 H=1:
\fi
\fi
\pgfkeyslet{/pgfplots/width}{\pgfplots@width}%
\pgfkeyslet{/pgfplots/height}{\pgfplots@height}%
+ %
+ \ifpgfplots@threedim
+ \pgfplots@set@default@size@options@threedim
+ \fi
+}
+\def\pgfplots@set@default@size@options@threedim{%
+ \pgfplots@loc@tmpfalse
+ \ifx\pgfplots@x\pgfutil@empty
+ \else
+ \pgfplots@loc@tmptrue
+ \fi
+ \ifx\pgfplots@y\pgfutil@empty
+ \else
+ \pgfplots@loc@tmptrue
+ \fi
+ \ifx\pgfplots@z\pgfutil@empty
+ \else
+ \pgfplots@loc@tmptrue
+ \fi
+ \ifpgfplots@loc@tmp
+ % oh - we have at least one of the [xyz] unit vectors!
+ % make sure all of them are there
+ \ifx\pgfplots@x\pgfutil@empty
+ \pgfplots@set@default@size@options@threedim@{x}{(1pt,0pt)}%
+ \fi
+ \ifx\pgfplots@y\pgfutil@empty
+ \pgfplots@set@default@size@options@threedim@{y}{(0pt,1pt)}%
+ \fi
+ \ifx\pgfplots@z\pgfutil@empty
+ \pgfplots@set@default@size@options@threedim@{z}{(0pt,1pt)}%
+ \fi
+ \pgfkeyslet{/pgfplots/view/az}\pgfutil@empty
+ \pgfkeyslet{/pgfplots/view/el}\pgfutil@empty
+ \fi
+}
+\def\pgfplots@set@default@size@options@threedim@#1#2{%
+ \pgfplots@error{Sorry, a 3D axis needs either NONE or ALL of "x,y,z". I found partial information, but (at least) '#1' is lacking... please add '#1'}%
+ \expandafter\def\csname pgfplots@#1\endcsname{#2}%
}
% A helper method for \pgfplots@initsizes which
@@ -5138,7 +5444,11 @@
\ifdim\pgfplots@loc@TMPa=0pt
\def\pgfmathresult{0}%
\else
- \pgfmathveclen{\csname pgf@#1x\endcsname}{\csname pgf@#1y\endcsname}%
+ \edef\pgf@marshal{%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1x\endcsname}%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1y\endcsname}%
+ }%
+ \expandafter\pgfmathveclen\pgf@marshal
\fi
\fi
% The numbers 1/||e_x|| and 1/||e_y|| are used by the tick
@@ -5170,17 +5480,18 @@
\def#4{0}% we DON'T have (#1,0) or (0,#1). At least I think so.
%
%\message{Setting unitvector(#1) to non-standard \csname pgfplots@#1\endcsname ...}%
- % FIXME : that's wrong for 3D axes!
\def\pgfplots@loc@TMPa(##1,##2){%
- \pgfmathparse{##1}%
+ \pgfplotscoordmath{default}{parse}{##1}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
\let\pgfplots@loc@TMPb=\pgfmathresult
- \pgfmathparse{##2}%
+ \pgfplotscoordmath{default}{parse}{##2}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
\let\pgfplots@loc@TMPc=\pgfmathresult
%
\pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- \csname pgfplots@inverse@datascaletrafo@tofixed@#1@noshift\endcsname{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{#1}{datascaletrafo noshift inverse to fixed}{\pgfplots@loc@TMPb}%
\let\pgfplots@loc@TMPb=\pgfmathresult
- \csname pgfplots@inverse@datascaletrafo@tofixed@#1@noshift\endcsname{\pgfplots@loc@TMPc}%
+ \pgfplotscoordmath{#1}{datascaletrafo noshift inverse to fixed}{\pgfplots@loc@TMPc}%
\let\pgfplots@loc@TMPc=\pgfmathresult
}{}%
\csname pgfset#1vec\endcsname{%
@@ -5190,12 +5501,17 @@
}%
\expandafter\pgfplots@loc@TMPa\pgfplots@loc@TMPb%
%
- \pgfmathveclen{\csname pgf@#1x\endcsname}{\csname pgf@#1y\endcsname}%
+ \edef\pgf@marshal{%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1x\endcsname}%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1y\endcsname}%
+ }%
+ \expandafter\pgfmath@basic@veclen@\pgf@marshal
+ %
\expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
\pgfplotsmath@ifzero{\pgfmathresult}{%
\expandafter\def\csname pgfplots@#1@inverseveclength\endcsname{infty}%
}{%
- \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\pgfmath@basic@reciprocal@\expandafter{\pgfmathresult}%
\expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
}%
\else
@@ -5203,8 +5519,9 @@
\def#4{1}% we have (#1,0) or (0,#1)
%\message{Setting unitvector(#1) to \csname pgfplots@#1\endcsname * e_{#2}...}%
\pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- \pgfmathparse{\csname pgfplots@#1\endcsname}%
- \expandafter\expandafter\csname pgfplots@inverse@datascaletrafo@tofixed@#1@noshift\endcsname\expandafter{\pgfmathresult}%
+ \pgfplotscoordmath{default}{parse}{\csname pgfplots@#1\endcsname}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{datascaletrafo noshift inverse to fixed}{\pgfmathresult}%
\edef\pgfplots@loc@TMPb{\pgfmathresult pt}%
}{\relax}%
\begingroup
@@ -5216,28 +5533,32 @@
\endgroup
\ifcase#2\relax
\pgfsetxvec{\pgfqpoint{\pgfplots@loc@TMPb}{0pt}}%
- \pgfmathabs@{\pgfplots@glob@TMPb}%
+ \pgfmath@basic@abs@{\pgfplots@glob@TMPb}%
\or
\pgfsetyvec{\pgfqpoint{0pt}{\pgfplots@loc@TMPb}}%
- \pgfmathabs@{\pgfplots@glob@TMPb}%
+ \pgfmath@basic@abs@{\pgfplots@glob@TMPb}%
\or
\pgfsetzvec{\pgfqpoint{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPb}}%
\ifdim\pgfplots@loc@TMPb=0pt
\def\pgfmathresult{0}%
\else
- \pgfmathveclen{\csname pgf@#1x\endcsname}{\csname pgf@#1y\endcsname}%
+ \edef\pgf@marshal{%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1x\endcsname}%
+ {\expandafter\pgf@sys@tonumber\csname pgf@#1y\endcsname}%
+ }%
+ \expandafter\pgfmath@basic@veclen@\pgf@marshal
\fi
\fi
\expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
\pgfplotsmath@ifzero{\pgfmathresult}{%
\expandafter\def\csname pgfplots@#1@inverseveclength\endcsname{infty}%
}{%
- \expandafter\pgfmathreciprocal@\expandafter{\pgfmathresult}%
+ \expandafter\pgfmath@basic@reciprocal@\expandafter{\pgfmathresult}%
\expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
}%
\fi
\fi
-%\message{-> got unitvector(#1) = (\the\csname pgf@#1x\endcsname, \the\csname pgf@#1y\endcsname).}%
+%\message{-> got unitvector(#1) = (\the\csname pgf@#1x\endcsname, \the\csname pgf@#1y\endcsname).^^J}%
}%
% Applies the 'axis equal' feature.
@@ -5256,142 +5577,337 @@
% transformation. All unit vector length above are only meaningful in
% the UNTRANSFORMED range, so we have to mingle with the scaling
% transformation.
-\def\pgfplots@axis@equal@apply{%
- % Step 1: compute the unit vector which STAYS CONSTANT.
- %
- % All other ones will be scaled to fit its length.
- \ifpgfplots@threedim
- \def\pgfplots@axis@equal@apply@reference{x}%
- \pgfplots@if@unitveclenlessthan@untransformed xy{%
- \pgfplots@if@unitveclenlessthan@untransformed xz{%
- \def\pgfplots@axis@equal@apply@reference{x}%
- }{}%
- }{}%
- \pgfplots@if@unitveclenlessthan@untransformed yx{%
- \pgfplots@if@unitveclenlessthan@untransformed yz{%
- \def\pgfplots@axis@equal@apply@reference{y}%
- }{}%
- }{}%
- \pgfplots@if@unitveclenlessthan@untransformed zx{%
- \pgfplots@if@unitveclenlessthan@untransformed zy{%
- \def\pgfplots@axis@equal@apply@reference{z}%
- }{}%
- }{}%
+\def\pgfplots@apply@unit@ratio{%
+ \pgfkeysgetvalue{/pgfplots/unit vector ratio}\pgfplots@unit@vector@ratio
+ \ifx\pgfplots@unit@vector@ratio\pgfutil@empty
\else
- \pgfplots@if@unitveclenlessthan@untransformed xy{%
- \def\pgfplots@axis@equal@apply@reference{x}%
- }{%
- \def\pgfplots@axis@equal@apply@reference{y}%
- }%
- \fi
-%\message{USING REFERENCE UNIT VECTOR FROM \pgfplots@axis@equal@apply@reference.}%
- \if x\pgfplots@axis@equal@apply@reference
- \else
- \pgfplots@axis@equal@apply@for x
- \fi
- \if y\pgfplots@axis@equal@apply@reference
- \else
- \pgfplots@axis@equal@apply@for y
- \fi
- \ifpgfplots@threedim
- \if z\pgfplots@axis@equal@apply@reference
- \else
- \pgfplots@axis@equal@apply@for z
+ \edef\pgfplots@unit@vector@ratio{\pgfplots@unit@vector@ratio\space1 1 }%
+ %
+ % Step 1: compute the unit vector which STAYS CONSTANT.
+ %
+ \pgfkeysgetvalue{/pgfplots/unit vector ratio axis}\pgfplots@apply@unit@ratio@reference
+ \ifx\pgfplots@apply@unit@ratio@reference\pgfutil@empty
+ \pgfplots@apply@unit@ratio@find@reference%
+ \fi
+ %
+ % FIXME : I could spent some attention here to save work:
+ % both, unit ratios and the resulting scales are computed at
+ % least twice (once in \pgfplots@apply@unit@ratio@find@reference and once in the
+ % following).
+ \expandafter\pgfplots@apply@unit@ratio@prepareratios\pgfplots@unit@vector@ratio\pgfplots@EOI
+ %
+%\message{USING REFERENCE UNIT VECTOR FROM \pgfplots@apply@unit@ratio@reference; ratio \pgfplots@unit@ratio@x\space \pgfplots@unit@ratio@y\space \pgfplots@unit@ratio@z.^^J}%
+ %
+ % Step 2: apply the scaling:
+ \pgfplots@rescale@unit@vector@reltoreference{x}{\pgfplots@unit@ratio@x}%
+ \pgfplots@rescale@unit@vector@reltoreference{y}{\pgfplots@unit@ratio@y}%
+ \ifpgfplots@threedim
+ \pgfplots@rescale@unit@vector@reltoreference{z}{\pgfplots@unit@ratio@z}%
\fi
\fi
}%
-% Scales unit vector '#1' such that it has the same length as the unit
-% vector in direction \pgfplots@axis@equal@apply@reference.
+% This macro determines the reference axis for unit vector rescaling.
+% The reference axis remains unscaled (it gets scaling factor 1 if you
+% want it this way).
+%
+% The other axes are scaled such that the desired unit vector ratios
+% are fulfilled.
%
-% The data limits for '#1' will be enlarged as well (for 'axis
-% equal').
-\def\pgfplots@axis@equal@apply@for#1{%
- \pgfmathmultiply@
- {\csname pgfplots@\pgfplots@axis@equal@apply@reference @veclength\endcsname}
- {\csname pgfplots@#1@inverseveclength\endcsname}%
- \global\let\pgfplots@glob@TMPa=\pgfmathresult
- \pgfmathmultiply@
- {\csname pgfplots@\pgfplots@axis@equal@apply@reference @inverseveclength\endcsname}
- {\csname pgfplots@#1@veclength\endcsname}%
- \global\let\pgfplots@glob@TMPb=\pgfmathresult
- %
- % If the datascaling transformation is active (which is almost
- % everytime the case here), we need to respect it here.
+% The idea to select a reference axis is as follows:
+% 1. Every unit vector scaling factor s should fulfill s <= 1.
+% 2. Choose the reference axis such that the minimal amount of scaling
+% is performed.
+%
+% The motivation for (1) is: if all involved scaling factors are at
+% most 1, the resulting picture will only become *smaller*.
+% Consequently, we can simply enlarge axis limits to restore the
+% original width/height!
+%
+% The motivation for (2) is: a huge amount of scaling might reduce the
+% size of the image too much. Of course, the figure will be enlarged
+% to fit the original width/height, but most of it will be empty. So,
+% use the smallest scaling.
+%
+% @POSTCONDITION The reference axis is stored in
+% \pgfplots@apply@unit@ratio@reference .
+%
+% @see the key 'unit vector ratio axis=y' which allows to manually
+% select the reference axis. This will illustrate what happens here.
+\def\pgfplots@apply@unit@ratio@find@reference{%
%
- % We only need to respect the SCALING, translations (shifts) are
- % not interesting.
+ \begingroup
+ \let\pgfplots@ONE=\pgf@x
+ \global\pgfplots@ONE=1.002pt
%
- % We want that || T^{-1} e_ref || = || T^{-1} E_#1 ||.
+ \def\pgfplots@optimum@sofar@axis{}%
+ \let\pgfplots@optimum@sofar@value=\pgf@y
+ \global\pgfplots@optimum@sofar@value=16000pt
%
- % So: T^{-1} E_#1 := s* T^{-1} e_#1 where
- % s = ||T^{-1} e_ref|| / || T^{-1} e_#1 ||
- % = |10^{scale_ref}| / |10^{scale_#1}| * || e_ref|| / ||e_#1||.
- %
- % Then, E_#1 = T ( T^{-1} E_#1 ) = s * e_#1.
+ %\pgfplots@apply@unit@ratio@find@reference@checkexplicitlimits
%
- % -> compute 's'! We already have the quotient of unit vectors.
- % Now, acquire the scale quotients.
+ \ifx\pgfplots@optimum@sofar@axis\pgfutil@empty
+ \ifpgfplots@threedim
+ % 3D is more complicated than 2D:
+ % for every fixed reference axis, we have to check *two*
+ % scaling factors.
+ %
+ % Furthermore, the optimality condition (2) needs to be
+ % performed on the maximum max{1-s_a, 1-s_b} provided both of
+ % these numbers are positive.
+ %
+ \def\pgfplots@check@##1##2{%
+ % PRECONDITION: \pgfplots@apply@unit@ratio@reference is defined.
+ %
+ % renormalize \pgfplots@unit@[xyz] :
+ \expandafter\pgfplots@apply@unit@ratio@prepareratios\pgfplots@unit@vector@ratio\pgfplots@EOI
+ %
+ % compute s_a :
+ \pgfplots@getscale@unit@vector@reltoreference ##1{\csname pgfplots@unit@ratio@##1\endcsname}%
+ \let\pgfplots@scale@a=\pgfmathresult
+ %
+ % compute s_b :
+ \pgfplots@getscale@unit@vector@reltoreference ##2{\csname pgfplots@unit@ratio@##2\endcsname}%
+ \let\pgfplots@scale@b=\pgfmathresult
+ %
+ % check if the actual choice of
+ % \pgfplots@apply@unit@ratio@reference is FEASIBLE.
+ % That is the case if s_a <= 1 && s_b <= 1.
+ % We check
+ % (1 - s_a >= 0 ) && ( 1 - s_b >= 0 )
+ % instead, since I need the value
+ % max( 1-s_a, 1-s_b )
+ % anyway.
+ \def\pgfplots@ref@is@feasible{1}%
+ \pgf@xa=\pgfplots@ONE \advance\pgf@xa by-\pgfplots@scale@a pt
+ \ifdim\pgf@xa<0sp
+ \def\pgfplots@ref@is@feasible{0}%
+ \else
+ \pgf@xb=\pgfplots@ONE \advance\pgf@xb by-\pgfplots@scale@b pt
+ \ifdim\pgf@xb<0sp
+ \def\pgfplots@ref@is@feasible{0}%
+ \fi
+ \fi
+ % compute max(1-s_a,1-s_b) into \pgf@xa:
+ % pgf@xa= max(pgf@xa,pgf@xb):
+ \ifdim\pgf@xb>\pgf@xa \pgf@xa=\pgf@xb \fi
+ \if1\pgfplots@ref@is@feasible
+ \ifdim\pgf@xa<\pgfplots@optimum@sofar@value
+ % Ah, ok. The actual choice is BETTER as it
+ % involves less scaling.
+ %
+ % Remember it!
+ \let\pgfplots@optimum@sofar@axis=\pgfplots@apply@unit@ratio@reference
+ \global\pgfplots@optimum@sofar@value=\pgf@xa
+ \fi
+ \fi
+%\message{^^Junit vector ratio 3D searching reference: checking \pgfplots@apply@unit@ratio@reference. feasable=\pgfplots@ref@is@feasible. \if1\pgfplots@ref@is@feasible max=\the\pgf@xa. \fi Optimum so far: value =\the\pgfplots@optimum@sofar@value\space for axis \pgfplots@optimum@sofar@axis.^^J}%
+ }%
+ %
+ % Check 'x' as reference :
+ \def\pgfplots@apply@unit@ratio@reference{x}%
+ \pgfplots@check@ yz%
+ %
+ % Check 'y' as reference :
+ \def\pgfplots@apply@unit@ratio@reference{y}%
+ \pgfplots@check@ xz%
+ %
+ % Check 'z' as reference :
+ \def\pgfplots@apply@unit@ratio@reference{z}%
+ \pgfplots@check@ xy%
+ %
+ \else
+ % 2D is much simpler: find the scale s which fulfills s <= 1.
+ % One of them MUST fulfill it.
+ %
+ % try 'x' axis as reference:
+ \def\pgfplots@apply@unit@ratio@reference{x}%
+ %
+ % renormalize:
+ \expandafter\pgfplots@apply@unit@ratio@prepareratios\pgfplots@unit@vector@ratio\pgfplots@EOI
+ %
+ % compute scaling factor:
+ \pgfplots@getscale@unit@vector@reltoreference y\pgfplots@unit@ratio@y%
+ %
+%\message{^^Junit vector ratio 2D searching reference: checking \pgfplots@apply@unit@ratio@reference. feasable=\pgfmathresult < 1: \ifdim\pgfmathresult pt <\pgfplots@ONE YES-> use x\else NO->use y\fi^^J}%
+ % and check (1). The condition (2) is irrelevant; it is met
+ % anyway.
+ \ifdim\pgfmathresult pt<\pgfplots@ONE
+ \def\pgfplots@optimum@sofar@axis{x}%
+ \else
+ \def\pgfplots@optimum@sofar@axis{y}%
+ \fi
+ \fi
+ \else
+%\message{^^Junit vector ratio chose \pgfplots@optimum@sofar@axis\space to fulfill explicitly provided limits (at least partially).^^J}%
+ \fi
%
- \begingroup
- \def\pgfplots@tmp@exponentref{0}%
- \def\pgfplots@tmp@exponentK{0}%
- \pgfplots@if{pgfplots@apply@datatrafo@\pgfplots@axis@equal@apply@reference}{%
- \pgfplots@letcsname{pgfplots@tmp@exponentref}={pgfplots@data@scale@trafo@EXPONENT@\pgfplots@axis@equal@apply@reference}%
- }{}%
- \pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- \pgfplots@letcsname{pgfplots@tmp@exponentK}={pgfplots@data@scale@trafo@EXPONENT@#1}%
- }{}%
- \c@pgf@counta=\pgfplots@tmp@exponentref
- \advance\c@pgf@counta by-\pgfplots@tmp@exponentK
- \ifnum\c@pgf@counta=0
+ \ifx\pgfplots@optimum@sofar@axis\pgfutil@empty
+ \ifpgfplots@threedim
+ \def\pgfplots@optimum@sofar@axis{z}%
\else
- \pgfplotsmathmultiplypowten@{\pgfplots@glob@TMPa}{\c@pgf@counta}%
- \global\let\pgfplots@glob@TMPa=\pgfmathresult
- \pgfplotsmathmultiplypowten@{\pgfplots@glob@TMPb}{-\c@pgf@counta}%
- \global\let\pgfplots@glob@TMPb=\pgfmathresult
+ \def\pgfplots@optimum@sofar@axis{y}%
\fi
- \xdef\pgfplots@glob@TMPc{\the\c@pgf@counta}%
+ \pgfplots@warning{The algorithm to realize 'unit vector ratio' failed! It could not determine the axis which shall be scaled and decided to use 'unit vector ratio axis=\pgfplots@optimum@sofar@axis'.}%
+ \fi
+ \let\pgfplots@apply@unit@ratio@reference=\pgfplots@optimum@sofar@axis
+ \pgfmath@smuggleone\pgfplots@apply@unit@ratio@reference
\endgroup
+}%
+\def\pgfplots@apply@unit@ratio@find@reference@checkexplicitlimits{%
+ \ifpgfplots@autocompute@ymax \else \def\pgfplots@optimum@sofar@axis{y}\fi
+ \ifpgfplots@autocompute@ymin \else \def\pgfplots@optimum@sofar@axis{y}\fi
+ \ifpgfplots@autocompute@xmax \else \def\pgfplots@optimum@sofar@axis{x}\fi
+ \ifpgfplots@autocompute@xmin \else \def\pgfplots@optimum@sofar@axis{x}\fi
+ \ifpgfplots@threedim
+ \ifpgfplots@autocompute@zmax \else \def\pgfplots@optimum@sofar@axis{z}\fi
+ \ifpgfplots@autocompute@zmin \else \def\pgfplots@optimum@sofar@axis{z}\fi
+ \fi
+}%
+
+\def\pgfplots@apply@unit@ratio@prepareratios#1 #2 #3 #4\pgfplots@EOI{%
+ \def\pgfplots@unit@ratio@x{#1}%
+ \def\pgfplots@unit@ratio@y{#2}%
+ \def\pgfplots@unit@ratio@z{#3}%
%
- \if x#1
- \pgfsetxvec{\pgfplotsqpointxy{\pgfplots@glob@TMPa}{0}}%
+ % 'unit vector ratio' is measured relative to the y axis for 2d
+ % and relative to the z axis for 3d plots.
+ % renormalize such that it is relative to
+ % \pgfplots@apply@unit@ratio@reference.
+ %
+ % Furthermore, renormalize such that
+ % unit@ratio@\pgfplots@apply@unit@ratio@reference is 1.
+ \pgfmathreciprocal@{\csname pgfplots@unit@ratio@\pgfplots@apply@unit@ratio@reference\endcsname}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \ifpgfplots@threedim
+ \if z\pgfplots@apply@unit@ratio@reference
+ \else
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@z}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \fi
+ %
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@x}%
+ \let\pgfplots@unit@ratio@x=\pgfmathresult
+ %
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@y}%
+ \let\pgfplots@unit@ratio@y=\pgfmathresult
+ %
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@z}%
+ \let\pgfplots@unit@ratio@z=\pgfmathresult
\else
- \if y#1
- \pgfsetyvec{\pgfplotsqpointxy{0}{\pgfplots@glob@TMPa}}%
+ \if y\pgfplots@apply@unit@ratio@reference
\else
- \if z#1
- \pgfsetzvec{\pgfplotsqpointxyz{0}{0}{\pgfplots@glob@TMPa}}%
- \fi
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@y}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
\fi
+ %
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@x}%
+ \let\pgfplots@unit@ratio@x=\pgfmathresult
+ %
+ \pgfmathmultiply@{\pgfplots@loc@TMPa}{\pgfplots@unit@ratio@y}%
+ \let\pgfplots@unit@ratio@y=\pgfmathresult
+ %
+ \def\pgfplots@unit@ratio@z{<unused>}%
\fi
%
- %
- % Update auxiliary data members:
- % This is only complicated due to the scaling transformation. If we would not have the scaling trafo, the following
- % code would simply copy the vector length and inverse vectors length from the reference axis.
- \pgfplotsmathmultiplypowten@{\csname pgfplots@\pgfplots@axis@equal@apply@reference @veclength\endcsname}{\pgfplots@glob@TMPc}%
- \expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
- \pgfplotsmathmultiplypowten@{\csname pgfplots@\pgfplots@axis@equal@apply@reference @inverseveclength\endcsname}{-\pgfplots@glob@TMPc}%
- \expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
- %
- %
- \ifpgfplots@axis@equal@image
+}%
+
+
+% Computes a new unit vector E_#1 for direction #1 such that
+% ||E_#1|| = #2 * ||e_reference||.
+% Here, #2 is a scaling factor and e_reference is a reference axis.
+% The reference axis is stored in
+% \pgfplots@apply@unit@ratio@reference, the macro contains one of
+% {x,y,z}.
+%
+% The data limits for '#1' will be enlarged as well (for 'unit rescale
+% keep size').
+%
+% #1 is the axis which should be scaled (i.e. #1 in {x,y,z}).
+% It is allowed if #1 = \pgfplots@apply@unit@ratio@reference. In this
+% case, you can provide a scale '#2' to rescale the axis.
+%
+% #2 is a desired scale, relative to
+% \pgfplots@apply@unit@ratio@reference. #2 should be a number without
+% unit.
+%
+% The parameter \pgfplots@apply@unit@ratio@reference is also one of
+% {x,y,z}.
+%
+\def\pgfplots@rescale@unit@vector@reltoreference#1#2{%
+ \def\pgfplots@loc@TMPa{0}%
+ \if#1\pgfplots@apply@unit@ratio@reference
+ \pgfplotsmath@ifapproxequal@dim{#2pt}{1pt}{0.0002pt}{%
+ }{%
+ \def\pgfplots@loc@TMPa{1}%
+ }%
\else
+ \def\pgfplots@loc@TMPa{1}%
+ \fi
+ \if1\pgfplots@loc@TMPa
%
- % Ok, now update the axis limits such that the axis' dimensions
- % stay the same.
+ \pgfplots@getscale@unit@vector@reltoreference{#1}{#2}%
+ \global\let\pgfplots@glob@TMPa=\pgfmathresult
%
- % My idea is to add half of the new range to 'max' and
- % subtract the other half from 'min':
- % 1/s( xmax - xmin) = (xmax+0.5d) - (xmin-0.5d) = xmax - xmin +d
- % with d = 1/s (xmax-xmin) - (xmax-xmin) = (1/s - 1) (xmax-xmin)
+%\message{Rescaling '#1' by \pgfplots@glob@TMPa.^^J}%
+ \if x#1
+ \pgfsetxvec{\pgfplotsqpointxy{\pgfplots@glob@TMPa}{0}}%
+ \else
+ \if y#1
+ \pgfsetyvec{\pgfplotsqpointxy{0}{\pgfplots@glob@TMPa}}%
+ \else
+ \if z#1
+ \pgfsetzvec{\pgfplotsqpointxyz{0}{0}{\pgfplots@glob@TMPa}}%
+ \fi
+ \fi
+ \fi
+ %
+ \pgfmathmultiply@{\csname pgfplots@#1@veclength\endcsname}{\pgfplots@glob@TMPa}%
+ \expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
+ %
+ \pgfmathreciprocal@\pgfplots@glob@TMPa
+ \global\let\pgfplots@glob@TMPb=\pgfmathresult
+ %
+ \pgfmathmultiply@{\csname pgfplots@#1@inverseveclength\endcsname}{\pgfplots@glob@TMPb}%
+ \expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
%
-%\message{'axis equal': Resizing data range for #1: from \csname pgfplots@#1min\endcsname:\csname pgfplots@#1max\endcsname\ to}%
+ %
+ \pgfplots@apply@unit@vector@rescale@keep@size{#1}{\pgfplots@glob@TMPb}%
+ %
+ \fi
+}
+
+% Updates the #1 axis limits such that the axis' dimensions
+% stay the same after scaling the #1 unit vector by a scale 's'.
+%
+% PRECONDITION:
+% - the #1 unit vector has been rescaled by a factor s.
+% For example, e_xnew := e_x * 0.5 .
+%
+% POSTCONDITION:
+% - the axis limits are enlarged by a factor 1/s such that
+% 1/s (#1max - #1min) * e_xnew = (#1max- #1min) * e_x.
+%
+% In other words, the unit vector rescale is componensated by
+% modifying the axis limits.
+%
+% My idea is to add half of the new range to 'max' and
+% subtract the other half from 'min':
+% 1/s( xmax - xmin) = (xmax+0.5d) - (xmin-0.5d) = xmax - xmin +d
+% with d = 1/s (xmax-xmin) - (xmax-xmin) = (1/s - 1) (xmax-xmin)
+%
+% #1: either x, y or z. It denotes the direction which has been
+% modified.
+% #2: the INVERSE of the scaling factor, #2 = 1/s .
+%
+\def\pgfplots@apply@unit@vector@rescale@keep@size#1#2{%
+ \ifpgfplots@unit@vector@rescale@keep@size
+ %
+%\message{'unit rescale keep size': Resizing data range for #1: from \csname pgfplots@#1min\endcsname:\csname pgfplots@#1max\endcsname\ to}%
\pgfmathsubtract@{\csname pgfplots@#1max\endcsname}{\csname pgfplots@#1min\endcsname}%
\begingroup
\pgf@xa=\pgfmathresult pt
- \pgfmathsubtract@{\pgfplots@glob@TMPb}{1.0}%
+ \pgfmathsubtract@{#2}{1.0}%
\pgf@xa=\pgfmathresult \pgf@xa
\divide\pgf@xa by2
\xdef\pgfplots@glob@TMPb{\pgf@sys@tonumber{\pgf@xa}}%
@@ -5405,6 +5921,85 @@
% Update auxiliary data members:
\pgfplots@visphase@notify@changeofcanvaslimits{#1}%
\fi
+}%
+
+% #1: an axis which should be scaled
+% #2: the desired final ratio ||e_#1||/||e_ref||
+\def\pgfplots@getscale@unit@vector@reltoreference#1#2{%
+ %
+ % If the datascaling transformation is active (which is almost
+ % everytime the case here), we have a transformation
+ % T^{-1}(x)= 10^scale * x
+ % with different scales for every axis.
+ %
+ % If the datascaling transformation is NOT active, scale is 0
+ % and T^{-1} = Identity.
+ %
+ % Note that the datascaling transformation also has
+ % translations (shifts). These are not important here.
+ %
+ % Goal:
+ % compute E_#1 such that
+ % #2* || T^{-1} e_ref || = || T^{-1} E_#1 ||
+ % where T^{-1} is the data scaling transformation and e_ref the
+ % reference unit vector. Keep in mind that there are
+ % *different* data scaling transformations for each axis.
+ %
+ % We are given e_ref and e_#1 and the desired aspect ratio
+ % between e_ref and E_#1, which is available as #2.
+ %
+ % So: T^{-1} E_#1 := s* T^{-1} e_#1 where
+ % s = #2 * ||T^{-1} e_ref|| / || T^{-1} e_#1 ||
+ % = |10^{scale_ref}| / |10^{scale_#1}| * #2 * || e_ref|| / ||e_#1||.
+ %
+ % Then, E_#1 = T ( T^{-1} E_#1 ) = s * e_#1.
+ %
+ % -> compute 's'!
+ %
+ % Part 1: compute
+ % #2 * ||e_ref|| / ||e_#1||.
+ %
+ \pgfmathmultiply@
+ {\csname pgfplots@\pgfplots@apply@unit@ratio@reference @veclength\endcsname}
+ {\csname pgfplots@#1@inverseveclength\endcsname}%
+ \pgfmathmultiply@
+ {\pgfmathresult}%
+ {#2}%
+ \global\let\pgfplots@glob@TMPa=\pgfmathresult
+ %
+ % also compute 1/s, required as temporary value:
+ %\pgfmathmultiply@
+ % {\csname pgfplots@\pgfplots@apply@unit@ratio@reference @inverseveclength\endcsname}
+ % {\csname pgfplots@#1@veclength\endcsname}%
+ %\ifdim#2pt=1pt
+ %\else
+ % \pgfmathdivide@{\pgfmathresult}{#2}%
+ %\fi
+ %\global\let\pgfplots@glob@TMPb=\pgfmathresult
+ %
+ % Part 2: handle data scaling trafo scales:
+ \begingroup
+ \def\pgfplots@tmp@exponentref{0}%
+ \def\pgfplots@tmp@exponentK{0}%
+ \pgfplots@if{pgfplots@apply@datatrafo@\pgfplots@apply@unit@ratio@reference }{%
+ \pgfplots@letcsname{pgfplots@tmp@exponentref}={pgfplots@data@scale@trafo@EXPONENT@\pgfplots@apply@unit@ratio@reference }%
+ }{}%
+ \pgfplots@if{pgfplots@apply@datatrafo@#1}{%
+ \pgfplots@letcsname{pgfplots@tmp@exponentK}={pgfplots@data@scale@trafo@EXPONENT@#1}%
+ }{}%
+ \c@pgf@counta=\pgfplots@tmp@exponentref\relax
+ \advance\c@pgf@counta by-\pgfplots@tmp@exponentK\relax
+ \ifnum\c@pgf@counta=0
+ \else
+ \pgfplotsmathmultiplypowten@{\pgfplots@glob@TMPa}{\c@pgf@counta}%
+ \global\let\pgfplots@glob@TMPa=\pgfmathresult
+ % \pgfplotsmathmultiplypowten@{\pgfplots@glob@TMPb}{-\c@pgf@counta}%
+ % \global\let\pgfplots@glob@TMPb=\pgfmathresult
+ \fi
+ \xdef\pgfplots@glob@TMPc{\the\c@pgf@counta}%
+ \endgroup
+ \let\pgfmathresult=\pgfplots@glob@TMPa
+%\message{\string\pgfplots@getscale@unit@vector@reltoreference{#1}{#2} (reference \pgfplots@apply@unit@ratio@reference) = \pgfmathresult.^^J}%
}
% should be invoked whenever \pgfplots@#1min or \pgfplots@#1max have
@@ -5414,18 +6009,32 @@
\csname pgfplots@#1min@reg\endcsname=\csname pgfplots@#1min\endcsname pt %
\csname pgfplots@#1max@reg\endcsname=\csname pgfplots@#1max\endcsname pt %
\pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- \csname pgfplots@inverse@datascaletrafo@#1\endcsname{\csname pgfplots@#1min\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo inverse}{\csname pgfplots@#1min\endcsname}%
\expandafter\let\csname pgfplots@#1min@unscaled@as@float\endcsname=\pgfmathresult
- \csname pgfplots@inverse@datascaletrafo@#1\endcsname{\csname pgfplots@#1max\endcsname}%
+ \pgfplotscoordmath{#1}{datascaletrafo inverse}{\csname pgfplots@#1max\endcsname}%
\expandafter\let\csname pgfplots@#1max@unscaled@as@float\endcsname=\pgfmathresult
}{}%
}%
-% Invokes #3 if
+% Invokes #3 if ||D_#1||_CANVAS < ||D_#2||_CANVAS and #4 if that is not the case.
+% Here D_x = (1,0,0) , D_y = (0,1,0) and D_z=(0,0,1).
+%
+% Due to the data scaling transformation,
+% ||D_a|| = || T(1) * e_a||
+% where e_x, e_y, e_z are the lowlevel, transformed unit vectors.
+% We have
+% ||D_a|| = T(1) * veclen_a.
+% Note that the shift in T is not of interest, we only deal with
+% T_a(x) = 10^{s_a} x.
+%
+% Thus, this routine invokes #3 if
% ( 10^{s1} * veclen1 < 10^{s2} * veclen2 )
% <=>
% ( 10^{s1-s2} * veclen1 < veclen2 ).
%
+% Here s1/s2 are the respective scales of the data scaling
+% transformation.
+%
% If the condition is false, '#4' is invoked.
\def\pgfplots@if@unitveclenlessthan@untransformed#1#2#3#4{%
\def\pgfplots@loc@TMPa{0}%
@@ -5437,15 +6046,19 @@
\pgfplots@letcsname{pgfplots@loc@TMPb}={pgfplots@data@scale@trafo@EXPONENT@#2}%
}{}%
\begingroup
+%\message{[comparison: [#1] < [#2]: 10^\pgfplots@loc@TMPa\space * \csname pgfplots@#1@veclength\endcsname < 10^\pgfplots@loc@TMPb\space * \csname pgfplots@#2@veclength\endcsname]^^J}%
\pgf@xb=\csname pgfplots@#2@veclength\endcsname pt
+ %
\c@pgf@counta=\pgfplots@loc@TMPa
\advance\c@pgf@counta by-\pgfplots@loc@TMPb
+ %
\ifnum\c@pgf@counta=0
\pgf@xa=\csname pgfplots@#1@veclength\endcsname pt
\else
\pgfplotsmathmultiplypowten@{\csname pgfplots@#1@veclength\endcsname}{\c@pgf@counta}%
\pgf@xa=\pgfmathresult pt
\fi
+ %
\ifdim\pgf@xa<\pgf@xb
\gdef\pgfplots@glob@TMPc{1}%
\else
@@ -5483,14 +6096,6 @@
\pgfplots@zmax@reg=\pgfplots@zmax pt %
\fi
%
- \pgfpointdiff
- {\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}
- {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}%
- % only used temporarily in this macro to compute the correct
- % length for unit vectors:
- \edef\pgfplots@initsizes@axisdiag@x{\the\pgf@x}%
- \edef\pgfplots@initsizes@axisdiag@y{\the\pgf@y}%
- %
%
%-----------------------------------------
% PROCESS THE 'width' and 'height' options
@@ -5506,13 +6111,24 @@
% FIXME
\let\pgfplots@view@el=\pgfutil@empty
\let\pgfplots@view@az=\pgfutil@empty
- \def\pgfplots@view@dir@threedim@x{0}%
- \def\pgfplots@view@dir@threedim@y{0}%
- \def\pgfplots@view@dir@threedim@z{1}%
\fi
\ifx\pgfplots@view@az\pgfutil@empty
+ % Note that in presence of "x,y,z" options, the
+ % \pgfplots@set@default@size@options RESETS /pgfplots/view/az.
+ %
%\let\pgfplots@rectangle@width=\pgfutil@empty
%\let\pgfplots@rectangle@height=\pgfutil@empty
+ \def\pgfplots@view@dir@threedim@x{0}%
+ \def\pgfplots@view@dir@threedim@y{0}%
+ \def\pgfplots@view@dir@threedim@z{1}%
+ %
+ \pgfpointdiff
+ {\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}
+ {\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}%
+ % only used temporarily in this macro to compute the correct
+ % length for unit vectors:
+ \edef\pgfplots@initsizes@axisdiag@x{\the\pgf@x}%
+ \edef\pgfplots@initsizes@axisdiag@y{\the\pgf@y}%
%
\ifx\pgfplots@x\pgfutil@empty
\ifx\pgfplots@width\pgfutil@empty
@@ -5545,17 +6161,26 @@
\pgfplots@initsizes@setunitvector{x}{0}{\pgfplots@tmpXscale}{\pgfplots@tmp@xisaxisparallel}%
\pgfplots@initsizes@setunitvector{y}{1}{\pgfplots@tmpYscale}{\pgfplots@tmp@yisaxisparallel}%
\pgfplots@initsizes@setunitvector{z}{2}{\pgfplots@tmpZscale}{\pgfplots@loc@TMPc}%
+ \ifcase\pgfplots@scale@mode@choice\relax
+ % scale mode=auto : do nothing in this context.
+ \else
+ \pgfplots@scale@axisbox@to@widthheight
+ \fi
+ \ifpgfplots@threedim
+ \pgfplotsgetnormalforcurrentview
+ \fi
\else
- % 3D case is currently always initialised by `view':
+ % 3D case by `view':
\let\pgfplots@x=\pgfutil@empty
\let\pgfplots@y=\pgfutil@empty
\let\pgfplots@z=\pgfutil@empty
+ % this invokes \pgfplots@scale@plotbox@to@widthheight automatically.
\pgfplotssetaxesfromazel{\pgfplots@view@az}{\pgfplots@view@el}{\pgfplots@tmp@xisaxisparallel}%
\if1\pgfplots@tmp@xisaxisparallel%
\def\pgfplots@tmp@yisaxisparallel{1}%
\fi
\fi
-%\message{Pgfplots debug: initialised unit vectors to x=(\the\pgf@xx,\the\pgf@xy), y=(\the\pgf@yx,\the\pgf@yy), z=(\the\pgf@zx,\the\pgf@zy). }%
+%\message{Pgfplots debug: initialised unit vectors to x=(\the\pgf@xx,\the\pgf@xy), y=(\the\pgf@yx,\the\pgf@yy), z=(\the\pgf@zx,\the\pgf@zy), n = (\pgfplots@view@dir@threedim@x,\pgfplots@view@dir@threedim@y,\pgfplots@view@dir@threedim@z).^^J }%
%
\let\pgfplotsmathfloatviewdepthxyz@=\pgfplotsmathfloatviewdepthxyz@infigure
\let\pgfplotsmathviewdepthxyz@=\pgfplotsmathviewdepthxyz@infigure
@@ -5573,124 +6198,33 @@
\fi
\fi
\fi
- \ifpgfplots@axis@equal@image
- \pgfplots@axis@equaltrue
- \fi
- \ifpgfplots@axis@equal
- \pgfplots@axis@equal@apply
- \fi
- %
- % Determine final rectangle dimensions.
- % There are the following cases:
- % 1. the user really wants a fixed dimension,
- % i.e. he used 'scale only axis'.
- % Then, we have to work to get the correct dimension!
- %
- % Up to now, the scaling mechanism looses to many significant
- % digits such that the final width/height differs by 1-2 pt.
- %
- % If I am not mistaken, this does ONLY affect the final size,
- % not the relative plot precision.
- %
- % FIXME : really compute the plot precision!
- %
- % 2. The use specified width and/or height, but not 'scale only
- % axis'. Accept inaccurate final widths/heights (see above).
- %
- % 3. The user supplied 'x' and or 'y'. Simply use them, its
- % accurate.
+ \pgfplots@apply@unit@ratio
%
- \begingroup
+ \pgfplots@axis@apply@post@scale x
+ \pgfplots@axis@apply@post@scale y
\ifpgfplots@threedim
- \def\pgfplotspointmaxminmin{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymin}{\pgfplots@zmin}}%
- \def\pgfplotspointminmaxmin{\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymax}{\pgfplots@zmin}}%
- \pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmin}%
- \else
- \def\pgfplotspointmaxminmin{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}%
- \def\pgfplotspointminmaxmin{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}%
- \pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}%
+ \pgfplots@axis@apply@post@scale z
\fi
- \xdef\pgfplotspointminminmin{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- % ATTENTION: I re-use registers here! Make sure they won't be
- % overwritten! \pgfpointdiff and \pgfplotsqpointxy are ok in this respect.
- \let\pgfplots@xcoordminTEX=\pgf@xb
- \let\pgfplots@ycoordminTEX=\pgf@yb
- \pgfplots@xcoordminTEX=\pgf@x
- \pgfplots@ycoordminTEX=\pgf@y
- %
- %--------------------------------------------------
- % FIXME : WHAT IS THIS HERE FOR?
- % \pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}%
- % \ifx\pgfplots@rectangle@width\pgfutil@empty
- % \def\pgfplots@tmp@xmax@ymin{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}%
- % \else
- % % this 'if' here should only make a difference of about
- % % 1-2pt, not more.
- % %
- % % and I am quite sure that this inaccuracy (and this
- % % work-around) only affects the
- % % final size, not the relative plot accuracy.
- % \pgf@x=\pgfplots@xcoordminTEX
- % \advance\pgf@x by\pgfplots@width
- % \edef\pgfplots@tmp@xmax@ymin{\noexpand\pgfqpoint{\the\pgf@x}{\noexpand\pgfplots@ycoordminTEX}}%
- % \fi
- % \ifx\pgfplots@rectangle@height\pgfutil@empty
- % \def\pgfplots@tmp@xmin@ymax{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}%
- % \else
- % \pgf@x=\pgfplots@ycoordminTEX
- % \advance\pgf@x\pgfplots@height
- % \edef\pgfplots@tmp@xmin@ymax{\noexpand\pgfqpoint{\noexpand\pgfplots@xcoordminTEX}{\the\pgf@x}}%
- % \fi
- %--------------------------------------------------
- \pgfpointdiff
- {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
- {\pgfplotspointmaxminmin}%
- \xdef\pgfplotspointxaxis{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- \pgfmathveclen{\pgf@x}{\pgf@y}%
- \xdef\pgfplotspointxaxislength{\pgfmathresult pt}%
- %
- \pgfpointdiff
- {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
- {\pgfplotspointminmaxmin}%
- \xdef\pgfplotspointyaxis{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- \pgfmathveclen{\pgf@x}{\pgf@y}%
- \xdef\pgfplotspointyaxislength{\pgfmathresult pt}%
+}
+\def\pgfplots@axis@apply@post@scale#1{%
%
- \ifpgfplots@threedim
- \pgfpointdiff
- {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
- {\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmax}}%
- \xdef\pgfplotspointzaxis{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- \pgfmathveclen{\pgf@x}{\pgf@y}%
- \xdef\pgfplotspointzaxislength{\pgfmathresult pt}%
- %
- \pgfpointscale
- {0.5}%
- {\pgfplotspointxaxis
- \pgf@xa=\pgf@x
- \pgf@xb=\pgf@y
- \pgfplotspointyaxis%
- \advance\pgf@xa by\pgf@x
- \advance\pgf@xb by\pgf@y
- \pgfplotspointzaxis%
- \advance\pgf@xa by\pgf@x
- \advance\pgf@xb by\pgf@y
- \global\pgf@x=\pgf@xa
- \global\pgf@y=\pgf@xb
- }%
- \xdef\pgfplotspointcenter{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ \pgfkeysgetvalue{/pgfplots/#1 post scale}\pgfmathresult
+ \ifx\pgfmathresult\pgfutil@empty
\else
- \global\let\pgfplotspointzaxis=\pgfpointorigin
- \gdef\pgfplotspointzaxislength{0pt}%
- \pgfpointscale
- {0.5}%
- {\pgfpointadd
- \pgfplotspointxaxis%
- \pgfplotspointyaxis%
- }%
- \xdef\pgfplotspointcenter{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ \pgfmathparse{\pgfmathresult}%
+ \ifdim\pgfmathresult pt=1pt
+ \else
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \csname pgf@#1x\endcsname=\pgfmathresult\csname pgf@#1x\endcsname
+ \csname pgf@#1y\endcsname=\pgfmathresult\csname pgf@#1y\endcsname
+ %
+ \pgfmathmultiply@{\csname pgfplots@#1@veclength\endcsname}{\pgfplots@loc@TMPa}%
+ \expandafter\let\csname pgfplots@#1@veclength\endcsname=\pgfmathresult
+ %
+ \pgfmathdivide@{\csname pgfplots@#1@inverseveclength\endcsname}{\pgfplots@loc@TMPa}%
+ \expandafter\let\csname pgfplots@#1@inverseveclength\endcsname=\pgfmathresult
+ \fi
\fi
- \endgroup
}
% This here is a low-weight node. It can ONLY be used during axis
@@ -5980,14 +6514,28 @@
%%
%%
\anchorborder{%
- % Call a function that computes a border point. Since this
- % function will modify dimensions like \pgf@x, we must move them to
- % other dimensions.
- \pgfutil@tempdima=\pgf@x
- \pgfutil@tempdimb=\pgf@y
- \pgfpointborderrectangle%
- {\pgfpoint{\pgfutil@tempdima}{\pgfutil@tempdimb}}%
- {\upperrightcorner}%
+ % remember the input coords:
+ \edef\pgfplots@loc@TMPa{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ %
+ % I want to use \pgfpointborderrectangle which expects that
+ % (0,0) is the CENTER.
+ % Ok, then: shift it:
+ \pgfpointadd
+ {\lowerleftinnercorner}%
+ {\pgfpointscale
+ {0.5}
+ {\innerdiagonal}}%
+ \edef\pgfplots@loc@center{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ \pgfpointadd{%
+ \pgfpointborderrectangle%
+ {\pgfplots@loc@TMPa}%
+ {\pgfpointscale
+ {0.5}
+ {\innerdiagonal}}%
+ }{%
+ % and add the center to undo the local shift:
+ \pgfplots@loc@center
+ }%
}%
\backgroundpath{%
\pgfkeysvalueof{/pgfplots/@backgroundpath@hook/.@cmd}\pgfeov
@@ -6249,6 +6797,65 @@
}{}%
}%
+
+% Defines a new axis type `#1' with initialization code `#2'.
+%
+% The name #1 will be available as value for 'axis type=#1' and
+% furthermore, an environment '\begin{#1axis}' will be available.
+%
+% For ConTeXt, the \start#1axis and \stop#1axis commands will be
+% available.
+%
+% #1: the axis type name
+% #2: initialization TeX code.
+%
+% OPTIONAL: you can provide the expected axis coordinate system in
+% square brackets.
+%
+% \pgfplotsdefineaxistype{rectangle}{...}
+% \pgfplotsdefineaxistype[polar]{polar}{...}
+\def\pgfplotsdefineaxistype{\pgfutil@ifnextchar[{\pgfplotsdefineaxistype@}{\pgfplotsdefineaxistype@[cart]}}%
+\def\pgfplotsdefineaxistype@[#1]#2#3{%
+ \expandafter\def\csname pgfplots@axistype@#2\endcsname{%
+ \pgfkeyssetvalue{/pgfplots/@expected axis cs}{#1}%
+ #3%
+ }%
+ \expandafter\def\csname pgfplots@environment@#2axis\endcsname{%
+ \pgfutil@ifnextchar[%
+ {\csname pgfplots@environment@#2axis@\endcsname}%
+ {\csname pgfplots@environment@#2axis@\endcsname[]}%
+ }%
+ \expandafter\long\expandafter\def\csname pgfplots@environment@#2axis@\endcsname[##1]{%
+ \begin{axis}[%
+ ##1,%
+ data cs=#1,% assume that coordinates provided by \addplot are in the correct coordsystem
+ axis type=#2% active the correct axis type
+ ]%
+ }%
+ \expandafter\def\csname endpgfplots@environment@#2axis\endcsname{\end{axis}}%
+ \edef\pgfplots@glob@TMPc{\expandafter\noexpand\csname #2axis\endcsname\expandafter\noexpand\csname pgfplots@environment@#2axis\endcsname}%
+ \expandafter
+ \tikzaddtikzonlycommandshortcutlet\pgfplots@glob@TMPc
+ %
+ \edef\pgfplots@glob@TMPc{\expandafter\noexpand\csname end#2axis\endcsname\expandafter\noexpand\csname endpgfplots@environment@#2axis\endcsname}%
+ \expandafter
+ \tikzaddtikzonlycommandshortcutlet\pgfplots@glob@TMPc
+ %
+ % ConTeXt compatibility:
+ \t@pgfplots@toka=\expandafter{\csname #2axis\endcsname}%
+ \t@pgfplots@tokb=\expandafter{\csname end#2axis\endcsname}%
+ \expandafter\edef\csname start#2axis\endcsname{\the\t@pgfplots@toka}%
+ \expandafter\edef\csname stop#2axis\endcsname{\the\t@pgfplots@tokb}%
+}%
+
+\def\pgfplotssetaxistype#1{%
+ \pgfutil@ifundefined{pgfplots@axistype@#1}{%
+ \pgfplots@error{Sorry, 'axis type=#1' is unknown. Maybe you need to load a proper library first or you misspelled the name? Ignoring it}%
+ }{%
+ \csname pgfplots@axistype@#1\endcsname
+ }%
+}%
+
% A command which has to be invoked BEFORE \pgfplots@draw@axis to
% prepare everything.
\def\pgfplots@draw@axis@pre{%
@@ -6285,6 +6892,8 @@
\fi
}
+\def\pgfplots@draw@axis@is@prepared{}%
+
% PRECONDITION:
% \pgfplots@draw@axis@pre has been called.
\def\pgfplots@draw@axis{%
@@ -6341,8 +6950,8 @@
%\fi
\else
% Just use the 2d-point commands (assuming Z=0)
- \let\pgfplotspointonorientedsurfaceabsetupforxyz=\pgfplotspointonorientedsurfaceabsetupforxy
- \let\pgfplotspointonorientedsurfaceabsetupforyxz=\pgfplotspointonorientedsurfaceabsetupforyx
+ \let\pgfplotspointonorientedsurfaceabsetupfor@@xyz=\pgfplotspointonorientedsurfaceabsetupfor@@xy
+ \let\pgfplotspointonorientedsurfaceabsetupfor@@yxz=\pgfplotspointonorientedsurfaceabsetupfor@@yx
\pgfplots@draw@axis@insurface@symmetric xyz
\fi
}%
@@ -6614,10 +7223,33 @@
\expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{b}%
\expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{f}%
\fi
+ \else
+ % FIXME : it might be better to implement that stuff here
+ % implicilty using the 3D algorithms.
+ %
+ % this here is the only important one:
+ \expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{b}%
+ %
+ \expandafter\def\csname pgfplots@surfviewdepth@0vv\endcsname{b}%
+ \expandafter\def\csname pgfplots@surfviewdepth@1vv\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@v0v\endcsname{b}%
+ \expandafter\def\csname pgfplots@surfviewdepth@v1v\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{f}%
+ \def\pgfplotsifaxislineisonconvexhull##1##2##3{##2}% ALWAYS TRUE
+ \def\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@##1##2##3{##2}% ALWAYS TRUE
+ %
+ \fi
+}
+
+% Initialises the 'pgfplots@[xyz]ticklabelaxisspecs' macro according to
+% the foreground/background situation of the axis and the '[xyz]ticklabel pos'
+% keys.
+\def\pgfplots@init@ticklabelaxisspec{%
+ \ifpgfplots@threedim
%
%
% Now, determine which axis line shall get tick labels.
- % The strategie is as follows:
+ % The strategy is as follows:
% - only lines on the convex hull of the 2D projected axis
% rectangle can get tick labels,
% - for each axis, there are two such choices in the general
@@ -6635,20 +7267,6 @@
%
\pgfplots@init@ticklabelaxisspecfor zx%
\else
- % FIXME : it might be better to implement that stuff here
- % implicilty using the 3D algorithms.
- %
- % this here is the only important one:
- \expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{b}%
- %
- \expandafter\def\csname pgfplots@surfviewdepth@0vv\endcsname{b}%
- \expandafter\def\csname pgfplots@surfviewdepth@1vv\endcsname{f}%
- \expandafter\def\csname pgfplots@surfviewdepth@v0v\endcsname{b}%
- \expandafter\def\csname pgfplots@surfviewdepth@v1v\endcsname{f}%
- \expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{f}%
- \def\pgfplotsifaxislineisonconvexhull##1##2##3{##2}% ALWAYS TRUE
- \def\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@##1##2##3{##2}% ALWAYS TRUE
- %
\pgfplotspointcenter
\edef\pgfplots@tmp@centerx{\the\pgf@x}%
\edef\pgfplots@tmp@centery{\the\pgf@y}%
@@ -6657,10 +7275,10 @@
%
\pgfplots@init@ticklabelaxisspec@twodim@for yx%
\fi
-}
+}%
% A helper method which is to be invoked ONLY inside of
-% \pgfplots@decide@which@figure@surfaces@are@drawn.
+% \pgfplots@init@ticklabelaxisspec.
% It does NOT work outside of it.
%
% It initialises the 'pgfplots@#1ticklabelaxisspec' macro according to
@@ -6677,7 +7295,6 @@
%
% POSTCONDITION:
% - pgfplots@#1ticklabelaxisspec is set,
-% - pgfplots@#1ticklabel@suggested@anchor is set
%
% @see also \pgfplots@init@ticklabelaxisspec@twodim@for
\def\pgfplots@init@ticklabelaxisspecfor#1#2{%
@@ -6783,7 +7400,7 @@
% #3 : the direction which is currently fixed.
\def\pgfplots@draw@axis@insurface#1#2#3{%
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawgridlines@onorientedsurf
%
\pgfplots@drawticklines@onorientedsurf
@@ -6796,7 +7413,7 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@extra@#1tick\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\expandafter\pgfplots@draw@extra@ticks@onorientedsurf\expandafter{\pgfplots@loc@TMPa}%
\fi
}%
@@ -6808,32 +7425,32 @@
% with slightly optimized execution sequence.
\def\pgfplots@draw@axis@insurface@symmetric#1#2#3{%
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawgridlines@onorientedsurf
}%
\pgfplots@if{pgfplots@hide@#2}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#2#1#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #2#1#3%
\pgfplots@drawgridlines@onorientedsurf
}%
%
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawticklines@onorientedsurf
}%
\pgfplots@if{pgfplots@hide@#2}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#2#1#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #2#1#3%
\pgfplots@drawticklines@onorientedsurf
}%
%
\ifpgfplots@separate@axis@lines
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawaxis@outerlines@separate@onorientedsurf#1#2%
\pgfplots@drawaxis@innerlines@onorientedsurf#1#2#3%
}%
%
\pgfplots@if{pgfplots@hide@#2}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#2#1#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #2#1#3%
\pgfplots@drawaxis@outerlines@separate@onorientedsurf#2#1%
\pgfplots@drawaxis@innerlines@onorientedsurf#2#1#3%
}%
@@ -6844,11 +7461,11 @@
\fi
%
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawticklabels@onorientedsurf
}%
\pgfplots@if{pgfplots@hide@#2}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#2#1#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #2#1#3%
\pgfplots@drawticklabels@onorientedsurf
}%
%
@@ -6856,7 +7473,7 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@extra@#1tick\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\expandafter\pgfplots@draw@extra@ticks@onorientedsurf\expandafter{\pgfplots@loc@TMPa}%
\fi
}%
@@ -6864,7 +7481,7 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@extra@#2tick\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotspointonorientedsurfaceabsetupfor#2#1#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #2#1#3%
\expandafter\pgfplots@draw@extra@ticks@onorientedsurf\expandafter{\pgfplots@loc@TMPa}%
\fi
}%
@@ -6872,7 +7489,7 @@
\def\pgfplots@draw@axis@insurface@onlyticksandgrid#1#2#3{%
\pgfplots@if{pgfplots@hide@#1}{\relax}{%
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\pgfplots@drawgridlines@onorientedsurf
\pgfplots@drawticklines@onorientedsurf
%
@@ -6881,7 +7498,7 @@
\else
\begingroup
\let\pgfplots@drawticklabels@onorientedsurf=\relax
- \csname pgfplotspointonorientedsurfaceabsetupfor#1#2#3\endcsname
+ \pgfplotspointonorientedsurfaceabsetupfor #1#2#3%
\expandafter\pgfplots@draw@extra@ticks@onorientedsurf\expandafter{\pgfplots@loc@TMPa}%
\endgroup
\fi
@@ -6944,7 +7561,9 @@
\endgroup
\expandafter\pgfsettransformentries\pgfplots@glob@TMPa{0pt}{0pt}%
%
+ %
\pgfplots@draw@axis@pre
+ \pgfplots@draw@axis@is@prepared
\scope
%
\pgfkeysifdefined{/pgfplots/axis background/.@cmd}{%
@@ -6962,26 +7581,26 @@
\pgfplotspointbb@assertvaluesexist%
}
-% Defines \pgfplots@clippath@install.
-% @PRECONDITION the axis limits must be ready.
-\def\pgfplots@clippath@prepare{%
- \def\pgfplots@clippath@use@##1{%
- \ifx\pgfplotspoint@bb@@@\relax
- % remember the axis dimensions as well:
- \ifdim\pgf@pathmaxx=-16000pt
- \else
- \begingroup
- \pgf@xa=\pgf@pathmaxx
- \advance\pgf@xa by-\pgf@pathminx
- \pgf@ya=\pgf@pathmaxy
- \advance\pgf@ya by-\pgf@pathminy
- \xdef\pgfplots@glob@TMPa{{\the\pgf@pathminx}{\the\pgf@pathminy}{\the\pgf@xa}{\the\pgf@ya}}%
- \endgroup
- \global\let\pgfplotspoint@bb@@@=\pgfplots@glob@TMPa
- \fi
+% something which is invoked after a clippath segment is complete.
+% #1 should be something like \pgfusepath{clip}
+\def\pgfplots@clippath@use@#1{%
+ \ifx\pgfplotspoint@bb@@@\relax
+ % remember the axis dimensions:
+ \ifdim\pgf@pathmaxx=-16000pt
+ \else
+ \begingroup
+ \pgf@xa=\pgf@pathmaxx
+ \advance\pgf@xa by-\pgf@pathminx
+ \pgf@ya=\pgf@pathmaxy
+ \advance\pgf@ya by-\pgf@pathminy
+ \xdef\pgfplots@glob@TMPa{{\the\pgf@pathminx}{\the\pgf@pathminy}{\the\pgf@xa}{\the\pgf@ya}}%
+ \endgroup
+ \global\let\pgfplotspoint@bb@@@=\pgfplots@glob@TMPa
\fi
- ##1%
- }%
+ \fi
+ #1%
+}%
+\def\pgfplots@clippath@prepare@for@axistype{%
\ifpgfplots@threedim
% FIXME : this can't be done in three dimensions. :-(
% -> for 3d, I need to clip at least the 2d projection.
@@ -7212,18 +7831,60 @@
\endgroup
\let\pgfplots@clippath@install=\pgfplots@glob@TMPa
\fi
- % FIXME : workaround clear path sizes at beginning! This shouldn't
- % be necessary!
- \expandafter\def
- \expandafter\pgfplots@clippath@install
- \expandafter##%
- \expandafter1%
- \expandafter{%
- \expandafter\pgf@resetpathsizes
- \pgfplots@clippath@install{##1}%
- }%
+}%
+% Defines \pgfplots@clippath@install.
+% @PRECONDITION the axis limits must be ready.
+\def\pgfplots@clippath@prepare{%
+ \pgfplots@clippath@prepare@for@axistype
+ % now, the \pgfplots@clippath@install routine should be ready.
+ %
+ % it is used to compute the bounding box. prepare that:
\global\let\pgfplotspoint@bb@@@=\relax
+ %
+ % Now, I SET the clip path temporarily and record the low level
+ % protocol.
+ % This low level protocol is used to create a highly optimized
+ % clip path routine; it will be used quite often.
+ %
+ \let\pgfplots@clippath@install@pathcmd=\pgfplots@clippath@install
+ \pgf@resetpathsizes% FIXME: this here should not be necessary!
+ \pgfsysprotocol@getcurrentprotocol\pgfplots@loc@TMPa%
+ \begingroup
+ % when I do this work, I can as well compute the bounding
+ % box (done in \pgfplots@clippath@use@)
+ \pgfinterruptboundingbox
+ \pgf@relevantforpicturesizetrue
+ %
+ \pgfsysprotocol@bufferedtrue%
+ \pgfsysprotocol@setcurrentprotocol\pgfutil@empty%
+ % \pgfplots@clippath@install@pathcmd{\pgfusepath{clip}}%
+ \pgfsysprotocol@getcurrentprotocol\pgfplots@loc@TMPa%
+ \global\let\pgfplots@glob@TMPa=\pgfplots@loc@TMPa
+ \endpgfinterruptboundingbox
+ \endgroup
+ \let\pgfplots@clippath@install@clip@protocolled=\pgfplots@glob@TMPa
+ \pgfsysprotocol@setcurrentprotocol\pgfplots@loc@TMPa%
+ %
+ % Replace \pgfplots@clippath@install by one which makes use of the
+ % optimized version (if ##1=\pgfusepath{clip})
+ \def\pgfplots@clippath@install##1{%
+ \def\pgfplots@loc@TMPa{##1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@clippath@install@test
+ % the 'clip' path has been precomputed because it is often
+ % used:
+ \expandafter\pgfsys@invoke\expandafter{\pgfplots@clippath@install@clip@protocolled}%
+ % as far as I can see, this here is the only command which
+ % can't be protocolled:
+ \pgf@relevantforpicturesizefalse
+ \else
+ \pgf@resetpathsizes% FIXME: this here should not be necessary!
+ \pgfplots@clippath@install@pathcmd{##1}%
+ \fi
+ }%
+ %
}%
+\def\pgfplots@clippath@install@test{\pgfusepath{clip}X}%
+
\def\pgfplotspointbb@assertvaluesexist{%
\ifx\pgfplotspoint@bb@@@\relax
% (RE)COMPUTE:
@@ -7295,7 +7956,7 @@
\def\pgfplots@filter@input@ticks@with@log#1#2{%
\let\pgfplots@glob@TMPa=\pgfutil@empty
\foreach \pgfplots@loc@TMPb in {#1} {%
- \csname pgfplotsmathlog@#2@\endcsname{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{#2}{log}{\pgfplots@loc@TMPb}%
\ifx\pgfplots@glob@TMPa\pgfutil@empty
\xdef\pgfplots@glob@TMPa{\pgfmathresult}%
\else
@@ -7321,14 +7982,17 @@
\let\pgfmathresult=\pgfplots@glob@TMPa
}
+% definition of 'axis cs':
\tikzdeclarecoordinatesystem{axis}{\edef\pgfplots@loc@TMPa{#1}\expandafter\pgfplots@evalute@tikz@coord@system@interface\pgfplots@loc@TMPa\pgfplots@coord@end}
\def\pgfplotspointaxisxy#1#2{\pgfplots@evalute@tikz@coord@system@interface#1,#2\pgfplots@coord@end}%
\def\pgfplotspointaxisxyz#1#2#3{\pgfplots@evalute@tikz@coord@system@interface#1,#2,#3\pgfplots@coord@end}%
+% rel axis cs:
\tikzdeclarecoordinatesystem{rel axis}{\edef\pgfplots@loc@TMPa{#1}\expandafter\pgfplots@evalute@tikz@coord@system@interface@rel\pgfplots@loc@TMPa\pgfplots@coord@end}
\def\pgfplotspointrelaxisxy#1#2{\pgfplots@evalute@tikz@coord@system@interface@rel#1,#2\pgfplots@coord@end}%
\def\pgfplotspointrelaxisxyz#1#2#3{\pgfplots@evalute@tikz@coord@system@interface@rel#1,#2,#3\pgfplots@coord@end}%
+% axis description cs:
\tikzdeclarecoordinatesystem{axis description}{\edef\pgfplots@loc@TMPa{#1}\expandafter\pgfplots@evalute@tikz@coord@system@interface@axis@description\pgfplots@loc@TMPa\pgfplots@coord@end}
\def\pgfplots@evalute@tikz@coord@system@interface@axis@description#1,#2\pgfplots@coord@end{\pgfplotspointdescriptionxy{#1}{#2}}
@@ -7347,10 +8011,11 @@
\let\pgfplots@loc@TMPc=\pgfmathresult% FIXME: is that necessary? I doubt it... but just to make sure...
\csname ifpgfplots@#1islinear\endcsname
\pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- \csname pgfplots@datascaletrafo@fromfixed@#1\endcsname{\pgfplots@loc@TMPc}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@loc@TMPc}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\pgfmathresult}%
}{}%
\else
- \pgfmathlog@{\pgfplots@loc@TMPc}%
+ \pgfplotscoordmath{#1}{log}{\pgfplots@loc@TMPc}%
\fi
}
@@ -7469,7 +8134,6 @@
% See also:
% \pgfplots@check@and@apply@datatrafo@for
\def\pgfplots@prepare@coord@filtering@for#1{%
- \expandafter\let\csname pgfplotsmathlogtologten@#1@\endcsname=\pgfmathlogtologten@
\pgfkeysgetvalue{/pgfplots/#1 coord trafo/.@cmd}\pgfplots@loc@TMPc
\expandafter\let\csname pgfplots@highlevel@trafo@#1\endcsname=\pgfplots@loc@TMPc
\ifx\pgfplots@loc@TMPc\pgfplots@empty@command@key
@@ -7527,6 +8191,7 @@
\expandafter\edef\csname pgfplots@#1tick\endcsname{\pgfmathresult}%
\fi
\fi
+ %
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@extra@#1tick\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
@@ -7534,6 +8199,12 @@
\expandafter\edef\csname pgfplots@extra@#1tick\endcsname{\pgfmathresult}%
\fi
%
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \expandafter\pgfplots@filter@input@ticks@with@highleveltrafo\expandafter{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPc}%
+ \pgfkeyslet{/pgfplots/minor #1tick}\pgfmathresult
+ \fi
\fi
%
\pgfkeysgetvalue{/pgfplots/#1filter}\pgfplots@loc@TMPa
@@ -7545,6 +8216,7 @@
\pgfkeys{/pgfplots/#1 filter/.code={\csname pgfplots@#1filter@backwcompat\endcsname{##1}\to\pgfmathresult}}%
\fi
\csname ifpgfplots@#1islinear\endcsname
+ \pgfplotssetcoordmathfor{#1}{float}%
\csname pgfplots@apply@datatrafo@#1true\endcsname
\pgfplots@apply@datatrafotrue
\ifpgfplots@apply@datatrafo
@@ -7552,37 +8224,31 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1min\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1min\endcsname=\pgfmathresult
\fi
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1max\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1max\endcsname=\pgfmathresult
\fi
% Check for any existing tick limits:
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tickmin\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmin\endcsname=\pgfmathresult
\fi
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tickmax\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmax\endcsname=\pgfmathresult
\fi
\fi
\else
- \expandafter\let\csname pgfplotsmathlog@#1@\endcsname=\pgfmathlog@
- \expandafter\let\csname pgfplotsmathlogi@#1\endcsname=\logi
- \expandafter\let\csname pgfplotsmathlog@#1@float\endcsname=\pgfmathlog@float
- \expandafter\let\csname pgfplots@log@scale@todisplaylog@#1\endcsname=\logten
- \expandafter\let\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname=\reciproclogten
- \expandafter\def\csname pgfplotsmathlogscale@#1\endcsname{1}%
- \expandafter\def\csname pgfplotsmathlogscale@#1@inv\endcsname{1}%
+ \pgfplotssetcoordmathfor{#1}{pgfbasic}%
%
% This here could be done using a high level coord trafo as
% well! However, I don't want to risk accidentally overwritten
@@ -7596,38 +8262,10 @@
% log basis x={} (initial setting:)
\else
% use a different basis.
- %
- %
- \pgfmathlog@{\pgfplots@loc@TMPa}%
- \let\pgfplots@loc@TMPa=\pgfmathresult
- \pgfmathparse{1/\pgfplots@loc@TMPa}%
- \expandafter\let\csname pgfplotsmathlogscale@#1\endcsname=\pgfplots@loc@TMPa
- \expandafter\let\csname pgfplotsmathlogscale@#1@inv\endcsname=\pgfmathresult
- %
- \expandafter\edef\csname pgfplotsmathlog@#1@\endcsname##1{%
- \noexpand\pgfmathlog@{##1}%
- \noexpand\ifx\noexpand\pgfmathresult\noexpand\pgfutil@empty
- \noexpand\else
- \noexpand\expandafter\noexpand\pgfmath@basic@multiply@\noexpand\expandafter
- {\noexpand\pgfmathresult}%
- {\pgfmathresult}%
- \noexpand\fi
- }%
- \expandafter\edef\csname pgfplotsmathlog@#1@float\endcsname##1{%
- \noexpand\pgfmathlog@float{##1}%
- \noexpand\ifx\noexpand\pgfmathresult\noexpand\pgfutil@empty
- \noexpand\else
- \noexpand\expandafter\noexpand\pgfmath@basic@multiply@\noexpand\expandafter
- {\noexpand\pgfmathresult}%
- {\pgfmathresult}%
- \noexpand\fi
- }%
+ \pgfplotscoordmath{#1}{set log basis}{\pgfplots@loc@TMPa}%
%
% generate default ticks in the 'log basis', not base 10:
- \expandafter\def\csname pgfplots@log@scale@todisplaylog@#1\endcsname{1}%
- \expandafter\def\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname{1}%
\pgfplotsset{/pgfplots/log basis ticks=#1}%
- %
%
\ifdim\pgfkeysvalueof{/pgfplots/log basis #1}pt=10pt
\else
@@ -7638,39 +8276,6 @@
\expandafter\def\csname pgfplots@#1minorgridstrue\endcsname{\pgfplots@error{Sorry, minor grid lines are not supported for this log basis.}}%
\fi
\pgfkeyslet{/pgfplots/log basis #1/.@cmd}\pgfplots@cant@set@in@this@context
- %
- % recompute logtologten for this axis:
- \pgfmath@basic@multiply@{\reciproclogten}{\pgfplots@loc@TMPa}%
- \expandafter\edef\csname pgfplotsmathlogtologten@#1@\endcsname##1{%
- \noexpand\pgfmath@basic@multiply@{##1}{\pgfmathresult}%
- }%
- \begingroup
- % recompute \logi for the new basis.
- \dimen1=\logi1pt \dimen1=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen1
- \dimen2=\logi2pt \dimen2=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen2
- \dimen3=\logi3pt \dimen3=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen3
- \dimen4=\logi4pt \dimen4=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen4
- \dimen5=\logi5pt \dimen5=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen5
- \dimen6=\logi6pt \dimen6=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen6
- \dimen7=\logi7pt \dimen7=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen7
- \dimen8=\logi8pt \dimen8=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen8
- \dimen9=\logi9pt \dimen9=\csname pgfplotsmathlogscale@#1@inv\endcsname\dimen9
- \xdef\pgfplots@glob@TMPa##1{%
- \noexpand\ifcase##1
- \noexpand\or0
- \noexpand\or\pgf@sys@tonumber{\dimen1 }%
- \noexpand\or\pgf@sys@tonumber{\dimen2 }%
- \noexpand\or\pgf@sys@tonumber{\dimen3 }%
- \noexpand\or\pgf@sys@tonumber{\dimen4 }%
- \noexpand\or\pgf@sys@tonumber{\dimen5 }%
- \noexpand\or\pgf@sys@tonumber{\dimen6 }%
- \noexpand\or\pgf@sys@tonumber{\dimen7 }%
- \noexpand\or\pgf@sys@tonumber{\dimen8 }%
- \noexpand\or\pgf@sys@tonumber{\dimen9 }%
- \noexpand\fi
- }%
- \endgroup
- \expandafter\let\csname pgfplotsmathlogi@#1\endcsname=\pgfplots@glob@TMPa
%%%
% Ok, now, I have prepared everything for the new
% log basis!
@@ -7680,13 +8285,13 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1min\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotsmathlog@#1@\endcsname{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{log}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1min\endcsname=\pgfmathresult
\fi
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1max\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotsmathlog@#1@\endcsname{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{log}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1max\endcsname=\pgfmathresult
\fi
%
@@ -7694,13 +8299,13 @@
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tickmin\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotsmathlog@#1@\endcsname{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{log}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmin\endcsname=\pgfmathresult
\fi
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@#1tickmax\endcsname
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \csname pgfplotsmathlog@#1@\endcsname{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{log}{\pgfplots@loc@TMPa}%
\expandafter\global\expandafter\let\csname pgfplots@#1tickmax\endcsname=\pgfmathresult
\fi
%
@@ -7723,26 +8328,26 @@
\expandafter\edef\csname pgfplots@extra@#1tick\endcsname{\pgfmathresult}%
\fi
%
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \expandafter\pgfplots@filter@input@ticks@with@log\expandafter{\pgfplots@loc@TMPa}{#1}%
+ \pgfkeyslet{/pgfplots/minor #1tick}\pgfmathresult
+ \fi
+ %
% append logarithm to prepare coord.
%
\t@pgfplots@toka={%
\ifx\pgfmathresult\pgfutil@empty
\else
\pgfplots@if{pgfplots@disablelogfilter@#1}{%
- \pgfmathfloatparsenumber{\pgfmathresult}%
- \expandafter\pgfmathfloat@decompose@F\pgfmathresult\relax\c@pgf@counta
- \ifnum\c@pgf@counta>2 % this clears nan, inf and -inf points.
- \let\pgfmathresult=\pgfutil@empty
- \def\pgfplots@unbounded@dir{#1}%
- \else
- \pgfmathfloattofixed{\pgfmathresult}%
- \fi
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfmathresult}%
+ % FIXME : check for unbounded arguments!
}{%
- \csname pgfplotsmathlog@#1@\endcsname{\pgfmathresult}%
- \ifx\pgfmathresult\pgfutil@empty
- % detect unbounded coords:
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{if is bounded}{\pgfmathresult}{}{%
\def\pgfplots@unbounded@dir{#1}%
- \fi
+ }%
}%
\fi
}%
@@ -7777,6 +8382,7 @@
}
\def\pgfplots@create@axis@descriptions@{%
+ \begingroup
\ifpgfplots@hide@x
\else
\ifpgfplots@units@use%
@@ -7815,6 +8421,7 @@
\fi
\fi
\fi
+ \endgroup
%
\pgfkeysgetvalue{/pgfplots/title}\pgfplots@loc@TMPa
\ifx\pgfplots@loc@TMPa\pgfutil@empty
@@ -7827,215 +8434,6 @@
%
}
-\def\pgfplots@datascaletrafo@undoshift@x#1{%
- \pgfmathsubtract@{#1}{\pgfplots@data@scale@trafo@SHIFT@x}%
-}%
-\def\pgfplots@datascaletrafo@redoshift@x#1{%
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@x}%
-}%
-\def\pgfplots@datascaletrafo@undoshift@y#1{%
- \pgfmathsubtract@{#1}{\pgfplots@data@scale@trafo@SHIFT@y}%
-}%
-\def\pgfplots@datascaletrafo@redoshift@y#1{%
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@y}%
-}%
-\def\pgfplots@datascaletrafo@undoshift@z#1{%
- \pgfmathsubtract@{#1}{\pgfplots@data@scale@trafo@SHIFT@z}%
-}%
-\def\pgfplots@datascaletrafo@redoshift@z#1{%
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@z}%
-}%
-
-% DATA TRANSFORMATION T(x) = X - xmin
-%
-% Input:
-% a number in the original data range, given in **floating** point representation
-% Output:
-% a fixed point number in transformed range
-% stored in \pgfmathresult
-% @see
-% \pgfplots@datascaletrafo@fromfixed@x
-\def\pgfplots@datascaletrafo@x#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@x}%
- \pgfmathfloattofixed{\pgfmathresult}%
- \expandafter\pgfmathsubtract@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@SHIFT@x}%
-}
-\def\pgfplots@datascaletrafo@x@noshift#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@x}%
- \pgfmathfloattofixed{\pgfmathresult}%
-}
-
-% Overloaded function.
-% Input:
-% a FIXED point number instead of a floating point one.
-% @see \pgfplots@datascaletrafo@x
-\def\pgfplots@datascaletrafo@fromfixed@x#1{%
- \pgfmathfloatparsenumber{#1}%
- \pgfplots@datascaletrafo@x{\pgfmathresult}%
-}
-
-\def\pgfplots@datascaletrafo@y#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@y}%
- \pgfmathfloattofixed{\pgfmathresult}%
- \expandafter\pgfmathsubtract@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@SHIFT@y}%
-}
-\def\pgfplots@datascaletrafo@fromfixed@y#1{%
- \pgfmathfloatparsenumber{#1}%
- \pgfplots@datascaletrafo@y{\pgfmathresult}%
-}
-\def\pgfplots@datascaletrafo@y@noshift#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@y}%
- \pgfmathfloattofixed{\pgfmathresult}%
-}
-\def\pgfplots@datascaletrafo@z#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@z}%
- \pgfmathfloattofixed{\pgfmathresult}%
- \expandafter\pgfmathsubtract@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@SHIFT@z}%
-}
-\def\pgfplots@datascaletrafo@fromfixed@z#1{%
- \pgfmathfloatparsenumber{#1}%
- \pgfplots@datascaletrafo@z{\pgfmathresult}%
-}
-\def\pgfplots@datascaletrafo@z@noshift#1{%
- \pgfmathfloatshift@{#1}{\pgfplots@data@scale@trafo@EXPONENT@z}%
- \pgfmathfloattofixed{\pgfmathresult}%
-}
-
-% INVERSE transformation x = T^{-1}( X )
-% Input:
-% a fixed point number in transformed domain
-% Output:
-% a number in the data domain, given in floating point
-% representation
-%
-% If the input number is approximately X=0, we will return x=0 as
-% well.
-%
-% This allows to handle rounding inaccuracies and should not pose any
-% problems.
-\def\pgfplots@inverse@datascaletrafo@x#1{%
- \begingroup
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@x}%
- \let\pgfplots@inverse@datascaletrafo@@shifted=\pgfmathresult
- \pgfmathapproxequalto@{\pgfplots@inverse@datascaletrafo@@shifted}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{\pgfplots@inverse@datascaletrafo@@shifted}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@x{-\pgfplots@data@scale@trafo@EXPONENT@x}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@x}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-\def\pgfplots@inverse@datascaletrafo@x@noshift#1{%
- \begingroup
- \pgfmathapproxequalto@{#1}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{#1}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@x{-\pgfplots@data@scale@trafo@EXPONENT@x}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@x}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-
-\def\pgfplots@inverse@datascaletrafo@y#1{%
- \begingroup
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@y}%
- \let\pgfplots@inverse@datascaletrafo@@shifted=\pgfmathresult
- \pgfmathapproxequalto@{\pgfplots@inverse@datascaletrafo@@shifted}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{\pgfplots@inverse@datascaletrafo@@shifted}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@y{-\pgfplots@data@scale@trafo@EXPONENT@y}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@y}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-% Overloaded function. This one does only apply the scaling, no shift.
-\def\pgfplots@inverse@datascaletrafo@y@noshift#1{%
- \begingroup
- \pgfmathapproxequalto@{#1}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{#1}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@y{-\pgfplots@data@scale@trafo@EXPONENT@y}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@y}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-
-\def\pgfplots@inverse@datascaletrafo@z#1{%
- \begingroup
- \pgfmathadd@{#1}{\pgfplots@data@scale@trafo@SHIFT@z}%
- \let\pgfplots@inverse@datascaletrafo@@shifted=\pgfmathresult
- \pgfmathapproxequalto@{\pgfplots@inverse@datascaletrafo@@shifted}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{\pgfplots@inverse@datascaletrafo@@shifted}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@z{-\pgfplots@data@scale@trafo@EXPONENT@z}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@z}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-% Overloaded function. This one does only apply the scaling, no shift.
-\def\pgfplots@inverse@datascaletrafo@z@noshift#1{%
- \begingroup
- \pgfmathapproxequalto@{#1}{0.0}%
- \ifpgfmathcomparison
- \pgfmathfloatcreate{0}{0.0}{0}%
- \else
- \pgfmathfloatparsenumber{#1}%
- \edef\pgfplots@data@scale@trafo@EXPONENT@z{-\pgfplots@data@scale@trafo@EXPONENT@z}%
- \expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\pgfplots@data@scale@trafo@EXPONENT@z}%
- \fi
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
-}
-
-% Overloaded function.
-%
-% In contrast to \pgfplots@inverse@datascaletrafo@x, this method
-% returns a number in FIXED point representation.
-% @see \pgfplots@inverse@datascaletrafo@x
-\def\pgfplots@inverse@datascaletrafo@tofixed@x#1{%
- \pgfplots@inverse@datascaletrafo@x{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-\def\pgfplots@inverse@datascaletrafo@tofixed@y#1{%
- \pgfplots@inverse@datascaletrafo@y{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-\def\pgfplots@inverse@datascaletrafo@tofixed@z#1{%
- \pgfplots@inverse@datascaletrafo@z{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-
-% Overloaded function.
-%
-% This one does only apply the scale, no shift.
-\def\pgfplots@inverse@datascaletrafo@tofixed@x@noshift#1{%
- \pgfplots@inverse@datascaletrafo@x@noshift{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-\def\pgfplots@inverse@datascaletrafo@tofixed@y@noshift#1{%
- \pgfplots@inverse@datascaletrafo@y@noshift{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-\def\pgfplots@inverse@datascaletrafo@tofixed@z@noshift#1{%
- \pgfplots@inverse@datascaletrafo@z@noshift{#1}%
- \expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
-}
-
% Invokes '#1' foreach key which should be saved by a color bar.
%
% The current key name is available as '##1', the macro under which
@@ -8150,9 +8548,9 @@
\fi
%
% normalize format:
- \pgfmathfloattosci\pgfplots@colorbar@src@metamin
+ \pgfplotscoordmath{meta}{tostring}{\pgfplots@colorbar@src@metamin}%
\global\let\pgfplots@colorbar@src@metamin=\pgfmathresult
- \pgfmathfloattosci\pgfplots@colorbar@src@metamax
+ \pgfplotscoordmath{meta}{tostring}{\pgfplots@colorbar@src@metamax}%
\global\let\pgfplots@colorbar@src@metamax=\pgfmathresult
%
\pgfplots@assemble@ref@picture
@@ -8176,9 +8574,12 @@
\noexpand\pgfkeyssetvalue{/pgfplots/parent axis height}{\pgfkeysvalueof{/pgfplots/parent axis height}}%
\noexpand\pgfkeyssetvalue{/pgfplots/colorbar/width}{\pgfkeysvalueof{/pgfplots/colorbar/width}}%
\noexpand\pgfkeyssetvalue{/pgfplots/colorbar addplot}{\the\toks2 }%
+ \noexpand\def\noexpand\pgfplots@colormap@access{\pgfplots@colormap@access}%
\noexpand\pgfkeyssetvalue{/pgfplots/colorbar pos*}{\pgfkeysvalueof{/pgfplots/colorbar pos*}}%
+ % just to make sure that colorbar sampled respects it:
+ \noexpand\pgfkeyssetvalue{/pgfplots/mark list fill}{\pgfkeysvalueof{/pgfplots/mark list fill}}%
\noexpand\pgfplots@colorbar@define@hook%
- \noexpand\pgfkeysvalueof{/pgfplots/colorbar/draw/.@cmd}\noexpand\pgfeov
+ \noexpand\pgfplots@colorbar@draw@
\ifx\pgfplots@colorbar@toname\pgfutil@empty
\noexpand\pgfnodealias{current colorbar axis}{current axis}%
\noexpand\pgfnodealias{current axis}{parent axis}%
@@ -8200,6 +8601,44 @@
\pgfplots@label{\pgfplots@colorbar@toname}{pgfplots@colorbar@to@name@}%
\fi
}%
+
+\newif\ifpgfplotscolorbarCMYKworkaround
+\pgfplotscolorbarCMYKworkaroundtrue
+
+\def\pgfplots@colorbar@draw@{%
+ \ifpgfplotscolorbarCMYKworkaround
+ % the default implementation for colorbars is based on
+ % \pgfplotscolormaptoshadingspec.
+ % This, in turn, does NOT work for CMYK.
+ %
+ % This here detects that case and switches to the (visually)
+ % equivalent 'colorbar sampled={surf,shader=interp}' style.
+ \if1\pgfplotscolormaptoshadingspectorgb
+ \pgfkeysgetvalue{/pgfplots/colorbar/draw/.@cmd}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@colorbar@draw@defaultimpl
+ \pgfkeysgetvalue{/pgfplots/colormap name}\pgfplots@loc@TMPb
+ \pgfplotscolormapgetcolorspace{\pgfplots@loc@TMPb}%
+ \def\pgfplots@loc@TMPa{cmyk}%
+ \ifx\pgfplots@loc@TMPa\pgfplotsretval
+ \pgfutil@ifundefined{pgfplots@colorbar@CMYK@\pgfplots@loc@TMPb}{%
+ \pgfplots@warning{colorbar: The colormap '\pgfplots@loc@TMPb' has a CMYK colorspace which is not (yet) supported by PGF. I switched colorbar styles automatically to 'colorbar sampled={surf,shader=interp}' to generate a proper CMYK colorbar. Use \string\pgfplotscolorbarCMYKworkaroundfalse\space to disable this improvement. [This message won't be replicated for '\pgfplots@loc@TMPb']}%
+ \expandafter\gdef\csname pgfplots@colorbar@CMYK@\pgfplots@loc@TMPb\endcsname{1}%
+ }{}%
+ \pgfplotsset{colorbar sampled={surf,shader=interp}}%
+ \fi
+ \fi
+ \fi
+ \fi
+ %
+ % FIXME : the semicolon after ';' has a fixed catcode, namely
+ % the one assigned while pgfplots.code.tex has been read.
+ %
+ % The \pgfplots@checkandpreparefor@active@semicolon gets
+ % confused if the catcodes change... this here is a
+ % work-around for babel support.
+ \let\pgfplots@checkandpreparefor@active@semicolon\relax
+ \pgfkeysvalueof{/pgfplots/colorbar/draw/.@cmd}\pgfeov
+}
\pgfkeysdef{/pgfplots/colorbar to name/at}{%
% automatically search-and-replace 'parent axis' which
% is not defined for a detached colorbar:
@@ -8444,6 +8883,8 @@
{#1}%
\let\pgfplots@remaining@input=\pgfplots@rmopts
%
+ \pgfplotssetaxistype{\pgfkeysvalueof{/pgfplots/axis type}}%
+ %
% Step 2: parse any pgfplots options out of styles.
\pgfkeysactivatefamily{/pgfplots/style commands}%
%\pgfkeysinstallkeyfilter{/pgf/key filters/active families or descendants of}{/pgfplots}
@@ -8455,6 +8896,8 @@
\pgfplots@set@keys@from@tikz@style{every axis}%
\pgfkeysdeactivatefamily{/pgfplots/scale}%
%
+ \pgfplots@set@keys@from@tikz@style@append@to{every \pgfkeysvalueof{/pgfplots/axis type} axis}{every axis}%
+ %
\ifpgfplots@xislinear
\ifpgfplots@yislinear
\pgfplots@set@keys@from@tikz@style@append@to{every linear axis}{every axis}%
@@ -8609,8 +9052,11 @@
\pgfkeysalso{/pgfplots/.search also=/tikz}%
%
\pgfplots@set@options@sanitize
+ \pgfplots@notify@options@are@set
}
+\def\pgfplots@notify@options@are@set{}%
+
\def\pgfplots@install@abbrev@commands{
\let\pgfplots@orig@path=\path
\let\pgfplots@orig@plot=\plot
@@ -8639,7 +9085,7 @@
\or2.197224
\fi
}%
- \def\axisdefaultticklabel{$\pgfmathprintnumber{\tick}$}%
+ \def\axisdefaultticklabel{\pgfmathprintnumber{\tick}}%
\def\axisdefaultticklabellog{%
\pgfkeysgetvalue{/pgfplots/log number format code/.@cmd}\pgfplots@log@label@style
\expandafter\pgfplots@log@label@style\tick\pgfeov
@@ -8651,6 +9097,13 @@
\let\addlegendentryexpanded=\pgfplots@addlegendentryexpanded
}
+\let\pgfplots@late@options=\pgfutil@empty
+\def\pgfplotssetlateoptions#1{%
+ \t@pgfplots@toka=\expandafter{\pgfplots@late@options}%
+ \t@pgfplots@tokb={#1}%
+ \xdef\pgfplots@late@options{\the\t@pgfplots@toka,\the\t@pgfplots@tokb}%
+}%
+
\def\pgfplots@environment{%
\pgfutil@ifnextchar[{%
\pgfplots@environment@opt
@@ -8681,11 +9134,19 @@
% \pgfplots@stored@current@cmd
% \pgfplots@stored@current@data
% \pgfplots@stored@current@postcmd
-\def\pgfplots@stored@plotlist@EXTRACTENTRY#1#2#3#4{%
- \def\pgfplots@stored@current@precmd{#1}%
- \def\pgfplots@stored@current@cmd{#2}%
+\long\def\pgfplots@stored@plotlist@EXTRACTENTRY#1#2#3#4{%
+ % the token register stuff allows '#' inside of arguments.
+ \t@pgfplots@tokc={#1}%
+ \edef\pgfplots@stored@current@precmd{\the\t@pgfplots@tokc}%
+ %
+ \t@pgfplots@tokc={#2}%
+ \edef\pgfplots@stored@current@cmd{\the\t@pgfplots@tokc}%
+ %
\def\pgfplots@stored@current@data{#3}%
- \def\pgfplots@stored@current@postcmd{#4}%
+ %
+ \t@pgfplots@tokc={#4}%
+ \edef\pgfplots@stored@current@postcmd{\the\t@pgfplots@tokc}%
+ %
}
\def\pgfplots@init@cleared@structures{%
@@ -8776,6 +9237,7 @@
\noexpand\def\noexpand\pgfplots@draw@image{%
\noexpand\def\noexpand\tikz@plot@handler{\the\toks3}%
\noexpand\pgfkeysdef{/pgfplots/legend image code}{\the\toks0}%
+ \noexpand\pgfkeyssetvalue{/pgfplots/mark list fill}{\pgfkeysvalueof{/pgfplots/mark list fill}}%
\ifx\pgfplots@stylekey\pgfutil@empty
\else
\noexpand\pgfkeysdef{#2}{\the\toks4}%
@@ -8803,21 +9265,32 @@
%
% THIS IS INCOMPATIBLE WITH plain TeX and ConTeXt! Don't use it, it
% doesn't hurt.
-\def\pgfplots@plot@label{\pgfutil@ifnextchar[{\pgfplots@plot@label@}{\pgfplots@plot@label@[]}}%
-\def\pgfplots@plot@label@[#1]#2{%
+\def\pgfplots@plot@label{%
+ \pgfutil@ifnextchar<{%
+ \pgfplots@plot@label@beamer@mode
+ }{%
+ \pgfutil@ifnextchar[{\pgfplots@plot@label@{}}{\pgfplots@plot@label@{}[]}%
+ }%
+}%
+\def\pgfplots@plot@label@beamer@mode<#1>{
+ \pgfutil@ifnextchar[{\pgfplots@plot@label@{<#1>}}{\pgfplots@plot@label@{<#1>}[]}%
+}
+% #1: optional prefix options, used to support
+% \label<...>{<name>} of beamer package
+\def\pgfplots@plot@label@#1[#2]#3{%
\ifpgfplots@has@label@information
\begingroup
- \expandafter\let\expandafter\pgfplots@loc@TMPb\csname pgfplots@last@plot@style@#1\endcsname
+ \expandafter\let\expandafter\pgfplots@loc@TMPb\csname pgfplots@last@plot@style@#2\endcsname
\expandafter\pgfplots@export@legend@image@to@macro\expandafter{\pgfplots@loc@TMPb}{/pgfplots/every crossref picture}%
%
\t@pgfplots@toka=\expandafter{\pgfplotsretval}%
\t@pgfplots@tokb=\expandafter{\pgfplotsretvalb}%
- % 1. prepare /pgfplots/refstyle={#2}:
+ % 1. prepare /pgfplots/refstyle={#3}:
\pgfplots@auxwrite{%
\noexpand\expandafter\noexpand\gdef
- \noexpand\csname pgfplots@labelstyle@#2\noexpand\endcsname{\the\t@pgfplots@tokb}%
+ \noexpand\csname pgfplots@labelstyle@#3\noexpand\endcsname{\the\t@pgfplots@tokb}%
}%
- % 2. prepare \ref{#2} and \pageref{#2}:
+ % 2. prepare \ref{#3} and \pageref{#3}:
%
% There are several nasty things to consider:
% a) macro expansion. Use \string to allow a safe \write
@@ -8827,20 +9300,20 @@
% a "moving argument" like \caption or so, we need to use
% proper '\protect'ion.
%
- % this here is the low-level implementation of \ref{#2}. Write it into
+ % this here is the low-level implementation of \ref{#3}. Write it into
% the .aux file:
\pgfplots@auxwrite{%
\noexpand\expandafter\noexpand\gdef
- \noexpand\csname pgfplots@show@ref@#2\noexpand\endcsname{%
+ \noexpand\csname pgfplots@show@ref@#3\noexpand\endcsname{%
\the\t@pgfplots@toka
}%
}%
% create the \label command:
\let\label=\pgfplots@original@LaTeX@label
- \pgfplots@label{#2}{pgfplots@show@ref@}%
+ \pgfplots@label[#1]{#3}{pgfplots@show@ref@}%
\endgroup
\else
- \pgfplots@error{Can't create \string\label{#2}: it needs to be called after \string\addplot.}%
+ \pgfplots@error{Can't create \string\label{#3}: it needs to be called after \string\addplot.}%
\fi
}%
@@ -8869,6 +9342,8 @@
%
\pgfkeysdef{/pgfplots/colorbar source}{}% make it NO-OP here. It has already been processed.
%
+ \pgfplots@install@local@bar@handlers% see its docs.
+ %
% set both, pgfplots and tikz keys:
% the draw is important since \addplot visualizes its stuff
% with \path coordinates ...
@@ -8886,6 +9361,8 @@
\let\pgfplots@drawoptions=\tikz@options
\let\pgfplots@drawmodes=\tikz@mode
%
+ \pgfplots@check@for@default@plot@mark%
+ %
% As of February 22, the final plot processing uses
% foreach stored \addplot command :
% \scope[current plot style]
@@ -8901,26 +9378,45 @@
% inside of this scope, so we can check for that particular
% case:
\pgfkeys{/tikz/every path/.append code={%
- \pgfutil@ifundefined{pgfplots@drawmodes}%
- {\relax}%
- {%
- \let\tikz@mode=\pgfplots@drawmodes
-% \let\tikz@options=\pgfplots@drawoptions
- }%
+ \pgfplots@restore@drawmodes
}%
}%
}%
}%
+\newif\ifpgfplots@drawmodes@append
+
+\def\pgfplots@restore@drawmodes{%
+ \pgfutil@ifundefined{pgfplots@drawmodes}%
+ {\relax}%
+ {%
+ \ifpgfplots@drawmodes@append
+ \t@pgfplots@toka=\expandafter{\tikz@mode}%
+ \t@pgfplots@tokb=\expandafter{\pgfplots@drawmodes}%
+ \edef\tikz@mode{\the\t@pgfplots@tokb\the\t@pgfplots@toka}%
+ \else
+ \let\tikz@mode=\pgfplots@drawmodes
+ \fi
+% \let\tikz@options=\pgfplots@drawoptions
+ }%
+}%
+
+\long\def\pgfplotsifissurveyphase#1#2{%
+ \if\pgfplots@phase@name s%
+ #1\relax
+ \else
+ #2\relax
+ \fi
+}%
+\long\def\pgfplotsifisvisualizationphase#1#2{\pgfplotsifissurveyphase{#2}{#1}}
+\def\pgfplots@phase@name{X}
+
% Invokes #1 if the statement occurs within \begin{axis}...\end{axis}
% and #2 if not.
\long\def\pgfplotsifinaxis#1#2{%
\pgfutil@ifundefined{pgfplots@is@in@axis}{#2}{#1}%
}%
-\pgfutil@ifundefined{label}{\relax}{%
-}%
-
%
% \begin{axis}[#1] :
%
@@ -9046,15 +9542,21 @@
%
\def\pgfplots@environment@opt[#1]{%
\begingroup
- \pgfutil@ifundefined{pgfplots@is@in@axis}{}{%
+ \pgfplotsifinaxis{%
\pgfplots@error{%
Sorry, nested axis environments are not supported.
Please move the inner axis environment below \string\end{axis} and
use alignment options (for example named nodes, see manual) to place it at the desired
position}%
- }%
+ }{}%
\def\pgfplots@is@in@axis{1}%
+ \let\pgfpointxy@orig=\pgfpointxy
+ \let\pgfqpointxy@orig=\pgfqpointxy
+ \let\pgfpointxyz@orig=\pgfpointxyz
+ \let\pgfqpointxyz@orig=\pgfqpointxyz
+ \global\let\pgfplots@late@options=\pgfutil@empty
\pgfplots@checkandpreparefor@active@semicolon
+ %
\pgfplots@install@abbrev@commands
\pgfplots@stacked@initialise
%
@@ -9072,6 +9574,8 @@
%
\pgfplots@set@options{#1}%
%
+ %
+ %
% --------------------
% Allocations:
% --------------------
@@ -9089,36 +9593,16 @@
\pgfplots@datascaletrafo@initialisedtrue% there is no trafo.
\fi
%
- \ifpgfplots@xislinear
- \pgfmathfloatcreate{1}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@xmin=\pgfmathresult
- \pgfmathfloatcreate{2}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@xmax=\pgfmathresult
- \else
- \def\pgfplots@invalidrange@xmin{16300}%
- \def\pgfplots@invalidrange@xmax{-16300}%
- \fi
- \ifpgfplots@yislinear
- \pgfmathfloatcreate{1}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@ymin=\pgfmathresult
- \pgfmathfloatcreate{2}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@ymax=\pgfmathresult
- \else
- \def\pgfplots@invalidrange@ymin{16300}%
- \def\pgfplots@invalidrange@ymax{-16300}%
- \fi
- \ifpgfplots@zislinear
- \pgfmathfloatcreate{1}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@zmin=\pgfmathresult
- \pgfmathfloatcreate{2}{1.0}{2147483645}%
- \let\pgfplots@invalidrange@zmax=\pgfmathresult
- \else
- \def\pgfplots@invalidrange@zmin{16300}%
- \def\pgfplots@invalidrange@zmax{-16300}%
- \fi
- \pgfmathfloatcreate{1}{1.0}{2147483645}%
+ \pgfplotsutilforeachcommasep{x,y,z}\as\pgfplots@loc@TMPa{%
+ \pgfplotscoordmath \pgfplots@loc@TMPa{min limit}%
+ \expandafter\let\csname pgfplots@invalidrange@\pgfplots@loc@TMPa max\endcsname=\pgfmathresult
+ \pgfplotscoordmath \pgfplots@loc@TMPa{max limit}%
+ \expandafter\let\csname pgfplots@invalidrange@\pgfplots@loc@TMPa min\endcsname=\pgfmathresult
+ }%
+ %
+ \pgfplotscoordmath{meta}{max limit}%
\let\pgfplots@invalidrange@metamin=\pgfmathresult
- \pgfmathfloatcreate{2}{1.0}{2147483645}%
+ \pgfplotscoordmath{meta}{min limit}%
\let\pgfplots@invalidrange@metamax=\pgfmathresult
%
% These numbers will ONLY be filled for linear axis!
@@ -9179,7 +9663,7 @@
\def\pgfplots@axiswide@metamin@autocompute{1}%
\else
\def\pgfplots@axiswide@metamin@autocompute{0}%
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@loc@TMPa}%
\global\let\pgfplots@axiswide@metamin=\pgfmathresult
\fi
\pgfkeysgetvalue{/pgfplots/point meta max}\pgfplots@loc@TMPa
@@ -9187,7 +9671,7 @@
\def\pgfplots@axiswide@metamax@autocompute{1}%
\else
\def\pgfplots@axiswide@metamax@autocompute{0}%
- \expandafter\pgfmathfloatparsenumber\expandafter{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@loc@TMPa}%
\global\let\pgfplots@axiswide@metamax=\pgfmathresult
\fi
%
@@ -9217,6 +9701,12 @@
% Use \axispath instead:
\let\path=\pgfplots@replacement@for@tikz@path
\let\closedcycle=\pgfplots@path@closed@cycle
+ %
+ % defines \pgfplotsaxisupdatelimitsforcoordinate etc.
+ \pgfplots@prepare@axis@API
+ \pgfkeysvalueof{/pgfplots/execute at begin axis}%
+ \def\pgfplots@phase@name{s}%
+ %
\let\pgfplots@orig@scope=\scope
\let\pgfplots@orig@endscope=\endscope
\let\scope=\pgfplots@replacement@for@scope
@@ -9229,12 +9719,14 @@
% This command actually takes all collected (global) variables,
% creates an axis and performs all postponed drawing operations.
\def\endpgfplots@environment@opt{%
+ \def\pgfplots@phase@name{v}%
\pgfutil@ifundefined{label}{\relax}{%
% restore.
\let\label=\pgfplots@original@LaTeX@label
}%
\xdef\numplots{\the\pgfplots@numplots}%
\pgfkeysvalueof{/pgfplots/before end axis/.@cmd}\pgfeov%
+ \pgfkeysvalueof{/pgfplots/execute at end axis}%
%
% restore old \path command:
\let\path=\pgfplots@orig@path
@@ -9244,12 +9736,17 @@
%
\pgfplotssurveyphase@setactiveplothandlers
%
+ \expandafter\pgfplotsset\expandafter{\pgfplots@late@options}%
+ %
%\end{axis}:
%
+ \begingroup
+ \pgfplots@sys@beforenode
% create a leight-weight 'current axis' node for anchor references
% (which may happen during both, the axis descriptions or any
% path/plot commands).
\pgfmultipartnode{pgfplots@low@level@shape@INNER}{image}{current axis}{\pgfusepath{discard}}%
+ \endgroup
%
% --------------------
% All plotting commands have been read.
@@ -9257,23 +9754,30 @@
% --------------------
\pgfplots@BEGIN@init@and@draw@axis
\pgfplots@stacked@initialise
- \pgfplots@install@local@bar@handlers
\global\pgfplotslistnewempty\pgfplots@stored@markerlist
\ifpgfplots@stacked@reverse
% This here applies any scaling trafos and assembles a
% NEW \pgfplots@stored@plotlist!
\pgfplots@stacked@finalize@stored@plots
\fi
- \pgfplotslistforeach\pgfplots@stored@plotlist\as\pgfplots@loc@TMPa{%
+ \pgfplotslistforeachungrouped\pgfplots@stored@plotlist\as\pgfplots@loc@TMPa{%
\expandafter\pgfplots@stored@plotlist@EXTRACTENTRY\pgfplots@loc@TMPa
-%\message{Processing stored plot with precommand '\meaning\pgfplots@stored@current@precmd'; pgfplots@plotcmd '\meaning\pgfplots@stored@current@cmd' postcommand '\meaning\pgfplots@stored@current@postcmd'}%
+%\message{^^JProcessing stored plot with precommand '\meaning\pgfplots@stored@current@precmd';^^J pgfplots@plotcmd '\meaning\pgfplots@stored@current@cmd'^^J postcommand '\meaning\pgfplots@stored@current@postcmd'^^J}%
+%\message{DATA: '\meaning\pgfplots@stored@current@data';^^J}%
% The precmd sets all required variables needed to
% finalize a plot.
- % @see the stream preparation routines.
- \pgfplots@stored@current@precmd
\ifx\pgfplots@stored@current@cmd\pgfutil@empty
\pgfplots@stored@current@data%
\else
+ \begingroup
+ % @see the stream preparation routines.
+ \pgfplots@stored@current@precmd
+ \pgfkeysvalueof{/pgfplots/execute at begin plot visualization}%
+ \ifpgfplots@threedim
+ \else
+ % axis = 2d and plot=3d is forbidden here.
+ \pgfplots@curplot@threedimfalse
+ \fi
%
% this code here means we REALLY have a plotting
% command!
@@ -9292,8 +9796,10 @@
\expandafter\pgfplots@coord@stream@finalize@storedcoords@START\pgfplots@stored@current@data\pgfplots@EOI
\fi
\endscope
+ \pgfkeysvalueof{/pgfplots/execute at end plot visualization}%
+ \pgfplots@stored@current@postcmd
+ \endgroup
\fi
- \pgfplots@stored@current@postcmd
}%
\global\pgfplotslistnewempty\pgfplots@stored@plotlist% delete contents.
%
@@ -9371,12 +9877,16 @@
\def\pgfplots@anchorname{image}% that means: no shift!
}{}%
%
+ \begingroup
+ \pgfplots@sys@beforenode
+ %
\ifpgfplots@deprecated@anchors
\pgfplots@restore@deprecated@lowlevel@shape
\pgfmultipartnode{\pgfplots@shapename}{\pgfplots@anchorname}{\tikz@fig@name}{\pgfusepath{discard}}%
\else
\pgfmultipartnode{\pgfplots@shapename}{\pgfplots@anchorname}{\tikz@fig@name}{\pgfusepath{discard}}%
\fi
+ \endgroup
\pgfplots@fig@alias
\pgfnodealias{current axis}{\tikz@fig@name}%
%
@@ -9504,5 +10014,8 @@
\tikzaddtikzonlycommandshortcutlet\loglogaxis\pgfplots@environment@loglogaxis
\tikzaddtikzonlycommandshortcutlet\endloglogaxis\endpgfplots@environment@loglogaxis
+\pgfplotsdefineaxistype{rectangle}{%
+ % do nothing, this is the default anyway.
+}%
\catcode`\;=\pgfplots@oldcatcodesemicolon
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
index 6abd1948238..e1bcc0a53d0 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
@@ -1,3 +1,3 @@
\def\pgfplotsrevision{%
-1.4.1-1-g64c9e95
+1.5-1-gcc2f2d2
}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
index 1331a3f284b..996dce22550 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
@@ -7,7 +7,7 @@
%
% It is based on Till Tantau's PGF package.
%
-% Copyright 2007/2008 by Christian Feuersänger.
+% Copyright 2007-2010 by Christian Feuersänger.
%
% This program is free software: you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
@@ -63,10 +63,15 @@
\pgf@zx=0pt
\pgf@zy=0pt
}%
- \let\pgfpointxy@orig=\pgfpointxy
- \let\pgfqpointxy@orig=\pgfqpointxy
- \let\pgfpointxyz@orig=\pgfpointxyz
- \let\pgfqpointxyz@orig=\pgfqpointxyz
+ %
+ %
+ \edef\pgfplotsplothandlerpointxyz##1##2##3{%
+ \ifpgfplots@curplot@threedim
+ \noexpand\pgfplotsqpointxyz{##1}{##2}{##3}%
+ \else
+ \noexpand\pgfplotsqpointxy{##1}{##2}%
+ \fi
+ }%
%
% A point command such that (0,0) is the 'south west' and (1,1)
% the 'north east' point of an axis.
@@ -97,17 +102,9 @@
{\pgfqpointxy@orig{##1}{##2}}%
}%
}%
- \edef\pgfplotspointunitx{\global\pgf@x=\the\pgf@xx\space\global\pgf@y=\the\pgf@xy\space}%
- \edef\pgfplotspointunity{\global\pgf@x=\the\pgf@yx\space\global\pgf@y=\the\pgf@yy\space}%
- \let\pgfplotsunitxlength=\pgfplots@x@veclength
- \let\pgfplotsunitylength=\pgfplots@y@veclength
- \let\pgfplotsunitxinvlength=\pgfplots@x@inverseveclength
- \let\pgfplotsunityinvlength=\pgfplots@y@inverseveclength
- \ifpgfplots@threedim
- \edef\pgfplotspointunitz{\global\pgf@x=\the\pgf@zx\space\global\pgf@y=\the\pgf@zy\space}%
- \let\pgfplotsunitzlength=\pgfplots@z@veclength
- \let\pgfplotsunitzinvlength=\pgfplots@z@inverseveclength
- \fi
+ \pgfplotspoint@initialisation@axes
+ \pgfplotspoint@initialisation@units
+ \pgfplotspoint@initialisation@center
%
% declare the '[xyz]ticklabel cs'
\tikzdeclarecoordinatesystem{xticklabel}{\pgfplotspointticklabelcs{x}{##1}}%
@@ -119,12 +116,167 @@
\pgfplotsdeclareborderanchorforticklabelaxis{y}{near yticklabel}%
\pgfplotsdeclareborderanchorforticklabelaxis{z}{near zticklabel}%
%
- \pgfkeysdef{/tikz/sloped like x axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection{x}}}%
- \pgfkeysdef{/tikz/sloped like y axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection{y}}}%
- \pgfkeysdef{/tikz/sloped like z axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection{z}}}%
+ \pgfkeysdef{/tikz/sloped like x axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection[##1]{x}}}%
+ \pgfkeysdef{/tikz/sloped like y axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection[##1]{y}}}%
+ \pgfkeysdef{/tikz/sloped like z axis}{\tikz@addtransform{\pgfplotstransformtoaxisdirection[##1]{z}}}%
%
}%
+% Determine final axes this does also fix the axis' dimension.
+% There are the following cases:
+% 1. the user really wants a fixed dimension,
+% i.e. he used 'scale only axis'.
+% Then, we have to work to get the correct dimension!
+%
+% Up to now, the scaling mechanism looses to many significant
+% digits such that the final width/height differs by 1-2 pt.
+%
+% If I am not mistaken, this does ONLY affect the final size,
+% not the relative plot precision.
+%
+% FIXME : really compute the plot precision!
+%
+% 2. The use specified width and/or height, but not 'scale only
+% axis'. Accept inaccurate final widths/heights (see above).
+%
+% 3. The user supplied 'x' and or 'y'. Simply use them, its
+% accurate.
+% POSTCONDITION: the macros
+% \pgfplotspointminminmin
+% \pgfplotspoint[xyz]axis
+% \pgfplotspoint[xyz]axislength
+% are defined (globally).
+%
+\def\pgfplotspoint@initialisation@axes{%
+ \begingroup
+ \ifpgfplots@threedim
+ \def\pgfplotspointmaxminmin{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymin}{\pgfplots@zmin}}%
+ \def\pgfplotspointminmaxmin{\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymax}{\pgfplots@zmin}}%
+ \pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmin}%
+ \else
+ \def\pgfplotspointmaxminmin{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}%
+ \def\pgfplotspointminmaxmin{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}%
+ \pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}%
+ \fi
+ \xdef\pgfplotspointminminmin{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ % ATTENTION: I re-use registers here! Make sure they won't be
+ % overwritten! \pgfpointdiff and \pgfplotsqpointxy are ok in this respect.
+ \let\pgfplots@xcoordminTEX=\pgf@xb
+ \let\pgfplots@ycoordminTEX=\pgf@yb
+ \pgfplots@xcoordminTEX=\pgf@x
+ \pgfplots@ycoordminTEX=\pgf@y
+ %
+ %--------------------------------------------------
+ % FIXME : WHAT IS THIS HERE FOR?
+ % \pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}%
+ % \ifx\pgfplots@rectangle@width\pgfutil@empty
+ % \def\pgfplots@tmp@xmax@ymin{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}%
+ % \else
+ % % this 'if' here should only make a difference of about
+ % % 1-2pt, not more.
+ % %
+ % % and I am quite sure that this inaccuracy (and this
+ % % work-around) only affects the
+ % % final size, not the relative plot accuracy.
+ % \pgf@x=\pgfplots@xcoordminTEX
+ % \advance\pgf@x by\pgfplots@width
+ % \edef\pgfplots@tmp@xmax@ymin{\noexpand\pgfqpoint{\the\pgf@x}{\noexpand\pgfplots@ycoordminTEX}}%
+ % \fi
+ % \ifx\pgfplots@rectangle@height\pgfutil@empty
+ % \def\pgfplots@tmp@xmin@ymax{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymax}}%
+ % \else
+ % \pgf@x=\pgfplots@ycoordminTEX
+ % \advance\pgf@x\pgfplots@height
+ % \edef\pgfplots@tmp@xmin@ymax{\noexpand\pgfqpoint{\noexpand\pgfplots@xcoordminTEX}{\the\pgf@x}}%
+ % \fi
+ %--------------------------------------------------
+ \pgfpointdiff
+ {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
+ {\pgfplotspointmaxminmin}%
+ \xdef\pgfplotspointxaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \xdef\pgfplotspointxaxislength{\pgfmathresult pt}%
+ %
+ \pgfpointdiff
+ {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
+ {\pgfplotspointminmaxmin}%
+ \xdef\pgfplotspointyaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \xdef\pgfplotspointyaxislength{\pgfmathresult pt}%
+ %
+ \ifpgfplots@threedim
+ \pgfpointdiff
+ {\pgfqpoint{\pgfplots@xcoordminTEX}{\pgfplots@ycoordminTEX}}
+ {\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmax}}%
+ \xdef\pgfplotspointzaxis{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \pgfmathveclen{\pgf@x}{\pgf@y}%
+ \xdef\pgfplotspointzaxislength{\pgfmathresult pt}%
+ \else
+ \global\let\pgfplotspointzaxis=\pgfpointorigin
+ \gdef\pgfplotspointzaxislength{0pt}%
+ \fi
+ \endgroup
+ %
+}
+
+% PRECONDITION: called after \pgfplotspoint@initialisation@axes
+% POSTCONDITION:
+% \pgfplotspointcenter is defined.
+\def\pgfplotspoint@initialisation@center{%
+ \begingroup
+ %
+ %
+ \ifpgfplots@threedim
+ %
+ \pgfpointscale
+ {0.5}%
+ {\pgfplotspointxaxis
+ \pgf@xa=\pgf@x
+ \pgf@xb=\pgf@y
+ \pgfplotspointyaxis%
+ \advance\pgf@xa by\pgf@x
+ \advance\pgf@xb by\pgf@y
+ \pgfplotspointzaxis%
+ \advance\pgf@xa by\pgf@x
+ \advance\pgf@xb by\pgf@y
+ \pgf@x=\pgf@xa
+ \pgf@y=\pgf@xb
+ }%
+ \xdef\pgfplotspointcenter{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \else
+ \pgfpointscale
+ {0.5}%
+ {\pgfpointadd
+ \pgfplotspointxaxis%
+ \pgfplotspointyaxis%
+ }%
+ \xdef\pgfplotspointcenter{\noexpand\pgf@x=\the\pgf@x\space\noexpand\pgf@y=\the\pgf@y\space}%
+ \fi
+ \endgroup
+}
+
+% PRECONDITION:
+% the unit vectors are set up
+%
+% POSTCONDITION:
+% \pgfplotspointunit[xyz]
+% \pgfplotspointunit[xyz]length
+% \pgfplotspointunit[xyz]invlength
+% are all set up.
+\def\pgfplotspoint@initialisation@units{%
+ \edef\pgfplotspointunitx{\pgf@x=\the\pgf@xx\space\pgf@y=\the\pgf@xy\space}%
+ \edef\pgfplotspointunity{\pgf@x=\the\pgf@yx\space\pgf@y=\the\pgf@yy\space}%
+ \let\pgfplotsunitxlength=\pgfplots@x@veclength
+ \let\pgfplotsunitylength=\pgfplots@y@veclength
+ \let\pgfplotsunitxinvlength=\pgfplots@x@inverseveclength
+ \let\pgfplotsunityinvlength=\pgfplots@y@inverseveclength
+ \ifpgfplots@threedim
+ \edef\pgfplotspointunitz{\pgf@x=\the\pgf@zx\space\pgf@y=\the\pgf@zy\space}%
+ \let\pgfplotsunitzlength=\pgfplots@z@veclength
+ \let\pgfplotsunitzinvlength=\pgfplots@z@inverseveclength
+ \fi
+}%
+
% The idea here is the following:
%
% 1. A point coordinate (<x>,<y>) without units should use
@@ -253,7 +405,7 @@
% \pgfplotspointonorientedsurfaceN.
%
% Example:
-% \pgfplotspointonorientedsurfaceabsetupforxyz
+% \pgfplotspointonorientedsurfaceabsetupfor xyz
% \pgfplotspointonorientedsurfaceabsetupforsetz{<lower z limit>}{0}
%
% ->
@@ -264,7 +416,7 @@
% \pgfplotspointonorientedsurfacespecunordered = {vv0}
% \pgfplotspointonorientedsurfaceab{3}{4} =\pgfqpointxyz{3}{4}{<lower z limit>}
%
-% \pgfplotspointonorientedsurfaceabsetupforyxz
+% \pgfplotspointonorientedsurfaceabsetupfor yxz
% \pgfplotspointonorientedsurfaceabsetupforsetz{<lower z limit>}{0}
% ->
% \pgfplotspointonorientedsurfaceA = y
@@ -274,11 +426,32 @@
% \pgfplotspointonorientedsurfacespecunordered = {vv0}
% \pgfplotspointonorientedsurfaceab{3}{4} =\pgfqpointxyz{4}{3}{<lower z limit>}
%
-% @see \pgfplotspointonorientedsurfaceabsetupforxyz
+% @see \pgfplotspointonorientedsurfaceabsetupfor xyz
\def\pgfplotspointonorientedsurfaceab#1#2{%
- \pgfplots@error{Internal logic error: \string\pgfplotspointonorientedsurfaceab\ used although surface has not been declared! You need to call \string\pgfplotspointonorientedsurfaceabsetupforxyz\ or its friends to do so.}%
+ \pgfplots@error{Internal logic error: \string\pgfplotspointonorientedsurfaceab\ used although surface has not been declared! You need to call \string\pgfplotspointonorientedsurfaceabsetupfor xyz\ or its friends to do so.}%
}%
+% This is a shortcut for
+% \pgfpointadd
+% {\pgfplotspointonorientedsurfaceab{#1}{#2}}
+% {<shift in B direction of #3>}
+%
+% where #3 is a dimension (a number with unit).
+\def\pgfplotspointonorientedsurfaceabwithbshift#1#2#3{%
+ \begingroup
+ \pgf@xa=#3\relax
+ \ifdim\pgf@xa=0pt
+ \else
+ \pgf@xa=\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname\pgf@xa
+ \fi
+ \advance\pgf@xa by#2pt
+ \edef\pgfplots@loc@b{\pgf@sys@tonumber\pgf@xa}%
+ \pgf@process{\pgfplotspointonorientedsurfaceab{#1}{\pgfplots@loc@b}}%
+ \endgroup
+}
+
+\pgfkeyssetvalue{/pgfplots/oriented surf installed}{}
+
% This macro will be defined after
% \pgfplotspointonorientedsurfaceabsetupfor...
% routines. It expands to a three-character string
@@ -308,65 +481,78 @@
% fixed.
\def\pgfplotspointonorientedsurfacespecsymbol{\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}
+\def\pgfplotspointonorientedsurfaceabsetupfor#1#2#3{%
+ \pgfutil@ifundefined{pgfplotspointonorientedsurfaceabsetupfor@@#1#2#3}{%
+ \pgfplots@error{Sorry, \string\pgfplotspointonorientedsurfaceabsetupfor\space#1#2#3 is not yet implemented.}%
+ }{
+ \csname pgfplotspointonorientedsurfaceabsetupfor@@#1#2#3\endcsname
+ }%
+}%
+%
% Initialises \pgfplotspointonorientedsurfaceab such that 'a' is the x
% axis and 'b' is the y axis and the z coordinate has been fixed with
% \pgfplotspointonorientedsurfaceabsetupforsetz{}.
%
% The Z value needs to be fixed with
% \pgfplotspointonorientedsurfaceabsetupforsetz .
-%
-\def\pgfplotspointonorientedsurfaceabsetupforxyz{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##1}{##2}{\pgfplotspointonorientedsurfaceabsetupfor@fixedZ}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@xyz{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##1}{##2}{\pgfplotspointonorientedsurfaceabsetupfor@fixedz}}%
\def\pgfplotspointonorientedsurfaceA{x}%
\def\pgfplotspointonorientedsurfaceB{y}%
\def\pgfplotspointonorientedsurfaceN{z}%
\edef\pgfplotspointonorientedsurfacespec{ab\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
\edef\pgfplotspointonorientedsurfacespecunordered{vv\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforyxz{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##2}{##1}{\pgfplotspointonorientedsurfaceabsetupfor@fixedZ}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@yxz{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##2}{##1}{\pgfplotspointonorientedsurfaceabsetupfor@fixedz}}%
\def\pgfplotspointonorientedsurfaceA{y}%
\def\pgfplotspointonorientedsurfaceB{x}%
\def\pgfplotspointonorientedsurfaceN{z}%
\edef\pgfplotspointonorientedsurfacespec{ba\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
\edef\pgfplotspointonorientedsurfacespecunordered{vv\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforxzy{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##1}{\pgfplotspointonorientedsurfaceabsetupfor@fixedY}{##2}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@xzy{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##1}{\pgfplotspointonorientedsurfaceabsetupfor@fixedy}{##2}}%
\def\pgfplotspointonorientedsurfaceA{x}%
\def\pgfplotspointonorientedsurfaceB{z}%
\def\pgfplotspointonorientedsurfaceN{y}%
\edef\pgfplotspointonorientedsurfacespec{a\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol b}%
\edef\pgfplotspointonorientedsurfacespecunordered{v\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol v}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforzxy{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##2}{\pgfplotspointonorientedsurfaceabsetupfor@fixedY}{##1}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@zxy{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##2}{\pgfplotspointonorientedsurfaceabsetupfor@fixedy}{##1}}%
\def\pgfplotspointonorientedsurfaceA{z}%
\def\pgfplotspointonorientedsurfaceB{x}%
\def\pgfplotspointonorientedsurfaceN{y}%
\edef\pgfplotspointonorientedsurfacespec{b\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol a}%
\edef\pgfplotspointonorientedsurfacespecunordered{v\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol v}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforyzx{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{\pgfplotspointonorientedsurfaceabsetupfor@fixedX}{##1}{##2}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@yzx{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{\pgfplotspointonorientedsurfaceabsetupfor@fixedx}{##1}{##2}}%
\def\pgfplotspointonorientedsurfaceA{y}%
\def\pgfplotspointonorientedsurfaceB{z}%
\def\pgfplotspointonorientedsurfaceN{x}%
\edef\pgfplotspointonorientedsurfacespec{\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol ab}%
\edef\pgfplotspointonorientedsurfacespecunordered{\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol vv}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforzyx{%
- \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{\pgfplotspointonorientedsurfaceabsetupfor@fixedX}{##2}{##1}}%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@zyx{%
+ \def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{\pgfplotspointonorientedsurfaceabsetupfor@fixedx}{##2}{##1}}%
\def\pgfplotspointonorientedsurfaceA{z}%
\def\pgfplotspointonorientedsurfaceB{y}%
\def\pgfplotspointonorientedsurfaceN{x}%
\edef\pgfplotspointonorientedsurfacespec{\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol ba}%
\edef\pgfplotspointonorientedsurfacespecunordered{\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol vv}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
% Fixes 'x' to #1 for use in
-% \pgfplotspointonorientedsurfaceabsetupforzyx and
-% \pgfplotspointonorientedsurfaceabsetupforyzx.
+% \pgfplotspointonorientedsurfaceabsetupfor zyx and
+% \pgfplotspointonorientedsurfaceabsetupfor yzx.
%
% #1: The fixed value for 'x' (a coordinate in transformed range).
% #2: a one-character symbol describing 'x'.
@@ -375,21 +561,21 @@
% 1 : x is the upper x-axis range.
% 2 : other.
\def\pgfplotspointonorientedsurfaceabsetupforsetx#1#2{%
- \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedX{#1}%
+ \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedx{#1}%
\edef\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol{#2}%
}%
\def\pgfplotspointonorientedsurfaceabsetupforsety#1#2{%
- \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedY{#1}%
+ \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedy{#1}%
\edef\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol{#2}%
}%
\def\pgfplotspointonorientedsurfaceabsetupforsetz#1#2{%
- \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedZ{#1}%
+ \edef\pgfplotspointonorientedsurfaceabsetupfor@fixedz{#1}%
\edef\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol{#2}%
}%
% Helper methods which should be used if no Z component exists (pure
% 2d plots).
-\def\pgfplotspointonorientedsurfaceabsetupforxy{%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@xy{%
\def\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol{0}%
\def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxy{##1}{##2}}%
\def\pgfplotspointonorientedsurfaceA{x}%
@@ -397,8 +583,9 @@
\def\pgfplotspointonorientedsurfaceN{z}%
\edef\pgfplotspointonorientedsurfacespec{ab\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
\edef\pgfplotspointonorientedsurfacespecunordered{vv\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
-\def\pgfplotspointonorientedsurfaceabsetupforyx{%
+\def\pgfplotspointonorientedsurfaceabsetupfor@@yx{%
\def\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol{0}%
\def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxy{##2}{##1}}%
\def\pgfplotspointonorientedsurfaceA{y}%
@@ -406,6 +593,7 @@
\def\pgfplotspointonorientedsurfaceN{z}%
\edef\pgfplotspointonorientedsurfacespec{ba\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
\edef\pgfplotspointonorientedsurfacespecunordered{vv\pgfplotspointonorientedsurfaceabsetupfor@fixedsymbol}%
+ \pgfkeysvalueof{/pgfplots/oriented surf installed}%
}%
@@ -439,7 +627,7 @@
% (three-char-string).
%
% Example:
-% \pgfplotspointonorientedsurfaceabsetupforxyz
+% \pgfplotspointonorientedsurfaceabsetupfor xyz
% \pgfplotspointonorientedsurfaceabsetupforsetz{<lower z limit>}{0}
% -> the oriented surface is 'ab0'
% ...
@@ -734,22 +922,22 @@
%
% Example:
% \pgfplotspointonorientedsurfaceabsetupforsetz{\zmax}{1}
-% \pgfplotspointonorientedsurfaceabsetupforyxz
+% \pgfplotspointonorientedsurfaceabsetupfor yxz
% \pgfplotspointonorientedsurfaceabmatchaxisline{v01}{\result}
% -> \result will be 'v' because 'x=v' in '{v01}
%
% \pgfplotspointonorientedsurfaceabsetupforsety{\ymin}{0}
-% \pgfplotspointonorientedsurfaceabsetupforxzy
+% \pgfplotspointonorientedsurfaceabsetupfor xzy
% \pgfplotspointonorientedsurfaceabmatchaxisline{v01}{\result}
% -> \result will be '1' because 'z=1' in '{v01}
%
% \pgfplotspointonorientedsurfaceabsetupforsety{\ymax}{1}
-% \pgfplotspointonorientedsurfaceabsetupforxzy
+% \pgfplotspointonorientedsurfaceabsetupfor xzy
% \pgfplotspointonorientedsurfaceabmatchaxisline{v01}{\result}
% -> \result will be empty because 'y=0' in '{v01}
%
% \pgfplotspointonorientedsurfaceabsetupforsetx{\xmax}{1}
-% \pgfplotspointonorientedsurfaceabsetupforyzx
+% \pgfplotspointonorientedsurfaceabsetupfor yzx
% \pgfplotspointonorientedsurfaceabmatchaxisline{10v}{\result}
% -> \result will be 'v' because 'z=v' in '{10v}
\def\pgfplotspointonorientedsurfaceabmatchaxisline#1#2{%
@@ -835,11 +1023,17 @@
\let\pgfplots@loc@TMPa=\pgfutil@empty
\fi
\else
- \pgfplots@error{The character '#1' is no valid element for a three-character axis line or surface description!}%
+ % return TRUE.
+ % I admit I am not sure at all if this works in all
+ % cases
+ \pgfplotspointonorientedsurfaceabmatchaxisline@warn{#1}%
\fi
\fi
\fi
}%
+\def\pgfplotspointonorientedsurfaceabmatchaxisline@warn#1{%
+ \pgfplots@warning{The internal implementation is suspicious that something is wrong: \string\pgfplotspointonorientedsurfaceabmatchaxisline@warn: the character '#1' in a three-character axis line or surface description might not be fully supported...}%
+}%
% Provides a point on an arbitrary axis (identified by a
% three-character-string) which can take any value on that axis and
@@ -931,7 +1125,17 @@
%
% The returned normal vector has length 1 (computed with
% \pgfpointnormalised).
+%
+% NOTE: some specialized axis types support non-linear axes (for
+% example, polar axes). In that case, the outer normal vector *varies*
+% along the `v' direction (of the three-character-string `#1').
+% The value of `v' can be set using
+% \pgfplotspointouternormalvectorofaxissetv{<axis three char string>}{<transformed coordinate>}
\def\pgfplotspointouternormalvectorofaxis#1{%
+ \pgfplotspointouternormalvectorofaxis@ifdependson@v{#1}{%
+ \expandafter\global\expandafter\let\csname pgfplotspointouternormalvectorofaxis@cache@#1\endcsname\relax
+ }{%
+ }%
\expandafter\ifx\csname pgfplotspointouternormalvectorofaxis@cache@#1\endcsname\relax
\begingroup
\edef\pgfplots@loc@TMPa{#1}%
@@ -943,6 +1147,60 @@
\fi
}%
+% Fixes the "v" value for successive calls to
+% \pgfplotspointouternormalvectorofaxis{#1}.
+%
+% #1 the three-character-string of an axis or the empty string.
+% If #1 is empty, the actual configuration of oriented surfaces may be
+% used to check which normal vector is intented.
+%
+% #2 the "v" value to store. It should be a transformed coordinate.
+\def\pgfplotspointouternormalvectorofaxissetv#1#2{%
+ \edef\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \expandafter\edef\csname pgfplotspointouternormalvectorofaxis@v@\pgfplotspointonorientedsurfaceA\endcsname{#2}%
+ \else
+ \expandafter\edef\csname pgfplotspointouternormalvectorofaxis@v@#1\endcsname{#2}%
+ \fi
+}%
+
+% Defines \pgfplotsretval to contain the 'v' value for an outer normal
+% vector (if there is one known). If there is no such value,
+% \pgfplotsretval will be empty.
+% #1 a three-character-string
+\def\pgfplotspointouternormalvectorofaxisgetv#1{%
+ \edef\pgfplots@loc@TMPa{#1}%
+ \expandafter\pgfplotspointouternormalvectorofaxisgetv@\pgfplots@loc@TMPa\relax\relax\relax\relax
+}
+\def\pgfplotspointouternormalvectorofaxisgetv@#1#2#3\relax{%
+ \pgfutil@ifundefined{pgfplotspointouternormalvectorofaxis@v@#1#2#3}{%
+ % no value found so far.
+ \if#1v%
+ \def\pgfplotsretval{x}%
+ \else
+ \if#2v%
+ \def\pgfplotsretval{y}%
+ \else
+ \def\pgfplotsretval{z}%
+ \fi
+ \fi
+ \pgfutil@ifundefined{pgfplotspointouternormalvectorofaxis@v@\pgfplotsretval}{%
+ \let\pgfplotsretval\pgfutil@empty
+ }{%
+ \edef\pgfplotsretval{\csname pgfplotspointouternormalvectorofaxis@v@\pgfplotsretval\endcsname}%
+ }%
+ }{%
+ \edef\pgfplotsretval{\csname pgfplotspointouternormalvectorofaxis@v@#1#2#3\endcsname}%
+ }%
+}%
+
+% invokes #2 if the outer normal for the axis #1 (identified by a
+% three-character-string) depends on a coordinate on that axis and #3
+% otherwise.
+%
+% Overwrite in subclasses if necessary.
+\def\pgfplotspointouternormalvectorofaxis@ifdependson@v#1#2#3{#3}
+
% FIXME : this doesn't work if one of the three characters is '2' (for
% center)
\def\pgfplotspointouternormalvectorofaxis@#1#2#3\relax{%
@@ -1032,39 +1290,39 @@
% #5: the shift along the outer unit normal.
\def\pgfplotspointoutsideofaxis@#1#2#3\relax#4#5{%
\if v#1%
- \def\pgfplots@loc@point@orthogonal@to@v{%
- \pgfplotspointoutsideofaxis@plug@trafo{x}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
- \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@TMPb=\pgfmathresult
+ \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotspointonorientedsurfaceabsetupforsety{\pgfplots@loc@TMPa}{#2}%
+ %
+ \pgfplotspointonorientedsurfaceabsetupfor xzy%
+ \pgfplotspointoutsideofaxis@plug@trafo{x}{#4}\let\pgfplots@loc@A=\pgfmathresult
+ \ifpgfplots@threedim
+ \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@B=\pgfmathresult
+ \else
+ \def\pgfplots@loc@B{0}%
+ \fi
+ \else
+ \if v#2%
\ifpgfplots@threedim
- \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@TMPc=\pgfmathresult
+ \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@TMPa=\pgfmathresult
\else
- \def\pgfplots@loc@TMPc{0}%
+ \def\pgfplots@loc@TMPa{0}%
\fi
- \pgfplotsqpointxyz{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}%
- }%
- \else
- \if v#2%
- \def\pgfplots@loc@point@orthogonal@to@v{%
- \pgfplotspointoutsideofaxis@plug@trafo{y}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
- \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@TMPb=\pgfmathresult
- \ifpgfplots@threedim
- \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@TMPc=\pgfmathresult
- \else
- \def\pgfplots@loc@TMPc{0}%
- \fi
- \pgfplotsqpointxyz{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPc}%
- }%
+ \pgfplotspointonorientedsurfaceabsetupforsetz{\pgfplots@loc@TMPa}{#3}%
+ %
+ \pgfplotspointonorientedsurfaceabsetupfor yxz%
+ \pgfplotspointoutsideofaxis@plug@trafo{y}{#4}\let\pgfplots@loc@A=\pgfmathresult
+ \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@B=\pgfmathresult
\else
- \def\pgfplots@loc@point@orthogonal@to@v{%
- \ifpgfplots@threedim
- \pgfplotspointoutsideofaxis@plug@trafo{z}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
- \else
- \def\pgfplots@loc@TMPa{0}%
- \fi
- \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@TMPb=\pgfmathresult
- \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@TMPc=\pgfmathresult
- \pgfplotsqpointxyz{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}{\pgfplots@loc@TMPa}%
- }%
+ \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotspointonorientedsurfaceabsetupforsetx{\pgfplots@loc@TMPa}{#1}%
+ %
+ \pgfplotspointonorientedsurfaceabsetupfor zyx%
+ \ifpgfplots@threedim
+ \pgfplotspointoutsideofaxis@plug@trafo{z}{#4}\let\pgfplots@loc@A=\pgfmathresult
+ \else
+ \def\pgfplots@loc@A{0}%
+ \fi
+ \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@B=\pgfmathresult
\fi
\fi
%
@@ -1076,8 +1334,9 @@
%
\pgf@process{%
\pgfpointadd
- {\pgfplots@loc@point@orthogonal@to@v}
+ {\pgfplotspointonorientedsurfaceab{\pgfplots@loc@A}{\pgfplots@loc@B}}
{%
+ \pgfplotspointouternormalvectorofaxissetv{#1#2#3}{\pgfplots@loc@A}%
\pgfqpointscale
{\pgfplots@loc@distalong@normal}%
{\pgfplotspointouternormalvectorofaxis{#1#2#3}}%
@@ -1085,10 +1344,67 @@
}%
\endgroup
}%
+%--------------------------------------------------
+% \def\pgfplotspointoutsideofaxis@#1#2#3\relax#4#5{%
+% \if v#1%
+% \def\pgfplots@loc@point@orthogonal@to@v{%
+% \pgfplotspointoutsideofaxis@plug@trafo{x}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
+% \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@TMPb=\pgfmathresult
+% \ifpgfplots@threedim
+% \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@TMPc=\pgfmathresult
+% \else
+% \def\pgfplots@loc@TMPc{0}%
+% \fi
+% \pgfplotsqpointxyz{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}%
+% }%
+% \else
+% \if v#2%
+% \def\pgfplots@loc@point@orthogonal@to@v{%
+% \pgfplotspointoutsideofaxis@plug@trafo{y}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
+% \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@TMPb=\pgfmathresult
+% \ifpgfplots@threedim
+% \pgfplotspointoutsideofaxis@plug@getlimit{z}{#3}\let\pgfplots@loc@TMPc=\pgfmathresult
+% \else
+% \def\pgfplots@loc@TMPc{0}%
+% \fi
+% \pgfplotsqpointxyz{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPc}%
+% }%
+% \else
+% \def\pgfplots@loc@point@orthogonal@to@v{%
+% \ifpgfplots@threedim
+% \pgfplotspointoutsideofaxis@plug@trafo{z}{#4}\let\pgfplots@loc@TMPa=\pgfmathresult
+% \else
+% \def\pgfplots@loc@TMPa{0}%
+% \fi
+% \pgfplotspointoutsideofaxis@plug@getlimit{x}{#1}\let\pgfplots@loc@TMPb=\pgfmathresult
+% \pgfplotspointoutsideofaxis@plug@getlimit{y}{#2}\let\pgfplots@loc@TMPc=\pgfmathresult
+% \pgfplotsqpointxyz{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}{\pgfplots@loc@TMPa}%
+% }%
+% \fi
+% \fi
+% %
+% % read dimen argument #5:
+% \afterassignment\pgfplots@gobble@until@relax
+% \pgf@xa=#5pt\relax
+% \edef\pgfplots@loc@distalong@normal{\pgf@sys@tonumber\pgf@xa}%
+% %
+% %
+% \pgf@process{%
+% \pgfpointadd
+% {\pgfplots@loc@point@orthogonal@to@v}
+% {%
+% \pgfqpointscale
+% {\pgfplots@loc@distalong@normal}%
+% {\pgfplotspointouternormalvectorofaxis{#1#2#3}}%
+% }%
+% }%
+% \endgroup
+% }%
+%--------------------------------------------------
% Helper method for \pgfplotsqpointoutsideofaxis and its variants.
% #1: an axis (x,y or z)
-% #2: one of '0', '1' or '2' where
+% #2: o(\pgfplots@loc@TMPa - \pgfplots@loc@TMPb) ne of '0', '1' or '2' where
% 0 == add lower #1 axis limit,
% 1 == add upper #1 axis limit,
% 2 == add nothing.
@@ -1103,29 +1419,65 @@
\fi
}%
+\newif\ifpgfplots@sloped
+\pgfplots@slopedtrue % its only purpose is to *DEACTIVATE* the sloped transformation after it has been activated.
+\newif\ifpgfplots@sloped@resets@nontranslations
+\newif\ifpgfplots@sloped@allowupsidedown
+\pgfkeys{
+ /pgfplots/sloped/true/.code={\pgfplots@slopedtrue},
+ /pgfplots/sloped/false/.code={\pgfplots@slopedfalse},
+ /pgfplots/sloped/allow upside down/.is if=pgfplots@sloped@allowupsidedown,
+ /pgfplots/sloped/allow upside down/.default=true,
+ /pgfplots/sloped/execute for upside down/.initial=,
+ /pgfplots/sloped/reset nontranslations/.is if=pgfplots@sloped@resets@nontranslations,
+ /pgfplots/sloped/reset nontranslations/.default=true,
+}
% Installs a rotation transformation matrix such that labels or
% whatever are aligned precisely in direction of one of the two/three
% coordinate directions.
%
-% #1: the coordinate direction (one of x,y or z)
+% \pgfplotstransformtoaxisdirection[<options>]{<axis char>}
+%
+% <axis char>: the coordinate direction (one of x,y or z)
%
% The code is pretty much the same as \pgftransformlineattime, except
% that the computation is considerably simpler as axis directions are
% a well known quantity.
%
-% This command assumes \ifpgfallowupsidedownattime = false and
-% \ifpgfresetnontranslationattime = true
-\def\pgfplotstransformtoaxisdirection#1{%
- \pgftransformresetnontranslations
+% This command uses \ifpgfplots@sloped@allowupsidedown (=false) and
+% \ifpgfplots@sloped@resets@nontranslations (= true). The default
+% setting is reinitialised before options are processed
+\def\pgfplotstransformtoaxisdirection{%
+ \pgfutil@ifnextchar[{\pgfplotstransformtoaxisdirection@}{\pgfplotstransformtoaxisdirection@[]}%
+}%
+\def\pgfplotstransformtoaxisdirection@[#1]#2{%
+ \pgfplots@sloped@allowupsidedownfalse
+ \pgfplots@sloped@resets@nontranslationstrue
+ %
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \pgfqkeys{/pgfplots/sloped}{#1}%
+ \fi
+ \ifpgfplots@sloped
+ %
+ \ifpgfplots@sloped@resets@nontranslations
+ \pgftransformresetnontranslations
+ \fi
%
% compute unit length vector pointing into the direction of
% '#1#2#3':
- \pgfqpointscale{\csname pgfplotsunit#1invlength\endcsname}{\csname pgfplotspointunit#1\endcsname}%
+ \pgfqpointscale{\csname pgfplotsunit#2invlength\endcsname}{\csname pgfplotspointunit#2\endcsname}%
%
- % do not allow upside down labels:
\ifdim\pgf@x<0pt%
- \global\pgf@x=-\pgf@x%
- \global\pgf@y=-\pgf@y%
+ % oh. upside down.
+ \pgfkeysvalueof{/pgfplots/sloped/execute for upside down}%
+ \ifpgfplots@sloped@allowupsidedown
+ \else
+ % do not allow upside down labels:
+ \global\pgf@x=-\pgf@x%
+ \global\pgf@y=-\pgf@y%
+ \fi
\fi%
%
\pgf@ya=-\pgf@y%
@@ -1136,6 +1488,7 @@
\pgftransformcm%
{\pgf@sys@tonumber{\pgf@x}}{\pgf@sys@tonumber{\pgf@y}}%
{\pgf@sys@tonumber{\pgf@ya}}{\pgf@sys@tonumber{\pgf@x}}{\pgfpointorigin}%
+ \fi
}
@@ -1194,6 +1547,10 @@
}%
% this does the work for \pgfplotsdeclareborderanchorforaxis.
+%
+% It depends on \pgfplotspointunit[xyz] and
+% \pgfplotspointouternormalvectorofaxis
+%
% #1: either x,y or z the direction which varies
% #2: a three-char-string uniquely identifying the axis line.
% The parameter '#1' is redundand: it is the same as the 'v'
@@ -1310,31 +1667,48 @@
\pgf@ya=\pgf@y
\pgf@pos@transform\pgf@xa\pgf@ya
%
- \edef\pgfplots@LEQ{%
- % solve linear system
- {\pgf@sys@tonumber\pgf@xb}{\pgf@sys@tonumber\pgf@xa}%
- {\pgf@sys@tonumber\pgf@yb}{\pgf@sys@tonumber\pgf@ya}%
- }%
- %
- % apply inverse matrix to right-hand-side (and compute RHS):
- \pgf@sh@reanchor{#3}{center}%
- \edef\pgfplots@loc@center{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- \pgfpointdiff% {<start>}{<end>} -> computes <end> - <start>
- {\pgfplots@loc@center}%
- {\pgf@sh@reanchor{#3}{\pgfplots@anchor}}%
- \edef\pgfplots@RHS{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
- %
- \pgfutilsolvetwotwoleq{\pgfplots@LEQ}{\pgfplots@RHS}%
- \def\pgfplots@extract##1##2{%
- \def\pgfplots@r{##1}%
- }%
- \expandafter\pgfplots@extract\pgfmathresult
- % GOT IT!
- %
- % compute x_c + r*n:
- \pgfpointadd
- {\pgfplots@loc@center}%
- {\pgfqpointscale{\pgfplots@r}{\pgfplots@tmp@normaldir}}%
+ % verify that |n^T d |
+ \pgf@xc=\pgf@sys@tonumber\pgf@xa\pgf@xb
+ \advance\pgf@xc by\pgf@sys@tonumber\pgf@ya\pgf@yb
+ \ifdim\pgf@xc<0pt \pgf@xc=-\pgf@xc \fi
+ \ifdim\pgf@xc<0.8pt
+ % ok. 'n' and 'd' are not parallel.
+ %
+ \edef\pgfplots@LEQ{%
+ % solve linear system
+ % a11 a12
+ % a21 a22
+ {\pgf@sys@tonumber\pgf@xb}{\pgf@sys@tonumber\pgf@xa}%
+ {\pgf@sys@tonumber\pgf@yb}{\pgf@sys@tonumber\pgf@ya}%
+ }%
+ %
+ \pgf@sh@reanchor{#3}{center}%
+ \edef\pgfplots@loc@center{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
+ %
+ % apply inverse matrix to right-hand-side (and compute RHS):
+ \pgfpointdiff% {<start>}{<end>} -> computes <end> - <start>
+ {\pgfplots@loc@center}%
+ {\pgf@sh@reanchor{#3}{\pgfplots@anchor}}%
+ \edef\pgfplots@RHS{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
+ %
+ \pgfutilsolvetwotwoleq{\pgfplots@LEQ}{\pgfplots@RHS}%
+ \def\pgfplots@extract##1##2{%
+ \def\pgfplots@r{##1}%
+ }%
+ \expandafter\pgfplots@extract\pgfmathresult
+ % GOT IT!
+ %
+ % compute x_c + r*n:
+ \pgfpointadd
+ {\pgfplots@loc@center}%
+ {\pgfqpointscale{\pgfplots@r}{\pgfplots@tmp@normaldir}}%
+ \else
+ \message{^^JPGFPlots warning: The ticklabel anchor cannot be determined, the normal vector -(\the\pgf@xb,\the\pgf@yb) and the unit #1 vector (\the\pgf@xa,\the\pgf@ya) are almost parallel (abs(cos(angle)) = \the\pgf@xc)!^^J}%
+ % Something went awry: normal and unit#1 are almost parallel!?
+ % just use the determined anchor.
+ \def\pgfplots@r{0}%
+ \pgf@sh@reanchor{#3}{\pgfplots@anchor}%
+ \fi
%\message{==========>>>>>>>>>> I got finally (\the\pgf@x,\the\pgf@y). <<<<<<<<<===================}%
\pgf@process{}% <- transport outside of group
\endgroup
@@ -1439,13 +1813,38 @@
\xdef\pgfplots@glob@TMPc{\noexpand\pgfqpointscale{-1}{\the\t@pgfplots@toka}}%
\fi
%
+ % Process 'plot box ratio':
\def\pgfplots@extract@plot@box@ratio##1##2##3##4\pgfplots@EOI{%
\pgfmathparse{##1}\let\pgfplots@plotboxratio@x=\pgfmathresult
\pgfmathparse{##2}\let\pgfplots@plotboxratio@y=\pgfmathresult
\pgfmathparse{##3}\let\pgfplots@plotboxratio@z=\pgfmathresult
}%
+ \def\pgfplots@extract@plot@box@ratio@spaces##1 ##2 ##3 ##4\pgfplots@EOI{%
+ \pgfplots@extract@plot@box@ratio{##1}{##2}{##3}{##4}\pgfplots@EOI
+ }%
\pgfkeysgetvalue{/pgfplots/plot box ratio}\pgfplots@loc@TMPa
- \expandafter\pgfplots@extract@plot@box@ratio\pgfplots@loc@TMPa{1}{1}{1}\pgfplots@EOI
+ % Auto-determine input format which is either '{x}{y}{z}' or 'x y z'
+ \def\pgfplots@loc@TMPb{%
+ \pgfutil@ifnextchar\bgroup{%
+ \pgfplots@loc@tmptrue
+ \pgfplots@gobble@until@EOI
+ }{%
+ \pgfplots@loc@tmpfalse
+ \pgfplots@gobble@until@EOI
+ }%
+ }%
+ \expandafter\pgfplots@loc@TMPb\pgfplots@loc@TMPa\pgfplots@EOI
+ \ifpgfplots@loc@tmp
+ % Ah- braces format.
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa{1}{1}{1}}%
+ \expandafter\pgfplots@extract@plot@box@ratio\pgfplots@loc@TMPa\pgfplots@EOI
+ \else
+ % Ah- space-separated
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa\space 1 1 1}%
+ \expandafter\pgfplots@extract@plot@box@ratio@spaces\pgfplots@loc@TMPa\pgfplots@EOI
+ \fi
+ %
+ % process it:
\ifdim\pgfplots@plotboxratio@x pt=1pt
\else
\t@pgfplots@toka=\expandafter{\pgfplots@glob@TMPa}%
@@ -1468,7 +1867,7 @@
\pgfmathmultiply@{\cosaz}{\cosel}%
\xdef\pgfplots@glob@TMPd{{\pgfmathresultNx}{\pgfmathresult}{\sinel}}%
\endgroup
-%\message{Setting x,y and z from {#1}{#2} to x = \meaning\pgfplots@glob@TMPa, y = \meaning\pgfplots@glob@TMPb, z = \meaning\pgfplots@glob@TMPc...n = \pgfplots@glob@TMPd.}%
+%\message{Setting x,y and z from {#1}{#2} to^^J x = \meaning\pgfplots@glob@TMPa,^^J y = \meaning\pgfplots@glob@TMPb,^^J z = \meaning\pgfplots@glob@TMPc,^^J n = \pgfplots@glob@TMPd.^^J}%
\pgfsetxvec{\pgfplots@glob@TMPa}%
\pgfsetyvec{\pgfplots@glob@TMPb}%
\pgfsetzvec{\pgfplots@glob@TMPc}%
@@ -1479,16 +1878,60 @@
}%
\expandafter\pgfplots@loc@TMPa\pgfplots@glob@TMPd\relax
\def#3{0}%
+ \pgfplots@scale@plotbox@to@widthheight
+}%
+
+\def\message@pgfplots@units{%
+ \begingroup
+ \pgfmathparse{veclen(\pgf@zx,\pgf@zy)}\let\Z=\pgfmathresult
+ \ifdim\Z pt=0pt
+ \def\Z{1}%
+ \fi
+ \pgfmathparse{veclen(\pgf@xx,\pgf@xy)/\Z}\let\X=\pgfmathresult
+ \pgfmathparse{veclen(\pgf@yx,\pgf@yy)/\Z}\let\Y=\pgfmathresult
+ \message{^^J
+ x = (\the\pgf@xx,\the\pgf@xy),^^J
+ y =(\the\pgf@yx,\the\pgf@yy),^^J
+ z = (\the\pgf@zx,\the\pgf@zy),^^J
+ \expandafter\ifx\csname pgfplots@view@dir@threedim@x\endcsname\relax
+ \else
+ n = (\pgfplots@view@dir@threedim@x,\pgfplots@view@dir@threedim@y,\pgfplots@view@dir@threedim@z),^^J
+ \fi
+ unit vector ratio=[\X\space\Y\space 1],^^J}%
+ \endgroup
+}%
+
+% Takes the current plot box, defined by the actual PGF x,y and z unit
+% vectors, and re-scales it such that it fits into the
+% width and height of the axis (as they have been provided by the
+% user).
+%
+% @see \pgfplots@scale@axisbox@to@widthheight
+% @see\pgfplots@scaleaxes@to@BB
+\def\pgfplots@scale@plotbox@to@widthheight{%
\pgfplots@initsizes@get@width@withoutlabels
\let\pgfplots@loc@TMPa=\pgfmathresult
\pgfplots@initsizes@get@height@withoutlabels
\edef\pgfplots@loc@TMPa{{\pgfplots@loc@TMPa}{\pgfmathresult}}%
+ \let\pgfplots@BB@for@plotbox=\pgfplots@BB@for@plotbox@relative
+ \let\pgfplots@BB@for@plotbox@compute@post@scales=\pgfplots@BB@for@plotbox@compute@post@scales@relative
\expandafter\pgfplots@scaleaxes@to@BB\pgfplots@loc@TMPa
-%\message{After scaling:
-% x = (\the\pgf@xx,\the\pgf@xy),
-% y = (\the\pgf@yx,\the\pgf@yy),
-% z = (\the\pgf@zx,\the\pgf@zy).}%
-}%
+}
+
+
+% A variant of \pgfplots@scale@plotbox@to@widthheight which does not
+% use the given x,y,z vectors to define the plot box. Instead, it uses
+% the lower and upper axis limits.
+\def\pgfplots@scale@axisbox@to@widthheight{%
+ \pgfplots@initsizes@get@width@withoutlabels
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplots@initsizes@get@height@withoutlabels
+ \edef\pgfplots@loc@TMPa{{\pgfplots@loc@TMPa}{\pgfmathresult}}%
+ \let\pgfplots@BB@for@plotbox=\pgfplots@BB@for@plotbox@computelimits
+ \let\pgfplots@BB@for@plotbox@compute@post@scales=\pgfplots@BB@for@plotbox@compute@post@scales@NOP
+ \expandafter\pgfplots@scaleaxes@to@BB\pgfplots@loc@TMPa
+}
+
% Takes the current PGF x,y and z unit vectors and scales them such
% that the bounding box of the final image has width #1 and height #2.
@@ -1513,10 +1956,27 @@
% - the @veclength and @inverseveclength have been re-scaled as
% well.
\def\pgfplots@scaleaxes@to@BB#1#2{%
- \begingroup
- \pgfinterruptboundingbox
- % STEP 1: compute the bounding box for UNITS. We just need the
- % relative sizes:
+%\message{before scaling:}\message@pgfplots@units
+ \if0\pgfplots@scale@mode@choice
+ % scale mode=auto
+ \def\pgfplots@scale@mode@choice{2}% stretch to fill
+ \fi
+ \if1\pgfplots@scale@mode@choice
+ % scale mode=none
+ \else
+ \pgfplots@scaleaxes@to@BB@{#1}{#2}%
+ \fi
+ % FIXME
+ % I suppose I should call \pgfplotsgetnormalforcurrentview now?
+ \pgfplots@computeunitvectorlengths
+%\message{after scaling:}\message@pgfplots@units
+}%
+\def\pgfplots@BB@for@plotbox@relative{%
+ % We just need the
+ % relative sizes, i.e.
+ % "0" == lower axis limit
+ % "1" == upper axis limit
+ %
\ifpgfplots@threedim
\pgfpathmoveto{\pgfqpointxyz000}%
\pgfpathmoveto{\pgfqpointxyz001}%
@@ -1532,6 +1992,63 @@
\pgfpathmoveto{\pgfqpointxy10}%
\pgfpathmoveto{\pgfqpointxy11}%
\fi
+}%
+\let\pgfplots@BB@for@plotbox=\pgfplots@BB@for@plotbox@relative
+\def\pgfplots@BB@for@plotbox@compute@post@scales@relative#1#2#3{%
+ % Consequently, we have to multiply with 1/(max-min):
+ \pgfmathsubtract@{\pgfplots@xmax}{\pgfplots@xmin}%
+ % compute 1/(xmax - xmin) in float for more recent versions (see /pgfplots/compat/scaling).
+ % I observed that it is much more accurate
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{parsenumber}{\pgfmathresult}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{op}{reciprocal}{{\pgfmathresult}}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{tofixed}{\pgfmathresult}%
+ \let#1=\pgfmathresult
+ %
+ \pgfmathsubtract@{\pgfplots@ymax}{\pgfplots@ymin}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{parsenumber}{\pgfmathresult}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{op}{reciprocal}{{\pgfmathresult}}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{tofixed}{\pgfmathresult}%
+ \let#2=\pgfmathresult
+ %
+ \ifpgfplots@threedim
+ \pgfmathsubtract@{\pgfplots@zmax}{\pgfplots@zmin}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{parsenumber}{\pgfmathresult}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{op}{reciprocal}{{\pgfmathresult}}%
+ \pgfplotscoordmath{\pgfplots@compat@scaling@coordmath}{tofixed}{\pgfmathresult}%
+ \else
+ \def\pgfmathresult{1}%
+ \fi
+ \let#3=\pgfmathresult
+}%
+\let\pgfplots@BB@for@plotbox@compute@post@scales=\pgfplots@BB@for@plotbox@compute@post@scales@relative
+\def\pgfplots@BB@for@plotbox@computelimits{%
+ \ifpgfplots@threedim
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmin\pgfplots@ymin\pgfplots@zmin}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmin\pgfplots@ymin\pgfplots@zmax}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmin\pgfplots@ymax\pgfplots@zmin}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmin\pgfplots@ymax\pgfplots@zmax}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmax\pgfplots@ymin\pgfplots@zmin}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmax\pgfplots@ymin\pgfplots@zmax}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmax\pgfplots@ymax\pgfplots@zmin}%
+ \pgfpathmoveto{\pgfqpointxyz\pgfplots@xmax\pgfplots@ymax\pgfplots@zmax}%
+ \else
+ \pgfpathmoveto{\pgfqpointxy\pgfplots@xmin\pgfplots@ymin}%
+ \pgfpathmoveto{\pgfqpointxy\pgfplots@xmin\pgfplots@ymax}%
+ \pgfpathmoveto{\pgfqpointxy\pgfplots@xmax\pgfplots@ymin}%
+ \pgfpathmoveto{\pgfqpointxy\pgfplots@xmax\pgfplots@ymax}%
+ \fi
+}%
+\def\pgfplots@BB@for@plotbox@compute@post@scales@NOP#1#2#3{%
+ \let#1=\pgfutil@empty
+ \let#2=\pgfutil@empty
+ \let#3=\pgfutil@empty
+}%
+\def\pgfplots@scaleaxes@to@BB@#1#2{%
+ \begingroup
+ \pgfinterruptboundingbox
+ % STEP 1: compute the bounding box for the plot box.
+ \pgfplots@BB@for@plotbox
+ %
% TMPa = width
\pgf@xa=\pgf@pathmaxx
\advance\pgf@xa by-\pgf@pathminx
@@ -1541,62 +2058,156 @@
\pgf@ya=#1\relax
\pgf@yb=#2\relax
%\message{PGFPLOTS: the current unit vectors result in a UNIT BB of (\the\pgf@xa,\the\pgf@xb). Scaling it to (\the\pgf@ya,\the\pgf@yb)...}%
- % STEP 2: compute the scales for x and y such
- % that the UNIT-BB will have size #1,#2:
- \pgfplotsutil@edef@invoke\pgfmathdivide@{%
- {\pgf@sys@tonumber\pgf@ya}%
- {\pgf@sys@tonumber\pgf@xa}%
- }%
- % TMPa = scalex
- \global\let\pgfplots@glob@TMPa=\pgfmathresult
- \pgfplotsutil@edef@invoke\pgfmathdivide@{%
- {\pgf@sys@tonumber\pgf@yb}%
- {\pgf@sys@tonumber\pgf@xb}%
- }%
- % TMPb = scaley
- \global\let\pgfplots@glob@TMPb=\pgfmathresult
+ \ifcase\pgfplots@scale@mode@choice
+ % scale mode=auto does not happen here
+ \or
+ % scale mode=none does not happen here
+ \or
+ % scale mode=stretch to fill
+ % Compute individual scaling factors for X and Y
+ % such that the UNIT-BB will have size #1,#2:
+ \pgfplotsutil@edef@invoke\pgfmathdivide@{%
+ {\pgf@sys@tonumber\pgf@ya}%
+ {\pgf@sys@tonumber\pgf@xa}%
+ }%
+ % TMPa = scalex
+ \global\let\pgfplots@glob@TMPa=\pgfmathresult
+ \pgfplotsutil@edef@invoke\pgfmathdivide@{%
+ {\pgf@sys@tonumber\pgf@yb}%
+ {\pgf@sys@tonumber\pgf@xb}%
+ }%
+ % TMPb = scaley
+ \global\let\pgfplots@glob@TMPb=\pgfmathresult
+ \global\let\pgfplots@glob@TMPc=\relax
+ \or
+ % scale mode=scale uniformly
+ % compute ONE common scale for both, X and Y.
+ %
+ \pgfplotsutil@edef@invoke\pgfmathdivide@{%
+ {\pgf@sys@tonumber\pgf@ya}%
+ {\pgf@sys@tonumber\pgf@xa}%
+ }%
+ \global\let\pgfplots@glob@TMPa=\pgfmathresult
+ \global\let\pgfplots@glob@TMPb=\pgfplots@glob@TMPa
+ \global\let\pgfplots@glob@TMPc=\relax
+ \ifdim\pgf@zy=0pt
+ \ifdim\pgf@yx=0pt
+ \pgfplots@prepare@vertical@rescaling@for@scale@uniformly@in@dir{y}\returninto\pgfplots@glob@TMPc
+ \else
+ \pgfplots@error@scale@uniformly@failed
+ \fi
+ \else
+ \ifdim\pgf@zx=0pt
+ \pgfplots@prepare@vertical@rescaling@for@scale@uniformly@in@dir{z}\returninto\pgfplots@glob@TMPc
+ \else
+ \pgfplots@error@scale@uniformly@failed
+ \fi
+ \fi
+ \fi
\pgfusepath{discard}%
\endpgfinterruptboundingbox
\endgroup
-%\message{got scalex = \pgfplots@glob@TMPa\space and scaley = \pgfplots@glob@TMPb.}%
- \pgfmathsubtract@{\pgfplots@xmax}{\pgfplots@xmin}%
- % compute 1/(xmax - xmin) in float.
- % I observed that it is much more accurate (lead to scaling differences of up to 10pt!)
- \pgfmathfloatparsenumber\pgfmathresult
- \pgfmathfloatreciprocal@\pgfmathresult
- \pgfmathfloattofixed\pgfmathresult
- %\expandafter\pgfmath@basic@reciprocal@\expandafter{\pgfmathresult}%
-%\message{and 1/(xmax-xmin) = 1/(\pgfplots@xmax-\pgfplots@xmin) = \pgfmathresult.}%
+ % Ok, we know the W,H scalings now.
+ %
+ % But remember that we have worked with RELATIVE scales up to now.
+ % We have to convert them now, by interpreting "1 == upper limit"
+ % and "0 == lower limit" for every direction.
+ %
+ \pgfplots@BB@for@plotbox@compute@post@scales{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}%
+ %
+ % ok. Now apply all scalings.
+ % Let's hope all these temporary macros are still valid!
+%\message{got scaleW = \pgfplots@glob@TMPa\space and scaleH = \pgfplots@glob@TMPb; scalex=\pgfplots@loc@TMPa, scaley=\pgfplots@loc@TMPb, scalez=\pgfplots@loc@TMPc.}%
\pgf@xx=\pgfplots@glob@TMPa\pgf@xx
\pgf@xy=\pgfplots@glob@TMPb\pgf@xy
- \pgf@xx=\pgfmathresult\pgf@xx
- \pgf@xy=\pgfmathresult\pgf@xy
+ \pgf@xx=\pgfplots@loc@TMPa\pgf@xx
+ \pgf@xy=\pgfplots@loc@TMPa\pgf@xy
%
- \pgfmathsubtract@{\pgfplots@ymax}{\pgfplots@ymin}%
- \pgfmathfloatparsenumber\pgfmathresult
- \pgfmathfloatreciprocal@\pgfmathresult
- \pgfmathfloattofixed\pgfmathresult
- %\expandafter\pgfmath@basic@reciprocal@\expandafter{\pgfmathresult}%
-%\message{and 1/(ymay-ymin) = 1/(\pgfplots@ymax-\pgfplots@ymin) = \pgfmathresult.}%
\pgf@yx=\pgfplots@glob@TMPa\pgf@yx
\pgf@yy=\pgfplots@glob@TMPb\pgf@yy
- \pgf@yx=\pgfmathresult\pgf@yx
- \pgf@yy=\pgfmathresult\pgf@yy
+ \pgf@yx=\pgfplots@loc@TMPb\pgf@yx
+ \pgf@yy=\pgfplots@loc@TMPb\pgf@yy
%
\ifpgfplots@threedim
- \pgfmathsubtract@{\pgfplots@zmax}{\pgfplots@zmin}%
- \pgfmathfloatparsenumber\pgfmathresult
- \pgfmathfloatreciprocal@\pgfmathresult
- \pgfmathfloattofixed\pgfmathresult
- %\expandafter\pgfmath@basic@reciprocal@\expandafter{\pgfmathresult}%
-%\message{and 1/(zmaz-zmin) = 1/(\pgfplots@zmax-\pgfplots@zmin) = \pgfmathresult.}%
\pgf@zx=\pgfplots@glob@TMPa\pgf@zx
\pgf@zy=\pgfplots@glob@TMPb\pgf@zy
- \pgf@zx=\pgfmathresult\pgf@zx
- \pgf@zy=\pgfmathresult\pgf@zy
- \fi
- \pgfplots@computeunitvectorlengths
-}%
+ \pgf@zx=\pgfplots@loc@TMPc\pgf@zx
+ \pgf@zy=\pgfplots@loc@TMPc\pgf@zy
+ \fi
+ \pgfplots@glob@TMPc
+}%
+
+\def\pgfplots@error@scale@uniformly@failed{%
+ \pgfplots@error{Sorry, 'scale uniformly' failed because its actual implementation works only if y_x = 0 (for 2d axes) or if z_x = 0 (for 3d axes). The result will not fill the prescribed dimensions. For 2d axes, you may also want to consider the 'unit vector ratio' key}%
+}%
+\def\pgfplots@prepare@vertical@rescaling@for@scale@uniformly@in@dir#1\returninto#2{%
+ % The strategy is as follows:
+ % 1. I want to fit the axis into width #1 (\pgf@ya) and
+ % height #1 (\pgf@yb).
+ % 2. I want to MAINTAIN the unit vector ratio.
+ % 3. I want to MAINTAIN the unit vector directions.
+ %
+ % I already know the scaling factor to fit the width (it
+ % is stored in \pgfplots@glob@TMPa = \pgfplots@glob@TMPb).
+ % Let's call it "s".
+ %
+ % Consequently, a uniform scaling by "s" leads the image
+ % height
+ % h = s* (r_x * e_xy + r_y * e_yy + r_z * e_zy)
+ % where r_i = (imax - imin). This here is essentially the
+ % same as the bounding box computation above (at least for
+ % standart orthographic 3D axes).
+ %
+ % What I want now is to enlarge the limits such that I
+ % have BOTH, width #1 AND height #2, without obscuring the
+ % unit vector ratio. Recall that width #1 is already
+ % given.
+ %
+ % In my opinion the ONLY way to achieve this goal is to
+ % modify axis limits for an axis whose unit vector is
+ % parallel to the canvas y axis, i.e. e_i = (0,*). To see
+ % this, remember that a rescaling of the other limits will
+ % also modify the width.
+ %
+ % That means I have to introduce a SECOND scale s_z which
+ % applies only to the Z unit vector (since e_z = (0,*) ).
+ % If H = #2 is the desired height, I find the target
+ % equation for s_z,
+ %
+ % H = s* r_x e_xy + s * r_y e_yy + s_z * s * r_z * e_zy
+ % =>
+ % s_z = ( H- s*r_x e_xy - s*r_y e_yy) / ( s * r_z * e_zy).
+ %
+ % Remember that
+ % s = \pgfplots@glob@TMPa
+ % and
+ % \pgfplots@glob@TMPa * \pgf@xb = s*h
+ %
+ \pgf@xc=\csname pgfplots@#1max\endcsname\csname pgf@#1y\endcsname% FIXME : what if we are working with relative coords?
+ \advance\pgf@xc by -\csname pgfplots@#1min\endcsname\csname pgf@#1y\endcsname
+ %
+ \advance\pgf@xb by-\pgf@xc
+ \pgf@xb=\pgfplots@glob@TMPa\pgf@xb
+ \advance\pgf@yb by-\pgf@xb
+ \pgf@xb=\pgfplots@glob@TMPa\pgf@xc
+ \pgfplotsutil@edef@invoke\pgfmathdivide@{%
+ {\pgf@sys@tonumber\pgf@yb}%
+ {\pgf@sys@tonumber\pgf@xb}%
+ }%
+ % Now, s_z = \pgfmathresult .
+ %
+ % Now, adjust the z limits.
+ % Note that \pgfplots@apply@unit@vector@rescale@keep@size
+ % has a slightly different context; it assumes that the
+ % unit vector has been rescaled, not the axis limits.
+ % Consequently, the inverse of the scaling factor enters.
+ % Since \pgfplots@apply@unit@vector@rescale@keep@size
+ % expects the inverse of the scale, we can provide
+ % \pgfmathresult:
+ \xdef#2{%
+ \noexpand\pgfplots@apply@unit@vector@rescale@keep@size{#1}{\pgfmathresult}%
+ }%
+}
\def\pgfplots@computeunitvectorlengths{%
\pgfplotsutil@edef@invoke\pgfmathveclen@{%
@@ -1641,6 +2252,746 @@
\fi
}%
+% Defines \pgfplots@view@dir@threedim@[xyz] according to the actual
+% configuration of x,y,z (2d) unit vectors, assuming the associated
+% unit vectors form a right-handed-system.
+%
+% The algorithm works for standard three dimensional axes. It works as
+% follows:
+%
+% First, observe that we have a normal direction N if all its
+% multiples are on the mapped onto the same point in 2D canvas
+% coordinates. In other words: all 3D coordinates which are mapped
+% onto an arbitrary point in 2D canvas coordinates (take, for example,
+% the origin (0,0) ) are on a line in direction of N.
+%
+% We use this observation to compute the normal axis, i.e. we search
+% for all points which are mapped onto the 2D canvas coordinate (0,0):
+% N_x e_xx + N_y e_yx + N_z e_zx = 0
+% N_x e_xy + N_y e_yy + N_z e_zy = 0.
+% All solutions make up a linear space of dimension 1 (up to special
+% cases). In the general case, we can chose an arbitrary N_z != 0
+% and reduce the linear system to
+% N_x e_xx + N_y e_yx = - N_z e_zx
+% N_x e_xy + N_y e_yy = - N_z e_zy.
+% Choosing *any* N_z != 0, say, N_z=-1 (which corresponds to view
+% from above) will lead to a vector parallel to the normal direction.
+% But it might have the wrong sign.
+%
+% To find the correct sign for N, I have made several case
+% distinctions to identify the cases when we have to multiply with -1.
+% The key idea is to assume a right-handed-system of unit vectors;
+% this is the condition which allows to determine the sign.
+%
+% Furthermore, I assume that e_z points to the top, i.e. that e_zy >0.
+% Then, there are (mainly) four conditions on the signs of e_x and e_y
+% which indicate that we are viewing from below and should switch the
+% sign of N (keep in mind that our initial choice was N_z =-1, see above).
+%
+% The conditions can be identified by drawing a 3D box and
+% identifying the corner which represents the lower left 3D limits.
+%
+% You can visualize these cases using
+%--------------------------------------------------
+% \pgfplotsset{
+% separate axis lines,
+% every outer x axis line/.append style= {-stealth},
+% every outer y axis line/.append style= {-stealth},
+% every outer z axis line/.append style= {-stealth},
+% samples=2,shader=interp,title={view=\h,\v},
+% domain=0:1,
+% enlargelimits=false,
+% view=\h\v,xlabel=x,ylabel=y,
+% extra description/.code={%
+% \node[draw,fill=white] at (axis cs:0,0,0) {};
+% },
+% }
+%
+% \def\v{30}
+% \foreach \h in {30,120,210,300} {
+% \message{VIEW={\h}{\v}^^J}
+% \begin{tikzpicture}
+% \begin{axis}
+% \addplot3[surf] {x};
+% \end{axis}
+% \end{tikzpicture}
+%
+% }
+%
+% \def\v{-30}
+% \foreach \h in {30,120,210,300} {
+% \message{VIEW={\h}{\v}^^J}
+% \begin{tikzpicture}
+% \begin{axis}
+% \addplot3[surf] {x};
+% \end{axis}
+% \end{tikzpicture}
+%
+% }
+%--------------------------------------------------
+% The precise formulas can be found below in the source code.
+%
+% You can override this function by the /pgfplots/view dir key.
+\def\pgfplotsgetnormalforcurrentview{%
+ \pgfkeysgetvalue{/pgfplots/view dir}\pgfplots@loc@TMPc
+ \ifx\pgfplots@loc@TMPc\pgfutil@empty
+ \begingroup
+ \xdef\pgfplots@view@dir@threedim@z{-1}% hold it at some arbitrary value
+ \pgf@xa=-\pgfplots@view@dir@threedim@z\pgf@zx
+ \pgf@ya=-\pgfplots@view@dir@threedim@z\pgf@zy
+ \edef\pgfplots@loc@TMPa{%
+ {%
+ {\pgf@sys@tonumber\pgf@xx}{\pgf@sys@tonumber\pgf@yx}%
+ {\pgf@sys@tonumber\pgf@xy}{\pgf@sys@tonumber\pgf@yy}%
+ }%
+ {%
+ {\pgf@sys@tonumber\pgf@xa}{\pgf@sys@tonumber\pgf@ya}%
+ }%
+ }%
+ \expandafter\pgfutilsolvetwotwoleq\pgfplots@loc@TMPa
+ \def\pgfplots@loc@TMPb##1##2{%
+ \xdef\pgfplots@view@dir@threedim@x{##1}%
+ \xdef\pgfplots@view@dir@threedim@y{##2}%
+ }%
+ \expandafter\pgfplots@loc@TMPb\pgfmathresult
+ %
+ % Identify if we need to switch the sign.
+ % To verify that these cases are useful, I suggest visualizing
+ % that stuff using the TeX code from above...
+ %
+ % I guess it is correct up to collapsing views (as you see, I
+ % did not properly identify the cases with "=0" )
+ \def\pgfplots@scale{1}%
+ \ifdim\pgf@xx>0pt
+ \ifdim\pgf@yx>0pt
+ %
+ \ifdim\pgf@xy>0pt
+ \ifdim\pgf@yy<0pt
+ \def\pgfplots@scale{-1}%
+ \fi
+ \fi
+ %
+ \fi
+ \else
+ \ifdim\pgf@xx<0pt
+ \ifdim\pgf@yx<0pt
+ %
+ \ifdim\pgf@xy<0pt
+ \ifdim\pgf@yy>0pt
+ \def\pgfplots@scale{-1}%
+ \fi
+ \fi
+ %
+ \fi
+ \fi
+ \fi
+ \ifdim\pgf@xy>0pt
+ \ifdim\pgf@yy>0pt
+ %
+ \ifdim\pgf@xx<0pt
+ \ifdim\pgf@yx>0pt
+ \def\pgfplots@scale{-1}%
+ \fi
+ \fi
+ %
+ \fi
+ \else
+ \ifdim\pgf@xy<0pt
+ \ifdim\pgf@yy<0pt
+ %
+ \ifdim\pgf@xx>0pt
+ \ifdim\pgf@yx<0pt
+ \def\pgfplots@scale{-1}%
+ \fi
+ \fi
+ %
+ \fi
+ \fi
+ \fi
+ \pgfmathmultiply@{\pgfplots@scale}{\pgfplots@view@dir@threedim@x}%
+ \global\let\pgfplots@view@dir@threedim@x\pgfmathresult
+ \pgfmathmultiply@{\pgfplots@scale}{\pgfplots@view@dir@threedim@y}%
+ \global\let\pgfplots@view@dir@threedim@y\pgfmathresult
+ \pgfmathmultiply@{\pgfplots@scale}{\pgfplots@view@dir@threedim@z}%
+ \global\let\pgfplots@view@dir@threedim@z\pgfmathresult
+ \endgroup
+ \else
+ \def\pgfplots@loc@TMPb##1##2##3{%
+ \xdef\pgfplots@view@dir@threedim@x{##1}%
+ \xdef\pgfplots@view@dir@threedim@y{##2}%
+ \xdef\pgfplots@view@dir@threedim@z{##3}%
+ }%
+ \expandafter\pgfplots@loc@TMPb\pgfplots@loc@TMPc
+ \fi
+%\message{\string\pgfplotsgetnormalforcurrentview: got (\pgfplots@view@dir@threedim@x,\pgfplots@view@dir@threedim@y,\pgfplots@view@dir@threedim@z)^^J}%
+}%
+
+% ==================================================================================
+%
+% COORDINATE MATH.
+%
+% ==================================================================================
+
+% Declares a new "subclass" to perform coordinate math.
+%
+% Coordinate math usually needs a more powerful number format than the pgf
+% basic layer, or at least a powerful mapping into the pgf basic
+% layer. Both cases are realized by the coordinate math class.
+%
+% Different coordinates can use different instances, and it is also
+% possible to use yet a further instance for point meta (or whatever).
+%
+% Coordinate math is used to compute axis limits and to map the range
+% into the pgf number format.
+%
+% It is *not* necessarily used for \pgfmathparse, since switching
+% the number format of \pgfmathparse is quite involved (at the time of
+% this writing). Instead, it is used for *single* operations (like
+% max, min, multiply, add).
+%
+% #1: the name of the coord math class
+% #2: methods to override the default.
+%
+% The available methods are documented and shown below in the
+% \pgfqkeys listing.
+%
+% @see the predefined examples, also shown below.
+\def\pgfplotsdeclarecoordmath#1#2{%
+ \edef\pgfplotsdeclarecoordmath@{@#1@}%
+ \pgfqkeys{/pgfplots/@declare coord math}{%
+ initialise=,
+ parse=\pgfmathparse{##1},
+ parsenumber=\pgfmathfloatparsenumber{##1}\pgfmathfloattofixed{##1},%
+ zero= \pgfplotscoordmath{\pgfplotscoordmathid}{parsenumber}{0},
+ one= \pgfplotscoordmath{\pgfplotscoordmathid}{parsenumber}{1},
+ log e= \pgfmathlog@{##1},%
+ log to display log=\pgfmath@basic@multiply@{##1}{2.3025851},% * log(10)
+ log from display log=\pgfmath@basic@multiply@{##1}{0.434294},% / log(10)
+ log unsigned int={%
+ \edef\pgfmathresult{%
+ \ifcase##1
+ \or0
+ \or0.693147
+ \or1.098612
+ \or1.386294
+ \or1.60943791
+ \or1.7917594
+ \or1.94591014
+ \or2.07944154
+ \or2.197224
+ \fi
+ }%
+ },
+ set log basis=\edef\pgfmathresult{{#1}{##1}}\expandafter\pgfplotscoordmath@log@set@basis\pgfmathresult,
+ exp e={%
+ % make sure the exponential can be represented, i.e. use
+ % 'float' in the default repr:
+ \pgfmathfloatparsenumber{##1}%
+ \pgfmathfloatexp@\pgfmathresult%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{parsenumber}{\pgfmathresult}%
+ },
+ tofixed= \edef\pgfmathresult{##1},%
+ tostring= \edef\pgfmathresult{##1},%
+ max= \pgfplotsmathmax{##1}{##2},%
+ min= \pgfplotsmathmin{##1}{##2},%
+ min limit= \def\pgfmathresult{-16300},%
+ max limit= \def\pgfmathresult{16300},%
+ if less than= {\pgfplotsmathlessthan{##1}{##2}\ifpgfmathfloatcomparison ##3\else ##4\fi},
+ if is= {%
+ \if##20
+ \ifdim##1pt=0pt ##2\else ##3\fi
+ \else
+ \if##2+\ifdim##1pt>0pt ##2\else ##3\fi
+ \else
+ \if##2-\ifdim##1pt<0pt ##2\else ##3\fi
+ \else
+ \def\pgfplots@loc@TMPd{##1}\ifx\pgfplots@loc@TMPd\pgfutil@empty ##2\else ##3\fi
+ \fi
+ \fi
+ \fi
+ },%
+ if is bounded=\edef\pgfplotsretval{##1}\ifx\pgfplotsretval\pgfutil@empty ##3\else ##2\fi,
+ suffix= #1,%
+ datascaletrafo set params=,
+ datascaletrafo get params= \def\pgfmathresult{{}{}},
+ datascaletrafo= \edef\pgfmathresult{##1},
+ datascaletrafo inverse= \edef\pgfmathresult{##1},
+ datascaletrafo noshift inverse= \edef\pgfmathresult{##1},
+ datascaletrafo inverse to fixed= \edef\pgfmathresult{##1},
+ datascaletrafo noshift inverse to fixed= \edef\pgfmathresult{##1},
+ datascaletrafo noshift= \edef\pgfmathresult{##1},
+ datascaletrafo noshift= \edef\pgfmathresult{##1},
+ datascaletrafo undo shift= \edef\pgfmathresult{##1},
+ datascaletrafo redo shift= \edef\pgfmathresult{##1},
+ #2%
+ }%
+ \expandafter\edef\csname pgfpmth\pgfplotsdeclarecoordmath@ op\endcsname##1##2{%
+ \noexpand\edef\noexpand\pgfplotscoordmath@{##2}%
+ \noexpand\expandafter\noexpand\expandafter\noexpand\csname pgfmath\csname pgfpmth@#1@suffix\endcsname ##1@\noexpand\endcsname\noexpand\pgfplotscoordmath@
+ }%
+ %
+ %
+ % these log function depend on the first argument of
+ % \pgfplotscoordmath{}, which is available as
+ % \pgfplotscoordmathid.
+ \pgfplotsutilforeachcommasep{%
+ exp,%
+ log,%
+ log to display log,%
+ log from display log,%
+ log to log 10,%
+ log unsigned int}\as\pgfplots@loc@TMPa
+ {%
+ \expandafter\edef\csname pgfpmth\pgfplotsdeclarecoordmath@\pgfplots@loc@TMPa\endcsname{%
+ % invoke \pgfpmth@#1@@<name>@<function>
+ % for example
+ % \pgfpmth@pgfbasic@@y@log
+ \noexpand\csname pgfpmth\pgfplotsdeclarecoordmath@ @\noexpand\pgfplotscoordmathid @\pgfplots@loc@TMPa\noexpand\endcsname
+ }%
+ }%
+ %
+ \pgfutil@ifundefined{pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log}{%
+ \pgfutil@namelet
+ {pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log}
+ {pgfpmth\pgfplotsdeclarecoordmath@ log e}%
+ }{}%
+ \pgfutil@ifundefined{pgfpmth\pgfplotsdeclarecoordmath@ tmpl@exp}{%
+ \pgfutil@namelet
+ {pgfpmth\pgfplotsdeclarecoordmath@ tmpl@exp}
+ {pgfpmth\pgfplotsdeclarecoordmath@ exp e}%
+ }{}%
+ \pgfplotscoordmath@def@log@to@log@ten{#1}{}{tmpl}% empty arg
+ %
+}%
+\pgfqkeys{/pgfplots/@declare coord math}{%
+ initialise/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ initialise\endcsname{#1%
+ \pgfplotscoordmath@initialise@logs
+ }},%
+ % takes a number literal as input and defines \pgfmathresult to be
+ % the parsed result.
+ parsenumber/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ parsenumber\endcsname##1{#1}},%
+ %
+ zero/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ zero\endcsname{#1}},%
+ one/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ one\endcsname{#1}},%
+ %
+ % Calls pgfmathparse. Note that this might need to switch to the
+ % required math library (which is not necessarily cheap)
+ parse/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ parse\endcsname##1{#1}},%
+ %
+ % takes a parsed number and returns a fixed point number:
+ tofixed/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tofixed\endcsname##1{#1}},%
+ %
+ % chooses a human readable string (which can be processed by parsenumber):
+ tostring/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tostring\endcsname##1{#1}},%
+ %
+ % defines a max routine which returns the max of *exactly* two numbers:
+ max/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ max\endcsname##1##2{#1}},%
+ %
+ % counterpart for max:
+ min/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ min\endcsname##1##2{#1}},%
+ %
+ % defines \pgfmathresult to be the largest supported number.
+ max limit/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ max limit\endcsname{#1}},%
+ %
+ % defines \pgfmathresult to be the smallest supported number.
+ min limit/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ min limit\endcsname{#1}},%
+ %
+ % computes ##1 < ##2 and invokes ##3 in the true case and ##4 in
+ % the false case.
+ if less than/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ if less than\endcsname##1##2##3##4{#1}},%
+ % checks if ##1 is 0, positive, negative or unbounded
+ % ##1: the number to check
+ % ##2: either 0 or + or - or u (u = unbounded)
+ % ##3: true code
+ % ##4: false code
+ if is/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ if is\endcsname##1##2##3##4{#1}},%
+ %
+ % Checks if the argument ##1 is bounded and invokes ##2 in that
+ % case. IF the argument is unbounded, it invokes #3.
+ if is bounded/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ if is bounded\endcsname##1##2##3{#1}},%
+ %
+ % applies the natural logarithm. If the log is not defined, the
+ % argument is "unbounded", see 'if is bounded'
+ %
+ % 'log' is special in that it accepts a number literal which may
+ % be OUTSIDE of the accepted number format. The result, however, is
+ % then in the accepted number format.
+ log e/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ log e\endcsname##1{#1}},%
+ %
+ % Similar, but the log basis can be set with 'set log basis'.
+ % This allows \pgfplotscoordmath{x}{log}{} to use a different log
+ % basis thatn \pgfplotscoordmath{y}{log}{} (with special handling)
+ log/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log\endcsname##1{#1}},%
+ % applies a *scale* from the actual log basis to the actual
+ % *display* log basis. The display log basis is usually 10, unless
+ % the log basis has been changed.
+ log to display log/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log to display log\endcsname##1{#1}},%
+ % applies a *scale* from the displau log basis to the actual
+ % log basis (the inverse of `log to display log').
+ log from display log/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log from display log\endcsname##1{#1}},%
+ log to log 10/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log to log 10\endcsname##1{#1}},%
+ % returns log(i) where i \in {1,2,3,...,basis-1}
+ % currently, it is only invoked for log basis 10
+ log unsigned int/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log unsigned int\endcsname##1{#1}},%
+ % sets (changes) the actual log basis.
+ set log basis/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ set log basis\endcsname##1{#1}},%
+ %
+ % The inverse to 'log e '.
+ exp e/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ exp e\endcsname##1{#1}},%
+ %
+ % The inverse to 'log'. It also uses the correct log basis.
+ exp/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@exp\endcsname##1{#1}},%
+ %
+ % A macro taking two parameters:
+ % #1: the EXPONENT (as integer)
+ % #2: the SHIFT (as fixed point number)
+ %
+ % After any change, \pgfplotscoordmathnotifydatascalesetfor{<id>} will be
+ % invoked where <id> is the argument to
+ % \pgfplotscoordmath{<id>}...
+ datascaletrafo set params/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo set params\endcsname##1##2{%
+ #1\relax\pgfplotscoordmathnotifydatascalesetfor{\pgfplotscoordmathid}%
+ }},%
+ datascaletrafo set shift/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo set shift\endcsname##1{%
+ #1\relax\pgfplotscoordmathnotifydatascalesetfor{\pgfplotscoordmathid}%
+ }},%
+ %
+ % Defines \pgfmathresult to contain the two parameters required
+ % for 'datascaletrafo set params'.
+ datascaletrafo get params/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo get params\endcsname{#1}},%
+ datascaletrafo/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo\endcsname##1{#1}},%
+ datascaletrafo inverse/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo inverse\endcsname##1{#1}},%
+ datascaletrafo noshift inverse/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo noshift inverse\endcsname##1{#1}},%
+ datascaletrafo inverse to fixed/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo inverse to fixed\endcsname##1{#1}},%
+ datascaletrafo noshift inverse to fixed/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo noshift inverse to fixed\endcsname##1{#1}},%
+ datascaletrafo noshift/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo noshift\endcsname##1{#1}},%
+ datascaletrafo noshift/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo noshift\endcsname##1{#1}},%
+ datascaletrafo undo shift/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo undo shift\endcsname##1{#1}},%
+ datascaletrafo redo shift/.code=
+ {\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo redo shift\endcsname##1{#1}},%
+ %
+ % defines a suffix such that
+ % \csname pgfmath<suffix><op>@\endcsname
+ % exists. Example: <suffix>=float --> \pgfmathfloatmultiply@ for <op>=multiply
+ suffix/.code=
+ {\expandafter\edef\csname pgfpmth\pgfplotsdeclarecoordmath@ suffix\endcsname{#1}},%
+}%
+
+\def\pgfplotscoordmath@initialise@logs{%
+ \edef\pgfplotsdeclarecoordmath@{@\pgfplotscoordmathclassfor{\pgfplotscoordmathid}@}%
+ \pgfutil@ifundefined{pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log}{%
+ \pgfplotsutilforeachcommasep{%
+ exp,%
+ log,%
+ log to display log,%
+ log from display log,%
+ log to log 10,%
+ log unsigned int}\as\pgfplots@loc@TMPa
+ {%
+ \pgfutil@namelet
+ {pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @\pgfplots@loc@TMPa}
+ {pgfpmth\pgfplotsdeclarecoordmath@ tmpl@\pgfplots@loc@TMPa}%
+ }%
+ }{}%
+}%
+
+% shared implementation for 'set log basis' It works for every
+% subclass.
+\def\pgfplotscoordmath@log@set@basis#1#2{%
+ \edef\pgfplotsdeclarecoordmath@{@#1@}%
+ %
+ \pgfplotscoordmath{\pgfplotscoordmathid}{log e}{#2}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult% TMPa = log_e(#2)
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{reciprocal}{{\pgfmathresult}}%
+ \let\pgfplots@loc@TMPb=\pgfmathresult% TMPb = 1/log_e(#2)
+ %
+ \expandafter\edef\csname pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log\endcsname##1{%
+ \noexpand\pgfplotscoordmath{\pgfplotscoordmathid}{log e}{##1}%
+ \noexpand\ifx\noexpand\pgfmathresult\noexpand\pgfutil@empty
+ \noexpand\else
+ \noexpand\pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{%
+ {\noexpand\pgfmathresult}%
+ {\pgfplots@loc@TMPb}%
+ }%
+ \noexpand\fi
+ }%
+ \expandafter\edef\csname pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @exp\endcsname##1{%
+ \noexpand\edef\noexpand\pgfmathresult{##1}%
+ \noexpand\ifx\noexpand\pgfmathresult\noexpand\pgfutil@empty
+ \noexpand\else
+ \noexpand\pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{%
+ {\noexpand\pgfmathresult}%
+ {\pgfplots@loc@TMPa}%
+ }%
+ \noexpand\pgfplotscoordmath{\pgfplotscoordmathid}{exp e}{\noexpand\pgfmathresult}%
+ \noexpand\fi
+ }%
+ \expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log to display log\endcsname##1{\edef\pgfmathresult{##1}}%
+ \expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log from display log\endcsname##1{\edef\pgfmathresult{##1}}%
+ %
+ % compute 'log unsigned int' for the new basis.
+ %
+ % Idea: re-scale the old implementation (of basis e for i = 1,...,9)
+ % and re-compute i>=10 :
+ \begingroup
+ \expandafter\let\expandafter\logi\csname pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log unsigned int\endcsname
+ \let\logscale=\pgfplots@loc@TMPb
+ %
+ \logi{1}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@1\endcsname=\pgfmathresult
+ %
+ \logi{2}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@2\endcsname=\pgfmathresult
+ %
+ \logi{3}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@3\endcsname=\pgfmathresult
+ %
+ \logi{4}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@4\endcsname=\pgfmathresult
+ %
+ \logi{5}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@5\endcsname=\pgfmathresult
+ %
+ \logi{6}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@6\endcsname=\pgfmathresult
+ %
+ \logi{7}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@7\endcsname=\pgfmathresult
+ %
+ \logi{8}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@8\endcsname=\pgfmathresult
+ %
+ \logi{9}%
+ \pgfplotscoordmath{\pgfplotscoordmathid}{op}{multiply}{{\pgfmathresult}{\logscale}}%
+ \expandafter\let\csname logi@@9\endcsname=\pgfmathresult
+ %
+ \xdef\pgfplots@glob@TMPa##1{%
+ \noexpand\ifcase##1
+ \noexpand\def\noexpand\pgfmathresult{}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@1\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@2\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@3\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@4\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@5\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@6\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@7\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@8\endcsname}%
+ \noexpand\or\noexpand\def\noexpand\pgfmathresult{\csname logi@@9\endcsname}%
+ \noexpand\else
+ \noexpand\pgfplotscoordmath{\pgfplotscoordmathid}{log}{##1}%
+ \noexpand\fi
+ }%
+ \endgroup
+ \expandafter\let\csname pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log unsigned int\endcsname=\pgfplots@glob@TMPa
+ \pgfplotscoordmath@def@log@to@log@ten{#1}\pgfplots@loc@TMPa{\pgfplotscoordmathid}%
+ %
+ \pgfutil@namelet
+ {pgfpmth\pgfplotsdeclarecoordmath@ @\pgfplotscoordmathid @log to log 10}
+ {pgfpmth\pgfplotsdeclarecoordmath@ tmpl@log to log 10}%
+}%
+% #1: the coord math class
+% #2: either empty (basis e) or 1/ln(basis)
+% #3: either 'tmpl' or '\pgfplotscoordmathid. It defines the target
+% macro name (see the source code)
+\def\pgfplotscoordmath@def@log@to@log@ten#1#2#3{%
+ \csname pgfpmth@#1@parsenumber\endcsname{0.434294}%
+ \edef\pgfplots@loc@TMPa{#2}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ % log basis e ---> log basis 10
+ % log_10 x = log x / log(10)
+ \else
+ % log basis a ---> log basis 10
+ %
+ % log_a x = log x / log a
+ % log_10 x = log_a x * log a / log(10) = log x / log(10) [OK]
+ \csname pgfpmth@#1@op\endcsname{multiply}{{#2}{\pgfmathresult}}%
+ \fi
+ \expandafter\edef\csname pgfpmth@#1@#3@log to log 10\endcsname##1{%
+ \noexpand\pgfplotscoordmath{\noexpand\pgfplotscoordmathid}{op}{multiply}{{##1}{\pgfmathresult}}%
+ }%
+}%
+
+\pgfplotsdeclarecoordmath{pgfbasic}{%
+ parsenumber=\pgfmathfloatparsenumber{#1}\pgfmathfloattofixed\pgfmathresult,
+ suffix=@basic@,
+ zero=\def\pgfmathresult{0},
+ one=\def\pgfmathresult{1},
+}
+\pgfplotsdeclarecoordmath{float}{%
+ initialise=
+ \pgfutil@ifundefined{pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid}{%
+ \expandafter\edef\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname{0}%
+ \expandafter\edef\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname{0}%
+ }{},
+ parsenumber=\pgfmathfloatparsenumber{#1},
+ parse=\begingroup \pgfkeys{/pgf/fpu}\pgfmathparse{#1}\pgfmath@smuggleone\pgfmathresult\endgroup,
+ zero=\pgfmathfloatcreate{0}{0.0}{0},%
+ one=\pgfmathfloatcreate{1}{1.0}{0},%
+ tofixed=\pgfmathfloattofixed{#1},
+ tostring=\pgfmathfloattosci{#1},
+ max=\pgfplotsmathfloatmax{#1}{#2},%
+ min=\pgfplotsmathfloatmin{#1}{#2},%
+ max limit=\pgfmathfloatcreate{1}{1.0}{2147483645},%
+ min limit=\pgfmathfloatcreate{2}{1.0}{2147483645},%
+ log e=\pgfmathfloatparsenumber{#1}\pgfmathfloatln@{\pgfmathresult},%
+ if less than=\pgfmathfloatlessthan@{#1}{#2}\ifpgfmathfloatcomparison #3\else #4\fi,
+ if is bounded=%
+ \expandafter\pgfmathfloatgetflagstomacro\expandafter{#1}\pgfplotsretval
+ \ifnum\pgfplotsretval>2 #3\else #2\fi,
+ if is=%
+ \pgfmathfloatifflags{#1}{#2}{#3}{#4},
+ log=\pgfmathlog@float{#1},%
+ datascaletrafo set params={%
+ \expandafter\edef\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname{#1}%
+ \expandafter\edef\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname{#2}%
+ },%
+ datascaletrafo set shift={%
+ \expandafter\edef\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname{#1}%
+ },%
+ datascaletrafo get params={%
+ \edef\pgfmathresult{%
+ {\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ {\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname}%
+ }%
+ },%
+ datascaletrafo={%
+ \edef\pgfmathresult{#1}%
+ \pgfmathfloatshift@\pgfmathresult{\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ \pgfmathfloattofixed\pgfmathresult
+ \expandafter\pgfmath@basic@subtract@\expandafter{\pgfmathresult}{\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname}%
+ },%
+ datascaletrafo noshift={%
+ \edef\pgfmathresult{#1}%
+ \pgfmathfloatshift@\pgfmathresult{\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ },%
+ datascaletrafo undo shift=
+ \pgfmath@basic@subtract@{#1}{\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname},%
+ datascaletrafo redo shift=\pgfmath@basic@add@{#1}{\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname},%
+ datascaletrafo inverse={%
+ \pgfplotscoordmath@float@datascaletrafo@inverse{#1}%
+ },%
+ datascaletrafo inverse to fixed={%
+ \pgfplotscoordmath@float@datascaletrafo@inverse{#1}%
+ \pgfmathfloattofixed\pgfmathresult
+ },%
+ datascaletrafo noshift inverse={%
+ \pgfmathfloatparsenumber{#1}%
+ \pgfmathfloatshift@{\pgfmathresult}{-\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ },%
+ datascaletrafo noshift inverse to fixed={%
+ \pgfmathfloatparsenumber{#1}%
+ \pgfmathfloatshift@{\pgfmathresult}{-\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ \pgfmathfloattofixed\pgfmathresult
+ },%
+}
+
+\def\pgfplotscoordmath@float@datascaletrafo@inverse#1{%
+ \pgfmath@basic@add@{#1}{\csname pgfplots@data@scale@trafo@SHIFT@\pgfplotscoordmathid\endcsname}%
+ \let\pgfplots@inverse@datascaletrafo@@shifted=\pgfmathresult
+ \pgfmathapproxequalto@{\pgfplots@inverse@datascaletrafo@@shifted}{0.0}%
+ \ifpgfmathcomparison
+ \pgfmathfloatcreate{0}{0.0}{0}%
+ \else
+ \pgfmathfloatparsenumber{\pgfplots@inverse@datascaletrafo@@shifted}%
+ \pgfmathfloatshift@{\pgfmathresult}{-\csname pgfplots@data@scale@trafo@EXPONENT@\pgfplotscoordmathid\endcsname}%
+ \fi
+}%
+
+% Invokes a coordinate math routine.
+%
+% #1: the axis (x,y or z)
+% #2: a method name declared by \pgfplotsdeclarecoordmath (one of
+% 'op', 'parsenumber', 'tofixed' etc)
+% #3-#9: any further arguments required to perform the call to '#2'.
+%
+% \pgfplotscoordmath {x}{op}{multiply}{{<a>}{<b>}}
+% \pgfplotscoordmath {x}{parsenumber}{<a>}
+\def\pgfplotscoordmath#1#2{%
+ \edef\pgfplotscoordmathid{#1}%
+ \csname pgfpmth@\csname pgfcrdmth@#1\endcsname @#2\endcsname}%
+
+\def\pgfplotscoordmathclassfor#1{\csname pgfcrdmth@#1\endcsname}%
+
+\def\pgfplotscoordmathnotifydatascalesetfor#1{}%
+
+% Enables a particular coordinate math class for the label `#1'.
+%
+% #1 a label (usually x,y or z)
+% #2 the coordinate math class (one prepare by
+% \pgfplotsdeclarecoordmath)
+%
+% From this point on, any call to \pgfplotscoordmath{#1}{...}
+% will use the selected math class.
+\def\pgfplotssetcoordmathfor#1#2{%
+ \pgfutil@ifundefined{pgfpmth@#2@initialise}{%
+ \pgfplotsthrow{invalid argument}{\pgfplots@loc@TMPa}{Sorry, \string\pgfplotssetcoordmathfor{#1}{#2} failed since `#2' is unknown. Maybe you misspelled it?}\pgfeov%
+ }{%
+ \expandafter\edef\csname pgfcrdmth@#1\endcsname{#2}%
+ \pgfplotscoordmath{#1}{initialise}%
+ }%
+}%
+
+% Defines \pgfplotsretval to be the coordmath id for #1
+\def\pgfplotsgetcoordmathfor#1{%
+ \pgfutil@ifundefined{pgfcrdmth@#1}{%
+ \pgfplotsthrow{invalid argument}{\pgfplots@loc@TMPa}{Sorry, \string\pgfplotsgetcoordmathfor{#1} failed since `#1' is unknown. Maybe you misspelled it?}\pgfeov%
+ }{%
+ \pgfutil@namelet{pgfplotsretval}{pgfcrdmth@#1}%
+ }%
+}%
+\pgfplotssetcoordmathfor{pgfbasic}{pgfbasic}%
+\pgfplotssetcoordmathfor{float}{float}%
+\pgfplotssetcoordmathfor{meta}{float}%
+\pgfplotssetcoordmathfor{default}{float}%
+
+
+
+% ==================================================================================
+
+
% #1 the name of an input method for point meta. It must have been
% declared by \pgfplotsdeclarepointmetasource first.
@@ -1654,59 +3005,55 @@
% Expands to the current value of 'point meta'.
\def\pgfplotspointmetainputhandler{}
+\def\pgfplotsaxisifhaspointmeta#1#2{%
+ \ifx\pgfplotspointmetainputhandler\pgfutil@empty #2\else #1\fi
+}%
+
+% Invokes '#1' if the axis contains the coordinate designated by
+% \pgfplots@current@point@[xyz] and '#2' if not.
+\def\pgfplotsaxisifcontainspoint#1#2{%
+ \pgf@xa=\pgfplots@current@point@x pt % FIXME : SCOPE REGISTERS!?
+ \pgf@ya=\pgfplots@current@point@y pt %
+ \ifpgfplots@curplot@threedim
+ \pgf@yb=\pgfplots@current@point@z pt %
+ \fi
+ \def\pgfplots@loc@TMPa{#2}%
+ %
+ % I assume that \pgfplots@[xyz]min@reg and min@reg are registers
+ % containing the limits.
+ \ifdim\pgf@xa<\pgfplots@xmin@reg
+ \else
+ \ifdim\pgf@xa>\pgfplots@xmax@reg
+ \else
+ \ifdim\pgf@ya<\pgfplots@ymin@reg
+ \else
+ \ifdim\pgf@ya>\pgfplots@ymax@reg
+ \else
+ \ifpgfplots@curplot@threedim
+ \ifdim\pgf@yb<\pgfplots@zmin@reg
+ \else
+ \ifdim\pgf@yb>\pgfplots@zmax@reg
+ \else
+ \def\pgfplots@loc@TMPa{#1}%
+ \fi
+ \fi
+ \else
+ \def\pgfplots@loc@TMPa{#1}%
+ \fi
+ \fi
+ \fi
+ \fi
+ \fi
+ \pgfplots@loc@TMPa%
+}
+
% Declares a routine which can be used to get point meta input.
%
% Such a routine is invoked in a context where point coordinates are
% processed, i.e. during 'plot coordinates', 'plot table' or the like.
%
-% The routine is called `#1'. It consists of several methods:
-% - \csname pgfpmeta@#1@assign\endcsname{}
-% During the survey phase, this macro is expected to assign
-% \pgfplots@current@point@meta
-% if it is a numeric input method, it should return a
-% floating point number.
-% It is allowed to return an empty string to say "there is no point
-% meta".
-% PRECONDITION for '@assign':
-% - the coordinate input method has already assigned its
-% '\pgfplots@current@point@meta' (probably as raw input string).
-% - the other input coordinates are already read.
-% POSTCONDITION for '@assign':
-% - \pgfplots@current@point@meta is ready for use:
-% - EITHER a parsed floating point number
-% - OR an empty string,
-% - OR a symbolic string (if the issymbolic boolean is true)
-% The default implementation is
-% \let\pgfplots@current@point@meta=\pgfutil@empty
-%
-% - \csname pgfpmeta@#1@issymbolic\endcsname -> expands to either '1' or '0'
-% A numeric source will be processed numerically in float
-% arithmetics. Thus, the output of the @assign routine should be
-% a macro \pgfplots@current@point@meta in float format.
-%
-% The output of a numeric point meta source will result in meta
-% limit updates and the final map to [0,1000] will be
-% initialised automatically.
-%
-% A symbolic input routine won't be processed.
-% Default is '0'
-%
-% - \csname pgfpmeta@#1@explicitinput\endcsname -> expands to either
-% '1' or '0'. In case '1', it expects explicit input from the
-% coordinate input routines. For example, 'plot file' will look for
-% further input after the x,y,z coordinates.
-% Default is '0'
-%
-% - \csname pgfpmeta@#1@initfor\endcsname##1{....}
-% a macro used to initialise the point meta source when it is
-% selected.
-% This macro body is invoked by pgfplots when someone types
-% 'point meta=x' -> will invoke 'pgfpmeta@x@initfor{}'.
-% The first argument to initfor can be supplied by the user.
-% PRECONDITION for 'initfor':
-% - it will be invoked just before
-% '\pgfplotspointmetainputhandler' will be changed.
-% Default is to do nothing.
+% The routine is called `#1'. It consists of several methods, which
+% are described below, in the key definitions.
%
% #1: the name of the input routine.
% #2: a sequence of key-value pairs which can be used to overwrite
@@ -1722,16 +3069,66 @@
\pgfqkeys{/pgfplots/@declare point meta src}{#2}%
}%
\pgfqkeys{/pgfplots/@declare point meta src}{%
- assign/.code=
- {\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @assign\endcsname{#1}},%
+ %
+ % a macro used to initialise the point meta source when it is
+ % selected.
+ % This macro body is invoked by pgfplots when someone types
+ % 'point meta=x' -> will invoke 'pgfpmeta@x@initfor{}'.
+ % The first argument to initfor can be supplied by the user.
+ % PRECONDITION for 'initfor':
+ % - it will be invoked just before
+ % '\pgfplotspointmetainputhandler' will be changed.
+ % Default is to do nothing.
initfor/.code=
{\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @initfor\endcsname##1{#1}},%
+ %
% Called during the survey phase before the first 'assign' call.
% It is usually empty.
activate/.code=
{\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @activate\endcsname{#1}},%
+ %
+ % During the survey phase, this macro is expected to assign
+ % \pgfplots@current@point@meta
+ % if it is a numeric input method, it should return a
+ % floating point number.
+ % It is allowed to return an empty string to say "there is no point
+ % meta".
+ % PRECONDITION for '@assign':
+ % - the coordinate input method has already assigned its
+ % '\pgfplots@current@point@meta' (probably as raw input string).
+ % - the other input coordinates are already read.
+ % POSTCONDITION for '@assign':
+ % - \pgfplots@current@point@meta is ready for use:
+ % - EITHER a parsed floating point number
+ % - OR an empty string,
+ % - OR a symbolic string (if the issymbolic boolean is true)
+ % The default implementation is
+ % \let\pgfplots@current@point@meta=\pgfutil@empty
+ %
+ assign/.code=
+ {\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @assign\endcsname{#1}},%
+ %
+ % expands to either '1' or '0'
+ % A numeric source will be processed numerically in float
+ % arithmetics. Thus, the output of the @assign routine should be
+ % a macro \pgfplots@current@point@meta in float format.
+ %
+ % The output of a numeric point meta source will result in meta
+ % limit updates and the final map to [0,1000] will be
+ % initialised automatically.
+ %
+ % A symbolic input routine won't be processed.
+ % Default is '0'
+ %
issymbolic/.code=
{\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @issymbolic\endcsname{#1}},%
+ %
+ % expands to either
+ % '1' or '0'. In case '1', it expects explicit input from the
+ % coordinate input routines. For example, 'plot file' will look for
+ % further input after the x,y,z coordinates.
+ % Default is '0'
+ %
explicitinput/.code=
{\expandafter\def\csname pgfpmeta@\pgfplotsdeclarepointmetasource@ @explicitinput\endcsname{#1}},%
}%
@@ -1741,31 +3138,25 @@
\pgfplotsdeclarepointmetasource{}{}
\pgfplotsdeclarepointmetasource{x}{assign={%
\let\pgfplots@current@point@meta=\pgfplots@current@point@x
- \ifpgfplots@xislinear
- \else
- \pgfmathfloatparsenumber{\pgfplots@current@point@meta}%
- \let\pgfplots@current@point@meta=\pgfmathresult
- \fi}}
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@current@point@meta}%
+ \let\pgfplots@current@point@meta=\pgfmathresult
+ }}
\pgfplotsdeclarepointmetasource{y}{assign={%
\let\pgfplots@current@point@meta=\pgfplots@current@point@y
- \ifpgfplots@yislinear
- \else
- \pgfmathfloatparsenumber{\pgfplots@current@point@meta}%
- \let\pgfplots@current@point@meta=\pgfmathresult
- \fi}}
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@current@point@meta}%
+ \let\pgfplots@current@point@meta=\pgfmathresult
+ }}
\pgfplotsdeclarepointmetasource{z}{assign={%
\let\pgfplots@current@point@meta=\pgfplots@current@point@z
- \ifpgfplots@zislinear
- \else
- \pgfmathfloatparsenumber{\pgfplots@current@point@meta}%
- \let\pgfplots@current@point@meta=\pgfmathresult
- \fi}}
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@current@point@meta}%
+ \let\pgfplots@current@point@meta=\pgfmathresult
+ }}
\pgfplotsdeclarepointmetasource{explicit}{%
assign={%
\ifx\pgfplots@current@point@meta\pgfutil@empty
\else
- \pgfmathfloatparsenumber{\pgfplots@current@point@meta}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@current@point@meta}%
\let\pgfplots@current@point@meta=\pgfmathresult
\fi
},
@@ -1785,6 +3176,7 @@
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
\pgfmathparse{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfmathresult}%
\let\pgfplots@current@point@meta=\pgfmathresult
\fi
},%
@@ -1813,13 +3205,12 @@
},
}%
-
\pgfplotsdeclarepointmetasource{TeX code}{%
assign={%
\begingroup
\let\pgfplotspointmeta=\pgfutil@empty
\pgfplots@invoke@pgfkeyscode{/pgfplots/point meta/code/.@cmd}{}%
- \pgfmathfloatparsenumber{\pgfplotspointmeta}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplotspointmeta}%
\let\pgfplots@current@point@meta=\pgfmathresult
\pgfmath@smuggleone\pgfplots@current@point@meta
\endgroup
@@ -1859,15 +3250,7 @@
% copy operations. That experiment was not successfull (it was not
% faster :-( ). However, the streaming methods still assign their
% things globally...
-\newif\ifpgfplots@coord@stream@isfirst
\def\pgfplots@coord@stream@start{%
- \global\pgfplots@coord@stream@isfirsttrue
- \global\let\pgfplots@currentplot@firstcoord@x=\pgfutil@empty
- \global\let\pgfplots@currentplot@firstcoord@y=\pgfutil@empty
- \global\let\pgfplots@currentplot@firstcoord@z=\pgfutil@empty
- \global\let\pgfplots@currentplot@lastcoord@x=\pgfutil@empty
- \global\let\pgfplots@currentplot@lastcoord@y=\pgfutil@empty
- \global\let\pgfplots@currentplot@lastcoord@z=\pgfutil@empty
\let\pgfplots@current@point@x=\pgfutil@empty
\let\pgfplots@current@point@y=\pgfutil@empty
\let\pgfplots@current@point@z=\pgfutil@empty
@@ -1888,15 +3271,24 @@
% \pgfplots@current@point@meta
\def\pgfplots@coord@stream@coord{%
\pgfplots@coord@stream@coord@%
+}%
+\def\pgfplotscoordstream@firstlast@init{%
+ \global\let\pgfplots@currentplot@firstcoord@x=\pgfutil@empty
+ \global\let\pgfplots@currentplot@firstcoord@y=\pgfutil@empty
+ \global\let\pgfplots@currentplot@firstcoord@z=\pgfutil@empty
+ \global\let\pgfplots@currentplot@lastcoord@x=\pgfutil@empty
+ \global\let\pgfplots@currentplot@lastcoord@y=\pgfutil@empty
+ \global\let\pgfplots@currentplot@lastcoord@z=\pgfutil@empty
+}%
+\def\pgfplotscoordstream@firstlast@update{%
\ifx\pgfplots@current@point@x\pgfutil@empty
% only one \if is enough as ONE empty coordinate results all
% others to be reset as well.
\else
- \ifpgfplots@coord@stream@isfirst
+ \ifx\pgfplots@currentplot@firstcoord@x\pgfutil@empty
\global\let\pgfplots@currentplot@firstcoord@x=\pgfplots@current@point@x
\global\let\pgfplots@currentplot@firstcoord@y=\pgfplots@current@point@y
\global\let\pgfplots@currentplot@firstcoord@z=\pgfplots@current@point@z
- \global\pgfplots@coord@stream@isfirstfalse
\fi
\global\let\pgfplots@currentplot@lastcoord@x=\pgfplots@current@point@x
\global\let\pgfplots@currentplot@lastcoord@y=\pgfplots@current@point@y
@@ -1906,34 +3298,54 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
-% Scanline management. The idea is to allow a simple syntax
-% to provide matrix input - by means of scanlines.
+% Scanline management. The idea is to handle complete sequences of
+% input coordinates, which are usually separated by a blank line.
+%
+% This allows a simple syntax to provide matrix input - by means of scanlines.
+% Furthermore, 2d plots can use it to interrupt the display.
%
% An empty line in 'addplot coordinates {}' indicates the end of a
% scan line. Similarly, an empty line in 'addplot file' or 'table'
% also indicates the end of a scan line.
%
-% The following methods allow to update the scanline computation.
+% The steps taken whenever a scan line is complete depend on the
+% configuration of the /pgfplots/empty line choice key (queried in
+% \pgfplotsscanlinelengthinitzero).
+%
+%
+% The following methods constitute the scanline interface.
%
% Usage:
%
% \pgfplotsscanlinelengthinitzero
%
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinecomplete
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinecomplete
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinelengthincrease
+% <process point>
% \pgfplotsscanlinecomplete
%
% \pgfplotsscanlinelengthcleanup
%
+% In other words, the \pgfplotsscanlinelengthincrease routine is
+% invoked *before* the point is processed. That's important.
+%
% Now, \pgfplotsscanlinelength expands to either
% a) a negative number in which case there is no
% unique scanline length.
@@ -1942,13 +3354,72 @@
% had different lengths.
% b) the scanline length.
\def\pgfplotsscanlinelengthinitzero{%
+ \def\pgfplotsscanlinelength{-1}%
+ \pgfkeysgetvalue{/pgfplots/empty line}\pgfplots@loc@TMPa%
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa}%
+ \def\pgfplots@loc@TMPb{auto}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \pgfplotsdetermineemptylinehandler
+ \pgfkeysgetvalue{/pgfplots/empty line}\pgfplots@loc@TMPa%
+ \fi
+ \def\pgfplots@loc@TMPb{jump}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \def\pgfplots@loc@TMPa{nan}% alias for jump
+ \fi
+ \def\pgfplots@loc@TMPb{no op}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \def\pgfplots@loc@TMPa{none}% alias for no op
+ \fi
+ \pgfutil@ifundefined{pgfplotsscanlinelength@\pgfplots@loc@TMPa @initzero}{%
+ \pgfplots@error{Sorry, the choice `empty line=\pgfkeysvalueof{/pgfplots/empty line}' is unknown. Maybe you misspelled it}%
+ }{}%
+ \expandafter\let\expandafter\pgfplotsscanlinelength@initzero \csname pgfplotsscanlinelength@\pgfplots@loc@TMPa @initzero\endcsname
+ \expandafter\let\expandafter\pgfplotsscanlinelengthincrease \csname pgfplotsscanlinelength@\pgfplots@loc@TMPa @increase\endcsname
+ \edef\pgfplotsscanlinecomplete{%
+ \expandafter\noexpand\csname pgfplotsscanlinelength@\pgfplots@loc@TMPa @complete\endcsname
+ \noexpand\pgfplotsplothandlernotifyscanlinecomplete
+ }%
+ \expandafter\let\expandafter\pgfplotsscanlinelengthcleanup \csname pgfplotsscanlinelength@\pgfplots@loc@TMPa @cleanup\endcsname
+ \pgfplotsscanlinelength@initzero
+}%
+
+\newif\ifpgfplots@emptyline@compat
+
+% Invoked for 'empty line=auto'.
+%
+% @POSTCONDITION: '/pgfplots/empty line' is set to something useful
+% (not auto)
+\def\pgfplotsdetermineemptylinehandler{%
+ \if n\pgfplots@meshmode
+ % no mesh/surf plot:
+ \pgfkeyssetvalue{/pgfplots/empty line}{jump}%
+ \ifpgfplots@emptyline@compat
+ \pgfkeyssetvalue{/pgfplots/empty line}{none}% do nothing for backwards compatibility with 2D processing.
+ \fi
+ \else
+ % it is a mesh or surf plot; use scanline:
+ \pgfkeyssetvalue{/pgfplots/empty line}{scanline}%
+ \fi
+}%
+\def\pgfplotsscanlinedisablechanges{%
+ \let\pgfplotsscanlinecomplete=\relax
+ \let\pgfplotsscanlinelengthincrease=\relax
+ \let\pgfplotsscanlinelengthcleanup=\relax
+ \let\pgfplotsscanlinelengthinitzero=\relax
+ \let\pgfplotsscanlineendofinput=\relax
+}%
+
+% -------------------------------------------------------------------------------
+% empty line=scanline
+% class:
+\def\pgfplotsscanlinelength@scanline@initzero{%
\c@pgfplots@scanlineindex=0
\def\pgfplots@scanlinelength{-1}%
}
-\def\pgfplotsscanlinelengthincrease{%
+\def\pgfplotsscanlinelength@scanline@increase{%
\advance\c@pgfplots@scanlineindex by1
}
-\def\pgfplotsscanlinecomplete{%
+\def\pgfplotsscanlinelength@scanline@complete{%
\ifnum\pgfplots@scanlinelength>0
\ifnum\c@pgfplots@scanlineindex=0
%
@@ -1973,7 +3444,7 @@
\fi
\c@pgfplots@scanlineindex=0
}
-\def\pgfplotsscanlinelengthcleanup{%
+\def\pgfplotsscanlinelength@scanline@cleanup{%
\ifnum\c@pgfplots@scanlineindex=0
% I assume the last scan line is already complete.
\else
@@ -1981,12 +3452,58 @@
\fi
\let\pgfplotsscanlinelength=\pgfplots@scanlinelength
}
-\def\pgfplotsscanlinedisablechanges{%
- \let\pgfplotsscanlinecomplete=\relax
- \let\pgfplotsscanlinelengthincreas=\relax
- \let\pgfplotsscanlinelengthcleanup=\relax
- \let\pgfplotsscanlinelengthinitzero=\relax
+% -------------------------------------------------------------------------------
+%
+% empty line=none class:
+%
+\let\pgfplotsscanlinelength@none@initzero=\pgfutil@empty
+\let\pgfplotsscanlinelength@none@increase=\relax
+\let\pgfplotsscanlinelength@none@complete=\relax
+\let\pgfplotsscanlinelength@none@cleanup=\relax
+% -------------------------------------------------------------------------------
+%
+% empty line=nan class:
+\def\pgfplotsscanlinelength@nan@initzero{%
+ \def\pgfplotsscanlinelength@nan@isfirst{1}%
+ \let\pgfplotsscanlinelength@nan@pendingwork=\relax
+ \pgfplotsifinaxis{}{\let\pgfplotsaxisserializedatapoint=\relax}%
+}%
+\def\pgfplotsscanlinelength@nan@increase{%
+ \def\pgfplotsscanlinelength@nan@isfirst{0}%
+ \pgfplotsscanlinelength@nan@pendingwork
+}%
+\def\pgfplotsscanlinelength@nan@complete{%
+ \if1\pgfplotsscanlinelength@nan@isfirst
+ \else
+ \def\pgfplotsscanlinelength@nan@pendingwork{%
+ % this will be executed when the next point has been
+ % found.
+ \def\pgfplots@current@point@x{}%
+ \def\pgfplots@current@point@y{}%
+ \def\pgfplots@current@point@z{}%
+ % simply serialize an empty point. That works -- the
+ % visualization phase checks if the coordinates are empty and
+ % visualizes them as "jump"
+ %
+ % Note that \pgfplotsplothandlersurveypoint is not a good
+ % choice here unless one employs its 'unbounded coords=jump'
+ % feature
+ \def\pgfplotsaxisplothasjumps{1}%
+ \pgfplotsaxisserializedatapoint
+ %
+ \let\pgfplotsscanlinelength@nan@pendingwork=\relax
+ }%
+ \fi
+ \def\pgfplotsscanlinelength@nan@isfirst{1}%
}%
+\let\pgfplotsscanlinelength@nan@cleanup=\relax
+%
+% -------------------------------------------------------------------------------
+
+
+\def\pgfplotsaxisfilteredcoordsaway{0}%
+\def\pgfplotsaxisplothasjumps{0}%
+\newif\ifpgfplotsaxisparsecoordinateok
% Initialises
% \pgfplots@coord@stream@start
@@ -2046,235 +3563,26 @@
% be as deep as necessary - as long as all operations have the
% same level of scoping.
%
+% @see the detailed documentation in pgfplotsplothandlers.code.tex
\long\def\pgfplots@PREPARE@COORD@STREAM#1{%
\ifpgfplots@curplot@threedim
\global\pgfplots@threedimtrue
\fi
+ \def\pgfplotsaxisfilteredcoordsaway{0}%
+ \def\pgfplotsaxisplothasjumps{0}%
%
+ \ifpgfplots@curplot@threedim
+ \let\pgfplotsaxisupdatelimitsforcoordinate=\pgfplotsaxisupdatelimitsforcoordinatethreedim
+ \let\pgfplotsaxisparsecoordinate=\pgfplotsaxisparsecoordinatethreedim
+ \else
+ \let\pgfplotsaxisupdatelimitsforcoordinate=\pgfplotsaxisupdatelimitsforcoordinatetwodim
+ \let\pgfplotsaxisparsecoordinate=\pgfplotsaxisparsecoordinatetwodim
+ \fi
\begingroup
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\let\E=\noexpand
%
- % Setup Just-In-Time-Macro Compilation:
- % I compile a set of macros which is highly optimized for this
- % particular plot.
- %
- % 1.\pgfplots@update@limits@for@one@point
- % Updates the current x and y limits for point (#1,#2).
- %
- % To eliminate all those case distinctions, it is created with
- % 'edef' and a lot of '\noexpand' calls here:
- %
- %
- % The point coordinates may be given in floating point format, see
- % below.
- %
- % Please note that if user specified limits are given, automatic
- % limits are only applied to points which fall into the user specified
- % clipping region.
- %
- % PRECONDITIONS:
- % - the input coordinates have been parsed correctly (floating point
- % format for linear axis, log applied for logarithmic ones)
- %
- % Arguments:
- % \pgfplots@current@point@[xyz]
- \xdef\pgfplots@update@limits@for@one@point{%
-%\E\tracingmacros=2\E\tracingcommands=2
-%\E\pgfplots@message{Updating limits for (\E\pgfplots@current@point@x,\E\pgfplots@current@point@y) ...}%
- %
- % VIM SEARCH PATTERN:
- % [^E]\zs\\\ze[^E]
- % -> this finds '\' which is neither '\E' nor is it prefixed
- % by 'E'.
- %
- %
- %
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDfalse
- % check whether we need to clip limits:
- \ifpgfplots@clip@limits
- \ifpgfplots@autocompute@xmin
- \else
- \ifpgfplots@xislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@current@point@x}{\E\pgfplots@xmin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@current@point@x}{\E\pgfplots@xmin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \ifpgfplots@autocompute@xmax
- \else
- \ifpgfplots@xislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@xmax}{\E\pgfplots@current@point@x}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@xmax}{\E\pgfplots@current@point@x}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \ifpgfplots@autocompute@ymin
- \else
- \ifpgfplots@yislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@current@point@y}{\E\pgfplots@ymin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@current@point@y}{\E\pgfplots@ymin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \ifpgfplots@autocompute@ymax
- \else
- \ifpgfplots@yislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@ymax}{\E\pgfplots@current@point@y}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@ymax}{\E\pgfplots@current@point@y}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \ifpgfplots@curplot@threedim
- \ifpgfplots@autocompute@zmin
- \else
- \ifpgfplots@zislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@current@point@z}{\E\pgfplots@zmin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@current@point@z}{\E\pgfplots@zmin}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \ifpgfplots@autocompute@zmax
- \else
- \ifpgfplots@zislinear
- \E\pgfmathfloatlessthan@{\E\pgfplots@zmax}{\E\pgfplots@current@point@z}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \else
- \E\pgfplotsmathlessthan{\E\pgfplots@zmax}{\E\pgfplots@current@point@z}%
- \E\ifpgfmathfloatcomparison
- \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
- \E\fi
- \fi
- \fi
- \fi
- \fi
- %
- %
- %
- % Update limits:
- \E\ifpgfplots@update@limits@for@one@point@ISCLIPPED
- \E\else
- \ifpgfplots@autocompute@xmin
- \ifpgfplots@xislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@xmin}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@xmin=\E\pgfmathresult
- \else
- \E\pgfplotsmathmin{\E\pgfplots@xmin}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@xmin=\E\pgfmathresult
- \fi
- \fi
- \ifpgfplots@autocompute@xmax
- \ifpgfplots@xislinear
- \E\pgfplotsmathfloatmax{\E\pgfplots@xmax}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@xmax=\E\pgfmathresult
- \else
- \E\pgfplotsmathmax{\E\pgfplots@xmax}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@xmax=\E\pgfmathresult
- \fi
- \fi
- \ifpgfplots@autocompute@ymin
- \ifpgfplots@yislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@ymin}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@ymin=\E\pgfmathresult
- \else
- \E\pgfplotsmathmin{\E\pgfplots@ymin}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@ymin=\E\pgfmathresult
- \fi
- \fi
- \ifpgfplots@autocompute@ymax
- \ifpgfplots@yislinear
- \E\pgfplotsmathfloatmax{\E\pgfplots@ymax}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@ymax=\E\pgfmathresult
- \else
- \E\pgfplotsmathmax{\E\pgfplots@ymax}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@ymax=\E\pgfmathresult
- \fi
- \fi
- \ifpgfplots@curplot@threedim
- \ifpgfplots@autocompute@zmin
- \ifpgfplots@zislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@zmin}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@zmin=\E\pgfmathresult
- \else
- \E\pgfplotsmathmin{\E\pgfplots@zmin}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@zmin=\E\pgfmathresult
- \fi
- \fi
- \ifpgfplots@autocompute@zmax
- \ifpgfplots@zislinear
- \E\pgfplotsmathfloatmax{\E\pgfplots@zmax}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@zmax=\E\pgfmathresult
- \else
- \E\pgfplotsmathmax{\E\pgfplots@zmax}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@zmax=\E\pgfmathresult
- \fi
- \fi
- \fi
- \E\fi
- %
- % Compute data range:
- \ifpgfplots@autocompute@all@limits
- % the data range will be acquired simply from the axis
- % range, see below!
- \else
- % Attention: it is only done for linear axis!
- \ifpgfplots@xislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@data@xmin}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@data@xmin=\E\pgfmathresult
- \E\pgfplotsmathfloatmax{\E\pgfplots@data@xmax}{\E\pgfplots@current@point@x}%
- \E\global\E\let\E\pgfplots@data@xmax=\E\pgfmathresult
- \fi
- \ifpgfplots@yislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@data@ymin}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@data@ymin=\E\pgfmathresult
- \E\pgfplotsmathfloatmax{\E\pgfplots@data@ymax}{\E\pgfplots@current@point@y}%
- \E\global\E\let\E\pgfplots@data@ymax=\E\pgfmathresult
- \fi
- \ifpgfplots@curplot@threedim
- \ifpgfplots@zislinear
- \E\pgfplotsmathfloatmin{\E\pgfplots@data@zmin}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@data@zmin=\E\pgfmathresult
- \E\pgfplotsmathfloatmax{\E\pgfplots@data@zmax}{\E\pgfplots@current@point@z}%
- \E\global\E\let\E\pgfplots@data@zmax=\E\pgfmathresult
- \fi
- \fi
- \fi
-%\E\pgfplots@message{Updated limits: (\E\pgfplots@xmin,\E\pgfplots@ymin) rectangle (\E\pgfplots@xmax,\E\pgfplots@ymax).}%
-%\E\tracingmacros=0\E\tracingcommands=0
- }%
-%\message{Assembled update-limits \ifpgfplots@curplot@threedim 3D\else 2D\fi macro to {\meaning\pgfplots@update@limits@for@one@point}}%
+%\message{Assembled update-limits \ifpgfplots@curplot@threedim 3D\else 2D\fi macro to {\meaning\pgfplotsaxisupdatelimitsforcoordinate}}%
\ifpgfplots@bb@isactive
\else
% we are inside of
@@ -2282,205 +3590,107 @@
% ..
% \endpgfinterruptboundingbox
% -> don't change data limits!
- \global\let\pgfplots@update@limits@for@one@point=\relax
+ \gdef\pgfplotsaxisupdatelimitsforcoordinate##1##2##3{}%
\fi
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
- % This here is the MAIN code of \pgfplots@process@one@point .
- % It is inserted below into the right, into one of two prepared
- % places.
- \def\pgfplots@loc@surveypoint{%
- \ifpgfplots@apply@datatrafo
- \ifpgfplots@datascaletrafo@initialised
- % apply data transformation directly.
- \ifpgfplots@apply@datatrafo@x
- \E\pgfplots@datascaletrafo@x\E\pgfplots@current@point@x
- \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
- \fi
- \ifpgfplots@apply@datatrafo@y
- \E\pgfplots@datascaletrafo@y\E\pgfplots@current@point@y
- \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
- \fi
- \ifpgfplots@curplot@threedim
- \ifpgfplots@apply@datatrafo@z
- \E\pgfplots@datascaletrafo@z\E\pgfplots@current@point@z
- \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
- \fi
- \fi
- \fi
- \fi
- % All following routines (limit updating/stacking/error
- % bars) will use float numerics if necessary (controlled
- % by ifs).
- \ifpgfplots@stackedmode
- \E\pgfplots@stacked@preparepoint@inmacro%
- \ifpgfplots@datascaletrafo@initialised% is also true if there is no scale trafo.
- \E\pgfplots@stacked@finishpoint
- \else
- % the finishpoint routine will be invoked at
- % \endaxis.
- \fi
- \fi
- %
- % Prepare \pgfplots@current@point@meta (see the preparation
- % routine above):
- \E\pgfplots@set@perpointmeta
- %
- % update also axis / data limits:
- % Arguments: \pgfplots@current@point@[xy]
- \E\pgfplots@update@limits@for@one@point
- \ifpgfplots@errorbars@enabled
- % This thing gets the 'current@point@...' context,
- % that means
- % \pgfplots@current@point@[xy]
- % \pgfplots@current@point@[xy]@error
- % \pgfplots@current@point@[xy]@unfiltered
- \E\pgfplots@PREPARE@errorbar@process@x%
- \E\pgfplots@PREPARE@errorbar@process@y%
- \E\pgfplots@PREPARE@errorbar@process@z%
- \fi
- %
- \ifpgfplots@collect@firstplot@astick
- \ifnum\pgfplots@numplots=0
- \E\ifx\E\pgfplots@firstplot@coords@x\E\pgfutil@empty
- \E\t@pgfplots@tokc={}%
- \E\else
- \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@x,}%
- \E\fi
- \E\xdef\E\pgfplots@firstplot@coords@x{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@x}%
- \E\ifx\E\pgfplots@firstplot@coords@y\E\pgfutil@empty
- \E\t@pgfplots@tokc={}%
- \E\else
- \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@y,}%
- \E\fi
- \E\xdef\E\pgfplots@firstplot@coords@y{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@y}%
- %
- \ifpgfplots@curplot@threedim
- \E\ifx\E\pgfplots@firstplot@coords@z\E\pgfutil@empty
- \E\t@pgfplots@tokc={}%
- \E\else
- \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@z,}%
- \E\fi
- \E\xdef\E\pgfplots@firstplot@coords@z{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@z}%
- \fi
+ %
+ % Takes a coordinate which is already parsed and applies steps
+ % such that it becomes its final values.
+ %
+ % This implements the stacked plot feature currently.
+ %
+ % PRECONDITION:
+ % \pgfplotsaxisparsecoordinate has already been called.
+ %
+ % POSTCONDITION:
+ % the point has its final coordinates; the axis won't change it
+ % anymore.
+ \xdef\pgfplotsaxispreparecoordinate{%
+ \E\ifpgfplotsaxisparsecoordinateok
+ % All following routines (limit updating/stacking/error
+ % bars) will use float numerics if necessary (controlled
+ % by ifs).
+ \E\pgfplotsaxistransformfromdatacs
+ \ifpgfplots@stackedmode
+ \E\pgfplots@stacked@preparepoint@inmacro%
\fi
- \fi
- %
- }%
- \def\pgfplots@loc@performserizalization{%
- % Store normalized point for list:
- % We need
- % xi,yi,zi,mi;
- % where zi and mi may be empty. mi is the per-point meta
- % information. It is used for per-coordinate marker
- % modifications (like colormaps for scatter plots).
- \E\edef\E\pgfplots@loc@TMPa{\E\pgfplots@current@point@x,\E\pgfplots@current@point@y,\E\pgfplots@current@point@z,\E\pgfplots@current@point@meta;}%
- \E\expandafter\E\pgfplotsapplistXXpushback\E\expandafter{\E\pgfplots@loc@TMPa}%
+ \E\fi
}%
- % The following code assembles the command which is executed for
- % each coordinate.
%
- % To eliminate all those case distinctions, it is created with
- % 'edef' and a lot of '\noexpand' calls here:
+ % A macro which should be called once for every data point during the
+ % survey phase.
%
- % Arguments:
- % \pgfplots@current@point@[xyz]
- % \pgfplots@current@point@[xyz]@error (if in argument list)
- \xdef\pgfplots@process@one@point{%
- % These things are necessary for error bars and are available
- % as public results in math parser invocations (for meta and
- % filters)
- \E\let\E\pgfplots@current@point@x@unfiltered=\E\pgfplots@current@point@x
- \E\let\E\pgfplots@current@point@y@unfiltered=\E\pgfplots@current@point@y
- \E\let\E\pgfplots@current@point@z@unfiltered=\E\pgfplots@current@point@z
- \E\def\E\pgfplots@unbounded@dir{}%
- %
- \E\pgfplots@prepare@xcoord{\E\pgfplots@current@point@x}%
- \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{x}%
- \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
- %
- \E\pgfplots@prepare@ycoord{\E\pgfplots@current@point@y}%
- \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{y}%
- \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
- %
- \ifpgfplots@curplot@threedim
- \E\pgfplots@prepare@zcoord{\E\pgfplots@current@point@z}%
- \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{z}%
- \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
- \fi
- %
- \E\pgfplots@invoke@filter@xyz
- %
- \ifpgfplots@xislinear
- % NOTE: this handling of unbounded coords in the case of
- % LOG coords is performed directly by
- % \pgfplots@prepare@ycoord!
- \E\ifx\E\pgfplots@current@point@x\E\pgfutil@empty
- \E\else
- \E\pgfmathfloatparsenumber{\E\pgfplots@current@point@x}%
- \E\expandafter\E\pgfmathfloat@decompose@F\E\pgfmathresult\E\relax\E\c@pgf@counta
- \E\ifnum\E\c@pgf@counta>2 % this clears nan, inf and -inf points.
- \E\let\E\pgfplots@current@point@x=\E\pgfutil@empty
- \E\def\E\pgfplots@unbounded@dir{x}%
- \E\else
- \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
- \E\fi
- \E\fi
- \fi
- %
- \ifpgfplots@yislinear
- \E\ifx\E\pgfplots@current@point@y\E\pgfutil@empty
- \E\else
- \E\pgfmathfloatparsenumber{\E\pgfplots@current@point@y}%
- \E\expandafter\E\pgfmathfloat@decompose@F\E\pgfmathresult\E\relax\E\c@pgf@counta
- \E\ifnum\E\c@pgf@counta>2
- \E\let\E\pgfplots@current@point@y=\E\pgfutil@empty
- \E\def\E\pgfplots@unbounded@dir{y}%
- \E\else
- \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
- \E\fi
- \E\fi
- \fi
- %
- \ifpgfplots@curplot@threedim
+ % The caller is the plot handler's point survey routine.
+ %
+ % A data point might be a complicated thing which contains
+ % multiple coordinates. You need to invoke
+ % \pgfplotsaxisparsecoordinate and
+ % \pgfplotsaxispreparecoordinate for each of them. But
+ % \pgfplotsaxisdatapointsurveyed is invoked once for the complete
+ % set.
+ %
+ % @PRECONDITION
+ % - \pgfplots@current@point@[xyz] contain final coordinates
+ % (i.e. output of \pgfplotsaxispreparecoordinate)
+ %
+ % @POSTCONDITION
+ % - stacked plot things,
+ % - error bars,
+ % - xtick=data
+ % are all processed.
+ %
+ \xdef\pgfplotsaxisdatapointsurveyed{%
+ \E\ifpgfplotsaxisparsecoordinateok
+ % All following routines (limit updating/stacking/error
+ % bars) will use float numerics if necessary (controlled
+ % by ifs).
%
- \ifpgfplots@zislinear
- \E\ifx\E\pgfplots@current@point@z\E\pgfutil@empty
- \E\else
- \E\pgfmathfloatparsenumber{\E\pgfplots@current@point@z}%
- \E\expandafter\E\pgfmathfloat@decompose@F\E\pgfmathresult\E\relax\E\c@pgf@counta
- \E\ifnum\E\c@pgf@counta>2
- \E\let\E\pgfplots@current@point@z=\E\pgfutil@empty
- \E\def\E\pgfplots@unbounded@dir{z}%
+ % Prepare \pgfplots@current@point@meta (see the preparation
+ % routine above):
+ \E\pgfplots@set@perpointmeta
+ %
+ \ifpgfplots@errorbars@enabled
+ % This thing gets the 'current@point@...' context,
+ % that means
+ % \pgfplots@current@point@[xy]
+ % \pgfplots@current@point@[xy]@error
+ % \pgfplots@current@point@[xy]@unfiltered
+ \E\pgfplots@PREPARE@errorbar@process@x%
+ \E\pgfplots@PREPARE@errorbar@process@y%
+ \E\pgfplots@PREPARE@errorbar@process@z%
+ \fi
+ %
+ \ifpgfplots@collect@firstplot@astick
+ \ifnum\pgfplots@numplots=0
+ \E\ifx\E\pgfplots@firstplot@coords@x\E\pgfutil@empty
+ \E\t@pgfplots@tokc={}%
\E\else
- \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
+ \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@x,}%
\E\fi
- \E\fi
- \fi
- \fi
- %
- % check if coordinates are bounded:
- \E\pgfplots@loc@tmptrue
- \E\ifx\E\pgfplots@current@point@x\E\pgfutil@empty
- \E\pgfplots@loc@tmpfalse
- \E\else
- \E\ifx\E\pgfplots@current@point@y\E\pgfutil@empty
- \E\pgfplots@loc@tmpfalse
- \E\else
- \ifpgfplots@curplot@threedim
- \E\ifx\E\pgfplots@current@point@z\E\pgfutil@empty
- \E\pgfplots@loc@tmpfalse
+ \E\xdef\E\pgfplots@firstplot@coords@x{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@x}%
+ \E\ifx\E\pgfplots@firstplot@coords@y\E\pgfutil@empty
+ \E\t@pgfplots@tokc={}%
+ \E\else
+ \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@y,}%
\E\fi
+ \E\xdef\E\pgfplots@firstplot@coords@y{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@y}%
+ %
+ \ifpgfplots@curplot@threedim
+ \E\ifx\E\pgfplots@firstplot@coords@z\E\pgfutil@empty
+ \E\t@pgfplots@tokc={}%
+ \E\else
+ \E\t@pgfplots@tokc=\E\expandafter{\E\pgfplots@firstplot@coords@z,}%
+ \E\fi
+ \E\xdef\E\pgfplots@firstplot@coords@z{\E\the\E\t@pgfplots@tokc\E\pgfplots@current@point@z}%
+ \fi
\fi
- \E\fi
- \E\fi
- %
- \E\ifpgfplots@loc@tmp
- % coordinate is bounded AND non-empty, ok.
- % insert the main 2d/3d code here:
- \pgfplots@loc@surveypoint
- \pgfplots@loc@performserizalization
+ \fi
+ \E\pgfplotscoordstream@firstlast@update
+ \E\pgfplotsaxisserializedatapoint
\E\else
+ % COORDINATE HAS BEEN FILTERED AWAY:
+ %
% make ALL empty to simplify special case checking:
\E\let\E\pgfplots@current@point@x=\E\pgfutil@empty
\E\let\E\pgfplots@current@point@y=\E\pgfutil@empty
@@ -2488,6 +3698,7 @@
% check whether we have UNBOUNDED or just unfiltered
% coords:
\if\pgfplots@unbounded@handler d% unbounded coords=discard
+ \E\def\E\pgfplotsaxisfilteredcoordsaway{1}%
\ifpgfplots@warn@for@filter@discards
\E\pgfplots@message{%
NOTE: coordinate (\E\pgfplots@current@point@x@unfiltered,\E\pgfplots@current@point@y@unfiltered\ifpgfplots@curplot@threedim,\E\pgfplots@current@point@z@unfiltered\fi)
@@ -2502,6 +3713,7 @@
\else
% unbounded coords=jump
\E\ifx\E\pgfplots@unbounded@dir\E\pgfutil@empty
+ \E\def\E\pgfplotsaxisfilteredcoordsaway{1}%
\ifpgfplots@warn@for@filter@discards
\E\pgfplots@message{%
NOTE: coordinate (\E\pgfplots@current@point@x@unfiltered,\E\pgfplots@current@point@y@unfiltered\ifpgfplots@curplot@threedim,\E\pgfplots@current@point@z@unfiltered\fi)
@@ -2509,7 +3721,8 @@
}%
\fi
\E\else
- \pgfplots@loc@performserizalization
+ \E\def\E\pgfplotsaxisplothasjumps{1}%
+ \E\pgfplotsaxisserializedatapoint
\E\fi
\fi
\E\fi
@@ -2517,13 +3730,21 @@
% increase \pgfplots@current@point@coordindex:
\E\advance\E\c@pgfplots@coordindex by1
}%
+ %
+ %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\endgroup
-%\message{Prepared macro \string\pgfplots@update@limits@for@one@point: {\meaning\pgfplots@update@limits@for@one@point}}%
+ %
+ \def\pgfplotsaxissurveysetpointmeta{\pgfplots@set@perpointmeta}%
+ %
+%\message{Prepared macro \string\pgfplots@update@limits@for@one@point: {\meaning\pgfplotsaxisupdatelimitsforcoordinate}}%
%\message{Prepared macro \string\pgfplots@process@one@point: {\meaning\pgfplots@process@one@point}}%
%
\let\pgfplots@coord@stream@start@=\pgfplots@PREPARE@COORD@STREAM@start@
- \let\pgfplots@coord@stream@coord@=\pgfplots@process@one@point
+ \def\pgfplots@coord@stream@coord@{%
+ \def\pgfplots@set@perpointmeta@done{0}%
+ \pgfplotsplothandlersurveypoint
+ }%
\def\pgfplots@coord@stream@end@{\pgfplots@PREPARE@COORD@STREAM@end@{#1}}%
}%
@@ -2539,6 +3760,16 @@
% optimized 'applistXX' structure:
\pgfplotsapplistXXnewempty
%
+ \csname pgfpmeta@\pgfplotspointmetainputhandler @activate\endcsname
+ \pgfplotsplothandlersurveystart
+ \pgfplotscoordstream@firstlast@init
+ %
+ \pgfkeyssetvalue{/data point/x}{\pgfplots@current@point@x}%
+ \pgfkeyssetvalue{/data point/y}{\pgfplots@current@point@y}%
+ \pgfkeyssetvalue{/data point/z}{\pgfplots@current@point@z}%
+ \pgfkeyssetvalue{/data point/meta}{\pgfplots@current@point@meta}%
+ %
+ \pgfplots@prepare@visualization@dependencies
%
\ifpgfplots@errorbars@enabled
% prepare error bar processing.
@@ -2577,17 +3808,21 @@
\pgfplotsmathdeclarepseudoconstant{meta}{%
\let\pgfmathresult=\pgfplots@current@point@meta
\ifx\pgfmathresult\pgfutil@empty
- \pgfmathfloatcreate{0}{0.0}{0}%
+ \pgfplotscoordmath{meta}{parsenumber}{0}%
\fi
}%
- \csname pgfpmeta@\pgfplotspointmetainputhandler @activate\endcsname
%
% %%%%%%%%%%%%%%
%
% Define \pgfplots@set@perpointmeta properly:
\def\pgfplots@set@perpointmeta{%
- \csname pgfpmeta@\pgfplotspointmetainputhandler @assign\endcsname
+ \if0\pgfplots@set@perpointmeta@done
+ \csname pgfpmeta@\pgfplotspointmetainputhandler @assign\endcsname
+ \def\pgfplots@set@perpointmeta@done{1}%
+ \pgfplots@set@perpointmeta@limits
+ \fi
}%
+ % append limit updating to \pgfplots@set@perpointmeta :
\if0\csname pgfpmeta@\pgfplotspointmetainputhandler @issymbolic\endcsname
% We need to work with per point meta data.
% So, also compute the data range on a per-plot basis!
@@ -2597,37 +3832,43 @@
\ifx\pgfplots@metamin\pgfutil@empty
\global\let\pgfplots@metamin=\pgfplots@invalidrange@metamin
\t@pgfplots@tokb=\expandafter{\the\t@pgfplots@tokb
- \pgfplotsmathfloatmin{\pgfplots@metamin}{\pgfplots@current@point@meta}%
+ \pgfplotscoordmath{meta}{min}{\pgfplots@metamin}{\pgfplots@current@point@meta}%
\global\let\pgfplots@metamin=\pgfmathresult
}%
\else
- \pgfmathfloatparsenumber{\pgfplots@metamin}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@metamin}%
\global\let\pgfplots@metamin=\pgfmathresult
\fi
\pgfkeysgetvalue{/pgfplots/point meta max}\pgfplots@metamax
\ifx\pgfplots@metamax\pgfutil@empty
\global\let\pgfplots@metamax=\pgfplots@invalidrange@metamax
\t@pgfplots@tokb=\expandafter{\the\t@pgfplots@tokb
- \pgfplotsmathfloatmax{\pgfplots@metamax}{\pgfplots@current@point@meta}%
+ \pgfplotscoordmath{meta}{max}{\pgfplots@metamax}{\pgfplots@current@point@meta}%
\global\let\pgfplots@metamax=\pgfmathresult
}%
\else
- \pgfmathfloatparsenumber{\pgfplots@metamax}%
+ \pgfplotscoordmath{meta}{parsenumber}{\pgfplots@metamax}%
\global\let\pgfplots@metamax=\pgfmathresult
\fi
%
- \t@pgfplots@toka=\expandafter{\pgfplots@set@perpointmeta}%
- \edef\pgfplots@set@perpointmeta{%
- \the\t@pgfplots@toka
+ \edef\pgfplots@set@perpointmeta@limits{%
\noexpand\ifx\noexpand\pgfplots@current@point@meta\noexpand\pgfutil@empty
\noexpand\else
\the\t@pgfplots@tokb
\noexpand\fi
}%
+ \def\pgfplotsaxisupdatelimitsforpointmeta##1{%
+ \begingroup
+ \def\pgfplots@current@point@meta{##1}%
+ \pgfplots@set@perpointmeta@limits
+ \endgroup
+ }%
\else
% there is no point meta:
\global\let\pgfplots@metamin=\pgfutil@empty
\global\let\pgfplots@metamax=\pgfutil@empty
+ \let\pgfplots@set@perpointmeta@limits=\relax
+ \def\pgfplotsaxisupdatelimitsforpointmeta##1{}%
\fi
}%
% This is the \pgfplots@coord@stream@end@ routine which is invoked by
@@ -2644,14 +3885,17 @@
%
% #1,#2: see \pgfplots@PREPARE@COORD@STREAM
\def\pgfplots@PREPARE@COORD@STREAM@end@#1{%
+ \pgfkeysvalueof{/pgfplots/execute at end survey}%
+ \pgfkeyssetvalue{/pgfplots/mesh/num points}{\pgfplots@current@point@coordindex}%
+ \pgfplotsplothandlersurveyend
\ifx\pgfplots@metamin\pgfutil@empty
\else
\if\pgfplots@axiswide@metamin@autocompute1%
- \pgfplotsmathfloatmin{\pgfplots@axiswide@metamin}{\pgfplots@metamin}%
+ \pgfplotscoordmath{meta}{min}{\pgfplots@axiswide@metamin}{\pgfplots@metamin}%
\global\let\pgfplots@axiswide@metamin=\pgfmathresult
\fi
\if\pgfplots@axiswide@metamax@autocompute1%
- \pgfplotsmathfloatmax{\pgfplots@axiswide@metamax}{\pgfplots@metamax}%
+ \pgfplotscoordmath{meta}{max}{\pgfplots@axiswide@metamax}{\pgfplots@metamax}%
\global\let\pgfplots@axiswide@metamax=\pgfmathresult
\fi
\fi
@@ -2677,7 +3921,7 @@
\ifpgfplots@stackedmode
\pgfplots@stacked@endplot
\fi
- \ifpgfplots@coord@stream@isfirst
+ \ifx\pgfplots@currentplot@firstcoord@x\pgfutil@empty
\pgfplots@warning{the current plot has no coordinates (or all have been filtered away)}%
\else
% Idea: use
@@ -2688,10 +3932,12 @@
% to share plot specifications between error bars and plot
% coordinates. Unfortunately, it is NOT sufficient to use
% \tikzset
- \pgfkeyssetvalue{/pgfplots/mesh/num points}{\pgfplots@current@point@coordindex}%
\pgfplotspreparemeshkeydefaults%
\pgfplots@PREPARE@COORD@STREAM@end@determinecoordsorting x%
\pgfplots@PREPARE@COORD@STREAM@end@determinecoordsorting y%
+ \t@pgfplots@tokc=\expandafter{\pgfplots@addplot@survey@@optionlist,%
+ /pgfplots/.cd,/pgfplots/every axis plot post}%
+ \edef\pgfplots@addplot@survey@@optionlist{\the\t@pgfplots@tokc}%
\ifpgfplots@curplot@isirrelevant
% for \label commands:
\expandafter\pgfplots@rememberplotspec@for@label\expandafter{\pgfplots@addplot@survey@@optionlist}%
@@ -2703,12 +3949,8 @@
\t@pgfplots@toka=\expandafter{\pgfplots@addplot@survey@@optionlist}%
% ATTENTION: do NOT call list macros from here on!
%
- \ifpgfplots@datascaletrafo@initialised
- \pgfplots@addplot@get@named@startendpoints@command\pgfplots@loc@TMPa
- \t@pgfplots@tokc=\expandafter{\pgfplots@loc@TMPa}%
- \else
- \t@pgfplots@tokc={}%
- \fi
+ \pgfplotsplothandlerserializestateto\pgfplots@loc@TMPa
+ \t@pgfplots@tokb=\expandafter{\pgfplots@loc@TMPa}%
% SERIALIZE RESULT:
%
% everything which has been accumulated so far (including the
@@ -2745,18 +3987,21 @@
\noexpand\pgfkeyssetvalue{/pgfplots/samples at}{\pgfplots@plot@samples@at}%
\noexpand\pgfkeyssetvalue{/pgfplots/mesh/rows}{\pgfkeysvalueof{/pgfplots/mesh/rows}}%
\noexpand\pgfkeyssetvalue{/pgfplots/mesh/cols}{\pgfkeysvalueof{/pgfplots/mesh/cols}}%
+ \noexpand\pgfkeyssetvalue{/pgfplots/mesh/num points}{\pgfkeysvalueof{/pgfplots/mesh/num points}}%
% either '+' or '-' :
\noexpand\pgfkeyssetvalue{/pgfplots/x coord sorting}{\pgfkeysvalueof{/pgfplots/x coord sorting}}%
\noexpand\pgfkeyssetvalue{/pgfplots/y coord sorting}{\pgfkeysvalueof{/pgfplots/y coord sorting}}%
%
\noexpand\pgfplots@initzerolevelhandler
- \the\t@pgfplots@tokc% named start/end points (if already available)
\noexpand\pgfplots@define@currentplotstyle@as{\the\t@pgfplots@toka}% remember 'current plot style'
% per-point meta data ranges which apply only to
% this plot:
\noexpand\xdef\noexpand\pgfplots@metamin{\pgfplots@metamin}%
\noexpand\xdef\noexpand\pgfplots@metamax{\pgfplots@metamax}%
\noexpand\def\noexpand\pgfplotspointmetainputhandler{\pgfplotspointmetainputhandler}%
+ \noexpand\def\noexpand\pgfplots@serialized@state@plothandler{\the\t@pgfplots@tokb}%
+ \noexpand\def\noexpand\pgfplotsaxisfilteredcoordsaway{\pgfplotsaxisfilteredcoordsaway}%
+ \noexpand\def\noexpand\pgfplotsaxisplothasjumps{\pgfplotsaxisplothasjumps}%
}%
{% draw command:
\noexpand\path%
@@ -2803,234 +4048,363 @@
\pgfplots@end@plot
}%
-% PRECONDITION: must be called inside of
-% \pgfplots@PREPARE@COORD@STREAM@end@.
+
+% A routine which transforms the current set of
+% \pgfplots@current@point@[xyz] values to the coordinate system
+% accepted by the actual axis.
+\def\pgfplotsaxistransformfromdatacs{%
+ \pgfkeyslet{/data point/x}\pgfplots@current@point@x
+ \pgfkeyslet{/data point/y}\pgfplots@current@point@y
+ \pgfkeyslet{/data point/z}\pgfplots@current@point@z
+ \pgfplotsaxistransformcs
+ {\pgfkeysvalueof{/pgfplots/data cs}}
+ {\pgfkeysvalueof{/pgfplots/@expected axis cs}}%
+ \pgfkeysgetvalue{/data point/x}\pgfplots@current@point@x
+ \pgfkeysgetvalue{/data point/y}\pgfplots@current@point@y
+ \pgfkeysgetvalue{/data point/z}\pgfplots@current@point@z
+}%
+
+% Changes '/data point/[xyz]' to the new coordinate system
+% (cs) designated by '#2'.
%
-% POSTCONDITION:
-% assigns '/pgfplots/#1 coord sorting=[+-]'
-% i.e. whether #1 (x or y or z) coordinates are in ascending (+) ordering or in
-% descending order (-).
-\def\pgfplots@PREPARE@COORD@STREAM@end@determinecoordsorting#1{%
- \pgfplots@if{pgfplots@#1islinear}{%
- \pgfmathfloatlessthan@
- {\csname pgfplots@currentplot@firstcoord@#1\endcsname}
- {\csname pgfplots@currentplot@lastcoord@#1\endcsname}%
- }{%
- \pgfplotsmathlessthan
- {\csname pgfplots@currentplot@firstcoord@#1\endcsname}
- {\csname pgfplots@currentplot@lastcoord@#1\endcsname}%
- }%
- \ifpgfmathfloatcomparison
- \pgfkeyssetvalue{/pgfplots/#1 coord sorting}{+}%
+% #1: the actual coordinate system's name
+% #2: the desired coordinate system's name
+%
+% PRECONDITION: '/data point/[xyz]' contain the current
+% point's coordinates in the '#1' system. The z coordinate is ignored for 2d plots (or
+% for coordinate systems which are inherently two-dimensional).
+%
+% POSTCONDITION: 'data point/[xyz]' contain same point as
+% before, but represented in the '#2' system.
+%
+% The coordinate system transformations must be defined,
+% see \pgfplotsdefinecstransform.
+%
+% Example:
+% \pgfkeyssetvalue{/data point/x}{90}
+% \pgfkeyssetvalue{/data point/y}{1}
+% \pgfplotsaxistransformcs{polar}{cart}
+% -->
+% \pgfkeysvalueof{/data point/x}= 0
+% \pgfkeysvalueof{/data point/y}= 1
+\def\pgfplotsaxistransformcs#1#2{%
+ \edef\pgfplots@loc@TMPa{#1}%
+ \edef\pgfplots@loc@TMPb{#2}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ % nothing to do
\else
- \pgfkeyssetvalue{/pgfplots/#1 coord sorting}{-}%
+ \pgfutil@ifundefined{pgfp@transform@\pgfplots@loc@TMPa @to@\pgfplots@loc@TMPb}{%
+ \pgfutil@ifundefined{pgfp@transform@\pgfplots@loc@TMPa @to@cart}{%
+ \pgfplotsaxistransformcs@error
+ }{%
+ \pgfplotsaxistransformcs{#1}{cart}%
+ \pgfplotsaxistransformcs{cart}{#2}%
+ }%
+ }{%
+ \csname pgfp@transform@\pgfplots@loc@TMPa @to@\pgfplots@loc@TMPb\endcsname
+ }%
\fi
}%
-% Assigns default values to 'rows' and 'cols' in case
-% their values are empty.
+% Defines a new coordinate transformation for use in
+% \pgfplotsaxistransformcs.
+% #1: the source coordinate system
+% #2: the target coordinate system
+% #3: the transformation code.
%
-% PRECONDITION:
-% The values of
-% - '/pgfplots/mesh/rows'
-% - '/pgfplots/mesh/cols'
-% - '/pgfplots/mesh/num points'
-% - \pgfplotsscanlinelength
-% - '/pgfplots/mesh/ordering'
-% are assigned properly.
+% @see \pgfplotsaxistransformcs for what #3 should do.
%
-% POSTCONDITION:
-% 'rows' and 'cols' now incorporates \pgfplotsscanlinelength if
-% their values had been empty. However, there may still be empty
-% values.
-%
-% @see \pgfplotsautocompletemeshkeys
-\def\pgfplotspreparemeshkeydefaults{%
- \pgfplots@autocomplete@meshkeys0%
+% This does also declare a coordinate system for use in 'data cs'.
+% The minimal requirements are to define the transformations from and
+% to "cart" (cartesian coordinates).
+%
+\def\pgfplotsdefinecstransform#1#2#3{%
+ \expandafter\def\csname pgfp@transform@#1@to@#2\endcsname{#3}%
+}%
+
+\pgfplotsdefinecstransform{polar}{cart}{%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/x}}%
+ \let\pgfplots@current@point@x=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/y}}%
+ \let\pgfplots@current@point@y=\pgfmathresult
+ \pgfplotsmathpoltocart\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@x@\pgfplots@current@point@y@
+ \pgfplotscoordmath{x}{parsenumber}{\pgfplots@current@point@x@}%
+ \pgfkeyslet{/data point/x}\pgfmathresult
+ \pgfplotscoordmath{y}{parsenumber}{\pgfplots@current@point@y@}%
+ \pgfkeyslet{/data point/y}\pgfmathresult
+}%
+\pgfplotsdefinecstransform{cart}{polar}{%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/x}}%
+ \let\pgfplots@current@point@x=\pgfmathresult
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/y}}%
+ \let\pgfplots@current@point@y=\pgfmathresult
+ \pgfplotsmathcarttopol\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@x@\pgfplots@current@point@y@
+ \pgfplotscoordmath{x}{parsenumber}{\pgfplots@current@point@x@}%
+ \pgfkeyslet{/data point/x}\pgfmathresult
+ \pgfplotscoordmath{y}{parsenumber}{\pgfplots@current@point@y@}%
+ \pgfkeyslet{/data point/y}\pgfmathresult
+}%
+
+\pgfplotsdefinecstransform{polarrad}{polar}{%
+ \pgfplotsgetcoordmathfor{default}\let\pgfplots@coordmath@id=\pgfplotsretval
+ \pgfutil@ifundefined{pgfp@polarradscale@\pgfplots@coordmath@id}{%
+ \pgfplotscoordmath{default}{parsenumber}{57.2957795130823}%
+ \expandafter\global\expandafter\let\csname pgfp@polarradscale@\pgfplots@coordmath@id\endcsname=\pgfmathresult
+ }{}%
+ %
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/x}}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\csname pgfp@polarradscale@\pgfplots@coordmath@id\endcsname}}%
+ \pgfkeyslet{/data point/x}\pgfmathresult
+}%
+\pgfplotsdefinecstransform{polar}{polarrad}{%
+ \pgfplotsgetcoordmathfor{default}\let\pgfplots@coordmath@id=\pgfplotsretval
+ \pgfutil@ifundefined{pgfp@polarradiscale@\pgfplots@coordmath@id}{%
+ \pgfplotscoordmath{default}{parsenumber}{0.0174532925199433}%
+ \expandafter\global\expandafter\let\csname pgfp@polarradiscale@\pgfplots@coordmath@id\endcsname=\pgfmathresult
+ }{}%
+ %
+ \pgfplotscoordmath{default}{parsenumber}{\pgfkeysvalueof{/data point/x}}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\csname pgfp@polarradiscale@\pgfplots@coordmath@id\endcsname}}%
+}%
+\pgfplotsdefinecstransform{polarrad}{cart}{%
+ \pgfplotsaxistransformcs{polarrad}{polar}%
+ \pgfplotsaxistransformcs{polar}{cart}%
+}%
+\pgfplotsdefinecstransform{cart}{polarrad}{%
+ \pgfplotsaxistransformcs{cart}{polar}%
+ \pgfplotsaxistransformcs{polar}{polarrad}%
}%
-% Completes and sanitizes 'mesh/rows' and 'mesh/cols' such that they
-% have useful integer values afterwards.
-%
-% This method works similarly to \pgfplotspreparemeshkeydefaults.
-% However, it really completes values and issues error messages if
-% that proves to be impossible.
+\def\pgfplotsaxistransformcs@error{%
+ \pgfplotsthrow{invalid argument}{\pgfplots@loc@TMPa}{Sorry, I do not know how to transform the coordinate system '\pgfplots@loc@TMPa' to '\pgfplots@loc@TMPb'. Maybe you misspelled the 'data cs'? Or perhaps the feature is not yet implemented?}\pgfeov%
+}%
+
+\def\pgfplotsaxisserializedatapoint{%
+ \pgfplotsplothandlerserializepointto\pgfplotsaxisserializedatapoint@val
+ \pgfplotsaxisserializedatapoint@private
+ \t@pgfplots@toka=\expandafter{\pgfplotsaxisserializedatapoint@val}%
+ \t@pgfplots@tokb=\expandafter{\pgfplotsretval}%
+ \edef\pgfplots@loc@TMPa{{\the\t@pgfplots@tokb;\the\t@pgfplots@toka}}%
+ \expandafter\pgfplotsapplistXXpushback\expandafter{\pgfplots@loc@TMPa}%
+}%
+\def\pgfplotsaxisserializedatapoint@private{%
+ \let\pgfplotsretval=\pgfplots@current@point@meta
+}%
+\def\pgfplotsaxisdeserializedatapointfrom@private#1{%
+ \def\pgfplots@current@point@meta{#1}%
+}%
+% Restores the variables serialized in '#1'.
%
-% PRECONDITION:
-% The values of
-% - '/pgfplots/mesh/rows'
-% - '/pgfplots/mesh/cols'
-% - '/pgfplots/mesh/num points'
-% - '/pgfplots/mesh/ordering'
-% are assigned properly.
-% If
-% - \pgfplotsscanlinelength
-% exists and is positive, it may also be used.
+% As a side--effect, the macro
+% \pgfplotsaxisdeserializedatapointfrom@private@lastvalue will contain
+% the serialized part which is specific to pgfplots (i.e. the private
+% parts which can be read with
+% \pgfplotsaxisdeserializedatapointfrom@private)
+\def\pgfplotsaxisdeserializedatapointfrom#1{%
+ \expandafter\pgfplotsaxisdeserializedatapointfrom@#1\pgfplots@EOI
+}%
+\def\pgfplotsaxisdeserializedatapointfrom@#1;#2\pgfplots@EOI{%
+ \def\pgfplotsaxisdeserializedatapointfrom@private@lastvalue{#1}%
+ \pgfplotsaxisdeserializedatapointfrom@private{#1}%
+ \pgfplotsplothandlerdeserializepointfrom{#2}%
+}%
+
+% Handle User-defined parts which should be serialized as well.
+% This preparation tool should be called at the start of both, survey
+% and visualization phase.
+%
+% @PRECONDITION
+% - the macros
+% \pgfplotsaxisserializedatapoint@private
+% \pgfplotsaxisdeserializedatapointfrom@private
+% are known and valid.
+% - '/pgfplots/visualization depends on' contains its correct value.
%
-% POSTCONDITION:
-% 'rows' and 'cols' have useful integer values.
-\def\pgfplotsautocompletemeshkeys{%
- \pgfplots@autocomplete@meshkeys1%
-}%
-\def\pgfplots@autocomplete@meshkeys#1{%
- \pgfkeysgetvalue{/pgfplots/mesh/rows}\pgfplotsplothandlermesh@rows
- \pgfkeysgetvalue{/pgfplots/mesh/cols}\pgfplotsplothandlermesh@cols
- \pgfkeysgetvalue{/pgfplots/mesh/num points}\pgfplotsplothandlermesh@numpoints
- \edef\pgfplotsplothandlermesh@numpoints{\pgfplotsplothandlermesh@numpoints}%
- \edef\pgfplotsplothandlermesh@cols{\pgfplotsplothandlermesh@cols}%
- \edef\pgfplotsplothandlermesh@rows{\pgfplotsplothandlermesh@rows}%
- \ifpgfplots@curplot@threedim
- \ifx\pgfplotsplothandlermesh@rows\pgfutil@empty
- \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
- \pgfutil@ifundefined{pgfplotsscanlinelength}{\def\pgfplotsscanlinelength{-1}}{}%
- \ifpgfplots@scanline@verbose
- \ifnum\pgfplotsscanlinelength>0
- % we have scanlinelength set! Use it:
- \message{PGFPlots: Scanline length is \pgfplotsscanlinelength.}%
- \else
- \ifnum\pgfplotsscanlinelength=-2
- \message{PGFPlots: Scanline length could not be determined since multiple, different scan line lengths have been found.}%
- \else
- \message{PGFPlots: No end-of-scanline marker found in input stream.}%
- \fi
- \fi
- \fi
- \ifnum\pgfplotsscanlinelength>0
- % we have scanlinelength set! Use it:
- \if\pgfplots@plot@mesh@ordering0%
- % ordering = x varies= rowwise -> scanline is cols!
- \edef\pgfplotsplothandlermesh@cols{\pgfplotsscanlinelength}%
- \else
- % ordering = y varies = colwise: scanline is rows!
- \edef\pgfplotsplothandlermesh@rows{\pgfplotsscanlinelength}%
- \fi
- \else
- \if1#1%
- % try to get reasonable values:
- \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
- \pgfplots@error{Sorry, 'plot mesh' needs either '[mesh/rows=<N>]' or '[mesh/cols=<N>]' set - or at least '[mesh/num points=<N>]'. But it did not find any of them...}%
- \def\pgfplotsplothandlermesh@cols{5}%
- \def\pgfplotsplothandlermesh@rows{5}%
- \else
- % We don't have rows/cols. Well, try using
- % sqrt(num points) for both of them!
- \ifnum\pgfplotsplothandlermesh@numpoints<16380
- \pgfmath@basic@sqrt@{\pgfplotsplothandlermesh@numpoints}%
- \else
- \pgfmathfloatparsenumber{\pgfplotsplothandlermesh@numpoints}%
- \pgfmathfloatsqrt@{\pgfmathresult}%
- \pgfmathfloattofixed{\pgfmathresult}%
- \fi
- \begingroup
- % Try whether this rows*rows yields numpoints:
- \afterassignment\pgfplots@gobble@until@relax
- \c@pgf@counta=\pgfmathresult\relax
- \c@pgf@countb=\c@pgf@counta
- \multiply\c@pgf@counta by\c@pgf@counta
- \def\pgfplotsretval{1}%
- \ifnum\c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
- % ok, rows*rows = numpoints.
- \xdef\pgfplots@glob@TMPa{\the\c@pgf@countb}%
- \else
- % oh. Did not work. Check for rounding errors:
- \c@pgf@counta=\c@pgf@countb
- \advance\c@pgf@counta by1
- \c@pgf@countb=\c@pgf@counta
- \multiply\c@pgf@counta by\c@pgf@counta
- \ifnum\c@pgf@counta=\pgfplotsplothandlermesh@numpoints
- % ok, (rows+1)*(rows+1) = numpoints.
- \xdef\pgfplots@glob@TMPa{\the\c@pgf@countb}%
- \else
- % no... did not work. num points doesn't
- % appear to be a squared number.
- \def\pgfplotsretval{0}%
- \xdef\pgfplots@glob@TMPa{5}%
- \fi
- \fi
- \if\pgfplotsretval1
- \pgfplots@warning{%
- 'plot mesh' did not find '[mesh/rows=<N>]' or '[mesh/cols=<N>]'.
- Assuming [mesh/rows=\pgfplots@glob@TMPa,mesh/cols=\pgfplots@glob@TMPa]
- as sqrt(num points) = sqrt(\pgfplotsplothandlermesh@numpoints) [ = \pgfmathresult].}%
- \else
- \pgfplots@error{Sorry, 'plot mesh' needs either '[mesh/rows=<N>]' or '[mesh/cols=<N>]' set,
- but it did not find any of them.
- I also tried rows = sqrt(num points) = sqrt(\pgfplotsplothandlermesh@numpoints) = \pgfmathresult\space without success.}%
- \fi
- \endgroup
- \let\pgfplotsplothandlermesh@rows=\pgfplots@glob@TMPa
- \let\pgfplotsplothandlermesh@cols=\pgfplots@glob@TMPa
- \fi
- \else
- % #1=0 -> leave them empty.
- \fi
- \fi
- \fi
- \fi
- \if1#1%
- \ifx\pgfplotsplothandlermesh@rows\pgfutil@empty
- \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
- \else
- % Compute 'rows' out of 'num points' and 'cols':
- \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
- \pgfplots@error{Sorry, matrix input needs a valid '[mesh/num points=<N>]' variable if only one of '[mesh/rows=<N>]' or '[mesh/cols=<N>]' is given.}%
- \def\pgfplotsplothandlermesh@numpoints{100}%
- \fi
- \begingroup
- \c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
- \divide\c@pgf@counta by\pgfplotsplothandlermesh@cols\relax
- \xdef\pgfplots@glob@TMPa{\the\c@pgf@counta}%
- \endgroup
- \let\pgfplotsplothandlermesh@rows=\pgfplots@glob@TMPa
- \fi
+% @POSTCONDITION
+% Both,
+% \pgfplotsaxisserializedatapoint@private
+% and
+% \pgfplotsaxisdeserializedatapointfrom@private
+% have been patched to incorporate the '/pgfplots/visualization
+% depends on' feature.
+%
+\def\pgfplots@prepare@visualization@dependencies{%
+ \pgfkeysgetvalue{/pgfplots/visualization depends on/list}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ % SERIALIZATION format:
+ % visualization depends on={{value1}\as \macro1, {<value2>}\as \macro2,...}
+ % ->
+ % {<original private data>}<\macro1>{<value1>}<\macro2>{<value2>}...<\macroN>{<valueN>}
+ %
+ % prepare
+ % \t@pgfplots@tokb={<\macro1>{<value1>}<\macro2>{<value2>}...<\macroN>{<valueN>}}
+ \t@pgfplots@tokb={}%
+ %
+ % prepare
+ % \t@pgfplots@tokc={<\macro1><\macro2><\macro3>...}
+ \t@pgfplots@tokc={}%
+ \expandafter\pgfplotsutilforeachcommasep\expandafter{\pgfplots@loc@TMPa}\as\pgfplots@loc@TMPa{%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
- % Compute 'cols' out of 'num points' and 'rows':
- \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
- \pgfplots@error{Sorry, matrix input needs a valid '[mesh/num points=<N>]' variable if only one of '[mesh/cols=<N>]' or '[mesh/rows=<N>]' is given.}%
- \def\pgfplotsplothandlermesh@numpoints{100}%
- \fi
+ \expandafter\pgfplots@prepare@visualization@depends@on\pgfplots@loc@TMPa\pgfplots@EOI%
+ \fi
+ }%
+ % Step 1: modify the SERIALIZATION method:
+ \t@pgfplots@toka=\expandafter{\pgfplotsaxisserializedatapoint@private}%
+ \edef\pgfplotsaxisserializedatapoint@private{%
+ \the\t@pgfplots@tokc
+ \the\t@pgfplots@toka
+ % nothing is expanded here, only \t@pgfplots@tokb
+ \noexpand\t@pgfplots@toka=\noexpand\expandafter{\noexpand\pgfplotsretval}%
+ \noexpand\edef\noexpand\pgfplotsretval{{\noexpand\the\t@pgfplots@toka},\the\t@pgfplots@tokb}%
+ }%
+ % Step 2: modify the DESERIALIZATION method:
+ \let\pgfplotsaxisdeserializedatapointfrom@private@orig=\pgfplotsaxisdeserializedatapointfrom@private
+ \let\pgfplotsaxisdeserializedatapointfrom@private=\pgfplotsaxisdeserializedatapointfrom@private@withdeplist
+ \fi
+ %
+ \pgfkeysgetvalue{/pgfplots/execute for finished point}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@empty@command@key
+ \else
+ \expandafter\def\expandafter\pgfplotsaxisserializedatapoint@private\expandafter{%
+ \pgfplotsaxisserializedatapoint@private
+ \pgfkeysvalueof{/pgfplots/execute for finished point}%
+ }%
+ \fi
+}%
+\def\pgfplots@prepare@visualization@depends@on#1\pgfplots@EOI{%
+ \pgfutil@in@\as{#1}%
+ \ifpgfutil@in@
+ % ok, we have the '<content>\as<\macro>' syntax:
+ \pgfplots@prepare@visualization@depends@on@#1\pgfplots@EOI
+ \else
+ \pgfplots@prepare@visualization@depends@on@preparetype@checkvalue#1value\pgfplots@EOI
+ \ifpgfutil@in@
+ % ok, then it should be 'value <\macro>'.
+ % extract the <\macro>:
+ \def\pgfplots@loc@TMPa value{\pgfplots@loc@TMPb}%
+ \def\pgfplots@loc@TMPb##1{\pgfplots@loc@TMPc ##1}% this step should remove leading white spaces
+ \def\pgfplots@loc@TMPc##1\pgfplots@EOI{%
+ % sanitize: check if ##1 is a defined macro:
+ \begingroup
+ \escapechar=-1
+ \xdef\pgfplots@glob@TMPa{\string##1}%
+ \endgroup
+ \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
\begingroup
- \c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
- \divide\c@pgf@counta by\pgfplotsplothandlermesh@rows\relax
- \xdef\pgfplots@glob@TMPa{\the\c@pgf@counta}%
+ \t@pgfplots@toka={##1}%
+ \pgfplotsthrow{invalid argument}
+ {\pgfplots@loc@TMPa}%
+ {Sorry, `visualization depends on=value <\string\macro>' expected a defined control sequence name instead of `\the\t@pgfplots@toka'. Please make sure `\the\t@pgfplots@toka' is a properly defined macro or use the `visualization depends on=value <content> \string\as <\string\macro>' syntax instead}%
+ \pgfeov
\endgroup
- \let\pgfplotsplothandlermesh@cols=\pgfplots@glob@TMPa
- \fi
- \fi
- \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
- \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@rows\relax
- \multiply\c@pgfplots@scanlineindex by \pgfplotsplothandlermesh@cols\relax
- \edef\pgfplotsplothandlermesh@numpoints{\the\c@pgfplots@scanlineindex}%
- \fi
- %
- \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@rows\relax
- \multiply\c@pgfplots@scanlineindex by\pgfplotsplothandlermesh@cols\relax
- \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@numpoints\relax
- \else
- \ifcase\pgfplots@mesh@checkmode\relax
- % mesh/check=false
- \def\pgfplots@loc@TMPa##1{}%
- \or
- % mesh/check=warning
- \def\pgfplots@loc@TMPa##1{\pgfplots@warning{##1}}%
- \or
- % mesh/check=error
- \def\pgfplots@loc@TMPa##1{\pgfplots@error{##1}}%
- \fi
- \pgfplots@loc@TMPa{the arguments of [mesh/rows=\pgfplotsplothandlermesh@rows,mesh/cols=\pgfplotsplothandlermesh@cols] assume \the\c@pgfplots@scanlineindex\space points, but I got actually N = \pgfplotsplothandlermesh@numpoints\space points! The data matrix appears to be incomplete or overcomplete!? [Use mesh/check=false to disable this message]}%
- \fi
+ }{%
+ \def\pgfplots@loc@TMPa{%
+ \pgfplots@prepare@visualization@depends@on@ value}%
+ \expandafter\pgfplots@loc@TMPa##1\as##1\pgfplots@EOI
+ }%
+ }%
+ \pgfplots@loc@TMPa#1\pgfplots@EOI
+ \else
+ % then, I expect '<\macro>'.
+ % sanitize: check if #1 is a defined macro:
+ \begingroup
+ \escapechar=-1
+ \xdef\pgfplots@glob@TMPa{\string#1}%
+ \endgroup
+ \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
+ \begingroup
+ \t@pgfplots@toka={#1}%
+ \pgfplotsthrow{invalid argument}
+ {\pgfplots@loc@TMPa}%
+ {Sorry, `visualization depends on' expected a defined control sequence name instead of `\the\t@pgfplots@toka'. Please make sure `\the\t@pgfplots@toka' is a properly defined macro or use the `visualization depends on=<expression> \string\as <\string\macro>' syntax instead}%
+ \pgfeov
+ \endgroup
+ }{%
+ \expandafter\pgfplots@prepare@visualization@depends@on@#1\as#1\pgfplots@EOI
+ }%
\fi
+ \fi
+}%
+\def\pgfplots@prepare@visualization@depends@on@#1\as#2\pgfplots@EOI{%
+ \pgfplots@prepare@visualization@depends@on@preparetype{#1}\as{#2}%
+ % prepare the serialization:
+ \t@pgfplots@tokb=\expandafter{\the\t@pgfplots@tokb\noexpand#2{\csname\string#2@value\endcsname}}%
+ \t@pgfplots@tokc=\expandafter{\the\t@pgfplots@tokc#2}%
+}%
+\def\pgfplots@prepare@visualization@depends@on@preparetype#1\as#2{%
+ \pgfplots@prepare@visualization@depends@on@preparetype@checkvalue#1value\pgfplots@EOI
+ \ifpgfutil@in@
+ \pgfplots@prepare@visualization@depends@on@preparetype@value#1\as{#2}% no braces here.
\else
- % 2d visualization has no mesh:
- \edef\pgfplotsplothandlermesh@rows{\pgfplotsplothandlermesh@numpoints}%
- \def\pgfplotsplothandlermesh@cols{1}%
+ \pgfplots@prepare@visualization@depends@on@preparetype@expr{#1}\as{#2}%
+ \fi
+}%
+\def\pgfplots@prepare@visualization@depends@on@preparetype@expr#1\as#2{%
+ \pgflibraryfpuifactive{%
+ \def#2{%
+ \pgfmathparse{#1}%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ \expandafter\let\csname \string#2@value\endcsname=\pgfmathresult
+ }%
+ }{%
+ \def#2{%
+ \pgfmathparse{#1}%
+ \expandafter\let\csname \string#2@value\endcsname=\pgfmathresult
+ }%
+ }%
+}
+\def\pgfplots@prepare@visualization@depends@on@preparetype@checkvalue#1value#2\pgfplots@EOI{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \pgfutil@in@true
+ \else
+ \pgfutil@in@false
+ \fi
+}%
+\def\pgfplots@prepare@visualization@depends@on@preparetype@value value#1\as#2{%
+ \begingroup
+ % remove spaces from #1:
+ \pgfkeys@spdef\pgfplots@loc@TMPa{#1}%
+ \t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPa}%
+ \t@pgfplots@tokb=\expandafter{\csname\string#2@value\endcsname}%
+ \xdef\pgfplots@glob@TMPa{%
+ \noexpand\def\the\t@pgfplots@tokb{\the\t@pgfplots@toka}%
+ }%
+ \endgroup
+ \let#2=\pgfplots@glob@TMPa
+}
+
+\def\pgfplotsaxisdeserializedatapointfrom@private@withdeplist#1{%
+ \pgfplotsaxisdeserializedatapointfrom@private@withdeplist@#1\pgfplots@EOI
+}%
+\def\pgfplotsaxisdeserializedatapointfrom@private@withdeplist@#1,{%
+ \pgfplotsaxisdeserializedatapointfrom@private@orig{#1}%
+ \pgfplotsaxisdeserializedatapointfrom@private@withdeplist@@
+}%
+\def\pgfplotsaxisdeserializedatapointfrom@private@withdeplist@@#1{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@EOI
+ \else
+ \afterassignment\pgfplotsaxisdeserializedatapointfrom@private@withdeplist@@
+ \expandafter\def\expandafter#1%
\fi
- %
- \def\pgfplots@loc@TMPa{\pgfkeyssetvalue{/pgfplots/mesh/rows}}%
- \expandafter\pgfplots@loc@TMPa\expandafter{\pgfplotsplothandlermesh@rows}%
- \def\pgfplots@loc@TMPa{\pgfkeyssetvalue{/pgfplots/mesh/cols}}%
- \expandafter\pgfplots@loc@TMPa\expandafter{\pgfplotsplothandlermesh@cols}%
+}%
+
+% PRECONDITION: must be called inside of
+% \pgfplots@PREPARE@COORD@STREAM@end@.
+%
+% POSTCONDITION:
+% assigns '/pgfplots/#1 coord sorting=[+-]'
+% i.e. whether #1 (x or y or z) coordinates are in ascending (+) ordering or in
+% descending order (-).
+\def\pgfplots@PREPARE@COORD@STREAM@end@determinecoordsorting#1{%
+ \pgfplotscoordmath{#1}{if less than}
+ {\csname pgfplots@currentplot@firstcoord@#1\endcsname}%
+ {\csname pgfplots@currentplot@lastcoord@#1\endcsname}%
+ {\pgfkeyssetvalue{/pgfplots/#1 coord sorting}{+}}%
+ {\pgfkeyssetvalue{/pgfplots/#1 coord sorting}{-}}%
}%
% Prepares a macro \pgfplots@PREPARE@process@errorbar@for@dir##1
@@ -3100,7 +4474,7 @@
\E\else
\E\let\E\pgfplots@current@point@@old\expandafter\E\csname pgfplots@current@point@#1\endcsname
\E\let\expandafter\E\csname pgfplots@current@point@#1\endcsname=\E\pgfplots@error@coord
- \E\pgfplots@update@limits@for@one@point
+ \E\pgfplotsaxisupdatelimitsforcoordinate\E\pgfplots@current@point@x\E\pgfplots@current@point@y\E\pgfplots@current@point@z
\E\let\expandafter\E\csname pgfplots@current@point@#1\endcsname=\E\pgfplots@current@point@@old
\E\edef\E\pgfplots@loc@TMPa{\the\t@pgfplots@toka}%
\E\expandafter\E\pgfplots@streamerrorbarcoords\E\pgfplots@loc@TMPa
@@ -3115,41 +4489,48 @@
\pgfplots@if{pgfplots@#1islinear}{%
\ifcase\csname pgfplots@errorbars@#1mode\endcsname\relax
% fixed absolute error.
- \pgfmathfloatparsenumber{\csname pgfplots@errorbars@#1fixed\endcsname}%
+ \pgfplotscoordmath{#1}{parsenumber}{\csname pgfplots@errorbars@#1fixed\endcsname}%
\expandafter\let\csname pgfplots@error@coord@#1\endcsname=\pgfmathresult
\expandafter\def\csname pgfplots@PREPARE@errorbar@process@#1@\endcsname##1{%
\if +##1%
- \pgfmathfloatadd@
- {\csname pgfplots@current@point@#1\endcsname}%
- {\csname pgfplots@error@coord@#1\endcsname}%
+ \def\pgfplots@loc@TMPb{add}%
\else
- \pgfmathfloatsubtract@
- {\csname pgfplots@current@point@#1\endcsname}%
- {\csname pgfplots@error@coord@#1\endcsname}%
+ \def\pgfplots@loc@TMPb{subtract}%
\fi
+ \pgfplotscoordmath{#1}{op}{\pgfplots@loc@TMPb}{%
+ {\csname pgfplots@current@point@#1\endcsname}%
+ {\csname pgfplots@error@coord@#1\endcsname}%
+ }%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
}%
\or% fixed relative error:
- \pgfmathfloatparsenumber{\csname pgfplots@errorbars@#1rel\endcsname}%
+ \pgfplotscoordmath{#1}{parsenumber}{\csname pgfplots@errorbars@#1rel\endcsname}%
\let\pgfplots@loc@TMPb=\pgfmathresult
%
% +1:
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{#1}{parsenumber}{1}%
\let\pgfplots@loc@TMPa=\pgfmathresult
%
% Prepare '1 + err':
- \pgfmathfloatadd@{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{#1}{op}{add}{%
+ {\pgfplots@loc@TMPa}%
+ {\pgfplots@loc@TMPb}%
+ }%
\expandafter\let\csname pgfplots@error@coord@#1@+\endcsname=\pgfmathresult
%
% Prepare '1 - err':
- \pgfmathfloatsubtract@{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{#1}{op}{subtract}{%
+ {\pgfplots@loc@TMPa}%
+ {\pgfplots@loc@TMPb}%
+ }%
\expandafter\let\csname pgfplots@error@coord@#1@-\endcsname=\pgfmathresult
%
\expandafter\def\csname pgfplots@PREPARE@errorbar@process@#1@\endcsname##1{%
- \pgfmathfloatmultiply@
+ \pgfplotscoordmath{#1}{op}{multiply}{%
{\csname pgfplots@current@point@#1\endcsname}
{\csname pgfplots@error@coord@#1@##1\endcsname}%
+ }%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
}%
@@ -3158,20 +4539,20 @@
\edef\pgfplots@error@coord{\csname pgfplots@current@point@#1@error\endcsname}%
\ifx\pgfplots@error@coord\pgfutil@empty
\else
- \pgfmathfloatparsenumber{\pgfplots@error@coord}%
+ \pgfplotscoordmath{#1}{parsenumber}{\pgfplots@error@coord}%
\let\pgfplots@error@coord=\pgfmathresult
% remember result here - will be used in case
% of '+' AND '-' error bars:
\expandafter\let\csname pgfplots@current@point@#1@error\endcsname=\pgfmathresult
\if +##1%
- \pgfmathfloatadd@
- {\csname pgfplots@current@point@#1\endcsname}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@TMPb{add}%
\else
- \pgfmathfloatsubtract@
- {\csname pgfplots@current@point@#1\endcsname}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@TMPb{subtract}%
\fi
+ \pgfplotscoordmath{#1}{op}{\pgfplots@loc@TMPb}{%
+ {\csname pgfplots@current@point@#1\endcsname}%
+ {\pgfplots@error@coord}%
+ }%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
\fi
@@ -3183,9 +4564,10 @@
\else
\pgfmathparse{1##1\pgfplots@error@coord}%
\let\pgfplots@error@coord=\pgfmathresult
- \pgfmathfloatmultiply@
+ \pgfplotscoordmath{#1}{multiply}{%
{\csname pgfplots@current@point@#1\endcsname}
{\pgfplots@error@coord}%
+ }%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
\fi
@@ -3204,52 +4586,58 @@
%
\ifcase\csname pgfplots@errorbars@#1mode\endcsname
% fixed absolute, log( x +- e_x )
- \pgfmathfloatparsenumber{\csname pgfplots@errorbars@#1fixed\endcsname}%
+ %
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@errorbars@#1fixed\endcsname}%
\expandafter\let\csname pgfplots@error@coord@#1\endcsname=\pgfmathresult
\expandafter\def\csname pgfplots@PREPARE@errorbar@process@#1@\endcsname##1{%
- \pgfmathfloatparsenumber{\csname pgfplots@current@point@#1@unfiltered\endcsname}%
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@current@point@#1@unfiltered\endcsname}%
\let\pgfplots@loc@TMPa=\pgfmathresult
\if +##1%
- \pgfmathfloatadd@
- {\pgfplots@loc@TMPa}%
- {\csname pgfplots@error@coord@#1\endcsname}%
+ \def\pgfplots@loc@op{add}%
\else
- \pgfmathfloatsubtract@
- {\pgfplots@loc@TMPa}%
- {\csname pgfplots@error@coord@#1\endcsname}%
+ \def\pgfplots@loc@op{subtract}%
\fi
- \csname pgfplotsmathlog@#1@float\endcsname{\pgfmathresult}%
+ \pgfplotscoordmath{default}{op}{\pgfplots@loc@op}{%
+ {\pgfplots@loc@TMPa}%
+ {\csname pgfplots@error@coord@#1\endcsname}%
+ }%
+ \pgfplotscoordmath{default}{tostring}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
}%
\or% fixed relative, log( x ( 1+-e_x ) ) = log(x) + log(1+-e_x)
- \pgfmathfloatparsenumber{\csname pgfplots@errorbars@#1rel\endcsname}%
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@errorbars@#1rel\endcsname}%
\let\pgfplots@loc@TMPb=\pgfmathresult
%
% +1:
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{default}{one}%
\let\pgfplots@loc@TMPa=\pgfmathresult
%
% Prepare '1 + err':
- \pgfmathfloatadd@{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}%
- \csname pgfplotsmathlog@#1@float\endcsname{\pgfmathresult}%
- \ifx\pgfmathresult\pgfutil@empty
+ \pgfplotscoordmath{default}{op}{add}{{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}}%
+ \pgfplotscoordmath{default}{tostring}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{if is bounded}{\pgfmathresult}{%
+ }{%
% 1 + err <= 0 and log(1+err) is undefined:
- \pgfmathfloattofixed{\pgfplots@loc@TMPb}%
- \pgfplots@error{Sorry, log(1+\pgfmathresult) is undefined. Please provide a different argument for '/pgfplots/error bar/#1 fixed relative'.}%
+ \pgfplotscoordmath{default}{tostring}{\pgfplots@loc@TMPb}%
+ \pgfplots@error{Sorry, log(1 + \pgfmathresult) is undefined. Please provide a different argument for '/pgfplots/error bar/#1 fixed relative'.}%
\let\pgfmathresult=\pgfutil@empty
- \fi
+ }%
\expandafter\let\csname pgfplots@error@coord@#1@+\endcsname=\pgfmathresult
%
% Prepare '1 - err':
- \pgfmathfloatsubtract@{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}%
- \csname pgfplotsmathlog@#1@float\endcsname{\pgfmathresult}%
- \ifx\pgfmathresult\pgfutil@empty
- % 1 + err <= 0 and log(1+err) is undefined:
- \pgfmathfloattofixed{\pgfplots@loc@TMPb}%
- \pgfplots@error{Sorry, log(1-\pgfmathresult) is undefined. Please provide a different argument for '/pgfplots/error bar/#1 fixed relative'.}%
+ \pgfplotscoordmath{default}{op}{subtract}{{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}}%
+ \pgfplotscoordmath{default}{tostring}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{if is bounded}{\pgfmathresult}{%
+ }{%
+ % 1 - err <= 0 and log(1+err) is undefined:
+ \pgfplotscoordmath{default}{tostring}{\pgfplots@loc@TMPb}%
+ \pgfplots@error{Sorry, log(1 - \pgfmathresult) (\pgfplots@loc@TMPa - \pgfplots@loc@TMPb) is undefined. Please provide a different argument for '/pgfplots/error bar/#1 fixed relative'.}%
\let\pgfmathresult=\pgfutil@empty
- \fi
+ }%
\expandafter\let\csname pgfplots@error@coord@#1@-\endcsname=\pgfmathresult
%
\expandafter\def\csname pgfplots@PREPARE@errorbar@process@#1@\endcsname##1{%
@@ -3268,23 +4656,24 @@
\edef\pgfplots@error@coord{\csname pgfplots@current@point@#1@error\endcsname}%
\ifx\pgfplots@error@coord\pgfutil@empty
\else
- \pgfmathfloatparsenumber{\pgfplots@error@coord}%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@error@coord}%
\let\pgfplots@error@coord=\pgfmathresult
% remember result here - will be used in case
% of '+' AND '-' error bars:
\expandafter\let\csname pgfplots@current@point@#1@error\endcsname=\pgfmathresult
- \pgfmathfloatparsenumber{\csname pgfplots@current@point@#1@unfiltered\endcsname}%
+ \pgfplotscoordmath{default}{parsenumber}{\csname pgfplots@current@point@#1@unfiltered\endcsname}%
\let\pgfplots@loc@TMPa=\pgfmathresult
\if +##1%
- \pgfmathfloatadd@
- {\pgfplots@loc@TMPa}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@op{add}%
\else
- \pgfmathfloatsubtract@
- {\pgfplots@loc@TMPa}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@op{subtract}%
\fi
- \csname pgfplotsmathlog@#1@float\endcsname{\pgfmathresult}%
+ \pgfplotscoordmath{default}{op}{\pgfplots@loc@op}{%
+ {\pgfplots@loc@TMPa}%
+ {\pgfplots@error@coord}%
+ }%
+ \pgfplotscoordmath{default}{tostring}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
\fi
@@ -3296,34 +4685,36 @@
\edef\pgfplots@error@coord{\csname pgfplots@current@point@#1@error\endcsname}%
\ifx\pgfplots@error@coord\pgfutil@empty
\else
- \pgfmathfloatparsenumber{\pgfplots@error@coord}%
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@error@coord}%
\let\pgfplots@error@coord=\pgfmathresult
% remember result here - will be used in case
% of '+' AND '-' error bars:
\expandafter\let\csname pgfplots@current@point@#1@error\endcsname=\pgfmathresult
%
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{default}{one}%
\let\pgfplots@loc@TMPa=\pgfmathresult
\if +##1%
- \pgfmathfloatadd@
- {\pgfplots@loc@TMPa}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@op{add}%
\else
- \pgfmathfloatsubtract@
- {\pgfplots@loc@TMPa}%
- {\pgfplots@error@coord}%
+ \def\pgfplots@loc@op{subtract}%
\fi
- \csname pgfplotsmathlog@#1@float\endcsname{\pgfmathresult}%
+ \pgfplotscoordmath{default}{op}{\pgfplots@loc@op}{%
+ {\pgfplots@loc@TMPa}%
+ {\pgfplots@error@coord}%
+ }%
+ \pgfplotscoordmath{default}{tostring}{\pgfmathresult}%
+ \pgfplotscoordmath{#1}{log}{\pgfmathresult}%
\let\pgfplots@error@coord=\pgfmathresult
- \ifx\pgfplots@error@coord\pgfutil@empty
- % -> log( <= 0 ) -> do nothing.
- \else
- \pgfmath@basic@add@
+ \pgfplotscoordmath{#1}{if is bounded}{\pgfmathresult}{%
+ \pgfplotscoordmath{#1}{op}{add}{%
{\csname pgfplots@current@point@#1\endcsname}
{\pgfplots@error@coord}%
+ }%
\let\pgfplots@error@coord=\pgfmathresult
\csname pgfplots@PREPARE@errorbar@stream@it@#1\endcsname
- \fi
+ }{%
+ % -> log( <= 0 ) -> do nothing.
+ }%
\fi
}%
%
@@ -3366,107 +4757,134 @@
% If there is no data range (for example because meta information is
% not available or is not of numeric type), the trafo will simply
% copy the input argument symbolically.
+%
+% Note: it does not hurt to call it multiple times. It checks automatically whether it already is up-to-date.
\def\pgfplots@perpointmeta@preparetrafo{%
- \let\pgfplots@current@point@meta=\pgfutil@empty
- \pgfutil@ifundefined{pgfplots@metamax}{\let\pgfplots@metamax=\pgfutil@empty}{}
- \ifpgfplots@warn@for@filter@discards
- \global\let\pgfplots@perpointmeta@unboundedwarning@stop=\relax
- \def\pgfplots@perpointmeta@unboundedwarning##1{%
- \ifx\pgfplots@perpointmeta@unboundedwarning@stop\relax
- \begingroup
- \pgfmathfloattofixed{##1}%
- \pgfplots@warning{The per point meta data `\pgfmathresult' (##1) (and probably others as well) is unbounded - using the minimum value instead.}%
- \endgroup
- \gdef\pgfplots@perpointmeta@unboundedwarning@stop{1}%
- \fi
- }%
- \else
- \def\pgfplots@perpointmeta@unboundedwarning##1{}%
- \fi
- \if m\pgfplots@colormap@access
- % colormap access=map
- \ifx\pgfplots@metamax\pgfutil@empty
- \def\pgfplots@perpointmeta@trafo##1{%
- \pgfmathfloatiffinite{##1}{%
- \pgfmathfloattofixed@{##1}%
- }{%
- \def\pgfmathresult{0}%
- \pgfplots@perpointmeta@unboundedwarning{##1}%
- }%
+ \def\pgfplotspointmetarangeexponent{1}% pre-fill
+ \pgfutil@ifundefined{pgfplots@perpointmeta@trafo}{%
+ \let\pgfplots@current@point@meta=\pgfutil@empty
+ \pgfutil@ifundefined{pgfplots@metamax}{\let\pgfplots@metamax=\pgfutil@empty}{}
+ \ifpgfplots@warn@for@filter@discards
+ \global\let\pgfplots@perpointmeta@unboundedwarning@stop=\relax
+ \def\pgfplots@perpointmeta@unboundedwarning##1{%
+ \ifx\pgfplots@perpointmeta@unboundedwarning@stop\relax
+ \begingroup
+ \pgfplotscoordmath{meta}{tostring}{##1}%
+ \pgfplots@warning{The per point meta data `\pgfmathresult' (##1) (and probably others as well) is unbounded - using the minimum value instead.}%
+ \endgroup
+ \gdef\pgfplots@perpointmeta@unboundedwarning@stop{1}%
+ \fi
}%
- \def\pgfplots@perpointmeta@traforange{0:1000}%
- \edef\pgfplotspointmetarange{0:1000}%
\else
- % The transformation is
- %
- % phi(m) = ( m- meta_min) * 1000/ (meta_max-meta_min).
- %
- % -> precompute the scaling factor!
- \edef\pgfplots@loc@TMPa{\pgfplotscolormaprange}%
- \ifnum\pgfplots@loc@TMPa=1000
- \else
- \pgfplots@error{LOGIC ERROR: sorry, I have hard-coded the assumption \string\pgfplotscolormaprange = 1000, but now it is \pgfplots@loc@TMPa.}%
- \fi
- \if\pgfplots@perpointmeta@rel@choice0%
- % point meta rel=axis wide:
- \edef\pgfplotspointmetarange{\pgfplots@axiswide@metamin:\pgfplots@axiswide@metamax}%
- % Now, prepare the trafo as such.
- % It assigns \pgfmathresult (in fixed point).
+ \def\pgfplots@perpointmeta@unboundedwarning##1{}%
+ \fi
+ \if m\pgfplots@colormap@access
+ % colormap access=map
+ \ifx\pgfplots@metamax\pgfutil@empty
\def\pgfplots@perpointmeta@trafo##1{%
- \pgfmathfloatiffinite{##1}{%
- \pgfmathfloatsubtract@{##1}{\pgfplots@axiswide@metamin}%
- \expandafter\pgfmathfloatmultiply@\expandafter{\pgfmathresult}{\pgfplots@perpointmeta@trafo@factor}%
- \expandafter\pgfmathfloattofixed@\expandafter{\pgfmathresult}%
- }{%
+ \pgfplotscoordmath{meta}{if is}{##1}{u}
+ {%
\def\pgfmathresult{0}%
\pgfplots@perpointmeta@unboundedwarning{##1}%
- }%
- }%
- \pgfmathfloatsubtract@{\pgfplots@axiswide@metamax}{\pgfplots@axiswide@metamin}%
- \else
- % point meta rel=per plot:
- \edef\pgfplotspointmetarange{\pgfplots@metamin:\pgfplots@metamax}%
- % Now, prepare the trafo as such.
- % It assigns \pgfmathresult (in fixed point).
- \def\pgfplots@perpointmeta@trafo##1{%
- \pgfmathfloatiffinite{##1}{%
- \pgfmathfloatsubtract@{##1}{\pgfplots@metamin}%
- \expandafter\pgfmathfloatmultiply@\expandafter{\pgfmathresult}{\pgfplots@perpointmeta@trafo@factor}%
- \expandafter\pgfmathfloattofixed@\expandafter{\pgfmathresult}%
}{%
- \def\pgfmathresult{0}%
- \pgfplots@perpointmeta@unboundedwarning{##1}%
+ \pgfplotscoordmath{meta}{tofixed}{##1}%
}%
}%
- \pgfmathfloatsubtract@{\pgfplots@metamax}{\pgfplots@metamin}%
+ \def\pgfplots@perpointmeta@traforange{0:1000}%
+ \edef\pgfplotspointmetarange{0:1000}%
+ \else
+ % The transformation is
+ %
+ % phi(m) = ( m- meta_min) * 1000/ (meta_max-meta_min).
+ %
+ % -> precompute the scaling factor!
+ \edef\pgfplots@loc@TMPa{\pgfplotscolormaprange}%
+ \ifnum\pgfplots@loc@TMPa=1000
+ \else
+ \pgfplots@error{LOGIC ERROR: sorry, I have hard-coded the assumption \string\pgfplotscolormaprange = 1000, but now it is \pgfplots@loc@TMPa.}%
+ \fi
+ \if\pgfplots@perpointmeta@rel@choice0%
+ % point meta rel=axis wide:
+ \pgfplots@perpointmeta@preparetrafo@initfrom{pgfplots@axiswide@}%
+ \else
+ \pgfplots@perpointmeta@preparetrafo@initfrom{pgfplots@}%
+ \fi
\fi
- \let\pgfplots@loc@TMPa=\pgfmathresult
- \pgfmathfloatcreate{1}{1.0}{3}%
- \expandafter\pgfmathfloatdivide@\expandafter{\pgfmathresult}{\pgfplots@loc@TMPa}%
- \let\pgfplots@perpointmeta@trafo@factor=\pgfmathresult
- %
- % Expands to the transformation range as 'a:b':
- \def\pgfplots@perpointmeta@traforange{0:1000}%
- \fi
- \else
- % colormap access=direct
- \def\pgfplots@perpointmeta@trafo##1{
- \pgfmathfloatiffinite{##1}{%
- \pgfmathfloattofixed@{##1}%
- }{%
- \def\pgfmathresult{0}%
- \pgfplots@perpointmeta@unboundedwarning{##1}%
+ \else
+ % colormap access=direct
+ \def\pgfplots@perpointmeta@trafo##1{%
+ \pgfplotscoordmath{meta}{if is}{##1}{u}{%
+ \def\pgfmathresult{0}%
+ \pgfplots@perpointmeta@unboundedwarning{##1}%
+ }{%
+ \pgfplotscoordmath{meta}{tofixed}{##1}%
+ }%
}%
- }%
- \def\pgfplots@perpointmeta@traforange{0:0}%
- \edef\pgfplotspointmetarange{\pgfplots@metamin:\pgfplots@metamax}%
- \fi
- \edef\pgfplotspointmetatransformedrange{\pgfplots@perpointmeta@traforange}%
+ \def\pgfplots@perpointmeta@traforange{0:0}%
+ \edef\pgfplotspointmetarange{\pgfplots@metamin:\pgfplots@metamax}%
+ \fi
+ \edef\pgfplotspointmetatransformedrange{\pgfplots@perpointmeta@traforange}%
+ }{}%
}%
-\def\pgfplots@perpointmeta@trafo@APPLY{%
+
+% Employs \csname #1metamin\endcsname and its metamax counterpart to
+% initialize the trafo.
+%
+% This unifies the approaches for \pgfplots@axiswide@metamax and
+% \pgfplots@metamax.
+\def\pgfplots@perpointmeta@preparetrafo@initfrom#1{%
+ \edef\pgfplotspointmetarange{\csname #1metamin\endcsname:\csname #1max\endcsname}%
+ % Now, prepare the trafo as such.
+ % It assigns \pgfmathresult (in fixed point).
+ \def\pgfplots@perpointmeta@trafo##1{%
+ \pgfplotscoordmath{meta}{if is}{##1}{u}{%
+ \def\pgfmathresult{0}%
+ \pgfplots@perpointmeta@unboundedwarning{##1}%
+ }{%
+ \pgfplotscoordmath{meta}{op}{subtract}{{##1}{\csname #1metamin\endcsname}}%
+ \pgfplotscoordmath{meta}{op}{multiply}{{\pgfmathresult}{\pgfplots@perpointmeta@trafo@factor}}%
+ \pgfplotscoordmath{meta}{tofixed}{\pgfmathresult}%
+ }%
+ }%
+ \pgfplotscoordmath{meta}{op}{subtract}{{\csname #1metamax\endcsname}{\csname #1metamin\endcsname}}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{meta}{parsenumber}{1000}%
+ \pgfplotscoordmath{meta}{op}{divide}{{\pgfmathresult}{\pgfplots@loc@TMPa}}%
+ \let\pgfplots@perpointmeta@trafo@factor=\pgfmathresult
+ %
+ % Expands to the transformation range as 'a:b':
+ \def\pgfplots@perpointmeta@traforange{0:1000}%
+ %
+ \expandafter\let\expandafter\pgfplots@loc@TMPa\csname #1metamax\endcsname
+ \pgfplotscoordmath{meta}{tostring}{\pgfplots@loc@TMPa}%
+ \pgfmathfloatparsenumber\pgfmathresult
+ \pgfmathfloatgetexponent\pgfmathresult\c@pgf@countd
+ \edef\pgfplotspointmetarangeexponent{\the\c@pgf@countd}%
+}
+
+% A command which is readily available during the visualization phase of each plot.
+%
+% It takes existing point meta data and transforms it, i.e. it defines
+% \pgfplotspointmetatransformed.
+%
+% The command won't be invoked automatically, it is task of a plot
+% handler to decide if it is needed. It's application is relatively
+% fast, however.
+%
+% PRECONDITION:
+% - point meta has been set up during the survey phase (i.e. the
+% /pgfplots/point meta!=none),
+% - there *is* point meta data for the current data point.
+%
+% POSTCONDITION:
+% - the macros \pgfplotspointmeta and \pgfplotspointmetatransformed
+% are defined.
+%
+% @see also \pgfplotsaxisifhaspointmeta
+\def\pgfplotsaxisvisphasetransformpointmeta{%
\ifx\pgfplots@current@point@meta\pgfutil@empty%
\pgfplots@error{could not access the 'point meta' (used for example by scatter plots and color maps). Maybe you need to add '\string\addplot[point meta=y]' or something like that?}%
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{meta}{one}%
\let\pgfplotspointmeta=\pgfmathresult
\def\pgfplotspointmetatransformed{1.0}%
\else
@@ -3536,7 +4954,11 @@
\pgfplots@error{Sorry, I could not read the plot coordinates near '#1'. Please check for format mistakes.}%
}%
\long\def\pgfplots@foreach@plot@coord@ITERATE@gobbleone#1{\pgfplots@foreach@plot@coord@ITERATE}%
-\def\pgfplots@foreach@plot@coord@NEXT(#1,#2){%
+\def\pgfplots@foreach@plot@coord@NEXT(#1){%
+ \edef\pgfmathresult{#1}%
+ \expandafter\pgfplots@foreach@plot@coord@NEXT@\expandafter(\pgfmathresult)%
+}
+\def\pgfplots@foreach@plot@coord@NEXT@(#1,#2){%
\ifpgfplots@plot@coords@mathparser
\pgfmathparse{#1}\let\pgfplots@current@point@x=\pgfmathresult
\pgfmathparse{#2}\let\pgfplots@current@point@y=\pgfmathresult
@@ -3613,7 +5035,11 @@
}%
}
\long\def\pgfplots@foreach@plot@coord@threedim@ITERATE@gobbleone#1{\pgfplots@foreach@plot@coord@threedim@ITERATE}%
-\def\pgfplots@foreach@plot@coord@threedim@NEXT(#1,#2,#3){%
+\def\pgfplots@foreach@plot@coord@threedim@NEXT(#1){%
+ \edef\pgfmathresult{#1}%
+ \expandafter\pgfplots@foreach@plot@coord@threedim@NEXT@\expandafter(\pgfmathresult)%
+}
+\def\pgfplots@foreach@plot@coord@threedim@NEXT@(#1,#2,#3){%
\ifpgfplots@plot@coords@mathparser
\pgfmathparse{#1}\let\pgfplots@current@point@x=\pgfmathresult
\pgfmathparse{#2}\let\pgfplots@current@point@y=\pgfmathresult
@@ -3668,42 +5094,168 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
%
-% The same in normalized coordinates of the form
-% x1,y1,z1,m1;x2,y2,z2,m2;...;xN,yN,zN,mN;
-% if the plot is not threedim, zi is empty.
+% A coordinate stream which works like this:
+%
+% -------------
+% \pgfplots@coord@stream@start
+%
+% foreach encoded coordinate:
+% \def\pgfplots@coord@stream@foreach@NORMALIZED@curencoded{<encoded data>}%
+% \def\pgfplots@coord@stream@foreach@NORMALIZED@curencoded@braced{{<encoded data>}}% note the extra braces.
+% \pgfplotsaxisdeserializedatapointfrom{<encoded data>}
+% \pgfplots@coord@stream@coord
%
-% The mi are Meta Values associated to point coordinates. They are
-% usually empty, but can be used to realize per-point marker
-% modifications (scatter plots, especially for colormaps).
+% \pgfplots@coord@stream@end
+% -------------
+%
+% The format of #1 is
+% {<datapoint>}{<datapoint>}...{<datapoint>}
+% Each data point is decoded with
+% \pgfplotsaxisserializedatapoint
+% and then, \pgfplots@coord@stream@coord will be called.
\long\def\pgfplots@coord@stream@foreach@NORMALIZED#1{%
\pgfplots@coord@stream@start
- \pgfplots@foreach@plot@coord@NORMALIZED@ITERATE#1\pgfplots@EOI
+ \pgfplotscoordstream@firstlast@init
+ \pgfplots@foreach@plot@coord@NORMALIZED@ITERATE#1\pgfplots@EOI%
\pgfplots@coord@stream@end
}%
-
-% A looping command to loop through plot coordinates.
-% For every point, #1{X}{Y} will be invoked.
-%
% No scoping is used during this operation, so you can access outer
% variables.
-\def\pgfplots@foreach@plot@coord@NORMALIZED@ITERATE{%
- \pgfutil@ifnextchar\pgfplots@EOI{%
- \pgfplots@foreach@plot@coord@FINISH%
- }{%
- \pgfplots@foreach@plot@coord@NORMALIZED@NEXT%
- }%
+\def\pgfplots@foreach@plot@coord@NORMALIZED@ITERATE#1{%
+ \def\pgfplots@coord@stream@foreach@NORMALIZED@curencoded{#1}%
+ \ifx\pgfplots@coord@stream@foreach@NORMALIZED@curencoded\pgfplots@EOI
+ \else
+ \def\pgfplots@coord@stream@foreach@NORMALIZED@curencoded@braced{{#1}}%
+ \pgfplotsaxisdeserializedatapointfrom{#1}%
+ \pgfplots@coord@stream@coord
+ \pgfplotscoordstream@firstlast@update
+ \expandafter\pgfplots@foreach@plot@coord@NORMALIZED@ITERATE
+ \fi
}
-\def\pgfplots@foreach@plot@coord@NORMALIZED@NEXT#1,#2,#3,#4;{%
- \def\pgfplots@current@point@x{#1}%
- \def\pgfplots@current@point@y{#2}%
- \def\pgfplots@current@point@z{#3}%
- \def\pgfplots@current@point@meta{#4}%
- \pgfplots@coord@stream@coord
- \pgfplots@foreach@plot@coord@NORMALIZED@ITERATE
+
+
+% A common routine which resets internal data structures for the
+% survey phase, i.e. it is the shared implementation for all \addplot
+% variations.
+%
+% It takes all options which are provided to \addplot, sets them (at
+% least partially) and remembers them for the command serialization.
+%
+% #1: arguments to \addplot plot[#1]
+% -> these are called 'behavior' options in the manual; they are set
+% immediately.
+%
+% PRECONDITION:
+% \pgfplots@addplotimpl@plot@withoptions has already been invoked
+%
+% POSTCONDITION:
+% - internal datastructures are initialised (coordinate indexing, fpu)
+% - all keys which are required for the current plot are determined
+% (and set if necessary).
+% They are stored into
+% \pgfplots@addplot@survey@@optionlist.
+%
+\def\pgfplots@start@plot@with@behavioroptions#1{%
+ %\begingroup%<-- has been moved to \pgfplots@addplotimpl@plot@withoptions
+ \c@pgfplots@coordindex=0
+ \def\pgfplots@current@point@coordindex{\the\c@pgfplots@coordindex}% can be used inside of coordinate filters.
+ \def\coordindex{\pgfplots@current@point@coordindex}% valid inside of \addplot
+ \def\pgfplots@addplot@running{1}%
+ %
+ \def\pgfplots@colorbar@set@src{0}%
+ \pgfkeysdef{/pgfplots/colorbar source}{%
+ \pgfplotsutilifstringequal{##1}{true}{%
+ \def\pgfplots@colorbar@set@src{1}%
+ }{%
+ \pgfplotsutilifstringequal{##1}{false}{%
+ \def\pgfplots@colorbar@set@src{0}%
+ }{%
+ \pgfplots@error{Sorry, I don't know the value `colorbar source={##1}' and I am going to ignore it. Maybe you misspelled it?}%
+ }%
+ }%
+ }%
+ %
+ % these styles may contain behavior options (error bars,
+ % samples,... ) activate them!
+ %
+ % As of february 20, 2009, #1 will contain BOTH, /pgfplots
+ % and /tikz options. The /tikz ones are primarily for drawing
+ % and are UNIMPORTANT at this stage of processing.
+ % In fact, transparency etc. will only confuse everything.
+ %
+ % So: ignore them and set only /pgfplots keys here:
+ % This may actually redefine styles, for example
+ % \addplot[every mark/.append style={}] will use
+ % /pgfplots/every mark/.append style.
+ % But that doesn't hurt here.
+ %
+ % there are some exceptions like /tikz/id etc. These
+ % exceptions need special styles in the /pgfplots root - or I
+ % need to change the .unknown handler. See the available
+ % compatibility styles!
+ %
+% \pgfkeysdef{/pgfplots/.unknown}{%
+%\message{In \string\addplot[#1]: I am silently ignoring key `\pgfkeyscurrentkeyRAW' during the preparation phase.}%
+% }%
+ % ATTENTION:
+ % as of january 30, 2010, I will set /tikz keys as well. This won't hurt
+ % too much, I hope... there are no graphics operations anyway. But it *is*
+ % necessary since I *need* the plot handler for the new version. And the plot
+ % handler is, most likely, a /tikz key.
+ %
+ % it is possible that '#1' contains 'forget plot'. So, we need to
+ % set the options before checking \ifpgfplots@curplot@isirrelevant:
+ \pgfplotsset{/pgfplots/every axis plot,#1}%
+ %
+ \ifpgfplots@curplot@isirrelevant
+ \def\pgfplots@addplot@survey@@optionlist{/pgfplots/every axis plot,/pgfplots/every forget plot}%
+ \pgfplotsset{/pgfplots/every forget plot,/pgfplots/every axis plot post}%
+ \else
+ \edef\pgfplots@addplot@survey@@optionlist{/pgfplots/every axis plot,/pgfplots/every axis plot no \the\pgfplots@numplots/.try}%
+ \pgfplotsset{/pgfplots/every axis plot no \the\pgfplots@numplots/.try,/pgfplots/every axis plot post}%
+ \fi
+ %
+ % enable FPU after any \pgfplotsset operations. Otherwise things like
+ % linewidth=... which use the math parser might fail.
+ \ifpgfplots@usefpu
+ \pgfkeys{/pgf/fpu=true}%
+ \fi
+ %
+ % make sure it is reset, just in case it is not supported by the
+ % input method.
+ \pgfplotsscanlinelengthinitzero
+ %
+ \pgfplots@getcurrent@plothandler\pgfplots@basiclevel@plothandler
+ \pgfplotsresetplothandler
+ \pgfplots@basiclevel@plothandler
+ %
+ \pgfplots@countplots@init
+ %
+ % hooks:
+ \pgfkeysvalueof{/pgfplots/execute at begin plot@@}%
+ \pgfkeysvalueof{/pgfplots/execute at begin plot}%
+ %
+ \if1\pgfplots@colorbar@set@src
+ \expandafter\def\expandafter\pgfplots@addplot@survey@@optionlist\expandafter{\pgfplots@addplot@survey@@optionlist,%
+ /pgfplots/point meta rel=per plot}%
+ \fi
+ %
+ \t@pgfplots@tokc=\expandafter{\pgfplots@addplot@survey@@optionlist,#1}% this allows '#' inside of '#1'
+ \edef\pgfplots@addplot@survey@@optionlist{\the\t@pgfplots@tokc}%
+ %
+ %
+ \pgfplots@validate@plot@domain@arguments
}
+\long\def\pgfplotsplothandlersurveyaddoptions#1{%
+ \pgfplotsset{/pgfplots/execute at end survey/.add={}{%
+ \t@pgfplots@tokc=\expandafter{\pgfplots@addplot@survey@@optionlist,#1}% this allows '#' inside of '#1'
+ \edef\pgfplots@addplot@survey@@optionlist{\the\t@pgfplots@tokc}%
+ },%
+ #1%
+ }%
+}%
-\newif\ifpgfplots@curplot@threedim
% The main interface to draw a plot into an axis.
%
@@ -3775,56 +5327,54 @@
}%
}
-\long\def\pgfplots@addplotimplAPPEND+[{%
+\def\pgfplots@addplotimplAPPEND+{\pgfutil@ifnextchar[{\pgfplots@addplotimplAPPEND@}{\pgfplots@addplotimplAPPEND@[]}}% this allows to gobble spaces and to skip the '[]'
+\def\pgfplots@addplotimplAPPEND@[{%
\expandafter\pgfplots@addplotimpl\expandafter[\nextplotspec,%
}
\long\def\pgfplots@addplotimpl[#1]{%
- \pgfutil@ifnextchar p{%
+ \pgfplotsutil@ifnextchar p{%
\pgfplots@addplotimpl@plot{#1}%
}{%
\pgfplots@addplotimpl@plot{#1}plot
}%
}
-\def\pgfplots@addplotimpl@plot#1plot{%
- \pgfutil@ifnextchar[{%
+\long\def\pgfplots@addplotimpl@plot#1plot{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@plot@withoptions{#1}%
}{%
\pgfplots@addplotimpl@plot@withoptions{#1}[]%
}%
}
-\def\pgfplots@addplotimpl@plot@withoptions#1[#2]{
+\long\def\pgfplots@addplotimpl@plot@withoptions#1[#2]{
\begingroup% <-- This groups ends in \pgfplots@end@plot
%
- % make sure it is reset, just in case it is not supported by the
- % input method.
- \pgfplotsscanlinelengthinitzero
- %
- \pgfutil@ifnextchar c{%
+ \pgfplotsutil@ifnextchar c{%
\pgfplots@addplotimpl@coordinates{#1}{#2}plot
}{%
- \pgfutil@ifnextchar f{%
+ \pgfplotsutil@ifnextchar f{%
\pgfplots@addplotimpl@f{#1}{#2}%
}{%
- \pgfutil@ifnextchar t{%
+ \pgfplotsutil@ifnextchar t{%
+ \def\pgfplotssurveyphaseinputclass{table}%
\pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2}%
\pgfplots@addplotimpl@table{#1,#2}%
}{%
- \pgfutil@ifnextchar ({%
+ \pgfplotsutil@ifnextchar ({%
\pgfplots@addplotimpl@expression{#1}{#2}%
}{%
- \pgfutil@ifnextchar\bgroup{%
+ \pgfplotsutil@ifnextchar\bgroup{%
\pgfplots@addplotimpl@expression@curly{#1}{#2}%
}{%
- \pgfutil@ifnextchar e{%
+ \pgfplotsutil@ifnextchar e{%
\pgfplots@addplotimpl@expression@e{#1}{#2}%
}{%
- \pgfutil@ifnextchar g{%
+ \pgfplotsutil@ifnextchar g{%
\pgfplots@addplotimpl@g{#1}{#2}%
}{%
- \pgfutil@ifnextchar s{%
+ \pgfplotsutil@ifnextchar s{%
\pgfplots@addplotimpl@shell{#1}{#2}%
}{%
@@ -3839,8 +5389,8 @@
}%
}%
}
-\def\pgfplots@addplotimpl@f#1#2f{%
- \pgfutil@ifnextchar i{%
+\long\def\pgfplots@addplotimpl@f#1#2f{%
+ \pgfplotsutil@ifnextchar i{%
\pgfplots@addplotimpl@file{#1}{#2}%
}{%
\pgfplots@addplotimpl@function{#1}{#2}%
@@ -3902,9 +5452,32 @@
\edef\pgfplots@plot@var@y{\expandafter\noexpand\csname \pgfplots@plot@var@y\endcsname}%
\fi
%
- % Check if we have to sample a line.
- \def\b@pgfplots@should@sample@LINE{0}%
- \ifpgfplots@curplot@threedim
+ % Check if we have to sample a line or a matrix.
+ %
+ \pgfkeysgetvalue{/pgfplots/sample dim}\pgfplots@loc@TMPa
+ \def\pgfplots@loc@TMPb{auto}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \ifpgfplots@curplot@threedim
+ \def\b@pgfplots@should@sample@LINE{0}%
+ \else
+ \def\b@pgfplots@should@sample@LINE{1}%
+ \fi
+ \else
+ \ifcase\pgfplots@loc@TMPa\relax
+ % sample dim=0 not useful!?
+ \def\b@pgfplots@should@sample@LINE{1}%
+ \or
+ \def\b@pgfplots@should@sample@LINE{1}%
+ \or
+ \def\b@pgfplots@should@sample@LINE{0}%
+ \else
+ \pgfplots@error{Sorry, sample dim=\pgfplots@loc@TMPa\space is unsupported (use either 1 or 2)}%
+ \fi
+ \fi
+ %
+ \if0\b@pgfplots@should@sample@LINE
+ % sample a matrix. Check the keys; if they are one
+ % dimensional, switch back to line sampling:
\pgfkeysgetvalue{/pgfplots/y domain}{\pgfplots@plot@ydomain}%
\edef\pgfplots@plot@ydomain{\pgfplots@plot@ydomain}%
\def\pgfplots@loc@TMPa{0:0}%
@@ -3932,7 +5505,10 @@
\pgfkeyssetvalue{/pgfplots/mesh/rows}{\pgfkeysvalueof{/pgfplots/samples y}}%
\pgfkeyssetvalue{/pgfplots/mesh/cols}{\pgfkeysvalueof{/pgfplots/samples}}%
\if1\b@pgfplots@should@sample@LINE
+ \pgfkeyssetvalue{/pgfplots/sample dim}{1}%
\pgfkeyssetvalue{/pgfplots/mesh/cols}{1}%
+ \else
+ \pgfkeyssetvalue{/pgfplots/sample dim}{2}%
\fi
%
}%
@@ -3945,7 +5521,8 @@
\long\def\pgfplots@addplotimpl@expression#1#2(#3,#4)#5;{\pgfplots@addplotimpl@expression@{#1}{#2}{#3}{#4}{#5}}%
% \addplot[#1] [#2] (#3,#4) #5;
\long\def\pgfplots@addplotimpl@expression@#1#2#3#4#5{%
- \pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2,/pgfplots/mesh/ordering/x varies}%
+ \def\pgfplotssurveyphaseinputclass{expression}%
+ \pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2,/pgfplots/mesh input=lattice,/pgfplots/mesh/ordering/x varies}%
\pgfplots@plot@expression@preparekeys
%
\pgfplots@PREPARE@COORD@STREAM{#5}%
@@ -4008,7 +5585,11 @@
% macro:
\edef\pgfplots@plot@data##1{%
\noexpand\pgfplotsforeachungrouped\expandafter\noexpand\pgfplots@plot@var@y in {\pgfplots@expression@ydomain}
- {\noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {##1}}}%
+ {%
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {##1}%
+ \noexpand\pgfplotsplothandlernotifyscanlinecomplete
+ }%
+ }%
\else
% sample a line:
\def\pgfplots@plot@ydomain{0:0}%
@@ -4044,6 +5625,7 @@
\fi
\fi
\if\pgfplots@samples@logarithmically1%
+ \def\pgfplotsforeachlogarithmicmathid{x}% use \pgfplotscoordmath{x}
% sample logarithmically:
\edef\pgfplots@plot@data##1{%
\noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples]
@@ -4114,6 +5696,11 @@
\let\pgfplots@addplotimpl@expression@pseudoconst@y=\pgfmathy@
%
%
+ % Warning for use fpu=false: evaluation '\x^3' might be different from 'x^3' for
+ % negative arguments:
+ % \x^3 ---> -0.2^3 but x^3 = (-0.2)^3 .
+ % This does not happen for use fpu=true.
+ %
\pgfplots@plot@data{%
\let\pgfmathx@=\pgfplots@addplotimpl@expression@pseudoconst@x
\let\pgfmathy@=\pgfplots@addplotimpl@expression@pseudoconst@y
@@ -4151,13 +5738,14 @@
}%
\expandafter\pgfplots@loc@TMPa\pgfplots@loc@TMPb{#4}%
\else
- \def\pgfplots@loc@TMPa{\pgfplots@addplotimpl@expression@{#1}{#2}}%
+ \t@pgfplots@tokc={\pgfplots@addplotimpl@expression@{#1}{#2}}%
+ \def\pgfplots@loc@TMPa{\the\t@pgfplots@tokc}% this construction allows '#' in either '#1' or '#2'
\expandafter\pgfplots@loc@TMPa\expandafter{\tikz@plot@var}{#3}{#4}%
\fi
}%
% \addplot[#1] [#2] expression[#3] {#4} #5;
\def\pgfplots@addplotimpl@expression@e#1#2expression{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@expression@e@{#1}{#2}%
}{%
\pgfplots@addplotimpl@expression@e@{#1}{#2}[]%
@@ -4184,7 +5772,7 @@
\xdef\pgfplots@gnuplot@format{set format "%.7e";}
}
\def\pgfplots@addplotimpl@g#1#2g{%
- \pgfutil@ifnextchar r{%
+ \pgfplotsutil@ifnextchar r{%
\pgfplots@addplotimpl@graphics{#1}{#2}%
}{%
\pgfplots@addplotimpl@gnuplot{#1}{#2}%
@@ -4196,7 +5784,7 @@
% \addplot[#1] plot[#2] function[#3] {#4} #5;
\def\pgfplots@addplotimpl@function#1#2unction{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@function@opt{#1}{#2}%
}{%
\pgfplots@addplotimpl@function@opt{#1}{#2}[]%
@@ -4207,6 +5795,7 @@
\def\pgfplots@addplotimpl@function@opt@#1#2#3#4#5{%
% FIXME : what about the key search paths if the user changes
% them!?
+ \def\pgfplotssurveyphaseinputclass{gnuplot}%
\pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2,/pgfplots/.cd,#3,/pgfplots/mesh/ordering/x varies}%
%
\pgfplots@gettikzinternal@keyval{prefix}{tikz@plot@prefix}{\jobname.}%
@@ -4271,6 +5860,7 @@
\expandafter\def\expandafter\pgfplots@gnuplot@logdirs\expandafter{\pgfplots@gnuplot@logdirs z}%
\fi
\fi
+ %
\ifpgfplots@curplot@threedim
\if1\b@pgfplots@should@sample@LINE
\pgfplots@error{Sorry, I do not know how to sample 3D LINE plots with gnuplot... I only know 2D line and 3D mesh. You may want to help the author of pgfplots to improve this feature.}%
@@ -4395,7 +5985,7 @@
% \addplot[#1] plot[#2] shell[#3] {#4} #5;
\def\pgfplots@addplotimpl@shell#1#2shell{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@shell@opt{#1}{#2}%
}{%
\pgfplots@addplotimpl@shell@opt{#1}{#2}[]%
@@ -4404,6 +5994,7 @@
\def\pgfplots@addplotimpl@shell@opt#1#2[#3]#4#5;{\pgfplots@addplotimpl@shell@opt@{#1}{#2}{#3}{#4}{#5}}%
% \addplot[#1] [#2] shell[#3] {#4} #5;
\def\pgfplots@addplotimpl@shell@opt@#1#2#3#4#5{%
+ \def\pgfplotssurveyphaseinputclass{shell}%
\pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2,/pgfplots/.cd,#3}%
\pgfplots@gettikzinternal@keyval{prefix}{tikz@plot@prefix}{\jobname.}%
\pgfplots@gettikzinternal@keyval{id}{tikz@plot@id}{pgf-shell}%
@@ -4440,7 +6031,7 @@
% \addplot[#1] [#2] file{#3} #4;
\def\pgfplots@addplotimpl@file#1#2ile{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@file@opt{#1}{#2}%
}{%
\pgfplots@addplotimpl@file@opt{#1}{#2}[]%
@@ -4452,6 +6043,7 @@
\def\pgfplots@addplotimpl@file@opt@#1#2#3#4#5{%
% invoke this here - allows to share the 'plot file' impl with
% 'plot gnuplot'.
+ \def\pgfplotssurveyphaseinputclass{file}%
\pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2}%
\pgfplots@addplotimpl@file@opt@@{#1,#2}{#3}{#4}{#5}%
}
@@ -4463,13 +6055,18 @@
\pgfqkeys{/pgfplots/plot file}{#2}%
\fi
\pgfplots@PREPARE@COORD@STREAM{#4}%
+ \pgfplots@addplotimpl@file@streamit{#3}%
+ \endgroup
+}%
+% #1: the file name
+\def\pgfplots@addplotimpl@file@streamit#1{%
\pgfplots@coord@stream@start
\pgfplotsscanlinelengthinitzero
- \openin\r@pgfplots@reada=#3
+ \openin\r@pgfplots@reada=#1
\ifeof\r@pgfplots@reada
- \pgfplots@error{sorry, plot file{#3} could not be opened}%
+ \pgfplots@error{sorry, plot file{#1} could not be opened}%
\else
- \pgfplots@logfileopen{#3}%
+ \pgfplots@logfileopen{#1}%
\let\pgfplots@current@point@x@error=\pgfutil@empty
\let\pgfplots@current@point@y@error=\pgfutil@empty
\let\pgfplots@current@point@z@error=\pgfutil@empty
@@ -4490,7 +6087,6 @@
\fi
\pgfplotsscanlinelengthcleanup
\pgfplots@coord@stream@end
- \endgroup
}%
\def\pgfplots@addplotimpl@file@readall{%
\read\r@pgfplots@reada to\pgfplots@file@LINE
@@ -4539,7 +6135,7 @@
\def\pgfplots@addplotimpl@graphics#1#2raphics{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@graphics@{#1}{#2}%
}{%
\pgfplots@addplotimpl@graphics@{#1}{#2}[]%
@@ -4548,7 +6144,13 @@
% \addplot[#1] plot[#2] graphics[#3] {#4} #5;
\long\def\pgfplots@addplotimpl@graphics@#1#2[#3]#4#5;{\pgfplots@addplotimpl@graphics@@{#1}{#2}{#3}{#4}{#5}}%
\long\def\pgfplots@addplotimpl@graphics@@#1#2#3#4#5{%
- \pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2,%
+ \def\pgfplotssurveyphaseinputclass{graphics}%
+ \pgfplots@start@plot@with@behavioroptions{%
+ /pgfplots/filter discard warning=false,
+ /pgfplots/mesh/rows=2,% allow \addplot[surf] graphics ... --> yields a good legend.
+ /pgfplots/mesh/cols=2,
+ /pgfplots/mesh/check=false,
+ #1,/pgfplots/.cd,#2,%
/pgfplots/plot graphics/@prepare legend,
/pgfplots/plot graphics,%
/pgfplots/plot graphics/.cd,%
@@ -4557,8 +6159,27 @@
/tikz/mark=}%
\pgfplots@PREPARE@COORD@STREAM{#5}%
\pgfplots@coord@stream@start
+ %
+ \pgfkeysgetvalue{/pgfplots/plot graphics/points}{\pgfplots@current@point@points}%
+ \ifx\pgfplots@current@point@points\pgfutil@empty
+ \else
+ \let\pgfplotsplothandlergraphicspointmappoint=\pgfplotsplothandlergraphics@survey@pointmappoint
+ \expandafter\pgfplots@plot@handler@graphics@parsepointmap\expandafter{\pgfplots@current@point@points}%
+ \ifpgfplots@plot@graphics@autoadjustaxis
+ \pgfplotsplothandlergraphicspointmapcomputerequiredview
+ \ifx\pgfplotsretval\pgfutil@empty
+ \else
+ \expandafter\pgfplotssetlateoptions\expandafter{\pgfplotsretval}%
+ \fi
+ \fi
+ %
+ \def\pgfplots@addplotimpl@graphics@@error##1{}%
+ \fi
+ %
\pgfkeysgetvalue{/pgfplots/plot graphics/xmin}{\pgfplots@current@point@x}%
\pgfkeysgetvalue{/pgfplots/plot graphics/ymin}{\pgfplots@current@point@y}%
+ %
+ % these sanity checks do nothing of the 'plot graphics/points' feature has been used:
\ifx\pgfplots@current@point@x\pgfutil@empty\pgfplots@addplotimpl@graphics@@error{xmin}\fi
\ifx\pgfplots@current@point@y\pgfutil@empty\pgfplots@addplotimpl@graphics@@error{ymin}\fi
\ifpgfplots@curplot@threedim
@@ -4638,7 +6259,7 @@
% package is used - with all its features, including comfortable
% access to the previous and next row and accumulation features.
\def\pgfplots@addplotimpl@table#1table{%
- \pgfutil@ifnextchar[{%
+ \pgfplotsutil@ifnextchar[{%
\pgfplots@addplotimpl@table@getopts{#1}%
}{%
\pgfplots@addplotimpl@table@getopts{#1}[]%
@@ -4651,10 +6272,10 @@
\pgfplots@addplotimpl@table@installkeypath
\pgfplotstableset{#2}%
%
- \pgfutil@ifnextchar s{%
+ \pgfplotsutil@ifnextchar s{%
\pgfplots@addplotimpl@table@fromshell{#1}{#2}%
}{%
- \pgfutil@ifnextchar f{%
+ \pgfplotsutil@ifnextchar f{%
\pgfplots@addplotimpl@table@fromstructure@gobble@space{#1}{#2}%
}{%
\pgfplots@addplotimpl@table@fromfile@gobble@space{#1}{#2}%
@@ -4715,6 +6336,7 @@
% \addplot[#1] table[#2] from {#3} #4 ;
\long\def\pgfplots@addplotimpl@table@fromstructure@#1#2#3#4{%
\begingroup
+ \def\pgfplotstablename{#3}% store the name of the currently processed table.
\pgfplotstablegetscanlinelength{#3}{\pgfplotsscanlinelength}%
% FIXME : this thing here has runtime O(N^2) !
% I fear it is faster to simply reload the data .... !?
@@ -4731,6 +6353,8 @@
%
%
% high level user interface functions:
+ \let\pgfplotstable@coordindex@old=\coordindex
+ \def\coordindex{\pgfplotstablerow}%
\let\lineno=\coordindex% is the same here
%
\expandafter\pgfplotstablegetcolumnbyname\expandafter{\pgfplots@plot@tbl@x}\of#3\to\addplot@tbl@x
@@ -4778,6 +6402,8 @@
\let\pgfplots@current@point@z@error=\pgfutil@empty
\fi
%
+ \let\coordindex=\pgfplotstable@coordindex@old
+ %
\pgfplots@PREPARE@COORD@STREAM{#4}%
\pgfplots@coord@stream@start
\pgfutil@loop
@@ -5197,106 +6823,6 @@
\pgfshell[\pgfplots@plot@filename]{#3}\pgfplots@addplotimpl@table@fromfile{#1}{#2}{\pgfplots@plot@filename.out}#4;%
}%
-% A common routine which resets internal data structures for the
-% survey phase, i.e. it is the shared implementation for all \addplot
-% variations.
-%
-% It takes all options which are provided to \addplot, sets them (at
-% least partially) and remembers them for the command serialization.
-%
-% #1: arguments to \addplot plot[#1]
-% -> these are called 'behavior' options in the manual; they are set
-% immediately.
-%
-% PRECONDITION:
-% \pgfplots@addplotimpl@plot@withoptions has already been invoked
-%
-% POSTCONDITION:
-% - internal datastructures are initialised (coordinate indexing, fpu)
-% - all keys which are required for the current plot are determined
-% (and set if necessary).
-% They are stored into
-% \pgfplots@addplot@survey@@optionlist.
-%
-\def\pgfplots@start@plot@with@behavioroptions#1{%
- %\begingroup%<-- has been moved to \pgfplots@addplotimpl@plot@withoptions
- \c@pgfplots@coordindex=0
- \def\pgfplots@current@point@coordindex{\the\c@pgfplots@coordindex}% can be used inside of coordinate filters.
- \def\coordindex{\pgfplots@current@point@coordindex}% valid inside of \addplot
- \def\pgfplots@addplot@running{1}%
- \def\pgfplots@colorbar@set@src{0}%
- \pgfkeysdef{/pgfplots/colorbar source}{%
- \pgfplotsutilifstringequal{##1}{true}{%
- \def\pgfplots@colorbar@set@src{1}%
- }{%
- \pgfplotsutilifstringequal{##1}{false}{%
- \def\pgfplots@colorbar@set@src{0}%
- }{%
- \pgfplots@error{Sorry, I don't know the value `colorbar source={##1}' and I am going to ignore it. Maybe you misspelled it?}%
- }%
- }%
- }%
- %
- % these styles may contain behavior options (error bars,
- % samples,... ) activate them!
- %
- % As of february 20, 2009, #1 will contain BOTH, /pgfplots
- % and /tikz options. The /tikz ones are primarily for drawing
- % and are UNIMPORTANT at this stage of processing.
- % In fact, transparency etc. will only confuse everything.
- %
- % So: ignore them and set only /pgfplots keys here:
- % This may actually redefine styles, for example
- % \addplot[every mark/.append style={}] will use
- % /pgfplots/every mark/.append style.
- % But that doesn't hurt here.
- %
- % there are some exceptions like /tikz/id etc. These
- % exceptions need special styles in the /pgfplots root - or I
- % need to change the .unknown handler. See the available
- % compatibility styles!
- %
- % ATTENTION: starting with more recent versions (since the
- % unstable version), I will also set /tikz keys here! This should
- % work. It is well tested for the unstable... I hope it will also
- % work for the master branch.
- %\pgfkeysdef{/pgfplots/.unknown}{%
-%\message{In \string\addplot[#1]: I am silently ignoring key `\pgfkeyscurrentkeyRAW' during the preparation phase.}%
- %}%
- %
- % it is possible that '#1' contains 'forget plot'. So, we need to
- % set the options before checking
- % \ifpgfplots@curplot@isirrelevant:
- \pgfplotsset{/pgfplots/every axis plot,#1}%
- %
- \ifpgfplots@curplot@isirrelevant
- \def\pgfplots@addplot@survey@@optionlist{/pgfplots/every axis plot,/pgfplots/every forget plot}%
- \pgfplotsset{/pgfplots/every forget plot,/pgfplots/every axis plot post}%
- \else
- \edef\pgfplots@addplot@survey@@optionlist{/pgfplots/every axis plot,/pgfplots/every axis plot no \the\pgfplots@numplots/.try}%
- \pgfplotsset{/pgfplots/every axis plot no \the\pgfplots@numplots/.try,/pgfplots/every axis plot post}%
- \fi
- %
- \ifpgfplots@usefpu
- \pgfkeys{/pgf/fpu=true}%
- \fi
- \pgfplots@countplots@init
- %
- % hooks:
- \pgfkeysvalueof{/pgfplots/execute at begin plot@@}%
- \pgfkeysvalueof{/pgfplots/execute at begin plot}%
- %
- \if1\pgfplots@colorbar@set@src
- \expandafter\def\expandafter\pgfplots@addplot@survey@@optionlist\expandafter{\pgfplots@addplot@survey@@optionlist,%
- /pgfplots/point meta rel=per plot}%
- \fi
- %
- \expandafter\def\expandafter\pgfplots@addplot@survey@@optionlist\expandafter{\pgfplots@addplot@survey@@optionlist,%
- #1,/pgfplots/.cd,/pgfplots/every axis plot post}%
- \pgfplots@validate@plot@domain@arguments
-}
-
-
% This is a backwards-compatibility method to ensure that
% \axis[ybar]
% and
@@ -5310,7 +6836,7 @@
% So, this macro install special handlers to restore the old setting.
\def\pgfplots@install@local@bar@handlers{%
\pgfkeysgetvalue{/pgfplots/xbar/.@cmd}\pgfplotskeys@orig@xbar
- \pgfkeysgetvalue{/pgfplots/ybar/.@cmd}\pgfplotskeys@orig@xbar
+ \pgfkeysgetvalue{/pgfplots/ybar/.@cmd}\pgfplotskeys@orig@ybar
\pgfkeysgetvalue{/pgfplots/xbar interval/.@cmd}\pgfplotskeys@orig@xbari
\pgfkeysgetvalue{/pgfplots/ybar interval/.@cmd}\pgfplotskeys@orig@ybari
\pgfkeysdef{/pgfplots/xbar}{%
@@ -5375,12 +6901,6 @@
}%
}%
%
-% This macro may be overwritten inside of the \tikz@plot@handler
-% macro. This here is just the default implementation.
-%
-% @INTERNAL HINT: I think the unstable version has another
-% implementation. make sure it's not overwritten!
-\def\pgfplotsplothandlername{\meaning\tikz@plot@handler}%
%
\def\pgfplots@countplots@init{%
%
@@ -5420,6 +6940,7 @@
\long\def\pgfplots@addplotimpl@coordinates#1#2plot coordinates#3#4;{\pgfplots@addplotimpl@coordinates@{#1}{#2}{#3}{#4}}%
% \addplot[#1] [#2] coordinates {#3} #4;
\long\def\pgfplots@addplotimpl@coordinates@#1#2#3#4{%
+ \def\pgfplotssurveyphaseinputclass{coordinates}%
\pgfplots@start@plot@with@behavioroptions{#1,/pgfplots/.cd,#2}%
\pgfplots@PREPARE@COORD@STREAM{#4}%
\ifpgfplots@curplot@threedim
@@ -5504,6 +7025,9 @@
}%
}
+\def\pgfplots@invoke@prefilter{%
+ \pgfkeysvalueof{/pgfplots/pre filter/.@cmd}\pgfeov%
+}%
\def\pgfplots@invoke@filter#1#2{%
\pgfkeysvalueof{/pgfplots/#2 filter/.@cmd}#1\pgfeov%
}%
@@ -5528,6 +7052,12 @@
\def\pgfplots@stream@withmeta#1#2#3{\def\pgfplots@current@point@meta{#3}\pgfplotstreampoint{\pgfqpoint{#1}{#2}}}
\def\pgfplots@stream@withmeta@#1#2#3#4{\def\pgfplots@current@point@coordindex{#1}\pgfplots@stream@withmeta{#2}{#3}{#4}}
+\def\pgfplots@stream@decode@and@apply#1#2#3#4{%
+ \def\pgfplots@current@point@coordindex{#1}%
+ \pgfplotsaxisdeserializedatapointfrom@private{#2}%
+ \pgfplotstreampoint{\pgfqpoint{#3}{#4}}%
+}
+
\newif\ifpgfplots@record@marker@stream
% Takes a sequence of PREPARED coordinates which are given in floating
% point representation and applies the data scaling trafo (if
@@ -5546,6 +7076,7 @@
\pgfplots@getcurrent@plothandler\pgfplots@basiclevel@plothandler
\pgfplots@gettikzinternal@keyval{mark}{tikz@plot@mark}{}%
%
+ %
\ifpgfplots@clip@limits
\else
% "clip marker paths=true" actually doesn't checks anything --
@@ -5554,6 +7085,9 @@
\pgfplots@clip@marker@pathstrue
\fi
%
+ \pgfplots@perpointmeta@preparetrafo
+ %
+ \pgfplots@prepare@visualization@dependencies
%
\def\pgfplots@loc@TMPa{0}% <-- if (collectmark positions)
\ifpgfplots@scatterplotenabled
@@ -5563,7 +7097,6 @@
\else
\def\pgfplots@loc@TMPa{1}%
\fi
- %
\if\pgfplots@loc@TMPa0%
% mark=none : no need to waste time collecting marker
% positions.
@@ -5598,7 +7131,9 @@
\pgfplots@stacked@beginplot
\fi
\fi
+ \pgfplotsresetplothandler
\pgfplots@basiclevel@plothandler
+ \expandafter\pgfplotsplothandlerdeserializestatefrom\expandafter{\pgfplots@serialized@state@plothandler}%
\pgfplotstreamstart
\let\pgfplots@data@scaletrafo@result=\pgfutil@empty
\ifpgfplots@record@marker@stream
@@ -5625,6 +7160,17 @@
%\expandafter\gdef\expandafter#1\expandafter{#1\pgfplotstreamend}%
\fi
}%
+ \def\pgfplots@visualize@performserialization{%
+ % ATTENTION: a similar thing is REPLICATED for stacked plots!
+ \t@pgfplots@tokb=\expandafter{\pgfplotsaxisdeserializedatapointfrom@private@lastvalue}%
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfplots@stream@decode@and@apply
+ {\the\c@pgfplots@coordindex}
+ {\the\t@pgfplots@tokb}%
+ {\the\pgf@x}{\the\pgf@y}
+ }%
+ \expandafter\pgfplotsapplistXXpushback\expandafter{\pgfplots@loc@TMPa}%
+ }%
\begingroup
\let\E=\noexpand
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -5632,19 +7178,6 @@
%
% Will be inserted in one of two possible places below (to collect
% marker positions)
- \def\pgfplots@visualize@performserizalization{%
- % ATTENTION: this here is replicated for stacked plots!
- \ifx\pgfplotspointmetainputhandler\pgfutil@empty
- % we don't have per-point meta data. Nothing special to
- % do:
- \E\edef\E\pgfmathresult{\E\noexpand\E\pgfplots@stream@{\E\the\E\c@pgfplots@coordindex}{\E\the\E\pgf@x}{\E\the\E\pgf@y}}%
- \E\expandafter\E\pgfplotsapplistXXpushback\E\expandafter{\E\pgfmathresult}%
- \else
- % Ok, then we need to process the meta data as well:
- \E\edef\E\pgfmathresult{\E\noexpand\E\pgfplots@stream@withmeta@{\E\the\E\c@pgfplots@coordindex}{\E\the\E\pgf@x}{\E\the\E\pgf@y}{\E\pgfplots@current@point@meta}}%
- \E\expandafter\E\pgfplotsapplistXXpushback\E\expandafter{\E\pgfmathresult}%
- \fi
- }%
% This finalize command maps the logical coordinate into PGF's
% point space. Furthermore, it collects marker coordinates
% (properly clipped by position) if markers are required (see
@@ -5655,109 +7188,119 @@
\ifpgfplots@curplot@threedim
\E\pgfplotsqpointxyz{\E\pgfplots@current@point@x}{\E\pgfplots@current@point@y}{\E\pgfplots@current@point@z}%
\else
- \ifpgfplots@threedim
- \E\pgfplotsqpointxyz{\E\pgfplots@current@point@x}{\E\pgfplots@current@point@y}{0.0}%
- \else
- \E\pgfplotsqpointxy{\E\pgfplots@current@point@x}{\E\pgfplots@current@point@y}%
- \fi
+ \E\pgfplotsqpointxy{\E\pgfplots@current@point@x}{\E\pgfplots@current@point@y}%
\fi
+ %
\ifpgfplots@record@marker@stream
- \E\pgf@xa=\E\pgfplots@current@point@x pt % FIXME : SCOPE REGISTERS!?
- \E\pgf@ya=\E\pgfplots@current@point@y pt %
- \ifpgfplots@curplot@threedim
- \E\pgf@yb=\E\pgfplots@current@point@z pt %
- \fi
+ % remember the position (x,y) for markers.
+ % remember it before \pgfplotstreampoint (which might change (x,y) )
\ifpgfplots@clip
- \E\ifdim\E\pgf@xa<\E\pgfplots@xmin@reg
- \E\else
- \E\ifdim\E\pgf@xa>\E\pgfplots@xmax@reg
- \E\else
- \E\ifdim\E\pgf@ya<\E\pgfplots@ymin@reg
- \E\else
- \E\ifdim\E\pgf@ya>\E\pgfplots@ymax@reg
- \E\else
- \ifpgfplots@curplot@threedim
- \E\ifdim\E\pgf@yb<\E\pgfplots@zmin@reg
- \E\else
- \E\ifdim\E\pgf@yb>\E\pgfplots@zmax@reg
- \E\else
- \pgfplots@visualize@performserizalization
- \E\fi
- \E\fi
- \else
- \pgfplots@visualize@performserizalization
- \fi
- \E\fi
- \E\fi
- \E\fi
- \E\fi
+ % check for clip marker paths:
+ \E\pgfplotsaxisifcontainspoint{\E\pgfplots@visualize@performserialization}{}%
\else
- \pgfplots@visualize@performserizalization
+ \E\pgfplots@visualize@performserialization
\fi
\fi
+ %
\E\pgfplotstreampoint{}% it will simply take \pgf@x and \pgf@y!
+ %
\advance\c@pgfplots@coordindex by1
}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\endgroup
%
-%\message{Prepared macro \string \pgfplots@apply@data@scaletrafo@to@one@point {\meaning\pgfplots@apply@data@scaletrafo@to@one@point}}%
+%\message{Prepared macro \string \pgfplotsaxisvisphasetransformcoordinate {\meaning\pgfplotsaxisvisphasetransformcoordinate}}%
%\message{Prepared macro \string \pgfplots@coord@stream@finalize@currentpt {\meaning\pgfplots@coord@stream@finalize@currentpt}}%
- \ifpgfplots@apply@datatrafo
- \def\pgfplots@coord@stream@coord@{%
- \pgfplots@apply@data@scaletrafo@to@one@point%
- \pgfplots@coord@stream@finalize@currentpt
- }%
- \else
- \def\pgfplots@coord@stream@coord@{%
+ \def\pgfplots@coord@stream@coord@{%
+ \ifx\pgfplots@current@point@x\pgfutil@empty% this realizes `unbounded coords=jump', for example
+ \pgfplotsplothandlervisualizejump
+ \else
+ \pgfplotsaxisvisphasetransformcoordinate\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@z%
+ \pgfplotsaxisvisphasepreparedatapoint
\pgfplots@coord@stream@finalize@currentpt
- }%
- \fi
- \if\pgfplots@unbounded@handler j% unbounded coords=jump
- \t@pgfplots@tokb=\expandafter{\pgfplots@coord@stream@coord@}%
- \edef\pgfplots@coord@stream@coord@{%
- \noexpand\ifx\noexpand\pgfplots@current@point@x\noexpand\pgfutil@empty
- \noexpand\pgfplots@plothandler@unbounded@visualize@jump
- \noexpand\else
- \the\t@pgfplots@tokb
- \noexpand\fi
- }%
- \fi
- %
+ \fi
+ }%
}
-\def\pgfplots@plothandler@unbounded@visualize@jump{%
- \pgfplotstreamend
- \pgfplotstreamstart
+\def\pgfplots@check@for@default@plot@mark{%
+ % make sure there is a mark set!
+ \pgfplots@gettikzinternal@keyval{mark}{tikz@plot@mark}{}%
+ \def\pgfplots@loc@TMPa{none}%
+ \ifx\tikz@plot@mark\pgfplots@loc@TMPa
+ % this here happens only in older versions of pgf.
+ \let\tikz@plot@mark\pgfutil@empty
+ \fi
+ \ifx\tikz@plot@mark\pgfutil@empty
+ \pgfplots@getcurrent@plothandler\pgfplots@basiclevel@plothandler
+ \ifx\pgfplots@basiclevel@plothandler\pgfplothandlerdiscard
+ % oh, the "only marks" plot handler-- and no plot mark!?
+ % what's that!?
+ \ifpgfplots@scatterplotenabled
+ % scatter handles this in /pgfplots/scatter/true
+ % automatically.
+ \else
+ % that appears to be nonsense...
+ \def\tikz@plot@mark{*}%
+ \fi
+ \fi
+ \fi
}%
-% Defines an optimized and matching \pgfplots@apply@data@scaletrafo@to@one@point
+
+% Defines an optimized and matching \pgfplotsaxisvisphasetransformcoordinate
% during the coordinate finalization step in \end{axis}.
\def\pgfplots@coord@stream@INIT@finalize@storedcoords@prepare@scaletrafomacro{%
\begingroup
\let\E=\noexpand
- % The command which is called for every non-yet-finished point.
+ %
+ % \pgfplotsaxisvisphasetransformcoordinate
+ % Maps a point to the low level xyz coordinate system by applying
+ % data scaling transformations.
+ %
+ % This method should be invoked for every coordinate before it can
+ % be drawn.
%
% It is prepared here to eliminate if's.
%
% Arguments:
- % \pgfplots@current@point@[xyz]
- % \pgfplots@current@point@[xyz]@error (if in argument list)
- \xdef\pgfplots@apply@data@scaletrafo@to@one@point{%
+ % #1 : a MACRO containing the x value
+ % #2 : a MACRO containing the y value
+ % #3 : a MACRO containing the z value
+ %
+ % PRECONDITION:
+ % - the visualization phase is running.
+ % - #1,#2,#3 are defined and contain
+ % values resulting from the survey phase.
+ %
+ % POSTCONDITION
+ % - #1,#2,#3 will be redefined to contain data which is
+ % readily usable by low level pgf plot handlers for
+ % visualization.
+ %
+ % @see \pgfplotsaxisvisphasepreparedatapoint
+ \xdef\pgfplotsaxisvisphasetransformcoordinate##1##2##3{%
\ifpgfplots@apply@datatrafo@x
- \E\pgfplots@datascaletrafo@x{\E\pgfplots@current@point@x}%
- \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
+ \E\pgfplotscoordmath{x}{datascaletrafo}{##1}%
+ \E\let##1=\E\pgfmathresult
\fi
\ifpgfplots@apply@datatrafo@y
- \E\pgfplots@datascaletrafo@y{\E\pgfplots@current@point@y}%
- \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
+ \E\pgfplotscoordmath{y}{datascaletrafo}{##2}%
+ \E\let##2=\E\pgfmathresult
\fi
\ifpgfplots@curplot@threedim
\ifpgfplots@apply@datatrafo@z
- \E\pgfplots@datascaletrafo@z{\E\pgfplots@current@point@z}%
- \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
+ \E\pgfplotscoordmath{z}{datascaletrafo}{##3}%
+ \E\let##3=\E\pgfmathresult
\fi
\fi
+ % \t@pgfplots@tokc=\expandafter{\pgfplots@data@scaletrafo@result}%
+ % \edef\pgfplots@data@scaletrafo@result{\the\t@pgfplots@tokc(\pgfplots@current@point@x,\pgfplots@current@point@y)}%
+ }%
+ %
+ % Just before the visualization phase can call the low level
+ % interface, this method is called to handle final changes.
+ % It is currently only used by the stacked plot interface.
+ \xdef\pgfplotsaxisvisphasepreparedatapoint{%
\ifpgfplots@stackedmode
% all these calls work with pgfmath; no more floating point
% arithmetics are applied.
@@ -5765,15 +7308,13 @@
\E\pgfplots@stacked@finishpoint%
\E\pgfplots@stacked@rememberzerolevelpoint@for@next@plot{(\E\pgfplots@current@point@x,\E\pgfplots@current@point@y\ifpgfplots@threedim,\E\pgfplots@current@point@z\fi)}%
\fi
- % \t@pgfplots@tokc=\expandafter{\pgfplots@data@scaletrafo@result}%
- % \edef\pgfplots@data@scaletrafo@result{\the\t@pgfplots@tokc(\pgfplots@current@point@x,\pgfplots@current@point@y)}%
}%
%
\endgroup
}
\def\pgfplots@addplot@get@named@startendpoints@command#1{%
- \ifpgfplots@coord@stream@isfirst
+ \ifx\pgfplots@currentplot@firstcoord@x\pgfutil@empty
% empty plot.
\def#1{%
\pgfcoordinate{current plot begin}{\pgfplotspointaxisorigin}%
@@ -5849,6 +7390,8 @@
\t@pgfplots@tokb=\expandafter{\pgfplots@stored@current@cmd[current plot style]}%
\t@pgfplots@tokc=\expandafter{\pgfplots@recorded@marker@stream}%
\edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfkeysvalueof{/pgfplots/execute at begin plot visualization}%
+ \noexpand\def\noexpand\tikz@plot@mark{\tikz@plot@mark}% make sure we restore the environment setting
\noexpand\pgfkeysdef{/tikz/current plot style}{\the\t@pgfplots@toka}%
% de-activate the FPU here if it was active! I fear its number
% format may cause errors when used in low-level
@@ -5864,7 +7407,9 @@
\noexpand\pgfplots@install@plotmark@handler
\the\t@pgfplots@tokc
\noexpand\endpgfextra
- ;}%
+ ;%
+ \noexpand\pgfkeysvalueof{/pgfplots/execute at end plot visualization}%
+ }%
\t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPa}%
\t@pgfplots@tokb=\expandafter{\pgfplots@stored@current@precmd}%
\edef\pgfplots@loc@TMPa{\the\t@pgfplots@tokb\the\t@pgfplots@toka}%
@@ -5876,6 +7421,7 @@
\pgfplots@gettikzinternal@keyval{mark indices}{tikz@mark@list}{}%
\pgfplots@gettikzinternal@keyval{mark}{tikz@plot@mark}{}%
%
+ %
% do not reset \tikz@options: draw color may be acquired
% from 'current plot style'
%\let\tikz@options=\pgfutil@empty%
@@ -5905,6 +7451,9 @@
% \fi
%--------------------------------------------------
\pgfplots@perpointmeta@preparetrafo
+ %
+ \pgfplots@prepare@visualization@dependencies
+ %
% this here is the MAIN marker code.
% It may be modified if scatter plot is enabled, see below.
\def\pgfplots@loc@TMPa{\tikz@transform\pgfuseplotmark{\tikz@plot@mark}}
@@ -5923,7 +7472,7 @@
% Prepare arguments for '@pre/@post' macros:
\t@pgfplots@toka={%
\begingroup
- \pgfplots@perpointmeta@trafo@APPLY
+ \pgfplotsaxisvisphasetransformpointmeta
\pgfkeysvalueof{/pgfplots/scatter/@pre marker code/.@cmd}\pgfeov
}%
\t@pgfplots@tokb=\expandafter{\pgfplots@loc@TMPa}%
@@ -5958,18 +7507,18 @@
\def\pgfplots@errorbar@draw@float(#1,#2)(#3,#4){%
\ifpgfplots@apply@datatrafo@x
- \pgfplots@datascaletrafo@x{#1}%
+ \pgfplotscoordmath{x}{datascaletrafo}{#1}%
\let\pgfplots@xarg=\pgfmathresult%
- \pgfplots@datascaletrafo@x{#3}%
+ \pgfplotscoordmath{x}{datascaletrafo}{#3}%
\let\pgfplots@error@xarg=\pgfmathresult%
\else
\def\pgfplots@xarg{#1}%
\def\pgfplots@error@xarg{#3}%
\fi
\ifpgfplots@apply@datatrafo@y
- \pgfplots@datascaletrafo@y{#2}%
+ \pgfplotscoordmath{y}{datascaletrafo}{#2}%
\let\pgfplots@yarg=\pgfmathresult%
- \pgfplots@datascaletrafo@y{#4}%
+ \pgfplotscoordmath{y}{datascaletrafo}{#4}%
\let\pgfplots@error@yarg=\pgfmathresult%
\else
\def\pgfplots@yarg{#2}%
@@ -5981,27 +7530,27 @@
}
\def\pgfplots@errorbar@draw@float@threedim(#1,#2,#3)(#4,#5,#6){%
\ifpgfplots@apply@datatrafo@x
- \pgfplots@datascaletrafo@x{#1}%
+ \pgfplotscoordmath{x}{datascaletrafo}{#1}%
\let\pgfplots@xarg=\pgfmathresult%
- \pgfplots@datascaletrafo@x{#4}%
+ \pgfplotscoordmath{x}{datascaletrafo}{#4}%
\let\pgfplots@error@xarg=\pgfmathresult%
\else
\def\pgfplots@xarg{#1}%
\def\pgfplots@error@xarg{#4}%
\fi
\ifpgfplots@apply@datatrafo@y
- \pgfplots@datascaletrafo@y{#2}%
+ \pgfplotscoordmath{y}{datascaletrafo}{#2}%
\let\pgfplots@yarg=\pgfmathresult%
- \pgfplots@datascaletrafo@y{#5}%
+ \pgfplotscoordmath{y}{datascaletrafo}{#5}%
\let\pgfplots@error@yarg=\pgfmathresult%
\else
\def\pgfplots@yarg{#2}%
\def\pgfplots@error@yarg{#5}%
\fi
\ifpgfplots@apply@datatrafo@z
- \pgfplots@datascaletrafo@z{#3}%
+ \pgfplotscoordmath{z}{datascaletrafo}{#3}%
\let\pgfplots@zarg=\pgfmathresult%
- \pgfplots@datascaletrafo@z{#6}%
+ \pgfplotscoordmath{z}{datascaletrafo}{#6}%
\let\pgfplots@error@zarg=\pgfmathresult%
\else
\def\pgfplots@zarg{#3}%
@@ -6084,24 +7633,29 @@
\def\pgfplots@prepare@ZERO@coordinates{%
\ifpgfplots@xislinear
\ifpgfplots@apply@datatrafo@x
- \pgfmathfloatcreate{0}{0.0}{0}%
- \pgfplots@datascaletrafo@x{\pgfmathresult}%
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \pgfplotscoordmath{x}{datascaletrafo}{\pgfmathresult}%
\global\let\pgfplots@logical@ZERO@x=\pgfmathresult
\else
\gdef\pgfplots@logical@ZERO@x{0}%
\fi
+ % this works in standard fixed pt math:
\pgfplotsmathmax{\pgfplots@logical@ZERO@x}{\pgfplots@xmin}%
\global\let\pgfplots@logical@ZERO@x=\pgfmathresult
\pgfplotsmathmin{\pgfplots@logical@ZERO@x}{\pgfplots@xmax}%
\global\let\pgfplots@logical@ZERO@x=\pgfmathresult
\else
- \global\let\pgfplots@logical@ZERO@x=\pgfplots@xmin%
+ \if\pgfplots@log@origin@choice@x0%
+ \global\let\pgfplots@logical@ZERO@x=\pgfplots@xmin%
+ \else
+ \gdef\pgfplots@logical@ZERO@x{1}%
+ \fi
\fi
%
\ifpgfplots@yislinear
\ifpgfplots@apply@datatrafo@y
- \pgfmathfloatcreate{0}{0.0}{0}%
- \pgfplots@datascaletrafo@y{\pgfmathresult}%
+ \pgfplotscoordmath{y}{parsenumber}{0}%
+ \pgfplotscoordmath{y}{datascaletrafo}{\pgfmathresult}%
\global\let\pgfplots@logical@ZERO@y=\pgfmathresult
\else
\gdef\pgfplots@logical@ZERO@y{0}%
@@ -6111,14 +7665,18 @@
\pgfplotsmathmin{\pgfplots@logical@ZERO@y}{\pgfplots@ymax}%
\global\let\pgfplots@logical@ZERO@y=\pgfmathresult
\else
- \global\let\pgfplots@logical@ZERO@y=\pgfplots@ymin%
+ \if\pgfplots@log@origin@choice@y0%
+ \global\let\pgfplots@logical@ZERO@y=\pgfplots@ymin%
+ \else
+ \gdef\pgfplots@logical@ZERO@y{1}%
+ \fi
\fi
%
\ifpgfplots@threedim
\ifpgfplots@zislinear
\ifpgfplots@apply@datatrafo@z
- \pgfmathfloatcreate{0}{0.0}{0}%
- \pgfplots@datascaletrafo@z{\pgfmathresult}%
+ \pgfplotscoordmath{z}{parsenumber}{0}%
+ \pgfplotscoordmath{z}{datascaletrafo}{\pgfmathresult}%
\global\let\pgfplots@logical@ZERO@z=\pgfmathresult
\else
\gdef\pgfplots@logical@ZERO@z{0}%
@@ -6128,7 +7686,11 @@
\pgfplotsmathmin{\pgfplots@logical@ZERO@z}{\pgfplots@zmax}%
\global\let\pgfplots@logical@ZERO@z=\pgfmathresult
\else
- \global\let\pgfplots@logical@ZERO@z=\pgfplots@zmin%
+ \if\pgfplots@log@origin@choice@z0%
+ \global\let\pgfplots@logical@ZERO@z=\pgfplots@zmin%
+ \else
+ \gdef\pgfplots@logical@ZERO@z{1}%
+ \fi
\fi
\fi
%
@@ -6151,40 +7713,623 @@
% coordinates.
\def\pgfplotsplothandlergraphics{%
\def\pgf@plotstreamstart{%
- \global\let\pgfplots@plot@handler@graphics@bb@first=\pgfutil@empty
- \global\let\pgfplots@plot@handler@graphics@bb@second=\pgfutil@empty
+ \gdef\pgfplots@plot@handler@graphics@bb@first{\pgf@x=16000pt \pgf@y=16000pt }%
+ \gdef\pgfplots@plot@handler@graphics@bb@second{\pgf@x=-16000pt \pgf@y=-16000pt }%
\global\let\pgf@plotstreampoint=\pgfplots@plot@handler@graphics@collectbb%
\global\let\pgf@plotstreamspecial=\pgfutil@gobble%
\global\let\pgf@plotstreamend=\pgfplots@plot@handler@graphics@finish%
- \def\pgfplots@plothandler@unbounded@visualize@jump{%
+ \def\pgfplotsplothandlervisualizejump{%
\pgfplots@error{Sorry, plot graphics does not support 'unbounded coords=jump'.}%
}%
}%
}%
\def\pgfplots@plot@handler@graphics@collectbb#1{%
\pgf@process{#1}%
- \ifx\pgfplots@plot@handler@graphics@bb@first\pgfutil@empty
- % ok, this is the lower left corner.
- \xdef\pgfplots@plot@handler@graphics@bb@first{\noexpand\pgfqpoint{\the\pgf@x}{\the\pgf@y}}%
+ \pgf@xa=\pgf@x
+ \pgf@ya=\pgf@y
+ \pgfplots@plot@handler@graphics@bb@first
+ \ifdim\pgf@xa<\pgf@x \pgf@x=\pgf@xa\fi
+ \ifdim\pgf@ya<\pgf@y \pgf@y=\pgf@ya\fi
+ \xdef\pgfplots@plot@handler@graphics@bb@first{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ %
+ \pgfplots@plot@handler@graphics@bb@second
+ \ifdim\pgf@xa>\pgf@x \pgf@x=\pgf@xa\fi
+ \ifdim\pgf@ya>\pgf@y \pgf@y=\pgf@ya\fi
+ \xdef\pgfplots@plot@handler@graphics@bb@second{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ %
+}%
+\def\pgfplots@plot@handler@graphics@finish{%
+ \let\pgfplots@plot@handler@graphics@pointmap@B@canvas\pgfutil@empty
+ %
+ % check if we have a pointmap. If so, the pointmap should be used
+ % to place the graphics.
+ \pgfkeysgetvalue{/pgfplots/plot graphics/points}\pgfplots@plot@handler@graphics@pointmap
+ \ifx\pgfplots@plot@handler@graphics@pointmap\pgfutil@empty
\else
- \ifx\pgfplots@plot@handler@graphics@bb@second\pgfutil@empty
- % ok, this is the upper right corner.
- \xdef\pgfplots@plot@handler@graphics@bb@second{\noexpand\pgfqpoint{\the\pgf@x}{\the\pgf@y}}%
+ \let\pgfplots@plot@handler@graphics@parsepointmap@error=\relax
+ \expandafter\pgfplots@plot@handler@graphics@parsepointmap\expandafter{\pgfplots@plot@handler@graphics@pointmap}%
+ \fi
+ %
+ %
+ \ifx\pgfplots@plot@handler@graphics@pointmap@B@canvas\pgfutil@empty
+ % no pointmap. Good; then squeze graphics into the bounding
+ % box:
+ \pgfplots@plot@handler@graphics@usebb
+ \else
+ % oh, a pointmap! Process it.
+ \pgfplots@plot@handler@graphics@process@pointmap
+ \fi
+}%
+
+% Parses the argument of '/pgfplots/plot graphics/points'.
+%
+% #1: the argument of the key above.
+\def\pgfplots@plot@handler@graphics@parsepointmap#1{%
+ \let\pgfplots@plot@handler@graphics@pointmap@A@canvas\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@A@img\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@B@canvas\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@B@img\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@C@canvas\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@C@img\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@D@canvas\pgfutil@empty
+ \let\pgfplots@plot@handler@graphics@pointmap@D@img\pgfutil@empty
+ \pgfplots@plot@handler@graphics@parsepointmap@loop#1\pgfplots@EOI
+ \ifpgfplots@plot@graphics@autoadjustaxis
+ \ifx\pgfplots@plot@handler@graphics@pointmap@A@img\pgfutil@empty
\else
- \pgfplots@error{Error using 'plot graphics': I encountered more than two coordinates!? I expected only the lower left and upper right corners!}%
+ \ifx\pgfplots@plot@handler@graphics@pointmap@D@img\pgfutil@empty
+ \def\pgfplots@loc@TMPa{#1}%
+ \pgfplots@plot@handler@graphics@parsepointmap@error
+ \fi
\fi
\fi
}%
-\def\pgfplots@plot@handler@graphics@finish{%
- \ifx\pgfplots@plot@handler@graphics@bb@first\pgfutil@empty
+\def\pgfplots@plot@handler@graphics@parsepointmap@error{%
+ \pgfplots@error{plot graphics/points={\pgfplots@loc@TMPa} cannot be processed: I need at least *four* inner anchor points to automatically adjust the axis, i.e. 4 points of the form (x,y,z) => (imgx,imgy). Use 'plot graphics/auto adjust axis=false' to disable this feature}%
+}%
+\def\pgfplots@plot@handler@graphics@parsepointmap@loop{%
+ \pgfutil@ifnextchar\pgfplots@EOI{%
+ \pgfplots@gobble@until@EOI
+ }{%
+ \pgfplots@plot@handler@graphics@parsepointmap@loop@
+ }%
+}%
+\def\pgfplots@plot@handler@graphics@parsepointmap@loop@(#1,#2){%
+ \pgfutil@ifnextchar={%
+ \pgfplots@plot@handler@graphics@parsepointmap@loop@@(#1,#2)%
+ }{%
+ \pgfplots@plot@handler@graphics@parsepointmap@loop@@(#1,#2)=>(,)%
+ }%
+}%
+\def\pgfplots@plot@handler@graphics@parsepointmap@loop@@(#1,#2)=>{%
+ \pgfutil@ifnextchar({%
+ \pgfplots@plot@handler@graphics@parsepointmap@loop@@@(#1,#2)%
+ }{%
+ \pgfplots@error{Syntax error for plot graphics/pointmap: expected '(#1,#2) => (...,...)'}%
+ \pgfplots@gobble@until@EOI
+ }%
+}
+\def\pgfplots@plot@handler@graphics@parsepointmap@loop@@@(#1,#2)(#3,#4){%
+ \def\pgfplotsplothandlergraphicspointmappointindex{}%
+ \def\pgfplots@loc@TMPc{#4}%
+ \ifx\pgfplots@loc@TMPc\pgfutil@empty
+ \else
+ \ifx\pgfplots@plot@handler@graphics@pointmap@A@img\pgfutil@empty
+ \def\pgfplotsplothandlergraphicspointmappointindex{A}%
+ \else
+ \ifx\pgfplots@plot@handler@graphics@pointmap@B@img\pgfutil@empty
+ \def\pgfplotsplothandlergraphicspointmappointindex{B}%
+ \else
+ \ifx\pgfplots@plot@handler@graphics@pointmap@C@img\pgfutil@empty
+ \def\pgfplotsplothandlergraphicspointmappointindex{C}%
+ \else
+ \ifx\pgfplots@plot@handler@graphics@pointmap@D@img\pgfutil@empty
+ \def\pgfplotsplothandlergraphicspointmappointindex{D}%
+ \else
+ \def\pgfplotsplothandlergraphicspointmappointindex{*}%
+ %\pgfplots@error{Sorry, the argument '(#1,#2) => (#3,#4)' of plot graphics/pointmap is superfluos; ignoring it.}%
+ \fi
+ \fi
+ \fi
+ \fi
+ \pgfmathparse{#3}%
+ \let\pgfplots@loc@TMPb=\pgfmathresult
+ %
+ \pgfmathparse{#4}%
+ \expandafter\edef\csname pgfplots@plot@handler@graphics@pointmap@\pgfplotsplothandlergraphicspointmappointindex @img\endcsname{{\pgfplots@loc@TMPb}{\pgfmathresult}}%
+ \fi
+ %
+ %
+ \pgfutil@in@,{#2}%
+ \ifpgfutil@in@
+ \def\pgfplots@loc@TMPa##1,##2\relax{%
+ \expandafter\edef\csname pgfplots@plot@handler@graphics@pointmap@\pgfplotsplothandlergraphicspointmappointindex @logical\endcsname{{#1}{##1}{##2}}%
+ %
+ \pgfplotsplothandlergraphicspointmappoint(#1,##1,##2)(#3,#4)
+ }%
+ \pgfplots@loc@TMPa#2\relax
+ \else
+ \expandafter\edef\csname pgfplots@plot@handler@graphics@pointmap@\pgfplotsplothandlergraphicspointmappointindex @logical\endcsname{{#1}{#2}{}}%
+ \pgfplotsplothandlergraphicspointmappoint(#1,#2,)(#3,#4)
+ \fi
+ \pgfplots@plot@handler@graphics@parsepointmap@loop
+}
+
+\def\pgfplotsplothandlergraphics@survey@pointmappoint(#1,#2,#3)(#4,#5){%
+ \def\pgfplots@current@point@x{#1}%
+ \def\pgfplots@current@point@y{#2}%
+ \def\pgfplots@current@point@z{#3}%
+ \pgfplots@coord@stream@coord
+}%
+
+% PRECONDITION:
+% \pgfplotsplothandlergraphicspointmappointindex is
+% empty if and only if (#4,#5) is empty
+% or it is an index among all points with non--empty (#4,#5) image
+% coordinates.
+\def\pgfplotsplothandlergraphicspointmappoint(#1,#2,#3)(#4,#5){%
+ \ifx\pgfplotsplothandlergraphicspointmappointindex\pgfutil@empty
+ \else
+ \def\pgfplots@loc@TMPc{#3}%
+ \ifx\pgfplots@loc@TMPc\pgfutil@empty
+ \pgfplotspointaxisxy{#1}{#2}%
+ \else
+ \pgfplotspointaxisxyz{#1}{#2}{#3}%
+ \fi
+ \expandafter\edef\csname pgfplots@plot@handler@graphics@pointmap@\pgfplotsplothandlergraphicspointmappointindex @canvas\endcsname{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ \fi
+}%
+
+% Computes view-related keys which should be communicated to the axis
+% in order to render the plot graphics correctly.
+%
+% @POSTCONDITION: \pgfplotsretval contains any required keys.
+\def\pgfplotsplothandlergraphicspointmapcomputerequiredview{%
+ \begingroup
+ \let\pgfplotsretval=\pgfutil@empty
+ \ifx\pgfplots@plot@handler@graphics@pointmap@D@img\pgfutil@empty
+ \else
+ \pgfkeysgetvalue{/pgfplots/plot graphics/debug}\pgfplots@loc@TMPa
+ \def\pgfplots@loc@TMPb{true}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ \def\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug{1}%
+ \else
+ \def\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug{0}%
+ \fi
+ % The following implementation computes the 'unit vector
+ % ratio' of the IMAGE.
+ %
+ % It then tells PGFPlots to use the very same unit vector
+ % ratio for its axis.
+ %
+ %
+ % The actual implementation is dumb; it requires 4 (!) points for
+ % which BOTH, the 3D coordinates and the projected 2D
+ % coordinates relative to the image's lower left corner are
+ % available.
+ %
+ % Since the 2D projected coordinates are generated by the map
+ %
+ % T(x,y,z) = o + x e_x + y e_y + z e_z in R^2
+ % with o,e_x,e_y,e_z in R^2,
+ %
+ % I have 8 degrees of freedom (two for each of the four
+ % involved vectors). Thus, a simple approach is to provide 4
+ % linearly independend points to get 8 equations.
+ %
+ % Then, I solve for o,e_x,e_y,e_z
+ %
+ \pgfplotsmatrixnewempty\pgfplotsmatrix
+ \pgfplotsmatrixresize\pgfplotsmatrix88%
+ %
+ \pgfplotsarraynewempty\pgfplotsE
+ \pgfplotsarrayresize\pgfplotsE8%
+ %
+ \def\pgfplots@extractimg##1##2{%
+ \def\pgfplots@img@x{##1}%
+ \def\pgfplots@img@y{##2}%
+ }%
+ \def\pgfplots@extractlogical##1##2##3{%
+ \def\pgfplots@logical@x{##1}%
+ \def\pgfplots@logical@y{##2}%
+ \def\pgfplots@logical@z{##3}%
+ }%
+ % Assemble the linear system such that
+ % x = [
+ % exx
+ % exy
+ % eyx
+ % eyy
+ % ezx
+ % ezy
+ % ox
+ % oy]
+ % are the degrees of freedom.
+ \c@pgfplots@coordindex=0
+ \pgfplotsutilforeachcommasep{A,B,C,D}\as\pgfplots@loc@TMPa{%
+ \expandafter\expandafter\expandafter\pgfplots@extractimg\csname pgfplots@plot@handler@graphics@pointmap@\pgfplots@loc@TMPa @img\endcsname
+ \expandafter\expandafter\expandafter\pgfplots@extractlogical\csname pgfplots@plot@handler@graphics@pointmap@\pgfplots@loc@TMPa @logical\endcsname
+ \ifx\pgfplots@logical@z\pgfutil@empty
+ \else
+ %
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,0\of\pgfplotsmatrix=\pgfplots@logical@x%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,1\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,2\of\pgfplotsmatrix=\pgfplots@logical@y%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,3\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,4\of\pgfplotsmatrix=\pgfplots@logical@z%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,5\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,6\of\pgfplotsmatrix\to{1}%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,7\of\pgfplotsmatrix\to{0}%
+ %
+ \pgfplotsarrayletentry\c@pgfplots@coordindex\of\pgfplotsE=\pgfplots@img@x
+ %
+ \advance\c@pgfplots@coordindex by1
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,0\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,1\of\pgfplotsmatrix=\pgfplots@logical@x%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,2\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,3\of\pgfplotsmatrix=\pgfplots@logical@y%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,4\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixletentry \the\c@pgfplots@coordindex,5\of\pgfplotsmatrix=\pgfplots@logical@z%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,6\of\pgfplotsmatrix\to{0}%
+ \pgfplotsmatrixset \the\c@pgfplots@coordindex,7\of\pgfplotsmatrix\to{1}%
+ %
+ \pgfplotsarrayletentry\c@pgfplots@coordindex\of\pgfplotsE=\pgfplots@img@y
+ %
+ \advance\c@pgfplots@coordindex by1
+ \fi
+ }%
+ \ifx\pgfplots@logical@z\pgfutil@empty
+ \else
+ \if1\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug
+ \pgfplotsplothandlergraphics@debug@matrix@to@string
+ \fi
+ %
+ %
+ \pgfplotsmatrixsolveLEQS\pgfplotsmatrix=\pgfplotsE
+ %
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem0\of\pgfplotsE}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@xx=\pgfmathresult
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem1\of\pgfplotsE}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@xy=\pgfmathresult
+ \if r\pgfkeysvalueof{/pgfplots/x dir/value}%
+ % they will be reversed again during the final
+ % processing:
+ \edef\pgfplots@xx{-\pgfplots@xx}%
+ \edef\pgfplots@xy{-\pgfplots@xy}%
+ \fi
+ %
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem2\of\pgfplotsE}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@yx=\pgfmathresult
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem3\of\pgfplotsE}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@yy=\pgfmathresult
+ \if r\pgfkeysvalueof{/pgfplots/y dir/value}%
+ % they will be reversed again during the final
+ % processing:
+ \edef\pgfplots@yx{-\pgfplots@yx}%
+ \edef\pgfplots@yy{-\pgfplots@yy}%
+ \fi
+ %
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem4\of\pgfplotsE}%
+ \pgfkeysgetvalue{/pgfplots/plot graphics/snap z}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \let\pgfplots@zx=\pgfmathresult
+ \pgfplotscoordmath{default}{op}{veclen}{%
+ {\pgfplotsarrayvalueofelem4\of\pgfplotsE}%
+ {\pgfplotsarrayvalueofelem5\of\pgfplotsE}%
+ }%
+ \let\pgfplotszlen=\pgfmathresult
+ %
+ % compute 'snap z' relative to
+ % '\pgfplotszlen'
+ \pgfplotscoordmath{default}{parsenumber}{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{default}{op}{multiply}{{\pgfmathresult}{\pgfplotszlen}}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ %
+ \pgfplotscoordmath{default}{op}{abs}{{\pgfplots@zx}}%
+ \pgfplotscoordmath{default}{if less than}{\pgfmathresult}{\pgfplots@loc@TMPa}{%
+ \pgfplotscoordmath{default}{zero}%
+ }{%
+ \let\pgfmathresult=\pgfplots@zx
+ }%
+ \fi
+ \pgfplotscoordmath{default}{tofixed}\pgfmathresult%
+ \let\pgfplots@zx=\pgfmathresult
+ %
+ \edef\pgfmathresult{\pgfplotsarrayvalueofelem5\of\pgfplotsE}%
+ \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@zy=\pgfmathresult
+ \if r\pgfkeysvalueof{/pgfplots/z dir/value}%
+ % they will be reversed again during the final
+ % processing:
+ \edef\pgfplots@zx{-\pgfplots@zx}%
+ \edef\pgfplots@zy{-\pgfplots@zy}%
+ \fi
+ %
+ %
+ \edef\pgfplotsretval{%
+ x={(\pgfplots@xx,\pgfplots@xy)},%
+ y={(\pgfplots@yx,\pgfplots@yy)},%
+ z={(\pgfplots@zx,\pgfplots@zy)},%
+ scale mode=scale uniformly,%
+ }%
+ %
+ \if1\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug
+ \pgfplotsplothandlergraphicspointmapcomputerequiredview@debug@output
+ \fi
+ %
+ \ifx\pgfplotsretval\pgfutil@empty
+ \pgfplots@error{plot graphics failed to perform the 'auto adjust axis' feature \csname on@line\endcsname\space\space (compare 'plot graphics[debug]). The graphics might be scaled incorrectly. Perhaps the provided 'points' are not linearly independent?}%
+ \else
+ \begingroup
+ \pgfkeysgetvalue{/pgfplots/plot graphics/src}\pgfplots@loc@TMPa
+ \t@pgfplots@tokc=\expandafter{\pgfplots@loc@TMPa}%
+ \immediate\write
+ \if1\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug 16\else -1\fi
+ {PGFPlots plot graphics[auto adjust axis=true] {\the\t@pgfplots@tokc} \csname on@line\endcsname: determined options '\pgfplotsretval'.
+ \if1\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug
+ See \the\t@pgfplots@tokc.dat for debug output.
+ \else
+ Use 'plot graphics[debug] to generate debug output files.
+ \fi
+ ^^J}%
+ \endgroup
+ \fi
+ %
+ \fi
+ \fi
+ \pgfmath@smuggleone\pgfplotsretval
+ \endgroup
+}%
+\def\pgfplotsplothandlergraphics@debug@matrix@to@string{%
+ \pgfplotsmatrixtotext\pgfplotsmatrix
+ \let\pgfplotsmatrix@text=\pgfplotsretval
+ \pgfplotsarraytotext\pgfplotsE
+ \let\pgfplotsrhs@text=\pgfplotsretval
+}%
+\def\pgfplotsplothandlergraphicspointmapcomputerequiredview@debug@output{%
+ \begingroup
+ \immediate\openout\w@pgf@writea=\pgfkeysvalueof{/pgfplots/plot graphics/src}.dat
+ \pgfplotsarrayselect0\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotsarrayselect1\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPb=\pgfmathresult
+ \immediate\write\w@pgf@writea{img x unit=\pgfplots@loc@TMPa\space\pgfplots@loc@TMPb\if r\pgfkeysvalueof{/pgfplots/x dir/value}(reversed due to x dir=reverse)\fi,}%
+ \pgfplotsarrayselect2\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotsarrayselect3\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPb=\pgfmathresult
+ \immediate\write\w@pgf@writea{img y unit=\pgfplots@loc@TMPa\space\pgfplots@loc@TMPb\if r\pgfkeysvalueof{/pgfplots/y dir/value}(reversed due to y dir=reverse)\fi,}%
+ \pgfplotsarrayselect4\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotsarrayselect5\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPb=\pgfmathresult
+ \immediate\write\w@pgf@writea{img z unit=\pgfplots@loc@TMPa\space\pgfplots@loc@TMPb,}%
+ \pgfplotsarrayselect6\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotsarrayselect7\of\pgfplotsE\to\pgfmathresult \pgfplotscoordmath{default}{tofixed}{\pgfmathresult}\let\pgfplots@loc@TMPb=\pgfmathresult
+ \immediate\write\w@pgf@writea{img origin=\pgfplots@loc@TMPa\space\pgfplots@loc@TMPb\if r\pgfkeysvalueof{/pgfplots/z dir/value}(reversed due to z dir=reverse)\fi,}%
+ \def\n{^^J}%
+ \def\t{^^I}%
+ \immediate\write\w@pgf@writea{canvasmapmatrix=[\pgfplotsmatrix@text];^^Jcanvasmaprhs = [\pgfplotsrhs@text];^^J}%
+ \immediate\closeout\w@pgf@writea
+ \endgroup
+}%
+
+\def\pgfplots@plot@handler@graphics@process@pointmap{%
+ \begingroup
+ % determine natural size:
+ \pgfplots@invoke@pgfkeyscode{/pgfplots/plot graphics/lowlevel get natural size/.@cmd}{}%
+ \def\pgfplots@loc@TMPa##1##2{%
+ \global\pgf@x=##1
+ \global\pgf@y=##2
+ }%
+ \expandafter\pgfplots@loc@TMPa\pgfmathresult
+ \edef\pgfplots@W{\pgf@sys@tonumber\pgf@x}% natural WIDTH
+ \edef\pgfplots@H{\pgf@sys@tonumber\pgf@y}% natural HEIGHT
+ %
+ \def\pgfplots@extractimg##1##2{%
+ \def\pgfplots@img@x{##1}%
+ \def\pgfplots@img@y{##2}%
+ }%
+ \def\pgfplots@extractimgaspoint##1##2{%
+ \pgfqpoint{##1pt}{##2pt}%
+ }%
+ \expandafter\pgfplots@extractimg\pgfplots@plot@handler@graphics@pointmap@A@img% anchor 1 in image
+ \let\pgfplots@Ax=\pgfplots@img@x
+ \let\pgfplots@Ay=\pgfplots@img@y
+ %
+ \pgfplots@plot@handler@graphics@pointmap@A@canvas% the canvas coordinate corresponding to 'A'
+ \edef\pgfplots@ax{\pgf@sys@tonumber\pgf@x}% call it 'a'
+ \edef\pgfplots@ay{\pgf@sys@tonumber\pgf@y}%
+ %
+ % compute the CANVAS diagonal between the two anchors points a,b,
+ % dd := b-a
+ \pgfpointdiff
+ \pgfplots@plot@handler@graphics@pointmap@A@canvas
+ \pgfplots@plot@handler@graphics@pointmap@B@canvas
+ \edef\pgfplots@ddx{\pgf@sys@tonumber\pgf@x}%
+ \edef\pgfplots@ddy{\pgf@sys@tonumber\pgf@y}%
+ %
+ % compute the IMAGE diagonal between the two image anchor points A,B,
+ % DD := B - A
+ \pgfpointdiff
+ {\expandafter\pgfplots@extractimgaspoint\pgfplots@plot@handler@graphics@pointmap@A@img}
+ {\expandafter\pgfplots@extractimgaspoint\pgfplots@plot@handler@graphics@pointmap@B@img}%
+ \pgfplots@loop@CONTINUEtrue
+ \ifdim\pgf@x=0pt \pgfplots@loop@CONTINUEfalse \fi
+ \ifdim\pgf@y=0pt \pgfplots@loop@CONTINUEfalse \fi
+ \ifpgfplots@loop@CONTINUE
+ \else
+ \pgfplots@error{Sorry, the first two points with '=>' in plot graphics[points={}] are expected to have different image Y coordinates. Please reorder the sequence.}%
+ \fi
+ \edef\pgfplots@DDx{\pgf@sys@tonumber\pgf@x}%
+ \edef\pgfplots@DDy{\pgf@sys@tonumber\pgf@y}%
+ %
+ % What I need now is a shift and the CANVAS dimensions of the
+ % image. Both can be computed using the relative sizes dd/DD.
+ %
+ % The shift is needed to compute the lower left corner of the
+ % CANVAS image. thus, the lower left CANVAS image corresponds to
+ % the (0,0) coordinate in the IMAGE.
+ %
+ % Remember that 'A' is the anchor 1 in IMAGE coordinates. It is a
+ % vector from (0,0) --> (A_x,A_y) in IMAGE coordinates.
+ %
+ % Now, I want a vector (v_x,v_y) such that q + v = a in CANVAS
+ % coordinates. Here, 'q' is the lower left corner; it corresponds
+ % to the (0,0) in IMAGE coordinates. Thus, we have
+ % v = (a-q). Taking the relative sizes of dd and DD, we find
+ %
+ % DD_x / A_x = dd_x / v_x
+ % DD_y / A_y = dd_y / v_y
+ %
+ % and finally q = a-v is the lower left CANVAS coordinate.
+ \pgfmath@basic@divide@{\pgfplots@ddx}{\pgfplots@DDx}%
+ \let\pgfplots@x@rel=\pgfmathresult
+ %
+ \pgfmath@basic@divide@{\pgfplots@ddy}{\pgfplots@DDy}%
+ \let\pgfplots@y@rel=\pgfmathresult
+ %
+ \pgfmath@basic@multiply@{\pgfplots@Ax}{\pgfplots@x@rel}%
+ \let\pgfplots@vx=\pgfmathresult
+ %
+ \pgfmath@basic@multiply@{\pgfplots@Ay}{\pgfplots@y@rel}%
+ \let\pgfplots@vy=\pgfmathresult
+ %
+ %
+ %
+ %
+ % now, the canvas width. It is even simpler because it holds
+ %
+ % DD_x / dd_x = W / w
+ % DD_y / dd_y = H / h
+ %
+ % where (W,H) is the natural size (i.e. in IMAGE coordinates) of the picture and
+ % (w,h) is the size the picture will occupy in CANVAS coordinates.
+ %
+ \pgfmath@basic@multiply@{\pgfplots@x@rel}{\pgfplots@W}%
+ \let\pgfplots@w=\pgfmathresult
+ %
+ \pgfmath@basic@multiply@{\pgfplots@y@rel}{\pgfplots@H}%
+ \let\pgfplots@h=\pgfmathresult
+ %
+ \edef\pgfplots@plot@handler@graphics@DRAW@{%
+ \noexpand\pgfplots@invoke@pgfkeyscode{/pgfplots/plot graphics/lowlevel draw/.@cmd}{%
+ {\pgfplots@w pt}% width
+ {\pgfplots@h pt}% height
+ }%
+ }%
+ \pgfpointadd
+ {\pgfplots@plot@handler@graphics@pointmap@A@canvas}% the canvas coordinate corresponding to 'A'
+ {\pgfqpointscale{-1}
+ {\pgfqpoint{\pgfplots@vx pt}{\pgfplots@vy pt}}%
+ }%
+ \edef\pgfplots@plot@handler@graphics@pointmap@lowerleft@canvas{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+%
+ %
+ %
+ \begingroup
+ \pgftransformshift{}% simply take \pgf@x and \pgf@y
+ %
+ \node[/pgfplots/plot graphics/node] {%
+ \pgfplots@plot@handler@graphics@DRAW@
+ };%
+ \endgroup
+ \ifx\pgfplots@plot@handler@graphics@pointmap@C@canvas\pgfutil@empty
+ \ifpgfplots@threedim
+ \pgfplots@warning{plot graphics in 3D axis has just two inner anchors (those with '(x,y,z)=>(imgx,imgy)'). You should provide a third one such that I can check for correct scaling.}%
+ \fi
+ \else
+ \pgfplots@plot@handler@graphics@pointmap@sanitize@scaling{C}%
+ \ifx\pgfplots@plot@handler@graphics@pointmap@D@canvas\pgfutil@empty
+ \else
+ \pgfplots@plot@handler@graphics@pointmap@sanitize@scaling{D}%
+ \fi
+ \fi
+ \endgroup
+}%
+
+% Checks if the logical and canvas coordinates of the point identified
+% by #1 are correct.
+%
+% #1: a character in {A,B,C...}.
+%
+\def\pgfplots@plot@handler@graphics@pointmap@sanitize@scaling#1{%
+ \begingroup
+ \expandafter\let\expandafter\pgfplots@point@img\csname pgfplots@plot@handler@graphics@pointmap@#1@img\endcsname
+ \expandafter\let\expandafter\pgfplots@point@canvas\csname pgfplots@plot@handler@graphics@pointmap@#1@canvas\endcsname
+ \expandafter\let\expandafter\pgfplots@point@logical\csname pgfplots@plot@handler@graphics@pointmap@#1@logical\endcsname
+ \expandafter\pgfplots@extractimgaspoint\pgfplots@point@img% anchor 3 in image
+ \edef\pgfplots@Cx{\pgf@sys@tonumber\pgf@x}%
+ \edef\pgfplots@Cy{\pgf@sys@tonumber\pgf@y}%
+ %
+ \pgfmath@basic@multiply@{\pgfplots@Cx}{\pgfplots@x@rel}%
+ \let\pgfplots@Cx=\pgfmathresult
+ %
+ \pgfmath@basic@multiply@{\pgfplots@Cy}{\pgfplots@y@rel}%
+ \let\pgfplots@Cy=\pgfmathresult
+ \pgfpointadd
+ {\pgfplots@plot@handler@graphics@pointmap@lowerleft@canvas}%
+ {\pgfpoint\pgfplots@Cx\pgfplots@Cy}%
+ \edef\pgfplots@point@canvas@check{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ \pgfpointdiff
+ {\pgfplots@point@canvas@check}%
+ {\pgfplots@point@canvas}%
+ \ifdim\pgf@x<0pt \pgf@x=-\pgf@x\fi
+ \ifdim\pgf@y<0pt \pgf@y=-\pgf@y\fi
+ \def\pgfplots@is@the@same@point{1}%
+ \ifdim\pgf@x>\pgfkeysvalueof{/pgfplots/plot graphics/squeeze tol}
+ \def\pgfplots@is@the@same@point{0}%
+ \else
+ \ifdim\pgf@y>\pgfkeysvalueof{/pgfplots/plot graphics/squeeze tol}
+ \def\pgfplots@is@the@same@point{0}%
+ \fi
+ \fi
+ \if0\pgfplots@is@the@same@point
+ %
+ \begingroup
+ \pgfkeysgetvalue{/pgfplots/plot graphics/src}\pgfplots@loc@TMPa
+ \t@pgfplots@tokc=\expandafter{\pgfplots@loc@TMPa}%
+ \def\pgfplots@extractcoord##1##2##3{##1,##2,##3}%
+ \pgfplots@error{sorry, I can't fix the scaling of 'plot graphics {\the\t@pgfplots@tokc}'.
+ The points (\expandafter\pgfplots@extractcoord\pgfplots@plot@handler@graphics@pointmap@A@logical) and (\expandafter\pgfplots@extractcoord\pgfplots@plot@handler@graphics@pointmap@B@logical) are correct, but the point (\expandafter\pgfplots@extractcoord\pgfplots@point@logical) is wrong (its position vector has an error of (\the\pgf@x,\the\pgf@y) which is larger than 'squeeze tol=\pgfkeysvalueof{/pgfplots/plot graphics/squeeze tol}'). This is probably caused by improper relations between the axis' unit vectors because the view is incorrect.^^J
+ - Is the 'view' argument correct (matlab: [h,v] = view)? ^^J
+ - Does your image have a non-trivial 'plot box ratio' (matlab: ratio = pbaspect)?^^J
+ Please refer to the pgfplots manual for details. If you continue now, I'll show the points in the image}%
+ \endgroup
+ %
+ %
+ \scope
+ \pgfsetstrokecolor{black}%
+ \pgfsetfillcolor{red}%
+ \pgfpathcircle{\pgfplots@point@canvas@check}{2pt}%
+ \pgfusepath{stroke,fill}%
+ \pgfsetfillcolor{green}%
+ \pgfpathcircle{\pgfplots@point@canvas}{2pt}%
+ \pgfusepath{stroke,fill}%
+ \draw[->,red]
+ \pgfextra{
+ \pgfpathmoveto{\pgfplots@point@canvas@check}%
+ \pgfpathlineto{\pgfplots@point@canvas}};
+ \endscope
+ \fi
+ \endgroup
+}
+
+\def\pgfplots@plot@handler@graphics@usebb{%
+ \pgfpointdiff{\pgfplots@plot@handler@graphics@bb@first}{\pgfplots@plot@handler@graphics@bb@second}%
+ \def\pgfplots@plot@handler@graphics@finish@ok{1}%
+ \ifdim\pgf@x=0pt
+ \def\pgfplots@plot@handler@graphics@finish@ok{0}%
+ \else
+ \ifdim\pgf@y=0pt
+ \def\pgfplots@plot@handler@graphics@finish@ok{0}%
+ \fi
+ \fi
+ \if0\pgfplots@plot@handler@graphics@finish@ok
\pgfplots@error{Error using 'plot graphics': I got too few coordinates! I expected the lower left and upper right corners!}%
\xdef\pgfplots@plot@handler@graphics@bb@first{\noexpand\pgfqpoint{0pt}{0pt}}%
+ \xdef\pgfplots@plot@handler@graphics@bb@first{\noexpand\pgfqpoint{0pt}{0pt}}%
\fi
- \ifx\pgfplots@plot@handler@graphics@bb@second\pgfutil@empty
- \pgfplots@error{Error using 'plot graphics': I got too few coordinates! I expected the lower left and upper right corners!}%
- \xdef\pgfplots@plot@handler@graphics@bb@second{\noexpand\pgfqpoint{0pt}{0pt}}%
- \fi
\begingroup
% determine the lower left / upper right corners.
\pgfplots@plot@handler@graphics@bb@first
@@ -6233,11 +8378,44 @@
\ifx\pgfplots@loc@TMPd\pgfutil@empty
\pgfplots@error{Error using 'plot graphics': I don't have a graphics file name! Please set the '/pgfplots/plot graphics/src' key to the image file name. Skipping this plot.}%
\else
+ \begingroup
+ \t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPc}%
+ %
+ \def\pgfplots@loc@TMPa{#1}%
+ \def\pgfplots@loc@TMPb{#2}%
+ %
+ \edef\pgfplots@loc@TMPc{%
+ \the\t@pgfplots@toka,%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty\else width=#1,\fi
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty\else height=#2,\fi
+ }%
+ \pgfmath@smuggleone\pgfplots@loc@TMPc
+ \endgroup
+ %
\def\pgfplots@loc@TMPa{\pgfkeysvalueof{/pgfplots/plot graphics/includegraphics cmd}}%
- \expandafter\pgfplots@loc@TMPa\expandafter[\pgfplots@loc@TMPc,width=#1,height=#2]{\pgfplots@loc@TMPd}%
+ \expandafter\pgfplots@loc@TMPa\expandafter[\pgfplots@loc@TMPc]{\pgfplots@loc@TMPd}%
\fi
}%
+\def\pgfplots@plot@handler@graphics@getnaturalsize{%
+ \begingroup
+ \setbox0=\hbox{%
+ \pgfplots@invoke@pgfkeyscode{/pgfplots/plot graphics/lowlevel draw/.@cmd}{{}{}}%
+ }%
+ \pgf@x=\wd0
+ \pgf@y=\ht0
+ \ifdim\dp0>0pt
+ \advance\pgf@y by\dp0
+ \else
+ \ifdim\dp0<0pt
+ \advance\pgf@y by-\dp0
+ \fi
+ \fi
+ \xdef\pgfplots@glob@TMPb{{\the\pgf@x}{\the\pgf@y}}%
+ \endgroup
+ \let\pgfmathresult=\pgfplots@glob@TMPb
+}%
+
% legends for plot graphics should not use 'plot graphics' themselfes
% (for obvious reasons).
% This key handles that. Furthermore, it remembers the plot mark for
@@ -6263,668 +8441,6 @@
}
-% The low-level tikz plot handler for 3D mesh and surface plots.
-%
-% It expects
-% a) a coordinate stream which is a linearized matrix, iterated either
-% rowwise or column wise,
-% b) the current set of options in /pgfplots/mesh/.
-%
-%
-% ATTENTION:
-% this handler is NOT as general as the others. In particular, it
-% can't be interrupted by TeX groups: every single statement,
-% starting with streamstart and ending with stream end, must be in
-% the same scope!
-%
-% As a consequence, you can't use this handler inside of (all) TikZ
-% input streams. Try it out. It will work in pgfplots, however.
-%
-% Furthermore, it relies on a couple of pgfplots macros. This may
-% change in future versions.
-% It relies on:
-% - \ifpgfplots@curplot@threedim
-% - \pgfplots@current@point@meta
-% -> it also invokes \pgfplots@perpointmeta@preparetrafo and its
-% @APPLY counterpart which checks for
-% - \pgfplots@metamax
-% If you use it outside of pgfplots, use
-% \global\let\pgfplots@metamax=\pgfutil@empty
-% This is can be used without an initialised
-% pgfplots axes - as long as \pgfplots@current@point@meta is in
-% the range [0,1000].
-% - for the case 'shader=interp', a bounding box must be established
-% before the plot is finished. This must be done using
-% \def\pgfplotspointbbupperright{\pgfqpointxyz{2}{2}{0.9}}
-% \def\pgfplotspointbblowerleft {\pgfqpointxyz{0}{0}{0.1}}
-% or something like that.
-%
-% Besides these internals, it also relies on all public /pgfplots
-% configuration keys related to mesh/surface plots.
-%
-% Please note that the 'z buffer' feature will not work without
-% pgfplots (especially the z buffer=sort feature).
-%
-% Here is an example which compiles without a pgfplots axes:
-% ----------------------------------------------------------
-% \begin{tikzpicture}
-% \scope[
-% /pgfplots/.cd,
-% surf,
-% shader=faceted,
-% mesh/rows=4,
-% mesh/cols=4,
-% mesh/num points=,
-% /tikz/x={(0.44237cm,-0.07439cm)},
-% /tikz/y={(0.30942cm,0.23932cm)},
-% /tikz/z={(0.0cm,1.5cm)},
-% ]
-% \makeatletter
-%
-% \global\let\pgfplots@metamax=\pgfutil@empty
-% \pgfplots@curplot@threedimtrue
-%
-% \pgfplotsplothandlermesh
-% \pgfplotstreamstart
-%
-% \def\rangea{0.21}%
-% \def\rangeb{0.9}%
-%
-% \pgfmathparse{1000/(\rangeb-\rangea)}
-% \let\factor=\pgfmathresult
-%
-% \def\simplecoordinate(#1,#2,#3){%
-% \pgfmathparse{\factor*(#3 - \rangea)}%
-% \let\pgfplots@current@point@meta=\pgfmathresult
-% \pgfplotstreampoint{\pgfqpointxyz{#1}{#2}{#3}}%
-% }%
-% % for the case 'shaer=interp':
-% \def\pgfplotspointbbupperright{\pgfqpointxyz{2}{2}{0.9}}
-% \def\pgfplotspointbblowerleft {\pgfqpointxyz{0}{0}{0.1}}
-%
-% \simplecoordinate(0,3,0.7)
-% \simplecoordinate(1,3,0.5)
-% \simplecoordinate(2,3,0.58)
-% \simplecoordinate(3,3,0.9)
-%
-% \simplecoordinate(0,2,0.68)
-% \simplecoordinate(1,2,0.22)
-% \simplecoordinate(2,2,0.25)
-% \simplecoordinate(3,2,0.4)
-%
-% \simplecoordinate(0,1,0.6)
-% \simplecoordinate(1,1,0.3)
-% \simplecoordinate(2,1,0.21)
-% \simplecoordinate(3,1,0.3)
-%
-% \simplecoordinate(0,0,0.8)
-% \simplecoordinate(1,0,0.56)
-% \simplecoordinate(2,0,0.5)
-% \simplecoordinate(3,0,0.75)
-%
-%
-% \pgfplotstreamend
-% \pgfusepath{stroke}
-%
-% \endscope
-% \end{tikzpicture}
-% ----------------------------------------------------------
-% END OF EXAMPLE
-% -> see also the legend image for mesh plots.
-%
-\def\pgfplotsplothandlermesh{%
- \def\pgf@plotstreamstart{%
-% \scope
- \pgfplotsautocompletemeshkeys%
- \pgfkeysgetvalue{/pgfplots/mesh/rows}\pgfplotsplothandlermesh@rows
- \pgfkeysgetvalue{/pgfplots/mesh/cols}\pgfplotsplothandlermesh@cols
- \pgfkeysgetvalue{/pgfplots/mesh/num points}\pgfplotsplothandlermesh@numpoints
- %
- \pgfutil@ifundefined{pgfplots@drawmodes}{%
- \let\pgfplots@drawmodes=\tikz@mode
- \let\pgfplots@drawoptions=\tikz@options
- }{}%
- %
- \def\pgfplotsplothandlermesh@ONEDIMMODE{0}%
- \ifnum\pgfplotsplothandlermesh@cols=1
- \def\pgfplotsplothandlermesh@ONEDIMMODE{1}%
- \fi
- \ifnum\pgfplotsplothandlermesh@rows=1
- \def\pgfplotsplothandlermesh@ONEDIMMODE{1}%
- \fi
- %
- %
- % Prepare color data source:
- \ifx\pgfplotspointmetainputhandler\pgfutil@empty%
- % oh. There is no color data!? Well... then use a constant
- % color.
- %
- % This activates tikz colors:
- %\tikz@options
- \def\pgfplotsplothandlermesh@preparedrawforcurrent{%
- \pgfplots@drawoptions
- }%
- \else
- % Ok, we have color data.
- %
- % Prepare:
- \pgfplots@perpointmeta@preparetrafo
- \def\pgfplotsplothandlermesh@preparedrawforcurrent{%
- \pgfplotscolormapdefinemappedcolor{\pgfplotsplothandlermesh@shader@cellcolor}%
-% \pgfplotsplothandlermesh@setcolor{mapped color}%
- % This activates tikz colors:
-%\message{executing \meaning\pgfplots@drawoptions'}%
- %\tikz@options
- \pgfplots@drawoptions
- }%
- %
- % Acquire the values for \tikz@mode@* [used for faceted]
- \pgfplots@drawmodes
- %
- % Now, process the 'shader' key here:
- \if\pgfplotsplothandlermesh@ONEDIMMODE1
- \def\pgfplots@meshmode{m}% 'mesh'
- \fi
- \if\pgfplots@meshmode m% mesh
- % this is processed by the 'shader=flat' code below.
- \def\pgfplotsplothandlermesh@shader{0}% 'flat'
- \fi
- \if\pgfplotsplothandlermesh@shader2% 'shader=interp'
- \pgflibrarysurfshadingifactive
- {}%
- {%
- \pgfutil@ifundefined{pgfplotsplothandlermesh@shader@warning}{%
- \pgfplots@error{Sorry, surface shading (shader=interp) is NOT available for the selected driver `\pgfsysdriver'. I will use 'shader=flat' if you continue now}%
- \gdef\pgfplotsplothandlermesh@shader@warning{x}%
- }{}%
- \def\pgfplotsplothandlermesh@shader{0}%
- }%
- \fi
- \if\pgfplotsplothandlermesh@zbuffer@choice4% 'z buffer=sort':
- \if\pgfplotsplothandlermesh@shader2% 'shader=interp'
- \pgfplots@error{Sorry, 'shader=interp' does not support 'z buffer=sort'. If you continue now, 'shader=flat' will be used.}%
- \def\pgfplotsplothandlermesh@shader{0}% 'flat'
- \fi
- \fi
- \ifnum\pgfplotsplothandlermesh@shader<2
- % 0 == 'flat'
- % 1 == 'faceted'
- \if\pgfplotsplothandlermesh@flatmode c% 'flat corner':
- %
- % use colordata of ONE corner point. That's easy, not
- % much to do.
- \let\pgfplotsplothandlermesh@unpack=\pgfplotsplothandlermesh@unpack@corner
- \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@preparedrawforcurrent}%
- \t@pgfplots@tokb={%
- \pgfplots@perpointmeta@trafo@APPLY
- \let\pgfplotsplothandlermesh@shader@cellcolor=\pgfplotspointmetatransformed}%
- \edef\pgfplotsplothandlermesh@preparedrawforcurrent{%
- \the\t@pgfplots@tokb
- \the\t@pgfplots@toka
- }%
- \else
- % 'flat mean':
- %
- % use colordata as mean of all corners for shading.
- \let\pgfplotsplothandlermesh@unpack=\pgfplotsplothandlermesh@unpack@mean@accum
- \global\pgfplots@tmpa=0pt
- \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@preparedrawforcurrent}%
- \if\pgfplotsplothandlermesh@ONEDIMMODE0
- \t@pgfplots@tokb={\global\divide\pgfplots@tmpa by4 }%
- \else
- \t@pgfplots@tokb={\global\divide\pgfplots@tmpa by2 }%
- \fi
- \t@pgfplots@tokc={%
- \edef\pgfplotsplothandlermesh@shader@cellcolor{\pgf@sys@tonumber\pgfplots@tmpa}%
- \global\pgfplots@tmpa=0pt }%
- \edef\pgfplotsplothandlermesh@preparedrawforcurrent{%
- \the\t@pgfplots@tokb
- \the\t@pgfplots@tokc
- \the\t@pgfplots@toka
- }%
- \fi
- \if\pgfplots@meshmode m%
- % 'mesh' plot: stroke only and use the 'flat' code
- % here just to define the color for each mesh
- % segment.
- \let\pgfplotsplothandlermesh@usepath=\pgfusepathqstroke
- \else
- % 'surf' plot:
- \let\pgfplotsplothandlermesh@usepath=\pgfusepathqfillstroke
- % the distinction between 'faceted' and 'flat' is
- % technical: it is just the default draw color.
- %
- % 'flat,draw=black' is the same as 'faceted'.
- \if\pgfplotsplothandlermesh@shader1% faceted
- % make sure there is a the correct color.
- \expandafter\def\expandafter\pgfplots@drawoptions\expandafter{%
- \pgfplots@drawoptions
- \pgfsetstrokecolor{\pgfkeysvalueof{/pgfplots/faceted color}}%
- }%
- \fi
- \fi
- \else
- % 'shader=2': 'interp':
- % very simple: defer work to surf library. Only
- % provide the mapped colordata.
- %
- % This won't be used for mesh plots, neither in one
- % nor in two dimensions.
- \pgfkeyssetvalue{/pgfplots/surf shading/north east corner}{\pgfplotspointbbupperright}%
- \pgfkeyssetvalue{/pgfplots/surf shading/south west corner}{\pgfplotspointbblowerleft}%
- \pgfkeyssetvalue{/pgfplots/surf shading/anchor}{\pgfpointorigin}%
- \pgfkeysgetvalue{/pgfplots/colormap name}\pgfplots@loc@TMPa
- \expandafter\pgfplotscolormaptopdffunction\expandafter{\pgfplots@loc@TMPa}%
- \pgfkeyslet{/pgfplots/surf shading/colormap}\pgfplotsretval
- \let\pgfplotsplothandlermesh@unpack=\relax % unused.
- \let\pgfplotsplothandlermesh@preparedrawforcurrent=\relax
- \pgfkeyslet{/pgfplots/surf shading/cols}\pgfplotsplothandlermesh@cols
- \if\pgfplots@plot@mesh@ordering0%
- % ordering=x varies:
- \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@shader@interp%
- \else
- % colwise:
- %
- % The low level shader NEEDS rowwise ordering. So, we need to transpose the data matrix.
- % As usual in TeX, we should save macros as much as possible. I guess we NEED at least one macro for each matrix row.
- % Idea:
- % while we iterate colwise through the input data, accumulate row vectors.
- % Then, process the row vectors.
- % Since vectors are expensive (in terms of number of macros), we use fast "append" lists instead of vectors.
- \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@shader@interp@incremental@transpose%
- %
- % init all required row vectors:
- \c@pgfplots@scanlineindex=0
- \pgfutil@loop
- \ifnum\c@pgfplots@scanlineindex<\pgfplotsplothandlermesh@rows\relax
- \expandafter\pgfplotsapplistXnewempty\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
- \advance\c@pgfplots@scanlineindex by1
- \pgfutil@repeat
- %\pgfkeyslet{/pgfplots/surf shading/cols}\pgfplotsplothandlermesh@rows
- %\pgfplots@error{Sorry, the 'shader=interp' does not yet support 'mesh/ordering=colwise'... You can continue now, but the plot will be transposed.}%
- \fi
- \pgfplotslibrarysurfstreamstart
- \let\pgfplotsplothandlermesh@usepath=\pgfusepathqfill
- \fi
- \fi
- % PREPARE THE STREAM PROCESSING:
- \def\pgfplots@plothandler@unbounded@visualize@jump{%
- \pgfplotstreampoint{\global\pgf@x=-16000.0pt \global\pgf@y=-16000.0pt }%
- }%
- \let\pgfplotsplothandlermesh@check@unbounded=\pgfplotsplothandlermesh@check@unbounded@setbool
- \if\pgfplotsplothandlermesh@ONEDIMMODE1%
- % Special case: 1D mesh processing
- \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@ONEDIM@draw%
- \global\let\pgf@plotstreamspecial=\pgfutil@gobble%
- \global\let\pgf@plotstreamend=\pgfplotsplothandlermesh@finish%
- \let\pgfplotsplothandlermesh@draw@element=\pgfplotsplothandlermesh@draw@element@line
- \def\pgfplotsplothandlermesh@process@element{%
- \pgfplotsplothandlermesh@draw@element
- \pgfplotsplothandlermesh@i
- \pgfplotsplothandlermesh@im
- }%
- \if\pgfplots@unbounded@handler j%
- % unbounded coords=jump:
- % append checks for unbounded coords to
- % \pgfplotsplothandlermesh@process@element
- \t@pgfplots@tokb={%
- \pgfplots@loc@tmptrue
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@i\relax
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@im\relax
- }%
- \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@process@element}%
- \edef\pgfplotsplothandlermesh@process@element{%
- \the\t@pgfplots@tokb
- \noexpand\ifpgfplots@loc@tmp
- \the\t@pgfplots@toka
- \noexpand\fi
- }%
- \fi
- \if\pgfplotsplothandlermesh@zbuffer@choice4%
- % z buffer=sort:
- % create a z buffer:
- % the z buffer contains elements {<view depth>}{{<pt1>}{<pt2>}{<pt3>}{<pt4>}}
- \pgfplotsarraynewempty\pgfplots@zbuffer@local
- %
- % and collect each point into the z buffer:
- \def\pgfplotsplothandlermesh@process@element{%
- \pgfplotsmathviewdepthxyz{\pgfplots@current@point@x}{\pgfplots@current@point@y}{\pgfplots@current@point@z}% FIXME relies on pgfplots macros
- % assemble array element:
- \edef\pgfplots@loc@TMPa{%
- {\pgfmathresult}%
- {%
- {\pgfplotsplothandlermesh@i}%
- {\pgfplotsplothandlermesh@im}%
- }%
- }%
- \expandafter\pgfplotsarraypushback\pgfplots@loc@TMPa\to\pgfplots@zbuffer@local
- }%
- \fi
- \else
- % ok, normal 2D mesh processing:
- %
- % And now finally: initialise the conversion from
- % LINEARIZED COORD STREAM -> DATA MATRIX:
- \if\pgfplots@plot@mesh@ordering0%
- % x varies (=rowwise):
- \let\pgfplotsplothandlermesh@scanlinelength=\pgfplotsplothandlermesh@cols
- \else
- % y varies (=colwise):
- \let\pgfplotsplothandlermesh@scanlinelength=\pgfplotsplothandlermesh@rows
- \fi
- \def\pgfplotsplothandlermesh@process@element{%
- \pgfplotsplothandlermesh@draw@element
- \pgfplotsplothandlermesh@im@jm
- \pgfplotsplothandlermesh@im@j
- \pgfplotsplothandlermesh@i@j
- \pgfplotsplothandlermesh@i@jm
- }%
- % Init memory:
- % in fact, this does only remember the maximum capacity;
- % it doesn't fill the memory.
- \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
- \advance\c@pgfplots@scanlineindex by1
- \pgfplotsdequenewempty{lastscanline}\capacity{\the\c@pgfplots@scanlineindex}%
- %
- \if2\pgfplotsplothandlermesh@shader
- % shader=interp does not support z buffer=sort.
- % It also has its own \pgf@plotstreampoint method, see
- % above.
- \def\pgfplots@plothandler@unbounded@visualize@jump{%
- \pgfplots@error{Sorry, shader=interp does not support 'unbounded coords=jump'. Please use 'shader=flat' for this case.}%
- }%
- \else
- \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@fillscanline%
- \if\pgfplotsplothandlermesh@zbuffer@choice4%
- % z buffer=sort:
- % create a z buffer:
- % the z buffer contains elements {<view depth>}{{<pt1>}{<pt2>}{<pt3>}{<pt4>}}
- \pgfplotsarraynewempty\pgfplots@zbuffer@local
- %
- % and collect each point into the z buffer
- % (instead of drawing it):
- \def\pgfplotsplothandlermesh@process@element{%
- \pgfplotsmathviewdepthxyz{\pgfplots@current@point@x}{\pgfplots@current@point@y}{\pgfplots@current@point@z}% FIXME relies on pgfplots macros
- % assemble array element:
- \edef\pgfplots@loc@TMPa{%
- {\pgfmathresult}%
- {%
- {\pgfplotsplothandlermesh@im@jm}%
- {\pgfplotsplothandlermesh@im@j}%
- {\pgfplotsplothandlermesh@i@j}%
- {\pgfplotsplothandlermesh@i@jm}%
- }%
- }%
- \expandafter\pgfplotsarraypushback\pgfplots@loc@TMPa\to\pgfplots@zbuffer@local
- }%
- \fi
- \if\pgfplots@unbounded@handler j%
- % unbounded coords=jump:
- % append checks for unbounded coords to
- % \pgfplotsplothandlermesh@process@element
- \t@pgfplots@tokb={%
- \pgfplots@loc@tmptrue
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@i@j\relax
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@i@jm\relax
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@im@j\relax
- \expandafter\pgfplotsplothandlermesh@check@unbounded\pgfplotsplothandlermesh@im@jm\relax
- }%
- \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@process@element}%
- \edef\pgfplotsplothandlermesh@process@element{%
- \the\t@pgfplots@tokb
- \noexpand\ifpgfplots@loc@tmp
- \the\t@pgfplots@toka
- \noexpand\fi
- }%
- \fi
- \fi
- %
- \global\let\pgf@plotstreamspecial=\pgfutil@gobble%
- \global\let\pgf@plotstreamend=\pgfplotsplothandlermesh@finish%
- \let\pgfplotsplothandlermesh@draw@element=\pgfplotsplothandlermesh@draw@element@rectangle
- \fi
- \c@pgfplots@scanlineindex=0
- }%
-}%
-
-\def\pgfplotsplothandlermesh@check@unbounded@setbool#1#2\relax{%
- \ifdim#1=-16000pt
- \pgfplots@loc@tmpfalse
- \fi
-}%
-
-\long\def\pgfplotsplothandlermesh@defaultlegend@img#1{%
- \scope[%
- #1,
- /pgfplots/mesh/rows=3,
- /pgfplots/mesh/cols=3,
- /pgfplots/mesh/num points=,
- /tikz/x={(0.44237cm,-0.07439cm)},
- /tikz/y={(0.30942cm,0.23932cm)},
- /tikz/z={(0.0cm,1.5cm)},
- scale=0.4,
- yshift=-0.7cm,
- ]
- \let\pgfplots@metamax=\pgfutil@empty
- \pgfplots@curplot@threedimtrue
-
- \pgfplotsplothandlermesh
- \pgfplotstreamstart
-
- \def\rangea{0.21}%
- \def\rangeb{0.7}%
-
- \pgfmathparse{1000/(\rangeb-\rangea)}
- \let\factor=\pgfmathresult
-
- \pgfutil@ifundefined{pgfqpointxyz@orig}{%
- \let\pgfqpointxyz@orig=\pgfqpointxyz
- }{}%
- %
- \def\simplecoordinate(##1,##2,##3){%
- \pgfmathparse{\factor*(##3 - \rangea)}%
- \pgfmathfloatparsenumber\pgfmathresult
- \let\pgfplots@current@point@meta=\pgfmathresult
- % pgfplots changes \pgfqpointxyz to
- % \pgfplotspointdescriptionxy inside of legends, so use the
- % '@orig' point command:
- \pgfplotstreampoint{\pgfqpointxyz@orig{##1}{##2}{##3}}%
- }%
- % for the case 'shader=interp':
- \def\pgfplotspointbbupperright{\pgfqpointxyz@orig{2}{2}{0.9}}
- \def\pgfplotspointbblowerleft {\pgfqpointxyz@orig{0}{0}{0.1}}
-
- \simplecoordinate(0,2,0.7)
- \simplecoordinate(1,2,0.5)
- \simplecoordinate(2,2,0.43)
-
- \simplecoordinate(0,1,0.68)
- \simplecoordinate(1,1,0.4)
- \simplecoordinate(2,1,0.25)
-
- \simplecoordinate(0,0,0.6)
- \simplecoordinate(1,0,0.35)
- \simplecoordinate(2,0,0.21)
-
- \pgfplotstreamend
- \pgfusepath{stroke}
- \endscope
-}%
-
-\def\pgfplotsplothandlermesh@finish{%
- \ifnum\pgfplotsplothandlermesh@shader=2
- % shader=interp:
- \ifx\pgf@plotstreampoint\pgfplotsplothandlermesh@shader@interp@incremental@transpose%
- % This is the case for 'mesh/ordering=colwise'. We need to finish the transpose procedure:
- \pgfplotsplothandlermesh@shader@interp@transpose@finish
- \fi
- \pgfplotslibrarysurfstreamend
- \pgfplotslibrarysurfdrawinpicture
- \else
- \if\pgfplotsplothandlermesh@zbuffer@choice4%
- % z buffer=sort:
- % process the z buffer:
- \pgfkeyslet{/pgfplots/iflessthan/.@cmd}\pgfplotsplothandlermesh@zbuffer@sort@iflessthen
- \pgfkeysdef{/pgfplots/array/unscope pre}{%
- \pgfplotsarrayforeachungrouped\pgfplots@zbuffer@local\as\curelem{%
- \expandafter\pgfplotsplothandlermesh@draw@zbufferelement\curelem%
- }%
- }%
- \pgfkeysdef{/pgfplots/array/unscope post}{}%
- \pgfplotsarraysort\pgfplots@zbuffer@local
- \fi
- \fi
-% \endscope
-}%
-
-% the pgf@plotstreampoint routine for the first scan line:
-\def\pgfplotsplothandlermesh@fillscanline#1{%
- \pgf@process{#1}%
- \edef\pgfplotsplothandlermesh@i@j{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}}%
- \expandafter\pgfplotsdequepushback\pgfplotsplothandlermesh@i@j\to{lastscanline}%
- \advance\c@pgfplots@scanlineindex by1
- \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
- % second line!
- \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@draw%%
- \c@pgfplots@scanlineindex=0
- \fi
-}%
-
-% This is the pgf@plotstreampoint for all scan lines starting with the
-% second.
-%
-% We perform
-% for i = 1 to rows (note the 1! 0 would be the first row)
-% for j = 0 to cols
-% get (i-1, j) from front of deque // remember: i: rows, j : cols. We iterate rowwise.
-% push (i,j) to back of deque
-% if j > 0
-% draw
-% (i-1,j-1) [from last iteration] -- (i-1,j) [from deque]
-% -- ( i,j-1) [from last iteration] -- ( i,j) [from #1]
-% endif
-% let (i-1,j-1) := (i-1,j) // for next iteration
-% let ( i,j-1) := ( i,j) // for next iteration
-% end
-% end
-%
-% This is a SWEEP through the data matrix.
-\def\pgfplotsplothandlermesh@draw#1{%
- % NOTATION:
- % 'im == (i-1)'
- % 'jm == (j-1)'
- \pgf@process{#1}%
- \edef\pgfplotsplothandlermesh@i@j{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}}% FIXME relies on pgfplots macros
-%\message{##\the\c@pgfplots@scanlineindex: prepare rectangle with corner \meaning\pgfplotsplothandlermesh@i@j.}%
- \pgfplotsdequepopfront{lastscanline}\to\pgfplotsplothandlermesh@im@j
- \expandafter\pgfplotsdequepushback\pgfplotsplothandlermesh@i@j\to{lastscanline}%
- \ifnum\c@pgfplots@scanlineindex>0
- \pgfplotsplothandlermesh@process@element
- \fi
- \let\pgfplotsplothandlermesh@im@jm=\pgfplotsplothandlermesh@im@j
- \let\pgfplotsplothandlermesh@i@jm=\pgfplotsplothandlermesh@i@j
- \advance\c@pgfplots@scanlineindex by1
- \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
- \c@pgfplots@scanlineindex=0
- \fi
-}%
-\def\pgfplotsplothandlermesh@shader@interp#1{%
- \pgfplots@perpointmeta@trafo@APPLY
- \pgfplotslibrarysurfstreamcoord{#1}{\pgfplotspointmetatransformed}%
-}%
-\def\pgfplotsplothandlermesh@shader@interp@incremental@transpose#1{%
- \pgfplots@perpointmeta@trafo@APPLY
- \pgf@process{#1}%
- \edef\pgfplotsplothandlermesh@i{\noexpand\pgfplotsplothandlermesh@shader@interp@next{\the\pgf@x}{\the\pgf@y}{\pgfplotspointmetatransformed}}%
- %
- % Store the postprocessed point into the appropriate row vector:
- \def\pgfplots@loc@TMPa{\expandafter\pgfplotsapplistXpushback\expandafter{\pgfplotsplothandlermesh@i}\to}
- \expandafter\pgfplots@loc@TMPa\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
- %
- \advance\c@pgfplots@scanlineindex by1
- \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
- \c@pgfplots@scanlineindex=0
- \fi
-}%
-\def\pgfplotsplothandlermesh@shader@interp@transpose@finish{%
- % Now, "execute" each row vector:
- \def\pgfplotsplothandlermesh@shader@interp@next##1##2##3{%
- \pgfplotslibrarysurfstreamcoord{\global\pgf@x=##1 \global\pgf@y=##2 }{##3}%
- }%
- \c@pgfplots@scanlineindex=0
- \pgfutil@loop
- \ifnum\c@pgfplots@scanlineindex<\pgfplotsplothandlermesh@rows\relax
- \expandafter\pgfplotsapplistXlet\expandafter\pgfplots@loc@TMPd\expandafter=\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
- \expandafter\pgfplotsapplistXnewempty\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname% clear
- % execute the row:
- \pgfplots@loc@TMPd
- \advance\c@pgfplots@scanlineindex by1
- \pgfutil@repeat
- \let\pgfplots@loc@TMPd=\relax
-}%
-
-\def\pgfplotsplothandlermesh@draw@zbufferelement#1#2{%
- \pgfplotsplothandlermesh@draw@element#2\relax
-}%
-% a possible value for \pgfplotsplothandlermesh@draw@element
-\def\pgfplotsplothandlermesh@draw@element@line#1#2{%
- \pgfpathmoveto{\expandafter\pgfplotsplothandlermesh@unpack#1}%
- \pgfpathlineto{\expandafter\pgfplotsplothandlermesh@unpack#2}%
- \pgfplotsplothandlermesh@preparedrawforcurrent
- \pgfplotsplothandlermesh@usepath
-}%
-% a possible value for \pgfplotsplothandlermesh@draw@element
-\def\pgfplotsplothandlermesh@draw@element@rectangle#1#2#3#4{%
- \pgfpathmoveto{\expandafter\pgfplotsplothandlermesh@unpack#1}%
- \pgfpathlineto{\expandafter\pgfplotsplothandlermesh@unpack#2}%
- \pgfpathlineto{\expandafter\pgfplotsplothandlermesh@unpack#3}%
- \pgfpathlineto{\expandafter\pgfplotsplothandlermesh@unpack#4}%
- \pgfplotsplothandlermesh@preparedrawforcurrent
- \pgfpathclose
- \pgfplotsplothandlermesh@usepath
-}%
-
-\def\pgfplotsplothandlermesh@zbuffer@sort@iflessthen#1#2#3#4\pgfeov{%
- \edef\pgfplots@loc@TMPa{#1}%
- \expandafter\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@\pgfplots@loc@TMPa\relax
- \let\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@a=\pgfmathresult
- \edef\pgfplots@loc@TMPb{#2}%
- \expandafter\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@\pgfplots@loc@TMPb\relax
- \let\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@b=\pgfmathresult
- \ifdim\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@b pt<\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@a pt%
- #3\relax
- \else
- #4\relax
- \fi
-}%
-\def\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@#1#2{%
- \def\pgfmathresult{#1}%
-}%
-
-% #1: projected x coord
-% #2: projected y coord
-% #3: per point meta (if any)
-\def\pgfplotsplothandlermesh@unpack@corner#1#2#3{%
- \global\pgf@x=#1\relax
- \global\pgf@y=#2\relax
-}%
-\def\pgfplotsplothandlermesh@unpack@mean@accum#1#2#3{%
- \global\pgf@x=#1\relax
- \global\pgf@y=#2\relax
- \def\pgfplots@current@point@meta{#3}%
- \pgfplots@perpointmeta@trafo@APPLY
- \global\advance\pgfplots@tmpa by\pgfplotspointmetatransformed pt
-}%
-% same as above, just for one dim plots (rows == 1 || cols==1)
-\def\pgfplotsplothandlermesh@ONEDIM@draw#1{%
- \pgf@process{#1}%
- \edef\pgfplotsplothandlermesh@i{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}}%
- \ifnum\c@pgfplots@scanlineindex>0
- \pgfplotsplothandlermesh@process@element
- \fi
- \let\pgfplotsplothandlermesh@im=\pgfplotsplothandlermesh@i
- \advance\c@pgfplots@scanlineindex by1
-}%
% #1: a normalized coordinate stream.
%
@@ -6974,8 +8490,7 @@
\pgfplotsprependlistXnewempty{reversed}%
}%
\def\pgfplots@coord@stream@coord{%
- \edef\pgfplots@loc@TMPa{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z,\pgfplots@current@point@meta;}%
- \expandafter\pgfplotsprependlistXpushfront\expandafter{\pgfplots@loc@TMPa}\to{reversed}%
+ \expandafter\pgfplotsprependlistXpushfront\expandafter{\pgfplots@coord@stream@foreach@NORMALIZED@curencoded@braced}\to{reversed}%
}%
\def\pgfplots@coord@stream@end{%
\pgfplotsprependlistXlet\pgfplots@loc@TMPa={reversed}%
@@ -6997,8 +8512,7 @@
}%
}%
\def\pgfplots@coord@stream@coord{%
- \edef\pgfplots@loc@TMPa{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z,\pgfplots@current@point@meta;}%
- \expandafter\pgfplots@zbuffer@local@SETCUR\expandafter{\pgfplots@loc@TMPa}%
+ \expandafter\pgfplots@zbuffer@local@SETCUR\expandafter{\pgfplots@coord@stream@foreach@NORMALIZED@curencoded}%
\advance\c@pgfplots@scanlineindex by1
}%
\def\pgfplots@coord@stream@end{%
@@ -7010,7 +8524,7 @@
\pgfkeysdef{/pgfplots/array/unscope pre}{%
\pgfplotsapplistXnewempty{\pgfp@sortedlist}%
\pgfplotsarrayforeachungrouped\pgfplots@zbuffer@local\as\curelem{%
- \expandafter\pgfplotsapplistXpushback\curelem\to{\pgfp@sortedlist}%
+ \expandafter\pgfplotsapplistXpushback\expandafter{\expandafter{\curelem}}\to{\pgfp@sortedlist}%
}%
\pgfplotsapplistXlet\pgfplots@loc@TMPa={\pgfp@sortedlist}%
\global\let\pgfplotsglobalretval=\pgfplots@loc@TMPa
@@ -7034,44 +8548,58 @@
% only need to know whether [xy] coordinates are sorted
% ascending or descending. This information is already ready.
%
- \begingroup
- \if+\pgfkeysvalueof{/pgfplots/x coord sorting}%
- \def\pgfplots@minmaxvalue@x{0}%
- \else
- \def\pgfplots@minmaxvalue@x{0}%
- \fi
- \if+\pgfkeysvalueof{/pgfplots/y coord sorting}%
- \def\pgfplots@minmaxvalue@y{0}%
- \else
- \def\pgfplots@minmaxvalue@y{1}%
- \fi
- \pgfplotsifaxissurfaceisforeground{\pgfplots@minmaxvalue@x vv}{%
- \def\pgfplots@reverse@x{1}%
- }{%
- \def\pgfplots@reverse@x{0}%
- }%
- \pgfplotsifaxissurfaceisforeground{v\pgfplots@minmaxvalue@y v}{%
- \def\pgfplots@reverse@y{1}%
- }{%
- \def\pgfplots@reverse@y{0}%
- }%
- \if1\pgfplots@reverse@x
- \if1\pgfplots@reverse@y
- \pgfkeys{/pgfplots/z buffer=reverse xy seq}%
+ \if1\pgfplotsplothandlermesh@matrixinput
+ % mesh input=lattice
+ \begingroup
+ \if+\pgfkeysvalueof{/pgfplots/x coord sorting}%
+ \def\pgfplots@minmaxvalue@x{0}%
+ \else
+ \def\pgfplots@minmaxvalue@x{0}%
+ \fi
+ \if+\pgfkeysvalueof{/pgfplots/y coord sorting}%
+ \def\pgfplots@minmaxvalue@y{0}%
+ \else
+ \def\pgfplots@minmaxvalue@y{1}%
+ \fi
+ \pgfplotsifaxissurfaceisforeground{\pgfplots@minmaxvalue@x vv}{%
+ \def\pgfplots@reverse@x{1}%
+ }{%
+ \def\pgfplots@reverse@x{0}%
+ }%
+ \pgfplotsifaxissurfaceisforeground{v\pgfplots@minmaxvalue@y v}{%
+ \def\pgfplots@reverse@y{1}%
+ }{%
+ \def\pgfplots@reverse@y{0}%
+ }%
+ \if1\pgfplots@reverse@x
+ \if1\pgfplots@reverse@y
+ \pgfkeys{/pgfplots/z buffer=reverse xy seq}%
+ \else
+ \pgfkeys{/pgfplots/z buffer=reverse x seq}%
+ \fi
\else
- \pgfkeys{/pgfplots/z buffer=reverse x seq}%
+ \if1\pgfplots@reverse@y
+ \pgfkeys{/pgfplots/z buffer=reverse y seq}%
+ \else
+ \pgfkeys{/pgfplots/z buffer=none}%
+ \fi
\fi
+%\message{z buffer=auto mode chose z buffer= \ifcase\pgfplotsplothandlermesh@zbuffer@choice NONE \or reverse x seq \or reverse y seq \or reverse xy seq \or sort\or default \fi. mesh ordering = \ifcase\pgfplots@plot@mesh@ordering x varies/rowwise\or y varies/colwise\fi}%
+ % 'z buffer' is no longer 'auto' now:
+ \pgfplots@apply@zbuffer{#1}%
+ \endgroup
\else
- \if1\pgfplots@reverse@y
- \pgfkeys{/pgfplots/z buffer=reverse y seq}%
+ % mesh input=patches
+ \ifpgfplots@threedim
+ \if\pgfplots@meshmode n%
+ \else
+ \pgfkeys{/pgfplots/z buffer=sort}%
+ \fi
\else
\pgfkeys{/pgfplots/z buffer=none}%
\fi
+ \gdef\pgfplotsglobalretval{#1}%
\fi
-%\message{z buffer=auto mode chose z buffer= \ifcase\pgfplotsplothandlermesh@zbuffer@choice NONE \or reverse x seq \or reverse y seq \or reverse xy seq \or sort\or default \fi. mesh ordering = \ifcase\pgfplots@plot@mesh@ordering x varies/rowwise\or y varies/colwise\fi}%
- % 'z buffer' is no longer 'auto' now:
- \pgfplots@apply@zbuffer{#1}%
- \endgroup
\or
% z buffer=default.
\if\pgfplots@meshmode n%
@@ -7079,10 +8607,8 @@
\gdef\pgfplotsglobalretval{#1}%
\else
% mesh=true
- \begingroup
\pgfkeysalso{/pgfplots/z buffer=auto}%
\pgfplots@apply@zbuffer{#1}%
- \endgroup
\fi
\fi
}%
@@ -7109,8 +8635,7 @@
\pgfplotsapplistXnewempty{\resultlist}%
}%
\def\pgfplots@coord@stream@coord{%
- \edef\pgfplots@loc@TMPa{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z,\pgfplots@current@point@meta;}%
- \expandafter\pgfplotsprependlistXpushfront\expandafter{\pgfplots@loc@TMPa}\to{reversedscanline}%
+ \expandafter\pgfplotsprependlistXpushfront\expandafter{\pgfplots@coord@stream@foreach@NORMALIZED@curencoded@braced}\to{reversedscanline}%
\advance\c@pgfplots@scanlineindex by1
\ifnum\c@pgfplots@scanlineindex=\pgfplotsscanlinelength\relax
\pgfplotsprependlistXlet\pgfplots@loc@TMPa={reversedscanline}%
@@ -7145,8 +8670,7 @@
\pgfplotsprependlistXnewempty{resultlist}%
}%
\def\pgfplots@coord@stream@coord{%
- \edef\pgfplots@loc@TMPa{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z,\pgfplots@current@point@meta;}%
- \expandafter\pgfplotsapplistXpushback\expandafter{\pgfplots@loc@TMPa}\to{\scanline}%
+ \expandafter\pgfplotsapplistXpushback\expandafter{\pgfplots@coord@stream@foreach@NORMALIZED@curencoded@braced}\to{\scanline}%
\advance\c@pgfplots@scanlineindex by1
\ifnum\c@pgfplots@scanlineindex=\pgfplotsscanlinelength\relax
\pgfplotsapplistXlet\pgfplots@loc@TMPa={\scanline}%
@@ -7175,12 +8699,14 @@
% A special '<' operation which returns true if the point coordinate
% '#1' is BEHIND #2 with respect to the current 3D view.
\def\pgfplots@apply@zbuffer@SORT@iflessthan#1#2#3#4\pgfeov{%
- \edef\pgfplots@loc@TMPa{#1}%
- \expandafter\pgfplots@apply@zbuffer@SORT@iflessthan@\pgfplots@loc@TMPa\relax
+ \pgfplotsaxisdeserializedatapointfrom{#1}%
+ \pgfplotsmathfloatviewdepthxyz{\pgfplots@current@point@x}{\pgfplots@current@point@y}{\pgfplots@current@point@z}%
\let\pgfplots@apply@zbuffer@SORT@iflessthan@a=\pgfmathresult
- \edef\pgfplots@loc@TMPb{#2}%
- \expandafter\pgfplots@apply@zbuffer@SORT@iflessthan@\pgfplots@loc@TMPb\relax
+ %
+ \pgfplotsaxisdeserializedatapointfrom{#2}%
+ \pgfplotsmathfloatviewdepthxyz{\pgfplots@current@point@x}{\pgfplots@current@point@y}{\pgfplots@current@point@z}%
\let\pgfplots@apply@zbuffer@SORT@iflessthan@b=\pgfmathresult
+ %
\pgfmathfloatlessthan@{\pgfplots@apply@zbuffer@SORT@iflessthan@b}{\pgfplots@apply@zbuffer@SORT@iflessthan@a}%
\ifpgfmathfloatcomparison
#3\relax
@@ -7189,14 +8715,6 @@
\fi
}%
-% returns the view depth of the provided serialized coordinate into
-% \pgfmathresult
-%
-% FIXME : relies on the internal repr in
-% \pgfplots@coord@stream@foreach@NORMALIZED :
-\def\pgfplots@apply@zbuffer@SORT@iflessthan@#1,#2,#3,#4;{%
- \pgfplotsmathfloatviewdepthxyz{#1}{#2}{#3}%
-}%
% Defines \pgfmathresult to be the view depth of a three component
% vector. The third component will be used if and only if the boolean
@@ -7321,7 +8839,7 @@
\if1\csname pgfpmeta@\pgfplotspointmetainputhandler @issymbolic\endcsname
\else
% ok, be fault tolerant and round to an integer:
- \pgfmathfloattofixed{\pgfplotspointmeta}%
+ \pgfplotscoordmath{meta}{tofixed}{\pgfplotspointmeta}%
\begingroup
\pgfkeys{/pgf/number format/precision=0}%
\expandafter\pgfmathroundto\expandafter{\pgfmathresult}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscore.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscore.code.tex
index ec1642f9409..fe6106f4380 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscore.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscore.code.tex
@@ -24,6 +24,8 @@
%
%--------------------------------------------
+\def\pgfplotsset#{\pgfqkeys{/pgfplots}}
+
\def\pgfplots@error#1{\PackageError{pgfplots}{#1}{}}%
\def\pgfplotstable@error@pkg#1{\PackageError{pgfplotstable}{#1}{}}%
@@ -163,4 +165,6 @@
\pgfutil@ifundefined{pgfplots@texdist@protect}{%
\def\pgfplots@texdist@protect{}%
}{}
+
+\input pgfplotssysgeneric.code.tex
\endinput
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex
new file mode 100644
index 00000000000..63cd7be107c
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex
@@ -0,0 +1,2185 @@
+%--------------------------------------------
+%
+% Package pgfplots
+%
+% Provides a user-friendly interface to create function plots (normal
+% plots, semi-logplots and double-logplots).
+%
+% It is based on Till Tantau's PGF package.
+%
+% Copyright 2007-2010 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%--------------------------------------------
+
+% Assigns default values to 'rows' and 'cols' in case
+% their values are empty.
+%
+% PRECONDITION:
+% The values of
+% - '/pgfplots/mesh/rows'
+% - '/pgfplots/mesh/cols'
+% - '/pgfplots/mesh/num points'
+% - \pgfplotsscanlinelength
+% - '/pgfplots/mesh/ordering'
+% are assigned properly.
+%
+% POSTCONDITION:
+% 'rows' and 'cols' now incorporates \pgfplotsscanlinelength if
+% their values had been empty. However, there may still be empty
+% values.
+%
+% @see \pgfplotsautocompletemeshkeys
+\def\pgfplotspreparemeshkeydefaults{%
+ \pgfplots@autocomplete@meshkeys0%
+}%
+
+% Completes and sanitizes 'mesh/rows' and 'mesh/cols' such that they
+% have useful integer values afterwards.
+%
+% This method works similarly to \pgfplotspreparemeshkeydefaults.
+% However, it really completes values and issues error messages if
+% that proves to be impossible.
+%
+% PRECONDITION:
+% The values of
+% - '/pgfplots/mesh/rows'
+% - '/pgfplots/mesh/cols'
+% - '/pgfplots/mesh/num points'
+% - '/pgfplots/mesh/ordering'
+% are assigned properly.
+% If
+% - \pgfplotsscanlinelength
+% exists and is positive, it may also be used.
+%
+% POSTCONDITION:
+% 'rows' and 'cols' have useful integer values.
+\def\pgfplotsautocompletemeshkeys{%
+ \pgfplots@autocomplete@meshkeys1%
+}%
+\def\pgfplots@autocomplete@meshkeys#1{%
+ % For #1 = 0, the values are only partially completed (which is
+ % also compatible with patch plots)
+ \pgfkeysgetvalue{/pgfplots/mesh/rows}\pgfplotsplothandlermesh@rows
+ \pgfkeysgetvalue{/pgfplots/mesh/cols}\pgfplotsplothandlermesh@cols
+ \pgfkeysgetvalue{/pgfplots/mesh/num points}\pgfplotsplothandlermesh@numpoints
+ \edef\pgfplotsplothandlermesh@numpoints{\pgfplotsplothandlermesh@numpoints}%
+ \edef\pgfplotsplothandlermesh@cols{\pgfplotsplothandlermesh@cols}%
+ \edef\pgfplotsplothandlermesh@rows{\pgfplotsplothandlermesh@rows}%
+ %
+ \def\pgfplots@loc@TMPa{0}%
+ \ifpgfplots@curplot@threedim
+ \def\pgfplots@loc@TMPa{1}%
+ \else
+ \if s\pgfplots@meshmode
+ % we have a 'surf' plot. That doesn't make sense unless
+ % one has a matrix, even for a two--dimensional plot. Try it.
+ \def\pgfplots@loc@TMPa{1}%
+ \fi
+ \fi
+ \if1\pgfplots@loc@TMPa
+ \ifx\pgfplotsplothandlermesh@rows\pgfutil@empty
+ \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
+ \pgfutil@ifundefined{pgfplotsscanlinelength}{\def\pgfplotsscanlinelength{-1}}{}%
+ \ifpgfplots@scanline@verbose
+ \ifnum\pgfplotsscanlinelength>0
+ % we have scanlinelength set! Use it:
+ \message{PGFPlots: Scanline length is \pgfplotsscanlinelength.}%
+ \else
+ \ifnum\pgfplotsscanlinelength=-2
+ \message{PGFPlots: Scanline length could not be determined since multiple, different scan line lengths have been found.}%
+ \else
+ \message{PGFPlots: No end-of-scanline marker found in input stream.}%
+ \fi
+ \fi
+ \fi
+ \ifnum\pgfplotsscanlinelength>0
+ % we have scanlinelength set! Use it:
+ \if\pgfplots@plot@mesh@ordering0%
+ % ordering = x varies= rowwise -> scanline is cols!
+ \edef\pgfplotsplothandlermesh@cols{\pgfplotsscanlinelength}%
+ \else
+ % ordering = y varies = colwise: scanline is rows!
+ \edef\pgfplotsplothandlermesh@rows{\pgfplotsscanlinelength}%
+ \fi
+ \else
+ \if1#1%
+ % try to get reasonable values:
+ \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
+ \pgfplots@error{Sorry, a mesh needs either '[mesh/rows=<N>]' or '[mesh/cols=<N>]' set - or at least '[mesh/num points=<N>]'. But it did not find any of them...}%
+ \def\pgfplotsplothandlermesh@cols{5}%
+ \def\pgfplotsplothandlermesh@rows{5}%
+ \else
+ % We don't have rows/cols. Well, try using
+ % sqrt(num points) for both of them!
+ \ifnum\pgfplotsplothandlermesh@numpoints<16380
+ \pgfmath@basic@sqrt@{\pgfplotsplothandlermesh@numpoints}%
+ \else
+ \pgfmathfloatparsenumber{\pgfplotsplothandlermesh@numpoints}%
+ \pgfmathfloatsqrt@{\pgfmathresult}%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ \fi
+ \begingroup
+ % Try whether this rows*rows yields numpoints:
+ \afterassignment\pgfplots@gobble@until@relax
+ \c@pgf@counta=\pgfmathresult\relax
+ \c@pgf@countb=\c@pgf@counta
+ \multiply\c@pgf@counta by\c@pgf@counta
+ \def\pgfplotsretval{1}%
+ \ifnum\c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
+ % ok, rows*rows = numpoints.
+ \edef\pgfplotsplothandlermesh@rows{\the\c@pgf@countb}%
+ \else
+ % oh. Did not work. Check for rounding errors:
+ \c@pgf@counta=\c@pgf@countb
+ \advance\c@pgf@counta by1
+ \c@pgf@countb=\c@pgf@counta
+ \multiply\c@pgf@counta by\c@pgf@counta
+ \ifnum\c@pgf@counta=\pgfplotsplothandlermesh@numpoints
+ % ok, (rows+1)*(rows+1) = numpoints.
+ \edef\pgfplotsplothandlermesh@rows{\the\c@pgf@countb}%
+ \else
+ % no... did not work. num points doesn't
+ % appear to be a squared number.
+ \def\pgfplotsretval{0}%
+ \edef\pgfplotsplothandlermesh@rows{5}%
+ \fi
+ \fi
+ \if\pgfplotsretval1
+ \pgfplots@warning{%
+ mesh processing did not find '[mesh/rows=<N>]' or '[mesh/cols=<N>]'.
+ Assuming [mesh/rows=\pgfplotsplothandlermesh@rows,mesh/cols=\pgfplotsplothandlermesh@rows]
+ as sqrt(num points) = sqrt(\pgfplotsplothandlermesh@numpoints) [ = \pgfmathresult].}%
+ \else
+ \pgfplots@error{Sorry, 'plot mesh' needs either '[mesh/rows=<N>]' or '[mesh/cols=<N>]' set,
+ but it did not find any of them.
+ I also tried rows = sqrt(num points) = sqrt(\pgfplotsplothandlermesh@numpoints) = \pgfmathresult\space without success.}%
+ \fi
+ \pgfmath@smuggleone\pgfplotsplothandlermesh@rows
+ \endgroup
+ \let\pgfplotsplothandlermesh@cols=\pgfplotsplothandlermesh@rows
+ \fi
+ \else
+ % #1=0 -> leave them empty.
+ \fi
+ \fi
+ \fi
+ \fi
+ \if1#1%
+ \ifx\pgfplotsplothandlermesh@rows\pgfutil@empty
+ \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
+ \else
+ % Compute 'rows' out of 'num points' and 'cols':
+ \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
+ \pgfplots@error{Sorry, matrix input needs a valid '[mesh/num points=<N>]' variable if only one of '[mesh/rows=<N>]' or '[mesh/cols=<N>]' is given.}%
+ \def\pgfplotsplothandlermesh@numpoints{100}%
+ \fi
+ \begingroup
+ \c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
+ \divide\c@pgf@counta by\pgfplotsplothandlermesh@cols\relax
+ \xdef\pgfplots@glob@TMPa{\the\c@pgf@counta}%
+ \endgroup
+ \let\pgfplotsplothandlermesh@rows=\pgfplots@glob@TMPa
+ \fi
+ \else
+ \ifx\pgfplotsplothandlermesh@cols\pgfutil@empty
+ % Compute 'cols' out of 'num points' and 'rows':
+ \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
+ \pgfplots@error{Sorry, matrix input needs a valid '[mesh/num points=<N>]' variable if only one of '[mesh/cols=<N>]' or '[mesh/rows=<N>]' is given.}%
+ \def\pgfplotsplothandlermesh@numpoints{100}%
+ \fi
+ \begingroup
+ \c@pgf@counta=\pgfplotsplothandlermesh@numpoints\relax
+ \divide\c@pgf@counta by\pgfplotsplothandlermesh@rows\relax
+ \xdef\pgfplots@glob@TMPa{\the\c@pgf@counta}%
+ \endgroup
+ \let\pgfplotsplothandlermesh@cols=\pgfplots@glob@TMPa
+ \fi
+ \fi
+ \ifx\pgfplotsplothandlermesh@numpoints\pgfutil@empty
+ \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@rows\relax
+ \multiply\c@pgfplots@scanlineindex by \pgfplotsplothandlermesh@cols\relax
+ \edef\pgfplotsplothandlermesh@numpoints{\the\c@pgfplots@scanlineindex}%
+ \fi
+ %
+ \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@rows\relax
+ \multiply\c@pgfplots@scanlineindex by\pgfplotsplothandlermesh@cols\relax
+ \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@numpoints\relax
+ \else
+ \ifcase\pgfplots@mesh@checkmode\relax
+ % mesh/check=false
+ \def\pgfplots@loc@TMPa##1{}%
+ \or
+ % mesh/check=warning
+ \def\pgfplots@loc@TMPa##1{\pgfplots@warning{##1}}%
+ \or
+ % mesh/check=error
+ \def\pgfplots@loc@TMPa##1{\pgfplots@error{##1}}%
+ \fi
+ \pgfplots@loc@TMPa{the arguments of [mesh/rows=\pgfplotsplothandlermesh@rows,mesh/cols=\pgfplotsplothandlermesh@cols] assume \the\c@pgfplots@scanlineindex\space points, but I got actually N = \pgfplotsplothandlermesh@numpoints\space points! The data matrix appears to be incomplete or overcomplete!? [Use mesh/check=false to disable this message]}%
+ \fi
+ \fi
+ \else
+ % 2d visualization has no mesh:
+ \edef\pgfplotsplothandlermesh@rows{\pgfplotsplothandlermesh@numpoints}%
+ \def\pgfplotsplothandlermesh@cols{1}%
+ \fi
+ %
+ \def\pgfplots@loc@TMPa{\pgfkeyssetvalue{/pgfplots/mesh/rows}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfplotsplothandlermesh@rows}%
+ \def\pgfplots@loc@TMPa{\pgfkeyssetvalue{/pgfplots/mesh/cols}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfplotsplothandlermesh@cols}%
+}%
+
+%%
+%% Helper structs for patch plots (surfaces)
+
+\def\pgfplotspatchvertex#1#2#3#4\endvertex{%
+ \def\pgfplotspatchvertexstruct{{#1}{#2}{#3}#4}%
+ \def\pgfplotspatchvertexx{#1}%
+ \def\pgfplotspatchvertexy{#2}%
+ \def\pgfplotspatchvertexmeta{#3}%
+ \def\pgfplotspatchvertexdepth{#4}%
+}%
+\def\pgfplotspointpatchvertex#1#2#3#4\endvertex{%
+ \global\pgf@x=#1
+ \global\pgf@y=#2
+}%
+
+% Allows to combined different vertices in the form
+% \pgfplotspatchvertexaccumstart
+% \expandafter\pgfplotspatchvertexadd\vertexA\times{0.25}%
+% \expandafter\pgfplotspatchvertexadd\vertexB\times{0.5}%
+% \expandafter\pgfplotspatchvertexadd\vertexC\times{0.75}%
+% \pgfplotspatchvertexfinish\finalvertex
+% --> now, \finalvertex contains the result vertex, 0.25*A + 0.5*B + 0.75*C .
+%
+% THERE MUST NOT BE MATH INBETWEEN.
+% More precisely, this overwrites the macros
+% \pgf@x,\pgf@y, \pgf@xa,\pgf@ya, \pgf@yb, \pgfmathresult and \pgfplotspatchvertexdepth
+\def\pgfplotspatchvertexaccumstart{%
+ \pgf@xa=0pt
+ \pgf@ya=0pt
+ \pgf@yb=0pt
+ \pgfplotscoordmath{meta}{zero}%
+}%
+\def\pgfplotspatchvertexadd#1#2#3#4\times#5{%
+ \global\pgf@x=#1
+ \global\pgf@y=#2
+ \advance\pgf@xa by#5\pgf@x
+ \advance\pgf@ya by#5\pgf@y
+ \let\pgfmathresult@=\pgfmathresult
+ \pgfplotscoordmath{meta}{parsenumber}{#5}%
+ \pgfplotscoordmath{meta}{op}{multiply}{{#3}{\pgfmathresult}}%
+ \pgfplotscoordmath{meta}{op}{add}{{\pgfmathresult@}{\pgfmathresult}}%
+ \def\pgfplotspatchvertexdepth{#4}%
+ \ifx\pgfplotspatchvertexdepth\pgfutil@empty
+ \else
+ \global\pgf@y=#4pt
+ \advance\pgf@yb by#5\pgf@y
+ \fi
+}%
+\def\pgfplotspatchvertexfinish#1{%
+ \edef#1{{\the\pgf@xa}{\the\pgf@ya}{\pgfmathresult}\ifx\pgfplotspatchvertexdepth\pgfutil@empty\else\pgf@sys@tonumber\pgf@yb\fi}%
+}
+% Same as \pgfplotspatchvertexadd, but it only adds the X and Y
+% coordinates (ignoring the rest).
+\def\pgfplotspatchvertexaddXY#1#2#3#4\times#5{%
+ \global\pgf@x=#1
+ \global\pgf@y=#2
+ \advance\pgf@xa by#5\pgf@x
+ \advance\pgf@ya by#5\pgf@y
+}%
+% Same as \pgfplotspatchvertexfinish, but it only saves X and Y.
+\def\pgfplotspatchvertexfinishXY#1{%
+ \edef#1{{\the\pgf@xa}{\the\pgf@ya}{}}%
+}
+
+% #1 class name
+% #2 method
+% <any method arguments follow>
+\def\pgfplotspatchclass#1#2{%
+ \pgfutil@ifundefined{pgfpptch@#1@#2}{%
+ \pgfplotspatchclasserror{#1}{#2}%
+ }{%
+ \edef\pgfplotspatchclassname{#1}%
+ \csname pgfpptch@#1@#2\endcsname
+ }%
+}%
+\def\pgfplotspatchclasserror#1#2{%
+ \pgfutil@ifundefined{pgfpptch@#1@}{%
+ \pgfplots@error{Sorry, the 'patch type=#1' is not defined. Maybe you misspelled it? Or perhaps you need to load \string\usepgfplotslibrary{patchplots}?}%
+ }{%
+ \pgfplots@error{Sorry, the patch class '#1' has no method '#2' (or it is not yet implemented)}%
+ }%
+}%
+
+\def\pgfplotsplothandlermesh@setnextvertex#1{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set next vertex}{#1}%
+}%
+
+% Declares a new patch class named #1.
+%
+% #1: a string name.
+% #2: methods defining the class, provided as key values. See the
+% predefined classes to adjust your own ones. Documentation about the
+% available methods and their arguments can be found below in this
+% file.
+%
+% @see \usepgfplotslibrary{patchplots}
+\def\pgfplotsdeclarepatchclass#1#2{%
+ \edef\pgfplotsdeclarepatchclass@{@#1@}%
+ \pgfutil@ifundefined{pgfpptch@#1@}{%
+ % Ok. This is the FIRST declaration of this patch class.
+ % Define some default algorithms.
+ %
+ \expandafter\def\csname pgfpptch@#1@\endcsname{#1}%
+ \pgfqkeys{/pgfplots/@declare patch}{%
+ init=,
+ allow matrix=0,
+ init pdf shading=,
+ stream to shader={%
+%\message{\pgfplotspatchclassname: stream to shader: Starting ^^J}%
+ \pgfplotspatchclass{\pgfplotspatchclassname}{foreach vertex}{%
+%\message{vertex (\pgfplotspatchvertexx,\pgfplotspatchvertexy[\pgfplotspatchvertexmeta]. ^^J}%
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{%
+ \global\pgf@x=\pgfplotspatchvertexx\space
+ \global\pgf@y=\pgfplotspatchvertexy\space
+ }{\pgfplotspointmetatransformed}%
+ }%
+ },%
+ get num cdata vertices=\pgfplotspatchclass{\pgfplotspatchclassname}{get vertices},
+ set edge visible=\expandafter\edef\csname pgfppatchedge@##1\endcsname{##2},
+ uses view depth=0,
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,
+ deserialize except vertices=##1,
+ serialize={%
+ % the default serialization is not necessarily the fastest
+ % possible. But it should work.
+ \pgfplotspatchclass{\pgfplotspatchclassname}{serialize except vertices}%
+ \t@pgfplots@toka=\expandafter{\pgfplotsretval
+ \let\pgfplotspatchready@defaultserialize=\pgfplotspatchready
+ \let\pgfplotspatchready=\relax
+ }%
+ \edef\pgfplotsretval{%
+ \noexpand\pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ \the\t@pgfplots@toka
+ }%
+ \pgfplotspatchclass{\pgfplotspatchclassname}{foreach vertex}{%
+ \t@pgfplots@toka=\expandafter{\pgfplotsretval}%
+ \edef\pgfplotsretval{\the\t@pgfplots@toka
+ \noexpand\pgfplotspatchclass{\pgfplotspatchclassname}{set next vertex}{\pgfplotspatchvertexstruct}%
+ }%
+ }%
+ \expandafter\def\expandafter\pgfplotsretval\expandafter{\pgfplotsretval
+ \let\pgfplotspatchready=\pgfplotspatchready@defaultserialize
+ }%
+ },
+ deserialize=##1,
+ triangulate class=triangle,
+ triangulate={%
+ \pgfplots@error{triangulate: not yet implemented for \pgfplotspatchclassname}%
+ },%
+ refine={%
+ \let\pgfplotsrefinedpatchready=\pgfplotspatchready
+ \pgfplotspatchclass@recursiverefine{##1}%
+ },%
+ recursive refine@={%
+ \pgfplots@error{refine: not yet implemented for \pgfplotspatchclassname}%
+ },%
+ }%
+ }{}%
+ %
+ %
+ \pgfqkeys{/pgfplots/@declare patch}{#2}%
+ %
+ %
+ \pgfutil@ifundefined{pgfpptch\pgfplotsdeclarepatchclass@ foreach cdata vertex}{%
+ \pgfutil@namelet
+ {pgfpptch\pgfplotsdeclarepatchclass@ foreach cdata vertex}
+ {pgfpptch\pgfplotsdeclarepatchclass@ foreach vertex}%
+ }{%
+ }%
+ \pgfutil@ifundefined{pgfpptch\pgfplotsdeclarepatchclass@ stroke path}{%
+ \pgfutil@namelet
+ {pgfpptch\pgfplotsdeclarepatchclass@ stroke path}
+ {pgfpptch\pgfplotsdeclarepatchclass@ fill path}%
+ }{%
+ }%
+}%
+\pgfqkeys{/pgfplots/@declare patch}{%
+ % may do any more or less global preparations. It is some sort (!)
+ % of constructor.
+ init/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ init\endcsname{#1}},%
+ allow matrix/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ allow matrix\endcsname{\def\pgfplotsretval{#1}}},%
+ uses view depth/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ uses view depth\endcsname{\def\pgfplotsretval{#1}}},%
+ new/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ new\endcsname{#1}},%
+ %
+ % sets the next vertex value of the patch.
+ %
+ % if the patch has all expected vertices, \pgfplotspatchready is
+ % invoked and the next call to 'set next vertex' will start a new
+ % patch.
+ %
+ % #1: encodes the current vertex such that
+ % \pgfplotspatchvertex#1\endvertex
+ % is accepted.
+ set next vertex/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ set next vertex\endcsname##1{#1}},%
+ %
+ % declares whether a single edge is visible or not.
+ % #1: an integer denoting the edge, either 0,1,2,...,N-1 where N = num verts
+ % #2: 0 if the edge is not to be stroked and 1 if it is stroked.
+ %
+ % This command doesn't need to be called; but if it is, it needs
+ % to be called for every edge.
+ %
+ % ATTENTION: this is *only* used by 'stroke path'. You will never
+ % need 'stroke path' unless some edges are invisible. If all edges
+ % are visible, 'stroke path' and 'fill path' are the same.
+ %
+ % This is currently *only* used for triangle triangulations!
+ set edge visible/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ set edge visible\endcsname##1##2{#1}},%
+ %
+ % Defines \pgfplotsretval to be a serialized representation of
+ % this patch.
+ serialize/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ serialize\endcsname{#1}},%
+ % Defines \pgfplotsretval to be a serialized representation of
+ % this patches extra data fields, excluding vertices.
+ % This is often a NO-OP (unless 'set edge visible' has been used)
+ serialize except vertices/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ serialize except vertices\endcsname{#1}},%
+ %
+ % Restores a serialized representation from #1.
+ deserialize/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ deserialize\endcsname##1{#1}},%
+ % Restores a serialized representation from #1. Only vertices are
+ % not stored here.
+ deserialize except vertices/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ deserialize except vertices\endcsname##1{#1}},%
+ %
+ % issues \pgfplotspatchvertex{...}\endvertex for the first vertex.
+ first vertex/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ first vertex\endcsname{#1}},%
+ %
+ % invokes
+ % \pgfplotspatchvertex...\endvertex
+ % #1
+ % for the every vertex.
+ foreach vertex/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ foreach vertex\endcsname##1{#1}},%
+ %
+ % invokes
+ % \pgfplotspatchvertex...\endvertex
+ % #1
+ % for the every colored vertex.
+ % See 'get num cdata vertices'
+ foreach cdata vertex/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ foreach cdata vertex\endcsname##1{#1}},%
+ %
+ % generates a pgf path which is readily usable for filling.
+ fill path/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ fill path\endcsname{#1}},%
+ %
+ % Similar to 'fill path', this here paints the edges. It is only
+ % useful if 'set edge visible' is in use. In all other cases, it
+ % is the same as 'fill path'
+ %
+ % This is currently *only* used for triangle triangulations!
+ stroke path/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ stroke path\endcsname{#1}},%
+ %
+ init pdf shading/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ init pdf shading\endcsname{#1}},%
+ stream to shader/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ stream to shader\endcsname{#1}},%
+ %
+ % expands to the number of vertices.
+ get num vertices/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ get num vertices\endcsname{\def\pgfplotsretval{#1}}},%
+ %
+ % expands to the number of vertices which have color data
+ % attached. This is usually the same as 'get num vertices' (but
+ % see coons patches).
+ get num cdata vertices/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ get num cdata vertices\endcsname{\def\pgfplotsretval{#1}}},%
+ %
+ % Approximates the given patch by at least one triangle.
+ % For every finished triangle, \pgfplotspatchready will be invoked
+ % and \pgfplotsplothandlermesh@patchclass will be set to triangle.
+ % More precisely, it is expected to be set to the return value of
+ % 'triangulate class'.
+ triangulate/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ triangulate\endcsname{#1}},%
+ % Defines \pgfplotsretval to be the classname returned by
+ % 'triangulate'. This is usually 'triangle'
+ triangulate class/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ triangulate class\endcsname{\def\pgfplotsretval{#1}}},%
+ %
+ % Refines the given patch #1 times.
+ % For every finished patch, \pgfplotspatchready will be invoked.
+ refine/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ refine\endcsname##1{#1}},%
+ %
+ % shared helper method which can be invoked recursively by refine.
+ % the default implementation of 'refine' will invoke this one.
+ %
+ % #1: a serialized representation of the given patch. Use it to
+ % restore the current patch in intermediate steps. Note that you
+ % may not use \begingroup/\endgroup in this method; otherwise the
+ % 'z buffer' algorithm will need to be done with \global (and I
+ % don't want that. You probably neither).
+ %
+ % The refinement loop as such will be controlled by the default
+ % implementation of 'refine'. This macro is ONLY to be called by the
+ % default implementation of 'refine'! Overwriting it should
+ % automatically yield refinement facilities.
+ %
+ % the macro \pgfplotspatchready should be called for each refined
+ % element (happens automatically if you use 'set next vertex').
+ %
+ % POSTCONDITION:
+ % the element has been refined once.
+ recursive refine@/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ recursive refine@\endcsname##1{#1}},%
+ %
+ get pdf shading type/.style={get pdf shading type*={\def\pgfplotsretval{#1}}},
+ get pdf shading type*/.code=
+ {\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ get pdf shading type\endcsname{#1}},%
+}
+
+\def\pgfplotspatchclass@recursiverefine#1{%
+ \c@pgf@counta=#1
+ \ifnum\c@pgf@counta=1
+ \let\pgfplotspatchready=\pgfplotsrefinedpatchready
+ \else
+ \advance\c@pgf@counta by-1
+ \edef\pgfplotspatchready{\noexpand\pgfplotspatchclass@recursiverefine{\the\c@pgf@counta}}%
+ \fi
+ %
+ \pgfplotspatchclass{\pgfplotspatchclassname}{serialize}%
+ \t@pgfplots@toka=\expandafter{\pgfplotsretval}%
+ \t@pgfplots@tokc=\expandafter{\pgfplotspatchready}%
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfplotspatchclass{\pgfplotspatchclassname}{deserialize}{\the\t@pgfplots@toka}%
+ \noexpand\def\noexpand\pgfplotspatchready{\the\t@pgfplots@tokc}%
+ \noexpand\def\noexpand\pgfplotspatchclassname{\pgfplotspatchclassname}% % FIXME: is that correct?
+ }%
+ \expandafter\pgfplotspatchclass@recursiverefine@\expandafter{\pgfplots@loc@TMPa}%
+}%
+\def\pgfplotspatchclass@recursiverefine@{%
+ \pgfplotspatchclass{\pgfplotspatchclassname}{recursive refine@}%
+}%
+
+
+% sequence macros preferred over integer indices.
+% using characters avoids the extensive use of \csname ...\endcsname
+% and \expandafter which would be necessary for integer indices.
+\def\pgfpptchindexnext@A{B}% 0->1
+\def\pgfpptchindexnext@B{C}% 1->2
+\def\pgfpptchindexnext@C{D}% 2->3
+\def\pgfpptchindexnext@D{E}% 3->4
+\def\pgfpptchindexnext@E{F}% 4->5
+\def\pgfpptchindexnext@F{G}% 5->6
+\def\pgfpptchindexnext@G{H}% 6->7
+\def\pgfpptchindexnext@H{I}% 7->8
+\def\pgfpptchindexnext@I{J}% 8->9
+\def\pgfpptchindexnext@J{K}% 9->10
+\def\pgfpptchindexnext@K{L}% 10->11
+\def\pgfpptchindexnext@L{M}% 11->12
+\def\pgfpptchindexnext@M{N}% 12->13
+\def\pgfpptchindexnext@N{O}% 13->14
+\def\pgfpptchindexnext@O{P}% 14->15
+\def\pgfpptchindexnext@P{Q}% 15->16
+\def\pgfpptchindexnext@Q{R}% 16->17
+
+\pgfplotsdeclarepatchclass{line}{%
+ allow matrix=0,
+ new=\def\pgfplotspatchclass@line@no{0},
+ set next vertex={%
+ \if0\pgfplotspatchclass@line@no\relax
+ \edef\pgfplotspatchclass@line@A{#1}%
+ \def\pgfplotspatchclass@line@no{1}%
+ \else
+ \edef\pgfplotspatchclass@line@B{#1}%
+ \def\pgfplotspatchclass@line@no{0}%
+ \pgfplotspatchready%
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@line@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@line@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@line@B\endvertex #1%
+ },
+ fill path={%
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@line@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@line@B\endvertex}%
+ },
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,%
+ deserialize except vertices=,
+ get num vertices=2,
+ get pdf shading type=0,
+}%
+
+\pgfplotsdeclarepatchclass{triangle}{%
+ allow matrix=0,
+ new=\def\pgfplotspatchclass@tri@no{0}\let\pgfplotspatchclass@trie@AB\relax,
+ set next vertex={%
+ \ifcase\pgfplotspatchclass@tri@no\relax
+ \edef\pgfplotspatchclass@tri@A{#1}%
+ \def\pgfplotspatchclass@tri@no{1}%
+ \or
+ \edef\pgfplotspatchclass@tri@B{#1}%
+ \def\pgfplotspatchclass@tri@no{2}%
+ \or
+ \edef\pgfplotspatchclass@tri@C{#1}%
+ \def\pgfplotspatchclass@tri@no{0}%
+ \pgfplotspatchready%
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@tri@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tri@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tri@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@tri@C\endvertex #1%
+ },
+ fill path={%
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ \pgfpathclose
+ },
+ stroke path={%
+ \ifx\pgfplotspatchclass@trie@AB\relax
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ \pgfpathclose
+ \else
+ \if1\pgfplotspatchclass@trie@AB
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ \fi
+ \if1\pgfplotspatchclass@trie@BC
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ \fi
+ \if1\pgfplotspatchclass@trie@CA
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ \fi
+ \fi
+ },
+ triangulate=\pgfplotspatchready,
+ set edge visible={%
+ \ifcase#1
+ \edef\pgfplotspatchclass@trie@AB{#2}%
+ \or
+ \edef\pgfplotspatchclass@trie@BC{#2}%
+ \or
+ \edef\pgfplotspatchclass@trie@CA{#2}%
+ \fi
+ },
+ serialize except vertices={%
+ \ifx\pgfplotspatchclass@trie@AB\relax
+ \let\pgfplotsretval\pgfutil@empty%
+ \else
+ \edef\pgfplotsretval{%
+ \noexpand\def\noexpand\pgfplotspatchclass@trie@AB{\pgfplotspatchclass@trie@AB}%
+ \noexpand\def\noexpand\pgfplotspatchclass@trie@BC{\pgfplotspatchclass@trie@BC}%
+ \noexpand\def\noexpand\pgfplotspatchclass@trie@CA{\pgfplotspatchclass@trie@CA}%
+ }%
+ \fi
+ },%
+ recursive refine@={%
+ %
+ \pgfplotspatchclass{\pgfplotspatchclassname}{new}%
+ %
+ % Perform longest edge bisection.
+ \pgfpointdiff
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ \edef\pgfplots@loc@TMPa{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
+ \expandafter\pgfmath@basic@veclen@\pgfplots@loc@TMPa
+ \pgf@xa=\pgfmathresult pt
+ \pgf@yc=\pgf@xa % "max so far"
+ \def\pgfplotspatch@tri@longestedgestart{A}%
+ %
+ \pgfpointdiff
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@B\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ \edef\pgfplots@loc@TMPa{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
+ \expandafter\pgfmath@basic@veclen@\pgfplots@loc@TMPa
+ \pgf@xa=\pgfmathresult pt
+ \ifdim\pgf@xa>\pgf@yc
+ \pgf@yc=\pgf@xa
+ \def\pgfplotspatch@tri@longestedgestart{B}%
+ \fi
+ %
+ \pgfpointdiff
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@C\endvertex}%
+ {\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@tri@A\endvertex}%
+ \edef\pgfplots@loc@TMPa{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
+ \expandafter\pgfmath@basic@veclen@\pgfplots@loc@TMPa
+ \pgf@xa=\pgfmathresult pt
+ \ifdim\pgf@xa>\pgf@yc
+ \def\pgfplotspatch@tri@longestedgestart{C}%
+ \fi
+ % The ordering is not arbitrary
+ % (unless z buffer=sort is in effect). Let's assume that the
+ % AB edge is BACKGROUND and the CD edge is FOREGROUND. Then
+ % this sequence here should have approximately the same depth
+ % ordering:
+ %
+ \pgfplotspatchvertexaccumstart
+ \if A\pgfplotspatch@tri@longestedgestart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@A\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@B\times{0.5}%
+ \def\pgfplots@loc@TMPa{ACM,BCM}%
+ \else
+ \if B\pgfplotspatch@tri@longestedgestart
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@B\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@C\times{0.5}%
+ \def\pgfplots@loc@TMPa{ABM,ACM}%
+ \else
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@C\times{0.5}%
+ \expandafter\pgfplotspatchvertexadd\pgfplotspatchclass@tri@A\times{0.5}%
+ \def\pgfplots@loc@TMPa{ABM,BCM}%
+ \fi
+ \fi
+ \pgfplotspatchvertexfinish\pgfplotspatchclass@tri@M
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa;\pgfplotspatchclass@tri@M}%
+ %
+ % invoke helper method such that I don't need to restore or
+ % recompute \pgfplotspatchclass@tri@M during recursion.
+ \expandafter\pgfplotspatchclass@tri@recursiverefine@@\pgfplots@loc@TMPa\relax{#1}%
+ },
+ deserialize except vertices=%
+ \let\pgfplotspatchclass@trie@AB\relax
+ #1,
+ get pdf shading type=4,
+ get num vertices=3,
+}%
+\def\pgfplotspatchclass@tri@recursiverefine@@#1#2M,#3#4M;#5\relax#6{%
+ \expandafter\let\expandafter\pgfplotspatchclass@tri@A@\csname pgfplotspatchclass@tri@#1\endcsname
+ \expandafter\let\expandafter\pgfplotspatchclass@tri@B@\csname pgfplotspatchclass@tri@#2\endcsname
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@tri@A@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@tri@B@}%
+ \pgfplotsplothandlermesh@setnextvertex{#5}%
+ #6%
+ %
+ \expandafter\let\expandafter\pgfplotspatchclass@tri@A@\csname pgfplotspatchclass@tri@#3\endcsname
+ \expandafter\let\expandafter\pgfplotspatchclass@tri@B@\csname pgfplotspatchclass@tri@#4\endcsname
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@tri@A@}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@tri@B@}%
+ \pgfplotsplothandlermesh@setnextvertex{#5}%
+ #6%
+}%
+
+
+\pgfplotsdeclarepatchclass{rectangle}{%
+ allow matrix=1,
+ new=\def\pgfplotspatchclass@rect@no{0},
+ set next vertex={%
+ \ifcase\pgfplotspatchclass@rect@no\relax
+ \edef\pgfplotspatchclass@rect@A{#1}%
+ \def\pgfplotspatchclass@rect@no{1}%
+ \or
+ \edef\pgfplotspatchclass@rect@B{#1}%
+ \def\pgfplotspatchclass@rect@no{2}%
+ \or
+ \edef\pgfplotspatchclass@rect@C{#1}%
+ \def\pgfplotspatchclass@rect@no{3}%
+ \or
+ \edef\pgfplotspatchclass@rect@D{#1}%
+ \def\pgfplotspatchclass@rect@no{0}%
+ \pgfplotspatchready%
+ \fi
+ },
+ first vertex=\expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex,
+ foreach vertex={%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@B\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@C\endvertex #1%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@D\endvertex #1%
+ },
+ stream to shader={%
+ % a 'foreach vertex' with slightly different sequence:
+ \def\pgfplots@foreachvertex@@{%
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord{%
+ \global\pgf@x=\pgfplotspatchvertexx\space
+ \global\pgf@y=\pgfplotspatchvertexy\space
+ }{\pgfplotspointmetatransformed}%
+ }%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@A\endvertex\pgfplots@foreachvertex@@%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@B\endvertex\pgfplots@foreachvertex@@%
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@D\endvertex\pgfplots@foreachvertex@@% EXCHANGED SEQUENCE
+ \expandafter\pgfplotspatchvertex\pgfplotspatchclass@rect@C\endvertex\pgfplots@foreachvertex@@%
+ },%
+ fill path={%
+ \pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@A\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@B\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@C\endvertex}%
+ \pgfpathlineto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@rect@D\endvertex}%
+ \pgfpathclose
+ },
+ init pdf shading={%
+ \if0\b@pgfplotsplothandlermesh@matrixoutput
+ \ifnum\pgfkeysvalueof{/pgfplots/surf shading/cols}=2
+ \else
+ \pgfplots@error{Sorry, (patch type=rectangle) and (rectangular patch shadings with more than one rectangle) is not supported (got \pgfkeysvalueof{/pgfplots/surf shading/cols} x * input points).
+ It is supported if z buffer!=sort. Consider using 'patch to triangles=true' to combine it with z buffer=sort}%
+ \fi
+ \fi
+ },
+ recursive refine@={%
+ \pgfplots@error{Please use \string\usepgfplotslibrary{patchplots} in order to use 'refine,patch type=\pgfplotspatchclassname'}%
+ },
+ triangulate={%
+ \let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
+ \def\pgfplotsplothandlermesh@patchclass{triangle}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}10%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}21%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@A}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@D}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@B}%
+ %
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}01%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}11%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set edge visible}20%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@B}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@C}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotspatchclass@rect@D}%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@
+ },%
+ serialize except vertices=\let\pgfplotsretval\pgfutil@empty,%
+ deserialize except vertices=,
+ get pdf shading type=5,
+ get num vertices=4,
+}%
+
+\def\pgfplots@rect@next@A{B}
+\def\pgfplots@rect@next@B{C}
+\def\pgfplots@rect@next@C{D}
+\def\pgfplots@rect@next@D{A}
+
+\def\pgfplots@rect@rnext@A{D}
+\def\pgfplots@rect@rnext@B{A}
+\def\pgfplots@rect@rnext@C{B}
+\def\pgfplots@rect@rnext@D{C}
+
+% Ideas: make sure that the foreground edge is the 'v=1'
+% edge of the coons patch, i.e. that it is drawn on top of
+% the rest.
+%
+% Furthermore, for fixed v, the 'u=1' point should belong
+% to the foreground (as it is drawn on top of u=0).
+%
+% In other words, if the coons patch looks like
+%
+% BB-------CC <--v=1
+% | |
+% | |
+% | |
+% AA-------DD <--v=0
+% | |
+% u=0 u=1
+%
+% where the AA,BB,CC,DD are the corners of the coons
+% patch, The FOREGROUND POINT of our visualization here should be CC,
+% the second most foreground point BB (assuming that
+% foreground point and second most foreground point are
+% adjacent).
+%
+% Thus, if 'CC' is behind of 'BB' in the A,B,C,D ordering:
+% start the coons patch with AA := BB-1 in forward
+% direction.
+% else
+% start the coons patch with AA := BB+1 in reverse
+% direction.
+%
+% #1: the vertex prefix for the rectangular shape.
+% Thus, \csname #1A\endcsname is the first vertex, \csname #1B\endcsname the second
+% and #1C, #1D the third and fourth.
+%
+% #2: A macro name. It will be defined to be either A,B,C or D.
+% #3: A macro name. It will be defined to be either empty or 'r'. If
+% it is empty, the coons patch shall be in the sequence
+% #2,next(#2),next(next(#2),....
+% If it is 'r', the coons patch shall be in the sequence
+% #2,prev(#2),prev(prev(#2),...
+%
+% Note that this method works also for biquadratic patches since these
+% patches also have #1A, #1B, #1C and #1D as their corners.
+%
+\def\pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth#1#2#3{%
+ \def#2{A}%
+ \def#3{}%
+ %
+ \expandafter\expandafter\expandafter\pgfplotspatchvertex\csname #1A\endcsname\endvertex
+ \ifx\pgfplotspatchvertexdepth\pgfutil@empty
+ \else
+ % aaah -- we have z buffer information. Then we will use it!
+ \edef\PA{\pgfplotspatchvertexdepth pt A}%
+ \expandafter\expandafter\expandafter\pgfplotspatchvertex\csname #1B\endcsname\endvertex
+ \edef\PB{\pgfplotspatchvertexdepth pt B}%
+ \expandafter\expandafter\expandafter\pgfplotspatchvertex\csname #1C\endcsname\endvertex
+ \edef\PC{\pgfplotspatchvertexdepth pt C}%
+ \expandafter\expandafter\expandafter\pgfplotspatchvertex\csname #1D\endcsname\endvertex
+ \edef\PD{\pgfplotspatchvertexdepth pt D}%
+ \pgfplotsutilsortfour\PA\PB\PC\PD
+ \def\toCHAR##1pt ##2{##2}% get original index
+ %
+ %
+ \edef\PA{\expandafter\toCHAR\PA}%%
+ \edef#2{\expandafter\toCHAR\PB}%%
+ \edef\Pnext{\csname pgfplots@rect@next@#2\endcsname}% this here uses only A,B,C and D (also for biquadratic patches!)
+ \if\Pnext\PA
+ % ok, next(BB) = CC.
+ % that means we have to advance forward.
+ \def#3{}%
+ \edef#2{\csname pgfplots@rect@rnext@#2\endcsname}%
+ \else
+ \edef#2{\csname pgfplots@rect@next@#2\endcsname}%
+ \def#3{r}%
+ \fi
+%\message{^^JDEPTH SEQUENCE for rectangle: \PA, \PB, \PC, \PD^^J}%
+%\message{COONS PATH ORDERING: starts with #2, direction: \ifx#3\pgfutil@empty forward\else backward\fi^^J}%
+ \fi
+}%
+
+\def\pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth@no@op#1#2#3{%
+ \def#2{A}%
+ \def#3{}%
+}
+
+% The low-level tikz plot handler for 3D mesh and surface plots.
+%
+% It expects
+% a) a coordinate stream which is a linearized matrix, iterated either
+% rowwise or column wise,
+% b) the current set of options in /pgfplots/mesh/.
+%
+%
+% ATTENTION:
+% this handler is NOT as general as the others. In particular, it
+% can't be interrupted by TeX groups: every single statement,
+% starting with streamstart and ending with stream end, must be in
+% the same scope!
+%
+% As a consequence, you can't use this handler inside of (all) TikZ
+% input streams. Try it out. It will work in pgfplots, however.
+%
+% Furthermore, it relies on a couple of pgfplots macros. This may
+% change in future versions.
+% It relies on:
+% - \ifpgfplots@curplot@threedim
+% - \pgfplots@current@point@meta
+% -> it also invokes \pgfplots@perpointmeta@preparetrafo and its
+% @APPLY counterpart which checks for
+% - \pgfplots@metamax
+% If you use it outside of pgfplots, use
+% \global\let\pgfplots@metamax=\pgfutil@empty
+% This is can be used without an initialised
+% pgfplots axes - as long as \pgfplots@current@point@meta is in
+% the range [0,1000].
+% - for the case 'shader=interp', a bounding box must be established
+% before the plot is finished. This must be done using
+% \def\pgfplotspointbbupperright{\pgfqpointxyz{2}{2}{0.9}}
+% \def\pgfplotspointbblowerleft {\pgfqpointxyz{0}{0}{0.1}}
+% or something like that.
+%
+% Besides these internals, it also relies on all public /pgfplots
+% configuration keys related to mesh/surface plots.
+%
+% Please note that the 'z buffer' feature will not work without
+% pgfplots (especially the z buffer=sort feature).
+%
+% Here is an example which compiles without a pgfplots axes:
+% ----------------------------------------------------------
+% \begin{tikzpicture}
+% \scope[
+% /pgfplots/.cd,
+% surf,
+% shader=faceted,
+% mesh/rows=4,
+% mesh/cols=4,
+% mesh/num points=,
+% /tikz/x={(0.44237cm,-0.07439cm)},
+% /tikz/y={(0.30942cm,0.23932cm)},
+% /tikz/z={(0.0cm,1.5cm)},
+% ]
+% \makeatletter
+%
+% \global\let\pgfplots@metamax=\pgfutil@empty
+% \pgfplots@curplot@threedimtrue
+%
+% \pgfplotsplothandlermesh
+% \pgfplotstreamstart
+%
+% \def\rangea{0.21}%
+% \def\rangeb{0.9}%
+%
+% \pgfmathparse{1000/(\rangeb-\rangea)}
+% \let\factor=\pgfmathresult
+%
+% \def\simplecoordinate(#1,#2,#3){%
+% \pgfmathparse{\factor*(#3 - \rangea)}%
+% \let\pgfplots@current@point@meta=\pgfmathresult
+% \pgfplotstreampoint{\pgfqpointxyz{#1}{#2}{#3}}%
+% }%
+% % for the case 'shaer=interp':
+% \def\pgfplotspointbbupperright{\pgfqpointxyz{2}{2}{0.9}}
+% \def\pgfplotspointbblowerleft {\pgfqpointxyz{0}{0}{0.1}}
+%
+% \simplecoordinate(0,3,0.7)
+% \simplecoordinate(1,3,0.5)
+% \simplecoordinate(2,3,0.58)
+% \simplecoordinate(3,3,0.9)
+%
+% \simplecoordinate(0,2,0.68)
+% \simplecoordinate(1,2,0.22)
+% \simplecoordinate(2,2,0.25)
+% \simplecoordinate(3,2,0.4)
+%
+% \simplecoordinate(0,1,0.6)
+% \simplecoordinate(1,1,0.3)
+% \simplecoordinate(2,1,0.21)
+% \simplecoordinate(3,1,0.3)
+%
+% \simplecoordinate(0,0,0.8)
+% \simplecoordinate(1,0,0.56)
+% \simplecoordinate(2,0,0.5)
+% \simplecoordinate(3,0,0.75)
+%
+%
+% \pgfplotstreamend
+% \pgfusepath{stroke}
+%
+% \endscope
+% \end{tikzpicture}
+% ----------------------------------------------------------
+% END OF EXAMPLE
+% -> see also the legend image for mesh plots.
+%
+\def\pgfplotsplothandlermesh{%
+ \pgfkeysgetvalue{/pgfplots/patch type}\pgfplotsplothandlermesh@patchclass
+ \ifx\pgfplotsplothandlermesh@patchclass\pgfplotsplothandlermesh@patchclass@defaulttext
+ \let\pgfplotsplothandlermesh@patchclass=\pgfutil@empty
+ \fi
+ % FIXME : detect 1d mode here!
+ \ifx\pgfplotsplothandlermesh@patchclass\pgfutil@empty
+ % assign default patch class.
+ \if1\pgfplotsplothandlermesh@matrixinput
+ \def\pgfplotsplothandlermesh@patchclass{rectangle}%
+ \else
+ \def\pgfplotsplothandlermesh@patchclass{triangle}%
+ \fi
+ \pgfkeyslet{/pgfplots/patch type}\pgfplotsplothandlermesh@patchclass
+ \fi
+ %
+ \if0\pgfplotsplothandlermesh@matrixinput
+ % mesh input=patches: simply skip empty input lines:
+ \pgfkeyssetvalue{/pgfplots/empty line}{none}%
+ \fi
+ %
+ \pgfkeysgetvalue{/pgfplots/patch table/value}\pgfplotsplothandlermesh@patchtable
+ \ifx\pgfplotsplothandlermesh@patchtable\pgfutil@empty
+ \else
+ \def\pgfplotsplothandlermesh@matrixinput{0}% implies 'patch input=patches'
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@mesh@patchtable
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@mesh@patchtable
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@mesh@patchtable
+ \fi
+ \def\pgf@plotstreamstart{%
+% \scope
+ %
+ % this shouldn't be necessary, but it doesn't hurt either.
+ \pgfplots@perpointmeta@preparetrafo
+ %
+ \def\pgfplotsplothandlermesh@ONEDIMMODE{0}%
+ \pgfplotsplothandlermesh@init@meshkeys
+ %
+ %
+ \let\pgfplotsplothandlermesh@patchclass@input=\pgfplotsplothandlermesh@patchclass
+ \let\pgfplotsplothandlermesh@patchclass@output=\pgfplotsplothandlermesh@patchclass@input
+ \if0\pgfplotsplothandlermesh@triangulate
+ \else
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@input}{triangulate class}%
+ \let\pgfplotsplothandlermesh@patchclass@output=\pgfplotsretval
+ \fi
+ %
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@input}{init}%
+ \ifx\pgfplotsplothandlermesh@patchclass@input\pgfplotsplothandlermesh@patchclass@output
+ \else
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{init}%
+ \fi
+ %
+ % assign boolean:
+ \let\b@pgfplotsplothandlermesh@matrixoutput=\pgfplotsplothandlermesh@matrixinput
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{allow matrix}%
+ \if0\pgfplotsretval
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \ifnum\pgfkeysvalueof{/pgfplots/patch refines}>0
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \if1\pgfplotsaxisplothasjumps
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \if\pgfplotsplothandlermesh@zbuffer@choice4% 'z buffer=sort':
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \if2\pgfplotsplothandlermesh@shader
+ \else
+ % 'shader!=interp'
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{get pdf shading type}%
+ \if4\pgfplotsretval
+ \else
+ \if5\pgfplotsretval
+ \else
+ \def\b@pgfplotsplothandlermesh@matrixoutput{0}%
+ \fi
+ \fi
+ %
+ % special handling: check if Type=5 shadings need to be
+ % converted to Type=4
+ \if0\b@pgfplotsplothandlermesh@matrixoutput
+ % no matrix output possible
+ \if5\pgfplotsretval
+ % pdf shading type=5 (matrix output)
+ \ifnum\pgfplotsplothandlermesh@shader>1
+ % shader=interp or shader=faceted interp
+ %
+ % oh. shading type=5 is *essentially* the same as
+ % matrix output, but matrix output is forbidden.
+ % In that case, triangulate the matrix and shade the
+ % triangles:
+ \def\pgfplotsplothandlermesh@triangulate{1}%
+ \def\pgfplotsplothandlermesh@patchclass@output{triangle}%
+ \fi
+ \fi
+ \fi
+ %
+ \pgfplotsplothandlermesh@init@DECODE
+ \pgfplotsplothandlermesh@init@REFINE
+ %
+ \pgfutil@ifundefined{pgfplots@drawmodes}{%
+ \let\pgfplots@drawmodes=\tikz@mode
+ \let\pgfplots@drawoptions=\tikz@options
+ }{}%
+ %
+ %
+ % Prepare color data source:
+ \ifx\pgfplotspointmetainputhandler\pgfutil@empty%
+ % oh. There is no color data!? Well... then use a constant
+ % color.
+ %
+ % This activates tikz colors:
+ %\tikz@options
+ \def\pgfplotsplothandlermesh@definecolor{%
+ \pgfplots@drawoptions
+ }%
+ \else
+ \pgfplotsplothandlermesh@init@cdata
+ \pgfplotsplothandlermesh@init@shader
+ \pgfplotsplothandlermesh@init@flat@color
+ \fi
+ % PREPARE THE STREAM PROCESSING:
+ % handling of jumps.
+ \pgfplotsplothandlermesh@init@jumphandling
+ %
+ % z buffering:
+ \pgfplotsplothandlermesh@init@zbuffer
+ %
+ \pgfplotsplothandlermesh@init@mesh@stream
+ %
+ \c@pgfplots@scanlineindex=0
+ }%
+}%
+\def\pgfplotsplothandlermesh@patchclass@defaulttext{default}%
+
+
+% Defines \pgfplotsretval to be either empty or the current point's
+% depth according to z buffer information.
+\def\pgfplotsplothandlermesh@compute@vertex@depth{\let\pgfplotsretval\pgfutil@empty}%
+
+% If \pgfplotsplothandlermesh@compute@vertex@depth is set to this
+% particular implementation, the \pgfplotspatchvertexdepth macro will
+% contain the view depth.
+%
+\def\pgfplotsplothandlermesh@compute@vertex@depth@doit{%
+ \pgfplotsmathviewdepthxyz{\pgfplots@current@point@x}{\pgfplots@current@point@y}{\pgfplots@current@point@z}% FIXME relies on pgfplots macros
+ \edef\pgfplotsretval{\pgfmathresult}%
+}%
+
+
+% The patch visualization works like a PIPELINE:
+%
+% DECODE -> CHECK JUMP -> REFINE -> FINISH
+%
+% where FINISH is usually nothing but VISUALIZE; but it can also mean
+% to collect patches, sort them according to view depth and visualize
+% the result.
+%
+% Each single PIPE element can be exchanged by a separate "subclass".
+% For example, DECODE can either DECODE from a matrix (a lattice) or a
+% sequence of patch coords.
+%
+\def\pgfplotsplothandlermesh@stream#1{%
+ \pgfplotsplothandlermesh@PIPE@DECODE{#1}%
+}%
+
+% accumulates a patch vertex-by-vertex.
+% #1 the next vertex of a patch (#1 defines canvas coordinates \pgf@x
+% and \pgf@y).
+%
+% @PRECONDITION \pgfplots@current@point@[xyz] and \pgfplots@current@point@meta
+% need to be defined.
+\def\pgfplotsplothandlermesh@PIPE@DECODE#1{%
+ \let\pgfplotsplothandlermesh@patchclass\pgfplotsplothandlermesh@patchclass@input
+ \pgfplotsplothandlermesh@compute@vertex@depth% <-- this modifies \pgfplotsretval
+ \pgf@process{#1}%
+ % calls \pgfplotspatchready when ready
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{set next vertex}{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}\pgfplotsretval}%%
+}%
+\def\pgfplotspatchready{%
+ \pgfplotsplothandlermesh@PIPE@CHECKJUMP
+}%
+\let\pgfplotspatchready@orig=\pgfplotspatchready
+\def\pgfplotsplothandlermesh@PIPE@CHECKJUMP{%
+ \pgfplots@loc@tmptrue
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{foreach vertex}{%
+ \pgfplotsplothandlermesh@check@unbounded%
+ }%
+ \ifpgfplots@loc@tmp
+ \expandafter\pgfplotsplothandlermesh@PIPE@REFINE
+ \fi
+}%
+\def\pgfplotsplothandlermesh@PIPE@REFINE@no@op{%
+ \pgfplotsplothandlermesh@PIPE@FINISH
+}%
+\let\pgfplotsplothandlermesh@PIPE@REFINE=\pgfplotsplothandlermesh@PIPE@REFINE@no@op
+
+% invoked when a patch is completely processed.
+% This might be replaced by the z buffering algorithm
+\def\pgfplotsplothandlermesh@PIPE@FINISH{%
+ \pgfplotsplothandlermesh@VISUALIZE
+}%
+
+% Standard implementation for VISUALIZE
+\def\pgfplotsplothandlermesh@VISUALIZE@std@fill@andor@stroke{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{fill path}%
+ \pgfplotsplothandlermesh@definecolor
+ \pgfplotsplothandlermesh@usepath
+}%
+\let\pgfplotsplothandlermesh@VISUALIZE@std=\pgfplotsplothandlermesh@VISUALIZE@std@fill@andor@stroke
+
+\let\pgfplotsplothandlermesh@VISUALIZE=\pgfplotsplothandlermesh@VISUALIZE@std
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+\def\pgfplotsplothandlermesh@init@DECODE{%
+ \if1\pgfplotsplothandlermesh@matrixinput
+ % mesh input=lattice
+ % Init memory:
+ %
+ % And now finally: initialise the conversion from
+ % LINEARIZED COORD STREAM -> DATA MATRIX:
+ \if\pgfplots@plot@mesh@ordering0%
+ % x varies (=rowwise):
+ \let\pgfplotsplothandlermesh@scanlinelength=\pgfplotsplothandlermesh@cols
+ \else
+ % y varies (=colwise):
+ \let\pgfplotsplothandlermesh@scanlinelength=\pgfplotsplothandlermesh@rows
+ \fi
+ %
+ \if1\pgfplotsplothandlermesh@ONEDIMMODE
+%\message{initialised DECODE for 1d mode.^^J}%
+ \let\pgfplotsplothandlermesh@PIPE@DECODE=\pgfplotsplothandlermesh@PIPE@DECODE@matrix@ONEDIMMODE
+ \else
+ \if0\b@pgfplotsplothandlermesh@matrixoutput
+ % in fact, this does only remember the maximum capacity;
+ % it doesn't fill the memory.
+ \c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
+ \advance\c@pgfplots@scanlineindex by1
+ \pgfplotsdequenewempty{lastscanline}\capacity{\the\c@pgfplots@scanlineindex}%
+ \let\pgfplotsplothandlermesh@PIPE@DECODE=\pgfplotsplothandlermesh@PIPE@DECODE@matrix@fillscanline
+%\message{initialised DECODE for patch output (from matrix).^^J}%
+ \else
+ % SPECIAL HANDLING!
+ \let\pgfplotsplothandlermesh@PIPE@DECODE=\pgfplotsplothandlermesh@PIPE@DECODE@to@shader
+%\message{initialised DECODE for direct matrix output (from matrix).^^J}%
+ \fi
+ \fi
+ \else
+%\message{initialised DECODE for patch output (from patch).^^J}%
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@PIPE@REFINE@triangulate{%
+ \let\pgfplotspatchready\pgfplotsplothandlermesh@PIPE@FINISH
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{triangulate}%
+ \let\pgfplotspatchready\pgfplotspatchready@orig
+}%
+\def\pgfplotsplothandlermesh@PIPE@REFINE@recursively{%
+ \let\pgfplotspatchready\pgfplotsplothandlermesh@PIPE@FINISH
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{refine}{\pgfplotsplothandlermesh@refinecount}%
+ \let\pgfplotspatchready\pgfplotspatchready@orig
+}%
+\def\pgfplotsplothandlermesh@PIPE@REFINE@triangulate@recursively{%
+ \let\pgfplotspatchready=\pgfplotsplothandlermesh@PIPE@REFINE@triangulate@recursively@patchready
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{refine}{\pgfplotsplothandlermesh@refinecount}%
+ \let\pgfplotspatchready\pgfplotspatchready@orig
+}%
+\def\pgfplotsplothandlermesh@PIPE@REFINE@triangulate@recursively@patchready{%
+ \let\pgfplotspatchready\pgfplotsplothandlermesh@PIPE@FINISH
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{triangulate}%
+ \let\pgfplotspatchready\pgfplotsplothandlermesh@PIPE@REFINE@triangulate@recursively@patchready
+}%
+\def\pgfplotsplothandlermesh@init@REFINE{%
+ \pgfkeysgetvalue{/pgfplots/patch refines}\pgfplotsplothandlermesh@refinecount
+ \if0\pgfplotsplothandlermesh@triangulate
+ \ifnum\pgfplotsplothandlermesh@refinecount>0
+%\message{initiased REFINE to REFINE.}%
+ \let\pgfplotsplothandlermesh@PIPE@REFINE=\pgfplotsplothandlermesh@PIPE@REFINE@recursively
+ \else
+%\message{initiased REFINE to NOP.}%
+ \let\pgfplotsplothandlermesh@PIPE@REFINE=\pgfplotsplothandlermesh@PIPE@REFINE@no@op
+ \fi
+ \else
+%\message{initiased REFINE to triangulate.}%
+ \ifnum\pgfplotsplothandlermesh@refinecount>0
+ \let\pgfplotsplothandlermesh@PIPE@REFINE=\pgfplotsplothandlermesh@PIPE@REFINE@triangulate@recursively
+ \else
+ \let\pgfplotsplothandlermesh@PIPE@REFINE=\pgfplotsplothandlermesh@PIPE@REFINE@triangulate
+ \fi
+ \fi
+}%
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+% MESH SURVEY
+\newif\ifpgfplotsplothandlermesh@patchtable@hascdata
+\newif\ifpgfplotsplothandlermesh@patchtable@cdata@individual
+\def\pgfplotsplothandlersurveystart@mesh@patchtable{%
+ \pgfplotsarraynewempty\pgfplots@verts
+}%
+\def\pgfplotsplothandlersurveypoint@mesh@patchtable{%
+ \pgfplotscoordmath{x}{parsenumber}{\pgfplots@current@point@x}%
+ \let\pgfplots@current@point@x=\pgfmathresult
+ %
+ \pgfplotscoordmath{y}{parsenumber}{\pgfplots@current@point@y}%
+ \let\pgfplots@current@point@y=\pgfmathresult
+ %
+ \ifpgfplots@curplot@threedim
+ \pgfplotscoordmath{z}{parsenumber}{\pgfplots@current@point@z}%
+ \let\pgfplots@current@point@z=\pgfmathresult
+ \fi
+ %
+ \ifpgfplotsplothandlermesh@patchtable@hascdata
+ % will be handled later, using data from within 'patch table':
+ \let\pgfplots@current@point@meta=\pgfutil@empty
+ \else
+ \pgfplotsaxissurveysetpointmeta
+ \fi
+ %
+ \def\pgfplots@loc@TMPa{1}%
+ \ifx\pgfplots@current@point@x\pgfutil@empty
+ \def\pgfplots@loc@TMPa{0}%
+ \else
+ \ifx\pgfplots@current@point@y\pgfutil@empty
+ \def\pgfplots@loc@TMPa{0}%
+ \else
+ \ifx\pgfplots@current@point@z\pgfutil@empty
+ \ifpgfplots@curplot@threedim
+ \def\pgfplots@loc@TMPa{0}%
+ \fi
+ \fi
+ \fi
+ \fi
+ \if1\pgfplots@loc@TMPa
+ \edef\pgfplots@loc@TMPa{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z;\pgfplots@current@point@meta;}%
+ \expandafter\pgfplotsarraypushback\pgfplots@loc@TMPa\to\pgfplots@verts
+ \fi
+}%
+\def\pgfplotsplothandlersurveyend@mesh@patchtable{%
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@default
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@default
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@default
+ \pgfplotsplothandlersurveystart
+ \expandafter\pgfplotstable@isloadedtable\expandafter{\pgfplotsplothandlermesh@patchtable}{%
+ \pgfplots@error{Sorry, 'patch table={<loaded table>}' has not been implemented; it would probably be too slow :-(. Please provide a file name or inline table data}%
+ }{%
+ \expandafter\pgfplotstableread\expandafter*\expandafter{\pgfplotsplothandlermesh@patchtable} to listener\pgfplotsplothandlermesh@patchtable@rowlistener
+ }%
+ \pgfplotsplothandlersurveyend
+}%
+
+\def\pgfplotsplothandlermesh@patchtable@init{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{get num vertices}%
+ \let\pgfplotsplothandlermesh@patchtable@numverts=\pgfplotsretval
+ %
+ \ifpgfplotsplothandlermesh@patchtable@hascdata
+ \ifpgfplotsplothandlermesh@patchtable@cdata@individual
+ \else
+ \ifnum\pgfplotsplothandlermesh@patchtable@numverts<\pgfplotstablecols\relax
+ % prepare a pointer to data column: use the column
+ % after the last vertex index.
+ % this thing constitutes the "default" cdata source for
+ % 'point meta=explicit'.
+ \pgfplotstablereadgetptrtocolindex
+ {\pgfplotsplothandlermesh@patchtable@numverts}
+ {\pgfplots@table@PTR@CDATA}%
+ \else
+ \let\pgfplots@table@PTR@CDATA=\relax
+ \fi
+ \fi
+ \else
+ \pgfplotsplothandlermesh@patchtable@cdata@individualfalse
+ \fi
+ %
+ \c@pgf@countb=0
+ \pgfutil@loop
+ \ifnum\c@pgf@countb<\pgfplotsplothandlermesh@patchtable@numverts\relax
+ \edef\pgfplots@loc@TMPa{%
+ \noexpand\pgfplotstablereadgetptrtocolindex{\the\c@pgf@countb}{\expandafter\noexpand\csname pgfplots@table@PTR@\the\c@pgf@countb\endcsname}%
+ }%
+ \pgfplots@loc@TMPa
+ \advance\c@pgf@countb by1
+ \pgfutil@repeat
+ \let\pgfplotsplothandlermesh@patchtable@init=\relax
+}%
+\def\pgfplotsplothandlermesh@patchtable@rowlistener@exceptionmsg{%
+ \pgfplotsplothandlermesh@patchtable:\pgfplotstablelineno\space\space could not read column no \the\c@pgf@countb: '\pgfplots@current@vertexindex' is no valid index into the array of \pgfplotsarraysizeof\pgfplots@verts\space coordinates%
+}%
+\def\pgfplotsplothandlermesh@patchtable@rowlistener{%
+ \pgfplotsplothandlermesh@patchtable@init%
+ \let\pgfplotsexceptionmsg=\pgfplotsplothandlermesh@patchtable@rowlistener@exceptionmsg
+ %
+ \ifpgfplotsplothandlermesh@patchtable@hascdata
+ \ifpgfplotsplothandlermesh@patchtable@cdata@individual
+ \else
+ \ifx\pgfplots@table@PTR@CDATA\relax
+ \let\pgfplots@current@point@meta=\pgfutil@empty
+ \else
+ \pgfplotstablereadevalptr\pgfplots@table@PTR@CDATA\pgfplots@current@point@meta
+ \fi
+ \fi
+ \fi
+ %
+ \c@pgf@countb=0
+ \pgfutil@loop
+ \ifnum\c@pgf@countb<\pgfplotsplothandlermesh@patchtable@numverts\relax
+ \expandafter\pgfplotstablereadevalptr\csname pgfplots@table@PTR@\the\c@pgf@countb\endcsname\pgfplots@current@vertexindex%
+ %
+ \ifx\pgfplots@current@vertexindex\pgfutil@empty
+ \else
+ \pgfmathfloatparsenumber{\pgfplots@current@vertexindex}%
+ \pgfmathfloattoint\pgfmathresult
+ \let\pgfplots@current@vertexindex=\pgfmathresult
+ %
+ \pgfplotsarrayselect\pgfplots@current@vertexindex\of\pgfplots@verts\to\pgfplots@stored@pt
+ %
+ \ifpgfplotsplothandlermesh@patchtable@cdata@individual
+ \c@pgf@countc=\c@pgf@countb\relax
+ \advance\c@pgf@countc by\pgfplotsplothandlermesh@patchtable@numverts\relax
+ \expandafter\getthisrowno\expandafter{\the\c@pgf@countc}\pgfplots@current@point@meta
+ \fi
+ %
+ \expandafter\pgfplotsplothandlermesh@patchtable@stream\pgfplots@stored@pt
+ \fi
+ \advance\c@pgf@countb by1
+ \pgfutil@repeat
+ \let\pgfplotsexceptionmsg=\relax
+}
+\def\pgfplotsplothandlermesh@patchtable@stream#1,#2,#3;#4;{%
+ \def\pgfplots@current@point@x{#1}%
+ \def\pgfplots@current@point@y{#2}%
+ \def\pgfplots@current@point@z{#3}%
+ \ifpgfplotsplothandlermesh@patchtable@hascdata
+ \def\pgfplots@set@perpointmeta@done{0}%
+ \pgfplotsaxissurveysetpointmeta
+ \else
+ \def\pgfplots@current@point@meta{#4}%
+ \fi
+ \pgfplotsplothandlersurveypoint
+}%
+% MESH SURVEY
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+\def\pgfplotsplothandlermesh@init@meshkeys{%
+ \if1\pgfplotsplothandlermesh@matrixinput
+ % mesh input=lattice
+ \pgfplotsautocompletemeshkeys%
+ \pgfkeysgetvalue{/pgfplots/mesh/rows}\pgfplotsplothandlermesh@rows
+ \pgfkeysgetvalue{/pgfplots/mesh/cols}\pgfplotsplothandlermesh@cols
+ \pgfkeysgetvalue{/pgfplots/mesh/num points}\pgfplotsplothandlermesh@numpoints
+ %
+ % the \pgfplotsplothandlermesh@ONEDIMMODE macro is ONLY
+ % interesting for matrix input.
+ \ifnum\pgfplotsplothandlermesh@cols>1
+ \else
+ \def\pgfplotsplothandlermesh@ONEDIMMODE{1}%
+ \fi
+ \ifnum\pgfplotsplothandlermesh@rows>1
+ \else
+ \def\pgfplotsplothandlermesh@ONEDIMMODE{1}%
+ \fi
+ \if1\pgfplotsplothandlermesh@ONEDIMMODE
+ \def\pgfplotsplothandlermesh@patchclass{line}%
+ \pgfkeyslet{/pgfplots/patch type}\pgfplotsplothandlermesh@patchclass
+ \fi
+ \else
+ % mesh input=patches
+ \pgfkeys{/pgfplots/mesh/ordering/x varies}% disable any special handling.
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@init@cdata{%
+ % Ok, we have color data.
+ %
+ % Prepare:
+ \def\pgfplotsplothandlermesh@definecolor{%
+ \pgfplotsplothandlermesh@get@flat@color
+ \pgfplotscolormapdefinemappedcolor{\pgfplotsretval}%
+ \pgfplots@drawoptions
+ }%
+ %
+ % Acquire the values for \tikz@mode@* [used for faceted]
+ \pgfplots@drawmodes
+}
+
+
+\let\pgfsetstrokecolor@orig=\pgfsetstrokecolor
+\def\pgfplotsplothandlermesh@VISUALIZE@std@separate@fillstroke@setstrokecolor#1{%
+ \pgfsetstrokecolor@orig{.}%
+}%
+\def\pgfplotsplothandlermesh@VISUALIZE@std@separate@fillstroke{%
+ \pgfplotsplothandlermesh@get@flat@color
+ \pgfplotscolormapdefinemappedcolor{\pgfplotsretval}%
+ %
+ \ifx\pgfplotsplothandlermesh@usepathfill\relax
+ \else
+ \let\pgfsetstrokecolor=\pgfplotsplothandlermesh@VISUALIZE@std@separate@fillstroke@setstrokecolor
+ \pgfplots@drawoptions
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{fill path}%
+ \pgfplotsplothandlermesh@usepathfill
+ \fi
+ \ifx\pgfplotsplothandlermesh@usepathstroke\relax
+ \else
+ \let\pgfsetstrokecolor=\pgfsetstrokecolor@orig
+ \pgfplots@drawoptions
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{stroke path}%
+ \pgfplotsplothandlermesh@usepathstroke
+ \fi
+}%
+
+\def\pgfplotsplothandlermesh@VISUALIZE@interp{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{stream to shader}%
+}%
+
+\def\pgfplotsplothandlermesh@VISUALIZE@faceted@interp{%
+ \pgfplotslibrarysurfstreamstart
+ \pgfplotsplothandlermesh@VISUALIZE@interp
+ \pgfplotslibrarysurfstreamend
+ \pgfplotslibrarysurfdrawinpicture
+ %
+ \pgfplotsplothandlermesh@VISUALIZE@std
+}%
+
+\def\pgfplotsplothandlermesh@PIPE@CHECKJUMP@disable{%
+ \def\pgfplotsplothandlermesh@PIPE@CHECKJUMP{\pgfplotsplothandlermesh@PIPE@REFINE}%
+}%
+
+\def\pgfplotsplothandlermesh@init@shader{%
+ %
+ % Now, process the 'shader' key here:
+ \if\pgfplotsplothandlermesh@ONEDIMMODE1
+ \def\pgfplots@meshmode{m}% 'mesh'
+ \fi
+ \if\pgfplots@meshmode m% mesh
+ % this is processed by the 'shader=flat' code below.
+ \def\pgfplotsplothandlermesh@shader{0}% 'flat'
+ \fi
+ \ifnum\pgfplotsplothandlermesh@shader>1% 'shader=interp' and 'shader=faceted interp'
+ \pgflibrarysurfshadingifactive
+ {}%
+ {%
+ \pgfutil@ifundefined{pgfplotsplothandlermesh@shader@warning}{%
+ \pgfplots@error{Sorry, surface shading (shader=interp) is NOT available for the selected driver `\pgfsysdriver'. I will use 'shader=flat' if you continue now}%
+ \gdef\pgfplotsplothandlermesh@shader@warning{x}%
+ }{}%
+ \def\pgfplotsplothandlermesh@shader{0}%
+ }%
+ \fi
+ %
+ %
+ \ifnum\pgfplotsplothandlermesh@shader>1
+ % 'shader=2': 'interp':
+ % very simple: defer work to surf library. Only
+ % provide the mapped colordata.
+ %
+ % 'shader=3': 'faceted interp':
+ % a mix of 'faceted' and 'interp'. (might be inefficient in
+ % terms of pdf memory and rendering times)
+ %
+ % This won't be used for mesh plots, neither in one
+ % nor in two dimensions.
+ \pgfkeyssetvalue{/pgfplots/surf shading/north east corner}{\pgfplotspointbbupperright}%
+ \pgfkeyssetvalue{/pgfplots/surf shading/south west corner}{\pgfplotspointbblowerleft}%
+ \pgfkeyssetvalue{/pgfplots/surf shading/anchor}{\pgfpointorigin}%
+ \if1\b@pgfplotsplothandlermesh@matrixoutput
+ % this *implies* a compatible patch class, see the
+ % definition of \b@pgfplotsplothandlermesh@matrixoutput
+ \def\pgfplotsretval{5}%
+ \else
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{get pdf shading type}%
+ \fi
+ \pgfkeyslet{/pgfplots/surf shading/shading type}\pgfplotsretval%
+ \pgfkeysgetvalue{/pgfplots/colormap name}\pgfplots@loc@TMPa
+ \expandafter\pgfplotscolormaptopdffunction\expandafter{\pgfplots@loc@TMPa}%
+ \pgfkeyslet{/pgfplots/surf shading/colormap}\pgfplotsretval
+ \pgfplotscolormapgetcolorspace\pgfplots@loc@TMPa
+ \pgfkeyslet{/pgfplots/surf shading/colorspace}\pgfplotsretval
+ \if2\pgfplotsplothandlermesh@shader
+ % shader=interp
+ \let\pgfplotsplothandlermesh@definecolor=\relax
+ \let\pgfplotsplothandlermesh@VISUALIZE=\pgfplotsplothandlermesh@VISUALIZE@interp%
+ \pgfkeyslet{/pgfplots/surf shading/cols}\pgfplotsplothandlermesh@scanlinelength
+ %\if1\b@pgfplotsplothandlermesh@matrixoutput
+ \iffalse% FIXME : is this special handling necessary!?
+ \if\pgfplots@plot@mesh@ordering0%
+ % ordering=x varies:
+ % nothing special to do
+ \else
+ % FIXME
+ % [this happens only for mesh input=lattice]
+ % colwise:
+ %
+ % The low level shader NEEDS rowwise ordering. So, we need to transpose the data matrix.
+ % As usual in TeX, we should save macros as much as possible. I guess we NEED at least one macro for each matrix row.
+ % Idea:
+ % while we iterate colwise through the input data, accumulate row vectors.
+ % Then, process the row vectors.
+ % Since vectors are expensive (in terms of number of macros), we use fast "append" lists instead of vectors.
+ \let\pgfplotsplothandlermesh@shader@interp=\pgfplotsplothandlermesh@shader@interp@incremental@transpose
+ %
+ % init all required row vectors:
+ \c@pgfplots@scanlineindex=0
+ \pgfutil@loop
+ \ifnum\c@pgfplots@scanlineindex<\pgfplotsplothandlermesh@rows\relax
+ \expandafter\pgfplotsapplistXnewempty\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
+ \advance\c@pgfplots@scanlineindex by1
+ \pgfutil@repeat
+ %\pgfkeyslet{/pgfplots/surf shading/cols}\pgfplotsplothandlermesh@rows
+ %\pgfplots@error{Sorry, the 'shader=interp' does not yet support 'mesh/ordering=colwise'... You can continue now, but the plot will be transposed.}%
+ \fi
+ \fi
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{init pdf shading}%
+ \pgfplotslibrarysurfstreamstart
+ \else
+ % shader='faceted interp'
+ \let\pgfplotsplothandlermesh@VISUALIZE=\pgfplotsplothandlermesh@VISUALIZE@faceted@interp%
+ \pgfkeyssetvalue{/pgfplots/surf shading/cols}{2}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{init pdf shading}%
+ \fi
+ \else
+ \def\pgfplotsplothandlermesh@VISUALIZE{\pgfplotsplothandlermesh@VISUALIZE@std}%
+ \fi
+ %
+ %%
+ \ifpgfplotsplothandlermesh@internaldepth
+ \else
+ % disable internal sorting.
+ \let\pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth=\pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth@no@op%
+ \let\pgfplotspatchclass@tri@to@coonspatch@findshadingsequence@for@depth=\pgfplotspatchclass@tri@to@coonspatch@findshadingsequence@for@depth@no@op
+ \fi
+}%
+
+\def\pgfplotsplothandlermesh@init@flat@color{%
+ \ifcase\pgfplotsplothandlermesh@shader
+ % 0 == 'flat'
+ \def\pgfplotsplothandlermesh@needs@flat@color{1}%
+ \or
+ % 1 == 'faceted'
+ \def\pgfplotsplothandlermesh@needs@flat@color{1}%
+ \or
+ % 2 == 'interp'
+ \def\pgfplotsplothandlermesh@needs@flat@color{0}%
+ \or
+ % 3 == 'faceted interp'
+ \def\pgfplotsplothandlermesh@needs@flat@color{1}%
+ \fi
+ \if1\pgfplotsplothandlermesh@needs@flat@color
+ \if\pgfplotsplothandlermesh@flatmode c% 'flat corner':
+ %
+ % use colordata of ONE corner point. That's easy, not
+ % much to do.
+ \def\pgfplotsplothandlermesh@get@flat@color{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{first vertex}%
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \let\pgfplotsretval=\pgfplotspointmetatransformed%
+ }%
+ \else
+ % 'flat mean':
+ %
+ % use colordata as mean of all corners for shading.
+ \global\pgfplots@tmpa=0pt
+ \def\pgfplotsplothandlermesh@get@flat@color{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{foreach cdata vertex}{%
+ \let\pgfplots@current@point@meta=\pgfplotspatchvertexmeta
+ \pgfplotsaxisvisphasetransformpointmeta
+ \global\advance\pgfplots@tmpa by\pgfplotspointmetatransformed pt
+ }%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{get num vertices}%
+ \global\divide\pgfplots@tmpa by\pgfplotsretval\relax
+ \edef\pgfplotsretval{\pgf@sys@tonumber\pgfplots@tmpa}%
+ \global\pgfplots@tmpa=0pt
+ }%
+ \fi
+ %
+ %
+ \if\pgfplots@meshmode m%
+ % 'mesh' plot: stroke only and use the 'flat' code
+ % here just to define the color for each mesh
+ % segment.
+ \let\pgfplotsplothandlermesh@usepath=\pgfusepathqstroke
+ \else
+ % 'surf' plot:
+ \let\pgfplotsplothandlermesh@usepath=\pgfusepathqfillstroke
+ \if\pgfplotsplothandlermesh@shader3% faceted interp
+ % it has an extra fill command (shading)
+ \let\pgfplotsplothandlermesh@usepath=\pgfusepathqstroke
+ \fi
+ %
+ % the distinction between 'faceted' and 'flat' is
+ % technical: it is just the default draw color.
+ %
+ % 'flat,draw=black' is the same as 'faceted'.
+ \pgfkeysgetvalue{/pgfplots/faceted color}\pgfplots@loc@TMPb
+ \def\pgfplots@loc@TMPc{none}%
+ \ifx\pgfplots@loc@TMPb\pgfplots@loc@TMPc
+ \pgfkeyslet{/pgfplots/faceted color}\pgfutil@empty
+ \def\pgfplots@loc@TMPb{}%
+ \fi
+ %
+ \def\pgfplots@loc@TMPa{0}%
+ \if\pgfplotsplothandlermesh@shader1% faceted
+ \def\pgfplots@loc@TMPa{1}%
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ % oh. no faceted color. Then: fill only, use
+ % whatever color is available.
+ \def\pgfplots@loc@TMPa{0}%
+ %\let\pgfplotsplothandlermesh@usepath=\pgfusepathqfill
+ \fi
+ \fi
+ \if\pgfplotsplothandlermesh@shader3% faceted interp
+ \def\pgfplots@loc@TMPa{1}%
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ % oh. no faceted color. Then: no-op!
+ % This is the same as interp with more overhead
+ % (but allows z buffering).
+ \def\pgfplots@loc@TMPa{0}%
+ \def\pgfplotsplothandlermesh@usepath{\pgfusepath{discard}}%
+ \fi
+ \fi
+ \if1\pgfplots@loc@TMPa
+ % make sure there is a the correct color.
+ \expandafter\def\expandafter\pgfplots@drawoptions\expandafter{%
+ \pgfplots@drawoptions
+ \pgfsetstrokecolor{\pgfkeysvalueof{/pgfplots/faceted color}}%
+ }%
+ \fi
+ %
+ \fi
+ %
+ \ifx\pgfplotsplothandlermesh@PIPE@REFINE\pgfplotsplothandlermesh@PIPE@REFINE@no@op
+ \let\pgfplotsplothandlermesh@VISUALIZE@std=\pgfplotsplothandlermesh@VISUALIZE@std@fill@andor@stroke
+ \else
+ \ifpgfplotsplothandlermesh@hide@refined@edges
+ % this is (at most) partially implemented.
+ \let\pgfplotsplothandlermesh@VISUALIZE@std=\pgfplotsplothandlermesh@VISUALIZE@std@separate@fillstroke
+ \else
+ \let\pgfplotsplothandlermesh@VISUALIZE@std=\pgfplotsplothandlermesh@VISUALIZE@std@fill@andor@stroke
+ \fi
+ %
+ % FIXME : that doesn't work.
+ % filling *always* seems to need a stroke operation,
+ % otherwise there will be translucent edges.
+ % I need to adjust the stroke color :-(
+ %
+ % FIXME : even that doesn't work correctly. The problem
+ % is: drawing adjacent patches on top of each other
+ % OVERDRAWS edges: once with the correct stroke color;
+ % once with the fill color.
+ %
+ \ifx\pgfplotsplothandlermesh@usepath\pgfusepathqstroke
+ \let\pgfplotsplothandlermesh@usepathfill=\relax
+ \let\pgfplotsplothandlermesh@usepathstroke=\pgfusepathqstroke
+ \else
+ \ifx\pgfplotsplothandlermesh@usepath\pgfusepathqfillstroke
+ \let\pgfplotsplothandlermesh@usepathfill=\pgfusepathqfillstroke
+ \let\pgfplotsplothandlermesh@usepathstroke=\pgfusepathqstroke
+ \else
+ \let\pgfplotsplothandlermesh@usepathfill=\relax
+ \let\pgfplotsplothandlermesh@usepathstroke=\relax
+ \fi
+ \fi
+ \fi
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@init@jumphandling{%
+ % For matrix input, a "jump" should result in something
+ % visible although it must not destroy the matrix structure.
+ %
+ % try this here:
+ \def\pgfplotsplothandlervisualizejump{%
+ \pgfplotstreampoint{\global\pgf@x=-16000.0pt \global\pgf@y=-16000.0pt }%
+ }%
+ %
+ \if0\pgfplotsaxisplothasjumps
+ \pgfplotsplothandlermesh@PIPE@CHECKJUMP@disable
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@init@zbuffer{%
+ \ifpgfplots@curplot@threedim
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{uses view depth}%
+ \if1\pgfplotsretval
+ \let\pgfplotsplothandlermesh@compute@vertex@depth=\pgfplotsplothandlermesh@compute@vertex@depth@doit%
+ \fi
+ %
+ \if\pgfplotsplothandlermesh@zbuffer@choice4%
+ % z buffer=sort:
+ % create a z buffer:
+ % the z buffer contains elements {<view depth>}{{<pt1>}{<pt2>}{<pt3>}{<pt4>}}
+ \pgfplotsarraynewempty\pgfplots@zbuffer@local
+ %
+ \let\pgfplotsplothandlermesh@compute@vertex@depth=\pgfplotsplothandlermesh@compute@vertex@depth@doit%
+ %
+ \let\pgfplotsplothandlermesh@accum@element@depth=\pgfmath@basic@add@
+ %
+ % and collect each point into the z buffer
+ % (instead of drawing it):
+ \def\pgfplotsplothandlermesh@PIPE@FINISH{%
+ %
+ % compute DEPTH(lattice element):= min{DEPTH(A),DEPTH(B),DEPTH(C),DEPTH(D)}
+ \def\pgfmathresult{0}%
+ \def\pgfplotsplothandlermesh@zbuffer@tmp{}%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{foreach vertex}{%
+ \pgfplotsplothandlermesh@accum@element@depth\pgfplotspatchvertexdepth\pgfmathresult
+ \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@zbuffer@tmp}%
+ \t@pgfplots@tokb=\expandafter{\pgfplotspatchvertexstruct}%
+ \edef\pgfplotsplothandlermesh@zbuffer@tmp{%
+ \the\t@pgfplots@toka
+ {\the\t@pgfplots@tokb}%
+ }%
+ }%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{serialize except vertices}%
+ \t@pgfplots@toka=\expandafter{\pgfplotsretval}%
+ \t@pgfplots@tokb=\expandafter{\pgfplotsplothandlermesh@zbuffer@tmp}%
+ \edef\pgfplotsplothandlermesh@zbuffer@tmp{%
+ {\the\t@pgfplots@toka}% first argument is meta data, then follow the vertices
+ \the\t@pgfplots@tokb%
+ }%
+ %
+ % assemble array element:
+ \t@pgfplots@toka=\expandafter{\pgfplotsplothandlermesh@zbuffer@tmp}%
+ \edef\pgfplots@loc@TMPa{%
+ {\pgfmathresult}%
+ {%
+ \the\t@pgfplots@toka
+ }%
+ }%
+ \expandafter\pgfplotsarraypushback\pgfplots@loc@TMPa\to\pgfplots@zbuffer@local
+ }%
+ \fi
+ \fi
+}%
+\def\pgfplotsplothandlermesh@init@mesh@stream{%
+ \global\let\pgf@plotstreamspecial=\pgfutil@gobble%
+ \global\let\pgf@plotstreamend=\pgfplotsplothandlermesh@finish%
+ \global\let\pgf@plotstreampoint=\pgfplotsplothandlermesh@stream
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
+}
+
+{
+\dimen0=-16000.0pt
+\xdef\pgfplotsplothandlermesh@check@unbounded@text{\the\dimen0}%
+}
+
+\def\pgfplotsplothandlermesh@check@unbounded{%
+ \ifx\pgfplotspatchvertexx\pgfplotsplothandlermesh@check@unbounded@text
+ \pgfplots@loc@tmpfalse
+ \fi
+}%
+
+\long\def\pgfplotsplothandlermesh@defaultlegend@img#1{%
+ \scope[%
+ #1,
+ /pgfplots/mesh/rows=3,
+ /pgfplots/mesh/cols=3,
+ /pgfplots/mesh/num points=,
+ /tikz/x={(0.44237cm,-0.07439cm)},
+ /tikz/y={(0.30942cm,0.23932cm)},
+ /tikz/z={(0.0cm,1.5cm)},
+ scale=0.4,
+ yshift=-0.7cm,
+ ]
+ \let\pgfplots@metamax=\pgfutil@empty
+ \pgfplots@curplot@threedimtrue
+
+ \pgfplotsplothandlermesh
+ \pgfplotstreamstart
+
+ \def\rangea{0.21}%
+ \def\rangeb{0.7}%
+
+ \pgfmathparse{1000/(\rangeb-\rangea)}
+ \let\factor=\pgfmathresult
+
+ \pgfutil@ifundefined{pgfqpointxyz@orig}{%
+ \let\pgfqpointxyz@orig=\pgfqpointxyz
+ }{}%
+ %
+ \def\simplecoordinate(##1,##2,##3){%
+ \pgfmathparse{\factor*(##3 - \rangea)}%
+ \pgfmathfloatparsenumber\pgfmathresult
+ \let\pgfplots@current@point@meta=\pgfmathresult
+ % pgfplots changes \pgfqpointxyz to
+ % \pgfplotspointdescriptionxy inside of legends, so use the
+ % '@orig' point command:
+ \pgfplotstreampoint{\pgfqpointxyz@orig{##1}{##2}{##3}}%
+ }%
+ % for the case 'shader=interp':
+ \def\pgfplotspointbbupperright{\pgfqpointxyz@orig{2}{2}{0.9}}
+ \def\pgfplotspointbblowerleft {\pgfqpointxyz@orig{0}{0}{0.1}}
+
+ \simplecoordinate(0,2,0.7)
+ \simplecoordinate(1,2,0.5)
+ \simplecoordinate(2,2,0.43)
+
+ \simplecoordinate(0,1,0.68)
+ \simplecoordinate(1,1,0.4)
+ \simplecoordinate(2,1,0.25)
+
+ \simplecoordinate(0,0,0.6)
+ \simplecoordinate(1,0,0.35)
+ \simplecoordinate(2,0,0.21)
+
+ \pgfplotstreamend
+ \pgfusepath{stroke}
+ \endscope
+}%
+
+\def\pgfplotsplothandlermesh@finish{%
+ \if\pgfplotsplothandlermesh@zbuffer@choice4%
+ % z buffer=sort:
+ % process the z buffer:
+ \pgfkeyslet{/pgfplots/iflessthan/.@cmd}\pgfplotsplothandlermesh@zbuffer@sort@iflessthen
+ \pgfkeysdef{/pgfplots/array/unscope pre}{%
+ \let\pgfplotsplothandlermesh@patchclass=\pgfplotsplothandlermesh@patchclass@output
+ \def\pgfplotspatchready{\pgfplotsplothandlermesh@VISUALIZE}%
+ \pgfplotsarrayforeachungrouped\pgfplots@zbuffer@local\as\curelem{%
+ \expandafter\pgfplotsplothandlermesh@draw@zbufferelement\curelem%
+ }%
+ }%
+ \pgfkeysdef{/pgfplots/array/unscope post}{}%
+ \pgfplotsarraysort\pgfplots@zbuffer@local
+ \fi
+ %
+ \if2\pgfplotsplothandlermesh@shader
+ % shader=interp:
+ % FIXME : broken!
+ %\ifx\pgfplotsplothandlermesh@shader@interp\pgfplotsplothandlermesh@shader@interp@incremental@transpose%
+ % This is the case for 'mesh/ordering=colwise'. We need to finish the transpose procedure:
+ % \pgfplotsplothandlermesh@shader@interp@transpose@finish
+ %\fi
+ \pgfplotslibrarysurfstreamend
+ \pgfplotslibrarysurfdrawinpicture
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@PIPE@DECODE@to@shader#1{%
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotslibrarysurfstreamcoord
+ {#1}%
+ {\pgfplotspointmetatransformed}%
+}%
+
+\def\pgfplotsplothandlermesh@PIPE@DECODE@matrix@ONEDIMMODE#1{%
+ \let\pgfplotsplothandlermesh@patchclass\pgfplotsplothandlermesh@patchclass@input
+ \pgfplotsplothandlermesh@compute@vertex@depth% <-- this modifies \pgfplotsretval
+ \pgf@process{#1}%
+ \edef\pgfplotsplothandlermesh@i{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}\pgfplotsretval}%
+ \ifnum\c@pgfplots@scanlineindex>0
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@im}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@i}%
+ \else
+ \advance\c@pgfplots@scanlineindex by1
+ \fi
+ \let\pgfplotsplothandlermesh@im=\pgfplotsplothandlermesh@i
+}%
+
+% the pgf@plotstreampoint routine for the first scan line:
+\def\pgfplotsplothandlermesh@PIPE@DECODE@matrix@fillscanline#1{%
+ \pgfplotsplothandlermesh@compute@vertex@depth% <-- this modifies \pgfplotsretval
+ \pgf@process{#1}%
+ \edef\pgfplots@loc@TMPa{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}\pgfplotsretval}%
+ \expandafter\pgfplotsdequepushback\pgfplots@loc@TMPa\to{lastscanline}%
+ \advance\c@pgfplots@scanlineindex by1
+ \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
+ % second line!
+ \let\pgfplotsplothandlermesh@PIPE@DECODE=\pgfplotsplothandlermesh@PIPE@DECODE@matrix%%
+ \c@pgfplots@scanlineindex=0
+ \fi
+}%
+% This is the pgf@plotstreampoint for all scan lines starting with the
+% second.
+%
+% We perform
+% // i == y
+% // j == x
+% for i = 1 to rows (note the 1! 0 would be the first row)
+% for j = 0 to cols
+% get (i-1, j) from front of deque // remember: i: rows, j : cols. We iterate rowwise.
+% push (i,j) to back of deque
+% if j > 0
+% draw
+% (i-1,j-1) [from last iteration] -- (i-1,j ) [from deque]
+% -- ( i,j ) [from last iteration] -- (i ,j-1) [from #1]
+% -- cycle
+% endif
+% let (i-1,j-1) := (i-1,j) // for next iteration
+% let ( i,j-1) := ( i,j) // for next iteration
+% end
+% end
+%
+% This is a SWEEP through the data matrix.
+\def\pgfplotsplothandlermesh@PIPE@DECODE@matrix#1{%
+ % NOTATION:
+ % 'im == (i-1)'
+ % 'jm == (j-1)'
+ \pgfplotsplothandlermesh@compute@vertex@depth% <-- this modifies \pgfplotsretval
+ \pgf@process{#1}%
+ \edef\pgfplotsplothandlermesh@i@j{{\the\pgf@x}{\the\pgf@y}{\pgfplots@current@point@meta}\pgfplotsretval}% FIXME relies on pgfplots macros
+%\message{##\the\c@pgfplots@scanlineindex: prepare rectangle with corner \meaning\pgfplotsplothandlermesh@i@j.}%
+ \pgfplotsdequepopfront{lastscanline}\to\pgfplotsplothandlermesh@im@j
+ \expandafter\pgfplotsdequepushback\pgfplotsplothandlermesh@i@j\to{lastscanline}%
+ \ifnum\c@pgfplots@scanlineindex>0
+ \let\pgfplotsplothandlermesh@patchclass\pgfplotsplothandlermesh@patchclass@input
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@im@jm}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@im@j}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@i@j}%
+ \expandafter\pgfplotsplothandlermesh@setnextvertex\expandafter{\pgfplotsplothandlermesh@i@jm}%
+ \fi
+ \let\pgfplotsplothandlermesh@im@jm=\pgfplotsplothandlermesh@im@j
+ \let\pgfplotsplothandlermesh@i@jm=\pgfplotsplothandlermesh@i@j
+ \advance\c@pgfplots@scanlineindex by1
+ \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
+ \c@pgfplots@scanlineindex=0
+ \fi
+}%
+\def\pgfplotsplothandlermesh@shader@interp@incremental@transpose#1{%
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgf@process{#1}%
+ \edef\pgfplotsplothandlermesh@i{\noexpand\pgfplotsplothandlermesh@shader@interp@next{\the\pgf@x}{\the\pgf@y}{\pgfplotspointmetatransformed}}%
+ %
+ % Store the postprocessed point into the appropriate row vector:
+ \def\pgfplots@loc@TMPa{\expandafter\pgfplotsapplistXpushback\expandafter{\pgfplotsplothandlermesh@i}\to}
+ \expandafter\pgfplots@loc@TMPa\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
+ %
+ \advance\c@pgfplots@scanlineindex by1
+ \ifnum\c@pgfplots@scanlineindex=\pgfplotsplothandlermesh@scanlinelength\relax
+ \c@pgfplots@scanlineindex=0
+ \fi
+}%
+\def\pgfplotsplothandlermesh@shader@interp@transpose@finish{%
+ % Now, "execute" each row vector:
+ \def\pgfplotsplothandlermesh@shader@interp@next##1##2##3{%
+ \pgfplotslibrarysurfstreamcoord{\global\pgf@x=##1 \global\pgf@y=##2 }{##3}%
+ }%
+ \c@pgfplots@scanlineindex=0
+ \pgfutil@loop
+ \ifnum\c@pgfplots@scanlineindex<\pgfplotsplothandlermesh@rows\relax
+ \expandafter\pgfplotsapplistXlet\expandafter\pgfplots@loc@TMPd\expandafter=\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname%
+ \expandafter\pgfplotsapplistXnewempty\csname pgfp@transprow@\the\c@pgfplots@scanlineindex\endcsname% clear
+ % execute the row:
+ \pgfplots@loc@TMPd
+ \advance\c@pgfplots@scanlineindex by1
+ \pgfutil@repeat
+ \let\pgfplots@loc@TMPd=\relax
+}%
+
+\def\pgfplotsplothandlermesh@draw@zbufferelement#1#2{%
+ \pgfplotsplothandlermesh@draw@zbufferelement@#2\pgfplots@EOI
+}
+\def\pgfplotsplothandlermesh@draw@zbufferelement@#1{%
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{deserialize except vertices}{#1}%
+ \pgfplotsplothandlermesh@draw@zbufferelement@@
+}
+\def\pgfplotsplothandlermesh@draw@zbufferelement@@#1{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@EOI
+ \else
+ \pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass@output}{set next vertex}{#1}%
+ \expandafter\pgfplotsplothandlermesh@draw@zbufferelement@@
+ \fi
+}%
+
+
+\def\pgfplotsplothandlermesh@zbuffer@sort@iflessthen#1#2#3#4\pgfeov{%
+ \edef\pgfplots@loc@TMPa{#1}%
+ \expandafter\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@\pgfplots@loc@TMPa\relax
+ \let\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@a=\pgfmathresult
+ \edef\pgfplots@loc@TMPb{#2}%
+ \expandafter\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@\pgfplots@loc@TMPb\relax
+ \let\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@b=\pgfmathresult
+ \ifdim\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@b pt<\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@a pt%
+ #3\relax
+ \else
+ #4\relax
+ \fi
+}%
+\def\pgfplotsplothandlermesh@zbuffer@sort@iflessthen@#1#2{%
+ \def\pgfmathresult{#1}%
+}%
+\def\pgfplotsplothandlermesh@unpack@zbuffer@pointdepth#1{%
+ \expandafter\pgfplotsplothandlermesh@unpack@zbuffer@pointdepth@#1%
+}%
+\def\pgfplotsplothandlermesh@unpack@zbuffer@pointdepth@#1#2#3#4{%
+ \def\pgfplotsretval{#4}%
+}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex
new file mode 100644
index 00000000000..7506cabcf16
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex
@@ -0,0 +1,2230 @@
+%--------------------------------------------
+%
+% Package pgfplots
+%
+% Provides a user-friendly interface to create function plots (normal
+% plots, semi-logplots and double-logplots).
+%
+% It is based on Till Tantau's PGF package.
+%
+% Copyright 2010 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%--------------------------------------------
+
+% 1. OVERVIEW
+%
+% Plot handlers are extended versions of the plot handlers of PGF with
+% backwards compatibility.
+%
+% To remind ourselfes: PGF plot handlers work like this
+% \pgfplotstreamstart
+% \pgfplotstreampoint{...}
+% \pgfplotstreampoint{...}
+% \pgfplotstreampoint{...}
+% \pgfplotstreampoint{...}
+% \pgfplotstreamend
+%
+% and that's it.
+%
+% PGFPlots plot handlers also contain these three macros. The tasks
+% are (of course) the same. In addition, they support a set of further
+% macros for every plot handler:
+%
+% \pgfplotsplothandlersurveystart
+% \pgfplotsplothandlersurveypoint
+% \pgfplotsplothandlersurveyend
+%
+% and serialization methods
+% \pgfplotsplothandlerserializepointto
+% \pgfplotsplothandlerdeserializepointfrom
+% \pgfplotsplothandlerserializestateto
+% \pgfplotsplothandlerdeserializepointfrom
+%
+% The idea is as follows:
+% During \addplot, PGFPLots performs a survey phase. Survey means:
+% nothing will be drawn, only stats will be collected. In this phase,
+% the \pgfplotsplothandlersurvey* methods will be invoked; followed by
+% a serialization.
+%
+% Then, when every plot has been surveyed, PGFPlots calls
+% \pgfplotsplothandlerdeserializestatefrom{<serialized state>}
+% \pgfplotstreamstart
+% foreach <serizalized point> {
+% \pgfplotsplothandlerdeserializepointfrom{<serialized point>}
+% apply data transformations
+% handle plot marks
+% \pgfplotstreampoint{\pgfplotsqpointxy{<x>}{<y}}
+% }
+% \pgfplotstreamend
+%
+% See below for details about the survey phase and the visualization
+% phase and the API of an axis.
+%
+% Thus, the PGF basic level streams can (but don't need to) make use
+% of the macros assigned by the
+% \pgfplotsplothandlerdeserializepointfrom and
+% \pgfplotsplothandlerdeserializestatefrom.
+%
+% Furthermore, a plot handler *can* redefine any of the survey and/or
+% serialization methods to add further functionality. But it doesn't
+% need to, it's ok if it only relies on x,y as standard pgf plot
+% handlers do.
+%
+% If it overwrites something, it should do so in its main method, the
+% one in which it also defines the \pgf@plotstreamstart etc. methods
+% (see pgfmoduleplot.code.tex for example). BUT: do NOT overwrite
+% these methods globally!
+%
+% 2. A Description of the two phases:
+%
+% THE SURVEY PHASE:
+% The survey phase works as follows.
+% PRECONDITION:
+% - we are `inside' of an axis.
+% - \addplot starts the survey phase.
+%
+% The following happens:
+% - the plot handler is determined and activated such that its
+% methods are usable ("class is instantiated")
+% - \pgfplots@PREPARE@COORD@STREAM is the internal, low level
+% entry point where pgfplots controls the survey phase.
+% - the coordinate input routine is initialised. It issues a
+% series of commands (all within the *same* TeX scope):
+% \pgfplots@coord@stream@start
+% \pgfplots@coord@stream@coord
+% \pgfplots@coord@stream@coord
+% \pgfplots@coord@stream@coord
+% \pgfplots@coord@stream@coord
+% \pgfplots@coord@stream@coord
+% \pgfplots@coord@stream@coord
+% ...
+% \pgfplots@coord@stream@end
+% - \pgfplotsplothandlersurveystart is called in
+% \pgfplots@coord@stream@start.
+% - \pgfplots@coord@stream@coord calls
+% \pgfplotsplothandlersurveypoint
+% - \pgfplots@coord@stream@end calls
+% \pgfplotsplothandlersurveyend
+% \pgfplotsplothandlerserializestateto<\macro>
+% Furthermore, it remembers the <\macro> such that it can be
+% deserialized later.
+% Then, the survey phase ends. The main point of interest is the
+% \pgfplotsplothandlersurveypoint routine, especially its
+% communication with the axis. It is described below.
+%
+% POSTCONDITION:
+% - the state of the axis is now aware of the new plot (limits,
+% stacking, ...).
+% - The plot's survey state is stored using its serialized
+% representation.
+%
+% THE VISUALIZATION PHASE:
+% FIXME
+%
+% 2.1 The API of an axis
+%
+% As described above, the coordinate input routine fires a lot of
+% \pgfplots@coord@stream@coord commands, which, in turn, invoke
+% \pgfplotsplothandlersurveypoint. Somehow this should update the
+% axis' state to reflect each point. But the 'data point' is a rather
+% abstract thing. Usually, it will contain at least (x,y) (or maybe z)
+% coordinates. But it may be more complex.
+%
+% So, the coordinate input routine provides whatever the user has
+% chosen. Let's assume, we are using \addplot table. Then, we can
+% access every cell in the current row (using \thisrow{<colname>} for
+% example). The plot handler knows how to extract its information from
+% this state. In general, the following steps are taken:
+% - the plot handler assembles coordinates.
+% - every assembled coordinate should be reported to the axis by
+% defining \pgfplots@current@point@[xyz] to its coordinates and
+% calling
+% \pgfplotsaxisparsecoordinate{}
+% This will apply coordinate filters, parse the single coordinates
+% and apply high level transformations and any logarithms.
+% It is some sort of advanced coordinate parser which works only for
+% (x,y) or for (x,y,z).
+% It yields (x,y,z). But the axis might need to change its
+% components! Thus, you also need to call
+% \pgfplotsaxispreparecoordinate{}.
+% This will, for example, apply the "stack plots" feature or the
+% 'data cs' feature.
+%
+% If necessary, the plot handler calls
+% \pgfplotsaxisparsecoordinate{} and
+% \pgfplotsaxispreparecoordinate{} multiple times, once for each
+% encountered coordinate.
+%
+% It might occasionally be too much to call
+% \pgfplotsaxispreparecoordinate.
+%
+% It might happen that a coordinate filter discards a coordinate.
+% This is returned in the \ifpgfplotsaxisparsecoordinateok boolean
+% and has to be checked by the plot handler.
+%
+% - the plot handler knows which of the coordinates contribute to the
+% final plot. It invokes
+% \ifpgfplotsaxisparsecoordinateok
+% \pgfplotsaxisupdatelimitsforcoordinate{<x>}{<y>}{<z>}
+% \fi
+% for each of these coordinates. This has to be done for final
+% coordinates only, i.e. after \pgfplotsaxispreparecoordinate.
+%
+% - eventually, the plot handler is satisfied and considers a data
+% point as "readily surveyed". It is allowed if this does *not*
+% happen inside of \pgfplotsplothandlersurveypoint, but it must
+% happen before \pgfplotsplothandlersurveyend is finished.
+%
+% The plot handler invokes \pgfplotsaxisdatapointsurveyed.
+% This tells the axis that it can perform its own surveying tasks
+% (see below) and furthermore, that it can serialize the data point.
+% Consequently, it will invoke
+% \pgfplotsplothandlerserializepointto{<\macro>}
+% and it will remember that \macro internally. This serialization is
+% employed to place plot marks and to apply z buffering techniques
+% (that's why it is done by the axis and not by the plot handler on
+% its own).
+%
+% The axis does its own surveying task, initiated by
+% \pgfplotsaxisdatapointsurveyed (which is, turn, invoked by the
+% plot handler). This command handles the |point meta| feature, that
+% is: it queries the |point meta| input source and updates the meta
+% limits. Furthermore, the error bar feature is processed at this
+% point (using the final data point's (x,y,z) coordinates as basis).
+% The |xtick=data| feature is also prepared at this stage.
+%
+% - Later, the coordinate input routine invokes
+% \pgfplots@coord@stream@end indicating the end-of-input. This will
+% finalize the survey phase.
+%
+% A simple example looks like this:
+% \pgfplotsplothandlersurveystart: does nothing in the simple example.
+% \pgfplotsplothandlersurveypoint:
+% parses the input format somehow to get (x,y,z) in raw, symbolic format
+% calls \pgfplotsaxisparsecoordinate
+% calls \pgfplotsaxispreparecoordinate
+% calls \ifpgfplotsaxisparsecoordinateok \pgfplotsaxisupdatelimitsforcoordinate{<x>}{<y>}{<z} \fi
+% calls \pgfplotsaxisdatapointsurveyed
+% \pgfplotsplothandlersurveyend: does nothing in the simple example.
+%
+% In fact, this is more or less the initial configuration used for
+% lineto or similar plot handlers.
+%
+% 2.2 Further Survey Phase API functions
+% \pgfplotssurveyphaseinputclass
+% expands to the actual name of the input method (like
+% 'coordinates', 'expression' or 'table')
+%
+% \pgfplotsplothandlernotifyscanlinecomplete
+% Called whenever an end-of-scanline marker has been processed, i.e.
+% whenever the 'empty line' key has been triggered. The default is to
+% do nothing.
+%
+% \pgfplotsaxissurveysetpointmeta
+% processes the 'point meta' key, i.e. it assigns
+% \pgfplots@current@point@meta. This macro can only be called once for
+% each coordinate (it will be deactivated afterwards). PGFPlots calls
+% it in \pgfplotsaxisdatapointsurveyed .
+%
+% \pgfplotsplothandlersurveyaddoptions{<options>}
+% which allows to change the current plot style from within API
+% functions. It sets <options> and remembers them for the
+% visualization phase.
+%
+% \pgfplotsaxisupdatelimitsforpointmeta{<meta>},
+% provided there is a point meta input handler (which is numeric).
+% Otherwise, the command is equal to \relax.
+%
+%
+% 3. Details about the VISUALIZATION phase
+%
+% The visualization phase consists of
+% <installation of the plot handler>
+% \pgfplotstreamstart
+% foreach serialized coordinate {
+% pgfplots calls \pgfplotsplothandlerdeserializestatefrom{<serialized repr>}
+% if coordinate is empty ("unbounded")
+% pgfplots call \pgfplotsplothandlervisualizejump
+% else
+% pgfplots calls \pgfplotsaxisvisphasetransformcoordinate
+% pgfplots calls \pgfplotsaxisvisphasepreparedatapoint
+% fi
+% \pgfplotstreampoint
+% }
+% \pgfplotstreamend
+%
+% User defined plot handlers might need to invoke
+% \pgfplotsaxisvisphasetransformcoordinate on their own.
+%
+% During the visualization phase, the following macros can be used:
+%
+% - \pgfplotsaxisvisphasetransformpointmeta to set up point meta.
+% Use this only if there *is* point meta, see
+% \pgfplotsaxisifhaspointmeta{<true code>}{<false code>}.
+%
+% 4. API Functions of pgfplots to work with the visualization phases
+%
+% \pgfplotsifissurveyphase{<true code>}{<false code>}
+% \pgfplotsifisvisualizationphase{<true code>}{<false code>}
+%
+% \pgfplotsaxisfilteredcoordsaway
+% This macro expands to '1' if all points have been surveyed
+% successfully. It expands to '0' if at least one point has been
+% filtered away (for whatever reasons). This does not apply to
+% jumps.
+% \pgfplotsaxisplothasjumps
+% This macro expands to '1' if the current plot has jumps and '0'
+% if not.During the visualization phase, a jump is usually indicated
+% by an empty coordinate.
+%
+
+\def\pgfplotssurveyphaseinputclass{direct}
+
+% Resets the plot handler routines.
+%
+% This is necessary before installing a new plot handler!
+\def\pgfplotsresetplothandler{%
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@default
+ \let\pgfplotsplothandlername=\pgfplotsplothandlername@default
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@default
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@default
+ \let\pgfplotsplothandlerserializepointto=\pgfplotsplothandlerserializepointto@default
+ \let\pgfplotsplothandlerdeserializepointfrom=\pgfplotsplothandlerdeserializepointfrom@default
+ \let\pgfplotsplothandlerserializestateto=\pgfplotsplothandlerserializestateto@default
+ \let\pgfplotsplothandlerdeserializestatefrom=\pgfplotsplothandlerdeserializestatefrom@default
+ \let\pgfplotsplothandlervisualizejump=\pgfplotsplothandlervisualizejump@default
+ \let\pgfplotsplothandlernotifyscanlinecomplete=\relax
+}%
+
+% \pgfplotsplothandlersurveystart
+\def\pgfplotsplothandlersurveystart@default{}%
+
+% \pgfplotsplothandlername
+\def\pgfplotsplothandlername@default{%
+ [tikz@plot@handler: \meaning\pgf@plotstreamstart]%
+}%
+
+% \pgfplotsplothandlersurveyend
+% Called at the end of each survey phase.
+\def\pgfplotsplothandlersurveyend@default{}
+\let\pgfplotsplothandlernotifyscanlinecomplete=\relax%
+
+% \pgfplotsplothandlersurveypoint is called for each encountered data
+% point.
+%
+% The data point as such is available using the current state of any
+% macros which are assigned during the survey phase (during \addplot).
+% This includes any table macros etc.
+% PGFPlots stores the x,y and z coordinates into \pgfplots@current@point@[xyz].
+% The point meta coordinate is in \pgfplots@current@point@meta.
+%
+% Note that since any currently assigned macro can be used here, the
+% new DV engine of PGF is also valid (and will be supported
+% eventually). This DV engine stores data point entries in keys,
+% namely those in the key path /data point. See the pgf manual.
+\def\pgfplotsplothandlersurveypoint@default{%
+ \pgfplotsaxisparsecoordinate
+ \pgfplotsaxispreparecoordinate
+ \ifpgfplotsaxisparsecoordinateok
+ \pgfplotsaxisupdatelimitsforcoordinate\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@z
+ \fi
+ \pgfplotsaxisdatapointsurveyed
+}%
+
+% \pgfplotsplothandlerserializepointto{<\macro>}
+% should save a complete data point to <\macro> such that it can be
+% de-serialized later.
+%
+% #1: a macro name. Will be filled with (expandable) data.
+% The format can be arbitrary, but you should be able to extra it.
+%
+% @PRECONDITION
+% this macro will be invoked in a context where the current data
+% point has been processed completely, including any preparations.
+% The required data which should be saved depends on the plot
+% handler. Usually, all plot handlers require
+% \pgfplots@current@point@[xyz] and \pgfplots@current@point@meta.
+% This macro should only assign keys which have been defined or
+% validated by any of the plot handler relevant methods (including
+% the de-serialization or survey methods).
+\def\pgfplotsplothandlerserializepointto@default#1{%
+ % Store normalized point for list:
+ % We need
+ % xi,yi,zi,mi;
+ % where zi and mi may be empty. mi is the per-point meta
+ % information. It is used for per-coordinate marker
+ % modifications (like colormaps for scatter plots).
+ \edef#1{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z}%
+}%
+
+% the counterpart for \pgfplotsplothandlerserializepointto.
+% It should restore the state as it was before the serialization.
+%
+% #1: the serialized information.
+\def\pgfplotsplothandlerdeserializepointfrom@default#1{%
+ \expandafter\pgfplotsplothandlerdeserializepointfrom@default@#1\relax
+}%
+
+\def\pgfplotsplothandlerdeserializepointfrom@default@#1,#2,#3\relax{%
+ \def\pgfplots@current@point@x{#1}%
+ \def\pgfplots@current@point@y{#2}%
+ \def\pgfplots@current@point@z{#3}%
+}%
+% \pgfplotsplothandlerserializestateto{<\macro>}
+% should save the state of the current plot handler such that it can
+% be de-serialized later.
+%
+% The state does usually NOT contain a coordinate stream, this is
+% accomplished by \pgfplotsplothandlerserializepointto.
+%
+% #1: a macro name. Can be filled with anything, including
+% non-expandable macro invocations.
+\def\pgfplotsplothandlerserializestateto@default#1{%
+ \def#1{}%
+}%
+
+%
+\def\pgfplotsplothandlerdeserializestatefrom@default#1{%
+ #1%
+}%
+
+\def\pgfplotsplothandlervisualizejump@default{%
+ \pgfplotstreamend
+ \pgfplotstreamstart
+}%
+
+\pgfplotsresetplothandler
+
+% ==================================
+
+% Defines
+% - a generic update limits routine,
+% \pgfplotsaxisupdatelimitsforcoordinate#1#2#3
+% if #3 is empty, it will assume a 2d point, otherwise a 3d point
+% and the axis will be three dimensional as well.
+% During \addplot, this auto-detection will be disabled in favor of
+% the '\addplot3' versus' \addplot' syntax.
+%
+\def\pgfplots@prepare@axis@API{%
+ \pgfplots@curplot@threedimtrue
+ \pgfplots@prepare@axis@API@
+ \let\pgfplotsaxisupdatelimitsforcoordinatethreedim=\pgfplotsaxisupdatelimitsforcoordinate@
+ \let\pgfplotsaxisparsecoordinatethreedim=\pgfplotsaxisparsecoordinate@
+ %
+ \pgfplots@curplot@threedimfalse
+ \pgfplots@prepare@axis@API@
+ \let\pgfplotsaxisupdatelimitsforcoordinatetwodim=\pgfplotsaxisupdatelimitsforcoordinate@
+ \let\pgfplotsaxisparsecoordinatetwodim=\pgfplotsaxisparsecoordinate@
+ %
+ \def\pgfplotsaxisupdatelimitsforcoordinate##1##2##3{%
+ \pgfplots@ifempty{##3}{%
+ \pgfplotsaxisupdatelimitsforcoordinatetwodim{##1}{##2}{}%
+ }{%
+ \global\pgfplots@threedimtrue
+ \pgfplotsaxisupdatelimitsforcoordinatethreedim{##1}{##2}{##3}%
+ }%
+ }%
+ \def\pgfplotsaxisparsecoordinate{%
+ \ifx\pgfplots@current@point@z\pgfutil@empty
+ \pgfplotsaxisparsecoordinatetwodim
+ \else
+ \global\pgfplots@threedimtrue
+ \pgfplotsaxisparsecoordinatethreedim%
+ \fi
+ }%
+}%
+\def\pgfplots@prepare@axis@API@{%
+ \begingroup
+ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+ \let\E=\noexpand
+ % Setup Just-In-Time-Macro Compilation:
+ % I compile a set of macros which is highly optimized for this
+ % particular axis configuration.
+ %
+ % \pgfplotsaxisupdatelimitsforcoordinate
+ % Updates the current x and y limits for point (#1,#2).
+ %
+ % To eliminate all those case distinctions, it is created with
+ % 'edef' and a lot of '\noexpand' calls here:
+ %
+ %
+ % The point coordinates are given in floating point format (FIXME)
+ %
+ % Please note that if user specified limits are given, automatic
+ % limits are only applied to points which fall into the user specified
+ % clipping region.
+ %
+ % PRECONDITIONS:
+ % - the input coordinates have been parsed correctly (floating point
+ % format for linear axis, log applied for logarithmic ones)
+ %
+ % Arguments:
+ % #1,#2,#3 the x,y and z coordinate. z is ignored for 2d plots.
+ \xdef\pgfplotsaxisupdatelimitsforcoordinate@##1##2##3{%
+%\E\tracingmacros=2\E\tracingcommands=2
+%\E\pgfplots@message{Updating limits for (##1,##2) ...}%
+ %
+ % VIM SEARCH PATTERN:
+ % [^E]\zs\\\ze[^E]
+ % -> this finds '\' which is neither '\E' nor is it prefixed
+ % by 'E'.
+ %
+ %
+ %
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDfalse
+ % check whether we need to clip limits:
+ \ifpgfplots@clip@limits
+ \ifpgfplots@autocompute@xmin
+ \else
+ \ifpgfplots@xislinear
+ \E\pgfmathfloatlessthan@{##1}{\E\pgfplots@xmin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{##1}{\E\pgfplots@xmin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \ifpgfplots@autocompute@xmax
+ \else
+ \ifpgfplots@xislinear
+ \E\pgfmathfloatlessthan@{\E\pgfplots@xmax}{##1}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{\E\pgfplots@xmax}{##1}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \ifpgfplots@autocompute@ymin
+ \else
+ \ifpgfplots@yislinear
+ \E\pgfmathfloatlessthan@{##2}{\E\pgfplots@ymin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{##2}{\E\pgfplots@ymin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \ifpgfplots@autocompute@ymax
+ \else
+ \ifpgfplots@yislinear
+ \E\pgfmathfloatlessthan@{\E\pgfplots@ymax}{##2}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{\E\pgfplots@ymax}{##2}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \ifpgfplots@curplot@threedim
+ \ifpgfplots@autocompute@zmin
+ \else
+ \ifpgfplots@zislinear
+ \E\pgfmathfloatlessthan@{##3}{\E\pgfplots@zmin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{##3}{\E\pgfplots@zmin}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \ifpgfplots@autocompute@zmax
+ \else
+ \ifpgfplots@zislinear
+ \E\pgfmathfloatlessthan@{\E\pgfplots@zmax}{##3}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \else
+ \E\pgfplotsmathlessthan{\E\pgfplots@zmax}{##3}%
+ \E\ifpgfmathfloatcomparison
+ \E\pgfplots@update@limits@for@one@point@ISCLIPPEDtrue
+ \E\fi
+ \fi
+ \fi
+ \fi
+ \fi
+ %
+ %
+ %
+ % Update limits:
+ \E\ifpgfplots@update@limits@for@one@point@ISCLIPPED
+ \E\else
+ \ifpgfplots@autocompute@xmin
+ \ifpgfplots@xislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@xmin}{##1}%
+ \E\global\E\let\E\pgfplots@xmin=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmin{\E\pgfplots@xmin}{##1}%
+ \E\global\E\let\E\pgfplots@xmin=\E\pgfmathresult
+ \fi
+ \fi
+ \ifpgfplots@autocompute@xmax
+ \ifpgfplots@xislinear
+ \E\pgfplotsmathfloatmax{\E\pgfplots@xmax}{##1}%
+ \E\global\E\let\E\pgfplots@xmax=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmax{\E\pgfplots@xmax}{##1}%
+ \E\global\E\let\E\pgfplots@xmax=\E\pgfmathresult
+ \fi
+ \fi
+ \ifpgfplots@autocompute@ymin
+ \ifpgfplots@yislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@ymin}{##2}%
+ \E\global\E\let\E\pgfplots@ymin=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmin{\E\pgfplots@ymin}{##2}%
+ \E\global\E\let\E\pgfplots@ymin=\E\pgfmathresult
+ \fi
+ \fi
+ \ifpgfplots@autocompute@ymax
+ \ifpgfplots@yislinear
+ \E\pgfplotsmathfloatmax{\E\pgfplots@ymax}{##2}%
+ \E\global\E\let\E\pgfplots@ymax=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmax{\E\pgfplots@ymax}{##2}%
+ \E\global\E\let\E\pgfplots@ymax=\E\pgfmathresult
+ \fi
+ \fi
+ \ifpgfplots@curplot@threedim
+ \ifpgfplots@autocompute@zmin
+ \ifpgfplots@zislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@zmin}{##3}%
+ \E\global\E\let\E\pgfplots@zmin=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmin{\E\pgfplots@zmin}{##3}%
+ \E\global\E\let\E\pgfplots@zmin=\E\pgfmathresult
+ \fi
+ \fi
+ \ifpgfplots@autocompute@zmax
+ \ifpgfplots@zislinear
+ \E\pgfplotsmathfloatmax{\E\pgfplots@zmax}{##3}%
+ \E\global\E\let\E\pgfplots@zmax=\E\pgfmathresult
+ \else
+ \E\pgfplotsmathmax{\E\pgfplots@zmax}{##3}%
+ \E\global\E\let\E\pgfplots@zmax=\E\pgfmathresult
+ \fi
+ \fi
+ \fi
+ \E\fi
+ %
+ % Compute data range:
+ \ifpgfplots@autocompute@all@limits
+ % the data range will be acquired simply from the axis
+ % range, see below!
+ \else
+ % Attention: it is only done for linear axis!
+ \ifpgfplots@xislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@data@xmin}{##1}%
+ \E\global\E\let\E\pgfplots@data@xmin=\E\pgfmathresult
+ \E\pgfplotsmathfloatmax{\E\pgfplots@data@xmax}{##1}%
+ \E\global\E\let\E\pgfplots@data@xmax=\E\pgfmathresult
+ \fi
+ \ifpgfplots@yislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@data@ymin}{##2}%
+ \E\global\E\let\E\pgfplots@data@ymin=\E\pgfmathresult
+ \E\pgfplotsmathfloatmax{\E\pgfplots@data@ymax}{##2}%
+ \E\global\E\let\E\pgfplots@data@ymax=\E\pgfmathresult
+ \fi
+ \ifpgfplots@curplot@threedim
+ \ifpgfplots@zislinear
+ \E\pgfplotsmathfloatmin{\E\pgfplots@data@zmin}{##3}%
+ \E\global\E\let\E\pgfplots@data@zmin=\E\pgfmathresult
+ \E\pgfplotsmathfloatmax{\E\pgfplots@data@zmax}{##3}%
+ \E\global\E\let\E\pgfplots@data@zmax=\E\pgfmathresult
+ \fi
+ \fi
+ \fi
+%\E\pgfplots@message{Updated limits: (\E\pgfplots@xmin,\E\pgfplots@ymin) rectangle (\E\pgfplots@xmax,\E\pgfplots@ymax).}%
+%
+%\E\tracingmacros=0\E\tracingcommands=0
+ }%
+ %
+ % A routine which parses a coordinate.
+ % Here, 'coordinate' means (x,y) for a two dimensional plot and
+ % '(x,y,z)' for a three dimensional one.
+ %
+ % The preparation consists of
+ % - filtering.
+ % - coordinate parsing and high level transformations.
+ % - logs.
+ %
+ % It might happen that \pgfplotsaxisparsecoordinate is called
+ % multiple times for a single data "point" (for example, a quiver
+ % point might call it for the point where the vector starts and
+ % where the vector ends).
+ %
+ % @PRECONDITION
+ % - the plot's survey phase is running (has already been started)
+ % - \pgfplots@current@point@[xyz] contains the coordinates of the
+ % point. I assume they are unparsed.
+ %
+ %
+ % @POSTCONDITION
+ % - the axis' state will be updated.
+ % - the \pgfplots@current@point@[xyz] macros will contain parsed data.
+ % - \ifpgfplotsaxisparsecoordinateok will be true if and only
+ % if the data point has not been filtered away. If it has been
+ % filtered away, \pgfplots@current@point@[xyz] will be empty.
+ % - \pgfplots@current@point@[xyz]@unfiltered contain unparsed
+ % data.
+ %
+ % @see \pgfplotsaxispreparecoordinate
+ % @see \pgfplotsaxisdatapointsurveyed
+ \xdef\pgfplotsaxisparsecoordinate@{%
+ % These things are necessary for error bars and are available
+ % as public results in math parser invocations (for meta and
+ % filters)
+ \E\let\E\pgfplots@current@point@x@unfiltered=\E\pgfplots@current@point@x
+ \E\let\E\pgfplots@current@point@y@unfiltered=\E\pgfplots@current@point@y
+ \E\let\E\pgfplots@current@point@z@unfiltered=\E\pgfplots@current@point@z
+ \E\def\E\pgfplots@unbounded@dir{}%
+ %
+ \E\pgfplots@invoke@prefilter
+ %
+ \E\pgfplots@prepare@xcoord{\E\pgfplots@current@point@x}%
+ \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{x}%
+ \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
+ %
+ \E\pgfplots@prepare@ycoord{\E\pgfplots@current@point@y}%
+ \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{y}%
+ \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
+ %
+ \ifpgfplots@curplot@threedim
+ \E\pgfplots@prepare@zcoord{\E\pgfplots@current@point@z}%
+ \E\expandafter\E\pgfplots@invoke@filter\E\expandafter{\E\pgfmathresult}{z}%
+ \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
+ \fi
+ %
+ \E\pgfplots@invoke@filter@xyz
+ %
+ \E\ifx\E\pgfplots@current@point@x\E\pgfutil@empty
+ \E\else
+ \ifpgfplots@xislinear
+ \E\pgfplotscoordmath{x}{parsenumber}{\E\pgfplots@current@point@x}%
+ \E\let\E\pgfplots@current@point@x=\E\pgfmathresult
+ \else
+ % logs are already parsed (in prepare routine)
+ \fi
+ \E\pgfplotscoordmath{x}{if is bounded}{\E\pgfplots@current@point@x}%
+ {}%
+ {% this clears nan, inf and -inf points.
+ \E\let\E\pgfplots@current@point@x=\E\pgfutil@empty
+ \E\def\E\pgfplots@unbounded@dir{x}%
+ }%
+ \E\fi
+ %
+ \E\ifx\E\pgfplots@current@point@y\E\pgfutil@empty
+ \E\else
+ \ifpgfplots@yislinear
+ \E\pgfplotscoordmath{y}{parsenumber}{\E\pgfplots@current@point@y}%
+ \E\let\E\pgfplots@current@point@y=\E\pgfmathresult
+ \else
+ % logs are already parsed (in prepare routine)
+ \fi
+ \E\pgfplotscoordmath{y}{if is bounded}{\E\pgfplots@current@point@y}%
+ {}%
+ {% this clears nan, inf and -inf points.
+ \E\let\E\pgfplots@current@point@y=\E\pgfutil@empty
+ \E\def\E\pgfplots@unbounded@dir{y}%
+ }%
+ \E\fi
+ %
+ \ifpgfplots@curplot@threedim
+ %
+ \E\ifx\E\pgfplots@current@point@z\E\pgfutil@empty
+ \E\else
+ \ifpgfplots@zislinear
+ \E\pgfplotscoordmath{z}{parsenumber}{\E\pgfplots@current@point@z}%
+ \E\let\E\pgfplots@current@point@z=\E\pgfmathresult
+ \else
+ % logs are already parsed (in prepare routine)
+ \fi
+ \E\pgfplotscoordmath{z}{if is bounded}{\E\pgfplots@current@point@z}%
+ {}%
+ {% this clears nan, inf and -inf points.
+ \E\let\E\pgfplots@current@point@z=\E\pgfutil@empty
+ \E\def\E\pgfplots@unbounded@dir{z}%
+ }%
+ \E\fi
+ \fi
+ %
+ % check if coordinates are bounded:
+ \E\pgfplotsaxisparsecoordinateoktrue
+ \E\ifx\E\pgfplots@current@point@x\E\pgfutil@empty
+ \E\pgfplotsaxisparsecoordinateokfalse
+ \E\else
+ \E\ifx\E\pgfplots@current@point@y\E\pgfutil@empty
+ \E\pgfplotsaxisparsecoordinateokfalse
+ \E\else
+ \ifpgfplots@curplot@threedim
+ \E\ifx\E\pgfplots@current@point@z\E\pgfutil@empty
+ \E\pgfplotsaxisparsecoordinateokfalse
+ \E\fi
+ \fi
+ \E\fi
+ \E\fi
+ %
+ }%
+ %
+ \endgroup
+}%
+
+% ==================================
+% The quiver plot handler.
+% It draws a lot of arrows.
+% Its input is (x_i,y_i); (u_i,v_i) for data point i and it draws a
+% vector in direction (u_i,v_i) starting from (x_i,y_i) .
+% It also supports 3D arrows (involving z_i and w_i).
+
+\newif\ifpgfplots@quiver@usetikz
+\newif\ifpgfplots@quiver@updatelimits
+
+\pgfplotsset{
+ % The 'quiver' plot handler for two- and three dimensional plots.
+ %
+ % User Interface:
+ % use /pgfplots/quiver to enable the plot handler.
+ % Then, provide `quiver/u value' or `quiver/u' to
+ % tell where to find the 'x' coordinates of the vectors, and similarly
+ % for 'v' and 'w' instead of 'u'.
+ quiver/.code={%
+ \let\tikz@plot@handler=\pgfplotsplothandlerquiver
+ \pgfqkeys{/pgfplots/quiver}{#1}%
+ },%
+ quiver/u value*/.initial=0,
+ quiver/v value*/.initial=0,
+ quiver/w value*/.initial=0,
+ quiver/u value is expr/.initial=0,
+ quiver/v value is expr/.initial=0,
+ quiver/w value is expr/.initial=0,
+ quiver/u filter/.code=,
+ quiver/v filter/.code=,
+ quiver/w filter/.code=,
+ quiver/u value/.code =\pgfplots@set@source@for{quiver/u}{#1}{0},%
+ quiver/u/.code =\pgfplots@set@source@for{quiver/u}{#1}{1},%
+ quiver/v value/.code =\pgfplots@set@source@for{quiver/v}{#1}{0},%
+ quiver/v/.code =\pgfplots@set@source@for{quiver/v}{#1}{1},%
+ quiver/w value/.code =\pgfplots@set@source@for{quiver/w}{#1}{0},%
+ quiver/w/.code =\pgfplots@set@source@for{quiver/w}{#1}{1},%
+ quiver/before arrow/.code=,
+ quiver/after arrow/.code=,
+ quiver/every arrow/.style={},
+ quiver/arrow color/.initial=,
+ quiver/scale arrows/.initial=1,
+ quiver/update limits/.is if=pgfplots@quiver@updatelimits,
+ quiver/update limits=true,
+ quiver/colored/.code={%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \else
+ \pgfkeyslet{/pgfplots/quiver/arrow color}\pgfplots@loc@TMPa
+ \pgfkeysalso{/pgfplots/set point meta if empty=f(x)}%
+ \fi
+ },%
+ quiver/colored/.default=mapped color,
+}%
+
+\def\pgfplots@set@source@for#1#2#3{%
+ \pgfkeyssetvalue{/pgfplots/#1 value*}{#2}%
+ \pgfkeyssetvalue{/pgfplots/#1 is expr}{#3}%
+}%
+% To be used to create a simple parser for keys initialised by
+% \pgfplots@set@source@for:
+%
+% #1: the key path (relative to /pgfplots/) of the data.
+% Can be empty in which case /pgfplots/#2 is used to access data.
+% #2: the key name of the data
+% #3: a macro name which be will defined to be a parser for the data.
+%
+% The parser will check whether the '#2 is expr' key is set.
+% Furthermore, it defines /data point/#2 to be the result.
+%
+% Example:
+% \pgfplots@set@source@for{hist/data}{...}
+%
+% ->
+% \pgfplots@prepare@source@parser@for{hist/}{data}\parser
+%
+% then, invoking \parser
+% will define \pgfmathresult to be the argument provided to
+% \pgfplots@set@source@for.
+\def\pgfplots@prepare@source@parser@for#1#2#3{%
+ \pgfkeyslet{/data point/#1#2}\pgfutil@empty%
+ %
+ \pgfkeysgetvalue{/pgfplots/#1#2 value*}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ % assume the '/data point/#1#2' is set by some input
+ % routine.
+ % Invoke math parser in this case.
+ \pgfkeyssetvalue{/pgfplots/#1#2 is expr}{1}%
+ \else
+ \pgfkeyslet{/data point/#1#2}\pgfplots@loc@TMPa
+ \fi
+ \def#3{%
+ \edef\pgfmathresult{\pgfkeysvalueof{/data point/#1#2}}
+%\message{parse coordinate #1#2 (\pgfmathresult) ...^^J}%
+ }%
+ %
+ %
+ \pgfkeysifdefined{/pgfplots/#1#2 coord trafo/.@cmd}{%
+ \pgfkeysgetvalue{/pgfplots/#1#2 coord trafo/.@cmd}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@empty@command@key
+ \else
+ \t@pgfplots@toka=\expandafter{#3}%
+ \t@pgfplots@tokb={%
+ \def\pgfplots@loc@TMPa{\pgfkeysvalueof{/pgfplots/#1#2 coord trafo/.@cmd}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}\pgfeov%
+ }%
+ \t@pgfplots@tokc={%
+ \ifx\pgfmathresult\pgfutil@empty
+ \else
+ \pgfmathfloatparsenumber{\pgfmathresult}%
+ \fi
+ }%
+ \edef#3{%
+ \the\t@pgfplots@toka
+ \the\t@pgfplots@tokb
+ \the\t@pgfplots@tokc
+ }%
+ \fi
+ }{}%
+ %
+ \t@pgfplots@toka=\expandafter{#3}%
+ \if1\pgfkeysvalueof{/pgfplots/#1#2 is expr}%
+ \t@pgfplots@tokc={%
+ \ifx\pgfmathresult\pgfutil@empty
+ \else
+ \pgfmathparse{\pgfmathresult}%
+ \fi
+ }%
+ \else
+ \t@pgfplots@tokc={%
+ \ifx\pgfmathresult\pgfutil@empty
+ \else
+ \pgfmathfloatparsenumber{\pgfmathresult}%
+ \fi
+ }%
+ \fi
+ \edef#3{%
+ \the\t@pgfplots@toka
+ \the\t@pgfplots@tokc
+ }%
+ %
+ \pgfkeysgetvalue{/pgfplots/#1#2 filter/.@cmd}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@empty@command@key
+ \else
+ \t@pgfplots@toka=\expandafter{#3}%
+ \t@pgfplots@tokb={%
+ \def\pgfplots@loc@TMPa{\pgfkeysvalueof{/pgfplots/#1#2 filter/.@cmd}}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}\pgfeov%
+ }%
+ \t@pgfplots@tokc={%
+ \ifx\pgfmathresult\pgfutil@empty
+ \else
+ \pgfmathfloatparsenumber{\pgfmathresult}%
+ \fi
+ }%
+ \edef#3{%
+ \the\t@pgfplots@toka
+ \the\t@pgfplots@tokb
+ \the\t@pgfplots@tokc
+ }%
+ \fi
+ %
+ \iftrue
+ \t@pgfplots@toka=\expandafter{#3}%
+ \t@pgfplots@tokc={%
+%\message{parse coordinate (#1#2) = \pgfmathresult.^^J}%
+ }%
+ \edef#3{%
+ \the\t@pgfplots@toka
+ \the\t@pgfplots@tokc
+ }%
+ \fi
+}%
+
+% Invokes /pgfplots/#1 coord inv trafo on \pgfmathresult if that key
+% exists.
+% #1 the argument is in float (will become the 'default' coordmath
+% eventually).
+%
+% On output, it should either '#1' if there was no coord inv trafo or
+% the result of the trafo.
+\def\pgfplots@coord@trafo@inv@for#1{%
+ \def\pgfplots@loc@TMPb{/pgfplots/#1 coord inv trafo/.@cmd}%
+ \pgfkeysifdefined{\pgfplots@loc@TMPb}{%
+ \pgfkeysgetvalue{\pgfplots@loc@TMPb}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@empty@command@key
+ \else
+ \pgfmathfloattofixed{\pgfmathresult}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}\pgfeov
+ \fi
+ }{}%
+}
+% Like \pgfplots@coord@trafo@inv@for, but for the normal trafo
+% direction
+\def\pgfplots@coord@trafo@for#1{%
+ \def\pgfplots@loc@TMPb{/pgfplots/#1 coord trafo/.@cmd}%
+ \pgfkeysifdefined{\pgfplots@loc@TMPb}{%
+ \pgfkeysgetvalue{\pgfplots@loc@TMPb}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfplots@empty@command@key
+ \else
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}\pgfeov
+ \fi
+ }{}%
+}
+\def\pgfplotsplothandlerquiver{%
+ \pgfplotsresetplothandler
+ \let\pgf@plotstreamstart=\pgfplotsplothandlervisbegin@quiver
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@quiver
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@quiver
+ \let\pgfplotsplothandlerserializepointto=\pgfplotsplothandlerserializepointto@quiver
+ \let\pgfplotsplothandlerdeserializepointfrom=\pgfplotsplothandlerdeserializepointfrom@quiver
+ \let\pgfplotsplothandlerquiver@vis@hook=\pgfutil@empty
+ %
+ \ifpgfplots@xislinear \else \pgfplotsplothandlerquivererror \fi
+ \ifpgfplots@yislinear \else \pgfplotsplothandlerquivererror\fi
+ \pgfplotsifcurplotthreedim{%
+ \ifpgfplots@zislinear \else \pgfplotsplothandlerquivererror \fi
+ }{}%
+}%
+\def\pgfplotsplothandlerquivererror{\pgfplots@error{Sorry, quiver plots for logarithmic axes are not yet implemented. In fact, the implementation does something -- but it will probably change in future releases. Contact the mailing list if you have questions}}%
+
+\def\pgfplotsplothandlersurveystart@quiver{%
+ \pgfkeysgetvalue{/pgfplots/quiver/scale arrows}\pgfplots@quiver@scale
+ \ifx\pgfplots@quiver@scale\pgfutil@empty
+ \else
+ \def\pgfplots@loc@TMPa{1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@quiver@scale
+ \let\pgfplots@quiver@scale=\pgfutil@empty
+ \else
+ \pgfmathparse{\pgfplots@quiver@scale}%
+ \pgfmathfloatparsenumber\pgfplots@quiver@scale
+ \let\pgfplots@quiver@scale=\pgfmathresult
+ \fi
+ \fi
+ %
+ \pgfplots@prepare@source@parser@for@quiver u\pgfplots@quiver@prepare@u%
+ \pgfplots@prepare@source@parser@for@quiver v\pgfplots@quiver@prepare@v%
+ \pgfplots@prepare@source@parser@for@quiver w\pgfplots@quiver@prepare@w%
+}%
+
+\def\pgfplots@prepare@source@parser@for@quiver#1#2{%
+ \pgfplots@prepare@source@parser@for{quiver/}{#1}{#2}%
+ \t@pgfplots@toka=\expandafter{#2}%
+ \t@pgfplots@tokb=\expandafter{\csname pgfplots@quiver@#1\endcsname}%
+ \edef#2{%
+ \the\t@pgfplots@toka
+ \noexpand\let\the\t@pgfplots@tokb=\noexpand\pgfmathresult
+ \ifx\pgfplots@quiver@scale\pgfutil@empty
+ \else
+ \noexpand\pgfmathfloatmultiply@{\pgfplots@quiver@scale}{\the\t@pgfplots@tokb}%
+ \noexpand\let\the\t@pgfplots@tokb=\noexpand\pgfmathresult
+ \fi
+ }%
+}%
+
+\def\pgfplotsplothandlersurveypoint@quiver{%
+ \pgfplots@quiver@prepare@u
+ \pgfplots@quiver@prepare@v
+ \pgfplotsifcurplotthreedim{%
+ \pgfplots@quiver@prepare@w
+ }{%
+ \let\pgfplots@quiver@w=\pgfutil@empty
+ }%
+ \pgfplotsaxisparsecoordinate
+ \pgfplotsaxispreparecoordinate
+ \ifpgfplotsaxisparsecoordinateok
+ \pgfplotsaxisupdatelimitsforcoordinate\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@z
+ %
+ \pgfmathadd@{\pgfplots@quiver@u}{\pgfplots@current@point@x}%
+ \let\pgfplots@quiver@u=\pgfmathresult
+ \pgfmathadd@{\pgfplots@quiver@v}{\pgfplots@current@point@y}%
+ \let\pgfplots@quiver@v=\pgfmathresult
+ \pgfplotsifcurplotthreedim{%
+ \pgfmathadd@{\pgfplots@quiver@w}{\pgfplots@current@point@z}%
+ \let\pgfplots@quiver@w=\pgfmathresult
+ }{}%
+ \ifpgfplots@quiver@updatelimits
+ \pgfplotsaxisupdatelimitsforcoordinate\pgfplots@quiver@u\pgfplots@quiver@v\pgfplots@quiver@w
+ \fi
+ \fi
+ \pgfplotsaxisdatapointsurveyed
+}%
+\def\pgfplotsplothandlerserializepointto@quiver#1{%
+ \edef#1{\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z>\pgfplots@quiver@u,\pgfplots@quiver@v,\pgfplots@quiver@w}%
+}%
+\def\pgfplotsplothandlerdeserializepointfrom@quiver#1{%
+ \expandafter\pgfplotsplothandlerdeserializepointfrom@quiver@#1\relax
+}%
+\def\pgfplotsplothandlerdeserializepointfrom@quiver@#1,#2,#3>#4,#5,#6\relax{%
+ \def\pgfplots@current@point@x{#1}%
+ \def\pgfplots@current@point@y{#2}%
+ \def\pgfplots@current@point@z{#3}%
+ \def\pgfplots@quiver@u{#4}%
+ \def\pgfplots@quiver@v{#5}%
+ \def\pgfplots@quiver@w{#6}%
+}%
+\def\pgfplotsplothandlervisbegin@quiver{%
+ \def\pgfplots@quiver@has@handled@point@meta{0}%
+ \pgfkeysgetvalue{/pgfplots/quiver/arrow color}\pgfplots@quiver@color
+ \ifx\pgfplots@quiver@color\pgfutil@empty
+ \else
+ % prepare the color data and define 'mapped color':
+ \def\pgfplots@quiver@has@handled@point@meta{1}%
+ \expandafter\def\expandafter\pgfplotsplothandlerquiver@vis@hook\expandafter{%
+ \pgfplotsplothandlerquiver@vis@hook
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotscolormapdefinemappedcolor{\pgfplotspointmetatransformed}%
+ }%
+ % SEE BELOW AS WELL FOR HOW TO ENABLE THE COLOR.
+ \fi
+ %
+ %
+ \pgfkeysgetvalue{/pgfplots/quiver/every arrow/.@cmd}\pgfplots@quiver@everyarrow
+ \ifx\pgfplots@quiver@everyarrow\pgfplots@empty@style@key
+ % use PGF basic level methods to set the 'arrow color':
+ \ifx\pgfplots@quiver@color\pgfutil@empty
+ \else
+ \expandafter\def\expandafter\pgfplotsplothandlerquiver@vis@hook\expandafter{%
+ \pgfplotsplothandlerquiver@vis@hook
+ \pgfsetstrokecolor{\pgfkeysvalueof{/pgfplots/quiver/arrow color}}%
+ % for arrow heads:
+ \pgfsetfillcolor{\pgfkeysvalueof{/pgfplots/quiver/arrow color}}%
+ }%
+ \fi
+ \else
+ % 'every arrow' should provide a high level user interface.
+ % Use tikz instead of pgf. This is slower, but more powerfull.
+ \pgfplots@quiver@usetikztrue
+ \pgfplotsaxisifhaspointmeta{%
+ % ASSERT(mapped color is available)
+ \if0\pgfplots@quiver@has@handled@point@meta%
+ % -> define mapped color
+ \expandafter\def\expandafter\pgfplotsplothandlerquiver@vis@hook\expandafter{%
+ \pgfplotsplothandlerquiver@vis@hook
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotscolormapdefinemappedcolor{\pgfplotspointmetatransformed}%
+ }%
+ \def\pgfplots@quiver@has@handled@point@meta{1}%
+ \fi
+ }{}%
+ % use tikz methods to set the 'arrow color':
+ \ifx\pgfplots@quiver@color\pgfutil@empty
+ \else
+ \t@pgfplots@toka=\expandafter{\pgfplots@quiver@color}%
+ \edef\pgfplots@loc@TMPa{\noexpand\pgfkeysalso{/pgfplots/quiver/every arrow/.prefix style={\the\t@pgfplots@toka}}}%
+ \pgfplots@loc@TMPa
+ \fi
+ \fi
+ %
+ \global\let\pgf@plotstreampoint=\pgfplotsplothandlerquiver@vis%
+ \global\let\pgf@plotstreamspecial=\pgfutil@gobble%
+ \global\let\pgf@plotstreamend=\relax
+}%
+
+\def\pgfplotsplothandlerquiver@vis#1{%
+ \pgfkeysvalueof{/pgfplots/quiver/before arrow/.@cmd}\pgfeov
+ \pgfplotsplothandlerquiver@vis@hook
+ \ifpgfplots@quiver@usetikz
+ \draw[/pgfplots/quiver/every arrow] \pgfextra{\pgfplotsplothandlerquiver@vis@path{#1}};
+ \else
+ \pgfplotsplothandlerquiver@vis@path{#1}%
+ \pgfusepath{stroke}%
+ \fi
+ \pgfkeysvalueof{/pgfplots/quiver/after arrow/.@cmd}\pgfeov
+}%
+\def\pgfplotsplothandlerquiver@vis@path#1{%
+ \pgfpathmoveto{#1}%
+ \pgfplotsaxisvisphasetransformcoordinate\pgfplots@quiver@u\pgfplots@quiver@v\pgfplots@quiver@w
+ \pgfpathlineto{%
+ \pgfplotsifcurplotthreedim{%
+ \pgfplotsqpointxyz\pgfplots@quiver@u\pgfplots@quiver@v\pgfplots@quiver@w
+ }{%
+ \pgfplotsqpointxy\pgfplots@quiver@u\pgfplots@quiver@v
+ }%
+ }%
+}%
+
+\newif\ifpgfplotsplothandlerhistogram@intervals
+\newif\ifpgfplotsplothandlerhistogram@cumulative
+\pgfplotsset{
+ hist/.code={%
+ \let\tikz@plot@handler=\pgfplotsplothandlerhistogram
+ \pgfqkeys{/pgfplots/hist}{#1}%
+ },
+ hist/data value/.code =\pgfplots@set@source@for{hist/data}{#1}{0},%
+ hist/data/.code =\pgfplots@set@source@for{hist/data}{#1}{1},%
+ hist/data filter/.code=,
+ hist/data value=\pgfkeysvalueof{/data point/y},
+% hist/data=y,
+ hist/data min/.initial=\pgfkeysvalueof{/pgfplots/xmin},
+ hist/data max/.initial=\pgfkeysvalueof{/pgfplots/xmax},
+ hist/bins/.initial=10,
+ hist/intervals/.is if=pgfplotsplothandlerhistogram@intervals,
+ hist/intervals/.default=true,
+ hist/intervals=true,
+ hist/cumulative/.is if=pgfplotsplothandlerhistogram@cumulative,
+ hist/cumulative/.default=true,
+ hist/handler/.style={/tikz/ybar interval},
+ hist/symbolic coords/.style={%
+ /pgfplots/symbolic coords={hist/data}{A,B,C,D,E,F,G,H,I,J},
+ /pgfplots/symbolic coords={x}{A,B,C,D,E,F,G,H,I,J},
+ },%
+}%
+\def\pgfplotsplothandlerhistogram{%
+ \pgfplotsresetplothandler
+ \def\pgf@plotstreamstart{%
+ \pgfplotsset{/pgfplots/hist/handler}%
+ \pgfplotsresetplothandler
+ \tikz@plot@handler
+ \pgf@plotstreamstart
+ }%
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@hist
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@hist
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@hist
+}%
+\def\pgfplotsplothandlersurveystart@hist{%
+ \pgfplots@prepare@source@parser@for{hist/}{data}{\pgfplotsplothandlerhistogram@parse}%
+ %
+ \pgfkeysgetvalue{/pgfplots/hist/data min}\pgfmathresult
+ \edef\pgfmathresult{\pgfmathresult}%
+ \ifx\pgfmathresult\pgfutil@empty\else
+ \pgfplots@coord@trafo@for{hist/data}%
+ \fi
+ \edef\pgfplotsplothandlerhistogram@datamin{\pgfmathresult}%
+ %
+ \pgfkeysgetvalue{/pgfplots/hist/data max}\pgfmathresult
+ \edef\pgfmathresult{\pgfmathresult}%
+ \ifx\pgfmathresult\pgfutil@empty\else
+ \pgfplots@coord@trafo@for{hist/data}%
+ \fi
+ \edef\pgfplotsplothandlerhistogram@datamax{\pgfmathresult}%
+ %
+ \ifx\pgfplotsplothandlerhistogram@datamin\pgfutil@empty
+ \pgfmathfloatcreate{1}{1.0}{2147483645}%
+ \let\pgfplotsplothandlerhistogram@datamin=\pgfmathresult
+ \def\pgfplotsplothandlerhistogram@datamin@autocompute{1}%
+ \else
+ \pgfmathfloatparsenumber{\pgfplotsplothandlerhistogram@datamin}%
+ \let\pgfplotsplothandlerhistogram@datamin=\pgfmathresult
+ \def\pgfplotsplothandlerhistogram@datamin@autocompute{0}%
+ \fi
+ \ifx\pgfplotsplothandlerhistogram@datamax\pgfutil@empty
+ \pgfmathfloatcreate{2}{1.0}{2147483645}%
+ \let\pgfplotsplothandlerhistogram@datamax=\pgfmathresult
+ \def\pgfplotsplothandlerhistogram@datamax@autocompute{1}%
+ \else
+ \pgfmathfloatparsenumber{\pgfplotsplothandlerhistogram@datamax}%
+ \let\pgfplotsplothandlerhistogram@datamax=\pgfmathresult
+ \def\pgfplotsplothandlerhistogram@datamax@autocompute{0}%
+ \fi
+ %
+ \edef\pgfplotsplothandlerhistogram@Nfixed{\pgfkeysvalueof{/pgfplots/hist/bins}}%
+ \c@pgf@counta=\pgfplotsplothandlerhistogram@Nfixed\relax
+ \advance\c@pgf@counta by-1
+ \edef\pgfplotsplothandlerhistogram@Nmax{\the\c@pgf@counta}%
+ %
+ \pgfmathfloatparsenumber{\pgfplotsplothandlerhistogram@Nfixed}%
+ \let\pgfplotsplothandlerhistogram@N=\pgfmathresult
+ %
+ \pgfplotsapplistXnewempty\pgfp@hist@@
+ \def\c@pgfplotsplothandlerhistogram@num{0}%
+ \c@pgfplots@coordindex=0
+}%
+
+\def\pgfplotsplothandlersurveypoint@hist@limits{%
+ \if1\pgfplotsplothandlerhistogram@datamin@autocompute
+ \pgfplotsmathfloatmin{\pgfplots@current@point@data}{\pgfplotsplothandlerhistogram@datamin}%
+ \let\pgfplotsplothandlerhistogram@datamin=\pgfmathresult
+ \fi
+ %
+ \if1\pgfplotsplothandlerhistogram@datamax@autocompute
+ \pgfplotsmathfloatmax{\pgfplots@current@point@data}{\pgfplotsplothandlerhistogram@datamax}%
+ \let\pgfplotsplothandlerhistogram@datamax=\pgfmathresult
+ \fi
+}%
+\def\pgfplotsplothandlersurveypoint@hist{%
+ % Note that at this point, the coordinate filtering does NOT
+ % apply. Perhaps it should...
+ \pgfplotsplothandlerhistogram@parse
+ \let\pgfplots@current@point@data=\pgfmathresult
+ %
+ \ifx\pgfplots@current@point@data\pgfutil@empty
+ \else
+ \pgfmathfloatiffinite\pgfplots@current@point@data{%
+ \pgfplotsplothandlersurveypoint@hist@limits
+ %
+ \pgfplotsutil@advancestringcounter\c@pgfplotsplothandlerhistogram@num
+ %
+ % store parsed result.
+ \edef\pgfmathresult{{\pgfplots@current@point@data}}%
+ \expandafter\pgfplotsapplistXpushback\expandafter{\pgfmathresult}\to\pgfp@hist@@
+ }{%
+ }%
+ \fi
+ \advance\c@pgfplots@coordindex by1
+}%
+\def\pgfplotsplothandlersurveyend@hist{%
+ \ifnum\c@pgfplotsplothandlerhistogram@num>0
+ \expandafter\pgfplotsplothandlersurveyend@hist@
+ \fi
+}%
+\def\pgfplotsplothandlersurveyend@hist@{%
+ \pgfmathfloatsubtract@{\pgfplotsplothandlerhistogram@datamax}{\pgfplotsplothandlerhistogram@datamin}%
+ \let\pgfplotsplothandlerhistogram@range=\pgfmathresult
+ \pgfmathfloatdivide@{\pgfplotsplothandlerhistogram@range}{\pgfplotsplothandlerhistogram@N}%
+ \let\pgfplotsplothandlerhistogram@h=\pgfmathresult
+ \pgfmathfloatreciprocal@{\pgfplotsplothandlerhistogram@h}%
+ \let\pgfplotsplothandlerhistogram@invh=\pgfmathresult
+ %
+ \pgfplotsarraynewempty{pgfp@hist}%
+ \pgfplotsarrayresize{pgfp@hist}{\pgfplotsplothandlerhistogram@Nfixed}%
+ \pgfplotsarrayforeachungrouped{pgfp@hist}\as\pgfplots@hist@count{%
+ \pgfplotsarrayset{\pgfplotsarrayforeachindex}\of{pgfp@hist}\to{0}%
+ }%
+ %
+ \pgfplotsapplistXlet\pgfplots@hist@data=\pgfp@hist@@
+ \pgfplotsapplistXnewempty\pgfp@hist@@
+ \expandafter\pgfplotsplothandlersurveyend@hist@loop\pgfplots@hist@data\pgfplots@EOI
+ \let\pgfplots@hist@data=\relax
+ %
+ \ifpgfplotsplothandlerhistogram@cumulative
+ \c@pgf@counta=0
+ \pgfplotsarrayforeachungrouped{pgfp@hist}\as\pgfplots@hist@count{%
+ \advance\c@pgf@counta by\pgfplots@hist@count\relax
+ \def\pgfplots@loc@TMPa{\pgfplotsarrayset{\pgfplotsarrayforeachindex}\of{pgfp@hist}\to}%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\the\c@pgf@counta}%
+ }%
+ \fi
+ %
+ \pgfplots@curplot@threedimfalse
+ %
+ \pgfplotsset{/pgfplots/hist/handler}%
+ \pgfplotsresetplothandler
+ \tikz@plot@handler
+ %
+ \pgfplotsplothandlersurveystart
+ %
+ \let\pgfplots@current@point@z=\pgfutil@empty
+ \pgfplotsarrayforeachungrouped{pgfp@hist}\as\pgfplots@hist@count{%
+ \pgfplotsplothandlerhistgetintervalstartfor\pgfplotsarrayforeachindex
+ \pgfplotsplothandlerhist@invtrafo
+ \let\pgfplots@current@point@x\pgfmathresult%
+ \let\pgfplots@current@point@y\pgfplots@hist@count%
+%\message{Survey point (\pgfplots@current@point@x,\pgfplots@current@point@y)^^J}%
+ \pgfplotsplothandlersurveypoint
+ }%
+ \ifpgfplotsplothandlerhistogram@intervals
+ % replicate last count.
+ \let\pgfmathresult\pgfplotsplothandlerhistogram@datamax%
+ \pgfplotsplothandlerhist@invtrafo
+ \let\pgfplots@current@point@x\pgfmathresult%
+ \let\pgfplots@current@point@y\pgfplots@hist@count%
+%\message{Survey point (\pgfplots@current@point@x,\pgfplots@current@point@y)^^J}%
+ \pgfplotsplothandlersurveypoint
+ \fi
+ %
+ \pgfplotsplothandlersurveyend
+}
+\def\pgfplotsplothandlerhist@invtrafo{%
+ % This here might be inefficient, because
+ % there needs to be a compatible "x coord trafo" as well -- and
+ % that transformation will (most likely) do the very same thing as
+ % the hist/data coord trafo.
+ %
+ % But I did not find a way to combine the transformations
+ % automatically without resorting to hackery.
+ %
+ % And: the performance impact might (hopefully) be small...
+ \pgfplots@coord@trafo@inv@for{hist/data}%
+}%
+\def\pgfplotsplothandlersurveyend@hist@loop#1{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@EOI
+ \else
+ \pgfplotsplothandlerhistgetbinfor@{#1}%
+ \expandafter\pgfplotsplothandlerhistadvancebin\expandafter{\pgfmathresult}%
+ %
+ \expandafter\pgfplotsplothandlersurveyend@hist@loop
+ \fi
+}%
+\def\pgfplotsplothandlerhistadvancebin#1{%
+ \pgfplotsarrayselect{#1}\of{pgfp@hist}\to\pgfplots@loc@TMPa%
+ \pgfplotsutil@advancestringcounter\pgfplots@loc@TMPa
+ \pgfplotsarrayletentry{#1}\of{pgfp@hist}=\pgfplots@loc@TMPa
+}%
+\def\pgfplotsplothandlerhistgetintervalstartfor#1{%
+ \pgfmathfloatparsenumber{#1}%
+ \expandafter\pgfplotsplothandlerhistgetintervalstartfor@\expandafter{\pgfmathresult}%
+}%
+\def\pgfplotsplothandlerhistgetintervalstartfor@#1{%
+ \pgfmathfloatmultiply@{\pgfplotsplothandlerhistogram@h}{#1}%
+ \expandafter\pgfmathfloatadd@\expandafter{\pgfmathresult}{\pgfplotsplothandlerhistogram@datamin}%
+}%
+\def\pgfplotsplothandlerhistgetbinfor#1{%
+ \pgfmathfloatparsenumber{#1}%
+ \expandafter\pgfplotsplothandlerhistgetbinfor@\expandafter{\pgfmathresult}%
+}%
+
+\def\pgfplotsplothandlerhistsettol#1{%
+ \begingroup
+ \pgfmathfloatparsenumber{#1}%
+ \global\let\pgfplotsplothandlerhisttol@parsed=\pgfmathresult
+ \endgroup
+}%
+\pgfplotsplothandlerhistsettol{1e-4}%
+
+\def\pgfplotsplothandlerhistgetbinfor@#1{%
+ \pgfmathfloatsubtract@{#1}{\pgfplotsplothandlerhistogram@datamin}%
+ \expandafter\pgfmathfloatmultiply@\expandafter{\pgfmathresult}{\pgfplotsplothandlerhistogram@invh}%
+ \expandafter\pgfmathfloatadd@\expandafter{\pgfmathresult}{\pgfplotsplothandlerhisttol@parsed}%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ \afterassignment\pgfplots@gobble@until@relax
+ \c@pgf@counta=\pgfmathresult\relax
+ \ifnum\pgfplotsplothandlerhistogram@Nfixed>\c@pgf@counta
+ \ifnum\c@pgf@counta<0
+ \def\pgfmathresult{0}%
+ \else
+ \def\pgfmathresult{\the\c@pgf@counta}%
+ \fi
+ \else
+ \let\pgfmathresult=\pgfplotsplothandlerhistogram@Nmax
+ \fi
+}%
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
+%
+% Contour plots
+%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
+
+\newif\ifpgfplotsplothandlercontour@labels
+\newif\ifpgfplotsplothandlercontour@filled
+
+\pgfplotsset{
+ contour prepared/.code={%
+ \let\tikz@plot@handler=\pgfplotsplothandlercontourprepared
+ \pgfqkeys{/pgfplots/contour}{%
+ #1,%
+ }%
+ },
+ contour prepared filled/.style={%
+ /pgfplots/contour prepared={draw color=mapped color!80!black,labels=false,filled=true},
+ },
+ % FIXME : should use \tikz@plot@handler instead of just the
+ % visualization thing!
+ contour/handler/.style={/tikz/sharp plot},
+ contour prepared format/.is choice,
+ contour prepared format/standard/.code= {\def\pgfplotsplothandlercontourprepared@format{s}},
+ contour prepared format/matlab/.code= {\def\pgfplotsplothandlercontourprepared@format{m}},
+ contour prepared format/standard,
+ contour/draw color/.initial=mapped color,
+ contour/fill color/.initial=mapped color,
+ contour/label distance/.initial=70pt,
+ contour/label node code/.code={%
+ \node {\pgfmathprintnumber{#1}};
+ },%
+ contour/labels/.is if=pgfplotsplothandlercontour@labels,
+ contour/labels=true,
+ contour/filled/.is if=pgfplotsplothandlercontour@filled,
+ contour/filled/.default=true,
+ contour/data limits/.initial=,% FIXME EXPERIMENTAL
+ contour/every contour label/.style={%
+ sloped,%
+ transform shape,%
+ inner sep=2pt,
+ font=\scriptsize,
+ every node/.style={mapped color!50!black,fill=white},%
+ /pgf/number format/relative={\pgfplotspointmetarangeexponent},%
+ %every node/.style={yshift=10pt},%
+ },
+ contour/labels over line/.style={
+ /pgfplots/contour/every contour label/.append style={%
+ every node/.append style={%
+ fill=none,
+ anchor=base,
+ yshift=1pt,
+ },
+ },
+ },
+ contour/contour label style/.style={
+ /pgfplots/contour/every contour label/.append style={#1}},
+ %
+ %
+ % Styles to actually *compute* the contour.
+ % These are mostly placeholders here: As long as the
+ % algorithm is not ready, we have to resort to external tools.
+ %
+ % Shared parameters:
+ contour/number/.initial=5,
+ %
+ %
+ % Interface to external tools:
+ contour external/.code={%
+ \edef\tikz@plot@handler{\noexpand\pgfplotsplothandlercontourexternal}%
+ \pgfqkeys{/pgfplots/contour external}{#1}%
+ },
+ contour external/scanline marks/.is choice,
+ contour external/scanline marks/false/.code={\def\pgfplotsplothandlercontourexternal@scanlinemode{0}},
+ contour external/scanline marks/if in input/.code={\def\pgfplotsplothandlercontourexternal@scanlinemode{1}},
+ contour external/scanline marks/required/.code={\def\pgfplotsplothandlercontourexternal@scanlinemode{2}},
+ contour external/scanline marks/true/.code={\def\pgfplotsplothandlercontourexternal@scanlinemode{2}},
+ contour external/scanline marks/if in input,
+ contour external/file/.initial=,% auto-generate
+ contour external/script extension/.initial=script,
+ contour external/script/.initial=,% not yet initialised
+ contour external/cmd/.initial=,% not yet initialised
+ contour external/.search also=/pgfplots/contour,
+ contour gnuplot/.style={
+ contour external={%
+ scanline marks=required,
+ script={unset surface; set cntrparam levels \pgfkeysvalueof{/pgfplots/contour/number}; set contour; set table \"\outfile\"; splot \"\infile\";},
+ cmd={gnuplot \"\script\"},
+ #1,%
+ },
+ },
+}%
+\def\pgfplotsplothandlercontourprepared{%
+ \pgfplotsresetplothandler
+ \pgfplotsset{empty line=jump}%
+ \let\pgf@plotstreamstart=\pgfplotsplothandlervisstart@contour
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@contour
+ \if m\pgfplotsplothandlercontourprepared@format
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@contourmatlabformat
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@contourmatlabformat
+ \pgfplotsaxisifhaspointmeta{}{%
+ \pgfplotsset{/pgfplots/point meta=explicit}%
+ }%
+ \fi
+ \pgfplotsplothandlercontour@prepare@point@meta
+}%
+\def\pgfplotsplothandlercontour@prepare@point@meta{%
+ \ifpgfplots@curplot@threedim
+ \pgfplotsset{/pgfplots/set point meta if empty=z}%
+ \else
+ \pgfplotsaxisifhaspointmeta{}{%
+ \pgfkeysgetvalue{/pgfplots/table/meta index}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+% FIXME : this here is reasonable, but it should be sanity checked!
+ \pgfkeyssetvalue{/pgfplots/table/meta index}{2}%
+ \fi
+ \pgfplotsset{/pgfplots/set point meta if empty=explicit}%
+ }%
+ %\pgfplots@error{Sorry, 'contour external' requires \string\addplot3 (or a non-empty `point meta' used as label data)}%
+ \fi
+ \def\pgfplotsplothandlercontour@empty@pointmeta@error@@{0}%
+}%
+\def\pgfplotsplothandlercontour@empty@pointmeta@error{%
+ \if0\pgfplotsplothandlercontour@empty@pointmeta@error@@
+ \def\pgfplotsplothandlercontour@empty@pointmeta@error@@{1}%
+ \def\pgfplots@current@point@meta{0}%
+ \pgfplotsthrow{invalid argument}{\pgfplots@current@point@meta}{Sorry, contour plots require non--empty `point meta'. Please use '\string\addplot3[contour ...] together with 'view={0}{90}' or provide a valid 'point meta=<value>' (for example `<value>=z'?)}\pgfeov%
+ \fi
+}%
+
+\def\pgfplotsplothandlersurveystart@contourmatlabformat{%
+ \def\c@pgfplotsplothandlercontourprepared@matlabformat@cur{0}%
+ \def\c@pgfplotsplothandlercontourprepared@matlabformat@count{0}%
+}
+\def\pgfplotsplothandlersurveypoint@contourmatlabformat{%
+ \ifnum\c@pgfplotsplothandlercontourprepared@matlabformat@cur=\c@pgfplotsplothandlercontourprepared@matlabformat@count\relax
+ \pgfmathfloatparsenumber{\pgfplots@current@point@y}%
+ \pgfmathfloattoint\pgfmathresult
+ \let\c@pgfplotsplothandlercontourprepared@matlabformat@count=\pgfmathresult
+ \def\c@pgfplotsplothandlercontourprepared@matlabformat@cur{0}%
+ %
+ \pgfmathfloatparsenumber{\pgfplots@current@point@x}%
+ \let\pgfplotsplothandlercontourprepared@matlabformat@meta=\pgfmathresult
+ %
+ \else
+ \let\pgfplots@current@point@z=\pgfplotsplothandlercontourprepared@matlabformat@meta
+ \let\pgfplots@current@point@meta=\pgfplotsplothandlercontourprepared@matlabformat@meta
+ \pgfplotsplothandlersurveypoint@default
+ \pgfplotsutil@advancestringcounter\c@pgfplotsplothandlercontourprepared@matlabformat@cur
+ \fi
+}%
+\def\pgfplotsplothandlersurveyend@contour{%
+ \pgfplotsplothandlercontour@init@limits
+ \ifx\pgfplotsplothandlercontour@limits@low@meta\pgfutil@empty
+ \else
+ \pgfplotsaxisupdatelimitsforpointmeta\pgfplotsplothandlercontour@limits@low@meta
+ \fi
+}%
+
+\def\pgfplotsplothandlervisstart@contour{%
+ %
+ \ifpgfplotsplothandlercontour@labels
+ \pgfkeysgetvalue{/pgfplots/contour/label distance}\pgfplotsplothandlercontour@labeldist
+ \pgfmathparse{\pgfplotsplothandlercontour@labeldist}%
+ \edef\pgfplotsplothandlercontour@labeldist{\pgfmathresult pt}%
+ %
+ \pgfplotsapplistXnewempty\pgfplotsplothandlercontour@storedlabels
+ \let\pgfplotsplothandlercontour@handlesplinesegment=\pgfplotsplothandlercontour@handlesplinesegment@forlabels
+ \else
+ \def\pgfplotsplothandlercontour@handlesplinesegment##1##2##3{}%
+ \fi
+ %
+ \ifpgfplotsplothandlercontour@filled
+ \pgfseteorule
+ \pgfplotsapplistXnewempty\pgfplotsplothandlercontour@stored@lastcontourpath
+ \pgfplotsplothandlercontour@init@limits
+ \fi
+ %
+ \pgfplotsresetplothandler
+ \pgfplotsset{/pgfplots/contour/handler}%
+ \tikz@plot@handler
+ %
+ \def\pgfplotsplothandlercontour@haspendingjump{0}%
+ \let\pgfplotsplothandlervisualizejump=\pgfplotsplothandlercontour@jump
+ %
+ \let\pgfplotsplothandlercontour@handler@start=\pgf@plotstreamstart
+ \let\pgfplotsplothandlercontour@lastcontour=\pgfutil@empty
+ \global\let\pgf@plotstreampoint=\pgfplotsplothandlercontour@streampoint
+ \global\let\pgf@plotstreamend=\pgfplotsplothandlercontour@streamend
+}%
+
+\def\pgfplotsplothandlercontour@jump{%
+ \def\pgfplotsplothandlercontour@haspendingjump{1}%
+}%
+
+\def\pgfplotsplothandlercontour@streamend{%
+ \ifx\pgfplotsplothandlercontour@lastcontour\pgfutil@empty
+ \else
+ %
+ \def\pgfplotsplothandlercontour@haspendingjump{0}% important! (this is a different case than a jump)
+ \pgfplotsplothandlercontour@finishcontourline
+ %
+ \ifpgfplotsplothandlercontour@filled
+ \if0\pgfplotsplothandlercontour@processed@outer
+ \pgfplotsplothandlercontour@stream@bbcontour
+ \pgfplotsplothandlercontour@finishcontourline
+ \fi
+ \fi
+ %
+ \ifpgfplotsplothandlercontour@labels
+ \scope[/pgfplots/contour/every contour label]
+ \let\pgfplots@restore@drawmodes=\relax% FIXME : necessary?
+ \pgfplotsapplistXlet\pgfplotsplothandlercontour@storedlabels@=\pgfplotsplothandlercontour@storedlabels
+ \pgfplotsapplistXnewempty\pgfplotsplothandlercontour@storedlabels
+ \expandafter\pgfplotsplothandlercontourplacelabels\pgfplotsplothandlercontour@storedlabels@\pgfplots@EOI
+ \endscope
+ \fi
+ \fi
+}%
+\def\pgfplotsplothandlercontour@check@bbcontour{%
+ \ifpgfplotsplothandlercontour@filled
+ \if0\pgfplotsplothandlercontour@processed@outer
+ \pgfplotscoordmath{meta}{if less than}
+ {\pgfplotsplothandlercontour@act@contour}
+ {\pgfplotsplothandlercontour@limits@low@meta}
+ {%
+ % TRUE!
+ \pgfplotsplothandlercontour@stream@bbcontour@inbetween
+ }{}%
+ \fi
+ \fi
+}%
+\def\pgfplotsplothandlercontour@stream@bbcontour@inbetween{%
+ \def\pgfplotsplothandlercontour@processed@outer{1}%
+}%
+
+\def\pgfplotsplothandlercontour@stream@bbcontour{%
+%\message{contour: processing OUTER data limit contour...}%
+ \def\pgfplotsplothandlercontour@haspendingjump{0}% important
+ %
+ % forbid labels:
+ \let\pgfplotsplothandlercontour@stream@bbcontour@oldlabelsetting=\pgfplotsplothandlercontour@handlesplinesegment
+ \def\pgfplotsplothandlercontour@handlesplinesegment##1##2##3{}%
+ %
+ \let\pgfplots@current@point@meta=\pgfplotsplothandlercontour@limits@low@meta
+ \pgfplotsplothandlercontour@streampoint{%
+ \pgfplotsplothandlerpointxyz
+ \pgfplotsplothandlercontour@limits@low@x
+ \pgfplotsplothandlercontour@limits@low@y
+ \pgfplotsplothandlercontour@limits@low@z
+ }%
+ \pgfplotsplothandlercontour@streampoint{%
+ \pgfplotsplothandlerpointxyz
+ \pgfplotsplothandlercontour@limits@high@x
+ \pgfplotsplothandlercontour@limits@low@y
+ \pgfplotsplothandlercontour@limits@low@z
+ }%
+ \pgfplotsplothandlercontour@streampoint{%
+ \pgfplotsplothandlerpointxyz
+ \pgfplotsplothandlercontour@limits@high@x
+ \pgfplotsplothandlercontour@limits@high@y
+ \pgfplotsplothandlercontour@limits@low@z
+ }%
+ \pgfplotsplothandlercontour@streampoint{%
+ \pgfplotsplothandlerpointxyz
+ \pgfplotsplothandlercontour@limits@low@x
+ \pgfplotsplothandlercontour@limits@high@y
+ \pgfplotsplothandlercontour@limits@low@z
+ }%
+ \pgfplotsplothandlercontour@streampoint{%
+ \pgfplotsplothandlerpointxyz
+ \pgfplotsplothandlercontour@limits@low@x
+ \pgfplotsplothandlercontour@limits@low@y
+ \pgfplotsplothandlercontour@limits@low@z
+ }%
+ \def\pgfplotsplothandlercontour@processed@outer{1}%
+ %
+ % restore labels:
+ \let\pgfplotsplothandlercontour@handlesplinesegment=\pgfplotsplothandlercontour@stream@bbcontour@oldlabelsetting
+}%
+\def\pgfplotsplothandlercontourplacelabels#1{%
+ \def\pgfplots@loc@TMPa{#1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@EOI
+ \else
+ %
+ \pgfplotsplothandlercontourplacelabels@act#1\relax
+ %
+ \expandafter\pgfplotsplothandlercontourplacelabels
+ \fi
+}%
+\def\pgfplotsplothandlercontourplacelabels@act#1,#2;#3,#4;#5\relax{%
+ \begingroup
+ \def\pgfplots@current@point@meta{#5}%
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotscolormapdefinemappedcolor{\pgfplotspointmetatransformed}%
+ %
+ \pgftransformlineattime{0.5}{\pgfqpoint{#1}{#2}}{\pgfqpoint{#3}{#4}}%
+ \pgfkeysvalueof{/pgfplots/contour/label node code/.@cmd}#5\pgfeov
+ \endgroup
+}%
+
+\def\pgfplotsplothandlercontour@streampoint#1{%
+ \pgf@process{#1}%
+ % remember point:
+ \edef\pgfplotsplothandlercontour@act@canvas{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
+ %
+ \let\pgfplotsplothandlercontour@act@contour=\pgfplots@current@point@meta
+ \ifx\pgfplotsplothandlercontour@act@contour\pgfutil@empty
+ % oh. No Z data!? That should not happen!
+ \pgfplotsplothandlercontour@empty@pointmeta@error
+ \fi
+ \ifx\pgfplotsplothandlercontour@lastcontour\pgfutil@empty
+ % oh. its the very first point.
+ \def\pgfplotsplothandlercontour@haspendingjump{0}% important! (this is a different case than a jump)
+ \pgfplotsplothandlercontour@preparenewcontourline
+ \else
+ \ifx\pgfplotsplothandlercontour@lastcontour\pgfplotsplothandlercontour@act@contour
+ % belongs to the same contour.
+ \if1\pgfplotsplothandlercontour@haspendingjump
+ \pgfplotsplothandlercontour@finishcontourline
+ \pgfplotsplothandlercontour@preparenewcontourline
+ \fi
+ \else
+ % oh, a new contour line.
+ \def\pgfplotsplothandlercontour@haspendingjump{0}% important! (this is a different case than a jump)
+ \pgfplotsplothandlercontour@finishcontourline
+ \pgfplotsplothandlercontour@check@bbcontour
+ \pgfplotsplothandlercontour@preparenewcontourline
+ \fi
+ \fi
+ %
+ %
+ % handle difference vector for label placement:
+ \ifx\pgfplotsplothandlercontour@lastcanvas\pgfutil@empty
+ \else
+ \pgfplotsplothandlercontour@handlesplinesegment
+ {\pgfplotsplothandlercontour@lastcanvas}
+ {\pgfplotsplothandlercontour@act@canvas}%
+ {\pgfplotsplothandlercontour@act@contour}%
+ \fi
+ %
+ \pgfplotsplothandlercontour@handler@streampoint{\pgfplotsplothandlercontour@act@canvas}%
+ \let\pgfplotsplothandlercontour@lastlastcanvas=\pgfplotsplothandlercontour@lastcanvas
+ \let\pgfplotsplothandlercontour@lastcanvas=\pgfplotsplothandlercontour@act@canvas
+ \let\pgfplotsplothandlercontour@lastcontour=\pgfplotsplothandlercontour@act@contour
+ %
+ \ifpgfplotsplothandlercontour@filled
+ \t@pgfplots@toka=\expandafter{\expandafter{\pgfplotsplothandlercontour@act@canvas}}%
+ \expandafter\pgfplotsapplistXpushback\expandafter\pgf@plotstreampoint\the\t@pgfplots@toka
+ \to\pgfplotsplothandlercontour@stored@lastcontourpath
+ \fi
+ %
+ \ifx\pgf@plotstreampoint\pgfplotsplothandlercontour@streampoint
+ \else
+ \let\pgfplotsplothandlercontour@handler@streampoint=\pgf@plotstreampoint
+ \fi
+ \global\let\pgf@plotstreampoint=\pgfplotsplothandlercontour@streampoint
+ \global\let\pgf@plotstreamend=\pgfplotsplothandlercontour@streamend
+ % ATTENTION : if the low level plot handler introduces extra
+ % levels of scopes, this *will* fail!
+}%
+
+%
+% #1 : source
+% #2 : target
+% #3 : contour value
+\def\pgfplotsplothandlercontour@handlesplinesegment@forlabels#1#2#3{%
+ #2%
+ \pgf@xb=\pgf@x
+ \pgf@yb=\pgf@y
+ #1%
+ \pgf@xc=\pgf@x
+ \pgf@yc=\pgf@y
+ \pgfpointdiff
+ {\pgf@x=\pgf@xc \pgf@y=\pgf@yc}
+ {\pgf@x=\pgf@xb \pgf@y=\pgf@yb}%
+ \edef\pgfplots@loc@TMPa{{\pgf@sys@tonumber\pgf@x}{\pgf@sys@tonumber\pgf@y}}%
+ \expandafter\pgfmath@basic@veclen@\pgfplots@loc@TMPa
+ \pgf@xa=\pgfmathresult pt
+ %
+ \advance\pgf@xa by\pgfplotsplothandlercontour@len\relax
+ \edef\pgfplotsplothandlercontour@len{\the\pgf@xa}%
+%\message{contour(\pgfplotsplothandlercontour@act@contour): cur len=\pgfplotsplothandlercontour@len > \pgfplotsplothandlercontour@labeldist ? [segment from #1--#2];}%
+ \ifdim\pgf@xa>\pgfplotsplothandlercontour@labeldist\relax
+ \def\pgfplotsplothandlercontour@haslabel{1}%
+ \edef\pgfplots@loc@TMPa{{\the\pgf@xc,\the\pgf@yc;\the\pgf@xb,\the\pgf@yb;{#3}}}%
+ \expandafter\pgfplotsapplistXpushback\expandafter{\pgfplots@loc@TMPa}\to\pgfplotsplothandlercontour@storedlabels
+ \advance\pgf@xa by-\pgfplotsplothandlercontour@labeldist\relax
+ \edef\pgfplotsplothandlercontour@len{\the\pgf@xa\relax}%
+ \fi
+}%
+
+
+\def\pgfplotsplothandlercontour@preparenewcontourline{%
+ \if0\pgfplotsplothandlercontour@haspendingjump
+%\message{PREPARE NEW CONTOUR LEVEL (\pgfplots@current@point@meta).}%
+ % a completely new level has been
+ % started, not due to jumps inside of one level.
+ %
+ % thus, we need to compute 'mapped color':
+ \pgfplotsaxisvisphasetransformpointmeta
+ \pgfplotscolormapdefinemappedcolor{\pgfplotspointmetatransformed}%
+ \pgfsetstrokecolor{\pgfkeysvalueof{/pgfplots/contour/draw color}}%
+ \ifpgfplotsplothandlercontour@filled
+ \pgfsetfillcolor{\pgfkeysvalueof{/pgfplots/contour/fill color}}%
+ \fi
+ %
+ % furthermore, we need to handle the 'filled' style:
+ \ifpgfplotsplothandlercontour@filled
+ \pgfplotsapplistXlet\pgfplotsplothandlercontour@stored@lastcontourpath@=\pgfplotsplothandlercontour@stored@lastcontourpath
+ % flush:
+ \pgfplotsapplistXnewempty\pgfplotsplothandlercontour@stored@lastcontourpath
+ %
+ % process it:
+ \ifx\pgfplotsplothandlercontour@stored@lastcontourpath@\pgfutil@empty
+ % oh. This here is the very first contour. Nothing to do!
+ \else
+ % ok. This here is the i'th contour level, i>0.
+ % Thus, we have the 'i-1'th contour stored.
+ % REPLICATE its path to fill the space between the (i-1)'th contour and the i'th one!
+ \let\pgf@plotstreamstart=\pgfplotsplothandlercontour@handler@start
+ \pgf@plotstreamstart
+ \pgfplotsplothandlercontour@stored@lastcontourpath@
+ \pgf@plotstreamend
+ \fi
+ \fi
+ \else
+%\message{PREPARE NEW CONTOUR for the already begun level \pgfplots@current@point@meta.}%
+ \ifpgfplotsplothandlercontour@filled
+ \pgfplotsapplistXpushback\pgf@plotstreamstart\to\pgfplotsplothandlercontour@stored@lastcontourpath
+ \fi
+ \fi
+ %
+ \let\pgfplotsplothandlercontour@lastcanvas=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@lastlastcanvas=\pgfutil@empty
+ \ifpgfplotsplothandlercontour@labels
+ \def\pgfplotsplothandlercontour@haslabel{0}%
+ %
+ % this here means that 20% of labeldist are already there.
+ % it moves the first label nearer to its start.
+ \pgf@xa=\pgfplotsplothandlercontour@labeldist\relax
+ \pgf@xa=0.2\pgf@xa
+ \edef\pgfplotsplothandlercontour@len{\the\pgf@xa}%
+ \fi
+ \def\pgfplotsplothandlercontour@haspendingjump{0}%
+ %
+ \pgfplotsplothandlercontour@handler@start
+ \let\pgfplotsplothandlercontour@handler@end=\pgf@plotstreamend
+ \let\pgfplotsplothandlercontour@handler@streampoint=\pgf@plotstreampoint
+}%
+\def\pgfplotsplothandlercontour@finishcontourline{%
+ \ifpgfplotsplothandlercontour@labels
+ \if0\pgfplotsplothandlercontour@haslabel
+ \ifx\pgfplotsplothandlercontour@lastlastcanvas\pgfutil@empty
+ \else
+ % force a label:
+%\message{FORCING A LABEL for contour \pgfplotsplothandlercontour@lastcontour\space from (\pgfplotsplothandlercontour@lastlastcanvas --\pgfplotsplothandlercontour@lastcanvas)}%
+ \edef\pgfplotsplothandlercontour@len{\pgfplotsplothandlercontour@labeldist}%
+ \pgfplotsplothandlercontour@handlesplinesegment
+ {\pgfplotsplothandlercontour@lastlastcanvas}
+ {\pgfplotsplothandlercontour@lastcanvas}%
+ {\pgfplotsplothandlercontour@lastcontour}%
+ \fi
+ \fi
+ \fi
+ \pgfplotsplothandlercontour@handler@end
+ %
+% \ifpgfplotsplothandlercontour@filled
+% \pgfpathclose % FIXME this is, in general, not good enough.
+% \fi
+ \if0\pgfplotsplothandlercontour@haspendingjump
+%\message{usepath{} to finalize level \pgfplotsplothandlercontour@lastcontour.}%
+ % flush paths if the complete contour level is ready.
+ % do *not* flush paths if we have just a new part of the
+ % existing contour level.
+ %
+ % This makes a difference for the filled contour.
+ \ifpgfplotsplothandlercontour@filled
+ \pgfusepath{fill,stroke}%
+ \else
+ \pgfusepath{stroke}%
+ \fi
+ \else
+%\message{usepath{} for level \pgfplotsplothandlercontour@lastcontour.}%
+ \ifpgfplotsplothandlercontour@filled
+ \pgfplotsapplistXpushback\pgf@plotstreamend\to\pgfplotsplothandlercontour@stored@lastcontourpath
+ \fi
+ \fi
+}%
+
+\def\pgfplotsplothandlercontour@init@limits{%
+ \def\pgfplotsplothandlercontour@processed@outer{0}%
+ \let\pgfplotsplothandlercontour@limits@low@meta=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@low@x=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@low@y=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@low@z=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@high@meta=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@high@x=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@high@y=\pgfutil@empty
+ \let\pgfplotsplothandlercontour@limits@high@z=\pgfutil@empty
+ %
+ \pgfkeysgetvalue{/pgfplots/contour/data limits}\pgfplots@loc@TMPa
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \def\pgfplotsplothandlercontour@processed@outer{1}%
+ \else
+ \expandafter\pgfplotsplothandlercontour@init@limits@getboundingboxlow\pgfplots@loc@TMPa\pgfplots@EOI
+ \fi
+%\message{contour: I processed data limits to MIN = (\pgfplotsplothandlercontour@limits@low@x,\pgfplotsplothandlercontour@limits@low@y,\pgfplotsplothandlercontour@limits@low@z;\pgfplotsplothandlercontour@limits@low@meta) and MAX = (\pgfplotsplothandlercontour@limits@high@x,\pgfplotsplothandlercontour@limits@high@y,\pgfplotsplothandlercontour@limits@high@z;\pgfplotsplothandlercontour@limits@high@meta).}%
+}%
+\def\pgfplotsplothandlercontour@init@limits@getboundingboxlow(#1,#2,#3,#4){%
+ \def\pgfplotsplothandlercontour@init@limits@cur{low}%
+ \pgfplotsplothandlercontour@init@limits@read(#1,#2,#3,#4)%
+ \pgfutil@ifnextchar(%
+ \pgfplotsplothandlercontour@init@limits@getboundingboxhigh
+ {\pgfplots@error{Sorry, 'data limits=(xmin,ymin,zmin,contourmin) (xmax,ymax,zmax,contourmax)' has been expected, not \pgfkeysvalueof{/pgfplots/contour/data limits}}\pgfplots@gobble@until@EOI}%
+}%
+\def\pgfplotsplothandlercontour@init@limits@getboundingboxhigh(#1,#2,#3,#4){%
+ \def\pgfplotsplothandlercontour@init@limits@cur{high}%
+ \pgfplotsplothandlercontour@init@limits@read(#1,#2,#3,#4)%
+ \pgfutil@gobble
+}%
+\def\pgfplotsplothandlercontour@init@limits@read(#1,#2,#3,#4){%
+ % FIXME : logs and trafos and user interface!
+ \pgfplotscoordmath{x}{parsenumber}{#1}%
+ \pgfplotscoordmath{x}{datascaletrafo}\pgfmathresult
+ \expandafter\let\csname pgfplotsplothandlercontour@limits@\pgfplotsplothandlercontour@init@limits@cur @x\endcsname=\pgfmathresult
+ %
+ \pgfplotscoordmath{y}{parsenumber}{#2}%
+ \pgfplotscoordmath{y}{datascaletrafo}\pgfmathresult
+ \expandafter\let\csname pgfplotsplothandlercontour@limits@\pgfplotsplothandlercontour@init@limits@cur @y\endcsname=\pgfmathresult
+ %
+ \ifpgfplots@curplot@threedim
+ \pgfplotscoordmath{z}{parsenumber}{#3}%
+ \pgfplotscoordmath{z}{datascaletrafo}\pgfmathresult
+ \expandafter\let\csname pgfplotsplothandlercontour@limits@\pgfplotsplothandlercontour@init@limits@cur @z\endcsname=\pgfmathresult
+ \fi
+ %
+ \pgfplotscoordmath{meta}{parsenumber}{#4}%
+ \expandafter\let\csname pgfplotsplothandlercontour@limits@\pgfplotsplothandlercontour@init@limits@cur @meta\endcsname=\pgfmathresult
+}%
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%
+% contour external implementation
+%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+\def\pgfplotsplothandlercontourexternal{%
+ \pgfplotsresetplothandler
+ \def\pgfplotsplothandlername{contour external}%
+ %
+ \pgfplotsplothandlercontour@prepare@point@meta
+ %
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@contourexternal
+ \def\pgf@plotstreamstart{%
+ \pgfplotsplothandlercontourprepared
+ \pgf@plotstreamstart
+ }%
+}%
+\gdef\c@pgfplotsplothandlersurveystart@contourexternal@fileno{0}%
+\def\pgfplotsplothandlersurveystart@contourexternal{%
+ %
+ \pgfkeysgetvalue{/pgfplots/contour external/file}\pgfplotsplothandlercontourexternal@file
+ %
+ \ifx\pgfplotsplothandlercontourexternal@file\pgfutil@empty
+ \pgfutil@ifundefined{pgfactualjobname}{%
+ \let\pgfplots@loc@TMPa=\jobname
+ }{%
+ % be compatible with external lib:
+ \let\pgfplots@loc@TMPa=\pgfactualjobname
+ }%
+ \edef\pgfplotsplothandlercontourexternal@file{\pgfplots@loc@TMPa_contourtmp\c@pgfplotsplothandlersurveystart@contourexternal@fileno}%
+ \pgfplotsutil@advancestringcounter@global\c@pgfplotsplothandlersurveystart@contourexternal@fileno
+ \fi
+ %
+ \if0\pgfplotsplothandlercontourexternal@scanlinemode
+ \pgfplotsset{plot to file/scanline marks/false}%
+ \else
+ \pgfplotsset{plot to file/scanline marks/if in input}% the choice 'always' is unaware of existing end-of-scanline marks
+ \fi
+ \pgfplotsplothandlertofile{\pgfplotsplothandlercontourexternal@file.dat}%
+ \pgfplotsplothandlersurveystart
+ \let\pgfplotsplothandlersurveypoint@tofile=\pgfplotsplothandlersurveypoint
+ \let\pgfplotsplothandlersurveyend@tofile=\pgfplotsplothandlersurveyend
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@contourexternal
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@contourexternal
+}%
+\def\pgfplotsplothandlersurveypoint@contourexternal{%
+ % temporarily disable updates to point meta limits. They should be
+ % updated during the contour prepared processing.
+ \let\pgfplotsplothandlercontourexternal@orig@perpointlimits@limits=\pgfplots@set@perpointmeta@limits
+ \let\pgfplots@set@perpointmeta@limits=\relax
+ %
+ \pgfplotsaxissurveysetpointmeta
+ \let\pgfplots@current@point@z=\pgfplots@current@point@meta
+ %
+ \let\pgfplots@set@perpointmeta@limits=\pgfplotsplothandlercontourexternal@orig@perpointlimits@limits
+ %
+%\message{contour gnuplot: collecting point (\pgfplots@current@point@x,\pgfplots@current@point@y,\pgfplots@current@point@z) [\pgfplots@current@point@meta]...}%
+ \pgfplotsplothandlersurveypoint@tofile
+}%
+
+{
+\catcode`\`=12
+\catcode`\'=12
+\catcode`\"=12
+\catcode`\|=12
+\catcode`\;=12
+\catcode`\:=12
+\catcode`\#=12
+\gdef\pgfplotsplothandlersurveyend@contourexternal{%
+ \pgfplotsplothandlersurveyend@tofile
+ \if2\pgfplotsplothandlercontourexternal@scanlinemode
+ \if0\pgfplotsplothandlertofilegeneratedscanlinemarks
+ \pgfplots@error{Sorry, processing the input stream did not lead to end-of-scanline markers; the generated temporary file for 'contour external' does not contain any of them (indicating that matrix structure is lost). To fix this, you have the following options:^^J - Insert end-of-scanline markers into your input data (i.e. empty lines),^^J - provide two of the three options 'mesh/rows=<num matrix rows>, mesh/cols=<num matrix cols>, mesh/num points=<total number points>'}%
+ \fi
+ \fi
+ %
+ \begingroup
+ \let\numcoords=\pgfplots@current@point@coordindex%
+ \pgfplotsautocompletemeshkeys
+ \def\"{"}%
+ \def\|{|}%
+ \def\;{;}%
+ \def\:{:}%
+ \def\#{#}%
+ \def\'{'}%
+ \def\`{`}%
+ \edef\ordering{\pgfplots@plot@mesh@ordering}%
+ \edef\infile{\pgfplotsplothandlercontourexternal@file.dat}%
+ \edef\outfile{\pgfplotsplothandlercontourexternal@file.table}%
+ \edef\script{\pgfplotsplothandlercontourexternal@file.\pgfkeysvalueof{/pgfplots/contour external/script extension}}%
+ \immediate\openout\w@pgf@writea=\script
+ \immediate\write\w@pgf@writea{\pgfkeysvalueof{/pgfplots/contour external/script}}%
+ \immediate\closeout\w@pgf@writea
+ %
+ \immediate\write18{\pgfkeysvalueof{/pgfplots/contour external/cmd}}%
+ \endgroup
+ %
+ %
+ \pgfplotsplothandlercontourprepared
+ \let\pgfplots@coord@stream@start=\relax% has already been done.
+ \def\pgfplots@coord@stream@end{\pgfplotsplothandlersurveyend}%
+ \ifpgfplots@curplot@threedim
+ \pgfplotssetpointmetainput{z}{}%
+ \else
+ \pgfplotssetpointmetainput{explicit}{}%
+ \fi
+ \pgfplots@addplotimpl@file@streamit{\pgfplotsplothandlercontourexternal@file.table}%
+ \closein\r@pgfplots@reada
+}%
+}
+
+
+
+
+
+% the `plot unprocessed to file' plot handler simply copies the input data
+% UNPROCESSED to an output file.
+%
+% I use it as helper tool for `contour gnuplot'.
+%
+% this cannot be combined with other plot handlers unless the other
+% plot handlers controls that explicitly
+%
+% Immediately after the survey ends, this plot handler will set
+% \pgfplotsplothandlertofilegeneratedscanlinemarks to '1' or '0'.
+\pgfplotsset{
+ plot unprocessed to file/.code={
+ \edef\tikz@plot@handler{\noexpand\pgfplotsplothandlertofile{#1}}%
+ },
+ plot to file/scanline marks/.is choice,
+ plot to file/scanline marks/false/.code={\def\pgfplotsplothandlertofile@scanlinemarks{0}},
+ plot to file/scanline marks/if in input/.code={\def\pgfplotsplothandlertofile@scanlinemarks{1}},
+ plot to file/scanline marks/always/.code={\def\pgfplotsplothandlertofile@scanlinemarks{2}},
+ plot to file/scanline marks/true/.code={\def\pgfplotsplothandlertofile@scanlinemarks{2}},
+ plot to file/scanline marks/if in input,
+ plot to file/col sep/.initial=\pgfplots@TAB,
+ plot to file/end-of-scanline content/.initial=,
+}
+
+\def\pgfplotsplothandlertofile#1{%
+ \edef\pgfplotsplothandlertofile@name{#1}%
+ \pgfplotsresetplothandler
+ \pgfplotsset{empty line=scanline}%
+ \let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@tofile
+ \def\pgfplotsplothandlername{plot to file}%
+ \let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@tofile
+ \let\pgfplotsplothandlersurveypoint=\pgfplotsplothandlersurveypoint@tofile
+ \let\pgfplotsplothandlernotifyscanlinecomplete=\pgfplotsplothandlernotifyscanlinecomplete@tofile
+ %
+ \if1\pgfplotsplothandlertofile@scanlinemarks
+ % plot to file/scanline marks=if in input
+ % check if we have mesh input:
+ \def\pgfplots@loc@TMP@has@mesh@information{0}%
+ \pgfkeysgetvalue{/pgfplots/mesh/rows}\pgfplots@loc@TMPa
+ \pgfkeysgetvalue{/pgfplots/mesh/cols}\pgfplots@loc@TMPb
+ \pgfkeysgetvalue{/pgfplots/mesh/num points}\pgfplots@loc@TMPc
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ \ifx\pgfplots@loc@TMPc\pgfutil@empty
+ \else
+ % has rows and num points:
+ \def\pgfplots@loc@TMP@has@mesh@information{1}%
+ \fi
+ \else
+ \ifx\pgfplots@loc@TMPb\pgfutil@empty
+ \ifx\pgfplots@loc@TMPc\pgfutil@empty
+ \else
+ % has cols and num points:
+ \def\pgfplots@loc@TMP@has@mesh@information{1}%
+ \fi
+ \else
+ % has rows,cols:
+ \def\pgfplots@loc@TMP@has@mesh@information{1}%
+ \fi
+ \fi
+ \if1\pgfplots@loc@TMP@has@mesh@information
+ % activate 'plot to file/scanline marks=always
+ % --> we have the required information!
+ \def\pgfplotsplothandlertofile@scanlinemarks{2}%
+ \fi
+ \fi
+ % NO \else here!
+ \if2\pgfplotsplothandlertofile@scanlinemarks
+ % plot to file/scanline marks=always
+ \pgfplotsautocompletemeshkeys%
+ \def\c@pgfplotsplothandlertofile@scanlinelength{0}%
+ \if\pgfplots@plot@mesh@ordering0%
+ % ordering = x varies= rowwise -> scanline is cols!
+ \pgfkeysgetvalue{/pgfplots/mesh/cols}\c@pgfplotsplothandlertofile@expectedscanline
+ \else
+ % ordering = y varies = colwise: scanline is rows!
+ \pgfkeysgetvalue{/pgfplots/mesh/rows}\c@pgfplotsplothandlertofile@expectedscanline
+ \fi
+ \fi
+ \pgfplotsplothandlertofile@scanlinependingfalse
+ \pgfkeysgetvalue{/pgfplots/plot to file/col sep}\pgfplotsplothandlertofile@colsep
+ \pgfkeysgetvalue{/pgfplots/plot to file/end-of-scanline content}\pgfplotsplothandlertofile@scanlinemark
+ %
+ %
+ \def\pgfplotsplothandlertofilegeneratedscanlinemarks{0}%
+}%
+\def\pgfplotsplothandlertofile@scanlinemarks@check{%
+ \if2\pgfplotsplothandlertofile@scanlinemarks
+ % plot to file/scanline marks=always
+ \pgfplotsutil@advancestringcounter\c@pgfplotsplothandlertofile@scanlinelength
+ \ifnum\c@pgfplotsplothandlertofile@scanlinelength=\c@pgfplotsplothandlertofile@expectedscanline
+ \def\c@pgfplotsplothandlertofile@scanlinelength{0}%
+ \pgfplotsplothandlernotifyscanlinecomplete@tofile
+ \fi
+ \fi
+}%
+\newif\ifpgfplotsplothandlertofile@scanlinepending
+\def\pgfplotsplothandlernotifyscanlinecomplete@tofile{%
+ \if0\pgfplotsplothandlertofile@scanlinemarks
+ \else
+ \pgfplotsplothandlertofile@scanlinependingtrue
+ \fi
+}%
+\def\pgfplotsplothandlersurveypoint@tofile{%
+ \ifpgfplotsplothandlertofile@scanlinepending
+ \def\pgfplotsplothandlertofilegeneratedscanlinemarks{1}%
+ \immediate\write\w@pgf@writea{\pgfplotsplothandlertofile@scanlinemark}% end-of-scanline
+ \pgfplotsplothandlertofile@scanlinependingfalse
+ \fi
+ \pgfplotscoordmath{x}{parsenumber}{\pgfplots@current@point@x}%
+ \pgfplotscoordmath{x}{tostring}{\pgfmathresult}%
+ \let\pgfplots@current@point@x=\pgfmathresult
+ %
+ \pgfplotscoordmath{y}{parsenumber}{\pgfplots@current@point@y}%
+ \pgfplotscoordmath{y}{tostring}{\pgfmathresult}%
+ \let\pgfplots@current@point@y=\pgfmathresult
+ %
+ \ifpgfplots@curplot@threedim
+ \pgfplotscoordmath{z}{parsenumber}{\pgfplots@current@point@z}%
+ \pgfplotscoordmath{z}{tostring}{\pgfmathresult}%
+ \let\pgfplots@current@point@z=\pgfmathresult
+ \fi
+ %
+ \pgfplotsaxissurveysetpointmeta
+ \pgfplotsaxisifhaspointmeta{%
+ \pgfplotscoordmath{meta}{tostring}{\pgfplots@current@point@meta}%
+ \let\pgfplots@current@point@meta=\pgfmathresult
+ }{}%
+ %
+ \immediate\write\w@pgf@writea{%
+ \pgfplots@current@point@x\pgfplotsplothandlertofile@colsep
+ \pgfplots@current@point@y\pgfplotsplothandlertofile@colsep
+ \ifpgfplots@curplot@threedim\pgfplots@current@point@z\pgfplotsplothandlertofile@colsep\fi
+ \pgfplots@current@point@meta
+ }%
+ \advance\c@pgfplots@coordindex by1
+ \pgfplotsplothandlertofile@scanlinemarks@check
+}%
+\def\pgfplotsplothandlersurveyend@tofile{%
+ \immediate\closeout\w@pgf@writea
+}%
+\def\pgfplotsplothandlersurveystart@tofile{%
+ \immediate\openout\w@pgf@writea=\pgfplotsplothandlertofile@name\relax
+}%
+
+
+\input pgfplotsmeshplothandler.code.tex
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsstackedplots.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsstackedplots.code.tex
index 3c3e9dd7f6a..2276f571db9 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsstackedplots.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsstackedplots.code.tex
@@ -46,32 +46,29 @@
% 2. At the beginning and end of each plot, the lists in 1.) are
% initialised properly.
%
-% 3. While plot coordinates are processed, the following methods
+% 3.1 While plot coordinates are processed during the survey phase, the following methods
% interact with the stacked API:
% \pgfplots@stacked@preparepoint@inmacro
% -> compute the 'stacked' sum.
% This may need to be done with floating point arithmetics because
% the data scaling trafo is not yet initialised
+% \pgfplots@stacked@rememberzerolevelpoint@for@next@plot
+% \pgfplots@stacked@getnextzerolevelpoint
%
+%
+% 3.2 during the final visualization phase, we have
% \pgfplots@stacked@finishpoint
% -> takes coordinates as they will be given to Tikz. This method is
% used to
% - communicate zero level coordinates to Tikz
% - implement the 'closed paths' option (allows filled stacked plots).
%
-% \pgfplots@stacked@rememberzerolevelpoint@for@next@plot
-% \pgfplots@stacked@getnextzerolevelpoint
-%
% 4. Zero levels are communicated to Tikz by
% \pgfplots@stacked@initzerolevelhandler. This routine initialises an
% input stream for Tikz plot handlers which produces a sequence of
% zero levels. It is used by [xy]comb and [xy]bar.
%
%
-% REMARK:
-% the state of the boolean \ifpgfplots@datascaletrafo@initialised
-% determines whether these routines expect and return floating point
-% numbers or fixed point numbers.
\let\pgfplots@stacked@zerolevelpoint@x=\pgfutil@empty
\let\pgfplots@stacked@zerolevelpoint@y=\pgfutil@empty
@@ -114,29 +111,25 @@
\let\pgfplots@stacked@closedcycle@impl=\pgfutil@empty
\ifpgfplots@stacked@isfirstplot
\global\pgfplotslistnewempty\pgfplots@stacked@zerolevellist
- \def\pgfplots@stacked@zerolevelpoint@x{0}%
- \def\pgfplots@stacked@zerolevelpoint@y{0}%
- \def\pgfplots@stacked@zerolevelpoint@z{0}%
% only work with float if its really necessary - for
% example if the scaling trafo which maps to pgfmath is
% not yet initialised.
- \ifpgfplots@datascaletrafo@initialised
+ \ifpgfplots@datascaletrafo@initialised % FIXME : should be '!ifsurvey'
+ \def\pgfplots@stacked@zerolevelpoint@x{0}%
+ \def\pgfplots@stacked@zerolevelpoint@y{0}%
+ \def\pgfplots@stacked@zerolevelpoint@z{0}%
\else
- \ifpgfplots@xislinear
- \pgfmathfloatcreate{0}{0.0}{0}%
- \let\pgfplots@stacked@zerolevelpoint@x=\pgfmathresult
- \fi
- \ifpgfplots@yislinear
- \pgfmathfloatcreate{0}{0.0}{0}%
- \let\pgfplots@stacked@zerolevelpoint@y=\pgfmathresult
- \fi
- \ifpgfplots@threedim
- \ifpgfplots@zislinear
- \pgfmathfloatcreate{0}{0.0}{0}%
- \let\pgfplots@stacked@zerolevelpoint@z=\pgfmathresult
- \fi
- \fi
+ \pgfplotscoordmath{x}{parsenumber}{0}%
+ \let\pgfplots@stacked@zerolevelpoint@x=\pgfmathresult
+ \let\pgfplots@stacked@zerolevelpoint@y=\pgfmathresult
+ \let\pgfplots@stacked@zerolevelpoint@z=\pgfmathresult
+ %
+ \pgfmathfloatcreate{0}{0.0}{0}%
+ \ifpgfplots@xislinear\else \let\pgfplots@stacked@zerolevelpoint@x=\pgfmathresult \fi
+ \ifpgfplots@yislinear\else \let\pgfplots@stacked@zerolevelpoint@y=\pgfmathresult \fi
+ \ifpgfplots@zislinear\else \let\pgfplots@stacked@zerolevelpoint@z=\pgfmathresult \fi
\fi
+ %
\def\pgfplots@stacked@getnextzerolevelpoint{}% will remain constant anyway.
\else
{\globaldefs=1
@@ -259,26 +252,27 @@
% - \pgfplots@current@point@[xyz] are adjusted.
\def\pgfplots@stacked@preparepoint@inmacro{%
\pgfplots@stacked@getnextzerolevelpoint
+ %
\ifpgfplots@stacked@plus
- \let\pgfplots@stacked@op=\pgfmath@basic@add@
+ \def\pgfplots@stacked@op{add}%
\else
- \let\pgfplots@stacked@op=\pgfmath@basic@subtract@
+ \def\pgfplots@stacked@op{subtract}%
\fi
\pgfplots@if{pgfplots@\pgfplots@stacked@dir islinear}{%
- \ifpgfplots@datascaletrafo@initialised
- \else
- \ifpgfplots@stacked@plus
- \let\pgfplots@stacked@op=\pgfmathfloatadd@
- \else
- \let\pgfplots@stacked@op=\pgfmathfloatsubtract@
- \fi
- \fi
- }{}%
- \edef\pgfplots@loc@TMPa{
- \noexpand\pgfplots@stacked@op
- {\csname pgfplots@stacked@zerolevelpoint@\pgfplots@stacked@dir\endcsname}%
- {\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname}}%
- \pgfplots@loc@TMPa
+ \pgfplotscoordmath{\pgfplots@stacked@dir}{op}{\pgfplots@stacked@op}{%
+ {\csname pgfplots@stacked@zerolevelpoint@\pgfplots@stacked@dir\endcsname}%
+ {\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname}}%
+ }{%
+ % LOG. we need to compute log(zerolevel + current):
+ \pgfplotscoordmath{\pgfplots@stacked@dir}{exp}{\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname}%
+ \pgfmathfloatparsenumber\pgfmathresult
+ \expandafter\let\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname=\pgfmathresult
+ \csname pgfmathfloat\pgfplots@stacked@op @\endcsname
+ {\csname pgfplots@stacked@zerolevelpoint@\pgfplots@stacked@dir\endcsname}%
+ {\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname}%
+ }%
+ %
+ % for logs, I remember just zerolevel+current; not its log.
\expandafter\let\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname=\pgfmathresult
\ifpgfplots@threedim
\ifpgfplots@curplot@threedim
@@ -289,6 +283,12 @@
\else
\pgfplots@stacked@rememberzerolevelpoint@for@next@plot{(\pgfplots@current@point@x,\pgfplots@current@point@y)}%
\fi
+ %
+ \pgfplots@if{pgfplots@\pgfplots@stacked@dir islinear}{%
+ }{%
+ \pgfplotscoordmath{\pgfplots@stacked@dir}{log}{\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname}%
+ \expandafter\let\csname pgfplots@current@point@\pgfplots@stacked@dir\endcsname=\pgfmathresult
+ }%
}
% This here is a re-implementation of the stored plot processing.
@@ -469,16 +469,11 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\endgroup
%
- \ifpgfplots@apply@datatrafo
- \def\pgfplots@coord@stream@coord@{%
- \pgfplots@apply@data@scaletrafo@to@one@point%
- \pgfplots@coord@stream@finalize@currentpt
- }%
- \else
- \def\pgfplots@coord@stream@coord@{%
- \pgfplots@coord@stream@finalize@currentpt
- }%
- \fi
+ \def\pgfplots@coord@stream@coord@{%
+ \pgfplotsaxisvisphasetransformcoordinate\pgfplots@current@point@x\pgfplots@current@point@y\pgfplots@current@point@z%
+ \pgfplotsaxisvisphasepreparedatapoint
+ \pgfplots@coord@stream@finalize@currentpt
+ }%
}
% This command gets called after the sequence reversal has been done.
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
index 46367c7c43e..de218f8bcb9 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
@@ -149,7 +149,7 @@
\def\pgfplots@init@scaled@tick@for#1{%
\global\def\pgfplots@glob@TMPa{0}%
\begingroup
- \ifcase\csname pgfplots@scaled@ticks@#1@choice\endcsname
+ \ifcase\csname pgfplots@scaled@ticks@#1@choice\endcsname\relax
% CASE 0 : scaled #1 ticks=false: do nothing here.
\or
% CASE 1 : scaled #1 ticks=true:
@@ -213,9 +213,9 @@
% x-axis tick labels for #1th tick
% #1: the axis (x,y or z)
% #2: the value
-% #3,#4: coordinates for \pgfplotspointonorientedsurfaceab
+% #3,#4+#5: arguments for \pgfplotspointonorientedsurfaceabwithbshift
% #5: ticknumber
-\def\pgfplots@show@ticklabel#1#2(#3,#4)#5{%
+\def\pgfplots@show@ticklabel#1#2(#3,#4+#5)#6{%
\begingroup%
\csname ifpgfplots@#1ticklabel@interval\endcsname
% Special case for the INTERVAL feature:
@@ -240,18 +240,19 @@
\let\pgfplots@show@ticklabel@coord@y=\pgfmathresult%
\let\ticknum=\pgfplots@show@ticklabel@num\relax%
\let\tick=\pgfplots@show@ticklabel@tick%
- \pgfplots@show@ticklabel@@{#1}{\pgfplotspointonorientedsurfaceab{\pgfplots@show@ticklabel@coord@x}{\pgfplots@show@ticklabel@coord@y}}%
+ \pgfplots@show@ticklabel@@{#1}
+ {\pgfplotspointonorientedsurfaceabwithbshift{\pgfplots@show@ticklabel@coord@x}{\pgfplots@show@ticklabel@coord@y}{#5}}%
\fi
\xdef\pgfplots@show@ticklabel@LASTTICK{%
\noexpand\def\noexpand\pgfplots@show@ticklabel@tick{\nexttick}%
\noexpand\def\noexpand\pgfplots@show@ticklabel@coord@x{\pgfplots@show@ticklabel@coord@x@new}%
\noexpand\def\noexpand\pgfplots@show@ticklabel@coord@y{\pgfplots@show@ticklabel@coord@y@new}%
- \noexpand\edef\noexpand\pgfplots@show@ticklabel@num{#5}%
+ \noexpand\edef\noexpand\pgfplots@show@ticklabel@num{#6}%
}%
\else
- \let\ticknum=#5\relax%
+ \let\ticknum=#6\relax%
\pgfplots@show@ticklabel@{#1}{#2}%
- \pgfplots@show@ticklabel@@{#1}{\pgfplotspointonorientedsurfaceab{#3}{#4}}%
+ \pgfplots@show@ticklabel@@{#1}{\pgfplotspointonorientedsurfaceabwithbshift{#3}{#4}{#5}}%
\fi
\endgroup
}
@@ -469,7 +470,7 @@
% #2: tick value.
\def\pgfplots@show@ticklabel@#1#2{%
\csname ifpgfplots@apply@datatrafo@#1\endcsname
- \csname pgfplots@inverse@datascaletrafo@#1\endcsname{#2}%
+ \pgfplotscoordmath{#1}{datascaletrafo inverse}{#2}%
\ifcase\csname pgfplots@scaled@ticks@#1@choice\endcsname
\or
\expandafter\pgfmathfloatshift@\expandafter{\pgfmathresult}{\csname pgfplots@tick@scale@#1\endcsname}%
@@ -480,7 +481,12 @@
\or
% scaled #1 ticks=manual. Invoke manual tick scaling code:
\expandafter\let\expandafter\pgfplots@loc@TMPa\csname pgfplots@tick@scale@#1\endcsname
+ \begingroup
+ \pgfkeys{/pgf/fpu=true}%
\expandafter\pgfplots@loc@TMPa\expandafter{\pgfmathresult}%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+ \pgfmathfloatparsenumber\pgfmathresult%
\fi
% .. and this here provides \tick as fixed point repr:
\expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
@@ -590,10 +596,10 @@
}%
% Fills the macros
-% \pgfplots@tick@beg@a \pgfplots@tick@end@a
-% \pgfplots@tick@beg@b \pgfplots@tick@end@b
+% \pgfplots@tick@LOWER@b \pgfplots@tick@end@a
+% \pgfplots@tick@UPPER@b \pgfplots@tick@end@b
% with coordinates such that
-% (\pgfplots@tick@beg@a,\pgfplots@tmpa) -- (\pgfplots@tick@end@a,\pgfplots@tmpa)
+% (\pgfplots@tick@LOWER@b,\pgfplots@tmpa) -- (\pgfplots@tick@end@a,\pgfplots@tmpa)
% produces a correct tick line.
%
% The '@b' variant is only used in case of \pgfplots@ytickposnum = 0
@@ -602,56 +608,65 @@
% #2 : the current tick width
%
\def\pgfplots@prepare@tick@offsets@for@#1#2{%
+ %
% FIXME : this stuff was ok for 2D.
% For 3D, it works only for the cases of boxed axes or centered
% axis lines.
\ifcase\csname pgfplots@#1tickposnum\endcsname\relax
% both
%(\pgfplots@xcoordminTEX-\pgfplots@tick@offset, \pgfplots@tmpa) -- ++( #2, 0pt)
- \edef\pgfplots@tick@beg@a{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
- \pgfmathsubtract@{\pgfplots@tick@beg@a}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@a=\pgfmathresult
- \pgfmathadd@{\pgfplots@tick@beg@a}{#2}%
- \let\pgfplots@tick@end@a=\pgfmathresult
+ \edef\pgfplots@tick@LOWER@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
%
%(\pgfplots@xcoordmaxTEX+\pgfplots@tick@offset, \pgfplots@tmpa) -- ++(-#2, 0pt)
- \edef\pgfplots@tick@beg@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}%
- \pgfmathadd@{\pgfplots@tick@beg@b}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@b=\pgfmathresult
- \pgfmathsubtract@{\pgfplots@tick@beg@b}{#2}%
- \let\pgfplots@tick@end@b=\pgfmathresult%
+ \edef\pgfplots@tick@UPPER@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}%
\or
% left
% (\pgfplots@xcoordminTEX-\pgfplots@tick@offset, \pgfplots@tmpa) -- ++( #2, 0pt);
- \edef\pgfplots@tick@beg@a{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
- \pgfmathsubtract@{\pgfplots@tick@beg@a}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@a=\pgfmathresult
- \pgfmathadd@{\pgfplots@tick@beg@a}{#2}%
- \let\pgfplots@tick@end@a=\pgfmathresult
+ \edef\pgfplots@tick@LOWER@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
\or
% center
% (\pgfplots@ZERO@x -\pgfplots@tick@offset, \pgfplots@tmpa) -- ++( #2, 0pt);
- \pgfmathsubtract@{\csname pgfplots@logical@ZERO@\pgfplotspointonorientedsurfaceB \endcsname}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@a=\pgfmathresult
- \pgfmathadd@{\pgfplots@tick@beg@a}{#2}%
- \let\pgfplots@tick@end@a=\pgfmathresult%
+ \edef\pgfplots@tick@LOWER@b{\csname pgfplots@logical@ZERO@\pgfplotspointonorientedsurfaceB \endcsname}%
\or
% right
% (\pgfplots@xcoordmaxTEX+\pgfplots@tick@offset, \pgfplots@tmpa) -- ++(-#2, 0pt);
- \edef\pgfplots@tick@beg@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}%
- \pgfmathadd@{\pgfplots@tick@beg@b}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@b=\pgfmathresult
- \pgfmathsubtract@{\pgfplots@tick@beg@b}{#2}%
- \let\pgfplots@tick@end@b=\pgfmathresult%
+ \edef\pgfplots@tick@UPPER@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}%
\else
% FALL BACK. never used, I guess?
% (\pgfplots@xcoordminTEX-\pgfplots@tick@offset, \pgfplots@tmpa) -- ++( #2, 0pt);
- \edef\pgfplots@tick@beg@a{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
- \pgfmathsubtract@{\pgfplots@tick@beg@a}{\pgfplots@tick@offset}%
- \let\pgfplots@tick@beg@a=\pgfmathresult
- \pgfmathadd@{\pgfplots@tick@beg@a}{#2}%
- \let\pgfplots@tick@end@a=\pgfmathresult
+ \edef\pgfplots@tick@LOWER@b{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}%
\fi
+ %
+ \ifcase\csname pgfplots@#1tickalignnum\endcsname\relax
+ \def\pgfplots@tick@offset{0}%
+ \or
+ \edef\pgfplots@tick@offset{#2}%
+ \or
+ \pgfmathmultiply@{0.5}{#2}%
+ \let\pgfplots@tick@offset=\pgfmathresult%
+ \fi
+ %
+ \edef\pgfplots@tick@LOWER@shiftbeg{-\pgfplots@tick@offset}%
+ \pgfmathadd@{\pgfplots@tick@LOWER@shiftbeg}{#2}%
+ \let\pgfplots@tick@LOWER@shiftend=\pgfmathresult
+ %
+ \edef\pgfplots@tick@UPPER@shiftbeg{\pgfplots@tick@offset}%
+ \pgfmathsubtract@{\pgfplots@tick@UPPER@shiftbeg}{#2}%
+ \let\pgfplots@tick@UPPER@shiftend=\pgfmathresult
+ %
+ % Assemble the \pgfplots@drawticklines@for@placecomputedtick
+ % command.
+ \def\pgfplots@drawticklines@for@placecomputedtick{%
+ \if\pgfplots@drawticklines@for@placecomputedtick@LOWEROK1%
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceabwithbshift{\pgfplots@curtickpos}{\pgfplots@tick@LOWER@b}{\pgfplots@tick@LOWER@shiftbeg pt}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceabwithbshift{\pgfplots@curtickpos}{\pgfplots@tick@LOWER@b}{\pgfplots@tick@LOWER@shiftend pt}}%
+ \fi
+ \if\pgfplots@drawticklines@for@placecomputedtick@UPPEROK1%
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceabwithbshift{\pgfplots@curtickpos}{\pgfplots@tick@UPPER@b}{\pgfplots@tick@UPPER@shiftbeg pt}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceabwithbshift{\pgfplots@curtickpos}{\pgfplots@tick@UPPER@b}{\pgfplots@tick@UPPER@shiftend pt}}%
+ \fi
+ }%
+%\message{place computed tick: LOWEROK=\pgfplots@drawticklines@for@placecomputedtick@LOWEROK; UPPEROK=\pgfplots@drawticklines@for@placecomputedtick@UPPEROK.}%
}%
@@ -771,11 +786,17 @@
\def\pgfplots@scaled@ticks@z@choice{0}%
\csname pgfplots@#1minorticksfalse\endcsname
\csname pgfplots@#1minorgridsfalse\endcsname
+ \expandafter\let\expandafter\pgfplots@ticklabel@pos@orig\csname pgfplots@#1ticklabel@pos\endcsname%
\expandafter\let\expandafter\axis@TMP\csname pgfplots@extra@#1ticklabel\endcsname
\expandafter\let\csname pgfplots@#1ticklabel\endcsname=\axis@TMP
% \pgfplotsset{/pgfplots/every extra #1 tick}%
% use a scope here such that line width and draw color can be set.
\scope[/pgfplots/.cd,/pgfplots/every extra #1 tick]
+ \expandafter\let\expandafter\pgfplots@ticklabel@pos@\csname pgfplots@#1ticklabel@pos\endcsname
+ \ifx\pgfplots@ticklabel@pos@\pgfplots@ticklabel@pos@orig
+ \else
+ \pgfplots@init@ticklabelaxisspec
+ \fi
\pgfplots@prepare@tick@coordlists@for{#1}{#2}%
\pgfplots@drawgridlines@onorientedsurf%
\pgfplots@drawticklines@onorientedsurf%
@@ -789,8 +810,8 @@
% and
% \pgfplots@prepared@tick@positions@minor@x.
%
-% The major tick list contains tuples (canvas position,logical position)
-% while the minor tick list contains just the canvas position.
+% Both lists contain entries of the form {<index>}{<logical position>}
+% @see \pgfplots@prepared@tick@pos@unpack
%
% #1: the axis
% #2: the tick list.
@@ -814,16 +835,10 @@
% of \foreach statements. And, yes: I have also added a TeX group
% on my own (but that's not the problem).
\global\pgfplotslistnewempty\pgfplots@prepared@tick@positions@major
- \global\pgfplotslistnewempty\pgfplots@prepared@tick@positions@major@tickindices
+ %\global\pgfplotslistnewempty\pgfplots@prepared@tick@positions@major@tickindices
\global\pgfplotslistnewempty\pgfplots@prepared@tick@positions@minor
%
- \afterassignment\pgfplots@gobble@until@relax
- \pgfplots@tmpa=\pgfkeysvalueof{/pgfplots/#1tick placement tolerance}pt\relax
- \pgfplots@tmpa=\csname pgfplots@#1@inverseveclength\endcsname\pgfplots@tmpa
- \edef\pgfplots@loc@tick@placement@tolerance{\the\pgfplots@tmpa}%
- %
- \advance\csname pgfplots@#1min@reg\endcsname by-\pgfplots@tmpa
- \advance\csname pgfplots@#1max@reg\endcsname by\pgfplots@tmpa
+ \pgfplots@prepare@tick@coordlists@for@handletolerance#1%
%
\edef\pgfplots@loc@TMPa{#2}%
\ifx\pgfplots@loc@TMPa\pgfutil@empty
@@ -837,9 +852,15 @@
\pgfplots@needsminorloopfalse
\fi
\fi
+ \pgfkeysgetvalue{/pgfplots/minor #1tick}\pgfplots@minor@tick@list
+ \ifx\pgfplots@minor@tick@list\pgfutil@empty
+ \else
+ \pgfplots@needsminorloopfalse
+ \fi
+ %
\ifpgfplots@needsminorloop
\ifpgfplots@islinear
- \expandafter\let\expandafter\pgfplots@minor@tick@num\csname pgfplots@minor@#1tick@num\endcsname
+ \pgfkeysgetvalue{/pgfplots/minor #1 tick num}\pgfplots@minor@tick@num
\begingroup
\c@pgf@counta=\pgfplots@minor@tick@num\relax
\advance\c@pgf@counta by1\relax
@@ -860,18 +881,14 @@
\else
\expandafter\def\expandafter\pgfplots@checktickminmax\expandafter{%
\pgfplots@checktickminmax
- \ifdim\pgfplots@tmpa<\csname pgfplots@#1tickmin\endcsname pt
- \pgfplots@tickshowfalse
- \fi
+ \pgfplots@prepare@tick@coordlists@for@checktickmin#1%
}%
\fi
\expandafter\ifx\csname pgfplots@#1tickmax\endcsname\pgfutil@empty
\else
\expandafter\def\expandafter\pgfplots@checktickminmax\expandafter{%
\pgfplots@checktickminmax
- \ifdim\pgfplots@tmpa>\csname pgfplots@#1tickmax\endcsname pt
- \pgfplots@tickshowfalse
- \fi
+ \pgfplots@prepare@tick@coordlists@for@checktickmax#1%
}%
\fi
%
@@ -880,47 +897,39 @@
\foreach \x in {#2} {%
\let\pgfplots@ticknum=\pgfplots@glob@TMPa
%
- \pgfplots@tmpa=\x pt %
+ \pgfplots@prepare@tick@coordlists@for@assign\pgfplots@tmpa=\x
\csname pgfplots@#1tick@check@tickshow\endcsname
+ \pgfplots@prepare@tick@coordlists@for@checkdatalimits#1%
\pgfplots@checktickminmax
%
\ifpgfplots@tickshow
- \ifdim\pgfplots@tmpa<\csname pgfplots@#1min@reg\endcsname
- \else
- \ifdim\pgfplots@tmpa>\csname pgfplots@#1max@reg\endcsname
- \else
- \expandafter\pgfplotslistpushbackglobal\x\to\pgfplots@prepared@tick@positions@major
- \expandafter\pgfplotslistpushbackglobal\pgfplots@ticknum\to\pgfplots@prepared@tick@positions@major@tickindices
- \fi
- \fi
+ \edef\x{{\pgfplots@ticknum}{\x}}%
+ \expandafter\pgfplotslistpushbackglobal\x\to\pgfplots@prepared@tick@positions@major
+ %\expandafter\pgfplotslistpushbackglobal\pgfplots@ticknum\to\pgfplots@prepared@tick@positions@major@tickindices
\fi
% X-Axis ticks bottom and top
- % in log:
- % log( i*10^k ) = log\pgfplots@i + k\log10 -> draw ticks for i=1..9
\ifpgfplots@needsminorloop
+ % SEE BELOW for the 'minor #1tick' feature -- it has a
+ % separate loop.
\foreach \pgfplots@i in {1,...,\pgfplots@minor@tick@num} {%
- \begingroup
\ifpgfplots@islinear
- \pgfplots@tmpa=\pgfplots@minor@tick@dist pt %
- \pgfplots@tmpa=\pgfplots@i\pgfplots@tmpa
+ \pgfmathmultiply@{\pgfplots@i}{\pgfplots@minor@tick@dist}%
\else
- \pgfplots@tmpa=\csname pgfplotsmathlogi@#1\endcsname\pgfplots@i pt %
+ % in log:
+ % log( i*10^k ) = log\pgfplots@i + k\log10 -> draw ticks for i=1..9
+ \pgfplotscoordmath{#1}{log unsigned int}{\pgfplots@i}%
+ \pgfplotscoordmath{#1}{tofixed}{\pgfmathresult}%
\fi
- \edef\pgfmathresult{\the\pgfplots@tmpa}%
- \pgfmath@smuggleone\pgfmathresult
- \endgroup
- \advance\pgfplots@tmpa by\pgfmathresult\relax
+ \pgfplots@prepare@tick@coordlists@for@advance\pgfplots@tmpa by\pgfmathresult
\pgfplots@tickshowtrue
+ \pgfplots@prepare@tick@coordlists@for@checkdatalimits#1%
\pgfplots@checktickminmax
\ifpgfplots@tickshow
- \ifdim\pgfplots@tmpa<\csname pgfplots@#1min@reg\endcsname
- \else
- \ifdim\pgfplots@tmpa>\csname pgfplots@#1max@reg\endcsname
- \else
- \edef\pgfmathresult{\pgf@sys@tonumber{\pgfplots@tmpa}}%
- \expandafter\pgfplotslistpushbackglobal\pgfmathresult\to\pgfplots@prepared@tick@positions@minor
- \fi
- \fi
+ \pgfplots@prepare@tick@coordlists@for@tofixed\pgfplots@tmpa
+ \c@pgf@counta=\pgfplots@ticknum\relax
+ \advance\c@pgf@counta by\pgfplots@i\relax
+ \edef\x{{\the\c@pgf@counta}{\pgfmathresult}}%
+ \expandafter\pgfplotslistpushbackglobal\x\to\pgfplots@prepared@tick@positions@minor
\fi
}%
\fi
@@ -928,16 +937,99 @@
% carry \ticknum outside of this scope:
\global\let\pgfplots@glob@TMPa=\pgfplots@ticknum
}%
+ %
+ \ifx\pgfplots@minor@tick@list\pgfutil@empty
+ \else
+ % handle the 'minor #1tick' feature:
+ \def\pgfplots@loc@TMPa{\foreach \x in }%
+ \expandafter\pgfplots@loc@TMPa\expandafter{\pgfplots@minor@tick@list} {%
+ \let\pgfplots@ticknum=\pgfplots@glob@TMPa
+ %
+ \pgfplots@prepare@tick@coordlists@for@assign\pgfplots@tmpa=\x
+ \pgfplots@tickshowtrue
+ \pgfplots@prepare@tick@coordlists@for@checkdatalimits#1%
+ \pgfplots@checktickminmax
+ \ifpgfplots@tickshow
+ \edef\x{{\pgfplots@ticknum}{\x}}%
+ \expandafter\pgfplotslistpushbackglobal\x\to\pgfplots@prepared@tick@positions@minor
+ \fi
+ \pgfplotsutil@advancestringcounter\pgfplots@ticknum
+ % carry \ticknum outside of this scope:
+ \global\let\pgfplots@glob@TMPa=\pgfplots@ticknum
+ }%
+ \fi
\fi
\endgroup
\expandafter\let\csname pgfplots@prepared@tick@positions@minor@#1\endcsname=\pgfplots@prepared@tick@positions@minor
\expandafter\let\csname pgfplots@prepared@tick@positions@major@#1\endcsname=\pgfplots@prepared@tick@positions@major
- \expandafter\let\csname pgfplots@prepared@tick@positions@major@tickindices@#1\endcsname=\pgfplots@prepared@tick@positions@major@tickindices
+ %\expandafter\let\csname pgfplots@prepared@tick@positions@major@tickindices@#1\endcsname=\pgfplots@prepared@tick@positions@major@tickindices
\global\let\pgfplots@prepared@tick@positions@major=\relax
- \global\let\pgfplots@prepared@tick@positions@major@tickindices=\relax
+ %\global\let\pgfplots@prepared@tick@positions@major@tickindices=\relax
\global\let\pgfplots@prepared@tick@positions@minor=\relax
}%
+% The following set of macros can be used to replace the TeX register
+% arithmetics used to speed up the computations inside of
+% \pgfplots@prepare@tick@coordlists@for by something different.
+%
+% FIXME : that is no clean programming! Perhaps a new math class
+% should be used here, and implemented during the complete tick
+% preparation!?
+%
+% Keep in mind that these tick positions are in "transformed
+% range", i.e. they are expected to be in the range -16000...16000. At
+% the time of this modification, only the smithchart lib needs special
+% handling here... does this justify a re-design?
+\def\pgfplots@prepare@tick@coordlists@for@assign#1=#2{%
+ #1=#2pt
+}%
+\def\pgfplots@prepare@tick@coordlists@for@advance#1by#2{%
+ \advance#1 by#2 pt %
+}%
+\def\pgfplots@prepare@tick@coordlists@for@tofixed#1{%
+ \edef\pgfmathresult{\pgf@sys@tonumber{#1}}%
+}%
+\def\pgfplots@prepare@tick@coordlists@for@handletolerance#1{%
+ \afterassignment\pgfplots@gobble@until@relax
+ \pgfplots@tmpa=\pgfkeysvalueof{/pgfplots/#1tick placement tolerance}pt\relax
+ \pgfplots@tmpa=\csname pgfplots@#1@inverseveclength\endcsname\pgfplots@tmpa
+ \edef\pgfplots@loc@tick@placement@tolerance{\the\pgfplots@tmpa}%
+ %
+ \advance\csname pgfplots@#1min@reg\endcsname by-\pgfplots@tmpa
+ \advance\csname pgfplots@#1max@reg\endcsname by\pgfplots@tmpa
+}%
+\def\pgfplots@prepare@tick@coordlists@for@checktickmin#1{%
+ \ifdim\pgfplots@tmpa<\csname pgfplots@#1tickmin\endcsname pt
+ \pgfplots@tickshowfalse
+ \fi
+}%
+\def\pgfplots@prepare@tick@coordlists@for@checktickmax#1{%
+ \ifdim\pgfplots@tmpa>\csname pgfplots@#1tickmax\endcsname pt
+ \pgfplots@tickshowfalse
+ \fi
+}%
+\def\pgfplots@prepare@tick@coordlists@for@checkdatalimits#1{%
+ \ifdim\pgfplots@tmpa<\csname pgfplots@#1min@reg\endcsname
+ \pgfplots@tickshowfalse
+ \else
+ \ifdim\pgfplots@tmpa>\csname pgfplots@#1max@reg\endcsname
+ \pgfplots@tickshowfalse
+ \fi
+ \fi
+}%
+
+% Unpacks entries of the \pgfplots@prepared@tick@positions@* lists.
+%
+% Defines \pgfplots@tick to be the actual tick position and
+% \pgfplots@ticknum to be its index.
+%
+% Usage:
+% \expandafter\pgfplots@prepared@tick@pos@unpack\entry
+\def\pgfplots@prepared@tick@pos@unpack#1#2{%
+ \def\pgfplots@tick{#2}%
+ \def\pgfplots@ticknum{#1}%
+}
+
% Draws grid lines at the a-positions of the currently set oriented
% surface.
%
@@ -965,7 +1057,7 @@
\pgfplots@if{pgfplots@#1minorgrids}{\pgfplots@loop@CONTINUEtrue}{}%
\ifpgfplots@loop@CONTINUE
\scope
- \pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf#1
+ \pgfplots@drawgridlines@INSTALLCLIP@onorientedsurf#1%
%
\pgfplots@if{pgfplots@#1minorgrids}{%
\draw[%
@@ -975,8 +1067,8 @@
/pgfplots/every minor #1 grid]%
\pgfextra
\pgfplotslistforeach\pgfplots@prepared@tick@positions@minor@\as\pgfplots@curgridpos{%
- \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\pgfplots@curgridpos}{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\pgfplots@curgridpos}{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}}%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\pgfplots@curgridpos
+ \pgfplots@drawgridlines@onorientedsurf@fromto\pgfplots@tick
}%
\endpgfextra;
}{}%
@@ -989,8 +1081,8 @@
/pgfplots/every major #1 grid]%
\pgfextra
\pgfplotslistforeach\pgfplots@prepared@tick@positions@major@\as\pgfplots@curgridpos{%
- \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\pgfplots@curgridpos}{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\pgfplots@curgridpos}{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}}%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\pgfplots@curgridpos
+ \pgfplots@drawgridlines@onorientedsurf@fromto\pgfplots@tick
}%
\endpgfextra;
}{}%
@@ -1002,6 +1094,16 @@
}%
}
+% Should draw a single grid line on the actual oriented surface.
+% #1 the value of the grid line.
+%
+% PRECONDITION
+% \pgfplots@ticknum contains the index of the current tick.
+\def\pgfplots@drawgridlines@onorientedsurf@fromto#1{%
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{#1}{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceab{#1}{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}}%
+}%
+
% Draws ticks on the currently active "oriented surface".
%
% The oriented surface is two dimensional and has been initialised
@@ -1040,26 +1142,27 @@
\expandafter\pgfplots@drawticklines@onorientedsurf@\pgfplotspointonorientedsurfaceA
}%
+\def\pgfplots@drawticklines@INSTALLCLIP@onorientedsurf#1{%
+ \pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf{#1}%
+}%
+\def\pgfplots@drawgridlines@INSTALLCLIP@onorientedsurf#1{%
+ \pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf{#1}%
+}%
% Avoids tick lines which are too thick by introducing a clipping
% region. Tick lines (and grid lines) won't extend to the left or
% right of axis #1.
\def\pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf#1{%
\pgfinterruptboundingbox%
\begingroup
- \pgf@xa=5cm
- \edef\pgfplots@loc@TMPc{\pgf@sys@tonumber{\pgf@xa}}%
% the case ||e_b|| == 0 should never happen here! Should be
% caught before entering this routine.
- \pgfmathmultiply@{\pgfplots@loc@TMPc}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
\let\pgfplots@loc@LENGTH=\pgfmathresult
- \pgfmathsubtract@{\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname}{\pgfplots@loc@LENGTH}%
- \let\pgfplots@loc@MIN=\pgfmathresult
- \pgfmathadd@{\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname}{\pgfplots@loc@LENGTH}%
- \let\pgfplots@loc@MAX=\pgfmathresult
- \pgfpathmoveto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1min\endcsname}{\pgfplots@loc@MIN}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1max\endcsname}{\pgfplots@loc@MIN}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1max\endcsname}{\pgfplots@loc@MAX}}%
- \pgfpathlineto{\pgfplotspointonorientedsurfaceab{\csname pgfplots@#1min\endcsname}{\pgfplots@loc@MAX}}%
+ \expandafter\let\expandafter\pgfplots@loc@MIN\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname
+ \expandafter\let\expandafter\pgfplots@loc@MAX\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname
+ \pgfpathmoveto{\pgfplotspointonorientedsurfaceabwithbshift{\csname pgfplots@#1min\endcsname}{\pgfplots@loc@MIN}{-5cm}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceabwithbshift{\csname pgfplots@#1max\endcsname}{\pgfplots@loc@MIN}{-5cm}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceabwithbshift{\csname pgfplots@#1max\endcsname}{\pgfplots@loc@MAX}{5cm}}%
+ \pgfpathlineto{\pgfplotspointonorientedsurfaceabwithbshift{\csname pgfplots@#1min\endcsname}{\pgfplots@loc@MAX}{5cm}}%
\pgfusepath{clip}%
\endgroup
\endpgfinterruptboundingbox%
@@ -1112,24 +1215,9 @@
% never used?
\def\pgfplots@drawticklines@for@placecomputedtick@UPPEROK{0}%
\fi
- \begingroup
- % Assemble the \pgfplots@drawticklines@for@placecomputedtick
- % command.
- \let\E=\noexpand
- \xdef\pgfplots@drawticklines@for@placecomputedtick{%
- \if\pgfplots@drawticklines@for@placecomputedtick@LOWEROK1%
- \E\pgfpathmoveto{\E\pgfplotspointonorientedsurfaceab{\E\pgfplots@curtickpos}{\E\pgfplots@tick@beg@a}}%
- \E\pgfpathlineto{\E\pgfplotspointonorientedsurfaceab{\E\pgfplots@curtickpos}{\E\pgfplots@tick@end@a}}%
- \fi
- \if\pgfplots@drawticklines@for@placecomputedtick@UPPEROK1%
- \E\pgfpathmoveto{\E\pgfplotspointonorientedsurfaceab{\E\pgfplots@curtickpos}{\E\pgfplots@tick@beg@b}}%
- \E\pgfpathlineto{\E\pgfplotspointonorientedsurfaceab{\E\pgfplots@curtickpos}{\E\pgfplots@tick@end@b}}%
- \fi
- }%
- \endgroup
\expandafter\let\expandafter\pgfplots@prepared@tick@positions@major@\csname pgfplots@prepared@tick@positions@major@#1\endcsname
\expandafter\let\expandafter\pgfplots@prepared@tick@positions@minor@\csname pgfplots@prepared@tick@positions@minor@#1\endcsname
- \pgfplots@drawtickgridlines@INSTALLCLIP@onorientedsurf#1
+ \pgfplots@drawticklines@INSTALLCLIP@onorientedsurf#1
%
\pgfplots@if{pgfplots@#1minorticks}{%
\draw[%
@@ -1140,19 +1228,13 @@
\pgfextra
\pgfmathparse{\pgfplots@subtickwidth}%
\let\pgfplots@subtickwidth@=\pgfmathresult
- \pgfmathmultiply@{\pgfplots@subtickwidth@}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
\let\pgfplots@subtickwidth@=\pgfmathresult
\let\pgfplots@subtickwidth=\pgfmathresult
- \ifcase\csname pgfplots@#1tickalignnum\endcsname\relax
- \def\pgfplots@tick@offset{0}%
- \or
- \let\pgfplots@tick@offset=\pgfplots@subtickwidth@%
- \or
- \pgfmathmultiply@{0.5}{\pgfplots@subtickwidth@}%
- \let\pgfplots@tick@offset=\pgfmathresult%
- \fi
\pgfplots@prepare@tick@offsets@for@{#1}{\pgfplots@subtickwidth@}%
\pgfplotslistforeach\pgfplots@prepared@tick@positions@minor@\as\pgfplots@curtickpos{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\pgfplots@curtickpos
+ \let\pgfplots@curtickpos=\pgfplots@tick
+ \pgfplotspointouternormalvectorofaxissetv{}{\pgfplots@curtickpos}%
\pgfplots@drawticklines@for@placecomputedtick
}%
\endpgfextra;
@@ -1167,19 +1249,13 @@
\pgfextra
\pgfmathparse{\pgfplots@tickwidth}%
\let\pgfplots@tickwidth@=\pgfmathresult
- \pgfmathmultiply@{\pgfplots@tickwidth@}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
\let\pgfplots@tickwidth@=\pgfmathresult
\let\pgfplots@tickwidth=\pgfmathresult
- \ifcase\csname pgfplots@#1tickalignnum\endcsname\relax
- \def\pgfplots@tick@offset{0}%
- \or
- \let\pgfplots@tick@offset=\pgfplots@tickwidth@%
- \or
- \pgfmathmultiply@{0.5}{\pgfplots@tickwidth@}%
- \let\pgfplots@tick@offset=\pgfmathresult%
- \fi
\pgfplots@prepare@tick@offsets@for@{#1}{\pgfplots@tickwidth@}%
\pgfplotslistforeach\pgfplots@prepared@tick@positions@major@\as\pgfplots@curtickpos{%
+ \expandafter\pgfplots@prepared@tick@pos@unpack\pgfplots@curtickpos
+ \let\pgfplots@curtickpos=\pgfplots@tick
+ \pgfplotspointouternormalvectorofaxissetv{}{\pgfplots@curtickpos}%
\pgfplots@drawticklines@for@placecomputedtick
}%
\endpgfextra;
@@ -1263,7 +1339,7 @@
\fi
\let\pgfplots@tick@offset=\pgfmathresult
\pgfplots@ticklabel@maxtickdimen@extrashift{#1}{\pgfplots@tick@offset}%
- \pgfmathmultiply@{\pgfplots@tick@offset}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
+ %\pgfmathmultiply@{\pgfplots@tick@offset}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
\let\pgfplots@tick@offset=\pgfmathresult
}%
%
@@ -1277,38 +1353,50 @@
\pgfmathmultiply{-1}{\pgfplots@tick@offset}%
\let\pgfplots@tick@offset=\pgfmathresult
\fi
- \pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ \edef\pgfplots@tick@offset{-\pgfplots@tick@offset}%
+ %\pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
\else
\if0\pgfplots@ticklabelside
\expandafter\let\expandafter\pgfplots@tick@origin\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname%
\pgfplots@tickposchoiceb
- \pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ %\pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ \edef\pgfplots@tick@offset{-\pgfplots@tick@offset}%
\else
\if1\pgfplots@ticklabelside
\expandafter\let\expandafter\pgfplots@tick@origin\csname pgfplots@\pgfplotspointonorientedsurfaceB max\endcsname%
\pgfplots@tickposchoicea
- \pgfmathadd@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ %\pgfmathadd@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
\else
- % Should never happen.
- \pgfplots@error{Internal logic error during tick label placement (got placement character '\pgfplots@ticklabelside').
- Please report this as a bug or verify your input arguments to #1ticklabel pos.}%
- \expandafter\let\expandafter\pgfplots@tick@origin\csname pgfplots@\pgfplotspointonorientedsurfaceB min\endcsname%
+ \expandafter\let\expandafter\pgfplots@tick@origin\csname pgfplots@logical@ZERO@\pgfplotspointonorientedsurfaceB\endcsname%
+ % FIXME : is that correct!?
\pgfplots@tickposchoiceb
- \pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ %\pgfmathsubtract@{\pgfplots@tick@origin}{\pgfplots@tick@offset}%
+ %\edef\pgfplots@tick@offset{-\pgfplots@tick@offset}%
+ %
+ \if2\pgfplots@ticklabelside
+ \else
+ % Should never happen.
+ \pgfplots@error{Internal logic error during tick label placement (got placement character '\pgfplots@ticklabelside').
+ Please report this as a bug or verify your input arguments to #1ticklabel pos.}%
+ \fi
\fi
\fi
\fi
+ %\let\pgfplots@tick@origin=\pgfmathresult%
+ \edef\pgfplots@tick@offset{\pgfplots@tick@offset pt}%
%
% make sure the \pgfmathlogtologten method works even for
% non-standard 'log basis #1':
- \expandafter\let\expandafter\pgfmathlogtologten@\csname pgfplotsmathlogtologten@#1@\endcsname
+ \def\pgfmathlogtologten@{\pgfplotscoordmath{#1}{log to log 10}}%
%
- \let\pgfplots@tick@origin=\pgfmathresult%
\xdef\pgfplots@show@ticklabel@LASTTICK{}%
\pgfplotslistforeachungrouped\pgfplots@prepared@tick@positions@major@\as\pgfplots@curtickpos{%
- \expandafter\pgfplotslistpopfront\csname pgfplots@prepared@tick@positions@major@tickindices@#1\endcsname\to\pgfplots@ticknum
+ \expandafter\pgfplots@prepared@tick@pos@unpack\pgfplots@curtickpos
+ \let\pgfplots@curtickpos=\pgfplots@tick
+ %\expandafter\pgfplotslistpopfront\csname pgfplots@prepared@tick@positions@major@tickindices@#1\endcsname\to\pgfplots@ticknum
+ \pgfplotspointouternormalvectorofaxissetv{}{\pgfplots@curtickpos}%
\pgfplots@show@ticklabel
- {#1}{\pgfplots@curtickpos}(\pgfplots@curtickpos,\pgfplots@tick@origin)%
+ {#1}{\pgfplots@curtickpos}(\pgfplots@curtickpos,\pgfplots@tick@origin+\pgfplots@tick@offset)%
{\pgfplots@ticknum}%
}%
\pgfplots@ticklabel@maxtickdimen@finish{#1}%
@@ -1394,9 +1482,21 @@
\let\pgfplots@loc@TMPc=\pgfmathresult
\ifx\pgfplots@loc@TMPc\pgfutil@empty
\else
- \pgftransformshift{%
- \pgfplotspointouternormalvectorofticklabelaxis{#1}%
- \pgfqpointscale{-\pgfplots@loc@TMPc}{}%
+ \pgfplotspointouternormalvectorofaxis@ifdependson@v{\pgfplotsticklabelaxisspec{#1}}{%
+ \tikzset{every node/.append code={%
+ \tikz@addtransform{%
+ \pgftransformshift{%
+ \pgfplotspointouternormalvectorofticklabelaxis{#1}%
+ \pgfqpointscale{-\pgfplots@loc@TMPc}{}%
+ }%
+ }%
+ }%
+ }%
+ }{%
+ \pgftransformshift{%
+ \pgfplotspointouternormalvectorofticklabelaxis{#1}%
+ \pgfqpointscale{-\pgfplots@loc@TMPc}{}%
+ }%
}%
\fi
%
@@ -1520,7 +1620,8 @@
\def\pgfplots@compute@tick@times@logten#1\to#2#3{%
\global\let#2=\pgfutil@empty
\foreach \pgfplots@loc@TMPb in {#1} {%
- \pgfmathmultiply@{\pgfplots@loc@TMPb}{\csname pgfplots@log@scale@todisplaylog@#3\endcsname}%
+ \pgfplotscoordmath{#3}{log to display log}{\pgfplots@loc@TMPb}%
+ \pgfplotscoordmath{#3}{tofixed}{\pgfmathresult}%
\ifx#2\pgfutil@empty
\xdef#2{\pgfmathresult}%
\else
@@ -1611,8 +1712,6 @@
% Shortcut-names:
\expandafter\let\expandafter\ifpgfplots@is@datascaled\csname ifpgfplots@apply@datatrafo@#1\endcsname
% Attention here: use UNSHIFTET scalings, see remark above
- \expandafter\let\expandafter\pgfplots@data@scale@trafo\csname pgfplots@datascaletrafo@#1@noshift\endcsname
- \expandafter\let\expandafter\pgfplots@data@scale@inverse@trafo\csname pgfplots@inverse@datascaletrafo@#1@noshift\endcsname
\expandafter\let\expandafter\ifpgfplots@cur@is@linear\csname ifpgfplots@#1islinear\endcsname
%
\let\desirednumticks=\c@pgf@countd
@@ -1639,6 +1738,18 @@
\expandafter\let\csname pgfplots@#1tick\endcsname=\pgfplots@glob@TMPa
\fi
\fi
+ \ifpgfplots@cur@is@linear
+ \else
+ \pgfplotscoordmath{#1}{parsenumber}{1}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{#1}{log from display log}{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@loc@log@from@display@log@scale=\pgfmathresult
+ %
+ \pgfplotscoordmath{#1}{log to display log}{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#1}{tofixed}{\pgfmathresult}%
+ \let\pgfplots@loc@log@to@display@log@scale=\pgfmathresult
+ \fi
%
\expandafter\ifx\csname pgfplots@#1tick\endcsname\pgfutil@empty
% Ok, we have either log or linear axis and need default
@@ -1648,12 +1759,13 @@
\let\MAX=\pgf@ya
\let\MIN=\pgf@yb
% compute step size 'H':
- \expandafter\MAX\csname pgfplots@#1max\endcsname pt %
+ \MAX=\csname pgfplots@#1max\endcsname pt %
\advance\MAX by0.001pt % avoid round errors
%\expandafter\MIN\the\c@pgf@counta pt
- \expandafter\MIN\csname pgfplots@#1min\endcsname pt %
+ \MIN=\csname pgfplots@#1min\endcsname pt %
\H=\MAX
\advance\H by-\MIN
+ \ifdim\H<0pt \H=-1\H \fi
%\message{Axis limit #1: [\the\MIN:\the\MAX], diff = \the\H.}%
\c@pgf@counta=\desirednumticks
\advance\c@pgf@counta by-1 %
@@ -1666,40 +1778,18 @@
% CASE LINEAR AXIS
\ifpgfplots@is@datascaled
% This here works if the scaling trafo is linear.
- \expandafter\pgfplots@data@scale@inverse@trafo\expandafter{\Hmacro}%
+ \pgfplotscoordmath{#1}{datascaletrafo noshift inverse}{\Hmacro}%
\let\Hmacro=\pgfmathresult
\else
\pgfmathfloatparsenumber{\Hmacro}%
\let\Hmacro=\pgfmathresult
\fi
- \expandafter\pgfmathfloat@decompose\pgfmathresult\relax\pgfmathfloat@a@S\H\pgfmathfloat@a@E
%\message{Got T^{-1}(H#1) = \Hmacro}%
- % modify the mantisse:
- \ifdim\H<2pt
- \ifdim\H<1.5pt
- \H=1.0pt
- \else
- \H=2.0pt
- \fi
- \else
- \ifdim\H<4.9999pt
- \ifdim\H<3.5pt
- \H=2.0pt\relax
- \else
- \H=5.0pt\relax
- \fi
- \else
- \ifdim\H<7.5pt
- \H=5.0pt\relax
- \else
- \H=1.0pt\relax
- \advance\pgfmathfloat@a@E by1
- \fi
- \fi
- \fi
- \aftergroup\pgfplots@isuniformticktrue
- \pgfmathfloatcreate{\the\pgfmathfloat@a@S}{\pgf@sys@tonumber{\H}}{\the\pgfmathfloat@a@E}%
+ %
+ \pgfplots@assign@default@tick@foraxis@normalizetickdist#1\Hmacro
\let\Hmacro=\pgfmathresult
+ %
+ \aftergroup\pgfplots@isuniformticktrue
% The following code is carried out in floating point
% arithmetics because it requires large data ranges.
%
@@ -1719,9 +1809,9 @@
% Now, convert everything into the fixed point data
% range:
\ifpgfplots@is@datascaled
- \csname pgfplots@datascaletrafo@#1\endcsname{\MIN@new}%
+ \pgfplotscoordmath{#1}{datascaletrafo}{\MIN@new}%
\MIN=\pgfmathresult pt
- \pgfplots@data@scale@trafo\Hmacro
+ \pgfplotscoordmath{#1}{datascaletrafo noshift}{\Hmacro}%
\H=\pgfmathresult pt
\else
\pgfmathfloattofixed\MIN@new
@@ -1742,7 +1832,7 @@
%
% And prefer j=1 if that is possible (otherwise minor
% ticks are not useful).
- \pgfmathmultiply@{\Hmacro}{\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname}%
+ \pgfmath@basic@multiply@{\Hmacro}{\pgfplots@loc@log@from@display@log@scale}%
\let\Hmacrobaseten=\pgfmathresult
\expandafter\H\pgfmathresult pt
%\message{ [ H / log(10) = \pgfmathresult ]}%
@@ -1764,7 +1854,7 @@
\pgfplots@isuniformtickfalse
\fi
%\message{final H=\pgf@sys@tonumber{\H} * log(10)}%
- \H=\csname pgfplots@log@scale@todisplaylog@#1\endcsname\H\relax
+ \H=\pgfplots@loc@log@to@display@log@scale\H
% Now, we want to activate the Tick set
% {lowest, lowest+H, ..., highest}
%
@@ -1777,14 +1867,14 @@
\MINH=\MIN
%
% and compute I and I*log(10) here:
- \MIN=\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname\MIN\relax
+ \MIN=\pgfplots@loc@log@from@display@log@scale \MIN
\edef\pgfmathresult{\pgf@sys@tonumber{\MIN}}%
\pgfmathsetcount{\c@pgf@counta}{\pgfmathresult}%
\ifdim\MIN<0pt
% the truncation rounds TOWARDS 0 which is not what I want.
\advance\c@pgf@counta by-1
\fi
- \MIN=\csname pgfplots@log@scale@todisplaylog@#1\endcsname pt
+ \MIN=\pgfplots@loc@log@to@display@log@scale pt
\multiply\MIN by\c@pgf@counta
\ifpgfplots@isuniformtick
\else
@@ -1814,7 +1904,7 @@
\advance\MINH by-\H
%
\ifdim\MINH<0pt
- \advance\MIN \csname pgfplots@log@scale@todisplaylog@#1\endcsname pt
+ \advance\MIN \pgfplots@loc@log@to@display@log@scale pt
\fi
\fi
\fi
@@ -1846,6 +1936,7 @@
\expandafter\global\expandafter\let\expandafter\pgfplots@glob@TMPb\csname pgfplots@tick@distance@#1\endcsname
\endgroup
}{%
+ % Case logarithmic axes and too few ticks.
\aftergroup\pgfplots@isuniformtickfalse
% ok, do something special.
%
@@ -1855,10 +1946,11 @@
% So: apply basically the SAME code as above for linear
% axis, just everything log 10! And keep in mind that all
% coordinates are actually given as natural logarithms.
- \expandafter\MIN\csname pgfplots@#1min\endcsname pt
+ \MIN\csname pgfplots@#1min\endcsname pt
\H=\MAX
\advance\H by-\MIN
- \H=\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname\H
+ \ifdim\H<0pt \H=-1\H \fi
+ \H=\pgfplots@loc@log@from@display@log@scale \H
%\message{Axis limit #1: [\the\MIN:\the\MAX], diff/log(10) = \the\H.}%
\c@pgf@counta=\desirednumticks\relax
\advance\c@pgf@counta by-1
@@ -1873,31 +1965,8 @@
% SEARCH for the NEXT FEASABLE H.
\edef\Hmacro{\pgf@sys@tonumber\H}%
\pgfmathfloatparsenumber{\Hmacro}%
- \expandafter\pgfmathfloat@decompose\pgfmathresult\relax\pgfmathfloat@a@S\H\pgfmathfloat@a@E
- % Determine properly snapped mantisse...
- \ifdim\H<2pt
- \ifdim\H<1.5pt
- \H=1.0pt
- \else
- \H=2.0pt
- \fi
- \else
- \ifdim\H<4.9999pt
- \ifdim\H<3.5pt
- \H=2.0pt\relax
- \else
- \H=5.0pt\relax
- \fi
- \else
- \ifdim\H<7.5pt
- \H=5.0pt\relax
- \else
- \H=1.0pt\relax
- \advance\pgfmathfloat@a@E by1
- \fi
- \fi
- \fi
- \pgfmathfloatcreate{\the\pgfmathfloat@a@S}{\pgf@sys@tonumber{\H}}{\the\pgfmathfloat@a@E}%
+ \pgfplots@assign@default@tick@foraxis@normalizetickdist#1\pgfmathresult
+ %
\expandafter\pgfmathfloattofixed\expandafter{\pgfmathresult}%
\let\Hmacro=\pgfmathresult
\H=\Hmacro pt %
@@ -1909,7 +1978,7 @@
% -> I = round(xmin/H)
% -> MIN = I * H
% BUT EVERYTHING to log(10) basis!
- \MIN=\csname pgfplots@log@scale@todisplaylog@#1@inv\endcsname \MIN\relax
+ \MIN=\pgfplots@loc@log@from@display@log@scale \MIN
\pgfmathlog@invoke@expanded\pgfmathdivide@{%
{\pgf@sys@tonumber\MIN}%
{\Hmacro}%
@@ -1923,8 +1992,8 @@
\multiply\MIN by\c@pgf@counta\relax
%
% convert back to basis 'e':
- \MIN=\csname pgfplots@log@scale@todisplaylog@#1\endcsname\MIN\relax
- \H=\csname pgfplots@log@scale@todisplaylog@#1\endcsname\H\relax
+ \MIN=\pgfplots@loc@log@to@display@log@scale\MIN\relax
+ \H=\pgfplots@loc@log@to@display@log@scale\H\relax
\MINH=\MIN\relax
\advance\MINH by\H\relax
}%
@@ -1947,16 +2016,69 @@
%\message{pgfplots.sty: #1tick set to \csname pgfplots@#1tick\endcsname [#1min=\csname pgfplots@#1min\endcsname, #1max=\csname pgfplots@#1max\endcsname].}%
}
+% Takes the distance between adjacent ticks as floating point number
+% and returns a normalized tick distance.
+%
+%
+% The idea is to get "nice" (human readable) distances instead of
+% strange fractions or real numbers.
+%
+% The result will be assigned to \pgfmathresult (in float).
+%
+% #1 the axis (x or y or z)
+% #2 the unnormalized tick distance computed so far
+%
+% Example:
+% \pgfmathfloatparsenumber{x}{1234}
+% \pgfplots@assign@default@tick@foraxis@normalizetickdist\pgfmathresult
+% \pgfmathfloatotfixed\pgfmathresult
+% -->
+%
+% \pgfmathresult={1200}
+% or something like that.
+\def\pgfplots@assign@default@tick@foraxis@normalizetickdist#1#2{%
+ \begingroup
+ \let\H=\pgf@xb
+ \expandafter\pgfmathfloat@decompose#2\relax\pgfmathfloat@a@S\H\pgfmathfloat@a@E
+ % modify the mantisse:
+ \ifdim\H<2pt
+ \ifdim\H<1.5pt
+ \H=1.0pt
+ \else
+ \H=2.0pt
+ \fi
+ \else
+ \ifdim\H<4.9999pt
+ \ifdim\H<3.5pt
+ \H=2.0pt\relax
+ \else
+ \H=5.0pt\relax
+ \fi
+ \else
+ \ifdim\H<7.5pt
+ \H=5.0pt\relax
+ \else
+ \H=1.0pt\relax
+ \advance\pgfmathfloat@a@E by1
+ \fi
+ \fi
+ \fi
+ \pgfmathfloatcreate{\the\pgfmathfloat@a@S}{\pgf@sys@tonumber{\H}}{\the\pgfmathfloat@a@E}%
+ \pgfmath@smuggleone\pgfmathresult
+ \endgroup
+}%
+
% Helper method for
% \pgfplots@apply@data@scale@trafo@to@options@for
% #1: the ticks
-% #2: the trafo macro name
+% #2: the trafo routine (not necessarily a single macro, but should
+% take one arg)
% #3: the output macro name
\long\def\pgfplots@apply@data@scale@trafo@to@user@ticks#1#2\to#3{%
\let#3=\pgfutil@empty
\foreach \pgfplots@loc@TMPb in {#1} {%
\pgfmathfloatparsenumber{\pgfplots@loc@TMPb}%
- \expandafter#2\expandafter{\pgfmathresult}%
+ #2{\pgfmathresult}%
\ifx#3\pgfutil@empty
\xdef#3{\pgfmathresult}%
\else
diff --git a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def
index b45b779e003..e81a53a44d8 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def
+++ b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def
@@ -75,11 +75,15 @@
/PatternType 2
/Shading
<<
- /ShadingType 5
+ /ShadingType \pgfplotslibrarysurf@type\space
/BitsPerCoordinate \pgfplotslibrarysurf@bitspercoordinate\space
/BitsPerComponent 16 % Note: this here is the reason why I can't use ASCII85Decode
- /VerticesPerRow \pgfkeysvalueof{/pgfplots/surf shading/cols}
- /ColorSpace /DeviceRGB
+ \if5\pgfplotslibrarysurf@type
+ /VerticesPerRow \pgfkeysvalueof{/pgfplots/surf shading/cols}
+ \else
+ /BitsPerFlag 8
+ \fi
+ /ColorSpace /Device\pgfplotslibrarysurf@colorspace
/Decode [\pgfplotslibrarysurf@decode]
/Function \pgfkeysvalueof{/pgfplots/surf shading/colormap}
/DataSource
diff --git a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-pdftex.def b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-pdftex.def
index 63ec517b963..c94f05e585e 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-pdftex.def
+++ b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-pdftex.def
@@ -73,11 +73,15 @@
\def\pgfplotssys@do@surfshading@fillpaths#1{%
\immediate\pdfobj stream attr {%
% stream length will be computed automatically
- /ShadingType 5
+ /ShadingType \pgfplotslibrarysurf@type\space
/BitsPerCoordinate \pgfplotslibrarysurf@bitspercoordinate\space
/BitsPerComponent 16
- /VerticesPerRow \pgfkeysvalueof{/pgfplots/surf shading/cols}
- /ColorSpace /DeviceRGB
+ \if5\pgfplotslibrarysurf@type
+ /VerticesPerRow \pgfkeysvalueof{/pgfplots/surf shading/cols}
+ \else
+ /BitsPerFlag 8
+ \fi
+ /ColorSpace /Device\pgfplotslibrarysurf@colorspace
/Decode [\pgfplotslibrarysurf@decode]
/Function \pgfkeysvalueof{/pgfplots/surf shading/colormap}
\ifx\pgfplotslibrarysurf@filter@decode\pgfutil@empty
diff --git a/Master/texmf-dist/tex/generic/pgfplots/sys/pgfplotssysgeneric.code.tex b/Master/texmf-dist/tex/generic/pgfplots/sys/pgfplotssysgeneric.code.tex
new file mode 100644
index 00000000000..cc79af2d013
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/sys/pgfplotssysgeneric.code.tex
@@ -0,0 +1,30 @@
+%--------------------------------------------
+% Package pgfplots
+%
+% Provides a user-friendly interface to create function plots (normal
+% plots, semi-logplots and double-logplots).
+%
+% It is based on Till Tantau's PGF package.
+%
+% Copyright 2007/2008 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%--------------------------------------------
+
+\def\pgfplots@sys@beforenode{%
+ \pgfkeysifdefined{/tikz/tex4ht node/escape/.@cmd}{%
+ \tikzset{tex4ht node/escape=true}%
+ }{}%
+}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex
index b1496a8fc1b..838e0393e2e 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex
@@ -25,6 +25,8 @@
%
%--------------------------------------------
+\pgfkeyssetvalue{/pgfplots/colormap default colorspace}{auto}
+
% This package relies on pgfplots temporary registers and its array
% data structure.
@@ -53,6 +55,7 @@
\expandafter\pgfplotsarraynewempty\expandafter{\pgfplots@createcolormap@name}%
\def\pgfplots@createcolormap@MIN{0}% NORMALIZATION: assume that lower-end is 0pt.
\def\pgfplots@createcolormap@MAX{0}% To be computed.
+ \pgfplots@createcolormap@initcolorspace
\let\pgfplots@createcolormap@LAST=\pgfplots@createcolormap@MIN
% PARSE IT:
\edef\pgfplots@loc@TMPa{#2}%
@@ -75,8 +78,40 @@
\expandafter\let\csname\pgfplots@createcolormap@name @h\endcsname=\pgfplots@createcolormap@H
\pgfmathreciprocal@{\pgfplots@createcolormap@H}%
\expandafter\let\csname\pgfplots@createcolormap@name @invh\endcsname=\pgfmathresult
+ \expandafter\let\csname\pgfplots@createcolormap@name @col@comps\endcsname=\pgfplots@createcolormap@col@comps
+ \expandafter\let\csname\pgfplots@createcolormap@name @colspace\endcsname=\pgfplots@createcolormap@colspace
%\pgfplots@colormap@showdebuginfofor{#1}%
}
+\def\pgfplots@createcolormap@initcolorspace{%
+ \pgfkeysgetvalue{/pgfplots/colormap default colorspace}\pgfplots@loc@TMPa
+ \edef\pgfplots@loc@TMPa{\pgfplots@loc@TMPa}%
+ \def\pgfplots@loc@TMPb{auto}%
+ \ifx\pgfplots@loc@TMPb\pgfplots@loc@TMPa
+ % colormap default colorspace=auto: same as empty.
+ \let\pgfplots@loc@TMPa=\pgfutil@empty
+ \fi
+ \ifx\pgfplots@loc@TMPa\pgfutil@empty
+ % colormap default colorspace=auto:
+ \def\pgfplots@createcolormap@col@comps{}% to be filled from first point
+ \def\pgfplots@createcolormap@colspace{}%
+ \else
+ \def\pgfplots@loc@TMPb{rgb}%
+ \ifx\pgfplots@loc@TMPb\pgfplots@loc@TMPa
+ % colormap default colorspace=rgb:
+ \def\pgfplots@createcolormap@colspace{rgb}%
+ \def\pgfplots@createcolormap@col@comps{3}%
+ \else
+ \def\pgfplots@loc@TMPb{cmyk}%
+ \ifx\pgfplots@loc@TMPb\pgfplots@loc@TMPa
+ % colormap default colorspace=cmyk:
+ \def\pgfplots@createcolormap@colspace{cmyk}%
+ \def\pgfplots@createcolormap@col@comps{4}%
+ \else
+ \pgfplots@error{Sorry, the choice 'colormap default colorspace=\pgfplots@loc@TMPa' is unknown to pgfplots, please use one of 'auto,rgb,cmyk'}%
+ \fi
+ \fi
+ \fi
+}%
\def\pgfplots@createcolormap@seth[#1]{%
\def\pgfplots@createcolormap@context{[#1]}%
\pgfmathparse{#1}%
@@ -101,7 +136,7 @@
{%
\pgfutil@ifnextchar g{\pgfplots@createcolormap@grabgray}%
{%
- \pgfutil@ifnextchar c{\pgfplots@createcolormap@grabcolor}%
+ \pgfutil@ifnextchar c{\pgfplots@createcolormap@grabc}%
{
\expandafter\pgfutil@ifnextchar\pgfplots@activesemicolon{\pgfplots@createcolormap@grabsemicolon@active}%
{\pgfplots@createcolormap@error}%
@@ -177,6 +212,41 @@
\edef\pgfplots@loc@TMPa{{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{\pgfmathresult}}%
\expandafter\pgfplots@loc@TMPc\pgfplots@loc@TMPa
\pgfplots@createcolormap@}
+
+
+\def\pgfplots@createcolormap@grabcmyk myk{
+ \def\pgfplots@createcolormap@colspace@actual{cmyk}%
+ \def\pgfplots@createcolormap@col@comps@actual{4}%
+ \pgfutil@ifnextchar2{%
+ \pgfplots@createcolormap@grabcmyk@two@five@five
+ }{%
+ \let\pgfplots@createcolormap@next@\pgfplots@createcolormap@grabcmyk@
+ \pgfplots@createcolormap@next
+ }%
+}
+\def\pgfplots@createcolormap@grabcmyk@(#1)=(#2,#3,#4,#5){%
+ \def\pgfplots@createcolormap@context{cmyk(#1)=(#2,#3,#4,#5)}%
+ \pgfplots@createcolormap@nextcolor{#1}{#2}{#3}{#4}{#5}%
+ \pgfplots@createcolormap@}
+\def\pgfplots@createcolormap@grabcmyk@two@five@five255{%
+ \let\pgfplots@createcolormap@next@\pgfplots@createcolormap@grabcmyk@two@five@five@
+ \pgfplots@createcolormap@next
+}
+\def\pgfplots@createcolormap@grabcmyk@two@five@five@(#1)=(#2,#3,#4,#5){%
+ \def\pgfplots@createcolormap@context{cmyk255(#1)=(#2,#3,#4,#5)}%
+ \pgfplots@createcolormap@grabcmyk@two@five@five@rescale{#2}%
+ \let\pgfplots@loc@TMPa=\pgfmathresult
+ \pgfplots@createcolormap@grabcmyk@two@five@five@rescale{#3}%
+ \let\pgfplots@loc@TMPb=\pgfmathresult
+ \pgfplots@createcolormap@grabcmyk@two@five@five@rescale{#4}%
+ \let\pgfplots@loc@TMPc=\pgfmathresult
+ \pgfplots@createcolormap@grabcmyk@two@five@five@rescale{#5}%
+ \def\pgfplots@loc@TMPd{\pgfplots@createcolormap@nextcolor{#1}}%
+ \edef\pgfplots@loc@TMPa{{\pgfplots@loc@TMPa}{\pgfplots@loc@TMPb}{\pgfplots@loc@TMPc}{\pgfmathresult}}%
+ \expandafter\pgfplots@loc@TMPd\pgfplots@loc@TMPa
+ \pgfplots@createcolormap@}
+
+
\def\pgfplots@createcolormap@grabgray gray{%
\let\pgfplots@createcolormap@next@\pgfplots@createcolormap@grabgray@
\pgfplots@createcolormap@next
@@ -185,7 +255,15 @@
\def\pgfplots@createcolormap@context{gray(#1)=(#2)}%
\pgfplots@createcolormap@nextRGB{#1}{#2}{#2}{#2}%
\pgfplots@createcolormap@}
-\def\pgfplots@createcolormap@grabcolor color{%
+
+\def\pgfplots@createcolormap@grabc c{%
+ \pgfutil@ifnextchar m{%
+ \pgfplots@createcolormap@grabcmyk
+ }{%
+ \pgfplots@createcolormap@grabcolor
+ }%
+}%
+\def\pgfplots@createcolormap@grabcolor olor{%
\let\pgfplots@createcolormap@next@\pgfplots@createcolormap@grabcolor@
\pgfplots@createcolormap@next
}%
@@ -193,36 +271,105 @@
\def\pgfplots@createcolormap@context{color(#1)=(#2)}%
\pgfutil@colorlet{pgf@tempcol}{#2}%
\pgfutil@extractcolorspec{pgf@tempcol}{\pgf@tempcolor}%
- \expandafter\pgfutil@convertcolorspec\pgf@tempcolor{rgb}{\pgf@rgbcolor}%
- \expandafter\pgfplots@createcolormap@grabcolor@@\pgf@rgbcolor\relax{#1}}%
+ \ifx\pgfplots@createcolormap@colspace\pgfutil@empty
+ % This here is mainly for backwards compatibility... in older
+ % versions, rgb was the only choice. This should still work
+ % unless overruled explicitly.
+ \def\pgfplots@createcolormap@colspace{rgb}%
+ \def\pgfplots@createcolormap@col@comps{3}%
+ \fi
+ % convert the colorspace (if needed):
+ \expandafter\pgfutil@convertcolorspec\pgf@tempcolor{\pgfplots@createcolormap@colspace}{\pgf@rgbcolor}%
+ %
+ \let\pgfplots@createcolormap@colspace@actual=\pgfplots@createcolormap@colspace
+ \let\pgfplots@createcolormap@col@comps@actual=\pgfplots@createcolormap@col@comps
+ %
+ \if4\pgfplots@createcolormap@col@comps
+ \let\pgfplots@loc@TMPa=\pgfplots@createcolormap@grabcolor@@@
+ \else
+ \let\pgfplots@loc@TMPa=\pgfplots@createcolormap@grabcolor@@
+ \fi
+ \expandafter\pgfplots@loc@TMPa\pgf@rgbcolor\relax{#1}%
+}%
\def\pgfplots@createcolormap@grabcolor@@#1,#2,#3\relax#4{%
\pgfplots@createcolormap@nextRGB{#4}{#1}{#2}{#3}%
\pgfplots@createcolormap@}
+\def\pgfplots@createcolormap@grabcolor@@@#1,#2,#3,#4\relax#5{%
+ \pgfplots@createcolormap@nextcolor{#5}{#1}{#2}{#3}{#4}%
+ \pgfplots@createcolormap@}
+
\def\pgfplots@createcolormap@rgbrangeexception#1#2#3{%
\pgfplots@error{Sorry, RGB[#1,#2,#3] is not supported. The allowed range is 0 <= r,g,b <= 1. The error occured near `\pgfplots@createcolormap@context'}%
}%
+\def\pgfplots@createcolormap@rangeexception#1#2{%
+ \pgfplots@error{Sorry, the color component at index #1 (value #2) is out of range. The allowed range is 0 <= value <= 1. The error occured near `\pgfplots@createcolormap@context'}%
+}
+
% Ok, we parsed the next single spec.
% #1: the width
% #2,#3,#4 RGB values.
\def\pgfplots@createcolormap@nextRGB#1#2#3#4{%
+ \def\pgfplots@createcolormap@colspace@actual{rgb}%
+ \def\pgfplots@createcolormap@col@comps@actual{3}%
+ \pgfplots@createcolormap@nextcolor{#1}{#2}{#3}{#4}{}%
+}%
+
+% #1: h
+% #2...#5: the color components (at least 3 non-empty, can be 4).
+\def\pgfplots@createcolormap@nextcolor#1#2#3#4#5{%
\ifdim#2pt<0pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception0{#2}%
\fi
\ifdim#3pt<0pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception1{#3}%
\fi
\ifdim#4pt<0pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception2{#4}%
\fi
\ifdim#2pt>1pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception0{#2}%
\fi
\ifdim#3pt>1pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception1{#3}%
\fi
\ifdim#4pt>1pt
- \pgfplots@createcolormap@rgbrangeexception{#2}{#3}{#4}%
+ \pgfplots@createcolormap@rangeexception2{#4}%
+ \fi
+ \if4\pgfplots@createcolormap@col@comps@actual
+ \ifdim#5pt<0pt
+ \pgfplots@createcolormap@rangeexception3{#5}%
+ \fi
+ \ifdim#5pt>1pt
+ \pgfplots@createcolormap@rangeexception3{#5}%
+ \fi
+ \fi
+ \def\pgfplots@loc@TMPb{\pgfplots@createcolormap@nextcolor@{#1}{#2}{#3}{#4}{#5}}%
+ \ifx\pgfplots@createcolormap@colspace@actual\pgfplots@createcolormap@colspace
+ \else
+ \ifx\pgfplots@createcolormap@colspace\pgfutil@empty
+ \let\pgfplots@createcolormap@colspace=\pgfplots@createcolormap@colspace@actual
+ \let\pgfplots@createcolormap@col@comps=\pgfplots@createcolormap@col@comps@actual
+ \else
+ % Oh. We need to convert the color space!
+ \edef\pgfplots@loc@TMPa{{\pgfplots@createcolormap@colspace@actual}{#2,#3,#4\if4\pgfplots@createcolormap@col@comps@actual,#5\fi}}%
+ \expandafter\pgfutil@convertcolorspec\pgfplots@loc@TMPa{\pgfplots@createcolormap@colspace}{\pgfplots@loc@TMPa}%
+ % invoke
+ % \pgfplots@createcolormap@nextcolor@{#1}{C1}{C2}{C3}{C4}.
+ % We need to compute C1 ... C4 :
+ \def\pgf@colmarshal{{#1}}%
+ \expandafter\pgf@uncomma\pgfplots@loc@TMPa,,%
+ \if4\pgfplots@createcolormap@col@comps
+ \else
+ % ok, we have C4={}. Append it:
+ \edef\pgf@colmarshal{\pgf@colmarshal{}}%
+ \fi
+ \def\pgfplots@loc@TMPb{\expandafter\pgfplots@createcolormap@nextcolor@\pgf@colmarshal}%
+ \fi
\fi
+ \pgfplots@loc@TMPb
+}%
+\def\pgfplots@createcolormap@nextcolor@#1#2#3#4#5{%
+%\message{processing color #1=(#2,#3,#4,#5) with \pgfplots@createcolormap@col@comps@actual\space components^^J}%
% compute 'h':
\pgfmathparse{#1}%
\let\pgfplots@createcolormap@MAX=\pgfmathresult
@@ -270,14 +417,19 @@
\ifdim\c@pgfplots@createcolormap pt=\pgfplots@loc@TMPb pt
% omit the last.
\else
- \pgfmathparse{\pgfplots@createcolormap@lastR + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #2 - \pgfplots@createcolormap@lastR )}%
- \let\pgfplots@createcolormap@nextR=\pgfmathresult
- \pgfmathparse{\pgfplots@createcolormap@lastG + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #3 - \pgfplots@createcolormap@lastG )}%
- \let\pgfplots@createcolormap@nextG=\pgfmathresult
- \pgfmathparse{\pgfplots@createcolormap@lastB + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #4 - \pgfplots@createcolormap@lastB )}%
+ \pgfmathparse{\pgfplots@createcolormap@lastA + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #2 - \pgfplots@createcolormap@lastA )}%
+ \let\pgfplots@createcolormap@nextA=\pgfmathresult
+ \pgfmathparse{\pgfplots@createcolormap@lastB + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #3 - \pgfplots@createcolormap@lastB )}%
+ \let\pgfplots@createcolormap@nextB=\pgfmathresult
+ \pgfmathparse{\pgfplots@createcolormap@lastC + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #4 - \pgfplots@createcolormap@lastC )}%
+ \let\pgfplots@createcolormap@nextC=\pgfmathresult
+ \if4\pgfplots@createcolormap@col@comps
+ \pgfmathparse{\pgfplots@createcolormap@lastD + \c@pgfplots@createcolormap/\pgfplots@loc@TMPb * ( #4 - \pgfplots@createcolormap@lastD )}%
+ \let\pgfplots@createcolormap@nextD=\pgfmathresult
+ \fi
%
\edef\pgfplots@loc@TMPa{%
- \noexpand\pgfplotsarraypushback{\pgfplots@createcolormap@nextR,\pgfplots@createcolormap@nextG,\pgfmathresult}%
+ \noexpand\pgfplotsarraypushback{\pgfplots@createcolormap@nextA,\pgfplots@createcolormap@nextB,\pgfplots@createcolormap@nextC\if4\pgfplots@createcolormap@col@comps,\pgfplots@createcolormap@nextD\fi}%
\noexpand\to}%
\expandafter\pgfplots@loc@TMPa\expandafter{\pgfplots@createcolormap@name}%
\fi
@@ -285,11 +437,12 @@
\fi
\fi
\fi
- \def\pgfplots@loc@TMPa{\pgfplotsarraypushback{#2,#3,#4}\to}%
+ \edef\pgfplots@loc@TMPa{\noexpand\pgfplotsarraypushback{#2,#3,#4\if4\pgfplots@createcolormap@col@comps,#5\fi}\noexpand\to}%
\expandafter\pgfplots@loc@TMPa\expandafter{\pgfplots@createcolormap@name}%
- \edef\pgfplots@createcolormap@lastR{#2}%
- \edef\pgfplots@createcolormap@lastG{#3}%
- \edef\pgfplots@createcolormap@lastB{#4}%
+ \edef\pgfplots@createcolormap@lastA{#2}%
+ \edef\pgfplots@createcolormap@lastB{#3}%
+ \edef\pgfplots@createcolormap@lastC{#4}%
+ \edef\pgfplots@createcolormap@lastD{#5}%
}%
\def\pgfplots@createcolormap@nextRGB@consider@reinterpolation#1\relax{%
\pgf@xa=#1pt
@@ -318,19 +471,20 @@
% Shows debug info about colormap #1 into the console.
\def\pgfplots@colormap@showdebuginfofor#1{%
- \message{Debug info for color map '#1':}%
- \message{(Transformed) Range: [0:\pgfplotscolormaprange]; }%
- \message{H: \csname pgfpl@cm@#1@h\endcsname; }%
- \message{H:^{-1}: \csname pgfpl@cm@#1@invh\endcsname; }%
+ \message{Debug info for color map '#1':^^J}%
+ \message{(Transformed) Range: [0:\pgfplotscolormaprange]; ^^J}%
+ \message{H: \csname pgfpl@cm@#1@h\endcsname; ^^J}%
+ \message{H:^{-1}: \csname pgfpl@cm@#1@invh\endcsname; ^^J}%
\pgfplotsarraysizetomacro{pgfpl@cm@#1}\to\pgfplots@loc@TMPa
- \message{Size: \pgfplots@loc@TMPa; }%
- \message{RGB Values: }%
+ \message{Size: \pgfplots@loc@TMPa; ^^J}%
+ \message{Colorspace: \csname pgfpl@cm@#1@colspace\endcsname^^JValues (\csname pgfpl@cm@#1@col@comps\endcsname\space components each): ^^J}%
\begingroup
\c@pgf@counta=0
\pgfplotsarrayforeachungrouped{pgfpl@cm@#1}\as\elem{%
\message{\#\the\c@pgf@counta: \elem; }%
\advance\c@pgf@counta by1
}%
+ \message{^^J}%
\endgroup
}
@@ -358,11 +512,15 @@
}%
}%
\toks3=\expandafter{\pgfplots@serialize@list}%
+ \toks4=\expandafter{\expandafter\def\csname pgfpl@cm@#1@colspace\endcsname}%
+ \toks5=\expandafter{\expandafter\def\csname pgfpl@cm@#1@col@comps\endcsname}%
\xdef\pgfplots@glob@TMPa{%
\the\toks0 {\csname pgfpl@cm@#1@h\endcsname}%
\the\toks1 {\csname pgfpl@cm@#1@invh\endcsname}%
\noexpand\def\noexpand\pgfplots@loc@TMPa{\the\toks3 }%
\the\toks2
+ \the\toks4 {\csname pgfpl@cm@#1@colspace\endcsname}%
+ \the\toks5 {\csname pgfpl@cm@#1@col@comps\endcsname}%
}%
\endgroup
\let#2=\pgfplots@glob@TMPa
@@ -395,7 +553,11 @@
\def\pgfplots@loc@TMPb{}%
\def\pgfplots@loc@TMPc{}%
\pgfplotsarrayforeachungrouped{pgfpl@cm@#1}\as\cdata{%
- \edef\cdata{\expandafter\pgfplotscolormaptopdffunction@convertcdata\cdata\relax}%
+ \if4\csname pgfpl@cm@#1@col@comps\endcsname
+ \edef\cdata{\expandafter\pgfplotscolormaptopdffunction@convertcdata@four\cdata\relax}%
+ \else
+ \edef\cdata{\expandafter\pgfplotscolormaptopdffunction@convertcdata\cdata\relax}%
+ \fi
\ifnum\c@pgf@counta>0
\t@pgfplots@toka=\expandafter{\pgfplotsretval}%
\xdef\pgfplotsretval{%
@@ -428,6 +590,7 @@
\endgroup
}%
\def\pgfplotscolormaptopdffunction@convertcdata#1,#2,#3\relax{#1 #2 #3}%
+\def\pgfplotscolormaptopdffunction@convertcdata@four#1,#2,#3,#4\relax{#1 #2 #3 #4}%
% Invokes '#2' if a color map named '#1' exists and '#3' if no such color map exists.
\def\pgfplotscolormapifdefined#1#2#3{\pgfplotsarrayifdefined{pgfpl@cm@#1}{#2}{#3}}%
@@ -459,6 +622,7 @@
\def\pgfplotscolormaptoshadingspec#1#2#3{%
\pgfplotscolormapassertexists{#1}%
\begingroup
+ \def\pgfplots@rgb{rgb}%
\pgfmathparse{#2}%
\expandafter\pgfmathdivide@\expandafter{\pgfmathresult}{\pgfplotscolormaprange}%
\let\pgfplots@loc@TMPb=\pgfmathresult
@@ -467,12 +631,23 @@
\c@pgf@counta=0
\let#3=\pgfutil@empty
\pgfplotsarrayforeachungrouped{pgfpl@cm@#1}\as\pgfplotscolormaptoshadingspec@TMP{%
- \ifnum\c@pgf@counta=0
- \edef\pgfplots@loc@TMPc{rgb(0pt)=(\pgfplotscolormaptoshadingspec@TMP)}%
- \else
- \pgf@yb=\c@pgf@counta\pgf@ya
- \edef\pgfplots@loc@TMPc{rgb(\the\pgf@yb)=(\pgfplotscolormaptoshadingspec@TMP)}%
+ \pgf@yb=\c@pgf@counta\pgf@ya
+ \edef\pgfplots@colspace{\csname pgfpl@cm@#1@colspace\endcsname}%
+ % FIXME : PGF shadings accept only RGB!
+ \if1\pgfplotscolormaptoshadingspectorgb
+ \ifx\pgfplots@colspace\pgfplots@rgb
+ \else
+ \pgfutil@ifundefined{pgfpl@cm@#1@warned}{%
+ \expandafter\gdef\csname pgfpl@cm@#1@warned\endcsname{1}%
+ \pgfplots@warning{I am about to convert colormap '#1' from \pgfplots@colspace\space to rgb (which might be lossy). Perhaps the choice 'colorbar sampled={surf,shader=interp}' yields better results since it supports \pgfplots@colspace.}%
+ }{%
+ }%
+ \edef\pgf@tempcolor{{\pgfplots@colspace}{\pgfplotscolormaptoshadingspec@TMP}}%
+ \expandafter\pgfutil@convertcolorspec\pgf@tempcolor{rgb}{\pgfplotscolormaptoshadingspec@TMP}%
+ \def\pgfplots@colspace{rgb}%
+ \fi
\fi
+ \edef\pgfplots@loc@TMPc{\pgfplots@colspace(\the\pgf@yb)=(\pgfplotscolormaptoshadingspec@TMP)}%
\ifx#3\pgfutil@empty
\t@pgfplots@toka={}%
\else
@@ -485,6 +660,7 @@
\pgfmath@smuggleone#3%
\endgroup
}%
+\def\pgfplotscolormaptoshadingspectorgb{1}%
% The same as \pgfplotscolormaptoshadingspec, but this here yields the
% *reversed* sequence.
@@ -501,10 +677,20 @@
% end is fixed to '0'.
\def\pgfplotscolormaprange{1000}
-% Linearly maps the number #4 into the colormap #5 and returns the interpolated RGB triple
-% into \pgfmathresult.
+\def\pgfplotscolormapgetcolorspace#1{%
+ \edef\pgfplotsretval{\csname pgfpl@cm@#1@colspace\endcsname}%
+}%
+\def\pgfplotscolormapgetcolorcomps#1{%
+ \edef\pgfplotsretval{\csname pgfpl@cm@#1@col@comps\endcsname}%
+}%
+
+
+% Linearly maps the number #4 into the colormap #5 and returns the
+% interpolated colors into \pgfmathresult. The result will be a triple
+% for an RGB colormap and it will contain four numbers for CMYK. The
+% components of the result will be in the range [0:1].
%
-% [#1:#2] the number range of the data source. This is required to
+% [#1:#2] the number range of the data source (i.e. of #4). This is required to
% map into the colormap.
% [#3] (optional) the quantity
% s := \pgfplotscolormaprange / (#2-#1).
@@ -564,6 +750,8 @@
% without '.0' suffix:
\def\pgfplots@discardperiod##1.##2\relax{\def\pgfplotscolormapfind@intervalno{##1}}%
\expandafter\pgfplots@discardperiod\pgfmathresult\relax
+ \pgfmathsubtract@{\pgfplotscolormapfind@transformedx@divh}{\pgfplotscolormapfind@intervalno}%
+ \let\pgfplots@loc@factor=\pgfmathresult
%\message{mapping [#1,#2] -> [0,\pgfplotscolormaprange] yielded phi(#4) = \pgfplotscolormapfind@transformedx, situated in interval no \pgfplotscolormapfind@intervalno.}%
% Step 2: interpolate the desired RGB value using vector valued
% interpolation on the identified interval.
@@ -573,7 +761,11 @@
\pgfplotsarrayselect\c@pgf@counta\of{pgfpl@cm@#5}\to\pgfplotscolormapfind@rgb@RIGHT
%\message{After lookup: the corresponding RGB interval boundaries are [\pgfplotscolormapfind@rgb@LEFT: \pgfplotscolormapfind@rgb@RIGHT].}%
\edef\pgfplots@loc@TMPa{\pgfplotscolormapfind@rgb@LEFT:\pgfplotscolormapfind@rgb@RIGHT}%
- \expandafter\pgfplotscolormapfind@interpolate\pgfplots@loc@TMPa\relax
+ \if4\csname pgfpl@cm@#5@col@comps\endcsname
+ \expandafter\pgfplotscolormapfind@interpolate@four\pgfplots@loc@TMPa\relax
+ \else
+ \expandafter\pgfplotscolormapfind@interpolate\pgfplots@loc@TMPa\relax
+ \fi
\pgfmath@smuggleone\pgfmathresult
\endgroup
%\message{-> got finally mapping(#4, #5) = RGB'\pgfmathresult'.}%
@@ -588,26 +780,33 @@
% R:
\pgfmathsubtract@{#4}{#1}%
\let\pgfplotscolormapfind@Cdiff=\pgfmathresult
- \pgfmathsubtract@{\pgfplotscolormapfind@transformedx@divh}{\pgfplotscolormapfind@intervalno}%
- \expandafter\pgfmathmultiply@\expandafter{\pgfmathresult}{\pgfplotscolormapfind@Cdiff}%
+ \pgfmathmultiply@{\pgfplots@loc@factor}{\pgfplotscolormapfind@Cdiff}%
\expandafter\pgfmathadd@\expandafter{\pgfmathresult}{#1}%
\let\RED=\pgfmathresult
% G:
\pgfmathsubtract@{#5}{#2}%
\let\pgfplotscolormapfind@Cdiff=\pgfmathresult
- \pgfmathsubtract@{\pgfplotscolormapfind@transformedx@divh}{\pgfplotscolormapfind@intervalno}%
- \expandafter\pgfmathmultiply@\expandafter{\pgfmathresult}{\pgfplotscolormapfind@Cdiff}%
+ \pgfmathmultiply@{\pgfplots@loc@factor}{\pgfplotscolormapfind@Cdiff}%
\expandafter\pgfmathadd@\expandafter{\pgfmathresult}{#2}%
\let\GREEN=\pgfmathresult
% B:
\pgfmathsubtract@{#6}{#3}%
\let\pgfplotscolormapfind@Cdiff=\pgfmathresult
- \pgfmathsubtract@{\pgfplotscolormapfind@transformedx@divh}{\pgfplotscolormapfind@intervalno}%
- \expandafter\pgfmathmultiply@\expandafter{\pgfmathresult}{\pgfplotscolormapfind@Cdiff}%
+ \pgfmathmultiply@{\pgfplots@loc@factor}{\pgfplotscolormapfind@Cdiff}%
\expandafter\pgfmathadd@\expandafter{\pgfmathresult}{#3}%
\let\BLUE=\pgfmathresult
\edef\pgfmathresult{\RED,\GREEN,\BLUE}%
}%
+\def\pgfplotscolormapfind@interpolate@four#1,#2,#3,#4:#5,#6,#7,#8\relax{%
+ \pgfplotscolormapfind@interpolate#1,#2,#3:#5,#6,#7\relax
+ \let\CMY=\pgfmathresult
+ \pgfmathsubtract@{#8}{#4}%
+ \let\pgfplotscolormapfind@Cdiff=\pgfmathresult
+ \pgfmathmultiply@{\pgfplots@loc@factor}{\pgfplotscolormapfind@Cdiff}%
+ \expandafter\pgfmathadd@\expandafter{\pgfmathresult}{#4}%
+ \let\K=\pgfmathresult
+ \edef\pgfmathresult{\CMY,\K}%
+}
% Performs a direct color access into color map '#2' using an index
% '#1'.
@@ -655,6 +854,7 @@
\fi
}%
+
\pgfutil@definecolor{mapped color}{rgb}{0,0,0}% make sure this color exists. It will be overwritten if needed.
\pgfplotscreatecolormap{hot}{color(0cm)=(blue); color(1cm)=(yellow); color(2cm)=(orange); color(3cm)=(red)}
@@ -670,7 +870,7 @@
{#1}
{\pgfkeysvalueof{/pgfplots/colormap name}}
%\message{Color for current point is RGB '\pgfmathresult' (determined using meta 'phi(\pgfplotspointmeta) = \pgfplotspointmetatransformed')}%
- \def\pgfplots@loc@TMPb{\pgfutil@definecolor{mapped color}{rgb}}%
+ \def\pgfplots@loc@TMPb{\pgfutil@definecolor{mapped color}{\csname pgfpl@cm@\pgfkeysvalueof{/pgfplots/colormap name}@colspace\endcsname}}%
\expandafter\pgfplots@loc@TMPb\expandafter{\pgfmathresult}%
}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex
index 60df282f8bb..2dacf8f7458 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex
@@ -161,6 +161,7 @@
\expandafter\def\expandafter\pgfplots@command@to@string@@\pgfplots@glob@TMPa#1\pgfplots@EOI#2{%
\def#2{#1}%
}%
+\def\pgfplotscommandtostring#1#2{\pgfplots@command@to@string{#1}{#2}}%
% As \pgfplots@command@to@string, but it works for commands accepting
% arguments. More precisely, #2 will be a string (!) of the form
@@ -205,7 +206,9 @@
% \pgfplotsutil@ifdefinedui{\csname abc\endcsname} -> no
% \pgfplotsutil@ifdefinedui{a_file_name} -> no
\def\pgfplotsutil@ifdefinedui#1#2#3{%
- \def\pgfplotsutil@@arg@ifdefined{#1}%
+ {\toks0={#1}% this construction is necessary to handle '#' characters in '#1'
+ \xdef\pgfplotsutil@@arg@ifdefined{\the\toks0}%
+ }%
\pgfplots@command@to@string\pgfplotsutil@@arg@ifdefined\pgfplotsutil@@arg@ifdefined
\expandafter\pgfplotsutil@trim\expandafter{\pgfplotsutil@@arg@ifdefined}%
\pgfutil@ifundefined{\pgfplotsretval}{#3}{#2}%
@@ -214,7 +217,9 @@
% '#1' after '#1' has been normalized.
% It invokes '#3' if '#1#2' is defined and '#4' if not.
\def\pgfplotsutil@ifdefinedui@withsuffix#1#2#3#4{%
- \def\pgfplotsutil@@arg@ifdefined{#1}%
+ {\toks0={#1}%
+ \xdef\pgfplotsutil@@arg@ifdefined{\the\toks0}%
+ }%
\pgfplots@command@to@string\pgfplotsutil@@arg@ifdefined\pgfplotsutil@@arg@ifdefined
\expandafter\pgfplotsutil@trim\expandafter{\pgfplotsutil@@arg@ifdefined}%
\pgfutil@ifundefined{\pgfplotsretval #2}{#4}{#3}%
@@ -304,7 +309,7 @@
\edef\pgfmathresult{#2}%
\fi
}%
-\def\pgfplotsmathlessthan#1#2{\ifdim#1 pt<#2 pt \pgfmathfloatcomparisontrue\else\pgfmathfloatcomparisonfalse\fi}
+\def\pgfplotsmathlessthan#1#2{\ifdim#1pt<#2pt \pgfmathfloatcomparisontrue\else\pgfmathfloatcomparisonfalse\fi}
% Re-define two-argument function for min and max.
% The pgfmath engine now uses a variable number of arguments.
@@ -555,6 +560,7 @@
% Discards any token up to (and including) \relax.
\def\pgfplots@gobble@until@relax#1\relax{}%
+\def\pgfplots@gobble@until@EOI#1\pgfplots@EOI{}%
% A (simple) replacement for \foreach which
% 1. does NOT scope the argument
@@ -573,13 +579,24 @@
% scopes.
%
% This loop *can* be nested.
-\def\pgfplotsforeachungrouped#1{\pgfplotsforeachungrouped@{#1}}%
-\long\def\pgfplotsforeachungrouped@#1in #2#3{%
- \pgfplotsforeachungrouped@isuniform{#2}%
- \ifpgfplots@loc@tmp
- \pgfplotsforeachungroupeduniform@{#1}#2\relax{#3}%
+\def\pgfplotsforeachungrouped#1{%
+ \pgfutil@ifnextchar/{\pgfplotsforeachungrouped@{#1}}{\pgfplotsforeachungrouped@{#1}/{}}%
+}%
+\long\def\pgfplotsforeachungrouped@#1/#2in #3#4{%
+ \def\pgfplots@foreach@loc@TMPa{#2}%
+ \ifx\pgfplots@foreach@loc@TMPa\pgfutil@empty
+ \pgfplotsforeachungrouped@isuniform{#3}%
+ \ifpgfplots@loc@tmp
+ % special handling:
+ % \foreach #1 in {a,b,...,c} can be improved:
+ \pgfplotsforeachungroupeduniform@{#1}#3\relax{#4}%
+ \else
+ % invoke \foreach #1 in {#3} and transport results:
+ \pgfplotsforeachungroupednonuniform@#1{#3}{#4}%
+ \fi
\else
- \pgfplotsforeachungroupednonuniform@#1{#2}{#3}%
+ % invoke \foreach #1/#2 in {#3} and transport results:
+ \pgfplotsforeachungroupedslashed@#1/#2{#3}{#4}%
\fi
}
\let\pgfplots@original@pgfmathadd@=\pgfmathadd@
@@ -659,6 +676,25 @@
#3%
}%
}
+\long\def\pgfplotsforeachungroupedslashed@#1/#2#3#4{%
+ \pgfplotsapplistXXglobalnewempty
+ \foreach\pgfplots@foreach@loc@TMPa/\pgfplots@foreach@loc@TMPb in {#3} {%
+ \edef\pgfplots@foreach@loc@TMPa{\pgfplots@foreach@loc@TMPa/\pgfplots@foreach@loc@TMPb}%
+ \expandafter\pgfplotsapplistXXglobalpushback\expandafter{\pgfplots@foreach@loc@TMPa,}%
+ }%
+ \pgfplotsapplistXXgloballet\pgfplots@foreach@loc@TMPa
+ \pgfplotsapplistXXglobalclear
+ \expandafter\pgfplotsforeachentryinCSVisterminated\expandafter\pgfplots@foreach@loc@TMPa\expandafter{\pgfplots@foreach@loc@TMPa}{%
+ \expandafter\pgfplotsforeachungroupedslashed@@\pgfplots@foreach@loc@TMPa\pgfplots@EOI
+ \let#1=\pgfplots@foreach@loc@TMPa
+ \let#2=\pgfplots@foreach@loc@TMPb
+ #4%
+ }%
+}
+\def\pgfplotsforeachungroupedslashed@@#1/#2\pgfplots@EOI{%
+ \def\pgfplots@foreach@loc@TMPa{#1}%
+ \def\pgfplots@foreach@loc@TMPb{#2}%
+}%
% Sets \ifpgfplots@loc@tmp to true if and only if '#1' is of the form
% #1 = <number1>,<number2>,...,<number3>.
@@ -741,6 +777,12 @@
% Both, #1 and #2 will be provided as floating point numbers unless
% configured otherwise with \pgfplotsforeachlogarithmicsetoutput,
% see above.
+%
+% Arithmethics will be carried out with the math class
+% '\pgfplotsforeachlogarithmicmathid'.
+% This macro should expand to something which is usable inside of
+% \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{....}
+% the default is 'float'
%
% FIXME : THIS CAN'T BE NESTED YET!
\def\pgfplotsforeachlogarithmicungrouped[#1]#2/#3{\pgfplotsforeachlogarithmicungrouped@[#1]{#2}{#3}}%
@@ -749,18 +791,18 @@
% \pgfplots@foreach@loc@TMPd = N in fixed point
% \pgfplots@foreach@loc@TMPc = N-1 in float :
\edef\pgfplots@plot@samples@@{#1}%
- \pgfmathfloatcreate{1}{1.0}{0}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{one}%
\let\pgfplots@foreach@loc@TMPa=\pgfmathresult
- \pgfmathfloatparsenumber{\pgfplots@plot@samples@@}%
- \expandafter\pgfmathfloatsubtract@\expandafter{\pgfmathresult}{\pgfplots@foreach@loc@TMPa}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{parsenumber}{\pgfplots@plot@samples@@}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{subtract}{{\pgfmathresult}{\pgfplots@foreach@loc@TMPa}}%
\let\pgfplots@foreach@loc@TMPc=\pgfmathresult
%
\edef\pgfplots@loc@TMPb{#4}%
\expandafter\pgfplotsforeachlogarithmicungrouped@readdomain\pgfplots@loc@TMPb\relax
% compute mesh width into \pgfplots@foreach@loc@TMPc:
% \pgfplots@foreach@loc@TMPc := h := ( log(xmax) - log(xmin) ) / (N-1)
- \pgfmathfloatsubtract@{\pgfplots@foreach@loc@TMPb}{\pgfplots@foreach@loc@TMPa}%
- \pgfmathfloatdivide@{\pgfmathresult}{\pgfplots@foreach@loc@TMPc}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{subtract}{{\pgfplots@foreach@loc@TMPb}{\pgfplots@foreach@loc@TMPa}}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{divide}{{\pgfmathresult}{\pgfplots@foreach@loc@TMPc}}%
\let\pgfplots@foreach@loc@TMPc=\pgfmathresult
%
% apply local scoping here:
@@ -772,13 +814,14 @@
\pgfutil@loop
\ifnum\c@pgf@counta<\pgfplots@plot@samples@@
% compute exp(log(min) + i * h)
- \expandafter\pgfmathfloatparsenumber\expandafter{\the\c@pgf@counta}%
- \expandafter\pgfmathfloatmultiply@\expandafter{\pgfmathresult}{\pgfplots@foreach@loc@TMPc}%
- \expandafter\pgfmathfloatadd@\expandafter{\pgfmathresult}{\pgfplots@foreach@loc@TMPa}%
+ \edef\pgfplots@loc@TMPa{\the\c@pgf@counta}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{parsenumber}{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{multiply}{{\pgfmathresult}{\pgfplots@foreach@loc@TMPc}}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{add}{{\pgfmathresult}{\pgfplots@foreach@loc@TMPa}}%
\let\pgfplots@loc@TMPa=\pgfmathresult
\pgfplotsforeachlogarithmicungrouped@finalizeresult%
\let#3=\pgfmathresult
- \pgfmathfloatexp@{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{exp}{\pgfplots@loc@TMPa}%
\pgfplotsforeachlogarithmicungrouped@finalizeresult%
\let#2=\pgfmathresult
%
@@ -798,16 +841,16 @@
\def\pgfplotsforeachlogarithmicungrouped@finalizeresult{}%
+\def\pgfplotsforeachlogarithmicmathid{float}
+
% defines
% \pgfplots@foreach@loc@TMPa := log(firstintervalpt)
% and
% \pgfplots@foreach@loc@TMPb := log(secondintervalpt)
\def\pgfplotsforeachlogarithmicungrouped@readdomain#1:#2\relax{%
- \pgfmathfloatparsenumber{#1}%
- \pgfmathfloatln@{\pgfmathresult}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{log}{#1}%
\let\pgfplots@foreach@loc@TMPa=\pgfmathresult
- \pgfmathfloatparsenumber{#2}%
- \pgfmathfloatln@{\pgfmathresult}%
+ \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{log}{#2}%
\let\pgfplots@foreach@loc@TMPb=\pgfmathresult
}
@@ -820,7 +863,7 @@
\def\pgfplots@logfileopen#1{%
\immediate\write-1{PGFPlots: reading {#1}}%
\pgfutil@ifundefined{tikzifexternalizingcurrent}{%
- % version not up-to-date!?
+ % version not up-to-date or external lib not loaded?
}{%
% adjust the .dep file only if we are externalizing.
% Otherwise, it may be overwritten by \pgfplotstableread
@@ -851,15 +894,23 @@
\begingroup
\c@pgf@counta=#2\relax
\c@pgf@countb=#1\relax
- \c@pgf@countc=\c@pgf@countb
- \ifnum\c@pgf@counta=0
- \pgfplots@error{Can't compute \the\c@pgf@countb\space mod \the\c@pgf@counta\space -- this yields division by zero (second argument is zero)!}%
- \edef\pgfmathresult{#1}%
+ \ifnum\c@pgf@counta=2
+ \ifodd\c@pgf@countb
+ \def\pgfmathresult{1}%
+ \else
+ \def\pgfmathresult{0}%
+ \fi
\else
- \divide\c@pgf@countc by\c@pgf@counta
- \multiply\c@pgf@countc by\c@pgf@counta
- \advance\c@pgf@countb by-\c@pgf@countc
- \edef\pgfmathresult{\the\c@pgf@countb}%
+ \c@pgf@countc=\c@pgf@countb
+ \ifnum\c@pgf@counta=0
+ \pgfplots@error{Can't compute \the\c@pgf@countb\space mod \the\c@pgf@counta\space -- this yields division by zero (second argument is zero)!}%
+ \edef\pgfmathresult{#1}%
+ \else
+ \divide\c@pgf@countc by\c@pgf@counta
+ \multiply\c@pgf@countc by\c@pgf@counta
+ \advance\c@pgf@countb by-\c@pgf@countc
+ \edef\pgfmathresult{\the\c@pgf@countb}%
+ \fi
\fi
\pgfmath@smuggleone\pgfmathresult
\endgroup
@@ -967,6 +1018,81 @@
\def\pgfplots@strcmp@rest{#2}%
}%
+% Takes two dimensional cartesian coordinates #1,#2 and
+% defines the macros #3 and #4 to contain the associated polar
+% coordinates.
+%
+% #1: x
+% #2: y
+% #3: a macro which will be filled with the angle (in degrees)
+% #4: a macro which will be filled with the radius
+\def\pgfplotsmathcarttopol#1#2#3#4{%
+ \pgfplotsmathcarttopol@{#1}{#2}{#3}{#4}{default}%
+}%
+\def\pgfplotsmathcarttopolbasic#1#2#3#4{%
+ \pgfplotsmathcarttopol@{#1}{#2}{#3}{#4}{pgfbasic}%
+}%
+% #5: the math engine to use (\pgfplotscoordmath argument)
+\def\pgfplotsmathcarttopol@#1#2#3#4#5{%
+ \begingroup
+ \pgfplotscoordmath{#5}{parsenumber}{#1}%
+ \let\pgfplots@x=\pgfmathresult
+ \pgfplotscoordmath{#5}{parsenumber}{#2}%
+ \let\pgfplots@y=\pgfmathresult
+ \pgfplotscoordmath{#5}{op}{veclen}{{\pgfplots@x}{\pgfplots@y}}%
+ \let\pgfplots@r=\pgfmathresult
+ \pgfplotscoordmath{#5}{if is}{\pgfplots@r}{0}{%
+ \pgfplotscoordmath{#5}{parsenumber}{0}%
+ }{%
+ \pgfplotscoordmath{#5}{op}{divide}{{\pgfplots@x}{\pgfplots@r}}%
+ \let\pgfplots@quot=\pgfmathresult
+ \pgfplotscoordmath{#5}{op}{acos}{{\pgfplots@quot}}%
+ %
+ \pgfplotscoordmath{#5}{if is}{\pgfplots@y}{-}{%
+ \let\pgfplots@acos=\pgfmathresult
+ \pgfplotscoordmath{#5}{parsenumber}{-1}%
+ \pgfplotscoordmath{#5}{op}{multiply}{{\pgfmathresult}{\pgfplots@acos}}%
+ }{}%
+ }%
+ \let\pgfplots@deg=\pgfmathresult
+ \xdef\pgfplots@glob@TMPa{\noexpand\def\noexpand#3{\pgfplots@deg}\noexpand\def\noexpand#4{\pgfplots@r}}%
+ \endgroup
+ \pgfplots@glob@TMPa
+}%
+
+% Takes two dimensional polar coordinates #1,#2 and
+% defines the macros #3 and #4 to contain the associated cartesian
+% coordinates.
+%
+% #1: angle (in degrees)
+% #2: radius
+% #3: a macro which will be filled with the x value
+% #4: a macro which will be filled with the y value
+\def\pgfplotsmathpoltocart#1#2#3#4{%
+ \pgfplotsmathpoltocart@{#1}{#2}{#3}{#4}{default}%
+}%
+\def\pgfplotsmathpoltocartbasic#1#2#3#4{%
+ \pgfplotsmathpoltocart@{#1}{#2}{#3}{#4}{pgfbasic}%
+}%
+% #5: the math engine to use (\pgfplotscoordmath argument)
+\def\pgfplotsmathpoltocart@#1#2#3#4#5{%
+ \begingroup
+ \pgfplotscoordmath{#5}{parsenumber}{#1}%
+ \let\pgfplots@deg=\pgfmathresult
+ \pgfplotscoordmath{#5}{parsenumber}{#2}%
+ \let\pgfplots@r=\pgfmathresult
+ \pgfplotscoordmath{#5}{op}{sin}{{\pgfplots@deg}}%
+ \pgfplotscoordmath{#5}{op}{multiply}{{\pgfplots@r}{\pgfmathresult}}%
+ \let\pgfplots@y=\pgfmathresult
+ \pgfplotscoordmath{#5}{op}{cos}{{\pgfplots@deg}}%
+ \pgfplotscoordmath{#5}{op}{multiply}{{\pgfplots@r}{\pgfmathresult}}%
+ \let\pgfplots@x=\pgfmathresult
+ \xdef\pgfplots@glob@TMPa{\noexpand\def\noexpand#3{\pgfplots@x}\noexpand\def\noexpand#4{\pgfplots@y}}%
+ \endgroup
+ \pgfplots@glob@TMPa
+}%
+
+
\pgfutil@ifundefined{pgfmathdeclarefunction}{%
% BACKWARDS COMPATIBILITY: We have PGF 2.00 :
@@ -1184,17 +1310,17 @@
% #4: code to invoke in case arg1>=arg2
% the iflessthan method will be invoked within local scopes.
/pgfplots/fixed </.style={%
- /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifdim##1pt<##2pt\relax##3\else##4\fi},%
+ /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifdim##1pt<##2pt\relax##3\else ##4\fi},%
},
/pgfplots/fixed <,
/pgfplots/fixed >/.style={%
- /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifdim##1pt>##2pt\relax##3\else##4\fi},%
+ /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifdim##1pt>##2pt\relax##3\else ##4\fi},%
},
/pgfplots/int </.style={%
- /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifnum##1<##2\relax##3\else##4\fi},%
+ /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifnum##1<##2\relax##3\else ##4\fi},%
},
/pgfplots/int >/.style={%
- /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifnum##1>##2\relax##3\else##4\fi},%
+ /pgfplots/iflessthan/.code args={##1##2##3##4}{\ifnum##1>##2\relax##3\else ##4\fi},%
},
/pgfplots/float </.style={%
/pgfplots/iflessthan/.code args={##1##2##3##4}{%
@@ -1303,12 +1429,136 @@
\let\pgfplots@auxwrite=\pgfplots@auxwrite@latex
}%
+% sorts three elements.
+%
+% #1,#2,#3 are three macros containing the input.
+% On output, these macros are redefined to represent the sorted range.
+% The values of these macros must be a <dimen>, followed by anything
+% else (but no \relax please)
+%
+% Example:
+% \def\A{10pt furthervalues}
+% \def\B{4pt value of b}
+% \def\C{1pt value of c}
+% \pgfplotsutilsortthree\A\B\C
+% ->
+% \A={1pt value of c}
+% \B={4pt value of b}
+% \C={10pt furthervalues}
+%
+% It uses insertion sort.
+\def\pgfplotsutilsortthree#1#2#3{%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#1\relax
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xb=#2\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let\pgfplots@loc@TMPa=#2%
+ \let#2=#1%
+ \let#1=\pgfplots@loc@TMPa%
+ \fi
+ % first two are sorted.
+ %
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#2\relax
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xb=#3\relax
+ \let\pgfplots@loc@TMPa=#3%
+ \ifdim\pgf@xa>\pgf@xb
+ \let#3=#2%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#1\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let#2=#1%
+ \let#1=\pgfplots@loc@TMPa%
+ \else
+ \let#2=\pgfplots@loc@TMPa%
+ \fi
+ \fi
+ % ok.
+}%
+
+% Like \pgfplotsutilsortthree, but for four elements (of the same
+% form, see \pgfplotsutilsortthree).
+%
+% It uses insertion sort.
+\def\pgfplotsutilsortfour#1#2#3#4{%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#1\relax
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xb=#2\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let\pgfplots@loc@TMPa=#2%
+ \let#2=#1%
+ \let#1=\pgfplots@loc@TMPa%
+ \fi
+ % first two are sorted.
+ %
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#2\relax
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xb=#3\relax
+ \let\pgfplots@loc@TMPa=#3%
+ \ifdim\pgf@xa>\pgf@xb
+ \let#3=#2%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#1\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let#2=#1%
+ \let#1=\pgfplots@loc@TMPa%
+ \else
+ \let#2=\pgfplots@loc@TMPa%
+ \fi
+ \fi
+ % ok, first three are sorted.
+ %
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#3\relax
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xb=#4\relax
+ \let\pgfplots@loc@TMPa=#4%
+ \ifdim\pgf@xa>\pgf@xb
+ \let#4=#3%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#2\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let#3=#2%
+ \afterassignment\pgfplots@gobble@until@relax \pgf@xa=#1\relax
+ \ifdim\pgf@xa>\pgf@xb
+ \let#2=#1%
+ \let#1=\pgfplots@loc@TMPa%
+ \else
+ \let#2=\pgfplots@loc@TMPa%
+ \fi
+ \else
+ \let#3=\pgfplots@loc@TMPa%
+ \fi
+ \fi
+ % ok, first four are sorted.
+}%
+
+% A variant of \pgfutil@ifnextchar which allows the '#' character
+% inside of either '#2' or '#3'.
+%
+% It is slightly more expensive and relies on \t@pgfplots@tokc
+\long\def\pgfplotsutil@ifnextchar#1#2#3{%
+ \let\pgfplotsutil@reserved@d=#1%
+ \t@pgfplots@tokc={#2}%
+ \edef\pgfplotsutil@reserved@a{\the\t@pgfplots@tokc}%
+ \t@pgfplots@tokc={#3}%
+ \def\pgfplotsutil@reserved@b{\the\t@pgfplots@tokc}%
+ \futurelet\pgfplotsutil@let@token\pgfplotsutil@ifnch}
+\def\pgfplotsutil@ifnch{%
+ \ifx\pgfplotsutil@let@token\pgfplotsutil@sptoken
+ \let\pgfplotsutil@reserved@c\pgfplotsutil@xifnch
+ \else
+ \ifx\pgfplotsutil@let@token\pgfplotsutil@reserved@d
+ \let\pgfplotsutil@reserved@c\pgfplotsutil@reserved@a
+ \else
+ \let\pgfplotsutil@reserved@c\pgfplotsutil@reserved@b
+ \fi
+ \fi
+ \pgfplotsutil@reserved@c}
+{%
+ \def\:{\global\let\pgfplotsutil@sptoken= } \:
+ \def\:{\pgfplotsutil@xifnch} \expandafter\gdef\: {\futurelet\pgfplotsutil@let@token\pgfplotsutil@ifnch}
+}
+
\input pgfplotsliststructure.code.tex
\input pgfplotsliststructureext.code.tex
\input pgfplotsarray.code.tex
+\input pgfplotsmatrix.code.tex
\input pgfplotstableshared.code.tex
\input pgfplotsdeque.code.tex
\input pgfplotsbinary.code.tex
+\input pgfplotsutil.verb.code.tex
\usepgfplotslibrary{surfshading}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.verb.code.tex b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.verb.code.tex
new file mode 100644
index 00000000000..8590ba908d6
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.verb.code.tex
@@ -0,0 +1,97 @@
+%--------------------------------------------
+%
+% Package pgfplots
+%
+% Copyright 2007-2011 by Christian Feuersänger.
+%
+% This program is free software: you can redistribute it and/or modify
+% it under the terms of the GNU General Public License as published by
+% the Free Software Foundation, either version 3 of the License, or
+% (at your option) any later version.
+%
+% This program is distributed in the hope that it will be useful,
+% but WITHOUT ANY WARRANTY; without even the implied warranty of
+% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+% GNU General Public License for more details.
+%
+% You should have received a copy of the GNU General Public License
+% along with this program. If not, see <http://www.gnu.org/licenses/>.
+%
+%--------------------------------------------
+%
+% This source file contains helper utilities for verbatim character
+% processing.
+
+
+%
+% USAGE:
+% \beginpgfplotsverbatim[result/.code={\message{I read #1}}]
+% <verbatim code>
+% \endpgfplotsverbatim
+%
+% The verbatim code MUST start at the line after the ']' (or after
+% \beginpgfplotsverbatim if there is no ']')
+\def\beginpgfplotsverbatim{\pgfutil@ifnextchar[{\beginpgfplotsverbatim@}{\beginpgfplotsverbatim@[]}}
+\def\beginpgfplotsverbatim@[#1]{%
+ \begingroup
+ \pgfqkeys{/pgfplots/verb}{#1}%
+ \pgfplots@verbatim@prepare@collect
+ \beginpgfplotsverbatim@gobbleuntileol
+}
+
+\begingroup
+\catcode`\|=0
+\catcode`\\=12
+|gdef|endpgfplotsverbatim{\endpgfplotsverbatim}%
+|endgroup
+
+\expandafter\long\expandafter\def\expandafter\pgfplots@verbatim@collect@until\expandafter#\expandafter1\endpgfplotsverbatim{%
+ \begingroup
+ \pgfplots@verbatim@newline@handler
+ \xdef\pgfplots@glob@TMPa{#1}%
+ \endgroup
+ \pgfkeysgetvalue{/pgfplots/verb/result/.@cmd}\pgfplots@loc@TMPb
+ \global\let\pgfplots@glob@TMPb=\pgfplots@loc@TMPb
+ \endgroup% restore old catcodes etc.
+ \expandafter\pgfplots@glob@TMPb\expandafter{\pgfplots@glob@TMPa}\pgfeov%
+}%
+
+\begingroup
+\long\def\pgfplots@loc@TMPa{
+}%^^M}%
+\catcode`\^^M=13 %
+\gdef\beginpgfplotsverbatim@gobbleuntileol^^M{\pgfplots@verbatim@collect@until}%
+\gdef\pgfplots@verbatim@newline@toHATHATJ{\def^^M{^^J}}%
+\xdef\pgfplots@verbatim@newline@IDENTITY{\noexpand\long\noexpand\def\noexpand^^M{\pgfplots@loc@TMPa}}%
+\endgroup
+
+\pgfkeys{
+ /pgfplots/verb/result/.code={%
+ \pgfplots@error{Please use \string\beginpgfplotsverbatim[result/.code=....] to configure what to do with the content of \string\beginpgfplotsverbatim...\endpgfplotsverbatim\space (or use \string\pgfplotsset{verb/.cd,result/.code=....} in your preamble)}%
+ },
+ /pgfplots/verb/newline handler/.is choice,
+ /pgfplots/verb/newline handler/to outfile/.code=
+ {\let\pgfplots@verbatim@newline@handler=\pgfplots@verbatim@newline@toHATHATJ},
+ /pgfplots/verb/newline handler/identity/.code=
+ {\let\pgfplots@verbatim@newline@handler=\pgfplots@verbatim@newline@IDENTITY},
+ /pgfplots/verb/newline handler/identity,
+}
+
+\def\pgfplots@verbatim@prepare@collect{%
+ \def\do##1{\catcode`##1=12 }\dospecials
+ \catcode`\^^M=13
+ \catcode`\^^J=12
+ \catcode`\^^I=12
+}%
+
+\def\pgfplots@verbatim@restore@catcodes{%
+ \catcode`\^^M=5
+ \catcode`\^^J=10
+ \catcode`\^^I=10
+ % this is important to get \scantokens to work: otherwise, it will
+ % eat up the ^^M chars:
+ \endlinechar=`\^^M
+ \newlinechar=\endlinechar
+}%
+
+\endinput