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-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.colortol.code.tex766
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarycolortol.code.tex277
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.dateplot.code.tex15
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.fillbetween.code.tex16
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.groupplots.code.tex34
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex156
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex8
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.statistics.code.tex50
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex34
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex34
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/binary.lua2
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/colormap.lua66
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/meshplothandler.lua12
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotstexio.lua99
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotsutil.lua4
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/plothandler.lua82
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/statistics.lua42
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/streamer.lua20
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex77
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex74
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_loader.code.tex62
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_misc.code.tex32
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreimage.code.tex31
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryfpu.code.tex58
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryintersections.code.tex56
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryluamath.code.tex47
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmanual.prettyprinter.code.tex45
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfmathfloat.code.tex44
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfutil-common-lists.tex14
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty9
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternalshared.code.tex62
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfsys-luatexpatch.def6
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/pgflibraryfillbetween.code.tex34
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/tikzlibraryfillbetween.code.tex20
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex558
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.markers.code.tex15
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex8
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplots.scaling.code.tex178
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex680
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex120
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex86
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex170
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-dvips.def14
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-luatex.def7
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex143
-rw-r--r--Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex100
46 files changed, 2993 insertions, 1474 deletions
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.colortol.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.colortol.code.tex
new file mode 100644
index 00000000000..e83d62a70f9
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/pgflibrarypgfplots.colortol.code.tex
@@ -0,0 +1,766 @@
+
+% load all colors for the `colormap's and `cycle list's
+\usetikzlibrary{colortol}
+
+% define `colormap's
+\pgfplotsset{
+ /pgfplots/@@colortol set cycle list/.code={%
+ \pgfkeysalso{
+ /pgfplots/ensure colormap={/pgfplots/colormap/#1},
+ /pgfplots/cycle list name=#1,
+ },
+ },
+ % -----------------------------------
+ % define "the" palette I colormap, which is just an alias for
+ % the colormap `colortol-P1-9'
+ /pgfplots/colormap/colortol-P1/.style={
+ colormap={colortol-P1}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-I);
+ color=(colortol-P1-L);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1}{[of colormap=colortol-P1]},
+ },
+ /pgfplots/cycle list/colortol-P1/.style={/pgfplots/@@colortol set cycle list={colortol-P1}},
+ %
+ % -----------------------------------
+ % define (other) palette I colormaps
+ /pgfplots/colormap/colortol-P1-3/.style={
+ colormap={colortol-P1-3}{
+ color=(colortol-P1-B);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ },
+ cycle list/.define={colortol-P1-3}{[of colormap=colortol-P1-3]},
+ },
+ /pgfplots/cycle list/colortol-P1-3/.style={/pgfplots/@@colortol set cycle list={colortol-P1-3}},
+ %
+ /pgfplots/colormap/colortol-P1-4/.style={
+ colormap={colortol-P1-4}{
+ color=(colortol-P1-B);
+ color=(colortol-P1-F);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ },
+ cycle list/.define={colortol-P1-4}{[of colormap=colortol-P1-4]},
+ },
+ /pgfplots/cycle list/colortol-P1-4/.style={/pgfplots/@@colortol set cycle list={colortol-P1-4}},
+ %
+ /pgfplots/colormap/colortol-P1-5/.style={
+ colormap={colortol-P1-5}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-F);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ },
+ cycle list/.define={colortol-P1-5}{[of colormap=colortol-P1-5]},
+ },
+ /pgfplots/cycle list/colortol-P1-5/.style={/pgfplots/@@colortol set cycle list={colortol-P1-5}},
+ %
+ /pgfplots/colormap/colortol-P1-6/.style={
+ colormap={colortol-P1-6}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-F);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-6}{[of colormap=colortol-P1-6]},
+ },
+ /pgfplots/cycle list/colortol-P1-6/.style={/pgfplots/@@colortol set cycle list={colortol-P1-6}},
+ %
+ /pgfplots/colormap/colortol-P1-7/.style={
+ colormap={colortol-P1-7}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-7}{[of colormap=colortol-P1-7]},
+ },
+ /pgfplots/cycle list/colortol-P1-7/.style={/pgfplots/@@colortol set cycle list={colortol-P1-7}},
+ %
+ /pgfplots/colormap/colortol-P1-8/.style={
+ colormap={colortol-P1-8}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-8}{[of colormap=colortol-P1-8]},
+ },
+ /pgfplots/cycle list/colortol-P1-8/.style={/pgfplots/@@colortol set cycle list={colortol-P1-8}},
+ %
+ /pgfplots/colormap/colortol-P1-9/.style={
+ colormap={colortol-P1-9}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-J);
+ color=(colortol-P1-L);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-9}{[of colormap=colortol-P1-9]},
+ },
+ /pgfplots/cycle list/colortol-P1-9/.style={/pgfplots/@@colortol set cycle list={colortol-P1-9}},
+ %
+ /pgfplots/colormap/colortol-P1-10/.style={
+ colormap={colortol-P1-10}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-I);
+ color=(colortol-P1-J);
+ color=(colortol-P1-L);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-10}{[of colormap=colortol-P1-10]},
+ },
+ /pgfplots/cycle list/colortol-P1-10/.style={/pgfplots/@@colortol set cycle list={colortol-P1-10}},
+ %
+ /pgfplots/colormap/colortol-P1-11/.style={
+ colormap={colortol-P1-11}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-C);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-I);
+ color=(colortol-P1-J);
+ color=(colortol-P1-L);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-11}{[of colormap=colortol-P1-11]},
+ },
+ /pgfplots/cycle list/colortol-P1-11/.style={/pgfplots/@@colortol set cycle list={colortol-P1-11}},
+ %
+ /pgfplots/colormap/colortol-P1-12/.style={
+ colormap={colortol-P1-12}{
+ color=(colortol-P1-A);
+ color=(colortol-P1-C);
+ color=(colortol-P1-D);
+ color=(colortol-P1-E);
+ color=(colortol-P1-F);
+ color=(colortol-P1-G);
+ color=(colortol-P1-H);
+ color=(colortol-P1-I);
+ color=(colortol-P1-J);
+ color=(colortol-P1-K);
+ color=(colortol-P1-L);
+ color=(colortol-P1-M);
+ },
+ cycle list/.define={colortol-P1-12}{[of colormap=colortol-P1-12]},
+ },
+ /pgfplots/cycle list/colortol-P1-12/.style={/pgfplots/@@colortol set cycle list={colortol-P1-12}},
+ %
+ % -----------------------------------
+ % define palette II colormaps
+ /pgfplots/colormap/colortol-P2light/.style={
+ colormap={colortol-P2light}{
+ color=(colortol-P2light-A);
+ color=(colortol-P2light-B);
+ color=(colortol-P2light-C);
+ color=(colortol-P2light-D);
+ color=(colortol-P2light-E);
+ color=(colortol-P2light-F);
+ color=(colortol-P2light-G);
+ },
+ cycle list/.define={colortol-P2light}{[of colormap=colortol-P2light]},
+ },
+ /pgfplots/cycle list/colortol-P2light/.style={/pgfplots/@@colortol set cycle list={colortol-P2light}},
+ %
+ /pgfplots/colormap/colortol-P2/.style={
+ colormap={colortol-P2}{
+ color=(colortol-P2-A);
+ color=(colortol-P2-B);
+ color=(colortol-P2-C);
+ color=(colortol-P2-D);
+ color=(colortol-P2-E);
+ color=(colortol-P2-F);
+ color=(colortol-P2-G);
+ },
+ cycle list/.define={colortol-P2}{[of colormap=colortol-P2]},
+ },
+ /pgfplots/cycle list/colortol-P2/.style={/pgfplots/@@colortol set cycle list={colortol-P2}},
+ %
+ /pgfplots/colormap/colortol-P2dark/.style={
+ colormap={colortol-P2dark}{
+ color=(colortol-P2dark-A);
+ color=(colortol-P2dark-B);
+ color=(colortol-P2dark-C);
+ color=(colortol-P2dark-D);
+ color=(colortol-P2dark-E);
+ color=(colortol-P2dark-F);
+ color=(colortol-P2dark-G);
+ },
+ cycle list/.define={colortol-P2dark}{[of colormap=colortol-P2dark]},
+ },
+ /pgfplots/cycle list/colortol-P2dark/.style={/pgfplots/@@colortol set cycle list={colortol-P2dark}},
+ %
+ % -----------------------------------
+ % define palette III colormap, which is just an alias for
+ % the colormap `colortol-P3-5+'
+ /pgfplots/colormap/colortol-P3/.style={
+ colormap={colortol-P3}{
+ color=(colortol-P3-blue),
+ color=(colortol-P3-cyan),
+ color=(colortol-P3-green),
+ color=(colortol-P3-yellow),
+ color=(colortol-P3-red),
+ color=(colortol-P3-pink),
+ },
+ cycle list/.define={colortol-P3}{[of colormap=colortol-P3]},
+ },
+ /pgfplots/cycle list/colortol-P3/.style={/pgfplots/@@colortol set cycle list={colortol-P3}},
+ %
+ % -----------------------------------
+ % define (other) palette III colormaps
+ /pgfplots/colormap/colortol-P3-4-/.style={
+ colormap={colortol-P3-4-}{
+ color=(colortol-P3-blue),
+ color=(colortol-P3-red),
+ color=(colortol-P3-green),
+ color=(colortol-P3-yellow),
+ },
+ cycle list/.define={colortol-P3-4-}{[of colormap=colortol-P3-4-]},
+ },
+ /pgfplots/cycle list/colortol-P3-4-/.style={/pgfplots/@@colortol set cycle list={colortol-P3-4-}},
+ %
+ /pgfplots/colormap/colortol-P3-5+/.style={
+ colormap={colortol-P3-5+}{
+ color=(colortol-P3-blue),
+ color=(colortol-P3-cyan),
+ color=(colortol-P3-green),
+ color=(colortol-P3-yellow),
+ color=(colortol-P3-red),
+ color=(colortol-P3-pink),
+ },
+ cycle list/.define={colortol-P3-5+}{[of colormap=colortol-P3-5+]},
+ },
+ /pgfplots/cycle list/colortol-P3-5+/.style={/pgfplots/@@colortol set cycle list={colortol-P3-5+}},
+ %
+ % ===================================
+ % define colormaps for sequential data
+ /pgfplots/colormap/colortol-seq-3/.style={
+ colormap={colortol-seq-3}{
+ color=(colortol-seq-C);
+ color=(colortol-seq-F);
+ color=(colortol-seq-I);
+ },
+ cycle list/.define={colortol-seq-3}{[of colormap=colortol-seq-3]},
+ },
+ /pgfplots/cycle list/colortol-seq-3/.style={/pgfplots/@@colortol set cycle list={colortol-seq-3}},
+ %
+ /pgfplots/colormap/colortol-seq-4/.style={
+ colormap={colortol-seq-4}{
+ color=(colortol-seq-B);
+ color=(colortol-seq-E);
+ color=(colortol-seq-G);
+ color=(colortol-seq-J);
+ },
+ cycle list/.define={colortol-seq-4}{[of colormap=colortol-seq-4]},
+ },
+ /pgfplots/cycle list/colortol-seq-4/.style={/pgfplots/@@colortol set cycle list={colortol-seq-4}},
+ %
+ /pgfplots/colormap/colortol-seq-5/.style={
+ colormap={colortol-seq-5}{
+ color=(colortol-seq-B);
+ color=(colortol-seq-E);
+ color=(colortol-seq-G);
+ color=(colortol-seq-I);
+ color=(colortol-seq-K);
+ },
+ cycle list/.define={colortol-seq-5}{[of colormap=colortol-seq-5]},
+ },
+ /pgfplots/cycle list/colortol-seq-5/.style={/pgfplots/@@colortol set cycle list={colortol-seq-5}},
+ %
+ /pgfplots/colormap/colortol-seq-6/.style={
+ colormap={colortol-seq-6}{
+ color=(colortol-seq-B);
+ color=(colortol-seq-D);
+ color=(colortol-seq-F);
+ color=(colortol-seq-G);
+ color=(colortol-seq-I);
+ color=(colortol-seq-K);
+ },
+ cycle list/.define={colortol-seq-6}{[of colormap=colortol-seq-6]},
+ },
+ /pgfplots/cycle list/colortol-seq-6/.style={/pgfplots/@@colortol set cycle list={colortol-seq-6}},
+ %
+ /pgfplots/colormap/colortol-seq-7/.style={
+ colormap={colortol-seq-7}{
+ color=(colortol-seq-B);
+ color=(colortol-seq-D);
+ color=(colortol-seq-F);
+ color=(colortol-seq-G);
+ color=(colortol-seq-H);
+ color=(colortol-seq-J);
+ color=(colortol-seq-L);
+ },
+ cycle list/.define={colortol-seq-7}{[of colormap=colortol-seq-7]},
+ },
+ /pgfplots/cycle list/colortol-seq-7/.style={/pgfplots/@@colortol set cycle list={colortol-seq-7}},
+ %
+ /pgfplots/colormap/colortol-seq-8/.style={
+ colormap={colortol-seq-8}{
+ color=(colortol-seq-A);
+ color=(colortol-seq-C);
+ color=(colortol-seq-D);
+ color=(colortol-seq-F);
+ color=(colortol-seq-G);
+ color=(colortol-seq-H);
+ color=(colortol-seq-J);
+ color=(colortol-seq-L);
+ },
+ cycle list/.define={colortol-seq-8}{[of colormap=colortol-seq-8]},
+ },
+ /pgfplots/cycle list/colortol-seq-8/.style={/pgfplots/@@colortol set cycle list={colortol-seq-8}},
+ %
+ /pgfplots/colormap/colortol-seq-9/.style={
+ colormap={colortol-seq-9}{
+ color=(colortol-seq-A);
+ color=(colortol-seq-C);
+ color=(colortol-seq-D);
+ color=(colortol-seq-F);
+ color=(colortol-seq-G);
+ color=(colortol-seq-H);
+ color=(colortol-seq-J);
+ color=(colortol-seq-K);
+ color=(colortol-seq-M);
+ },
+ cycle list/.define={colortol-seq-9}{[of colormap=colortol-seq-9]},
+ },
+ /pgfplots/cycle list/colortol-seq-9/.style={/pgfplots/@@colortol set cycle list={colortol-seq-9}},
+ %
+ % -----------------------------------
+ % define colormaps for diverging data
+ /pgfplots/colormap/colortol-div-3/.style={
+ colormap={colortol-div-3}{
+ color=(colortol-div-E);
+ color=(colortol-div-H);
+ color=(colortol-div-K);
+ },
+ cycle list/.define={colortol-div-3}{[of colormap=colortol-div-3]},
+ },
+ /pgfplots/cycle list/colortol-div-3/.style={/pgfplots/@@colortol set cycle list={colortol-div-3}},
+ %
+ /pgfplots/colormap/colortol-div-4/.style={
+ colormap={colortol-div-4}{
+ color=(colortol-div-A);
+ color=(colortol-div-F);
+ color=(colortol-div-J);
+ color=(colortol-div-N);
+ },
+ cycle list/.define={colortol-div-4}{[of colormap=colortol-div-4]},
+ },
+ /pgfplots/cycle list/colortol-div-4/.style={/pgfplots/@@colortol set cycle list={colortol-div-4}},
+ %
+ /pgfplots/colormap/colortol-div-5/.style={
+ colormap={colortol-div-5}{
+ color=(colortol-div-A);
+ color=(colortol-div-F);
+ color=(colortol-div-H);
+ color=(colortol-div-J);
+ color=(colortol-div-N);
+ },
+ cycle list/.define={colortol-div-5}{[of colormap=colortol-div-5]},
+ },
+ /pgfplots/cycle list/colortol-div-5/.style={/pgfplots/@@colortol set cycle list={colortol-div-5}},
+ %
+ /pgfplots/colormap/colortol-div-6/.style={
+ colormap={colortol-div-6}{
+ color=(colortol-div-C);
+ color=(colortol-div-E);
+ color=(colortol-div-G);
+ color=(colortol-div-I);
+ color=(colortol-div-K);
+ color=(colortol-div-M);
+ },
+ cycle list/.define={colortol-div-6}{[of colormap=colortol-div-6]},
+ },
+ /pgfplots/cycle list/colortol-div-6/.style={/pgfplots/@@colortol set cycle list={colortol-div-6}},
+ %
+ /pgfplots/colormap/colortol-div-7/.style={
+ colormap={colortol-div-7}{
+ color=(colortol-div-C);
+ color=(colortol-div-E);
+ color=(colortol-div-G);
+ color=(colortol-div-H);
+ color=(colortol-div-I);
+ color=(colortol-div-K);
+ color=(colortol-div-M);
+ },
+ cycle list/.define={colortol-div-7}{[of colormap=colortol-div-7]},
+ },
+ /pgfplots/cycle list/colortol-div-7/.style={/pgfplots/@@colortol set cycle list={colortol-div-7}},
+ %
+ /pgfplots/colormap/colortol-div-8/.style={
+ colormap={colortol-div-8}{
+ color=(colortol-div-C);
+ color=(colortol-div-D);
+ color=(colortol-div-F);
+ color=(colortol-div-G);
+ color=(colortol-div-I);
+ color=(colortol-div-J);
+ color=(colortol-div-L);
+ color=(colortol-div-M);
+ },
+ cycle list/.define={colortol-div-8}{[of colormap=colortol-div-8]},
+ },
+ /pgfplots/cycle list/colortol-div-8/.style={/pgfplots/@@colortol set cycle list={colortol-div-8}},
+ %
+ /pgfplots/colormap/colortol-div-9/.style={
+ colormap={colortol-div-9}{
+ color=(colortol-div-C);
+ color=(colortol-div-D);
+ color=(colortol-div-F);
+ color=(colortol-div-G);
+ color=(colortol-div-H);
+ color=(colortol-div-I);
+ color=(colortol-div-J);
+ color=(colortol-div-L);
+ color=(colortol-div-M);
+ },
+ cycle list/.define={colortol-div-9}{[of colormap=colortol-div-9]},
+ },
+ /pgfplots/cycle list/colortol-div-9/.style={/pgfplots/@@colortol set cycle list={colortol-div-9}},
+ %
+ /pgfplots/colormap/colortol-div-10/.style={
+ colormap={colortol-div-10}{
+ color=(colortol-div-B);
+ color=(colortol-div-C);
+ color=(colortol-div-D);
+ color=(colortol-div-F);
+ color=(colortol-div-G);
+ color=(colortol-div-I);
+ color=(colortol-div-J);
+ color=(colortol-div-L);
+ color=(colortol-div-M);
+ color=(colortol-div-O);
+ },
+ cycle list/.define={colortol-div-10}{[of colormap=colortol-div-10]},
+ },
+ /pgfplots/cycle list/colortol-div-10/.style={/pgfplots/@@colortol set cycle list={colortol-div-10}},
+ %
+ /pgfplots/colormap/colortol-div-11/.style={
+ colormap={colortol-div-11}{
+ color=(colortol-div-B);
+ color=(colortol-div-C);
+ color=(colortol-div-D);
+ color=(colortol-div-F);
+ color=(colortol-div-G);
+ color=(colortol-div-H);
+ color=(colortol-div-I);
+ color=(colortol-div-J);
+ color=(colortol-div-L);
+ color=(colortol-div-M);
+ color=(colortol-div-O);
+ },
+ cycle list/.define={colortol-div-11}{[of colormap=colortol-div-11]},
+ },
+ /pgfplots/cycle list/colortol-div-11/.style={/pgfplots/@@colortol set cycle list={colortol-div-11}},
+ %
+ % -----------------
+ /pgfplots/colormap/colortol-div2/.style={
+ colormap={colortol-div2}{
+ color=(colortol-div2-A);
+ color=(colortol-div2-B);
+ color=(colortol-div2-C);
+ color=(colortol-div2-D);
+ color=(colortol-div2-E);
+ color=(colortol-div2-F);
+ color=(colortol-div2-G);
+ color=(colortol-div2-H);
+ color=(colortol-div2-I);
+ },
+ cycle list/.define={colortol-div2}{[of colormap=colortol-div2]},
+ },
+ /pgfplots/cycle list/colortol-div2/.style={/pgfplots/@@colortol set cycle list={colortol-div2}},
+ %
+ /pgfplots/colormap/colortol-div3/.style={
+ colormap={colortol-div3}{
+ color=(colortol-div3-A);
+ color=(colortol-div3-B);
+ color=(colortol-div3-C);
+ color=(colortol-div3-D);
+ color=(colortol-div3-E);
+ color=(colortol-div3-F);
+ color=(colortol-div3-G);
+ color=(colortol-div3-H);
+ color=(colortol-div3-I);
+ },
+ cycle list/.define={colortol-div3}{[of colormap=colortol-div3]},
+ },
+ /pgfplots/cycle list/colortol-div3/.style={/pgfplots/@@colortol set cycle list={colortol-div3}},
+ %
+ % ===================================
+ % define rainbow colormaps
+ /pgfplots/colormap/colortol-rainbow-4/.style={
+ colormap={colortol-rainbow-4}{
+ color=(colortol-rainbow-F);
+ color=(colortol-rainbow-W);
+ color=(colortol-rainbow-AQ);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-4}{[of colormap=colortol-rainbow-4]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-4/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-4}},
+ %
+ /pgfplots/colormap/colortol-rainbow-5/.style={
+ colormap={colortol-rainbow-5}{
+ color=(colortol-rainbow-F);
+ color=(colortol-rainbow-T);
+ color=(colortol-rainbow-AD);
+ color=(colortol-rainbow-AS);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-5}{[of colormap=colortol-rainbow-5]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-5/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-5}},
+ %
+ /pgfplots/colormap/colortol-rainbow-6/.style={
+ colormap={colortol-rainbow-6}{
+ color=(colortol-rainbow-F);
+ color=(colortol-rainbow-Q);
+ color=(colortol-rainbow-AA);
+ color=(colortol-rainbow-AK);
+ color=(colortol-rainbow-AV);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-6}{[of colormap=colortol-rainbow-6]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-6/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-6}},
+ %
+ /pgfplots/colormap/colortol-rainbow-7/.style={
+ colormap={colortol-rainbow-7}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-J);
+ color=(colortol-rainbow-U);
+ color=(colortol-rainbow-AB);
+ color=(colortol-rainbow-AM);
+ color=(colortol-rainbow-AW);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-7}{[of colormap=colortol-rainbow-7]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-7/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-7}},
+ %
+ /pgfplots/colormap/colortol-rainbow-8/.style={
+ colormap={colortol-rainbow-8}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-I);
+ color=(colortol-rainbow-R);
+ color=(colortol-rainbow-Y);
+ color=(colortol-rainbow-AG);
+ color=(colortol-rainbow-AO);
+ color=(colortol-rainbow-AX);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-8}{[of colormap=colortol-rainbow-8]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-8/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-8}},
+ %
+ /pgfplots/colormap/colortol-rainbow-9/.style={
+ colormap={colortol-rainbow-9}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-H);
+ color=(colortol-rainbow-N);
+ color=(colortol-rainbow-W);
+ color=(colortol-rainbow-AB);
+ color=(colortol-rainbow-AI);
+ color=(colortol-rainbow-AR);
+ color=(colortol-rainbow-AY);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-9}{[of colormap=colortol-rainbow-9]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-9/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-9}},
+ %
+ /pgfplots/colormap/colortol-rainbow-10/.style={
+ colormap={colortol-rainbow-10}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-G);
+ color=(colortol-rainbow-M);
+ color=(colortol-rainbow-T);
+ color=(colortol-rainbow-Z);
+ color=(colortol-rainbow-AF);
+ color=(colortol-rainbow-AL);
+ color=(colortol-rainbow-AS);
+ color=(colortol-rainbow-AZ);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-10}{[of colormap=colortol-rainbow-10]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-10/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-10}},
+ %
+ /pgfplots/colormap/colortol-rainbow-11/.style={
+ colormap={colortol-rainbow-11}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-F);
+ color=(colortol-rainbow-L);
+ color=(colortol-rainbow-S);
+ color=(colortol-rainbow-X);
+ color=(colortol-rainbow-AC);
+ color=(colortol-rainbow-AH);
+ color=(colortol-rainbow-AN);
+ color=(colortol-rainbow-AT);
+ color=(colortol-rainbow-BA);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-11}{[of colormap=colortol-rainbow-11]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-11/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-11}},
+ %
+ /pgfplots/colormap/colortol-rainbow-12/.style={
+ colormap={colortol-rainbow-12}{
+ color=(colortol-rainbow-A);
+ color=(colortol-rainbow-E);
+ color=(colortol-rainbow-K);
+ color=(colortol-rainbow-P);
+ color=(colortol-rainbow-V);
+ color=(colortol-rainbow-AA);
+ color=(colortol-rainbow-AE);
+ color=(colortol-rainbow-AJ);
+ color=(colortol-rainbow-AP);
+ color=(colortol-rainbow-AU);
+ color=(colortol-rainbow-AB);
+ color=(colortol-rainbow-AD);
+ },
+ cycle list/.define={colortol-rainbow-12}{[of colormap=colortol-rainbow-12]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-12/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-12}},
+ %
+ /pgfplots/colormap/colortol-rainbow-14/.style={
+ colormap={colortol-rainbow-14}{
+ color=(colortol-rainbow-B);
+ color=(colortol-rainbow-C);
+ color=(colortol-rainbow-D);
+ color=(colortol-rainbow-AF);
+ color=(colortol-rainbow-O);
+ color=(colortol-rainbow-AG);
+ color=(colortol-rainbow-AH);
+ color=(colortol-rainbow-AI);
+ color=(colortol-rainbow-AJ);
+ color=(colortol-rainbow-AK);
+ color=(colortol-rainbow-AL);
+ color=(colortol-rainbow-AM);
+ color=(colortol-rainbow-AC);
+ color=(colortol-rainbow-AE);
+ },
+ cycle list/.define={colortol-rainbow-14}{[of colormap=colortol-rainbow-14]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-14/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-14}},
+ %
+ % -----------------------------------
+ % define continuous rainbow colormap
+ /pgfplots/colormap/colortol-rainbow-cont/.style={
+ colormap={colortol-rainbow-cont}{
+ color=(colortol-rainbow-cont-A);
+ color=(colortol-rainbow-cont-B);
+ color=(colortol-rainbow-cont-C);
+ color=(colortol-rainbow-cont-D);
+ color=(colortol-rainbow-cont-E);
+ color=(colortol-rainbow-cont-F);
+ color=(colortol-rainbow-cont-G);
+ color=(colortol-rainbow-cont-H);
+ color=(colortol-rainbow-cont-I);
+ color=(colortol-rainbow-cont-J);
+ color=(colortol-rainbow-cont-K);
+ color=(colortol-rainbow-cont-L);
+ color=(colortol-rainbow-cont-M);
+ color=(colortol-rainbow-cont-N);
+ color=(colortol-rainbow-cont-O);
+ color=(colortol-rainbow-cont-P);
+ color=(colortol-rainbow-cont-Q);
+ color=(colortol-rainbow-cont-R);
+ color=(colortol-rainbow-cont-S);
+ color=(colortol-rainbow-cont-T);
+ color=(colortol-rainbow-cont-U);
+ color=(colortol-rainbow-cont-V);
+ color=(colortol-rainbow-cont-W);
+ color=(colortol-rainbow-cont-X);
+ color=(colortol-rainbow-cont-Y);
+ },
+ cycle list/.define={colortol-rainbow-cont}{[of colormap=colortol-rainbow-cont]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-cont/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-cont}},
+ %
+ % -----------------
+ /pgfplots/colormap/colortol-rainbow-ext-low/.style={
+ colormap={colortol-rainbow-ext-low}{
+ color=(colortol-rainbow-ext-low-A),
+ color=(colortol-rainbow-ext-low-B),
+ color=(colortol-rainbow-ext-low-C),
+ color=(colortol-rainbow-ext-low-D),
+ color=(colortol-rainbow-ext-low-E),
+ color=(colortol-rainbow-ext-low-F),
+ color=(colortol-rainbow-ext-low-G),
+ color=(colortol-rainbow-ext-low-H),
+ },
+ cycle list/.define={colortol-rainbow-ext-low}{[of colormap=colortol-rainbow-ext-low]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-ext-low/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-ext-low}},
+ %
+ /pgfplots/colormap/colortol-rainbow-cont/.style={
+ colormap={colortol-rainbow-cont}{
+ color=(colortol-rainbow-ext-A),
+ color=(colortol-rainbow-ext-B),
+ color=(colortol-rainbow-ext-C),
+ color=(colortol-rainbow-ext-D),
+ color=(colortol-rainbow-ext-E),
+ color=(colortol-rainbow-ext-F),
+ color=(colortol-rainbow-ext-G),
+ color=(colortol-rainbow-ext-H),
+ color=(colortol-rainbow-ext-I),
+ color=(colortol-rainbow-ext-J),
+ color=(colortol-rainbow-ext-K),
+ color=(colortol-rainbow-ext-L),
+ color=(colortol-rainbow-ext-M),
+ color=(colortol-rainbow-ext-N),
+ color=(colortol-rainbow-ext-O),
+ color=(colortol-rainbow-ext-P),
+ color=(colortol-rainbow-ext-Q),
+ color=(colortol-rainbow-ext-R),
+ color=(colortol-rainbow-ext-S),
+ color=(colortol-rainbow-ext-T),
+ color=(colortol-rainbow-ext-U),
+ color=(colortol-rainbow-ext-V),
+ },
+ cycle list/.define={colortol-rainbow-ext}{[of colormap=colortol-rainbow-ext]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-ext/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-ext}},
+ %
+ /pgfplots/colormap/colortol-rainbow-ext-high/.style={
+ colormap={colortol-rainbow-ext-high}{
+ color=(colortol-rainbow-ext-high-A),
+ color=(colortol-rainbow-ext-high-B),
+ color=(colortol-rainbow-ext-high-C),
+ color=(colortol-rainbow-ext-high-D),
+ },
+ cycle list/.define={colortol-rainbow-ext-high}{[of colormap=colortol-rainbow-ext-high]},
+ },
+ /pgfplots/cycle list/colortol-rainbow-ext-high/.style={/pgfplots/@@colortol set cycle list={colortol-rainbow-ext-high}},
+}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarycolortol.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarycolortol.code.tex
new file mode 100644
index 00000000000..21a1e4c7813
--- /dev/null
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarycolortol.code.tex
@@ -0,0 +1,277 @@
+
+% Color schemes as obtained from <http://www.sron.nl/~pault/>
+% and <http://www.sron.nl/~pault/colourschemes.pdf> respectively
+
+% =============================================================================
+% colors from palette I
+\pgfutil@definecolor{colortol-P1-A}{RGB}{51,34,136}
+\pgfutil@definecolor{colortol-P1-B}{RGB}{68,119,170}
+\pgfutil@definecolor{colortol-P1-C}{RGB}{102,153,204}
+\pgfutil@definecolor{colortol-P1-D}{RGB}{136,204,238}
+\pgfutil@definecolor{colortol-P1-E}{RGB}{68,170,153}
+\pgfutil@definecolor{colortol-P1-F}{RGB}{17,119,51}
+\pgfutil@definecolor{colortol-P1-G}{RGB}{153,153,51}
+\pgfutil@definecolor{colortol-P1-H}{RGB}{221,204,119}
+\pgfutil@definecolor{colortol-P1-I}{RGB}{102,17,0}
+\pgfutil@definecolor{colortol-P1-J}{RGB}{204,102,119}
+\pgfutil@definecolor{colortol-P1-K}{RGB}{170,68,102}
+\pgfutil@definecolor{colortol-P1-L}{RGB}{136,34,85}
+\pgfutil@definecolor{colortol-P1-M}{RGB}{170,68,153}
+% color for data gaps
+\pgfutil@definecolor{colortol-P1-gap}{RGB}{221,221,221}
+
+
+% -----------------------------------------------------------------------------
+% colors from palette II
+% bright
+\pgfutil@definecolor{colortol-P2light-A}{RGB}{119,170,221}
+\pgfutil@definecolor{colortol-P2light-B}{RGB}{119,204,204}
+\pgfutil@definecolor{colortol-P2light-C}{RGB}{136,204,170}
+\pgfutil@definecolor{colortol-P2light-D}{RGB}{221,221,119}
+\pgfutil@definecolor{colortol-P2light-E}{RGB}{221,170,119}
+\pgfutil@definecolor{colortol-P2light-F}{RGB}{221,119,136}
+\pgfutil@definecolor{colortol-P2light-G}{RGB}{204,153,187}
+% medium
+\pgfutil@definecolor{colortol-P2-A}{RGB}{68,119,170}
+\pgfutil@definecolor{colortol-P2-B}{RGB}{68,170,170}
+\pgfutil@definecolor{colortol-P2-C}{RGB}{68,170,119}
+\pgfutil@definecolor{colortol-P2-D}{RGB}{170,170,68}
+\pgfutil@definecolor{colortol-P2-E}{RGB}{170,119,68}
+\pgfutil@definecolor{colortol-P2-F}{RGB}{170,68,85}
+\pgfutil@definecolor{colortol-P2-G}{RGB}{170,68,136}
+% dark
+\pgfutil@definecolor{colortol-P2dark-A}{RGB}{17,68,119}
+\pgfutil@definecolor{colortol-P2dark-B}{RGB}{17,119,119}
+\pgfutil@definecolor{colortol-P2dark-C}{RGB}{17,119,68}
+\pgfutil@definecolor{colortol-P2dark-D}{RGB}{119,119,17}
+\pgfutil@definecolor{colortol-P2dark-E}{RGB}{119,68,17}
+\pgfutil@definecolor{colortol-P2dark-F}{RGB}{119,17,34}
+\pgfutil@definecolor{colortol-P2dark-G}{RGB}{119,17,85}
+
+
+% -----------------------------------------------------------------------------
+% colors from palette III
+\pgfutil@definecolor{colortol-P3-blue}{RGB}{68,119,170}
+\pgfutil@definecolor{colortol-P3-cyan}{RGB}{102,204,238}
+\pgfutil@definecolor{colortol-P3-green}{RGB}{34,136,51}
+\pgfutil@definecolor{colortol-P3-yellow}{RGB}{204,187,68}
+\pgfutil@definecolor{colortol-P3-red}{RGB}{238,102,119}
+\pgfutil@definecolor{colortol-P3-pink}{RGB}{170,51,119}
+% color for data gaps
+\pgfutil@definecolor{colortol-P3-gray}{RGB}{187,187,187}
+
+
+% =============================================================================
+% colors from diverging and sequential palettes
+% sequential palette
+% (same as `YlOrBr' colormap from `ColorBrewer' library)
+\pgfutil@definecolor{colortol-seq-A}{RGB}{255,255,229}
+\pgfutil@definecolor{colortol-seq-B}{RGB}{255,251,213}
+\pgfutil@definecolor{colortol-seq-C}{RGB}{255,247,188}
+\pgfutil@definecolor{colortol-seq-D}{RGB}{254,227,145}
+\pgfutil@definecolor{colortol-seq-E}{RGB}{254,217,142}
+\pgfutil@definecolor{colortol-seq-F}{RGB}{254,196,79}
+\pgfutil@definecolor{colortol-seq-G}{RGB}{251,154,41}
+\pgfutil@definecolor{colortol-seq-H}{RGB}{236,112,20}
+\pgfutil@definecolor{colortol-seq-I}{RGB}{217,95,14}
+\pgfutil@definecolor{colortol-seq-J}{RGB}{204,76,2}
+\pgfutil@definecolor{colortol-seq-K}{RGB}{153,52,4}
+\pgfutil@definecolor{colortol-seq-L}{RGB}{140,45,4}
+\pgfutil@definecolor{colortol-seq-M}{RGB}{102,37,6}
+% color for data gaps
+\pgfutil@definecolor{colortol-seq-gap}{RGB}{136,136,136}
+
+
+% -----------------------------------------------------------------------------
+% diverging palettes
+% -----------------------------------------------------------------------------
+% (similar to `RdYlBu' colormap from `ColorBrewer' library)
+\pgfutil@definecolor{colortol-div-A}{RGB}{0,139,206}
+\pgfutil@definecolor{colortol-div-B}{RGB}{61,82,161}
+\pgfutil@definecolor{colortol-div-C}{RGB}{58,137,201}
+\pgfutil@definecolor{colortol-div-D}{RGB}{119,183,229}
+\pgfutil@definecolor{colortol-div-E}{RGB}{153,199,236}
+\pgfutil@definecolor{colortol-div-F}{RGB}{180,221,247}
+\pgfutil@definecolor{colortol-div-G}{RGB}{230,245,254}
+\pgfutil@definecolor{colortol-div-H}{RGB}{255,250,210}
+\pgfutil@definecolor{colortol-div-I}{RGB}{255,227,170}
+\pgfutil@definecolor{colortol-div-J}{RGB}{249,189,126}
+\pgfutil@definecolor{colortol-div-K}{RGB}{245,162,117}
+\pgfutil@definecolor{colortol-div-L}{RGB}{237,135,94}
+\pgfutil@definecolor{colortol-div-M}{RGB}{210,77,62}
+\pgfutil@definecolor{colortol-div-N}{RGB}{208,50,50}
+\pgfutil@definecolor{colortol-div-O}{RGB}{174,28,62}
+% color for data gaps
+\pgfutil@definecolor{colortol-div-gap}{RGB}{102,102,102}
+
+
+% (reversed `RdBu-9' colormap from `ColorBrewer' library)
+\pgfutil@definecolor{colortol-div2-A}{RGB}{33,102,172}
+\pgfutil@definecolor{colortol-div2-B}{RGB}{67,147,195}
+\pgfutil@definecolor{colortol-div2-C}{RGB}{146,197,222}
+\pgfutil@definecolor{colortol-div2-D}{RGB}{209,229,240}
+\pgfutil@definecolor{colortol-div2-E}{RGB}{247,247,247}
+\pgfutil@definecolor{colortol-div2-F}{RGB}{253,219,199}
+\pgfutil@definecolor{colortol-div2-G}{RGB}{244,165,130}
+\pgfutil@definecolor{colortol-div2-H}{RGB}{214,96,77}
+\pgfutil@definecolor{colortol-div2-I}{RGB}{178,24,43}
+% color for data gaps
+\pgfutil@definecolor{colortol-div2-gaps}{RGB}{255,238,153}
+
+
+% (similar to `PRGn-9' colormap from `ColorBrewer' library,
+% where only color G has changed. (PRGn-J = 166,219,160))
+\pgfutil@definecolor{colortol-div3-A}{RGB}{118,42,131}
+\pgfutil@definecolor{colortol-div3-B}{RGB}{153,112,171}
+\pgfutil@definecolor{colortol-div3-C}{RGB}{194,165,207}
+\pgfutil@definecolor{colortol-div3-D}{RGB}{231,212,232}
+\pgfutil@definecolor{colortol-div3-E}{RGB}{247,247,247}
+\pgfutil@definecolor{colortol-div3-F}{RGB}{217,240,211}
+\pgfutil@definecolor{colortol-div3-G}{RGB}{172,211,158}
+\pgfutil@definecolor{colortol-div3-H}{RGB}{90,174,97}
+\pgfutil@definecolor{colortol-div3-I}{RGB}{27,120,55}
+% color for data gaps
+\pgfutil@definecolor{colortol-div3-gaps}{RGB}{255,238,153}
+
+
+% =============================================================================
+% colors for the rainbow palette (from the TechNote)
+\pgfutil@definecolor{colortol-rainbow-A}{RGB}{120,28,129}
+\pgfutil@definecolor{colortol-rainbow-B}{RGB}{136,46,114}
+\pgfutil@definecolor{colortol-rainbow-C}{RGB}{177,120,166}
+\pgfutil@definecolor{colortol-rainbow-D}{RGB}{214,193,222}
+\pgfutil@definecolor{colortol-rainbow-E}{RGB}{65,59,147}
+\pgfutil@definecolor{colortol-rainbow-F}{RGB}{64,64,150}
+\pgfutil@definecolor{colortol-rainbow-G}{RGB}{63,71,155}
+\pgfutil@definecolor{colortol-rainbow-H}{RGB}{63,78,161}
+\pgfutil@definecolor{colortol-rainbow-I}{RGB}{63,86,167}
+\pgfutil@definecolor{colortol-rainbow-J}{RGB}{63,96,174}
+\pgfutil@definecolor{colortol-rainbow-K}{RGB}{64,101,177}
+\pgfutil@definecolor{colortol-rainbow-L}{RGB}{65,108,183}
+\pgfutil@definecolor{colortol-rainbow-M}{RGB}{66,119,189}
+\pgfutil@definecolor{colortol-rainbow-N}{RGB}{70,131,193}
+\pgfutil@definecolor{colortol-rainbow-O}{RGB}{82,137,199}
+\pgfutil@definecolor{colortol-rainbow-P}{RGB}{72,139,194}
+\pgfutil@definecolor{colortol-rainbow-Q}{RGB}{73,140,194}
+\pgfutil@definecolor{colortol-rainbow-R}{RGB}{75,145,192}
+\pgfutil@definecolor{colortol-rainbow-S}{RGB}{77,149,190}
+\pgfutil@definecolor{colortol-rainbow-T}{RGB}{82,157,183}
+\pgfutil@definecolor{colortol-rainbow-U}{RGB}{83,158,182}
+\pgfutil@definecolor{colortol-rainbow-V}{RGB}{85,161,177}
+\pgfutil@definecolor{colortol-rainbow-W}{RGB}{87,163,173}
+\pgfutil@definecolor{colortol-rainbow-X}{RGB}{91,167,167}
+\pgfutil@definecolor{colortol-rainbow-Y}{RGB}{95,170,159}
+\pgfutil@definecolor{colortol-rainbow-Z}{RGB}{98,172,155}
+\pgfutil@definecolor{colortol-rainbow-AA}{RGB}{99,173,153}
+\pgfutil@definecolor{colortol-rainbow-AB}{RGB}{109,179,136}
+\pgfutil@definecolor{colortol-rainbow-AC}{RGB}{110,179,135}
+\pgfutil@definecolor{colortol-rainbow-AD}{RGB}{125,184,116}
+\pgfutil@definecolor{colortol-rainbow-AE}{RGB}{127,185,114}
+\pgfutil@definecolor{colortol-rainbow-AF}{RGB}{134,187,106}
+\pgfutil@definecolor{colortol-rainbow-AG}{RGB}{145,189,97}
+\pgfutil@definecolor{colortol-rainbow-AH}{RGB}{161,190,86}
+\pgfutil@definecolor{colortol-rainbow-AI}{RGB}{177,190,78}
+\pgfutil@definecolor{colortol-rainbow-AJ}{RGB}{181,189,76}
+\pgfutil@definecolor{colortol-rainbow-AK}{RGB}{190,188,72}
+\pgfutil@definecolor{colortol-rainbow-AL}{RGB}{199,185,68}
+\pgfutil@definecolor{colortol-rainbow-AM}{RGB}{202,184,67}
+\pgfutil@definecolor{colortol-rainbow-AN}{RGB}{211,179,63}
+\pgfutil@definecolor{colortol-rainbow-AO}{RGB}{216,175,61}
+\pgfutil@definecolor{colortol-rainbow-AP}{RGB}{217,173,60}
+\pgfutil@definecolor{colortol-rainbow-AQ}{RGB}{222,167,58}
+\pgfutil@definecolor{colortol-rainbow-AR}{RGB}{223,165,58}
+\pgfutil@definecolor{colortol-rainbow-AS}{RGB}{227,156,55}
+\pgfutil@definecolor{colortol-rainbow-AT}{RGB}{229,148,53}
+\pgfutil@definecolor{colortol-rainbow-AU}{RGB}{230,142,52}
+\pgfutil@definecolor{colortol-rainbow-AV}{RGB}{230,139,51}
+\pgfutil@definecolor{colortol-rainbow-AW}{RGB}{231,133,50}
+\pgfutil@definecolor{colortol-rainbow-AX}{RGB}{231,124,48}
+\pgfutil@definecolor{colortol-rainbow-AY}{RGB}{231,116,47}
+\pgfutil@definecolor{colortol-rainbow-AZ}{RGB}{231,109,46}
+\pgfutil@definecolor{colortol-rainbow-BA}{RGB}{230,104,45}
+\pgfutil@definecolor{colortol-rainbow-BB}{RGB}{230,100,44}
+\pgfutil@definecolor{colortol-rainbow-BC}{RGB}{232,96,28}
+\pgfutil@definecolor{colortol-rainbow-BD}{RGB}{217,33,32}
+\pgfutil@definecolor{colortol-rainbow-BE}{RGB}{220,5,12}
+% ---
+\pgfutil@definecolor{colortol-rainbow-BF}{RGB}{25,101,176}
+\pgfutil@definecolor{colortol-rainbow-BG}{RGB}{123,175,222}
+\pgfutil@definecolor{colortol-rainbow-BH}{RGB}{78,178,101}
+\pgfutil@definecolor{colortol-rainbow-BI}{RGB}{144,201,135}
+\pgfutil@definecolor{colortol-rainbow-BJ}{RGB}{202,224,171}
+\pgfutil@definecolor{colortol-rainbow-BK}{RGB}{247,238,85}
+\pgfutil@definecolor{colortol-rainbow-BL}{RGB}{246,193,65}
+\pgfutil@definecolor{colortol-rainbow-BM}{RGB}{241,147,45}
+% color for data gaps
+\pgfutil@definecolor{colortol-rainbow-gap}{RGB}{119,119,119}
+
+
+% -----------------------------------------------------------------------------
+% rainbow continuous palette
+\pgfutil@definecolor{colortol-rainbow-cont-A}{rgb}{0.47200,0.10893,0.50761}
+\pgfutil@definecolor{colortol-rainbow-cont-B}{rgb}{0.34213,0.09855,0.49621}
+\pgfutil@definecolor{colortol-rainbow-cont-C}{rgb}{0.28275,0.14652,0.52189}
+\pgfutil@definecolor{colortol-rainbow-cont-D}{rgb}{0.25545,0.22543,0.57205}
+\pgfutil@definecolor{colortol-rainbow-cont-E}{rgb}{0.24671,0.31603,0.63730}
+\pgfutil@definecolor{colortol-rainbow-cont-F}{rgb}{0.25077,0.40567,0.70361}
+\pgfutil@definecolor{colortol-rainbow-cont-G}{rgb}{0.26491,0.48682,0.75045}
+\pgfutil@definecolor{colortol-rainbow-cont-H}{rgb}{0.28782,0.55584,0.75812}
+\pgfutil@definecolor{colortol-rainbow-cont-I}{rgb}{0.31885,0.61177,0.72118}
+\pgfutil@definecolor{colortol-rainbow-cont-J}{rgb}{0.35763,0.65539,0.65239}
+\pgfutil@definecolor{colortol-rainbow-cont-K}{rgb}{0.40379,0.68838,0.57183}
+\pgfutil@definecolor{colortol-rainbow-cont-L}{rgb}{0.45673,0.71262,0.49478}
+\pgfutil@definecolor{colortol-rainbow-cont-M}{rgb}{0.51545,0.72969,0.42849}
+\pgfutil@definecolor{colortol-rainbow-cont-N}{rgb}{0.57835,0.74051,0.37454}
+\pgfutil@definecolor{colortol-rainbow-cont-O}{rgb}{0.64317,0.74507,0.33179}
+\pgfutil@definecolor{colortol-rainbow-cont-P}{rgb}{0.70698,0.74240,0.29822}
+\pgfutil@definecolor{colortol-rainbow-cont-Q}{rgb}{0.76646,0.73065,0.27175}
+\pgfutil@definecolor{colortol-rainbow-cont-R}{rgb}{0.81822,0.70734,0.25045}
+\pgfutil@definecolor{colortol-rainbow-cont-S}{rgb}{0.85937,0.66972,0.23257}
+\pgfutil@definecolor{colortol-rainbow-cont-T}{rgb}{0.88791,0.61535,0.21650}
+\pgfutil@definecolor{colortol-rainbow-cont-U}{rgb}{0.90305,0.54279,0.20076}
+\pgfutil@definecolor{colortol-rainbow-cont-V}{rgb}{0.90520,0.45244,0.18413}
+\pgfutil@definecolor{colortol-rainbow-cont-W}{rgb}{0.89577,0.34756,0.16585}
+\pgfutil@definecolor{colortol-rainbow-cont-X}{rgb}{0.87679,0.23541,0.14585}
+\pgfutil@definecolor{colortol-rainbow-cont-Y}{rgb}{0.85054,0.12858,0.12484}
+
+
+% -----------------------------------------------------------------------------
+% colors for the extended rainbow palette (from the website)
+\pgfutil@definecolor{colortol-rainbow-ext-low-A}{RGB}{232,236,251}
+\pgfutil@definecolor{colortol-rainbow-ext-low-B}{RGB}{221,216,239}
+\pgfutil@definecolor{colortol-rainbow-ext-low-C}{RGB}{209,193,225}
+\pgfutil@definecolor{colortol-rainbow-ext-low-D}{RGB}{195,168,209}
+\pgfutil@definecolor{colortol-rainbow-ext-low-E}{RGB}{181,143,194}
+\pgfutil@definecolor{colortol-rainbow-ext-low-F}{RGB}{167,120,180}
+\pgfutil@definecolor{colortol-rainbow-ext-low-G}{RGB}{155,98,167}
+\pgfutil@definecolor{colortol-rainbow-ext-low-H}{RGB}{140,78,153}
+% ---
+\pgfutil@definecolor{colortol-rainbow-ext-A}{RGB}{111,76,155}
+\pgfutil@definecolor{colortol-rainbow-ext-B}{RGB}{96,89,169}
+\pgfutil@definecolor{colortol-rainbow-ext-C}{RGB}{85,104,184}
+\pgfutil@definecolor{colortol-rainbow-ext-D}{RGB}{78,121,197}
+\pgfutil@definecolor{colortol-rainbow-ext-E}{RGB}{77,138,198}
+\pgfutil@definecolor{colortol-rainbow-ext-F}{RGB}{78,150,188}
+\pgfutil@definecolor{colortol-rainbow-ext-G}{RGB}{84,158,179}
+\pgfutil@definecolor{colortol-rainbow-ext-H}{RGB}{89,165,169}
+\pgfutil@definecolor{colortol-rainbow-ext-I}{RGB}{96,171,158}
+\pgfutil@definecolor{colortol-rainbow-ext-J}{RGB}{105,177,144}
+\pgfutil@definecolor{colortol-rainbow-ext-K}{RGB}{119,183,125}
+\pgfutil@definecolor{colortol-rainbow-ext-L}{RGB}{140,188,104}
+\pgfutil@definecolor{colortol-rainbow-ext-M}{RGB}{166,190,84}
+\pgfutil@definecolor{colortol-rainbow-ext-N}{RGB}{190,188,72}
+\pgfutil@definecolor{colortol-rainbow-ext-O}{RGB}{209,181,65}
+\pgfutil@definecolor{colortol-rainbow-ext-P}{RGB}{221,170,60}
+\pgfutil@definecolor{colortol-rainbow-ext-Q}{RGB}{228,156,57}
+\pgfutil@definecolor{colortol-rainbow-ext-R}{RGB}{231,140,53}
+\pgfutil@definecolor{colortol-rainbow-ext-S}{RGB}{230,121,50}
+\pgfutil@definecolor{colortol-rainbow-ext-T}{RGB}{228,99,45}
+\pgfutil@definecolor{colortol-rainbow-ext-U}{RGB}{223,72,40}
+\pgfutil@definecolor{colortol-rainbow-ext-V}{RGB}{218,34,34}
+% ---
+\pgfutil@definecolor{colortol-rainbow-ext-high-A}{RGB}{184,34,30}
+\pgfutil@definecolor{colortol-rainbow-ext-high-B}{RGB}{149,33,27}
+\pgfutil@definecolor{colortol-rainbow-ext-high-C}{RGB}{114,30,23}
+\pgfutil@definecolor{colortol-rainbow-ext-high-D}{RGB}{82,26,19}
+% color for data gaps
+\pgfutil@definecolor{colortol-rainbow-ext-gaps}{RGB}{102,102,102}
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 76fb9fd67a2..e4859785e36 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
@@ -8,12 +8,12 @@
% 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/>.
%
@@ -35,7 +35,7 @@
% };
% \end{axis}
% \end{tikzpicture}
-%--------------------------------------------------
+%--------------------------------------------------
\def\pgfplotslibdateplot@number@to@julian@and@time#1.#2\julianto#3\hourto#4\minuteto#5{%
#3=#1
@@ -50,7 +50,7 @@
\c@pgf@countb=\the\pgf@xa\relax
% round minutes (we may loose precision here)
\advance\pgf@xa by-\the\c@pgf@countb pt
- \ifdim\pgf@xa>0.5pt
+ \ifdim\pgf@xa>0.5pt
\advance\c@pgf@countb by1
\ifnum\c@pgf@countb=60
\c@pgf@countb=#4 %
@@ -65,7 +65,7 @@
% #1 the date
% #2 the hours
% #3 the minutes
-% #4 is either empty or is the seconds.
+% #4 is either empty or is the seconds.
% #5 a macro which will be filled with the date part.
% #6 the macro which will contain a number in the range [0,1]
% representing hours and minutes.
@@ -121,7 +121,7 @@
% \edef#6{\pgf@sys@tonumber\pgf@xa}%
% }%
% \def\pgfplotslibdateplot@discard@trailing@colon#1:{#1}%
-%--------------------------------------------------
+%--------------------------------------------------
\let\pgfplots@calender@ZEROSHIFT=\pgfutil@empty
\def\pgfplots@dateplot@ensure@ZEROSHIFT#1{%
@@ -256,7 +256,7 @@
}{}%
},
/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
@@ -268,4 +268,3 @@
/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.fillbetween.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.fillbetween.code.tex
index fea448143d7..b9a38406a75 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.fillbetween.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.fillbetween.code.tex
@@ -4,7 +4,7 @@
%
% 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 2013 by Christian Feuersaenger
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -55,7 +55,7 @@
/tikz/soft clip assign/domain/.code args={#1:#2}{%
\pgfplotsifisvisualizationphase{%
\edef\pgfplots@loc@TMPa{%
- (axis cs:#1,\pgfkeysvalueof{/pgfplots/ymin})
+ (axis cs:#1,\pgfkeysvalueof{/pgfplots/ymin})
rectangle (axis cs:#2,\pgfkeysvalueof{/pgfplots/ymax})}%
\pgfkeysalso{/tikz/soft clip assign/path/.expand once=\pgfplots@loc@TMPa}%
}{}%
@@ -64,7 +64,7 @@
/tikz/soft clip assign/domain y/.code args={#1:#2}{%
\pgfplotsifisvisualizationphase{%
\edef\pgfplots@loc@TMPa{%
- (axis cs:\pgfkeysvalueof{/pgfplots/xmin},#1)
+ (axis cs:\pgfkeysvalueof{/pgfplots/xmin},#1)
rectangle (axis cs:\pgfkeysvalueof{/pgfplots/xmax},#2)}%
\pgfkeysalso{/tikz/soft clip assign/path/.expand once=\pgfplots@loc@TMPa}%
}{}%
@@ -75,7 +75,7 @@
},
}
-% The options are from
+% The options are from
% \addplot[#1] fill between[#2] #3;
%
% This method is invoked from the global \addplot dispatching.
@@ -147,7 +147,7 @@
\endscope
\endpgfplotsonlayer%
\fi
- }{%
+ }{%
% post command.
}%
}
@@ -184,7 +184,7 @@
}{%
% the path instruction:
\tikzfillbetween[#1]{#2}%
- }{%
+ }{%
% post command.
}%
}%
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 2c0c06baec4..a1a11127c2e 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
@@ -320,9 +320,9 @@
% Determine the ticklabels of both x and y.
%
\def\pgfplots@group@determine@ticklabels{%
- \def\pgfplots@loc@TMPa{all}
- \def\pgfplots@loc@TMPb{top}
- \def\pgfplots@loc@TMPc{lower}
+ \def\pgfplots@loc@TMPa{all}%
+ \def\pgfplots@loc@TMPb{top}%
+ \def\pgfplots@loc@TMPc{lower}%
\ifx\pgfplots@loc@TMPa\pgfplots@group@xticklabels%
% Do nothing as all should have xticklabels
\fi
@@ -330,11 +330,13 @@
\ifx\pgfplots@loc@TMPb\pgfplots@group@xticklabels%
\foreach \pgfplots@column in {1,...,\pgfplots@group@columns} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r1/.append style={xticklabel pos=upper}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r1/.append style={%
+ xticklabel pos=upper}}%
\ifnum1<\pgfplots@group@rows\relax
\foreach \pgfplots@row in {2,...,\pgfplots@group@rows} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={/pgfplots/xticklabels={}}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={%
+ /pgfplots/xticklabels={},/pgfplots/xtick scale label code/.code={}}}%
}%
\fi%
}%
@@ -342,12 +344,14 @@
\ifx\pgfplots@loc@TMPc\pgfplots@group@xticklabels%
\foreach \pgfplots@column in {1,...,\pgfplots@group@columns} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@group@rows/.append style={xticklabel pos=lower}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@group@rows/.append style={%
+ xticklabel pos=lower}}%
\ifnum1<\pgfplots@group@rows\relax
\pgfplotsgroupplotsmath@decrease\pgfplots@group@rows
\foreach \pgfplots@row in {1,...,\pgfmathresult} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={/pgfplots/xticklabels={}}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={%
+ /pgfplots/xticklabels={},/pgfplots/xtick scale label code/.code={}}}%
}%
\fi%
}%
@@ -355,8 +359,9 @@
%
% Defining styles for the ytick's
%
- \def\pgfplots@loc@TMPb{left}
- \def\pgfplots@loc@TMPc{right}
+ \def\pgfplots@loc@TMPa{all}%
+ \def\pgfplots@loc@TMPb{left}%
+ \def\pgfplots@loc@TMPc{right}%
\ifx\pgfplots@loc@TMPa\pgfplots@group@yticklabels%
% Do nothing as all should have yticklabels
\fi
@@ -367,7 +372,8 @@
\ifnum1<\pgfplots@group@columns\relax
\foreach \pgfplots@column in {2,...,\pgfplots@group@columns} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={/pgfplots/yticklabels={}}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={%
+ /pgfplots/yticklabels={}, /pgfplots/ytick scale label code/.code={}}}%
}%
\fi%
}%
@@ -375,17 +381,19 @@
\ifx\pgfplots@loc@TMPc\pgfplots@group@yticklabels%
\foreach \pgfplots@row in {1,...,\pgfplots@group@rows} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@group@columns r\pgfplots@row/.append style={yticklabel pos=right}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@group@columns r\pgfplots@row/.append style={%
+ yticklabel pos=right}}%
\ifnum1<\pgfplots@group@columns\relax
\pgfplotsgroupplotsmath@decrease\pgfplots@group@columns
\foreach \pgfplots@column in {1,...,\pgfmathresult} {%
\expandafter\xdef\expandafter\pgfplots@glob@TMPa\expandafter{%
- \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={/pgfplots/yticklabels={}}}%
+ \pgfplots@glob@TMPa,/pgfplots/group/plot c\pgfplots@column r\pgfplots@row/.append style={%
+ /pgfplots/yticklabels={}, /pgfplots/ytick scale label code/.code={}}}%
}%
\fi%
}%
\fi%
- \expandafter\pgfkeys\expandafter{\pgfplots@glob@TMPa}
+ \expandafter\pgfkeys\expandafter{\pgfplots@glob@TMPa}%
}
%
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
index a1259e975f4..fb9283571c9 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.patchplots.code.tex
@@ -12,17 +12,17 @@
% 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 ),
@@ -31,32 +31,32 @@
% the derivatives at t=0 and t=1.
%
%
- %
+ %
%--------------------------------------------------
% 4-point Lagrange interpolation on {0,1/3,2/3,1}:
-% C(x) =
+% 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 +
+%
+% (-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
-%--------------------------------------------------
+%--------------------------------------------------
-% A quadratic spline in the ordering
+% A quadratic spline in the ordering
%
% <left> <right> <middle>
%
@@ -267,7 +267,7 @@
},%
recursive refine@={%
% The 4-point lagrangian interpolation formular is shown on
- % the top of this page. What I do here is simply to evaluate
+ % 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
@@ -542,7 +542,7 @@
% \fi
% \fi
% },
- %--------------------------------------------------
+ %--------------------------------------------------
stream to shader={%
% create a degenerate coons patch:
\begingroup
@@ -569,7 +569,7 @@
\pgfplotslibrarysurfstreamcoord{\pgfqpoint\pgfplotspatchvertexx\pgfplotspatchvertexy}{\pgfplotspointmetatransformed}%
% degenerate: the "edge" \PA -- \PA collabses into one
% point.
- % Per construction, the "edge" is the FOREGROUND.
+ % 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}%
@@ -666,7 +666,7 @@
% \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
@@ -734,7 +734,7 @@
%--------------------------------------------------
% \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@}%
@@ -745,7 +745,7 @@
% %--------------------------------------------------
% % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}01%
% % \pgfplotspatchclass{\pgfplotspatchclassname}{set edge visible}11%
- % %--------------------------------------------------
+ % %--------------------------------------------------
#1\pgfplotspatchclass@qtri@recursiverefine@newnames
%
%
@@ -1063,7 +1063,7 @@
% \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
@@ -1163,8 +1163,8 @@
% D <-- C
% | ^
% v |
-% A --> B
-%
+% A --> B
+%
\pgfkeyssetvalue{/pgfplots/vertex count}{0}%
\pgfplotsdeclarepatchclass{polygon}{%
new=\def\pgfplotspatchclass@poly@no{0},
@@ -1242,13 +1242,13 @@
}%
-% mathematica shape functions parameterized in
+% 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 +
+% 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 +
+% 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 +
@@ -1321,9 +1321,9 @@
%
% 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
+ % 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
%
@@ -1333,7 +1333,7 @@
%
% OUTPUT:
% \PA,bezier control 1, bezier control 2, \PC.
- %
+ %
\def\pgfplots@edge{%
\ifx\pgfplotspatchclass@biquad@A\PA
\pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\PA\endvertex}%
@@ -1394,7 +1394,7 @@
% \fi
% \fi
% },
- %--------------------------------------------------
+ %--------------------------------------------------
stream to shader={%
\begingroup
%
@@ -1425,7 +1425,7 @@
%
% we use
% \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
- % which works for bilinear, biquadratic, and bicubic
+ % which works for bilinear, biquadratic, and bicubic
\pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
{pgfplotspatchclass@biquad@}{\Pcur}{\Pnextseq}%
%
@@ -1454,16 +1454,16 @@
% Well, this is simple: take the matrix as-is!
% simply copy 1:1
%
- % i.e. convert
+ % i.e. convert
% D G C
% H I F
% A E B
%
% to
%
- % AC BC CC
- % AB BB CB
- % AA BA CA
+ % AC BC CC
+ % AB BB CB
+ % AA BA CA
\let\P@AA=\pgfplotspatchclass@biquad@A
\let\P@BA=\pgfplotspatchclass@biquad@E
\let\P@CA=\pgfplotspatchclass@biquad@B
@@ -1477,15 +1477,15 @@
\if B\Pcur
% the "B" point needs to be streamed as first.
%
- % i.e. reorder
+ % i.e. reorder
% D G C
% H I F
% A E B
%
- % to
- % A H D AC BC CC
- % E I G =: AB BB CB
- % B F C AA BA CA
+ % to
+ % A H D AC BC CC
+ % E I G =: AB BB CB
+ % B F C AA BA CA
%
\let\P@AA=\pgfplotspatchclass@biquad@B
\let\P@BA=\pgfplotspatchclass@biquad@F
@@ -1500,15 +1500,15 @@
\if C\Pcur
% the "C" point needs to be streamed as first.
%
- % i.e. reorder
+ % i.e. reorder
% D G C
% H I F
% A E B
%
- % to
- % B E A AC BC CC
- % F I H =: AB BB CB
- % C G D AA BA CA
+ % to
+ % B E A AC BC CC
+ % F I H =: AB BB CB
+ % C G D AA BA CA
%
\let\P@AA=\pgfplotspatchclass@biquad@C
\let\P@BA=\pgfplotspatchclass@biquad@G
@@ -1523,15 +1523,15 @@
\if D\Pcur
% the "D" point needs to be streamed as first.
%
- % i.e. reorder
+ % i.e. reorder
% D G C
% H I F
% A E B
%
- % to
- % C F B AC BC CC
- % G I E =: AB BB CB
- % D H A AA BA CA
+ % to
+ % C F B AC BC CC
+ % G I E =: AB BB CB
+ % D H A AA BA CA
%
\let\P@AA=\pgfplotspatchclass@biquad@D
\let\P@BA=\pgfplotspatchclass@biquad@H
@@ -1567,7 +1567,7 @@
% 'patch type=quadratic spline' . We only need to apply it to all
% lines in U direction and afterwards to all lines in V
% direction.
- %
+ %
\def\pgfplotspatchvertexaddXY@expanded##1\times{%
\edef\pgfplots@loc@TMPa{##1}%
\expandafter\pgfplotspatchvertexaddXY\pgfplots@loc@TMPa\times
@@ -1683,7 +1683,7 @@
% \edef\pgfplotspatchclass@biquade@CA{#2}%
% \fi
% },
- %--------------------------------------------------
+ %--------------------------------------------------
serialize except vertices={%
\ifx\pgfplotspatchclass@biquade@AB\relax
\let\pgfplotsretval\pgfutil@empty%
@@ -1706,7 +1706,7 @@
% \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
@@ -1721,11 +1721,11 @@
% {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 +
+ % 0.375` 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}%
@@ -1832,7 +1832,7 @@
% 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,
+ % -0.125` 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}%
@@ -2317,7 +2317,7 @@
%
% This involves a change from Lagrange to bezier
% representation of the boundary curves.
- %
+ %
\pgfpathmoveto{\expandafter\pgfplotspointpatchvertex\pgfplotspatchclass@bicubic@AA\endvertex}%
\pgfplotspathcubicfrominterpolation
{\pgfplotspatchclass@bicubic@AA}
@@ -2355,7 +2355,7 @@
%
% we use
% \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth
- % which works for bilinear, biquadratic, and bicubic
+ % which works for bilinear, biquadratic, and bicubic
%
% define helper macros which are input for
% \pgfplotspatchclass@rect@to@coonspatch@findshadingsequence@for@depth:
@@ -2400,12 +2400,12 @@
\if B\Pcur
% the "DA" point needs to be streamed as first.
%
- % Reorder
+ % Reorder
% AD BD CD DD
% AC BC CC DC
% AB BB CB DB
% AA BA CA DA
- % to
+ % to
% AA AB AC AD
% BA BB BC BD
% CA CB CC CD
@@ -2431,12 +2431,12 @@
\if C\Pcur
% the "DD" point needs to be streamed as first.
%
- % Reorder
+ % Reorder
% AD BD CD DD
% AC BC CC DC
% AB BB CB DB
% AA BA CA DA
- % to
+ % to
% DA CA BA AA
% DB CB BB AB
% DC CC BC AC
@@ -2462,12 +2462,12 @@
\if D\Pcur
% the "AD" point needs to be streamed as first.
%
- % Reorder
+ % Reorder
% AD BD CD DD
% AC BC CC DC
% AB BB CB DB
% AA BA CA DA
- % to
+ % to
% DD DC DB DA
% CD CC CB CA
% BD BC BB BA
@@ -2513,7 +2513,7 @@
% 'patch type=cubic spline' . We only need to apply it to all
% lines in U direction and afterwards to all lines in V
% direction.
- %
+ %
\def\pgfplotspatchvertexaddXY@expanded##1\times{%
\edef\pgfplots@loc@TMPa{##1}%
\expandafter\pgfplotspatchvertexaddXY\pgfplots@loc@TMPa\times
@@ -2573,7 +2573,7 @@
\let\pgfplotsplothandlermesh@patchclass@=\pgfplotsplothandlermesh@patchclass
\def\pgfplotsplothandlermesh@patchclass{triangle}%
\pgfplotspatchclass{\pgfplotsplothandlermesh@patchclass}{new}%
- % Ok. Now create a lot of triangles.
+ % Ok. Now create a lot of triangles.
%
% FIXME: The ordering is not arbitrary (unless z buffer=sort is in effect).
%
@@ -2627,12 +2627,12 @@
% Transpose a bicubic matrix (4x4).
%
-% Reorder
+% Reorder
% AD BD CD DD
% AC BC CC DC
% AB BB CB DB
% AA BA CA DA
-% to
+% to
% DA DB DC DD
% CA CB CC CD
% BA BB BC BD
@@ -2648,28 +2648,28 @@
% Transpose a bicubic matrix (4x4).
%
-% Reorder
-% AC BC CC
-% AB BB CB
-% AA BA CA
-% to
-% CA CB CC
-% BA BB BC
-% AA AB AC
+% Reorder
+% AC BC CC
+% AB BB CB
+% AA BA CA
+% to
+% CA CB CC
+% BA BB BC
+% AA AB AC
\def\pgfplotspatchclass@biquad@transpose{%
\pgfplotsutil@swap\P@AB\P@BA
\pgfplotsutil@swap\P@CA\P@AC
\pgfplotsutil@swap\P@CB\P@BC
}
-% Expects that a 4x4 matrix in tensor bezier representation where
+% Expects that a 4x4 matrix in tensor bezier representation where
% A = left end point
% B = first control point
% C = second control point
% D = right end point
%
% and the coordinates are stored in \csname P@[ABCD][ABCD]\endcsname
-%
+%
% Streaming starts with \P@AA and is applied rowwise.
\def\pgfplotsplothandlermesh@shade@cubic@tensor{%
% Stream it to the shader. Note that the shader has a
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
index 30ac9587b2b..116195a9099 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.polar.code.tex
@@ -330,7 +330,7 @@
\ifx\pgfplots@data@ymin\pgfplots@invalidrange@ymax
\global\let\pgfplots@data@ymax=\pgfplots@ymax
\fi
- \ifpgfplots@clip@limits
+ \ifpgfplots@clip@limits@x
\else
% there is a rare change that min > max.
% Handle that ...
@@ -338,12 +338,18 @@
\global\let\pgfplots@xmin=\pgfmathresult
\pgfplotscoordmath{x}{max}{\pgfplots@xmin}{\pgfplots@xmax}%
\global\let\pgfplots@xmax=\pgfmathresult
+ \fi
+ \ifpgfplots@clip@limits@y
+ \else
%
\pgfplotscoordmath{y}{min}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymin=\pgfmathresult
\pgfplotscoordmath{y}{max}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymax=\pgfmathresult
%
+ \fi
+ \ifpgfplots@clip@limits@z
+ \else
\ifpgfplots@threedim
\pgfplotscoordmath{z}{min}{\pgfplots@zmin}{\pgfplots@zmax}%
\global\let\pgfplots@zmin=\pgfmathresult
diff --git a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.statistics.code.tex b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.statistics.code.tex
index 6b05a8a9a69..3931d85dae3 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.statistics.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/libs/tikzlibrarypgfplots.statistics.code.tex
@@ -8,12 +8,12 @@
% 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/>.
%
@@ -134,7 +134,7 @@
% chosen to fit the initial 'draw position':
boxplot/box extend/.initial=0.8,
% draw direction=x|y
- boxplot/draw direction/.initial=x,
+ boxplot/draw direction/.initial=x,
%
% Activates "dynamic size" feature
boxplot/variable width/.is if=pgfplotsplothandlerboxplot@variable@width,
@@ -152,7 +152,7 @@
boxplot/sample size min/.initial=,
boxplot/sample size max/.initial=,
%
- % this factor times 'box extend' is the size for
+ % this factor times 'box extend' is the size for
% 'sample size min'. The max value gets 'box extend'.
boxplot/variable width min target/.initial=0.2,
%
@@ -162,7 +162,7 @@
% 1,2,3,4,... . This should probably simplify tick (label) generation.
boxplot/draw position/.initial=1+\plotnumofactualtype,
%
- % draw relative anchor=0:
+ % draw relative anchor=0:
% | |---| |
% | | | |
% |----|---|--|
@@ -172,7 +172,7 @@
% |----| |--|
% | |---| |
%
- % draw relative anchor=1:
+ % draw relative anchor=1:
% |----|---|--|
% | | | |
% | |---| |
@@ -253,9 +253,9 @@
\let\pgfplotsplothandlersurveystart=\pgfplotsplothandlersurveystart@boxplot
\let\pgfplotsplothandlersurveyend=\pgfplotsplothandlersurveyend@boxplot
\def\pgfplotsplothandlerLUAfactory{%
- function(axis, pointmetainputhandler)
+ function(axis, pointmetainputhandler)
return pgfplots.BoxPlotPlothandler.new(
- pgfplots.BoxPlotRequest.new(
+ pgfplots.BoxPlotRequest.new(
"\pgfkeysvalueof{/pgfplots/boxplot/lower quartile off}",
"\pgfkeysvalueof{/pgfplots/boxplot/upper quartile off}",
"\pgfkeysvalueof{/pgfplots/boxplot/whisker range}",
@@ -366,7 +366,7 @@
}
% FIXME : implement 'ceil' in the FPU!
\pgfplots@error{The argument 'estimator=\pgfplots@boxplot@estimator' is only available in conjunction with 'lua backend' and lualatex.}%
- \or
+ \or
% R2:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{##1*##2 + 0.5}%
@@ -387,7 +387,7 @@
}
% FIXME : implement 'ceil' in the FPU!
\pgfplots@error{The argument 'estimator=\pgfplots@boxplot@estimator' is only available in conjunction with 'lua backend' and lualatex.}%
- \or
+ \or
% R3:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{##1*##2}%
@@ -397,42 +397,42 @@
\let\offset@low=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@getIndex{\offset@low}{##2}%
}
- \or
+ \or
% R4:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{##1*##2}%
\let\h=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@std@lookup{##2}%
}
- \or
+ \or
% R5:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{##1*##2 + 0.5}%
\let\h=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@std@lookup{##2}%
}
- \or
+ \or
% R6:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{##1*(##2+1)}%
\let\h=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@std@lookup{##2}%
}
- \or
+ \or
% R7:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{(##2-1) * ##1 + 1}%
\let\h=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@std@lookup{##2}%
}
- \or
+ \or
% R8:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{(##2 + 1/3) * ##1 + 1/3}%
\let\h=\pgfmathresult
\pgfplotsplothandler@boxplot@percentile@estimator@std@lookup{##2}%
}
- \or
+ \or
% R9:
\def\pgfplotsplothandler@boxplot@percentile@estimator@##1##2{%
\pgfmathparse{(##2 + 1/4) * ##1 + 3/8}%
@@ -556,7 +556,7 @@
}
-\def\pgfplotsplothandlersurveyend@boxplot@computestats{
+\def\pgfplotsplothandlersurveyend@boxplot@computestats{
%
\pgfplotsplothandler@boxplot@init@percentile@estimator
%
@@ -887,7 +887,7 @@
\pgfmathfloattofixed\pgfmathresult
\fi
% remember it for later - it might have been retrieved from some
- % table column! If you used something like
+ % table column! If you used something like
% 'draw position=\thisrow{position}, the position of the LAST data point
% will be used (because we are in end survey here).
\edef\pgfplots@loc@TMPb{\noexpand\pgfplotsplothandlersurveyaddoptions{/pgfplots/boxplot/draw position=\pgfmathresult}}%
@@ -1077,9 +1077,9 @@
\begingroup
\pgfkeys{/pgf/fpu}%
\pgfmathparse{
- (\pgfplots@widthkey@mintrg +
- max(0,min(1,(\pgfplots@widthkey@ - \pgfplotsplothandlerboxplot@widthkey@min) /
- (\pgfplotsplothandlerboxplot@widthkey@max - \pgfplotsplothandlerboxplot@widthkey@min)))
+ (\pgfplots@widthkey@mintrg +
+ max(0,min(1,(\pgfplots@widthkey@ - \pgfplotsplothandlerboxplot@widthkey@min) /
+ (\pgfplotsplothandlerboxplot@widthkey@max - \pgfplotsplothandlerboxplot@widthkey@min)))
* (1-\pgfplots@widthkey@mintrg)) * \pgfplots@loc@TMPa}%
\pgfmathfloattofixed\pgfmathresult
\pgfmath@smuggleone\pgfmathresult
@@ -1174,7 +1174,7 @@
% A helper which implements 'draw relative anchor'. It expands to a
% math expression which is suitable as second argument for 'boxplot cs';
% i.e. it needs to be added to 'boxplot/draw position'.
-%
+%
% More precisely, this macro is to be used in a context where lines of
% 'box extend' length have to be drawn.
%
@@ -1183,7 +1183,7 @@
%
% #1: the coordinate. 0 is the means "lower part of the construct
% which is to be drawn". 1 means the "upper part of that construct"
-% and 0.5 is in the middle.
+% and 0.5 is in the middle.
\def\pgfplots@boxplot@anchor@value#1{%
(#1-\pgfplotsboxplotvalue{draw relative anchor})*\pgfplotsboxplotvalue{box extend}%
}
@@ -1195,10 +1195,10 @@
}
\def\pgfplotsboxplotpointabbox#1#2{%
- \pgfplotsboxplotpointab{#1}{\pgfplots@boxplot@anchor@value{#2}}%
+ \pgfplotsboxplotpointab{#1}{\pgfplots@boxplot@anchor@value{#2}}%
}%
\def\pgfplotsboxplotpointabwhisker#1#2{%
- \pgfplotsboxplotpointab{#1}{\pgfplots@boxplot@anchor@value@whisker{#2}}%
+ \pgfplotsboxplotpointab{#1}{\pgfplots@boxplot@anchor@value@whisker{#2}}%
}%
\tikzdeclarecoordinatesystem{boxplot}{%
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 df9a26d6839..3bf006f31fd 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsarray.code.tex
@@ -31,12 +31,12 @@
% 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/>.
%
@@ -100,7 +100,7 @@
}
% #1 the array's name (a macro name
-% #2 a list created by \pgfplotslistnew
+% #2 a list created by \pgfplotslistnew
\def\pgfplotsarrayfrompgfplotslist#1#2{%
\pgfplotsarraynewempty#1%
\pgfplotslistforeachungrouped#2\as\pgfplotsarray@TMPa{%
@@ -398,21 +398,21 @@
}%
% Sorts array '#1' using N log N time.
-%
+%
% The sort key is provided as argument in
% /pgfplots/iflessthan/.code args={#1#2#3#4}, see docs in
% pgfplotsutil.code.tex.
%
% Remarks:
% - the sorting algorithm is a sub-optimal mergesort currently -
-% but it has runtime N log N.
+% but it has runtime N log N.
% - As usual, it is very difficult to move the final result out of the
-% current scope. The initial configuration allocates a *global* copy of #1
+% current scope. The initial configuration allocates a *global* copy of #1
% to carry results out of one TeX group. This means that memory will NEVER be freed.
% I don't see a general N log N alternative for doing so (short of discarding
% the scopes for local groups).
% BUT:
-% you can redefine the code key pair
+% you can redefine the code key pair
% |/pgfplots/array/unscope pre|
% and
% |/pgfplots/array/unscope post|
@@ -440,18 +440,18 @@
% \pgfplotsarraypushback677\to\testarray
% \pgfplotsarraypushback765\to\testarray
% \pgfplotsarraypushback703\to\testarray
-%
-% Unsorted:
-%
+%
+% Unsorted:
+%
% [\pgfplotsarrayforeach\testarray\as\elem{\elem\space}]
-%
+%
% \pgfplotsarraysort\testarray
-%
-% sorted:
-%
+%
+% sorted:
+%
% [\pgfplotsarrayforeach\testarray\as\elem{\elem\space}]
-%
-%--------------------------------------------------
+%
+%--------------------------------------------------
%
% @see \pgfplotsutilsortthree
% @see \pgfplotsutilsortfour
@@ -609,7 +609,7 @@
\pgfplotsarray@mergesort{#1}{#4}{#5}%
}
-
+
% A simple, ungrouped insert sort algorithm for small arrays.
%
% for i := 1; i < N; ++i do
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 fa90ea613f6..990b796ce54 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/liststructure/pgfplotsliststructureext.code.tex
@@ -6,7 +6,7 @@
%
% The 'pgfplotsapplist' is a list which has ONLY the features
%
-% \pgfplotsapplistnewempty
+% \pgfplotsapplistnewempty
% \pgfplotsapplistpushback O(1)
% \pgfplotsapplistedefcontenttomacro (N)
% \pgfplotsapplistxdefcontenttomacro (N)
@@ -15,9 +15,9 @@
% contrast to TeX's macro append routines which lead to O(N^2)
% runtime).
%
-% Furthermore, there is the
+% Furthermore, there is the
%
-% \pgfplotsapplistXnewempty
+% \pgfplotsapplistXnewempty
% \pgfplotsapplistXpushback
% \pgfplotsapplistXedefcontenttomacro (N)
% \pgfplotsapplistXxdefcontenttomacro (N)
@@ -39,12 +39,12 @@
% 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/>.
%
@@ -57,7 +57,7 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% the applist defines one macro for each element, like
-%
+%
% \def\element<i>{<content>\element<i+1>}
% \def\element<i+1>{<content>\element<i+2>}
% \def\element<i+2>{}
@@ -100,7 +100,7 @@
\expandafter\edef\csname\string#2@\pgfplots@loc@TMPa\endcsname{\the\t@pgfplots@toka\the\t@pgfplots@tokb}%
\expandafter\let\the\t@pgfplots@tokb=\pgfutil@empty
}%
-
+
% time O(N)
% Expands the complete content of list #1 as-is into the macro #2.
\def\pgfplotsapplistedefcontenttomacro#1\to#2{\edef#2{#1}}
@@ -125,7 +125,7 @@
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% Usage:
+% Usage:
% \pgfplotsapplistXnewempty\macro
% \pgfplotsapplistXnewempty[to global]\macro
%
@@ -223,7 +223,7 @@
\expandafter\def\csname\string#1@bigbuf@c\endcsname{0}%
}%
-
+
% Expands the complete content of list #1 as-is into the macro #2.
\def\pgfplotsapplistXedefcontenttomacro#1\to#2{%
\pgfplotsapplistXflushbuffers#1%
@@ -243,14 +243,14 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%
+%
% A variant of applist which has the same runtime requirements, but
% does PUSH FRONT only.
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% Usage:
+% Usage:
% \pgfplotsprependlistXnewempty{liste}
\def\pgfplotsprependlistXnewempty#1{%
\expandafter\let\csname pgfpPRP@#1\endcsname=\pgfutil@empty
@@ -316,7 +316,7 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
-%
+%
% This list \pgfplotsapplistXX here is essentially the SAME as \pgfplotslistX.
%
% But there can only be one such list at a time, so it is faster than
@@ -408,7 +408,7 @@
\def\pgfplotsapplistXX@bigbuf@c{0}%
}%
-
+
% Expands the complete content of list #1 as-is into the macro #2.
\def\pgfplotsapplistXXedefcontenttomacro#1{%
\pgfplotsapplistXXflushbuffers
@@ -428,7 +428,7 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
-%
+%
% \pgfplotslistXXglobal assigns to a global list.
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
@@ -509,7 +509,7 @@
\gdef\pgfplotsapplistXXglobal@bigbuf@c{0}%
}%
-
+
% Expands the complete content of list #1 as-is into the macro #2.
%
% this assigns locally into #1.
@@ -542,7 +542,7 @@
\def\pgfplotsgloballet{\global\let}%
-% Usage:
+% Usage:
% \pgfplotsapplistXglobalnewempty\macro
% \pgfplotsapplistXglobalnewempty[to global]\macro
%
@@ -609,7 +609,7 @@
\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/lua/pgfplots/binary.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/binary.lua
index 704778440bc..74c04b7409f 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/binary.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/binary.lua
@@ -12,7 +12,7 @@ else
pgfplotsUnpack = unpack;
end
--- Takes a table containing an arbitrary number of integers in the range 0..255 and converts it
+-- Takes a table containing an arbitrary number of integers in the range 0..255 and converts it
-- into a binary stream of the corresponding binary chars.
--
-- @param charIndices a table containing 0...N arguments; each in the range 0..255
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/colormap.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/colormap.lua
index e0df003e724..73cbb2c894e 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/colormap.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/colormap.lua
@@ -13,6 +13,8 @@ local table=table
do
-- all globals will be read from/defined in pgfplots:
local _ENV = pgfplots
+
+local pgftonumber = pgfluamathfunctions.tonumber
-----------------------------------
ColorSpace = newClass()
@@ -33,7 +35,8 @@ ColorMap.range =1000
-- colorspace: an instance of ColorSpace
-- values: an array (1-based table) with color components. Each color component is supposed to be a table with K entries where K is colorspace:numComponents
-- positions: either an empty array (in which case the colormap is uniform) or one position per value. Positions are in [0,1000]
-function ColorMap:constructor( h, colorspace, values, positions)
+-- scaleOrderZ the specific scaling factor used for 'colormap access=const' (or negative or the empty string if this is disabled)
+function ColorMap:constructor( h, colorspace, values, positions, scaleOrderZ)
if not h or not colorspace or not positions or not values then error("arguments must not be nil")end
self.name = name
@@ -42,6 +45,7 @@ function ColorMap:constructor( h, colorspace, values, positions)
self.colorspace = colorspace
self.values = values
self.pos = positions
+ self:setScaleOrderZ(scaleOrderZ)
local numComponents = self.colorspace.numComponents
for i = 1,#self.values do
@@ -52,24 +56,48 @@ function ColorMap:constructor( h, colorspace, values, positions)
end
end
-function ColorMap:findPrecomputed(inMin, inMax, x)
+function ColorMap:isUniform()
+ if #self.pos == 0 then
+ return true
+ else
+ return false
+ end
+end
+
+function ColorMap:setScaleOrderZ(scaleOrderZ)
+ if type(scaleOrderZ) == "number" then
+ self.scaleOrderZ = scaleOrderZ
+ elseif #scaleOrderZ == 0 or type(scaleOrderZ) == "string" and scaleOrderZ == "h" then
+ -- special case which means "h"
+ self.scaleOrderZ = "h"
+ else
+ self.scaleOrderZ = pgftonumber(scaleOrderZ)
+ end
+end
+
+function ColorMap:_transform(inMin, inMax, x)
local transformed
if inMin == 0 and inMax == ColorMap.range then
transformed = x
else
- local scale = ColorMap.range / (inMax - inMin)
+ local scale = ColorMap.range / (inMax - inMin)
transformed = (x - inMin) * scale
end
transformed = math.max(0, transformed)
transformed = math.min(ColorMap.range, transformed)
-
+ return transformed
+end
+
+function ColorMap:findPrecomputed(inMin, inMax, x)
+ local transformed = self:_transform(inMin, inMax, x)
+
local divh = transformed * self.invh
local intervalno = math.floor(divh)
local factor = divh - intervalno
local factor_two = 1-factor
-
+
-- Step 2: interpolate the desired RGB value using vector valued interpolation on the identified interval
if intervalno+1 == #self.values then
-- ah- we are at the right end!
@@ -90,6 +118,34 @@ function ColorMap:findPrecomputed(inMin, inMax, x)
return result
end
+function ColorMap:findPiecewiseConst(inMin, inMax, x)
+ -- see docs in \pgfplotscolormapfindpiecewiseconst@precomputed@ for details
+
+ local transformed = self:_transform(inMin, inMax, x)
+ local intervalno =-1
+ if self:isUniform() then
+ if self.scaleOrderZ == "h" then
+ invh = self.invh + 0.001
+ else
+ -- disable the extra interval
+ invh = self.invh
+ end
+
+ local divh = transformed * invh
+ intervalno = math.floor(divh)
+ else
+ -- FIXME : IMPLEMENT
+ end
+
+ if intervalno+1 == #self.values then
+ -- we have artificially increased the "h" (see the comments
+ -- above) -- meaning that this 'if' can happen.
+ -- ->Map the rightmost point to the rightmost interval:
+ return self.values[#self.values]
+ end
+ return self.values[intervalno+1]
+end
+
-----------------------------------
-- global registry of all colormaps.
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/meshplothandler.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/meshplothandler.lua
index a3b492a5296..dba97aaf350 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/meshplothandler.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/meshplothandler.lua
@@ -90,7 +90,7 @@ function MeshPlothandler:reverseScanline(scanLineLength)
tmp = coords[1+scanlineOff+i]
coords[1+scanlineOff+i] = coords[reverseindex]
coords[reverseindex] = tmp
-
+
reverseindex = reverseindex-1
end
end
@@ -192,7 +192,7 @@ function MeshVisualizer:getVisualizationOutput()
if self.isZBufferSort then
result = self:applyZBufferSort(result)
end
-
+
return result
end
@@ -200,7 +200,7 @@ end
function MeshVisualizer:applyZBufferSort(coords)
-- in order to sort this thing, we need to compute the sort key (view depth) for each coord.
-- furthermore, each list entry must be single patch... that means we need a (huge?) temporary table.
-
+
local patchType = self.patchType
local numVertices = patchType.numVertices
@@ -225,7 +225,7 @@ function MeshVisualizer:applyZBufferSort(coords)
-- STEP 2: assign the sort key: the "element depth".
--
-- the "element depth" is defined to be the MEAN of all
- -- vertex depths.
+ -- vertex depths.
-- And since the mean is 1/n * sum_{i=1}^n V_i, we can
-- directly omit the 1/n --- it is the same for every
-- vertex anyway, and we only want to compare the depth
@@ -241,7 +241,7 @@ function MeshVisualizer:applyZBufferSort(coords)
local vertex = patchcoords[j]
local vertexDepth = getVertexDepth(axis,vertex)
-
+
sumOfVertexDepth = sumOfVertexDepth + vertexDepth
end
patch.elementDepth = sumOfVertexDepth
@@ -270,7 +270,7 @@ end
function MeshVisualizer:decodeIntoPatches(coords)
local result = {}
-
+
local scanLineLength = self.scanLineLength
local length = #coords
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotstexio.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotstexio.lua
index bbce58d50c9..cffb518c925 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotstexio.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotstexio.lua
@@ -9,10 +9,10 @@
-- * TeX can call LUA methods in order to "do something". The reverse direction is not true: LUA cannot call TeX methods.
--
-- * the only way that LUA can read TeX input values or write TeX output values is the top layer (at the time of this writing: only pgfplotstexio.lua ).
---
--- * The LUA backend has one main purpose: scalability and performance.
+--
+-- * The LUA backend has one main purpose: scalability and performance.
-- Its purpose is _not_ to run a standalone visualization.
---
+--
-- The precise meaning of "scalability" is: the LUA backend should do as much
-- as possible which is done for single coordinates. Coordinates constitute
-- "scalability": the number of coordinates can become arbitrarily large.
@@ -20,13 +20,13 @@
-- "Performance" is related to scalability. But it is more: some dedicated
-- utility function might have a TeX backend and will be invoked whenever it
-- is needed. Candidates are colormap functions, z buffer arithmetics etc.
---
+--
-- Thus, the best way to ensure "scalability" is to move _everything_ which is to be done for a single coordinate to LUA.
--
--- Sometimes, this will be impossible or too expensive.
+-- Sometimes, this will be impossible or too expensive.
-- Here, "Performance" might still be optimized by some dedicated LUA function.
--
---
+--
-- Unfortunately, the LUA backend does not simplify the code base - it makes it more complicated.
-- This is due to the way it is used: one needs to know when the TeX backend
-- delegates all its work to LUA. It is also due to the fact that it
@@ -40,7 +40,7 @@
--
-- * \begin{axis}. It invokes \pgfplots@prepare@LUA@api .
-- The purpose is to define the global pgfplots.gca "_g_et _c_urrent _a_xis" and to transfer some key presets.
---
+--
-- Log message: "lua backend=true: Activating LUA backend for axis."
--
-- * \end{axis}. It invokes \pgfplots@LUA@visualization@update@axis .
@@ -73,7 +73,7 @@
-- entire processing to the LUA backend. If it succeeds, it will do
-- nothing on the TeX side.
--
--- Both PARTIAL MODE and COMPLETE MODE call
+-- Both PARTIAL MODE and COMPLETE MODE call
-- \pgfplots@LUA@survey@start : transfer plot type and current axis arguments to LUA
-- and
-- \pgfplots@LUA@survey@end : copy LUA axis arguments back to TeX.
@@ -114,7 +114,7 @@ function texSurveyPoint(x,y,z,meta)
pt.x[2] = y
pt.x[3] = z
pt.meta = meta
-
+
gca.currentPlotHandler:surveypoint(pt)
end
@@ -125,7 +125,7 @@ function texSurveyAddJump()
pt.x[2] = nil
pt.x[3] = nil
pt.meta = nil
-
+
gca:addSurveyedJump(gca.currentPlotHandler, pt)
end
@@ -134,7 +134,7 @@ end
function texSurveyEnd()
local result = gca:surveyToPgfplots(gca.currentPlotHandler, true)
--log("returning " .. result .. "\n\n")
-
+
tex.sprint(LOAD_TIME_CATCODETABLE, result);
gca.currentPlotHandler=nil
end
@@ -156,14 +156,14 @@ function texVisualizationInit(plotNum, plotIs3d)
if not plotNum or plotIs3d==nil then error("arguments must not be nil") end
local currentPlotHandler = gca.plothandlers[plotNum+1]
- gca.currentPlotHandler = currentPlotHandler;
+ gca.currentPlotHandler = currentPlotHandler;
if currentPlotHandler then
currentPlotHandler.plotIs3d = plotIs3d
currentPlotHandler:visualizationPhaseInit();
- tex.sprint("1")
+ tex.sprint("1")
else
-- ok, this plot has no LUA support.
- tex.sprint("0")
+ tex.sprint("0")
end
end
@@ -200,49 +200,56 @@ end
function texApplyZBufferReverseScanline(scanLineLength)
local currentPlotHandler = gca.currentPlotHandler
if not currentPlotHandler then error("This function cannot be used in the current context") end
-
+
currentPlotHandler:reverseScanline(scanLineLength)
-end
+end
-- Modifies the Surveyed coordinate list.
-- Expands to nothing
function texApplyZBufferReverseTransposed(scanLineLength)
local currentPlotHandler = gca.currentPlotHandler
if not currentPlotHandler then error("This function cannot be used in the current context") end
-
+
currentPlotHandler:reverseTransposed(scanLineLength)
-end
+end
-- Modifies the Surveyed coordinate list.
-- Expands to nothing
function texApplyZBufferReverseStream()
local currentPlotHandler = gca.currentPlotHandler
if not currentPlotHandler then error("This function cannot be used in the current context") end
-
+
currentPlotHandler:reverseStream(scanLineLength)
-end
+end
-- Modifies the Surveyed coordinate list.
---
+--
-- Note that this is UNRELATED to mesh/surface plots! They have their own (patch-based) z buffer.
--
-- Expands to nothing
function texApplyZBufferSort()
local currentPlotHandler = gca.currentPlotHandler
if not currentPlotHandler then error("This function cannot be used in the current context") end
-
+
currentPlotHandler:sortCoordinatesByViewDepth()
-end
+end
-- Modifies the Surveyed coordinate list.
-- Expands to the resulting coordinates
function texGetSurveyedCoordsToPgfplots()
local currentPlotHandler = gca.currentPlotHandler
if not currentPlotHandler then error("This function cannot be used in the current context") end
-
+
tex.sprint(LOAD_TIME_CATCODETABLE, currentPlotHandler:surveyedCoordsToPgfplots(gca))
end
+function texColorMapSetScaleOrderZ(mapName, scaleOrderZ)
+ local colormap = ColorMaps[mapName];
+ if colormap then
+ colormap:setScaleOrderZ(scaleOrderZ)
+ end
+end
+
-- Performance optimization: computes the colormap lookup.
function texColorMapPrecomputed(mapName, inMin, inMax, x)
local colormap = ColorMaps[mapName];
@@ -261,6 +268,24 @@ function texColorMapPrecomputed(mapName, inMin, inMax, x)
end
end
+-- Performance optimization: computes the colormap lookup.
+function texColorMapFindPiecewiseConst(mapName, inMin, inMax, x)
+ local colormap = ColorMaps[mapName];
+ if colormap then
+ local result = colormap:findPiecewiseConst(
+ pgftonumber(inMin),
+ pgftonumber(inMax),
+ pgftonumber(x))
+
+ local str = ""
+ for i = 1,#result do
+ if i>1 then str = str .. "," end
+ str = str .. tostringfixed(result[i])
+ end
+ tex.sprint(LOAD_TIME_CATCODETABLE, str)
+ end
+end
+
local function isStripPrefixOrSuffixChar(char)
return char == ' ' or char == '{' or char == "}"
end
@@ -343,7 +368,7 @@ do
local domainMin = arg1
local h = arg2-arg1
local domainMax = arg3
-
+
-- round to the nearest integer (using +0.5, should be ok)
local samples = math.floor((domainMax - domainMin)/h + 0.5) + 1
@@ -359,32 +384,32 @@ end
-- generates TeX output '1' on success and '0' on failure
-- @param debugMode one of a couple of strings: "off", "verbose", or "compileerror"
function texAddplotExpressionCoordinateGenerator(
- is3d,
- xExpr, yExpr, zExpr,
- sampleLine,
- domainxmin, domainxmax,
- domainymin, domainymax,
- samplesx, samplesy,
- variablex, variabley,
+ is3d,
+ xExpr, yExpr, zExpr,
+ sampleLine,
+ domainxmin, domainxmax,
+ domainymin, domainymax,
+ samplesx, samplesy,
+ variablex, variabley,
samplesAt,
debugMode
)
local plothandler = gca.currentPlotHandler
local coordoutputstream = SurveyCoordOutputStream.new(plothandler)
-
+
if samplesAt and string.len(samplesAt) >0 then
-- "samples at" has higher priority than domain.
-- Use it!
domainxmin, domainxmax, samplesx = samplesAtToDomain(samplesAt)
if not domainxmin then
- -- FAILURE: could not convert "samples at".
+ -- FAILURE: could not convert "samples at".
-- Fall back to a TeX based survey.
log("log", "LUA survey failed: The value of 'samples at= " .. tostring(samplesAt) .. "' is unsupported by the LUA backend (currently, only 'samples at={a,b,...,c}' is supported).\n")
tex.sprint("0")
return
end
-
+
else
domainxmin= pgftonumber(domainxmin)
domainxmax= pgftonumber(domainxmax)
@@ -421,7 +446,7 @@ function texAddplotExpressionCoordinateGenerator(
removeSurroundingBraces(expressions)
local generator = AddplotExpressionCoordinateGenerator.new(
- coordoutputstream,
+ coordoutputstream,
expressions,
domainMin, domainMax,
samples,
@@ -441,7 +466,7 @@ function texAddplotExpressionCoordinateGenerator(
else
error("Got unknown debugMode = " .. debugMode )
end
-
+
local success
if compileErrorOnFailure then
success = generator:generateCoords()
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotsutil.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotsutil.lua
index b3b09fea688..40ac83bb385 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotsutil.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/pgfplotsutil.lua
@@ -65,7 +65,7 @@ pgfplotsmath.infty = infty
local nan = math.sqrt(-1)
pgfplotsmath.nan = nan
----------------------------------------
+---------------------------------------
--
@@ -97,7 +97,7 @@ end
--- Create a new class that inherits from a base class
+-- Create a new class that inherits from a base class
--
-- base = pgfplots.newClass()
-- function base:constructor()
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/plothandler.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/plothandler.lua
index 218b08c5dd3..59dfbb2c774 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/plothandler.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/plothandler.lua
@@ -6,7 +6,7 @@
-- pgfplots.Axis
-- pgfplots.Coord
-- pgfplots.Plothandler
---
+--
-- and some related classes.
local math=math
@@ -43,11 +43,11 @@ function Coord:copy(other)
end
function Coord:__tostring()
- local result = '(' .. stringOrDefault(self.x[1], "--") ..
- ',' .. stringOrDefault(self.x[2], "--") ..
- ',' .. stringOrDefault(self.x[3], "--") ..
+ local result = '(' .. stringOrDefault(self.x[1], "--") ..
+ ',' .. stringOrDefault(self.x[2], "--") ..
+ ',' .. stringOrDefault(self.x[3], "--") ..
') [' .. stringOrDefault(self.meta, "--") .. ']'
-
+
if not self.x[1] and self.unfiltered then
result = result .. "(was " .. tostring(self.unfiltered) .. ")"
end
@@ -109,15 +109,15 @@ function PointMetaMap:map(meta)
result = math.min(1000, result)
return result
else
- if self.warnForfilterDiscards then
+ if self.warnForfilterDiscards then
log("The per point meta data '" .. tostring(meta) .. " (and probably others as well) is unbounded - using the minimum value instead.\n")
self.warnForfilterDiscards=false
end
return 0
end
end
-
-
+
+
-------------------------------------------------------
@@ -240,7 +240,7 @@ function Plothandler:surveypoint(pt)
end
end
self.axis:datapointsurveyed(current, self)
-
+
self.coordindex = self.coordindex + 1;
end
@@ -271,11 +271,11 @@ function Plothandler:getCoordsInTeXFormat(axis, coords, extraSerializer)
return table.concat(result)
end
--- PRIVATE
+-- PRIVATE
--
-- does the same as \pgfplotsplothandlerserializepointto
function Plothandler:serializeCoordToPgfplots(pt)
- return
+ return
toTeXstring(pt.x[1]) .. "," ..
toTeXstring(pt.x[2]) .. "," ..
toTeXstring(pt.x[3])
@@ -321,7 +321,7 @@ function Plothandler:sortCoordinatesByViewDepth()
local vertexDepth = getVertexDepth(axis,coords[i])
coords[i].vertexDepth = vertexDepth
end
-
+
-- Step 2: sort (inplace)
local comparator = function(ptA, ptB)
return ptA.vertexDepth > ptB.vertexDepth
@@ -372,7 +372,7 @@ end
-- * visualize just plot marks at each of the collected coordinates
-- * visualize just error bars at each collected coordinate
-- * ...
---
+--
-- this class offers basic visualization support. "Basic" means that it will merely transform and finalize input coordinates.
PlotVisualizer = newClass()
@@ -392,7 +392,7 @@ end
--
-- @return any results. The format of the results is currently a list of Coord, but I am unsure of whether it will stay this way.
--
--- Note that a PlotVisualizer does _not_ modify self.sourcePlotHandler.coords
+-- Note that a PlotVisualizer does _not_ modify self.sourcePlotHandler.coords
function PlotVisualizer:getVisualizationOutput()
local result = {}
local coords = self.sourcePlotHandler.coords
@@ -407,7 +407,7 @@ function PlotVisualizer:getVisualizationOutput()
local result_i
local result_i = Coord.new()
result_i:copy(coords[i])
-
+
if result_i.x[1] ~= nil then
self:visphasegetpoint(result_i)
else
@@ -422,7 +422,7 @@ end
-- PROTECTED
-- resembles \pgfplotsplothandlervisualizejump -- or at least that part which can be done in LUA.
--- It does not visualize anything, but it can be used to modify the coordinate
+-- It does not visualize anything, but it can be used to modify the coordinate
function PlotVisualizer:notifyJump(pt)
-- do nothing.
end
@@ -486,7 +486,7 @@ end
-- - the other input coordinates are already read.
-- POSTCONDITION for '@assign':
-- - \pgfplots@current@point@meta is ready for use:
--- - EITHER a parsed floating point number
+-- - EITHER a parsed floating point number
-- - OR an empty string,
-- - OR a symbolic string (if the issymbolic boolean is true)
-- The default implementation is
@@ -521,7 +521,7 @@ CoordAssignmentPointMetaHandler = newClassExtends( PointMetaHandler )
function CoordAssignmentPointMetaHandler:constructor(dir)
PointMetaHandler.constructor(self, false,false)
if not dir then error "nil argument for 'dir' is unsupported." end
- self.dir=dir
+ self.dir=dir
end
function CoordAssignmentPointMetaHandler:assign(pt)
@@ -561,7 +561,7 @@ function ExpressionPointMetaHandler:assign(pt)
error("point meta=" .. self.expression .. ": expression has been rejected.")
end
end
-
+
-------------------------------------------------------
@@ -580,12 +580,12 @@ end
-------------------------------------------------------
--- An axis.
+-- An axis.
Axis = newClass()
function Axis:constructor()
self.is3d = false
- self.clipLimits = true
+ self.clipLimits = { true, true, true}
self.autocomputeAllLimits = true -- FIXME : redundant!?
self.autocomputeMin = { true, true, true }
self.autocomputeMax = { true, true, true }
@@ -618,7 +618,7 @@ function Axis:getVertexDepth(pt)
end
if #vertex ~=3 then
- error("Cannot compute vertex depth of " .. tostring(pt) .. ": expected a 3d point but got " .. tostring(#vertex))
+ error("Cannot compute vertex depth of " .. tostring(pt) .. ": expected a 3d point but got " .. tostring(#vertex))
end
if not viewdir or #viewdir~=3 then error("got unexpected view dir " ..tostring(viewdir) ) end
@@ -704,7 +704,7 @@ end
function Axis:validatecoord(dir, point)
if not dir or not point then error("arguments must not be nil") end
local result = pgftonumber(point.x[dir])
-
+
if result == nil then
result = nil
elseif result == pgfplotsmath.infty or result == -pgfplotsmath.infty or pgfplotsmath.isnan(result) then
@@ -728,9 +728,9 @@ function Axis:parsecoordinate(pt, filterExpressionByDir)
if pt.x[3] ~= nil then
self.is3d = true
end
-
+
local result = Coord.new()
-
+
local unfiltered = Coord.new()
unfiltered.x = {}
unfiltered.meta = pt.meta
@@ -754,7 +754,7 @@ function Axis:parsecoordinate(pt, filterExpressionByDir)
for i = 1,self:loopMax() do
self:validatecoord(i, result)
end
-
+
local resultIsBounded = true
for i = 1,self:loopMax() do
if result.x[i] == nil then
@@ -766,7 +766,7 @@ function Axis:parsecoordinate(pt, filterExpressionByDir)
result.x = { nil, nil, nil}
end
- return result
+ return result
end
-- PROTECTED
@@ -794,23 +794,23 @@ end
-- @param pt an instance of Coord
function Axis:updatelimitsforcoordinate(pt)
local isClipped = false
- if self.clipLimits then
- for i = 1,self:loopMax(),1 do
+ for i = 1,self:loopMax(),1 do
+ if self.clipLimits[i] then
if not self.autocomputeMin[i] then
isClipped = isClipped or pt.x[i] < self.min[i]
end
if not self.autocomputeMax[i] then
isClipped = isClipped or pt.x[i] > self.max[i]
end
- end
+ end
end
-
+
if not isClipped then
for i = 1,self:loopMax(),1 do
if self.autocomputeMin[i] then
self.min[i] = math.min(pt.x[i], self.min[i])
end
-
+
if self.autocomputeMax[i] then
self.max[i] = math.max(pt.x[i], self.max[i])
end
@@ -833,14 +833,14 @@ end
--
-- unfinished, see its fixmes
function Axis:addVisualizationDependencies(pt)
- -- FIXME : 'visualization depends on'
+ -- FIXME : 'visualization depends on'
-- FIXME : 'execute for finished point'
return pt
end
-- PROTECTED
--
--- indicates that a data point has been surveyed by the axis and that it can be consumed
+-- indicates that a data point has been surveyed by the axis and that it can be consumed
function Axis:datapointsurveyed(pt, plothandler)
if not pt or not plothandler then error("arguments must not be nil") end
if pt.x[1] ~= nil then
@@ -882,7 +882,7 @@ function Axis:datapointsurveyed(pt, plothandler)
end
end
end
-
+
-- note that the TeX variant would increase the coord index here.
-- We do it it surveypoint.
end
@@ -905,7 +905,7 @@ local function toTeXxyzCoord(namePrefix, pt )
local x = toTeXstring(pt.x[1])
local y = toTeXstring(pt.x[2])
local z = toTeXstring(pt.x[3])
- return
+ return
"\\gdef" .. namePrefix .. "@x{" .. x .. "}" ..
"\\gdef" .. namePrefix .. "@y{" .. y .. "}" ..
"\\gdef" .. namePrefix .. "@z{" .. z .. "}";
@@ -942,8 +942,8 @@ function Axis:surveyToPgfplots(plothandler)
local firstCoord = findFirstValidCoord(plothandler.coords) or Coord.new()
local lastCoord = findLastValidCoord(plothandler.coords) or Coord.new()
- local result =
- plothandlerResult ..
+ local result =
+ plothandlerResult ..
toTeXxyzCoord("\\pgfplots@currentplot@firstcoord", firstCoord) ..
toTeXxyzCoord("\\pgfplots@currentplot@lastcoord", lastCoord) ..
axisLimitToTeXString("\\pgfplots@metamin", plothandler.metamin) ..
@@ -959,21 +959,21 @@ function Axis:surveyToPgfplots(plothandler)
axisLimitToTeXString("\\pgfplots@zmax", self.max[3]) ..
"\\global\\pgfplots@threedimtrue ";
end
- if plothandler.plotHasJumps then
+ if plothandler.plotHasJumps then
result = result ..
"\\def\\pgfplotsaxisplothasjumps{1}"
else
result = result ..
"\\def\\pgfplotsaxisplothasjumps{0}"
end
- if plothandler.hasUnboundedPointMeta then
+ if plothandler.hasUnboundedPointMeta then
result = result ..
"\\def\\pgfplotsaxisplothasunboundedpointmeta{1}"
else
result = result ..
"\\def\\pgfplotsaxisplothasunboundedpointmeta{0}"
end
- if plothandler.filteredCoordsAway then
+ if plothandler.filteredCoordsAway then
result = result ..
"\\def\\pgfplotsaxisfilteredcoordsaway{1}"
else
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/statistics.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/statistics.lua
index 57350254b30..ff264858d0a 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/statistics.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/statistics.lua
@@ -42,7 +42,7 @@ function PercentileEstimator:getIndex(data, i)
end
return result
end
-
+
-- @param percentile the requested percentile. Use 0.5 for the median, 0.25 for the first quartile, 0.95 for the 95% percentile etc.
function PercentileEstimator:getValue(percentile, data)
@@ -65,8 +65,8 @@ function LegacyPgfplotsPercentileEstimator:getValue(percentile, data)
local offset_low = mathfloor(h)
local isInt = ( h==offset_low )
- local offset_high = offset_low+1
-
+ local offset_high = offset_low+1
+
local x_low = self:getIndex(data, offset_low)
local x_up = self:getIndex(data, offset_high)
local res = x_low
@@ -92,8 +92,8 @@ function LegacyBadPgfplotsPercentileEstimator:getValue(percentile, data)
local offset_low = mathfloor(h)
local isInt = ( h==offset_low )
- local offset_high = offset_low+1
-
+ local offset_high = offset_low+1
+
local x_low = self:getIndex(data, offset_low+1)
local x_up = self:getIndex(data, offset_high+1)
local res = x_low
@@ -122,39 +122,39 @@ function ParameterizedPercentileEstimator:constructor( typeFlag )
local x_up = getIndex(self, data, h_low +1 )
return x_low + (h - h_low) * (x_up - x_low)
end
-
+
if typeFlag == 1 then
- -- R1
+ -- R1
self.getValue = function(self, percentile, data)
local h= #data * percentile
return getIndex(self, data, mathceil(h) )
end
elseif typeFlag == 2 then
- -- R2
+ -- R2
self.getValue = function(self, percentile, data)
local h= #data * percentile + 0.5
return 0.5*(getIndex(self, data, mathceil(h-0.5)) + getIndex(self, data, mathfloor(h+0.5) ) )
end
elseif typeFlag == 3 then
- -- R3
+ -- R3
self.getValue = function(self, percentile, data)
local h= #data * percentile
return getIndex(self, data, pgfluamathfunctions.round(h) )
end
elseif typeFlag == 4 then
- -- R4
+ -- R4
self.getValue = function(self, percentile, data)
local h= #data * percentile
return stdLookup(data,h)
end
elseif typeFlag == 5 then
- -- R5
+ -- R5
self.getValue = function(self, percentile, data)
local h= #data * percentile + 0.5
return stdLookup(data,h)
end
elseif typeFlag == 6 then
- -- R6
+ -- R6
self.getValue = function(self, percentile, data)
local h= (#data +1) * percentile
return stdLookup(data,h)
@@ -166,13 +166,13 @@ function ParameterizedPercentileEstimator:constructor( typeFlag )
return stdLookup(data,h)
end
elseif typeFlag == 8 then
- -- R8
+ -- R8
self.getValue = function(self, percentile, data)
local h= (#data + 1/3) * percentile + 1/3
return stdLookup(data,h)
end
elseif typeFlag == 9 then
- -- R9
+ -- R9
self.getValue = function(self, percentile, data)
local h= (#data + 1/4) * percentile + 3/8
return stdLookup(data,h)
@@ -183,7 +183,7 @@ function ParameterizedPercentileEstimator:constructor( typeFlag )
end
-getPercentileEstimator = function(estimatorName)
+getPercentileEstimator = function(estimatorName)
if estimatorName == "legacy" then
return LegacyPgfplotsPercentileEstimator.new()
elseif estimatorName == "legacy*" then
@@ -251,7 +251,7 @@ end
-- @return an instance of BoxPlotResponse
function boxPlotCompute(boxPlotRequest, data)
if not boxPlotRequest or not data then error("Arguments must not be nil") end
-
+
for i = 1,#data do
local data_i = data[i]
if data_i == nil or type(data_i) ~= "number" then
@@ -265,7 +265,7 @@ function boxPlotCompute(boxPlotRequest, data)
for i = 1,#data do
sum = sum + data[i]
end
-
+
local numCoords = #data
local lowerWhisker
@@ -321,7 +321,7 @@ function boxPlotCompute(boxPlotRequest, data)
end
-------------------------------------------------------
--- Replicates the survey phase of \pgfplotsplothandlerboxplot
+-- Replicates the survey phase of \pgfplotsplothandlerboxplot
BoxPlotPlothandler = newClassExtends(Plothandler)
-- drawDirection : either "x" or "y".
@@ -355,17 +355,17 @@ function BoxPlotPlothandler:surveyend()
local computed = boxPlotCompute( self.boxPlotRequest, self.boxplotInput )
- local texResult =
+ local texResult =
"\\pgfplotsplothandlersurveyend@boxplot@set{lower whisker}{" .. toTeXstring(computed.lowerWhisker) .. "}" ..
"\\pgfplotsplothandlersurveyend@boxplot@set{lower quartile}{" .. toTeXstring(computed.lowerQuartile) .. "}" ..
"\\pgfplotsplothandlersurveyend@boxplot@set{median}{" .. toTeXstring(computed.median) .. "}" ..
"\\pgfplotsplothandlersurveyend@boxplot@set{upper quartile}{" .. toTeXstring(computed.upperQuartile) .. "}" ..
"\\pgfplotsplothandlersurveyend@boxplot@set{upper whisker}{" .. toTeXstring(computed.upperWhisker) .. "}" ..
"\\pgfplotsplothandlersurveyend@boxplot@set{sample size}{" .. toTeXstring(# self.boxplotInput) .. "}"
-
+
self.boxplotInput = nil
Plothandler.surveystart(self)
-
+
local outliers = computed.outliers
for i =1,#outliers do
local outlier = outliers[i]
diff --git a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/streamer.lua b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/streamer.lua
index ab5b605d6d1..39baf5ceca1 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/streamer.lua
+++ b/Master/texmf-dist/tex/generic/pgfplots/lua/pgfplots/streamer.lua
@@ -49,7 +49,7 @@ function AddplotExpressionCoordinateGenerator:constructor(coordoutputstream, exp
self.domainMax = domainMax
self.samples = samples
self.variableNames = variableNames
-
+
-- log("initialized " .. tostring(self) .. "\n")
end
@@ -57,7 +57,7 @@ end
-- this method is a replicate of \pgfplots@addplotimpl@expression@@
function AddplotExpressionCoordinateGenerator:generateCoords()
local stringToFunctionMap = pgfluamathfunctions.stringToFunctionMap
- -- create a backup of the 'x' and 'y' math expressions which
+ -- create a backup of the 'x' and 'y' math expressions which
-- have been defined in \pgfplots@coord@stream@start:
local old_global_function_x = stringToFunctionMap["x"]
local old_global_function_y = stringToFunctionMap["y"]
@@ -78,10 +78,10 @@ function AddplotExpressionCoordinateGenerator:generateCoords()
end
local variableNames = self.variableNames
-
+
local x,y
local sampleLine = #samples==1
-
+
local function pseudoconstantx() return x end
local pseudoconstanty
if sampleLine then
@@ -125,8 +125,10 @@ function AddplotExpressionCoordinateGenerator:generateCoords()
local Z = nil
if is3d then
Z = pgfmathparse(zExpr)
+ else
+ -- FIXME BUG: we need to do something else with 'Z' if this is a 2d plot inside of a 3d axis!
end
-
+
local pt = Coord.new()
pt.x = { X, Y, Z}
@@ -137,7 +139,7 @@ function AddplotExpressionCoordinateGenerator:generateCoords()
coordoutputstream:coord(pt)
end
-
+
if not sampleLine then
local xmin = domainMin[1]
local ymin = domainMin[2]
@@ -167,7 +169,7 @@ function AddplotExpressionCoordinateGenerator:generateCoords()
computeXYZ()
end
end
-
+
stringToFunctionMap[variableNames[1]] = nil
stringToFunctionMap[variableNames[2]] = nil
return true
@@ -181,10 +183,10 @@ function AddplotExpressionCoordinateGenerator:__tostring()
result = result .. self.expressions[i] ..", "
end
result = result .. "\n domain=" .. self.domainMin[1] .. ":" .. self.domainMax[1]
- result = result .. "\n samples=" .. self.samples[1]
+ result = result .. "\n samples=" .. self.samples[1]
if #self.domainMin == 2 then
result = result .. "\n domain y=" .. self.domainMin[2] .. ":" .. self.domainMax[2]
- result = result .. "\n samples y=" .. self.samples[2]
+ result = result .. "\n samples y=" .. self.samples[2]
end
result = result .. "]"
return result
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 a85aa649329..5812550a4fc 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstable.code.tex
@@ -2,7 +2,7 @@
%
% Package pgfplotstable
%
-% Provides support to read and work with abstact numeric tables of the
+% Provides support to read and work with abstract numeric tables of the
% form
%
% COLUMN1 COLUMN2 COLUMN3
@@ -17,12 +17,12 @@
% 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/>.
%
@@ -97,7 +97,7 @@
\ifnum\c@pgfplotstable@rowindex<\pgfplotstablerows\relax
\c@pgfplotstable@colindex=\pgfplotstablerows\relax
\advance\c@pgfplotstable@colindex by-\c@pgfplotstable@rowindex
- \advance\c@pgfplotstable@colindex by\pgfplotstablepartsize
+ \advance\c@pgfplotstable@colindex by\pgfplotstablepartsize
\edef\pgfplotstablepartsize{\the\c@pgfplotstable@colindex}%
\fi
%
@@ -183,10 +183,10 @@
% columns={[index]2,name2,name3,[index]5}
/pgfplots/table/columns/.initial=,
%
- % this choice allows
+ % this choice allows
% \pgfplotstableset{
% column name={}, % means: the column's display name is an empty string!
- % column name=\pgfkeysnovalue, % means: no value specified. In this case,
+ % column name=\pgfkeysnovalue, % means: no value specified. In this case,
% the column's display name will default to column's name.
% }
/pgfplots/table/column name/.initial=\pgfkeysnovalue,
@@ -266,7 +266,7 @@
% if the 'process' key hadn't been invoked.
% It will, however, use the current value of \pgfmathresult.
%
- % If \continue is NOT empty, for example \def\continue{0},
+ % If \continue is NOT empty, for example \def\continue{0},
% `dec sep align' assumes that \pgfmathresult contains the
% completely typeset cell, including any alignment material.
/pgfplots/table/dec sep align/process/.code=,%
@@ -407,8 +407,13 @@
}%
},%
/pgfplots/table/verb string type/.style={%
+ /pgfplots/table/text special chars={\#,\|},% FIXME: too limited ...
/pgfplots/table/assign cell content/.code={%
\def\pgfplotstable@loc@TMPa{##1}%
+ % hm... this here might be more robust instead of the line
+ % above. But not much, I suppose:
+ %\t@pgfplotstable@a={##1}%
+ %\edef\pgfplotstable@loc@TMPa{\the\t@pgfplotstable@a}%
\pgfplots@command@to@string\pgfplotstable@loc@TMPa\pgfplotstable@loc@TMPa
\pgfkeyslet{/pgfplots/table/@cell content}{\pgfplotstable@loc@TMPa}%
}%
@@ -599,7 +604,7 @@
% \let\pgfplots@table@curkeyname=\pgfkeyscurrentname
% \pgfqkeys{/pgf/number format}{\pgfplots@table@curkeyname=#1}%
% },%
- %--------------------------------------------------
+ %--------------------------------------------------
/pgfplots/table/create col/assign first/.style={
/pgfplots/table/create col/assign%
},
@@ -937,7 +942,7 @@
/pgfplots/table/every last column/.code=,
/pgfplots/table/every head row/.code=,
/pgfplots/table/every odd row/.code=,
- /pgfplots/table/every even row/.code=,±
+ /pgfplots/table/every even row/.code=,
/pgfplots/table/every first row/.code=,
/pgfplots/table/every last row/.code=,
/pgfplots/table/postproc cell content/.code=,
@@ -958,7 +963,7 @@
%
% fills the column with x1,...,xN such that yi(xi) == epsilon where
%
-% In other words, it computes cuts points between the line
+% In other words, it computes cuts points between the line
% y == epsilon and one or more other plots yi(x) and returns the 'x'
% values of the cuts.
%
@@ -989,7 +994,7 @@
% A helper macro to automatically remove the "hangover" created by
% 'colortbl'.
-% This allows compatibility between my 'sci sep align' and 'dec sep align'
+% This allows compatibility between my 'sci sep align' and 'dec sep align'
% implementations and \rowcolor. Otherwise, the hangover
% would overwrite digits near the separator.
%
@@ -1101,7 +1106,7 @@
]{#2}%
}%
-% clears the table.
+% clears the table.
\def\pgfplotstableclear#1{%
\let#1=\relax
\expandafter\let\csname \string#1@@table@name\endcsname=\relax
@@ -1111,7 +1116,7 @@
% \pgfplotstablenew[<options>]{<numrows>}{<\name>}
% \pgfplotstablenew*[<options>]{<numrows>}{<\name>}
%
-% Creates a new table from scratch.
+% Creates a new table from scratch.
%
% The new table will contain all columns listed in the 'columns' key
% which must be present in <options>. The starred version
@@ -1211,7 +1216,7 @@
\pgfplotslistforeachungrouped\pgfplotstable@loc@TMPb\as\pgfplotstable@loc@TMPc{%
\t@pgfplots@toka=\expandafter{\pgfplotstable@loc@TMPc}%
\edef\pgfplotstable@loc@TMPd{%
- \noexpand\pgfplotslistpushback{\the\t@pgfplots@toka}\to\expandafter\noexpand\csname\string#1@\pgfplotstable@loc@TMPa\endcsname
+ \noexpand\pgfplotslistpushback{\the\t@pgfplots@toka}\noexpand\to\expandafter\noexpand\csname\string#1@\pgfplotstable@loc@TMPa\endcsname
}%
\pgfplotstable@loc@TMPd
}%
@@ -1228,7 +1233,7 @@
% \pgfplotstabletranspose{<\outtable>}{<intable>}
% \pgfplotstabletranspose[<colname>]{<\outtable>}{<intable>}
-% Defines <\outtable> to be the transposed of <intable>.
+% Defines <\outtable> to be the transposed of <intable>.
%
% If <colname> is not empty, the respective column's entries will be used to
% make output column names.
@@ -1258,12 +1263,12 @@
% Creates a new column named #1 and appends it to table #2.
%
% The column entries will be created using the command keys
-% 'create col/assign'
+% 'create col/assign'
% 'create col/assign last'
%
% The key 'create col/assign' will be invoked for every row of table #2.
% It is supposed to assign the key 'create col/next content'.
-% During evaluation of 'create col/assign', the macro '\thisrow{<col name>}'
+% During evaluation of 'create col/assign', the macro '\thisrow{<col name>}'
% expands to the current row's value of the column named by <col name>.
% Furthermore, '\nextrow{<col name>}' expands to the \emph{next} row's
% value of the designated column.
@@ -1273,9 +1278,9 @@
% value.
%
% You can use
-% - \thisrow{<col name>},
+% - \thisrow{<col name>},
% - \getthisrow{<col name>}{\macro}
-% - \nextrow{<col name>},
+% - \nextrow{<col name>},
% - \getnextrow{<col name>}{\macro}
%
% FIXME this documentation is incomplete. Please refer to pgfplotstable.pdf .
@@ -1310,7 +1315,7 @@
% \pgfplotstablerow will expand to the current column index, column
% name and row index, respectively.
\def\pgfplotstabletypeset{%
- \pgfutil@ifnextchar[{%
+ \pgfutil@ifnextchar[{%
\pgfplotstabletypeset@opt
}{%
\pgfplotstabletypeset@opt[]%
@@ -1361,7 +1366,7 @@
\fi
\fi
\ifpgfplotstabletypeset@includeoutfiles
- \input \pgfplotstable@outfilename\relax
+ \input \pgfplotstable@outfilename\relax
\else
\pgfplotstableread{#2}\pgfplotstabletypesetfile@opt@@
\ifx\pgfplotstabletypesetfile@opt@@\relax
@@ -1595,7 +1600,7 @@
% #2: style arguments
%
% All these styles are accumulated into the macro
-% \pgfplots@each@nth@styles.
+% \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:
@@ -1659,7 +1664,7 @@
% \pgfplots@error{There is no such table '\string#2' loaded into memory. Maybe you meant to use '\string\pgfplotstabletypesetfile{\string#2}' instead of '\string\pgfplotstabletypeset{\string#2}'?}%
% \pgfplotslistnewempty#2
% }{}%
- %--------------------------------------------------
+ %--------------------------------------------------
\def\pgfplotstablename{#2}% the name of the actual table struct
\def\pgfplotstablecolname{\pgfplotstable@colname}%
\def\pgfplotstablecol{\the\c@pgfplotstable@colindex}%
@@ -1746,7 +1751,7 @@
%
%
\ifpgfplotstable@sort
- % make sure any columns exist (especially create on use).
+ % make sure any columns exist (especially create on use).
% this can be done by calling getcolumnbyname once for every
% column:
\pgfplotslistforeachungrouped\pgfplotstable@colnames\as\pgfplotstable@colname{%
@@ -1826,7 +1831,7 @@
% temporarily restore it: we may need it in row predicates:
\global\advance\c@pgfplotstable@colindex by-1\relax
\ifpgfplotstable@disable@rowcolstyles
- % ok, then don't check for 'columns/<name>' and
+ % ok, then don't check for 'columns/<name>' and
% 'display columns/<index>':
\edef\pgfplotstable@loc@TMPa{\the\t@pgfplots@toka}%
\else
@@ -1858,7 +1863,7 @@
\expandafter\pgfplotslistpushbackglobal\pgfplotstable@coltype\to\pgfplotstabletypeset@final@coltypes
%
\pgfplotslistnewempty\pgfplotstable@col@processed
- \c@pgfplotstable@counta=0
+ \c@pgfplotstable@counta=0
\pgfplotslistforeachungrouped\pgfplotstable@col\as\pgfplotstable@entry{%
\pgfplotstableuserowtrue
\edef\pgfplotstable@loc@TMPa{\noexpand\pgfkeysvalueof{/pgfplots/table/row predicate/.@cmd}\the\c@pgfplotstable@rowindex}%
@@ -2159,6 +2164,7 @@
\def\pgfplotstablecreatecol@opt[#1]#2#3{%
\begingroup
+ \pgfkeysinterruptkeyfilter
\def\pgfplotstablename{#3}% the name of the table struct
\pgfplotstableset{columns=,#1,%
/pgf/fpu/handlers/empty number/.code 2 args={%
@@ -2294,6 +2300,7 @@
\pgfplotstable@isfirstrowfalse
\advance\c@pgfplotstable@rowindex by1\relax
\pgfutil@repeat
+ \endpgfkeysinterruptkeyfilter
\global\let\pgfplots@glob@TMPc=\pgfplotstable@newcol
\global\let\pgfplots@glob@TMPb=\pgfplotstable@newcolname
\endgroup
@@ -2310,7 +2317,7 @@
%
%-----------------------------------------------------------
-% create on use/cut/.style={create col/function graph cut y={7e-4}{x=Basis,ymode=log,xmode=log}{{table=regtable,y=special-L2}}},
+% create on use/cut/.style={create col/function graph cut y={7e-4}{x=Basis,ymode=log,xmode=log}{{table=regtable,y=special-L2}}},
% #1 = value of fixed line (I call it epsilon)
% #2 = options
% #3 = specification where to get the y from. It is a comma separated
@@ -2350,7 +2357,7 @@
\ifx\pgfplotstable@fgc@foreach@\pgfutil@empty
\else
\edef\pgfplotstable@fgc@foreach@process@append{x={\pgfplotstable@fgc@x},y={\pgfplotstable@fgc@y}}%
- % we have something like
+ % we have something like
% foreach={\d in {1,2,3,4}}{table\d}
% -> process it!
% This will modify \pgfmathaccumb
@@ -2400,8 +2407,8 @@
%
% Interpolate:
\pgfmathparse{
- \pgfplotstable@fgc@abscissafirst +
- (\pgfplotstable@fgc@eps - \pgfplotstable@fgc@first) / (\pgfplotstable@fgc@second-\pgfplotstable@fgc@first)
+ \pgfplotstable@fgc@abscissafirst +
+ (\pgfplotstable@fgc@eps - \pgfplotstable@fgc@first) / (\pgfplotstable@fgc@second-\pgfplotstable@fgc@first)
* (\pgfplotstable@fgc@abscissasecond - \pgfplotstable@fgc@abscissafirst) }%
\if\pgfplotstable@fgc@xmode1
\pgfmathfloatexp@{\pgfmathresult}%
@@ -2419,7 +2426,7 @@
\ifx\pgfplotstable@fgc@foreach\pgfutil@empty
\pgfkeyslet{/pgfplots/table/create col/next content}\pgfmathresult%
\else
- % we have something like
+ % we have something like
% foreach={\d in {1,2,3,4}}{table\d}
% -> process it!
% This will modify \pgfmathaccumb
@@ -2517,13 +2524,13 @@
\fi
\pgfmathfloatlessthan@{\pgfplotstable@fgc@val}{\pgfplotstable@fgc@eps}%
\ifpgfmathfloatcomparison
- \pgfplotstable@fgc@findintervalwitheps@updateresult 01
+ \pgfplotstable@fgc@findintervalwitheps@updateresult 01%
\else
- \pgfplotstable@fgc@findintervalwitheps@updateresult 10
+ \pgfplotstable@fgc@findintervalwitheps@updateresult 10%
\fi
\fi
}%
-}
+}%
% #1 : the value of \pgfplotstable@fgc@lastwasless for which the loop
% shall break.
@@ -2947,7 +2954,7 @@
% use a side effect: columns are integers, they are stored as
% '\pgfp@tmp@<index>'. Thus, column names and array indices are
% essentially the same! That simplifies the operation and explains
- % why we transposed the table.
+ % why we transposed the table.
% We simply interprete the transposed table as array. We don't
% even need to copy anything.
\pgfplotsarrayresize{\pgfp@tmp}{\pgfplotstable@numrows}%
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 be1ce3ec05c..1cb10748269 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/numtable/pgfplotstableshared.code.tex
@@ -17,12 +17,12 @@
% 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/>.
%
@@ -50,7 +50,7 @@
% 5. foreach column, there is a list of row-values (a row-vector) in
% the \pgfplotslist format named
% \csname\string<\namemacro>@<column name>\endcsname
-%
+%
\newif\ifpgfplotstable@search@header
\newif\ifpgfplotstable@firstline@is@header
@@ -145,6 +145,7 @@
/pgfplots/table/z error minus expr/.initial=,
/pgfplots/table/ignore chars/.initial=,
/pgfplots/table/white space chars/.initial=,
+ /pgfplots/table/text special chars/.initial=,
/pgfplots/table/comment chars/.initial=,
/pgfplots/table/skip first n/.initial=0,
/pgfplots/table/trim cells/.is if=pgfplotstable@trimcells,
@@ -193,7 +194,7 @@
\pgfkeys{
% #1: the argument which should have been assigned.
- % #2: an error message.
+ % #2: an error message.
/pgfplots/exception/non unique colname/.code 2 args={%
\ifx\pgfplotsexceptionmsg\relax
\pgfplots@error{#2}%
@@ -364,7 +365,7 @@
}
% Declares a new getcolmethod class #1.
-% The argument '#1' can then be used as argument for
+% The argument '#1' can then be used as argument for
% \pgfplotstable@getcol...\getcolmethod{#1}.
%
% #2: a set of keys which redefine the behavior.
@@ -439,7 +440,7 @@
%
% Ok, then check for special features.
%
- % 1. 'create col/...'
+ % 1. 'create col/...'
% 2. 'create on use'
% 3. 'alias'
%
@@ -499,7 +500,7 @@
\def\pgfplotstablegetcolumnbyname@impl@nosuchalias#1\of#2\to#3{
\pgfplotstablegetcolumnbyname@impl@nosuchalias@{#1}\of{#2}\to{#3}\pgfplotstablegetcolumnbyname@impl@createonuseforbiddentext@disable
}%
-
+
\def\pgfplotstablegetcolumnbyname@impl@nosuchalias@#1\of#2\to#3#4{%
\pgfplotsthrow{no such element}{#3}{Sorry, could not retrieve aliased column '\pgfkeysvalueof{/pgfplots/table/alias/#1}' from table '\pgfplotstablenameof{#2}'. The original request was for '#1', which does not exist either.#4{#1}}\pgfeov%
}%
@@ -605,7 +606,7 @@
\def\pgfplotstablegetname#1#2{%
\expandafter\let\expandafter#2\csname\string#1@@table@name\endcsname
}
-
+
% expands to the table file name of table '#1'
\def\pgfplotstablenameof#1{%
\csname\string#1@@table@name\endcsname
@@ -698,7 +699,7 @@
% To show the problem, consider
% \pgfplotstabletypeset[<options>]
% \loadedtable
-%
+%
% and we want to set the catcodes *before* \loadedtable is seen.
% Well, there is a newline character after ']'! If we change the
% catcodes, this newline will be considered as character and will make
@@ -772,7 +773,7 @@
}%
-% I don't know why; but I started with
+% I don't know why; but I started with
% >> \pgfplotstableread[]{file} to \macro
% That ' to ' is really ugly. This here is for backwards
% compatibility:
@@ -992,7 +993,7 @@
\openin\r@pgfplots@reada=\pgfplotstableread@filename\relax
\else
\pgfplots@warning{%
- You requested to open table '\pgfplotstableread@filename', but there is also a '\pgfplotstableread@filename.tex'.
+ You requested to open table '\pgfplotstableread@filename', but there is also a '\pgfplotstableread@filename.tex'.
TeX will automatically append the suffix '.tex', so I will now open '\pgfplotstableread@filename.tex'.
Please make sure you don't accidentally load TeX files - this may produce unrecoverable errors.}%
\closein\r@pgfplots@reada
@@ -1046,6 +1047,11 @@
\else
\pgfplotstableinstallignorechars@\pgfplotstable@loc@TMPa{10}%
\fi
+ \pgfkeysgetvalue{/pgfplots/table/text special chars}\pgfplotstable@loc@TMPa
+ \ifx\pgfplotstable@loc@TMPa\pgfutil@empty
+ \else
+ \pgfplotstableinstallignorechars@\pgfplotstable@loc@TMPa{12}%
+ \fi
\ifx\pgfplotstableuninstallignorechars\pgfutil@empty
\else
\expandafter\def\expandafter\pgfplotstableuninstallignorechars\expandafter{%
@@ -1054,7 +1060,7 @@
}%
\fi
\fi
-}%
+}%
\let\pgfplotstableuninstallignorechars\pgfutil@empty%
% #1 macro containing the characters as comma-separated list
% #2 the catcode to assign
@@ -1133,7 +1139,7 @@
\fi
}%
-% Copies the table column list and the column vectors of #1 to global buffers.
+% Copies the table column list and the column vectors of #1 to global buffers.
% @see \pgfplotstable@copy@globalbuffers@to
%
% Use these two methods to avoid scoping problems.
@@ -1170,7 +1176,7 @@
% @see \pgfplotstable@copy@to@globalbuffers
%
% @PRECONDITION the global buffers contain all members of a table.
-%
+%
% @POSTCONDITION The table '#1' is be initialised to these members.
% Furthermore, \pgfplotsscanlinelength is set.
\def\pgfplotstable@copy@globalbuffers@to#1{%
@@ -1222,7 +1228,7 @@
\def\pgfplotstableread@loop@over@lines@frominline{%
\pgfutil@ifnextchar\pgfplotstable@EOI{%
\pgfutil@gobble
- }{%
+ }{%
\pgfplotstableread@loop@next
}%
}%
@@ -1233,7 +1239,7 @@
\fi
}%
-% PRECONDITION:
+% PRECONDITION:
% \pgfplotstable@LINE contains the current input line.
\def\pgfplotstableread@loop@processnextline{%
\expandafter\pgfplotstableread@checkspecial@line\pgfplotstable@LINE\pgfplotstable@EOI
@@ -1252,7 +1258,7 @@
% \ifnum\pgfplotstableread@lineno=0
% \let\pgfplotstable@firstline=\pgfplotstable@LINE
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
%\pgfplots@message{READING LINE \thepgfplotstableread@lineno: '\meaning\pgfplotstable@LINE'.}%
\pgfplotstableread@curline@contains@colnamesfalse
\ifnum\pgfplotstableread@numcols=0\relax
@@ -1331,21 +1337,17 @@
\pgfplotstableread@skiplinetrue
\else
\let\pgfplotstableread@tmpb=$%
+ \let\pgfplotstableread@tmpb=\pgfplotstable@EOI%
\ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
- \let\pgfplotstableread@checkspecial@line@@=\pgfplotstableread@process@flags@line
+ \pgfplotstableread@skiplinetrue
+ \pgfplotsscanlinecomplete% the line is empty; same as \par!
\else
- \let\pgfplotstableread@tmpb=\pgfplotstable@EOI%
+ \let\pgfplotstableread@tmpb=\par%
\ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
\pgfplotstableread@skiplinetrue
- \pgfplotsscanlinecomplete% the line is empty; same as \par!
+ \pgfplotsscanlinecomplete% the line is empty;
\else
- \let\pgfplotstableread@tmpb=\par%
- \ifx\pgfplotstableread@tmp\pgfplotstableread@tmpb
- \pgfplotstableread@skiplinetrue
- \pgfplotsscanlinecomplete% the line is empty;
- \else
- \pgfplotstableread@checkspecial@line@default%
- \fi
+ \pgfplotstableread@checkspecial@line@default%
\fi
\fi
\fi
@@ -1391,13 +1393,7 @@
% }%
% }%
% }
-%--------------------------------------------------
-
-\long\def\pgfplotstableread@process@flags@line$flags {%
-%\pgfplots@message{Ignoring flags line ...}%
- \pgfplotstableread@skiplinetrue
- \pgfplotstableread@impl@gobble
-}
+%--------------------------------------------------
\def\pgfplotstableread@create@column@lists{%
\pgfutil@loop
@@ -1422,7 +1418,7 @@
\def\pgfplotstable@EOI{\pgfplotstable@EOI}%
-% A loop command which processes every single entry in a raw data row #2
+% A loop command which processes every single entry in a raw data row #2
% and invokes the macro #1{<arg>} for each found column entry.
%
% Columns are separated by the /pgfplots/table/col sep character.
@@ -1596,7 +1592,7 @@
% \def\thisrow#1{\pgfplotstable@thisrow@impl{#1}{macroprefix@}{\pgfplotstable@thisrow@impl@}}
%
% Then, \thisrow{existingcol}
-% will expand to
+% will expand to
% -> \pgfplotstable@thisrow@impl@{\csname macroprefix@existingcol\endcsname}
% -> \csname macroprefix@existingcol\endcsname
%
@@ -1649,7 +1645,7 @@
% \pgfplotstablereadevalptr{\ptr}{\content}%
% -> do something with \content!
% }
-%
+%
% \pgfplotstableread{<file>} to listener<\macro>
%
% -> will evaluate \macro foreach row.
@@ -1874,7 +1870,7 @@
}%
\def\pgfplotstabletypeset{%
- \pgfutil@ifnextchar[{%
+ \pgfutil@ifnextchar[{%
\pgfplotstabletypeset@opt
}{%
\pgfplotstabletypeset@opt[]%
@@ -1956,7 +1952,7 @@
\let\pgfplotstablerow=\relax
}%
% helper method to allow nesting. It copies \pgfplotstablerow.
-% #1: the expanded value of \pgfplotstablerow.
+% #1: the expanded value of \pgfplotstablerow.
\long\def\pgfplotstableforeachcolumnelement@#1#2{%
#2\relax
\def\pgfplotstablerow{#1}% restore to old value.
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 3f3f4e23162..ab19ee35f13 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
@@ -131,6 +131,38 @@
}{%
}%
+\pgfutil@IfUndefined{pgfutilifcontainsmacro}{%
+ \gdef\pgfplots@glob@TMPa{1}%
+}{%
+ \gdef\pgfplots@glob@TMPa{0}%
+}%
+\if1\pgfplots@glob@TMPa
+ \begingroup
+ \catcode`\|=0
+ \catcode`\\=12
+ |gdef|pgfutil@backslash@as@other{\}%
+ |endgroup
+ \def\pgfutil@command@to@string#1#2{%
+ \expandafter\pgfutil@command@to@string@@\meaning#1\pgfutil@EOI{#2}%
+ }%
+ \xdef\pgfutil@glob@TMPa{\meaning\pgfutil@empty}%
+ \expandafter\def\expandafter\pgfutil@command@to@string@@\pgfutil@glob@TMPa#1\pgfutil@EOI#2{%
+ \def#2{#1}%
+ }%
+ \def\pgfutilifcontainsmacro#1#2#3{%
+ \def\pgf@marshal{#1}%
+ \pgfutil@command@to@string\pgf@marshal\pgf@marshal
+ \edef\pgf@marshal{\noexpand\pgfutil@in@{\pgfutil@backslash@as@other}{\pgf@marshal}}%
+ \pgf@marshal
+ \ifpgfutil@in@
+ \def\pgf@marshal{#2}%
+ \else
+ \def\pgf@marshal{#3}%
+ \fi
+ \pgf@marshal
+ }%
+\fi
+
\pgfutil@IfUndefined{pgfapplistnewempty}{%
\immediate\write16{Package pgfplots: loading complementary utilities for your pgf version...}
\csname newtoks\endcsname\t@pgf@toka
@@ -148,6 +180,19 @@
}%
}{}%
+\def\pgfmathfloat@install@unimplemented@broken#1{%
+ \expandafter\pgfmathfloat@prepareuninstallcmd\csname pgfmath@#1@\endcsname%
+ \expandafter\def\csname pgfmath#1@\endcsname##1{\pgfmathfloat@notimplemented{#1}}%
+}
+
+\ifx\pgfmathfloat@install@unimplemented\pgfmathfloat@install@unimplemented@broken
+ \def\pgfmathfloat@install@unimplemented#1{%
+ \expandafter\pgfmathfloat@prepareuninstallcmd\csname pgfmath#1@\endcsname%
+ \expandafter\def\csname pgfmath#1@\endcsname##1{\pgfmathfloat@notimplemented{#1}}%
+ }%
+\fi
+
+
\ifpgfplots@LUA@supported
\def\PATCH@pgfmath@local@function@body#1;{%
\def\pgfmath@local@body{#1}%
@@ -196,12 +241,21 @@
}{%
% hm. PGF 2.10 ?
%
- % FIXME
+ % FIXME
%\pgfplots@LUA@supportedfalse
}%
%
+ \gdef\pgfplots@glob@TMPa{1}% "is up to date = 1"
\def\pgfplots@glob@TMPa{3.0.1}%
\ifx\pgfversion\pgfplots@glob@TMPa
+ \gdef\pgfplots@glob@TMPa{0}% "is up to date = 0"
+ \else
+ \def\pgfplots@glob@TMPa{3.0.1a}%
+ \ifx\pgfversion\pgfplots@glob@TMPa
+ \gdef\pgfplots@glob@TMPa{0}% "is up to date = 0"
+ \fi
+ \fi
+ \if0\pgfplots@glob@TMPa
% 3.0.1 does not have the (correct) luamath library.
\pgfutil@directlua{%
package.loaded["pgf.luamath.functions"]=nil;
@@ -237,18 +291,18 @@
\else%
\pgfutil@read\pgfutil@inputcheck to\pgf@temp% ignored
\pgfutil@read\pgfutil@inputcheck to\pgf@plot@line%
- \closein\pgfutil@inputcheck
+ \closein\pgfutil@inputcheck
\edef\pgf@plot@code{#2\space}%
\ifx\pgf@plot@code\pgf@plot@line%
\openin\pgfutil@inputcheck=\pgfretval\relax
\ifeof\pgfutil@inputcheck%
\else%
- \closein\pgfutil@inputcheck
+ \closein\pgfutil@inputcheck
\pgf@resample@plotfalse%
\fi%
\fi%
\fi
- \ifpgf@resample@plot%
+ \ifpgf@resample@plot%
\immediate\openout\pgf@plotwrite=\pgf@plotgnuplotfile\relax
\immediate\pgfutil@write\pgf@plotwrite{\pgf@gnuplot@head}%
\immediate\pgfutil@write\pgf@plotwrite{#2}%
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 36aafda149d..5d1188e8562 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
@@ -15,7 +15,7 @@
%%% Typically, these modifications have been done by the pgfplots team
%%% as contribution to PGf/TIKZ
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -69,7 +69,7 @@
\def\pgfutil@insertatbegincurrentpagefrombox@FIXED#1{%
\edef\pgf@temp{\the\wd\pgfutil@abb}%
\global\setbox\pgfutil@abb\hbox{%
- \unhbox\pgfutil@abb
+ \unhbox\pgfutil@abb
%
% the order in which \pgfutil@insertatbegincurrentpagefrombox
% matters unless we make the following -shift!
@@ -156,7 +156,7 @@
% Solves a linear equation system of size 2x2 using gauss elimination.
%
% It employs TeX register arithmetics to do so.
-% #1: should contain 4 sets of braces with matrix entries,
+% #1: should contain 4 sets of braces with matrix entries,
% {<a11>}{<a12>}
% {<a21>}{<a22>}
% where each entry should be a number without unit.
@@ -207,7 +207,7 @@
{\csname m\Pa a\endcsname}%
\let\pivot=\pgfmathresult
%
- % \factor := 1/aa * ba
+ % \factor := 1/aa * ba
\csname \Pb a\endcsname=\pivot\csname \Pb a\endcsname
\edef\factor{\expandafter\pgf@sys@tonumber\csname \Pb a\endcsname}%
%
@@ -431,8 +431,8 @@
\global\setbox\tikz@tempbox=\copy\tikz@figbox%
%\global\let\tikz@after@path@smuggle=\tikz@after@path
\endgroup%
- \setbox\tikz@figbox=\box\tikz@tempbox%
- \tikz@make@last@position{\tikz@@@temp}%
+ \setbox\tikz@figbox=\box\tikz@tempbox%
+ \tikz@make@last@position{\tikz@@@temp}%
%\expandafter\tikz@scan@next@command\tikz@after@path@smuggle%
\tikz@scan@next@command%
}
@@ -598,8 +598,8 @@
\def\pgfpatharctoprecomputed#1#2#3#4#5#6#7#8{%
\begingroup
% Implementation idea:
- %
- % let
+ %
+ % let
% m = center (#1)
% \gamma_0 = start angle
% \gamma_1 = end angle
@@ -609,7 +609,7 @@
% 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),
+ % Now, consider the segment \gamma(t),
% \gamma:[0,1] -> [\gamma_0,\gamma_1],
% t -> \gamma_0 + t(\gamma_1 - \gamma_0)
% and
@@ -625,19 +625,19 @@
% 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)
+ % 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) =
+ % (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) =
+ % (C \circ \gamma)'(1) =
% pi/180 * (\gamma_1 - \gamma_0)* [ - a/b(P_3^y - my), b/a (P_3^x - mx) ]
%
- % defining
+ % defining
% scaleA = a/b * pi / (3*180) * (\gamma_1 - \gamma_0)
% and
% scaleB = b/a * pi / (3*180) * (\gamma_1 - \gamma_0)
@@ -771,7 +771,7 @@
\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'}%
+ but I cannot divide any number by `#2'}%
\fi%
\afterassignment\pgfmath@xa%
\c@pgfmath@counta\the\pgfmath@y\relax%
@@ -798,7 +798,7 @@
\fi%
\fi%
\pgfmath@returnone\pgfmath@x%
- \endgroup%
+ \endgroup%
}
\def\pgfmath@small@number{0.00002}
\def\pgfmathdivide@@{%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreimage.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreimage.code.tex
index f352550430d..1079776c073 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreimage.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfcoreimage.code.tex
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -47,7 +47,7 @@
%
% This command declares an image file for later use. Even if the image
% is used several times in the document, in PDF it will only be stored
-% once.
+% once.
%
% Example:
%
@@ -66,7 +66,7 @@
\ifx\pgf@filename\pgfutil@empty%
\expandafter\pgf@findfile\pgfsys@imagesuffixlist:+{#3}%
\else%
- \pgfkeys{/pgf/images/page=}% make page empty
+ \pgfkeys{/pgf/images/page=}% make page empty
\fi%
\ifx\pgf@filename\pgfutil@empty%
\PackageWarning{pgf}%
@@ -127,7 +127,7 @@
\ifx\pgf@imageheight\pgfutil@empty%
\PackageWarning{pgf}{Missing height for image "#1" ("#2") in draft mode.\MessageBreak Using 1cm instead}%
\edef\pgf@imageheight{1cm}%
- \fi%
+ \fi%
\ifx\pgf@imagepage\pgfutil@empty\else\edef\pgf@imagepagetext{ page \pgf@imagepage}\fi%
\edef\pgf@image{%
\hbox to \pgf@imagewidth{%
@@ -145,7 +145,7 @@
% Declare a soft mask
%
% #1 = optional argument: matte specification. default matte is
-% white.
+% white.
% #2 = name of the mask for later use
% #3 = filename without extension, automatic extensions are .pdf,
% .jpg, and .png for PDF. Postscript is not supported.
@@ -199,7 +199,7 @@
\expandafter\global\expandafter\let\csname pgf@image@#1!\endcsname=\pgf@temp%
}
-
+
% Use an image
%
% #1 = name of a previously declared image
@@ -292,7 +292,7 @@
%
% Things change when you run tex on your file with the \jobname set to
% the name of a decalred graphics name. In this case, only your
-% graphic will be typeset, the rest of the document will be "thrown away".
+% graphic will be typeset, the rest of the document will be "thrown away".
% To be more precise, everything is gobbled up to the beginning
% of the first \beginpgfexternal with the given graphics name. Then,
% the content of the "environment" is put in a box (this "environment"
@@ -320,7 +320,7 @@
%
% This command is used to tell pgf that the file named #1 should be
% typeset normally. If \jobname is not equal to #1, only
-% the graphic called \jobname will be typeset.
+% the graphic called \jobname will be typeset.
%
% Example:
%
@@ -359,7 +359,7 @@
\let\pgfexternal@nofiles@=\relax
\def\relax{\relax}%
%
- % suppress generation of LaTeX .aux, .toc etc files.
+ % 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
@@ -412,7 +412,7 @@
\AtBeginDocument{
- \let\beginpgfgraphicnamed=\pgf@externalbegin% overwrite definition of pgfexternal.tex if necessary
+ \let\beginpgfgraphicnamed=\pgf@externalbegin% overwrite definition of pgfexternal.tex if necessary
\let\endpgfgraphicnamed=\unskip
}
@@ -428,7 +428,7 @@
\else%
\let\pgf@next=\pgf@replacepicturebygraphic%
\fi%
- \pgf@next%
+ \pgf@next%
}
\long\def\pgf@replacepicturebygraphic#1\endpgfgraphicnamed{%
@@ -494,7 +494,7 @@
% are properly expanded to `#'.
\immediate\write\@auxout{\noexpand\def\noexpand\dpthimport{\the\toks0 }\noexpand\dpthimport }%
}%
- \fi
+ \fi
}%
\else
\def\pgfincludeexternalgraphics@dp{#1#2}%
@@ -509,7 +509,7 @@
% this method is also invoked from within the tikz external library.
\def\pgf@external@grab#1{%
\def\pgf@filename{#1}%
- \ifpgfexternal@allow@aux
+ \ifpgfexternal@allow@aux
\begingroup
\pgf@external@init@aux@in@dpth
\fi
@@ -582,4 +582,3 @@
\endinput
-
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 1215300e328..39ec3b33cb7 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
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -54,13 +54,13 @@
\ifpgfmathfloatparseactive
\else
\pgfutil@ifundefined{pgfmathdeclarefunction}{%
- % Ohoh - we are running on a TeX distribution with
+ % Ohoh - we are running on a TeX distribution with
% PGF 2.00 which doesn't have the new math engine.
% I can provide special treatment here, provided that
% all float commands are still able to run (that means
% more information needs to be copied from the pgf cvs
% to pgf 2.00 - for example pgfmathfloat.code.tex).
- %
+ %
% I employ this to work with pgfplots and pgf 2.00
% using all new features.
\pgfmathfloat@parser@install@pgf@two@null@null%
@@ -90,7 +90,7 @@
\pgfmathfloatparsenumber{#1}%
\fi
\let\pgfmathfloatscale=\pgfmathresult%
- },%
+ },%
% determines the output format of each complete expression parsing
% process. If 'scale results' is active, 'fixed' is assumed
% automatically.
@@ -217,7 +217,7 @@
\pgfmathfloat@marshal%
}
-%
+%
\def\pgfmathfloat@parser@install@functions{%
% Install float commands...
%
@@ -334,7 +334,7 @@
% This here might bring speed improvements... if implemented
% correctly.
-% However, this heuristics might fail in cases like "1+1" vs "1e+1" ...
+% However, this heuristics might fail in cases like "1+1" vs "1e+1" ...
%\def\pgfmathfloat@parse@trynumber@token{numericfpu}
%\pgfmath@tokens@make{numericfpu}{eE+-Y.0123456789}
@@ -350,7 +350,7 @@
\noexpand\def\expandafter\noexpand\csname pgfmath@parsefunction@#1\endcsname{%
\noexpand\let\noexpand\pgfmath@parsepostgroup\expandafter\noexpand\csname pgfmath@parsefunction@#1@\endcsname%
\noexpand\expandafter\noexpand\pgfmath@parse@}%
- \noexpand\def\expandafter\noexpand\csname pgfmath@parsefunction@#1@\endcsname{%
+ \noexpand\def\expandafter\noexpand\csname pgfmath@parsefunction@#1@\endcsname{%
\noexpand\expandafter\expandafter\noexpand\csname pgfmath#1@\endcsname\noexpand\expandafter{\noexpand\pgfmathresult}%
\noexpand\pgfmath@postfunction%
}%
@@ -617,7 +617,7 @@
\expandafter\pgfmathfloatparsenumber\expandafter{\pgfmathresult}%
}
% Compares #1 with #2 and sets \pgfmathresult either to 1.0 or 0.0.
-%
+%
% It also sets the boolean \ifpgfmathfloatcomparison (globally).
\def\pgfmathfloatlessthan@#1#2{%
%\def\pgfmathfloatlessthan#1#2#3\and#4#5#6{%
@@ -686,7 +686,7 @@
\let\pgfmathfloatlessthan=\pgfmathfloatlessthan@
\let\pgfmathfloatless@=\pgfmathfloatlessthan@
-% ! (#1 < #2) <=> (#1 >= #2)
+% ! (#1 < #2) <=> (#1 >= #2)
\def\pgfmathfloatnotless@#1#2{%
\pgfmathfloatless@{#1}{#2}%
\ifpgfmathfloatcomparison
@@ -695,7 +695,7 @@
\def\pgfmathresult{1.0}%
\fi
}%
-% ! (#1 > #2) <=> (#1 <= #2)
+% ! (#1 > #2) <=> (#1 <= #2)
\def\pgfmathfloatnotgreater@#1#2{%
\pgfmathfloatless@{#2}{#1}%
\ifpgfmathfloatcomparison
@@ -806,7 +806,7 @@
% Renormalizes #1 to extended precision mantisse, meaning
% 100 <= m < 1000
% instead of 1 <= m < 10.
-%
+%
% 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).
@@ -842,7 +842,7 @@
% Sets extended precision to 10^#1.
%
% The different choices are
-%
+%
% - 0: normalization 0 <= m < 1 (disable extended precision)
% - 1: normalization 10 <= m < 100
% - 2: normalization 100 <= m < 1000 (default)
@@ -873,7 +873,7 @@
%
% INPUT:
% #1 normalized floating point number. Maybe a macro (it will be expanded ONCE)
-%
+%
% OUTPUT:
% - \pgfmathresult : the mantisse in extended precision
% - \pgfmathfloat@a@S : the sign of #1
@@ -1051,7 +1051,7 @@
% #1=mantisse which needs to be shifted (with smaller exponent)
% #2=smaller exponent
% #3=larger exponent
-%
+%
% ATTENTION: this helper method DESTROYS contents of \pgfmathfloat@a@S.
\def\pgfmathfloatadd@shift#1#2#3{%
\pgf@xa=#1 pt%
@@ -1113,7 +1113,7 @@
\let\pgfmathfloatsubtract=\pgfmathfloatsubtract@
% Scales a floating point number #1 with a fixed point number #2 using pgfmathmultiply.
-%
+%
% Use this method if #2 is small number.
\def\pgfmathfloatmultiplyfixed@#1#2{%
\begingroup
@@ -1408,14 +1408,14 @@
% Returns the integer part of the floating point number #1.
%
-% The result is returned as floating point as well.
+% The result is returned as floating point as well.
%
% This operation is not limited to TeX's range of count registers (it
% works symbolly)
%
% @see \pgfmathfloattoint
-% POSTCONDITION: \pgfmathresult contains the result and
-% \pgfmathfloatintwasnoop=1 if there was nothing to do
+% POSTCONDITION: \pgfmathresult contains the result and
+% \pgfmathfloatintwasnoop=1 if there was nothing to do
% \pgfmathfloatintwasnoop=0 if there where non-zero digits after the period
% \pgfmathfloatintwasnoop=2 if there where digits after the period. The digits will be stored in \pgfmathfloatintremainder in this case.
\def\pgfmathfloatint@#1{%
@@ -1603,7 +1603,7 @@
% +infty:.
\pgfmathfloatcreate{1}{1.0}{0}%
\or
- % -infty:
+ % -infty:
\pgfmathfloatcreate{2}{1.0}{0}%
\fi
\pgfmath@smuggleone\pgfmathresult
@@ -1756,7 +1756,7 @@
\def\pgfmathfloatatan@#1{%
\begingroup
- \expandafter\ifx\csname pgfmathfloatatan@TMP\endcsname\relax%
+ \expandafter\ifx\csname pgfmathfloatatan@TMP\endcsname\relax%
\pgfmathfloatcreate{1}{1.6}{4}%
\global\let\pgfmathfloatatan@TMP=\pgfmathresult
\pgfmathfloatcreate{2}{1.6}{4}%
@@ -1802,7 +1802,7 @@
\fi
%
\ifnum\pgfmathfloat@a@E<-3 %
- \ifnum\pgfmathfloat@b@S=2 %
+ \ifnum\pgfmathfloat@b@S=2 %
% #2 < 0
\pgfmathfloatcreate{1}{1.8}{2}% +180
\else
@@ -1846,7 +1846,7 @@
\pgfmathfloat@scale@deg@to@rad\pgfmathresult
\fi
\pgfmath@smuggleone\pgfmathresult%
- \endgroup%
+ \endgroup%
}%
\let\pgfmathfloatatantwo@=\pgfmathfloatatantwo
\expandafter\let\csname pgfmathfloatatan2\endcsname=\pgfmathfloatatantwo
@@ -1911,7 +1911,7 @@
%
% This allows numbers such at 10000000 or 5.23e-10 to be represented
% properly, although TeX-registers would produce overflow/underflow
-% errors in these cases.
+% errors in these cases.
%
% The natural logarithm is computed using log(X*10^Y) = log(X) + log(10)*Y
%
@@ -1947,7 +1947,7 @@
% Computes exp(#1) in floating point.
%
-% The algorithm employs the identity
+% The algorithm employs the identity
% exp(x) = exp(x - log(10^k) + log(10^k)
% = 10^k exp( x - k*log 10 )
% with k choosen such that exp( x - k*log10) can be computed with the
@@ -2114,12 +2114,12 @@
\else
\pgfmathfloatgetflags{#1}\c@pgfmath@counta
\ifnum0=\c@pgfmath@counta
- % ah: 0^x
+ % ah: 0^x
\pgfmathfloatgetflags{#2}\c@pgfmath@counta
\ifnum0=\c@pgfmath@counta
% ah: 0^0
\pgfmathfloatcreate{1}{1.0}{0}%
- \else
+ \else
% ah: 0^x with x!=0:
\pgfmathfloatcreate{0}{0.0}{0}%
\fi
@@ -2179,7 +2179,7 @@
\pgfmathfloat@definemethodfrombasic@NOARG{rnd}
\pgfmathfloat@definemethodfrombasic@NOARG{false}
\pgfmathfloat@definemethodfrombasic@NOARG{true}
-% arcsin, arccos
+% arcsin, arccos
\pgfmathfloat@definemethodfrombasic@ONEARG{asin}
\pgfmathfloat@definemethodfrombasic@ONEARG{acos}
\pgfmathfloat@definemethodfrombasic@ONEARG{not}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryintersections.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryintersections.code.tex
index 0e07fdc8a87..a3888007fd7 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryintersections.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryintersections.code.tex
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -76,7 +76,7 @@
% Example: \pgfintersectiongetsolutionsegmentindices{0}{\first}{\second}
%
% -> \first may be 0 if point #0 is in the 0'th segment
-% -> \second may be 42 if point #0 is in the 42'th segment
+% -> \second may be 42 if point #0 is in the 42'th segment
%
% The "segment index" is actually close to the "time" of the solution.
% If a solution is at "time" 42.2, it will have segment index 42.
@@ -132,7 +132,7 @@
\def\pgf@temp##1##2##3##4{%
\edef#2{##3}%
\edef#3{##4}%
- %
+ %
% check for fallback to segment indices:
\ifx#2\pgfutil@empty \edef#2{##1}\fi
\ifx#3\pgfutil@empty \edef#3{##2}\fi
@@ -161,7 +161,7 @@
\long\def\pgfintersectionofpaths#1#2{%
\begingroup%
\pgfinterruptpath%
- #1%
+ #1%
\pgfgetpath\pgf@intersect@path@a%
\global\let\pgf@intersect@path@temp=\pgf@intersect@path@a%
\endpgfinterruptpath%
@@ -170,7 +170,7 @@
%
\begingroup%
\pgfinterruptpath%
- #2%
+ #2%
\pgfgetpath\pgf@intersect@path@b%
\global\let\pgf@intersect@path@temp=\pgf@intersect@path@b%
\endpgfinterruptpath%
@@ -220,9 +220,9 @@
%
% However, \pgf@intersect@time@offset and
% \pgf@intersect@time@offset@b are *always* valid. In fact,they
- % resemble a part of the time: it holds
+ % resemble a part of the time: it holds
% 0 <= \pgf@intersect@time@a < 1
- % and \pgf@intersect@time@offset > 0.
+ % and \pgf@intersect@time@offset > 0.
%
% If we have an intersection in segment 42 of path A,
% \pgf@intersect@time@offset will be 42. The time inside of that
@@ -402,7 +402,7 @@
\pgf@marshal%
\pgfmathdivide@{\pgfmathresult}{\pgf@intersect@length@a}%
\pgf@x=\pgfmathresult pt\relax%
- \advance\pgf@x by\pgf@intersect@time@offset pt\relax%
+ \advance\pgf@x by\pgf@intersect@time@offset pt\relax%
\edef\pgf@intersect@time@a{\pgfmath@tonumber{\pgf@x}}%
\expandafter\global\expandafter\let\csname pgf@g@intersect@solution@\the\pgf@intersect@solutions @time@a\endcsname=
\pgf@intersect@time@a
@@ -413,7 +413,7 @@
\pgf@intersection@store@properties{pgfpoint@g@intersect@solution@\the\pgf@intersect@solutions}%
}%
%
- }{}%
+ }{}%
}
% Test if two lines L1 and L2 intersect.
@@ -435,16 +435,16 @@
%
% t = |x4-x3 x3-x1| / |x4-x3 x2-x1|
% |y4-y3 y3-y1| |y4-y3 y2-y1|
-%
+%
% with 0<=s,t<=1
-%
+%
% s and t do not need to be calculated:
%
% Let s = A / C and t = B / C
-%
+%
% Then 0<=s<=1 if !(C=0) && ((A=0) || ((A>0) && !(C<A)) || ((A<0) && !(C>A)))
% 0<=t<=1 if !(C=0) && ((B=0) || ((B>0) && !(C<B)) || ((B<0) && !(C>B)))
-%
+%
\newif\ifpgf@s
\newif\ifpgf@t
\def\pgfiflinesintersect#1#2#3#4{%
@@ -479,7 +479,7 @@
%
% Normalise a little. 16384 may not be a robust choice.
%
- \c@pgf@counta=\pgf@xa\divide\c@pgf@counta by16384\relax%
+ \c@pgf@counta=\pgf@xa\divide\c@pgf@counta by16384\relax%
\c@pgf@countb=\pgf@xb\divide\c@pgf@countb by16384\relax%
\c@pgf@countc=\pgf@ya\divide\c@pgf@countc by16384\relax%
\c@pgf@countd=\pgf@yb\divide\c@pgf@countd by16384\relax%
@@ -606,12 +606,12 @@
% Find the intersections of two bezier curves.
-%
+%
% #1 - #4 = curve 1.
% #5 - #8 = curve 2.
% #9 = the solution number.
%
-% There is no guarantee of ordering of solutions. If there are
+% There is no guarantee of ordering of solutions. If there are
% no solutions, the origin is returned.
%
\def\pgfpointintersectionofcurves#1#2#3#4#5#6#7#8#9{%
@@ -625,7 +625,7 @@
% Return any intersection points of two curves C1 and C2.
% No order can be guaranteed for the solutions.
%
-% #1, #2, #3, #4 - the points on C1
+% #1, #2, #3, #4 - the points on C1
% #5, #6, #7, #8 - the points on C2
%
% Returns:
@@ -639,7 +639,7 @@
% S = {};
% intersection'(C1,C2);
% return S;
-%
+%
% intersection'(C1,C2)
% B1 = boundingbox(C1);
% B2 = boundingbox(C2);
@@ -686,7 +686,7 @@
% (\pgf@xa, \pgf@ya) is lower-left
% (\pgf@xb, \pgf@yb) is upper-right
\edef\pgf@intersect@boundingbox@b{%
- \noexpand\pgf@x=\the\pgf@xa%
+ \noexpand\pgf@x=\the\pgf@xa%
\noexpand\pgf@y=\the\pgf@ya%
\noexpand\pgf@xa=\the\pgf@xb%
\noexpand\pgf@ya=\the\pgf@yb%
@@ -701,7 +701,7 @@
\noexpand\pgf@yb=\the\pgf@ya%
\noexpand\pgf@xc=\the\pgf@xb%
\noexpand\pgf@yc=\the\pgf@yb%
- }%
+ }%
\pgf@intersect@boundingbox@a%
\pgf@intersect@boundingbox@b%
% check if the two bounding boxes overlap:
@@ -761,8 +761,8 @@
\pgf@intersect@solution@candidate%
\ifpgf@intersect@sort%
\expandafter\xdef%
- \csname pgf@g@intersect@solution@\the\pgf@intersect@solutions @time@a\endcsname%
- {\pgf@intersect@time@a}%
+ \csname pgf@g@intersect@solution@\the\pgf@intersect@solutions @time@a\endcsname%
+ {\pgf@intersect@time@a}%
\fi%
\endgroup
}%
@@ -855,7 +855,7 @@
\def\pgf@curve@subdivide@left#1#2#3#4{%
%
- % The left curve (from t=0 to t=.5)
+ % The left curve (from t=0 to t=.5)
%
\begingroup
#1\relax%
@@ -898,7 +898,7 @@
\def\pgf@curve@subdivide@right#1#2#3#4{%
%
- % The right curve (from t=0.5 to t=1)
+ % The right curve (from t=0.5 to t=1)
%
\begingroup
#1\relax%
@@ -942,7 +942,7 @@
% A solution S1 is considered a duplicate of S2, if
-%
+%
% |x1 - x2|f < q and |y1 - y2|f < q
%
% where q is a small value (tolerance).
@@ -956,7 +956,7 @@
\let\pgf@intersect@next=\pgfutil@secondoftwo%
\pgfmathloop%
\ifnum\pgfmathcounter>\pgf@intersect@solutions\relax%
- \else%
+ \else%
\pgf@ifsolution@duplicate@{\pgfmathcounter}%
\repeatpgfmathloop%
\pgf@intersect@next%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryluamath.code.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryluamath.code.tex
index 5e6a7bbc10e..fe86ba6f4a7 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryluamath.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgflibraryluamath.code.tex
@@ -9,17 +9,17 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%% Date of this copy: Mi 6. Jan 09:15:30 CET 2016 %%%
+%%% Date of this copy: Mi 8. Feb 20:49:06 CET 2017 %%%
@@ -132,10 +132,31 @@
\let\pgfmathnotifynewdeclarefunction@orig=\pgfmathnotifynewdeclarefunction
\def\pgfmathnotifynewdeclarefunction#1#2#3{%
\pgfmathnotifynewdeclarefunction@orig{#1}{#2}{#3}%
- \directlua{pgfluamathparser.pushLocalExpressionFunction(%
- "\pgfutil@luaescapestring{#1}",%
- #2,%
- "\pgfutil@luaescapestring{#3}")}%
+ %
+ % we have to check if '#3' contains control sequences.
+ % this is highly tricky as it may contain '#1'...
+ \begingroup
+ \toks0={#3}%
+ \xdef\pgf@marshal@glob{\the\toks0 }%
+ \endgroup
+ \pgfutil@command@to@string\pgf@marshal@glob\pgf@marshal
+ \expandafter\pgfutilifcontainsmacro\expandafter{\pgf@marshal}{%
+ \def\pgf@temp{1}%
+ }{%
+ \def\pgf@temp{0}%
+ }%
+ \if1\pgf@temp
+ % let lua produce an error when evaluating this function -- we cannot possibly expand the macro to its current state:
+ \directlua{pgfluamathparser.pushLocalExpressionFunction(%
+ "\pgfutil@luaescapestring{#1}",%
+ #2,%
+ "functionMustBeEvaluatedInTeX")}%
+ \else
+ \directlua{pgfluamathparser.pushLocalExpressionFunction(%
+ "\pgfutil@luaescapestring{#1}",%
+ #2,%
+ "\pgfutil@luaescapestring{#3}")}%
+ \fi
%
% ensure that the local function is removed at the end of the
% scope. To this end, we maintain a stack on the LUA side.
@@ -172,7 +193,7 @@
% LUA (defined only in TeX)
% - some special cases which simply haven't been added to the LUA
% parser (yet).
-% At the time of this writing, this includes
+% At the time of this writing, this includes
% -- arrays created via '{}' and indexed with '[]'
% -- strings with "<str>"
% -- 'scalar' function
@@ -209,7 +230,7 @@
\ifpgfluamathparseractive
\let\pgfmathparse\pgfluamath@pgfmathparse
\pgfluamathparseractivefalse
- \fi}
+ \fi}
\pgfqkeys{/pgf}{%
% Enable lua-side computation of \pgfmathresult
@@ -503,7 +524,7 @@
% LUA (defined only in TeX)
% - some special cases which simply haven't been added to the LUA
% parser (yet).
-% At the time of this writing, this includes
+% At the time of this writing, this includes
% -- arrays created via '{}' and indexed with '[]'
% -- strings with "<str>"
% -- 'scalar' function
@@ -522,8 +543,8 @@
\def\pgfluamathparse#1{%
\pgfluamathusedTeXfallbackfalse
\pgfutil@directlua{pgfluamathparser.texCallParser(
- "\pgfutil@luaescapestring{#1}",
- \pgfluamath@outputformat@choice,
+ "\pgfutil@luaescapestring{#1}",
+ \pgfluamath@outputformat@choice,
\ifpgfluamathshowerrormessage true\else false\fi)%
}%
\ifx\pgfmathresult\pgfutil@empty
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 21ba1b5b2a0..07bfe1e4245 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
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -29,7 +29,7 @@
%
% 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 2007/2008/2009 by Christian Feuersänger.
@@ -38,12 +38,12 @@
% 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/>.
%
@@ -56,7 +56,7 @@
% right place.
%
% ATTENTION:
-% this is NOT a sophisticated syntax highlighter like lstlistings!
+% this is NOT a sophisticated syntax highlighter like lstlistings!
% It has rather strict assumptions about how to use it (the input must
% have been read verbatim, for example).
@@ -96,7 +96,7 @@
% For example:
% /codeexample/prettyprint/key value/my key/.code 2 args={name=#1, value =#2}
% If such a key exists, it will be invoked with {#1}{#2} as
- % arguments. Otherwise, the generic method
+ % arguments. Otherwise, the generic method
% /codeexample/prettyprint/key value with style detection={#1}{#2}
% will be invoked.
/codeexample/prettyprint/key value/.code 2 args={%
@@ -158,7 +158,7 @@
% on the 'cs arguments/<CS NAME>' key; it contains the integer
% number.
%
- % For example, if
+ % For example, if
% |cs arguments/pgfkeys/.initial=1|,
% the pretty printer invokes
% |cs with args={\pgfkeys}{<argument>}.
@@ -191,9 +191,9 @@
%
% For every identified control sequence, the key
% /codeexample/prettyprint/cs/<CSNAME>/.@cmd
- % will be checked. If it exists, it will be used instead of
+ % will be checked. If it exists, it will be used instead of
% 'cs with args' (with the same special case restrictions for
- % early end-of-input).
+ % early end-of-input).
%
% The <CSNAME> must not contain the '\'.
%
@@ -207,7 +207,7 @@
/codeexample/prettyprint/cs arguments/end/.initial=1,
/codeexample/prettyprint/cs/end/.code 2 args={#1\{#2\pgfmanualclosebrace},
%
- % a point coordinate (#1)
+ % a point coordinate (#1)
% Note that '#1' will contain the braces (if there was one),
/codeexample/prettyprint/point/.code={#1},%
%
@@ -219,7 +219,7 @@
% the same with specialised code:
%/codeexample/prettyprint/point with cs/<CS NAME>/.code 2 args={(#1:#2},%
%
- %
+ %
% A predefined style which colors every identified token. It's
% purpose is only debugging.
/codeexample/prettyprint/colored/.style={%
@@ -307,14 +307,14 @@
%
% FIXME
% THIS INTRODUCES A NEW GROUP! Does that hurt the pretty printer??
-%
+%
\def\pgfmanual@pretty@installcommenthandler{%
\expandafter\def\pgfmanual@pretty@activepercent{%
\begingroup
\pgfmanualprettycommentactivetrue
\expandafter\let\pgfmanual@pretty@activenl=\pgfmanual@pretty@recoveraftercomment
\expandafter\def\pgfmanual@pretty@activepercent{\%}%
- %\tt
+ %\tt
\% %
}%
}%
@@ -552,7 +552,7 @@
% \pgfmanualprettyprintercollectargcount with balanced braces. The braces
% have \catcode 12.
% POSTCONDITION:
-% 1. the arguments will be collected as
+% 1. the arguments will be collected as
% '<result> := {<first arg>}{<second arg>}',
% 2.1 the macro \pgfmanualprettyprinternumcollectedargs will contain
% the *actual* number of *completely* collected arguments,
@@ -563,7 +563,7 @@
% properly.
% Afterwards, #2 will be invoked to recover from the argument
% collection.
-%
+%
%
% Example:
% \pgfmanualprettyprintercollectargcount{2}{\donnextstep}
@@ -573,7 +573,7 @@
% \pgfmanualprettyprinterhandlecollectedargs{{_1 first argument }_2 {_1 second argument }_2 }
% \donnextstep
% next tokens
-%
+%
%
%
% ATTENTION:
@@ -725,7 +725,7 @@
\newif\ifpgfmanualprettyprinterfoundterminator
% Collects tokens inside of a token list up to a single delimiting token, dealing with nested
-% catcode-12-braces.
+% catcode-12-braces.
%
% #1: is the end token, the delimiter. It won't be collected.
% #2: is code to invoke after
@@ -736,7 +736,7 @@
% \pgfmanualprettyprintercollectargcount with balanced braces. The braces
% have \catcode 12.
% POSTCONDITION:
-% - the arguments will be collected as
+% - the arguments will be collected as
% '<result> := <token list>'
% and then, \pgfmanualprettyprinterhandlecollectedargs{<result>} will be
% invoked. Just define \pgfmanualprettyprinterhandlecollectedargs
@@ -745,7 +745,7 @@
% - The boolean \ifpgfmanualprettyprinterfoundterminator will be set to true if and only if '#1' has been found.
%
% @see \pgfmanualprettyprintercollectargcount for more details.
-%
+%
\def\pgfmanualprettyprintercollectupto#1#2{%
\pgfmanualprettyprinterarghasunmatchedbracesfalse
\pgfmanualprettyprinterfoundterminatortrue
@@ -918,7 +918,7 @@
\ifx\pgfmanual@loc@TMPa\pgfmanual@pretty@rbrace
#1%
\else
- % found the beginning of a key!
+ % found the beginning of a key!
% We will collect the key name into
% \toks0.
\toks0={}%
@@ -1117,4 +1117,3 @@
\edef\pgfmanual@loc@TMPa{{\pgfmanual@pretty@pgfkeys@collectkey@keyname}}%
\expandafter\pgfmanual@loc@TMPb\pgfmanual@loc@TMPa{#1}\pgfeov
}
-
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 241741e53b4..9a36660282b 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
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -95,7 +95,7 @@
% [FLAGS] MANTISSE EXPONENT
% meaning
% [+-]X.XXXXXXX*10^C
-% where
+% where
% X.XXXXXX is a mantissa with first number != 0, C is an integer and
% FLAGS contains the sign and some other special cases.
%
@@ -103,7 +103,7 @@
% computation is COMPLETELY STRING BASED.
% This allows numbers such at 10000000 or 5.23e-10 to be represented
% properly, although TeX-registers would produce overflow/underflow
-% errors in these cases.
+% errors in these cases.
%
% It is to be used to compute logs, because log(X*10^Y) = log(X) + log(10)*Y
%
@@ -124,7 +124,7 @@
% where
% FLAGS is a number in [0-5] where
% 0 == '0' (the number is +- 0.0),
-% 1 == '+',
+% 1 == '+',
% 2 == '-',
% 3 == 'not a number'
% 4 == '+ infinity'
@@ -419,7 +419,7 @@
% Converts a float to an integer (in integer format).
%
-% @see \pgfmathfloatint
+% @see \pgfmathfloatint
\def\pgfmathfloattoint#1{%
\pgfmathfloattofixed{#1}%
\expandafter\pgfmathfloattoint@@\pgfmathresult\relax
@@ -521,7 +521,7 @@
}
-% Overloaded method.
+% Overloaded method.
%
% This variant always uses a FIXED number behind the period and fills
% in zeros if necessary.
@@ -707,7 +707,7 @@
% \else
% \pgfmath@error{INTERNAL ERROR in fixed style - The input sequence did not terminate as expected; which indicates a wrong exponent argument provided to \string\pgfmathprintnumber@fixed@style}{}%
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
\let\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT=\relax
\fi
\pgfmathprintnumber@fixed@styleDEFAULT@impl@noperiod@NEXT
@@ -782,7 +782,7 @@
% Arguments:
% #1#2#3e#4\relax
-% Input:
+% Input:
% #1 the fixed point number to be displayed (maybe a macro).
% #2#3e#4: the (possibly unformatted) floating point representation
% which belongs to #1. This format is returned (only!) by
@@ -791,7 +791,7 @@
\let\pgfmathprintnumber@fixed@style=\pgfmathprintnumber@fixed@styleDEFAULT
-% Rounds a normalized floating point number to \pgfmathfloat@round@precision
+% Rounds a normalized floating point number to \pgfmathfloat@round@precision
% digits precision and writes the result to \pgfmathresult.
%
% This method uses \pgfmathroundto for the mantissa.
@@ -836,7 +836,7 @@
% #2: mantissa
% #3: exponent
% #4: CODE to display if the mantissa is drawn.
-% This code will be shown just before the exponent.
+% This code will be shown just before the exponent.
% Example: #4=\cdot
% #5: CODE to display if the mantissa is NOT draw. (unused currently)
% Might be used to display '10^1' instead of '1*10^1'.
@@ -1160,7 +1160,7 @@
\if0\pgfmathprintnumber@RELATIVE@choice@roundtofixed
% relative round mode=mantissa
\def\b@round@fixed{0}%
- \else
+ \else
\if1\pgfmathprintnumber@RELATIVE@choice@roundtofixed
% relative round mode=fixed
\def\b@round@fixed{1}%
@@ -1196,7 +1196,7 @@
\fi
\edef\pgfmathresultX{%
\the\pgfmathfloat@a@S
- \the\pgfmathfloat@a@Mtok
+ \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):
@@ -1235,7 +1235,7 @@
\fi
\edef\pgfmathresultX{%
\the\pgfmathfloat@a@S
- \the\pgfmathfloat@a@Mtok
+ \the\pgfmathfloat@a@Mtok
\ifpgfmathfloatroundhasperiod\else.0\fi
e\the\pgfmathfloat@a@E}%
\let\pgfmathfloat@round@precision@orig=\pgfmathfloat@round@precision
@@ -1691,7 +1691,7 @@
\endgroup
\let#3=\pgfmathfloat@glob@TMP
}%
-
+
% Changes the current number pretty printer to #1.
%
@@ -1705,7 +1705,7 @@
\pgfkeys{/pgf/number format/std}
%%%%%%%%%%%%%%%%%%%%%%%%%%
-%
+%
% IMPL
%
%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -1747,7 +1747,7 @@
% \pgfmathroundto implementation in WORDS:
%
-% coarse idea:
+% coarse idea:
% 1. collect all digits/sign BEFORE the first period in REVERSE order
% 2. then, collect UP TO \prec digits after the period in REVERSE order
% Steps 1. and 2. lead to the digit [sign] sequence
@@ -1781,7 +1781,7 @@
% fi
% ++q
% if q=0
-% discard the period
+% discard the period
% fi
% end while
% if q = r+1
@@ -1858,7 +1858,7 @@
\fi
\fi
}
-
+
% takes the current input and decides whether trailing zeros shall be
% discarded or more zeros need to be filled in.
\def\pgfmathroundto@impl@finish@with@truncation{%
@@ -1991,7 +1991,7 @@
\fi
}
-% PRECONDITION:
+% PRECONDITION:
% \c@pgfmathroundto@lastzeros > 0
\def\pgfmathroundto@impl@discard@suffix@zeros@ITERATE#1{%
\advance\c@pgfmathroundto@lastzeros by-1
@@ -2183,7 +2183,7 @@
% \pgfmathfloattofixed@impl@collectmantissa#2\count\pgfmathfloat@a@E
% \edef\pgfmathresult{\the\pgfmathfloat@a@Mtok}%
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
\pgfmathfloat@a@Mtok{#1}%
\pgfmathfloattofixed@impl@pos#2000000000\pgfmathfloat@EOI
\edef\pgfmathresult{\the\pgfmathfloat@a@Mtok}%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfutil-common-lists.tex b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfutil-common-lists.tex
index 4f2f3d68c61..fb09a855e69 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfutil-common-lists.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_pgfutil-common-lists.tex
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -43,7 +43,7 @@
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% Usage:
+% Usage:
% \pgfapplistnewempty\macro
\def\pgfapplistnewempty#1{%
\expandafter\let\csname pgfapp@#1\endcsname=\pgfutil@empty
@@ -109,17 +109,17 @@
\pgfapplist@flushbuffers{#2}%
\expandafter\let\expandafter#1\csname pgfapp@#2\endcsname
}%
-
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%
+%
% A variant of applist which has the same runtime requirements, but
% does PUSH FRONT only.
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-% Usage:
+% Usage:
% \pgfprependlistnewempty{list}
\def\pgfprependlistnewempty#1{%
\expandafter\let\csname pgfpPRP@#1\endcsname=\pgfutil@empty
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 e039fbc7984..55e56d8fdd0 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfplotsoldpgfsupp_tikzexternal.sty
@@ -9,10 +9,10 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%% Date of this copy: Di 25. Dez 18:14:20 CET 2012 %%%
@@ -34,7 +34,7 @@
%
% This file is intended to be distributed or even inlined into a file
% when a document needs to be typeset on a system that does not have
-% pgf/TikZ installed.
+% pgf/TikZ installed.
%
% It replaces \tikzpicture/ \endtikzpicture and \tikz and invokes the
% \includegraphics with the correct file name instead.
@@ -156,9 +156,8 @@
{\toks0={#1#2}%
\immediate\write\@auxout{\noexpand\def\noexpand\dpthimport{\the\toks0 }\noexpand\dpthimport }%
}%
- \fi
+ \fi
\else%
\def\pgfretval{#1#2}%
\fi
}%
-
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 607b6375aef..ed1a6ff4fb1 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
@@ -9,12 +9,12 @@
%%% PGF parts. The copyrights are as they appear in PGF.
%%%
%%% Note that pgfplots has compatible licenses.
-%%%
+%%%
%%% This copy has been modified in the following ways:
%%% - nested \input commands have been updated
-%%%
+%%%
%
-% Support for the contents of this file will NOT be done by the PGF/TikZ team.
+% Support for the contents of this file will NOT be done by the PGF/TikZ team.
% Please contact the author and/or maintainer of pgfplots (Christian Feuersaenger) if you need assistance in conjunction
% with the deployment of this patch or partial content of PGF. Note that the author and/or maintainer of pgfplots has no obligation to fix anything:
% This file comes without any warranty as the rest of pgfplots; there is no obligation for help.
@@ -37,7 +37,7 @@
% tikzlibraryexternal.code.tex
% ******************************
%
-%
+%
% This file provides a high-level automatic export feature for tikz pictures.
% It allows to export EACH SINGLE FIGURE into a separate PDF.
%
@@ -91,10 +91,10 @@
% Invokes '#1' if the external lib is currently externalizing the NEXT FOLLOWING
% tikzpicture. It invokes '#2' if that is not the case.
\def\tikzifexternalizingnext#1#2{%
- \ifpgf@external@grabshipout
+ \ifpgf@external@grabshipout
\tikzexternalgetnextfilename\tikzexternal@temp
\tikzifexternaljobnamematches\tikzexternal@temp{#1}{#2}%
- \else
+ \else
#2%
\fi
}%
@@ -104,14 +104,14 @@
% If the command is invoked outside of a picture, '#2' will be
% invoked.
\def\tikzifexternalizingcurrent#1#2{%
- \ifpgf@external@grabshipout
+ \ifpgf@external@grabshipout
\tikzexternalgetcurrentfilename\tikzexternal@temp
\ifx\tikzexternal@temp\pgfutil@empty
#2%
\else
\tikzifexternaljobnamematches\tikzexternal@temp{#1}{#2}%
\fi
- \else
+ \else
#2%
\fi
}%
@@ -241,7 +241,7 @@
optimize/restore/.code={},%
% Expects two arguments, the command name and (optionally) a count
% of expected arguments.
- % Example:
+ % Example:
% 'optimize command away=\includegraphics'
% 'optimize command away={\mycommand}{3}'
%
@@ -317,7 +317,7 @@
% && dvipdfm "\image".dvi %
% }%
% }%
-%--------------------------------------------------
+%--------------------------------------------------
\expandafter\def\csname tikzexternal@driver@pgfsys-xetex.def\endcsname{%
\pgfkeyssetvalue{/tikz/external/system call}{%
xelatex \tikzexternalcheckshellescape -halt-on-error -interaction=batchmode -jobname "\image" "\texsource"%
@@ -349,7 +349,7 @@
\tikzsetexternalprefix{}
% This method initialises automatic externalization.
-%
+%
% The command does need any argument, but it has two optional ones:
%
% 1. \tikzexternalize[<options>]
@@ -381,7 +381,7 @@
}{%
\tikzexternal@auto@detect@jobnametrue
\pgfutil@ifundefined{tikzexternalrealjob}{%
- % ok, \tikzexternalrealjob is not known.
+ % ok, \tikzexternalrealjob is not known.
% Assume we are currently *not* externalizing.
\let\tikzexternalrealjob=\jobname
}{}%
@@ -421,14 +421,14 @@
\fi
}%
-% If mode=`convert with system call', the boolean \ifpgfexternalreadmainaux
+% If mode=`convert with system call', the boolean \ifpgfexternalreadmainaux
% will be set depending on the current lock file.
%
% The idea is as follows: Suppose
-% pdflatex -shell-escape mainjob.tex
+% pdflatex -shell-escape mainjob.tex
% is running.
-%
-% While it runs,
+%
+% While it runs,
% a) it modifies its mainjob.aux file,
% b) it issues pdflatex -jobname mainjob-figure0 mainjob.tex .
%
@@ -438,7 +438,7 @@
% avoid such failure, a locking mechanism is established.
%
% The locking mechanisms causes (a) to write a lock command into
-% mainjob.auxlock
+% mainjob.auxlock
% just before (b) is called. Then, (b) will check it. After (b) has
% completed, the lock will be reset.
%
@@ -599,15 +599,15 @@
% final TeX-dialect specific end-image command.
% This is really difficult for LaTeX because \end{tikzpicture} either involves dirty
% catcode-hacks to parse the braces or an ugly loop which loops until it
-% finds \end followed by {tikzpicture}.
-%
+% finds \end followed by {tikzpicture}.
+%
% #1: a macro which will be called with the collected environment contents.
% all following tokens: the environment contents.
\long\gdef\tikzexternal@TEXDIALECT@collectpicture#1#2\endtikzpicture{#1{#2}}
%
% 2. the following commands should expand to the TeX-dialect specific begin and end image command, i.e.
% \tikzpicture / \endtikzpicture
-% or
+% or
% \begin{tikzpicture} / \end{tikzpicture}
% or
% \starttikzpicture / \stoptikzpicture
@@ -737,7 +737,7 @@
\def\tikzexternal@getnextfilename@advancecount{%
\begingroup
\c@pgf@counta=\csname c@tikzext@no@\tikzexternal@figurename\endcsname\relax
- \advance\c@pgf@counta by1
+ \advance\c@pgf@counta by1
\expandafter\xdef\csname c@tikzext@no@\tikzexternal@figurename\endcsname{\the\c@pgf@counta}%
\endgroup
}%
@@ -810,7 +810,7 @@
\let#1=\pgf@tempa
\fi
\fi
- %
+ %
\tikzexternal@getnextfilename@resetglobals%
%
\tikzexternal@protocol@to@file#1%
@@ -1030,7 +1030,7 @@
\def\tikzpicturedependsonfile#1{}% NO-OP until \tikzexternalize has been called.
-% This command is invoked
+% This command is invoked
% if and only if ( (grab mode && --jobname matches) || 'mode=graphics if exists' )
%
% It converts the current tikzpicture into an image in grab mode
@@ -1195,7 +1195,7 @@
% Processes tikzpicture normally; without any externalization.
%
-% We need to do further work here to deal with NESTED tikzpicture environments
+% We need to do further work here to deal with NESTED tikzpicture environments
% because all of them shall also be typeset normally.
%
% Idea:
@@ -1234,7 +1234,7 @@
\if5\tikzexternal@opmode
\let\tikz@refundefinedtrue@@=\G@refundefinedtrue
\gdef\G@refundefinedtrue{%
- \tikz@refundefinedtrue@@
+ \tikz@refundefinedtrue@@
\tikzexternal@forceremake@undefined@reference@handler
}%
\fi
@@ -1378,10 +1378,10 @@
|xdef|tikzexternal@normal@backslash{\}%
}
{
-\catcode`\^^I=12
+\catcode`\^^I=12
\catcode`\$=12
\catcode`\%=12
-\catcode`\#=12
+\catcode`\#=12
\gdef\tikzexternal@HASHchar{#}
\gdef\tikzexternal@TABchar{^^I}\gdef\tikzexternal@PERCENTchar{%}\xdef\tikzexternal@DOLLARchar{$}}
@@ -1527,7 +1527,7 @@
% It is used as argument for \write{..}
%
% #1 the hash key to serialize.
-% \def\tikzexternal@hashfct@serialize
+% \def\tikzexternal@hashfct@serialize
\long\def\tikzexternal@hashfct@serialize@std#1{%
\noexpand\def\noexpand\tikzexternallastkey{#1}%
}%
@@ -1544,7 +1544,7 @@
\def\tikzexternal@check@uptodate@ext{.md5}
-\def\tikzexternal@check@uptodate@mode@warn@fallback{%
+\def\tikzexternal@check@uptodate@mode@warn@fallback{%
\message{! Package tikz Warning: The key 'up to date check=md5' is impossible, there is no macro to compute MD5. Falling back to 'up to date check=diff'.}%
%
% warn only once:
@@ -1618,8 +1618,8 @@
}
% Checks whether the current picture needs to be externalized.
-%
-% This is the case if
+%
+% This is the case if
% a) there is no external image yet,
% b) the picture has been invalidated manually.
%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfsys-luatexpatch.def b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfsys-luatexpatch.def
index 6aa0dbc7ab9..6865ae15561 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfsys-luatexpatch.def
+++ b/Master/texmf-dist/tex/generic/pgfplots/oldpgfcompatib/pgfsys-luatexpatch.def
@@ -2,6 +2,12 @@
%
%
+\ifnum\luatexversion<95
+ \immediate\write-1{luatex driver of PGF: detected lua version \the\luatexversion; falling back to old pdftex driver^^J}%
+ \input pgfsys-pdftex.def
+ \expandafter\endinput
+\fi
+
% Copyright 2006 by Till Tantau
%
% This file may be distributed and/or modified
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/pgflibraryfillbetween.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/pgflibraryfillbetween.code.tex
index 2b1eebdcb58..3512d7e3086 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/pgflibraryfillbetween.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/pgflibraryfillbetween.code.tex
@@ -10,7 +10,7 @@
\usepgflibrary{intersections}
% FIXME : ARCHITECTURE VIOLATION: REQUIRES
-% \usetikzlibrary{decorations.softclip}
+% \usetikzlibrary{decorations.softclip}
%
%\usepgfmodule{decorations}
@@ -31,7 +31,7 @@
/pgf/fill between/inner moveto/connect,
%
% split=true allows to generate individual result paths for every
- % region induced by the intersection points. Example:
+ % region induced by the intersection points. Example:
% "color positive region in red and negative region in green".
% The case split=false results in just one output path
% (simpler+faster, but of course less powerful).
@@ -225,13 +225,13 @@
% 0. normalize path sequences.
% ATTENTION : there are implicit assumptions on the INTERNAL ORDER of the two paths!
% This implementation needs to loop over them synchronously, i.e. it processes
- % the 0.th segment of a and the 0th of b,
- % the 1.th segment of a and the 1th of b,
+ % the 0.th segment of a and the 0th of b,
+ % the 1.th segment of a and the 1th of b,
% and so on. Here, "i th segment" implies a sort order in ascending x direction.
% This is, however, a weakness of \pgfintersectionofpaths - it does not really support this kind of sorting.
- %
+ %
% I work around this by restricting the implementation to the "common use-cases", i.e. to two plots of functions which do not intersect themselves (i.e. to "functions" in the original sense). This will probably (almost surely) fail for parametric functions or circles.
- %
+ %
\if0\pgfpathfillbetween@reverse@mode
% reverse=false
%
@@ -413,7 +413,7 @@
% Takes a softpath on input, replaces its first moveto by a lineto,
% and returns it as softpath.
% #1: a macro containing a softpath (i.e. the result of \pgfgetpath)
-%
+%
% On output, \pgfretval contains a modified path.
\def\pgfpathreplacefirstmoveto#1{%
\ifx#1\pgfutil@empty
@@ -440,7 +440,7 @@
}%
% example: \pgfsyssoftpath@movetotoken{#2}{#3}\pgfsyssoftpath@linetotoken{#5}{#6}#7\pgf@stop
-% example:
+% example:
% \pgfsyssoftpath@movetotoken{#2}{#3}
% \pgfsyssoftpath@curvetosupportatoken{<x>}{<y>}
% \pgfsyssoftpath@curvetosupportbtoken{<x>}{<y>}
@@ -469,7 +469,7 @@
\edef\pgfretval{%
\ifdim #1<#3\space
+%
- \else
+ \else
\ifdim #1=#3\space
\ifdim #2<#4\space
+%
@@ -717,10 +717,10 @@
% \pgfplotsassertequalstok{\the\pgf@x, \the\pgf@y}{128.05057pt, 14.2278pt}{solution 3}
% \pgfpointintersectionsolution{4}%
% \pgfplotsassertequalstok{\the\pgf@x, \the\pgf@y}{156.50636pt, 14.2278pt}{solution 4}
-%
-%
+%
+%
% \pgfcomputeintersectionsegments{1}%
-%
+%
% \message{OUTPUT: \meaning\pgfretval^^J}%
% \expandafter\def\csname expected@a@0\endcsname{%
% \pgfsyssoftpath@movetotoken {56.90549pt}{0.0pt}%
@@ -745,7 +745,7 @@
% \pgfsyssoftpath@movetotoken{156.50636pt}{14.2278pt}%
% \pgfsyssoftpath@linetotoken {170.71646pt}{0.0pt}%
% }
-% %
+% %
\def\pgfcomputeintersectionsegments#1{%
\pgfcomputeintersectionsegments@set@src{#1}%
\ifnum\pgfintersectionsolutions=0 %
@@ -871,7 +871,7 @@
% Point lerp(float t, Point A, Point B) {
% return A*(1-t) + B*t; // + and * overloaded for Points
% }
-%
+%
% void split(t, Point P[4], Point L[4], Point R[4]) {
% Point P01 = lerp(t, P[0], P[1]);
% Point P12 = lerp(t, P[1], P[2]);
@@ -883,11 +883,11 @@
% R[0] = Q;
% R[1] = P123; R[2] = P23; R[3] = P[3];
% }
-%--------------------------------------------------
+%--------------------------------------------------
% INPUT:
% #1: a value in the range [0,1] which determines the split point
% #2,#3,#4,#5: the points of the curve, each of the form {<x>}{<y>}
-%
+%
% OUTPUT:
% \pgfretval@L{{<A>}{<B>}{<C>}{<D>}}
% \pgfretval@R{{<A>}{<B>}{<C>}{<D>}}
@@ -929,7 +929,7 @@
%
% This variants takes a part of a softpath as input:
%
-% #1: a curveto- a macro containing a softpath of the form
+% #1: a curveto- a macro containing a softpath of the form
% <x><y>\pgfsyssoftpath@curvetosupportatoken<x><y>\pgfsyssoftpath@curvetosupportbtoken<x><y>\pgfsyssoftpath@curvetotoken<x><y>
% #2: t in [0,1]
%
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/tikzlibraryfillbetween.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/tikzlibraryfillbetween.code.tex
index 8f60ef1e6b9..d5a153c055b 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/tikzlibraryfillbetween.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfcontrib/tikzlibraryfillbetween.code.tex
@@ -4,7 +4,7 @@
%
% 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 2013 by Christian Feuersaenger
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -146,7 +146,7 @@
\fi
%
\expandafter\fill\expandafter[\pgfplots@loc@TMPa]
- \pgfextra
+ \pgfextra
\pgfsetpathandBB{\pgflibraryfill@path}%
\pgfkeysgetvalue{/tikz/fill between/path after segment}\tikz@fillbetween@post@segment
\expandafter
@@ -159,7 +159,7 @@
},
/tikz/fill between/.search also={/pgf/fill between,/pgfplots},
/tikz/fill between/optimize name intersections/.is if=tikzfillbetween@optimize@name@intersections,
- %
+ %
% FIXME : this optimization needs much more work... I believe it
% would be stable enough, but it covers too few cases.
%/tikz/fill between/optimize name intersections=true,
@@ -170,9 +170,9 @@
% /pgfplots/execute at begin axis@@/.add={%
% \def\b@pgfplotslibraryfill@added
% }{%
- %
+ %
% },%
- %--------------------------------------------------
+ %--------------------------------------------------
}
\def\tikzlibraryfillbetween@parse#1 and #2\pgf@stop{%
@@ -190,7 +190,7 @@
\def\tikzfillbetween{\pgfutil@ifnextchar[{\tikzfillbetween@opt}{\tikzfillbetween@opt[]}}
\def\tikzfillbetween@opt[#1]#2{%
\begingroup
- \pgfqkeys{/tikz/fill between}{%
+ \pgfqkeys{/tikz/fill between}{%
% prepare the low-level path generation instruction(s):
/tikz/fill between/@draw style={#2},%
%
@@ -431,7 +431,7 @@
\def\tikz@temp{#2}%
\def\tikz@@temp{-}%
\ifx\tikz@@temp\tikz@temp
- % also accept minus signs without curly braces, i.e.
+ % also accept minus signs without curly braces, i.e.
% L-2 instead of L{-2}
\def\tikz@next{\tikz@isect@p@next@{#1}{#2}}%
\else
@@ -517,7 +517,7 @@
\let\pgfpointlastofsetpath=\pgfutil@empty
\else
\if1\b@tikz@select@all%
- % ok... select the *entire* path.
+ % ok... select the *entire* path.
% #1 = A|B :
\expandafter\let\expandafter\pgfretval\csname tikz@path@segments@\tikz@path@ab\endcsname
\else
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
index 26c80cbe799..28783b3ab5d 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.code.tex
@@ -4,7 +4,7 @@
%
% 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 2007-2013 by Christian Feuersänger.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -44,7 +44,6 @@
\input pgfplots.paths.code.tex
-
\usetikzlibrary{decorations,decorations.pathmorphing,decorations.pathreplacing}
% FIXME: reduce number of variables!
@@ -74,7 +73,10 @@
\newif\ifpgfplots@warn@for@filter@discards
\newif\ifpgfplots@isuniformtick
\newif\ifpgfplotsplothandlermesh@patch@type@sampling
-\newif\ifpgfplots@clip@limits
+\newif\ifpgfplots@clip@limits@compatmode
+\newif\ifpgfplots@clip@limits@x
+\newif\ifpgfplots@clip@limits@y
+\newif\ifpgfplots@clip@limits@z
\newif\ifpgfplots@clip
\newif\ifpgfplots@plot@coords@mathparser
\pgfplots@plot@coords@mathparsertrue
@@ -135,6 +137,7 @@
\newif\ifpgfplots@has@cell@picture
\newif\ifpgfplots@substitute@pgfpoint
\newif\ifpgfplots@LUA@backend@supported
+\newif\ifpgfplots@threedim@log@sampling
\newif\ifpgfplots@collect@firstplot@astick
\newif\ifpgfplots@units@use
@@ -164,7 +167,7 @@
\def\pgfplots@label@upgrade@warning{%
\ifpgfplots@threedim
- \pgfplotswarning{center lines upgrade required}\pgfeov%
+ \pgfplotswarning{center lines upgrade required}\pgfeov%
\global\let\pgfplots@label@upgrade@warning=\relax
\fi
}%
@@ -217,7 +220,7 @@
% \pgfplotswarning{cycle list size limit reached}\pgfeov
% \breakforeach
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
%
\pgfutil@ifnextchar\pgfplots@EOI{%
\pgfplots@gobble@until@EOI
@@ -319,9 +322,9 @@
\begingroup
\edef\pgfkeyscurrentkey{#1}%
\pgfkeyssplitpath
- \pgfplots@warning{Loading deprecated style option
- \pgfkeyscurrentpath/\pgfkeyscurrentname.
- Please replace '\string\tikzstyle{\pgfkeyscurrentname}'
+ \pgfplots@warning{Loading deprecated style option
+ \pgfkeyscurrentpath/\pgfkeyscurrentname.
+ Please replace '\string\tikzstyle{\pgfkeyscurrentname}'
with '\string\pgfplotsset{\pgfkeyscurrentname/.style={}}'
(or '\string\pgfplotsset{\pgfkeyscurrentname/.append style={}}').}%
\endgroup
@@ -390,7 +393,7 @@
% Does the work for '[xyz]ticklabel pos'.
%
% #1: the axis (x,y or z).
-% #2: the key argument. Accepts
+% #2: the key argument. Accepts
% 'lower',
% 'upper',
% 'default' -> depends on 'tick pos'
@@ -516,7 +519,7 @@
\def\pgfplots@colormap@catcodemagic{colormap}
\pgfplots@command@to@string\pgfplots@colormap@catcodemagic\pgfplots@colormap@catcodemagic
-% checks for
+% checks for
% - <known list>
% - [<elements> of]<known list>
% POSTCONDITION:
@@ -601,7 +604,7 @@
% remove spaces from ##1 and ##2:
\pgfkeys@spdef\pgfplots@loc@TMPa{##1}%
\pgfkeys@spdef\pgfplots@loc@TMPb{##2}%
- %
+ %
% check if the argument is known:
\pgfkeysifdefined{/pgfplots/point meta/\pgfplots@loc@TMPa/.@cmd}{%
\def\pgfplots@loc@TMPc{%
@@ -649,7 +652,7 @@
\edef\pgfplots@color@of@colormap@value{\pgfplots@color@of@colormap@value}%
\pgfkeys@spdef\pgfplots@color@of@colormap@name{#2}%
}
-% defines
+% defines
% - \pgfmathresult to be the resulting color.
% - \pgfplots@color@of@colormap@name the name of the colormap
\def\pgfplots@color@of@colormap@define#1{%
@@ -783,7 +786,7 @@
\fi
},
% 'activate layers=false' is the same as 'set layers=none'.
- % However, 'activate layers=true' does not work unless a 'set layers'
+ % However, 'activate layers=true' does not work unless a 'set layers'
% has been installed as well.
/pgfplots/activate layers/.is if=pgfplots@layered@graphics,
/pgfplots/activate layers/.default=true,
@@ -1105,7 +1108,7 @@
/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).
%
@@ -1186,7 +1189,7 @@
%
% this here used to be the default up to (and including) pgfplots 1.13.
% But it does not support the following use cases:
- % * 'colormap access=const',
+ % * 'colormap access=const',
% * 'colorbar style={ytick=data}}'
% * CMYK shadings
% -> deprecated.
@@ -1352,7 +1355,7 @@
\c@pgf@countd=\pgfplotscolormaplastindexof{\pgfplots@CM}\relax
\edef\pgfplots@colorcount{\the\c@pgf@countd}%
\advance\c@pgf@countd by-1 %
- % XXX : this here is tailored for use with
+ % XXX : this here is tailored for use with
% * 'colormap access=const' and
% * 'sample for=const'
% where the last color is redundant and must not be
@@ -1717,8 +1720,6 @@
/pgfplots/ytick pos/right/.belongs to family=/pgfplots/tick,
/pgfplots/ytick pos/both/.code ={\def\pgfplots@ytickposnum{0}},
/pgfplots/ytick pos/both/.belongs to family=/pgfplots/tick,
- /pgfplots/ytick pos/top/.style={/pgfplots/ytick pos/right},
- /pgfplots/ytick pos/bottom/.style={/pgfplots/ytick pos/left},
/pgfplots/ytick pos=both,
/pgfplots/ztick pos/.is choice,
/pgfplots/ztick pos/.belongs to family=/pgfplots/tick,
@@ -1728,8 +1729,6 @@
/pgfplots/ztick pos/right/.belongs to family=/pgfplots/tick,
/pgfplots/ztick pos/both/.code ={\def\pgfplots@ztickposnum{0}},
/pgfplots/ztick pos/both/.belongs to family=/pgfplots/tick,
- /pgfplots/ztick pos/top/.style={/pgfplots/ztick pos/right},
- /pgfplots/ztick pos/bottom/.style={/pgfplots/ztick pos/left},
/pgfplots/ztick pos=both,
/pgfplots/tickpos/.style={
/pgfplots/xtick pos={#1},
@@ -1761,11 +1760,11 @@
% This feature is more or less deprecated.
% The choice 'auto' should always use 'near ticklabel'.
%
- % Choices are
+ % Choices are
% 'auto' (value 0),
- % 'near ticklabel' (value 1),
+ % 'near ticklabel' (value 1),
% 'tikz' (value 2)
- % with values stored in \pgfplots@ticklabel@anchor@[xyz]
+ % with values stored in \pgfplots@ticklabel@anchor@[xyz]
/pgfplots/xticklabel anchor/.code={\pgfplots@setticklabel@anchor@for x{#1}},
/pgfplots/xticklabel anchor/.belongs to family=/pgfplots/tick,
/pgfplots/yticklabel anchor/.code={\pgfplots@setticklabel@anchor@for y{#1}},
@@ -2009,22 +2008,22 @@
\draw[%
/pgfplots/mesh=false,%
% reset bar options. This is to address the strange
- % backwards compatibility handling implemented by
+ % backwards compatibility handling implemented by
% \pgfplots@install@local@bar@handlers (see its docs).
% This should not hurt at all since 'line legend' is
% unsuitable for bar plots anyway.
- bar width=3pt,%
+ bar width=3pt,%
bar shift=0pt,%
%
mark repeat=2,%
- mark phase=2,##1]
+ mark phase=2,##1]
plot coordinates {
- (0cm,0cm)
+ (0cm,0cm)
(0.3cm,0cm)
(0.6cm,0cm)%
};%
}%
- },
+ },
/pgfplots/line legend/.style/.code={\pgfplots@error{This style is supposed to be constant.}},%
/pgfplots/line legend/.append style/.code={\pgfplots@error{This style is supposed to be constant.}},%
/pgfplots/line legend,
@@ -2070,10 +2069,26 @@
}%
},%
/tikz/trim axis right/.style={/pgfplots/trim axis right},
- /pgfplots/clip limits/.is if=pgfplots@clip@limits,
- /pgfplots/clip limits/.default=true,
+ /pgfplots/clip limits compat/.is if=pgfplots@clip@limits@compatmode,
+ /pgfplots/clip limits if compat/.code={
+ \ifpgfplots@clip@limits@compatmode
+ \else
+ \pgfkeysalso{#1}%
+ \fi
+ },
+ /pgfplots/clip xlimits/.is if=pgfplots@clip@limits@x,
+ /pgfplots/clip xlimits/.default=true,
+ /pgfplots/clip ylimits/.is if=pgfplots@clip@limits@y,
+ /pgfplots/clip ylimits/.default=true,
+ /pgfplots/clip zlimits/.is if=pgfplots@clip@limits@z,
+ /pgfplots/clip zlimits/.default=true,
+ /pgfplots/clip limits/.style={
+ /pgfplots/clip xlimits={#1},%
+ /pgfplots/clip ylimits={#1},%
+ /pgfplots/clip zlimits={#1},%
+ },
/pgfplots/clip limits=true,
- /pgfplots/clip limits/.belongs to family=/pgfplots,
+ %/pgfplots/clip limits/.belongs to family=/pgfplots,
/pgfplots/clip/.is if=pgfplots@clip,
/pgfplots/clip/.default=true,
/pgfplots/clip=true,
@@ -2260,7 +2275,7 @@
\edef\pgfplots@loc@TMPa{#3}%
\expandafter\pgfplots@loc@TMPc\pgfplots@loc@TMPa\relax
},%
- % -> keeps only the nth point, all other ones will get ''.
+ % -> keeps only the nth point, all other ones will get ''.
/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'
@@ -2300,8 +2315,8 @@
/pgfplots/xfilter/.initial=,% DEPRECATED
/pgfplots/yfilter/.initial=,% DEPRECATED
/pgfplots/zfilter/.initial=,% DEPRECATED
- % interpretation:
- % if 'samples at'==empty && 'domain' == empty
+ % interpretation:
+ % if 'samples at'==empty && 'domain' == empty
% use tikz option processing!
% else if 'samples at' == empty
% use 'domain'
@@ -2319,7 +2334,7 @@
/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
+ % and provide aliases in the '/pgfplots/' tree to avoid
% search path problems just for the following options:
/pgfplots/name/.code={\pgfkeysalso{/tikz/name={#1}}},
/pgfplots/overlay/.code={\pgfkeysalso{/tikz/overlay={#1}}},
@@ -2328,7 +2343,7 @@
/pgfplots/prefix/.code={\pgfkeysalso{/tikz/prefix={#1}}},
/pgfplots/raw gnuplot/.code={\pgfkeysalso{/tikz/raw gnuplot={#1}}},
/pgfplots/parametric/.code={\pgfkeysalso{/tikz/parametric={#1}}},%
- %
+ %
/pgfplots/width/.initial=,%
/pgfplots/width/.belongs to family=/pgfplots,
/pgfplots/height/.initial=,%
@@ -2401,7 +2416,7 @@
/pgfplots/scale uniformly strategy/auto,
/pgfplots/scale uniformly warning/.is if=pgfplots@scaleuniformly@warning,
/pgfplots/scale uniformly warning=false,
- % number of iterations for the nonlinear method involved
+ % number of iterations for the nonlinear method involved
/pgfplots/scale uniformly strategy iter/.initial=9,
/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,%
@@ -2631,7 +2646,7 @@
/pgfplots/disablelogfilter y/.default=true,
/pgfplots/disablelogfilter z/.is if=pgfplots@disablelogfilter@z,
/pgfplots/disablelogfilter z/.default=true,
- /pgfplots/disablelogfilter/.style={
+ /pgfplots/disablelogfilter/.style={
/pgfplots/disablelogfilter x=#1,
/pgfplots/disablelogfilter y=#1,
/pgfplots/disablelogfilter z=#1,
@@ -3157,9 +3172,9 @@
%
% 'nodes near coords=<content of node>'.
% The content is by default \pgfmathprintnumber\pgfplotspointmeta.
- %
- % Use 'point meta=y' after 'nodes near coords' to typeset the y coordinates
- % Use 'point meta=x' to typeset the x coordinates
+ %
+ % Use 'point meta=y' after 'nodes near coords' to typeset the y coordinates
+ % Use 'point meta=x' to typeset the x coordinates
/pgfplots/nodes near coords/.style={%
/pgfplots/scatter/@pre marker code/.code={},%
/pgfplots/scatter/@post marker code/.code={},%
@@ -3221,7 +3236,7 @@
\fi
% ok, place the node.
\expandafter\node\expandafter[\pgfplots@nodes@near@coords@align,%
- /pgfplots/every node near coord]
+ /pgfplots/every node near coord]
{%
\if1\csname pgfpmeta@\pgfplotspointmetainputhandler @issymbolic\endcsname%
% point meta=explicit symbolic
@@ -3402,7 +3417,7 @@
/pgf/bar shift={%
% total width = n*w + (n-1)*skip
% -> subtract half for centering
- -0.5*(\numplotsofactualtype*\pgfplotbarwidth + (\numplotsofactualtype-1)*(#1)) +
+ -0.5*(\numplotsofactualtype*\pgfplotbarwidth + (\numplotsofactualtype-1)*(#1)) +
% the '0.5*w' is for centering
(.5+\plotnumofactualtype)*\pgfplotbarwidth + \plotnumofactualtype*(#1)},%
},
@@ -3419,7 +3434,7 @@
#1shift={%
% total width = n*w + (n-1)*skip
% -> subtract half for centering
- -0.5*(\numplotsofactualtype*(#1) + (\numplotsofactualtype-1)*(#2)) +
+ -0.5*(\numplotsofactualtype*(#1) + (\numplotsofactualtype-1)*(#2)) +
% the '0.5*w' is for centering
(.5+\plotnumofactualtype)*(#1) + \plotnumofactualtype*(#2)%
},%
@@ -3430,6 +3445,7 @@
bar cycle list,
xtick align=outside,
ybar legend,
+ clip limits if compat={clip ylimits=false},
/pgfplots/set point meta if empty=f(x),%
/pgfplots/bar shift auto={#1},
/pgfplots/error bars/draw error bar/.code 2 args={%
@@ -3466,6 +3482,7 @@
bar direction=x,
bar cycle list,
ytick align=outside,
+ clip limits if compat={clip xlimits=false},
/pgfplots/xbar legend,
/pgfplots/set point meta if empty=x,%
/pgfplots/bar shift auto={#1},
@@ -3496,6 +3513,7 @@
bar cycle list,
x tick label as interval,
xmajorgrids,
+ clip limits if compat={clip ylimits=false},
xtick align=outside,
xtick=data,
ybar interval legend,
@@ -3516,6 +3534,7 @@
ymajorgrids,
ytick align=outside,
xbar interval legend,
+ clip limits if compat={clip xlimits=false},
bar interval width={#1/\numplotsofactualtype},
bar interval shift={(\plotnumofactualtype+0.5)/\numplotsofactualtype},
/tikz/xbar interval,
@@ -3527,6 +3546,7 @@
bar direction=x,
bar cycle list,
single xbar legend,
+ clip limits if compat={clip xlimits=false},
stack plots=x,
stack dir=#1,
/tikz/xbar,
@@ -3539,6 +3559,7 @@
bar direction=y,
bar cycle list,
single ybar legend,
+ clip limits if compat={clip ylimits=false},
stack plots=y,
stack dir=#1,
/tikz/ybar,
@@ -3551,6 +3572,7 @@
bar direction=x,
/pgfplots/set point meta if empty=x,%
bar cycle list,
+ clip limits if compat={clip xlimits=false},
single xbar legend,
stack plots=x,
stack dir=#1,
@@ -3563,6 +3585,7 @@
/pgfplots/set point meta if empty=f(x),%
bar cycle list,
single ybar legend,
+ clip limits if compat={clip ylimits=false},
stack plots=y,
stack dir=#1,
/tikz/ybar interval,
@@ -3593,7 +3616,7 @@
/pgfplots/plot graphics/zmin/.initial=,
/pgfplots/plot graphics/zmax/.initial=,
%
- % a) to provide a bounding box: points={(0,1) (0,2)}
+ % 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.
@@ -3608,7 +3631,7 @@
%
% this command key should defined \pgfmathresult to be
% \pgfmathresult -> {{<wd>}{<ht>}}
- % where <wd> is the natural width of the input image and
+ % 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
@@ -3812,7 +3835,7 @@
%
% Set the shader used for surface plots.
% RULES:
- % 1. meshmode == 'm' (mesh):
+ % 1. meshmode == 'm' (mesh):
% This means we use "shader/flat" to determine the colors
% and ignore fill colors.
% 2. meshmode == 's' (surf):
@@ -4008,7 +4031,7 @@
/pgfplots/colormap uniform/always/.code={\def\pgfplots@colormap@uniform@choice{0}},
/pgfplots/colormap uniform/if requested/.code={\def\pgfplots@colormap@uniform@choice{1}},
/pgfplots/colormap uniform/always,
- %
+ %
% #1: a number X with 0<= x <=0.9 which defines the relative size
% of the extra interval used for 'colormap access=piecewise constant'
% The value #1=0 disables the extra interval.
@@ -4177,7 +4200,7 @@
/pgfplots/scatter/@post marker code/.prefix code={\endscope}%
}%
% Now:remember the classes.
- \pgfkeyssetvalue{/pgfplots/scatter/classes/values}{#1}%
+ \pgfkeyssetvalue{/pgfplots/scatter/classes/values}{#1}%
%
% and generate legend items for every single class,
% But ONLY if we really *have* a plot which uses
@@ -4268,6 +4291,9 @@
/pgfplots/cube/size x=\pgfplotmarksize,
/pgfplots/cube/size y=\pgfplotmarksize,
/pgfplots/cube/size z=\pgfplotmarksize,
+ %
+ /pgfplots/3d log sampling/.is if=pgfplots@threedim@log@sampling,
+ %
/pgfplots/trig format/.style={/pgf/trig format={#1}},
/pgfplots/xtick placement tolerance/.initial=0.05pt,
/pgfplots/ytick placement tolerance/.initial=0.05pt,
@@ -4306,6 +4332,7 @@
/pgfplots/compat/anchors/1.12/.style= {/pgfplots/compat/anchors/1.3},%
/pgfplots/compat/anchors/1.13/.style= {/pgfplots/compat/anchors/1.3,/pgfplots/correct polar positioning=true},%
/pgfplots/compat/anchors/1.14/.style= {/pgfplots/compat/anchors/1.13},%
+ /pgfplots/compat/anchors/1.15/.style= {/pgfplots/compat/anchors/1.13},%
/pgfplots/compat/anchors/default/.style={/pgfplots/compat/anchors/1.3},%
%
/pgfplots/compat/empty line/.is choice,
@@ -4323,6 +4350,7 @@
/pgfplots/compat/empty line/1.12/.style= {/pgfplots/compat/empty line/1.4},%
/pgfplots/compat/empty line/1.13/.style= {/pgfplots/compat/empty line/1.4},%
/pgfplots/compat/empty line/1.14/.style= {/pgfplots/compat/empty line/1.4},%
+ /pgfplots/compat/empty line/1.15/.style= {/pgfplots/compat/empty line/1.4},%
/pgfplots/compat/empty line/default/.style= {/pgfplots/compat/empty line/1.4},%
%
/pgfplots/compat/path replacement/.is choice,
@@ -4340,6 +4368,7 @@
/pgfplots/compat/path replacement/1.12/.style= {/pgfplots/compat/path replacement/1.5.1},
/pgfplots/compat/path replacement/1.13/.style= {/pgfplots/compat/path replacement/1.5.1},
/pgfplots/compat/path replacement/1.14/.style= {/pgfplots/compat/path replacement/1.5.1},
+ /pgfplots/compat/path replacement/1.15/.style= {/pgfplots/compat/path replacement/1.5.1},
/pgfplots/compat/path replacement/default/.style= {/pgfplots/compat/path replacement/pre 1.3},%
%
/pgfplots/compat/pgfpoint substitution/.is choice,
@@ -4357,6 +4386,7 @@
/pgfplots/compat/pgfpoint substitution/1.12/.style= {/pgfplots/compat/pgfpoint substitution/1.11},
/pgfplots/compat/pgfpoint substitution/1.13/.style= {/pgfplots/compat/pgfpoint substitution/1.11},
/pgfplots/compat/pgfpoint substitution/1.14/.style= {/pgfplots/compat/pgfpoint substitution/1.11},
+ /pgfplots/compat/pgfpoint substitution/1.15/.style= {/pgfplots/compat/pgfpoint substitution/1.11},
/pgfplots/compat/pgfpoint substitution/default/.style= {/pgfplots/compat/pgfpoint substitution/pre 1.3},%
%ellipse/.is if=pgfplots@path@replace@ellipse,
%
@@ -4384,7 +4414,8 @@
/pgfplots/compat/labels/1.12/.style= {/pgfplots/compat/labels/1.8},%
/pgfplots/compat/labels/1.13/.style= {/pgfplots/compat/labels/1.8},%
/pgfplots/compat/labels/1.14/.style= {/pgfplots/compat/labels/1.8},%
- /pgfplots/compat/labels/default/.style= {/pgfplots/compat/labels/pre 1.3},% maintain backwards compatibility
+ /pgfplots/compat/labels/1.15/.style= {/pgfplots/compat/labels/1.8},%
+ /pgfplots/compat/labels/default/.style= {/pgfplots/compat/labels/pre 1.3},% maintain backwards compatibility
%
/pgfplots/compat/bar nodes/.is choice,
/pgfplots/compat/bar nodes/pre 1.3/.style={%
@@ -4436,7 +4467,8 @@
},%
},%
/pgfplots/compat/bar nodes/1.14/.style= {/pgfplots/compat/bar nodes/1.13},%
- /pgfplots/compat/bar nodes/default/.style= {/pgfplots/compat/bar nodes/pre 1.3},% maintain backwards compatibility
+ /pgfplots/compat/bar nodes/1.15/.style= {/pgfplots/compat/bar nodes/1.13},%
+ /pgfplots/compat/bar nodes/default/.style= {/pgfplots/compat/bar nodes/pre 1.3},% maintain backwards compatibility
/pgfplots/compat/bar nodes/default,
%
% search for the \pgfplots@compat@scaling@coordmath -- using float
@@ -4468,6 +4500,7 @@
/pgfplots/compat/scaling/1.12/.style={/pgfplots/compat/scaling/1.6},
/pgfplots/compat/scaling/1.13/.style={/pgfplots/compat/scaling/1.6},
/pgfplots/compat/scaling/1.14/.style={/pgfplots/compat/scaling/1.6},
+ /pgfplots/compat/scaling/1.15/.style={/pgfplots/compat/scaling/1.6},
/pgfplots/compat/scaling/default/.style={/pgfplots/compat/scaling/1.4},
%
/pgfplots/compat/scale mode/.is choice,
@@ -4485,6 +4518,7 @@
/pgfplots/compat/scale mode/1.12/.style={/pgfplots/compat/scale mode/1.6},
/pgfplots/compat/scale mode/1.13/.style={/pgfplots/compat/scale mode/1.6},
/pgfplots/compat/scale mode/1.14/.style={/pgfplots/compat/scale mode/1.6},
+ /pgfplots/compat/scale mode/1.15/.style={/pgfplots/compat/scale mode/1.6},
/pgfplots/compat/scale mode/default/.style={/pgfplots/compat/scale mode/1.5},
%
%
@@ -4503,6 +4537,7 @@
/pgfplots/compat/plot3graphics/1.12/.style= {/pgfplots/compat/plot3graphics/1.6},%
/pgfplots/compat/plot3graphics/1.13/.style= {/pgfplots/compat/plot3graphics/1.6},%
/pgfplots/compat/plot3graphics/1.14/.style= {/pgfplots/compat/plot3graphics/1.6},%
+ /pgfplots/compat/plot3graphics/1.15/.style= {/pgfplots/compat/plot3graphics/1.6},%
/pgfplots/compat/plot3graphics/default/.style= {/pgfplots/compat/plot3graphics/1.5},%
%
% ATTENTION: there is a compatibility issue which slipped through
@@ -4522,9 +4557,9 @@
% Consequently, I cannot introduce compatibity switches without
% loosing compatibility.
%
- % I chose to keep the correct unary minus sign. If you ever want
+ % I chose to keep the correct unary minus sign. If you ever want
% to revert to the old version in order to keep spacing intact, use
- %
+ %
% \pgfkeys{/pgf/compat/number printer=2.10}
%
% Risk: the size of such tick labels changed and the
@@ -4547,6 +4582,7 @@
/pgfplots/compat/bar width by units/1.12/.style= {/pgfplots/compat/bar width by units/1.7},
/pgfplots/compat/bar width by units/1.13/.style= {/pgfplots/compat/bar width by units/1.7},
/pgfplots/compat/bar width by units/1.14/.style= {/pgfplots/compat/bar width by units/1.7},
+ /pgfplots/compat/bar width by units/1.15/.style= {/pgfplots/compat/bar width by units/1.7},
/pgfplots/compat/bar width by units/default/.style={/pgfplots/compat/bar width by units/pre 1.3},
%
/pgfplots/compat/BB/.is choice,
@@ -4564,6 +4600,7 @@
/pgfplots/compat/BB/1.12/.style= {/pgfplots/compat/BB/1.8},%
/pgfplots/compat/BB/1.13/.style= {/pgfplots/compat/BB/1.8},%
/pgfplots/compat/BB/1.14/.style= {/pgfplots/compat/BB/1.8},%
+ /pgfplots/compat/BB/1.15/.style= {/pgfplots/compat/BB/1.8},%
/pgfplots/compat/BB/default/.style={/pgfplots/compat/BB/pre 1.3},
%
/pgfplots/compat/general/.is choice,
@@ -4577,6 +4614,8 @@
/pgfplots/compat/library hook={statistics}{/pgfplots/boxplot/estimator=legacy,/pgfplots/boxplot/ensure mark=false},
/pgfplots/colorbar pgfshading,
/pgfplots/colorbar=false,
+ /pgfplots/3d log sampling=false,
+ /pgfplots/clip limits compat=true,
},%
/pgfplots/compat/general/1.3/.style= {/pgfplots/compat/general/pre 1.3},
/pgfplots/compat/general/1.4/.style= {/pgfplots/compat/general/pre 1.3},%
@@ -4615,6 +4654,11 @@
%/pgfplots/colorbar sampled={surf,shader=interp,samples=2},
%/pgfplots/colorbar=false,
},%
+ /pgfplots/compat/general/1.15/.style= {%
+ /pgfplots/compat/general/1.14,
+ /pgfplots/3d log sampling=true, % FIXME finish this feature: see unittest_log_sampling_3d
+ /pgfplots/clip limits compat=false,
+ },%
/pgfplots/compat/general/default/.style={/pgfplots/compat/general/1.11},
%
/pgfplots/enable tick line clipping/.is if=pgfplots@enable@tick@line@clipping,
@@ -4632,7 +4676,7 @@
/pgfplots/compat/show suggested version/.is if=pgfplots@show@suggested@version,
/pgfplots/compat/show suggested version=true,
/pgfplots/compat/current/.initial=,
- /pgfplots/compat/mostrecent/.initial=1.14,
+ /pgfplots/compat/mostrecent/.initial=1.15,
/utils/exec={%
\pgfplotsutilforeachcommasep{%
/pgfplots/compat/current,%
@@ -4761,6 +4805,18 @@
},%
}
+\def\pgfplots@glob@TMPa#1{%
+ \pgfkeys{%
+ /pgfplots/#1tick pos/lower/.style={/pgfplots/#1tick pos=left},
+ /pgfplots/#1tick pos/bottom/.style={/pgfplots/#1tick pos=left},
+ /pgfplots/#1tick pos/upper/.style={/pgfplots/#1tick pos=right},
+ /pgfplots/#1tick pos/top/.style={/pgfplots/#1tick pos=right},
+ }%
+}%
+\pgfplots@glob@TMPa x%
+\pgfplots@glob@TMPa y%
+\pgfplots@glob@TMPa z%
+
\def\pgfplots@ticklabel@typeset@arg#1{\pgfkeysvalueof{/pgfplots/typeset ticklabel/.@cmd}{#1}\pgfeov}%
% backwards compatibility:
@@ -4773,7 +4829,7 @@
\global\let\pgfplots@colorbar@draw@legacyimpl=\pgfplots@loc@TMPa
\endgroup
-% call
+% call
% \pgfkeyslet{.../.@cmd}\pgfplots@cant@set@in@this@context
% to replace a key with a generic error message.
\def\pgfplots@cant@set@in@this@context#1\pgfeov{\pgfplots@cant@set@in@this@context@}
@@ -4924,7 +4980,7 @@
% Prepare special alignment features here.
%
% The idea is to:
- % 1. Declare a local COORDINATE SYSTEM to place labels,
+ % 1. Declare a local COORDINATE SYSTEM to place labels,
% the 'ticklabel cs' for the current axis.
% It takes 1-2 arguments where the first is the coordinate on the
% ticklabel axis (between 0 and 1). The second is an optional shift orthogonal to
@@ -4943,7 +4999,7 @@
\pgfkeyslet{/tikz/sloped/orig/.@cmd}\pgfplots@loc@TMPa
\pgfkeysdef{/tikz/sloped}{\pgfkeysalso{/tikz/sloped like #1 axis={##1}}}%
%
- \node
+ \node
[/pgfplots/every axis label,%
/pgfplots/every axis #1 label]
{#2};
@@ -4995,7 +5051,7 @@
% Draws outer axis lines, i.e. those which are on the bounding box.
% This has an effect if and only if axis #1 lines!=center.
-%
+%
%
% Ok, we don't mind whether edges with thick lines look ugly. We just
% draw separate lines. This here is necessary if we want arrow heads.
@@ -5022,7 +5078,7 @@
\pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
\pgfplots@transformshift@along@outer@normal@on@line@of@oriented@surf 0v%
\pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2min\endcsname}%
- \endpgfextra
+ \endpgfextra
};
}{}%
\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn{1}{%
@@ -5032,7 +5088,7 @@
\pgfplotspointonorientedsurfaceabsetupfor{#2}{#1}{\pgfplotspointonorientedsurfaceN}%
\pgfplots@transformshift@along@outer@normal@on@line@of@oriented@surf 1v%
\pgfplots@drawgridlines@onorientedsurf@fromto{\csname pgfplots@#2max\endcsname}%
- \endpgfextra
+ \endpgfextra
};
}{}%
%
@@ -5079,7 +5135,7 @@
%{ (\pgfplots@xmax, \pgfplots@ymax) }
{ \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}\endpgfextra }
\else
- decorate [xdiscont,decoration={pre length=\xdisstart, post length=\xdisend}]
+ decorate [xdiscont,decoration={pre length=\xdisstart, post length=\xdisend}]
%{ -- (\pgfplots@xmax, \pgfplots@ymax) }
{ \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymax}}\endpgfextra }
\fi
@@ -5087,7 +5143,7 @@
%{ (\pgfplots@xmax, \pgfplots@ymin) }
{ \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}\endpgfextra }
\else
- decorate [ydiscont,decoration={pre length=\ydisend, post length=\ydisstart}]
+ decorate [ydiscont,decoration={pre length=\ydisend, post length=\ydisstart}]
%{ -- (\pgfplots@xmax, \pgfplots@ymin) }
{ \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmax}{\pgfplots@ymin}}\endpgfextra }
\fi
@@ -5095,7 +5151,7 @@
%{ (\pgfplots@xmin, \pgfplots@ymin) }
{ \pgfextra\pgfpathmoveto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}\endpgfextra }
\else
- decorate [xdiscont,decoration={pre length=\xdisend, post length=\xdisstart}]
+ decorate [xdiscont,decoration={pre length=\xdisend, post length=\xdisstart}]
%{ -- (\pgfplots@xmin, \pgfplots@ymin) }
{ \pgfextra\pgfpathlineto{\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}}\endpgfextra }
\fi
@@ -5203,7 +5259,7 @@
% }
% }
% to get the different indices into the cycle lists.
- %--------------------------------------------------
+ %--------------------------------------------------
\c@pgf@counta=\pgfplots@cycle@dim\relax
\c@pgf@countb=\pgfplots@listindex\relax
\advance\c@pgf@counta by-1
@@ -5235,7 +5291,7 @@
% =\pgfplots@listindex
\if A\pgfplots@cycle@multi@list@repeat
% 'cycle multiindex list'
- %
+ %
% ensure that we respect the maxlen of the list:
\pgfplotsmathmodint{\pgfplots@listindex}{\pgfkeysvalueof{/pgfplots/cycle multi list/@maxlen}}%
\let\pgfplots@listindex=\pgfmathresult
@@ -5317,14 +5373,14 @@
% 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.
+ % level output.
%
% This here works:
% 1. set them to activate plot handlers and parameters like
% samples and domain:
\tikzset{#1}%
%
- % 2. we need to remember all these options inside of
+ % 2. we need to remember all these options inside of
% 'current plot style' -- otherwise, they would not appear
% inside of legend images and markers.
\pgfplotssurveyphaseaddoptionsbeforesurveybegins{#1}%
@@ -5384,8 +5440,8 @@
\fi
}
\def\pgfplots@path@closed@cycle@std{%
- |- (perpendicular cs:
- vertical line through={(current plot begin)},
+ |- (perpendicular cs:
+ vertical line through={(current plot begin)},
horizontal line through={(\pgfplots@ZERO@x,\pgfplots@ZERO@y)})
-- cycle
}%
@@ -5464,7 +5520,7 @@
%
% In contrast to \path, \pgfplotsextra can contain any command(s).
%
-% Syntax: either
+% Syntax: either
% \pgfplotsextra{<argument>}
% or
% \pgfplotsextra <argument> \endpgfplotsextra
@@ -5684,7 +5740,7 @@
% It is called within legend's cell pictures in order to undo global
% settings like stroke colors or the-like.
\def\pgfplots@restore@state@before@legend@style{%
- \pgfsetfillcolor{black}%
+ \pgfsetfillcolor{black}%
% disable the transformations of pgfplots. This is only used by
% pgfplots-specific plot handlers which work only if used inside
% of an axis... disable it.
@@ -5731,7 +5787,7 @@
\pgfplots@transposelegend
\fi
%
- %
+ %
\begingroup
\ifx\pgfplots@createlegend@toname\pgfutil@empty
% ok, draw legend.
@@ -5748,7 +5804,7 @@
\let##1=\pgfplotsretval
}%
\fi
- % assemble a
+ % assemble a
% \matrix {
% small plot & legend1\\
% small plot & legend2\\
@@ -5763,7 +5819,7 @@
% }
% ( I have allocated the token registers in my
% liststructure.sty)
- %
+ %
% \global\def\pgfplots@glob@TMPa{
% \matrix {
% \TOKL@TA
@@ -5807,11 +5863,11 @@
%
% and the legend image into \t@pgfplots@tokb:
\t@pgfplots@tokb=\expandafter{\pgfplotsretval}%
- % ok. Now, the
+ % ok. Now, the
% - 'b' register contains the IMAGE and
% - 'c' register contains the TEXT
\ifcase\legendplotpos
- % legend plot pos=left
+ % legend plot pos=left
\edef\pgfplots@matrixentry{%
\the\t@pgfplots@tokb
\noexpand\pgfmatrixnextcell
@@ -5933,7 +5989,7 @@
}%
}
-% Defines a new \label{#1}. When \ref{#1} is used, the code
+% Defines a new \label{#1}. When \ref{#1} is used, the code
% \csname #3#2\endcsname
% will be invoked.
% \pgfplots@label[<optional prefix>]{<label name>}{<command prefix>}
@@ -5974,7 +6030,7 @@
% this is a work-around to support the mcaption class: it
% simply remembers the label name and invokes \label later-on.
% This appears to be wrong in this context: I want to generate
- % a pgfplots label.
+ % a pgfplots label.
%
% If someone writes \label{fig:one}, that label will be
% redeclared in the margin - which appears to be correct. And
@@ -6162,7 +6218,7 @@
\def\bool@pgfplots@loc@enlargelimits@min{0}%
\def\bool@pgfplots@loc@enlargelimits@max{0}%
%
- % we can either enlarge
+ % we can either enlarge
% ... using a relative limit (like 0.1 -> 10%)
\def\pgfplots@enlargelimits@relthresh{0.1}% the default
% ...or an absolute limit ( like 4 units)
@@ -6171,8 +6227,8 @@
%
% Relative and absolute values are relatively simple: we only need to compute and
% add the changes to the already existing limits. The value with
- % an absolute dimension is surprisingly complicated.
- %
+ % an absolute dimension is surprisingly complicated.
+ %
% The problem is: enlargelimits has to be computed before the
% image has been scaled into its final size. This is not merely a
% technical problem; this is how one wants it to be!
@@ -6227,7 +6283,7 @@
% This here needs a different treatment because "enlarge x limits={abs=1cm}"
% has to be applied AFTER the scaling is complete. To this end, it is
% applied as the very last scaling step. It is applied after any post
-% scales, and it only modifies axis limits.
+% scales, and it only modifies axis limits.
%
% #1: x,y, or z
% #2: 1 if the lower limit shall be enlarged, 0 if not
@@ -6242,10 +6298,10 @@
\let\pgfplots@enlargelimits@absdimension@y=\pgfutil@empty
\let\pgfplots@enlargelimits@absdimension@z=\pgfutil@empty
-% Called as soon as the scaling is completely set up and any
+% Called as soon as the scaling is completely set up and any
% "enlarge #1 limits={abs=1cm}"
% enlargements shall be done, i.e. enlargement by unit.
-%
+%
% #1: x,y, or z
\def\pgfplots@scaling@apply@enlargelimits@by@dimension#1{%
\expandafter\ifx\csname pgfplots@enlargelimits@absdimension@#1\endcsname\pgfutil@empty
@@ -6261,19 +6317,19 @@
}%
-% PRECONDITION:
+% PRECONDITION:
% 1. width/height are set
% 2. the unit vectors point indicate whether the axis is a standard
% box or some skewed plot (their precise direction and magnitude is
% irrelevant)
-% 3. the enlargelimits code has already evaluated the case
+% 3. the enlargelimits code has already evaluated the case
% "enlargelimits={abs=1cm}"
%
% POSTCONDITION:
% width and/or height might be modified
\def\pgfplots@scaling@changewidthheight@for@enlargelimits@by@dimension{%
\ifpgfplots@enlargelimits@respect@figure@size
- %
+ %
% decide if we need to do anything at all, i.e. if there IS
% some option 'enlarge * limits={abs=1cm}' :
\pgfplots@loc@tmpfalse
@@ -6328,9 +6384,9 @@
\def\pgfplots@loc@TMPc{{1}{1}}%
%
% ah - we really *have* a standard boxed axis.
- % Compute
+ % Compute
% newwidth = width - enlargevalue
- % newheight = height - enlargevalue
+ % newheight = height - enlargevalue
%
% newwidth will be stored in \pgfplots@loc@TMPa
% and newheight in \pgfplots@loc@TMPb
@@ -6383,7 +6439,7 @@
\fi
}
-% this here applies changes required for 'enlarge #1 limits={abs=1cm}', i.e.
+% this here applies changes required for 'enlarge #1 limits={abs=1cm}', i.e.
% for the case of numbers with units.
%
% The main difference is that it is applied AFTER the scaling of the
@@ -6451,7 +6507,7 @@
\edef\enlargeabsolute{\pgf@sys@tonumber{\pgf@xb}}%
\fi
\ifdim\pgf@xb>0.001pt
- % the case with
+ % the case with
% enlargeabsolute ~= 0
% means that \pgfplots@@min ~= \pgfplots@@max.
% It is handled in another method.
@@ -6654,7 +6710,7 @@
\ifx\pgfplots@data@zmin\pgfplots@invalidrange@zmax
\global\let\pgfplots@data@zmax=\pgfplots@zmax
\fi
- \ifpgfplots@clip@limits
+ \ifpgfplots@clip@limits@x
\else
% there is a rare change that min > max.
% Handle that ...
@@ -6662,11 +6718,17 @@
\global\let\pgfplots@xmin=\pgfmathresult
\pgfplotscoordmath{x}{max}{\pgfplots@xmin}{\pgfplots@xmax}%
\global\let\pgfplots@xmax=\pgfmathresult
+ \fi
+ \ifpgfplots@clip@limits@y
+ \else
%
\pgfplotscoordmath{y}{min}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymin=\pgfmathresult
\pgfplotscoordmath{y}{max}{\pgfplots@ymin}{\pgfplots@ymax}%
\global\let\pgfplots@ymax=\pgfmathresult
+ \fi
+ \ifpgfplots@clip@limits@z
+ \else
%
\ifpgfplots@threedim
\pgfplotscoordmath{z}{min}{\pgfplots@zmin}{\pgfplots@zmax}%
@@ -6684,7 +6746,7 @@
% This method finishes the accumulated information of axis limits and
% all internal flag fields.
%
-% PRECONDITION:
+% PRECONDITION:
% - all plots are finally finished; axis and data limits are known.
%
% POSTCONDITION:
@@ -6750,6 +6812,9 @@
\global\let\pgfplots@firstplot@coords@z=\pgfutil@empty
%
\pgfplots@limits@ready
+ %
+ \pgfplots@set@options@after@survey1%
+ %
\pgfplotspoint@initialisation
%
%
@@ -6792,7 +6857,7 @@
\def\pgfplots@init@axis@shift{%
\pgfplotsforeachentryinCSV{\pgfplots@loc@TMPa}{x,y,z}{%
- % check if 'axis #1 line shift' is set and non-zero.
+ % check if 'axis #1 line shift' is set and non-zero.
\expandafter\pgfplots@if@has@axis@shift\pgfplots@loc@TMPa{%
\pgfkeysgetvalue{/pgfplots/axis \pgfplots@loc@TMPa\space line shift}\pgfplots@loc@TMPb
\pgfmathparse{\pgfplots@loc@TMPb}%
@@ -6839,7 +6904,7 @@
\pgfplots@separate@axis@linestrue
\fi
\fi
- %
+ %
% normalize the value - no need to parse it over and over again:
\pgfkeyslet{/pgfplots/axis \pgfplots@loc@TMPa\space line shift}\pgfplots@loc@TMPb
}{}%
@@ -6883,10 +6948,25 @@
\expandafter\def\csname pgfplots@#1ticklabel\endcsname{\axisdefaultticklabel}%
}{%
\expandafter\def\csname pgfplots@#1ticklabel\endcsname{\axisdefaultticklabellog}%
- }%
+ }%
\fi
\expandafter\ifx\csname pgfplots@extra@#1ticklabel\endcsname\pgfutil@empty
- \pgfutil@namelet{pgfplots@extra@#1ticklabel}{pgfplots@#1ticklabel}%
+ \pgfutil@namelet{pgfplots@loc@TMPa}{pgfplots@#1ticklabel}%
+ \pgfutil@namelet{pgfplots@loc@TMPb}{pgfplots@user@ticklabel@list@#1}%
+ \ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
+ % Ah - someone used '#1ticklabels' (or its friends).
+ % these are bound to specific positions and make no sense in this context.
+ \pgfplots@if{pgfplots@#1islinear}{%
+ \expandafter\def\csname pgfplots@extra@#1ticklabel\endcsname{\axisdefaultticklabel}%
+ }{%
+ \expandafter\def\csname pgfplots@extra@#1ticklabel\endcsname{\axisdefaultticklabellog}%
+ }%
+ \else
+ % inherit the global argument of '#1ticklabel' -- it will probably contain generic code to
+ % typeset labels at any positions.
+ % The "probably" is a buest-guess, though...
+ \pgfutil@namelet{pgfplots@extra@#1ticklabel}{pgfplots@#1ticklabel}%
+ \fi
\fi
%
\if0\csname pgfplots@#1axislinesnum\endcsname\else
@@ -7114,7 +7194,7 @@
% 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
+% Thus, this routine invokes #3 if
% ( 10^{s1} * veclen1 < 10^{s2} * veclen2 )
% <=>
% ( 10^{s1-s2} * veclen1 < veclen2 ).
@@ -7300,7 +7380,7 @@
\pgfpointintersectionoflines
{\origin}
{\pgfpointadd{\origin}{%
- \innerdiagonal\global\pgf@x=0sp
+ \innerdiagonal\global\pgf@x=0sp
\pgfplots@assert@not@zero{\pgf@y}{y axis has eyy=0; cannot compute above origin anchor}%
}%
}%
@@ -7741,7 +7821,7 @@
% 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.
%
@@ -7952,7 +8032,7 @@
% have called
% \pgfplots@draw@axis again.
% The difference is in the
- % \pgfplotsifaxissurfaceisforeground checks.
+ % \pgfplotsifaxissurfaceisforeground checks.
% Furthermore, I have removed the case distinctions for
% the different axis line combinations.
%\if10
@@ -8110,7 +8190,7 @@
% - 'vv0' 'vv1'
% - 'v0v' 'v1v'
% ' '0vv' '1vv'
-%
+%
% @see \pgfplotspointonorientedsurfaceabmatchaxisline for details
% about those three-character ids.
%
@@ -8142,9 +8222,9 @@
%
% The operation is relatively fast.
\def\pgfplots@decide@which@figure@surfaces@are@drawn{%
- \expandafter\def\csname pgfplots@surfviewdepth@2vv\endcsname{f}%
- \expandafter\def\csname pgfplots@surfviewdepth@v2v\endcsname{f}%
- \expandafter\def\csname pgfplots@surfviewdepth@vv2\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@2vv\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@v2v\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@vv2\endcsname{f}%
\ifpgfplots@threedim
\pgfplotsmathvectortocomponents\pgfplots@view@dir@threedim{pgfplots@loc@}{default}%
% respect reversed axes here. If I am not mistaken, it should
@@ -8153,35 +8233,35 @@
\expandafter\def\csname pgfplots@surfviewdepth@0vv\endcsname{f}% foreground
\expandafter\def\csname pgfplots@surfviewdepth@1vv\endcsname{b}% background
}{%
- \expandafter\def\csname pgfplots@surfviewdepth@0vv\endcsname{b}%
- \expandafter\def\csname pgfplots@surfviewdepth@1vv\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@0vv\endcsname{b}%
+ \expandafter\def\csname pgfplots@surfviewdepth@1vv\endcsname{f}%
}%
\pgfplotscoordmath{default}{if is}{\pgfplots@loc@y}{\if\pgfkeysvalueof{/pgfplots/y dir/value}n+\else-\fi}{%
\expandafter\def\csname pgfplots@surfviewdepth@v0v\endcsname{f}% foreground
\expandafter\def\csname pgfplots@surfviewdepth@v1v\endcsname{b}% background
}{%
- \expandafter\def\csname pgfplots@surfviewdepth@v0v\endcsname{b}%
- \expandafter\def\csname pgfplots@surfviewdepth@v1v\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@v0v\endcsname{b}%
+ \expandafter\def\csname pgfplots@surfviewdepth@v1v\endcsname{f}%
}%
\pgfplotscoordmath{default}{if is}{\pgfplots@loc@z}{\if\pgfkeysvalueof{/pgfplots/z dir/value}n+\else-\fi}{%
\expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{f}% foreground
\expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{b}% background
}{%
- \expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{b}%
- \expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{f}%
+ \expandafter\def\csname pgfplots@surfviewdepth@vv0\endcsname{b}%
+ \expandafter\def\csname pgfplots@surfviewdepth@vv1\endcsname{f}%
}%
\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@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}%
+ \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
%
@@ -8189,7 +8269,7 @@
}
% Initialises the 'pgfplots@[xyz]ticklabelaxisspecs' macro according to
-% the foreground/background situation of the axis and the '[xyz]ticklabel pos'
+% the foreground/background situation of the axis and the '[xyz]ticklabel pos'
% keys.
\def\pgfplots@init@ticklabelaxisspec{%
\ifpgfplots@threedim
@@ -8229,14 +8309,14 @@
% It does NOT work outside of it.
%
% It initialises the 'pgfplots@#1ticklabelaxisspec' macro according to
-% the foreground/background situation of the axis and the '#1ticklabel pos'
+% the foreground/background situation of the axis and the '#1ticklabel pos'
% key.
%
% #1: the axis: x,y or z
% #2: either x or y. It refers to the PROJECTED coordinate which
-% should be used to compare the 'lower' and 'upper' arguments of the
+% should be used to compare the 'lower' and 'upper' arguments of the
% |[xyz]ticklabel pos| key.
-%
+%
% PRECONDITION:
% \pgfplots@tmp@center[xy] is set.
%
@@ -8286,7 +8366,7 @@
% }{%
% \pgfplots@error{INTERNAL ERROR}%
% }%
- %--------------------------------------------------
+ %--------------------------------------------------
% Decide whether the '{0.5}{1}{0}' point is above or below
% the {0.5}{0.5}{0.5} point. Again, the '<' operation is based
% on the '#1ticklabel pos' key, the projection and #2.
@@ -8350,7 +8430,7 @@
% \expandafter\def\csname pgfplots@#1tickposnum\endcsname{3}% set to 'right'
% \fi
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
\if l\csname pgfplots@#1ticklabel@pos\endcsname
\expandafter\edef\csname pgfplots@#1ticklabelaxisspec\endcsname{\pgfplots@loc@to@threedim 1}%
\fi
@@ -8372,7 +8452,7 @@
% Processes every tick mark in direction #1 and draws tick lines, tick
% labels, grid lines, axis lines and extra ticks.
-%
+%
% #1 : the direction into which tick positions are processed.
% #2 : the direction in which tick lines and grid lines shall be drawn.
% #3 : the direction which is currently fixed.
@@ -8500,7 +8580,7 @@
% certainly use a different style for axis labels than the default 2d
% style.
%
-% Thus, all style changes which are relevant for 'every 3d description'
+% Thus, all style changes which are relevant for 'every 3d description'
% have NOT YET been processed (they have been appended to 'every axis').
\def\pgfplots@BEGIN@prepare@description@styles{%
\ifpgfplots@threedim
@@ -8521,7 +8601,7 @@
% Shortcut for '\pgfplotsset{set layers={#1}}'.
-%
+%
% USAGE:
% 1. \pgfplotssetlayers{<layer config name>} (one declared with /.define layer set)
% 2. \pgfplotssetlayers (no braces)
@@ -8545,7 +8625,7 @@
% - a \pgfsetlayers{<list>} is issued (immediately)
% - '/pgfplots/@set layers arg' is defined such that any following axes can initialized their layers.
\def\pgfplots@key@set@layers#1{%
- %
+ %
% auto detect if '#1' is a defined layer set:
\pgfkeysifdefined{#1/list}{%
\def\pgfkeyscurrentname{#1}%
@@ -8704,10 +8784,10 @@
% The purpose of this method is to check for the cases where no cell picture is necessary.
% The idea behind this anchor is to insert the axis DIRECTLY into the embedding tikzpicture, without
-% a posteriori shifting.
+% a posteriori shifting.
%
% A posteriori shifting == anchors whose dimensions are not fixed
-% until the complete axis has been "typeset".
+% until the complete axis has been "typeset".
%
% Disabling the cell picture will still prepare ALL anchors correctly,
% but it disables many of the anchor choices when it comes to the
@@ -8733,7 +8813,7 @@
%
% FIXME : do we need to renormalize this here? apparently
% not...
- %\def\pgfplots@anchorname{image}%
+ %\def\pgfplots@anchorname{image}%
%
\let\pgfplots@BEGIN@cell@picture=\pgfplots@BEGIN@cell@picture@DISABLED
\let\pgfplots@END@cell@picture=\pgfplots@END@cell@picture@DISABLED
@@ -8741,10 +8821,10 @@
\let\pgfplots@finally@correct@child@node@positions=\relax
%
% translate the coordinate system before the 'current axis'
- % node is generated.
+ % node is generated.
\expandafter\def\expandafter\pgfplots@beforenode\expandafter{\pgfplots@beforenode
\setbox\pgfnodepartimagebox=\hbox{}%
- }%
+ }%
}%
}
@@ -8782,7 +8862,7 @@
\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).
+ % path/plot commands).
\pgfmultipartnode{pgfplots@low@level@shape@INNER}{image}{current axis}{\pgfusepath{discard}}%
\endgroup
}%
@@ -8860,7 +8940,7 @@
%
%
% \pgfplotspointorigininternal:
- % used for anchor=<some node inside of the axis> and for
+ % used for anchor=<some node inside of the axis> and for
% 'cell picture=true' in order to correct remembered node positions:
\xdef\pgfplotspointorigininternal{\global\pgf@x=\the\pgf@picminx\space\global\pgf@y=\the\pgf@picminy\space}%
%
@@ -9026,12 +9106,12 @@
% - 00v
% - 0v0
% - v00
- % so, use
+ % so, use
% 010 (01v) 011
% 011 (0v1) 001
% 001 (v01) 101
% 101 (10v) 100
- % 100 (1v0) 110
+ % 100 (1v0) 110
% 110 (v10) 011 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymax}{\pgfplots@zmin}}%
@@ -9050,10 +9130,10 @@
% - 00v
% - 0v1
% - v01
- % so, use
+ % so, use
% 010 (01v) 011
- % 011 (v11) 111
- % 111 (1v1) 101
+ % 011 (v11) 111
+ % 111 (1v1) 101
% 101 (10v) 100
% 100 (v00) 000
% 000 (0v0) 010 (cycle)
@@ -9077,11 +9157,11 @@
% - 0v0
% - v10
% so, use
- % 000 (00v) 001
- % 001 (0v1) 011
- % 011 (v11) 111
- % 111 (11v) 110
- % 110 (1v0) 100
+ % 000 (00v) 001
+ % 001 (0v1) 011
+ % 011 (v11) 111
+ % 111 (11v) 110
+ % 110 (1v0) 100
% 100 (v00) 000 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmin}}%
@@ -9101,11 +9181,11 @@
% - 0v1
% - v11
% so, use
- % 000 (00v) 001
- % 001 (v01) 101
- % 101 (1v1) 111
- % 111 (11v) 110
- % 110 (v10) 010
+ % 000 (00v) 001
+ % 001 (v01) 101
+ % 101 (1v1) 111
+ % 111 (11v) 110
+ % 110 (v10) 010
% 010 (0v0) 000 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmin}{\pgfplots@ymin}{\pgfplots@zmin}}%
@@ -9129,11 +9209,11 @@
% - 1v0
% - v00
% So, use
- % 110 (11v) 111
- % 111 (1v1) 101
- % 101 (v01) 001
- % 001 (00v) 000
- % 000 (0v0) 010
+ % 110 (11v) 111
+ % 111 (1v1) 101
+ % 101 (v01) 001
+ % 001 (00v) 000
+ % 000 (0v0) 010
% 010 (v10) 110 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymax}{\pgfplots@zmin}}%
@@ -9152,11 +9232,11 @@
% - 1v1
% - v01
% So, use
- % 110 (11v) 111
- % 111 (v11) 011
- % 011 (0v1) 001
- % 001 (00v) 000
- % 000 (v00) 100
+ % 110 (11v) 111
+ % 111 (v11) 011
+ % 011 (0v1) 001
+ % 001 (00v) 000
+ % 000 (v00) 100
% 100 (1v0) 110 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymax}{\pgfplots@zmin}}%
@@ -9177,11 +9257,11 @@
% - 1v0
% - v10
% So, use
- % 100 (10v) 101
- % 101 (1v1) 111
- % 111 (v11) 011
- % 011 (01v) 010
- % 010 (0v0) 000
+ % 100 (10v) 101
+ % 101 (1v1) 111
+ % 111 (v11) 011
+ % 011 (01v) 010
+ % 010 (0v0) 000
% 000 (v00) 100 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymin}{\pgfplots@zmin}}%
@@ -9200,11 +9280,11 @@
% - 1v1
% - v11
% So, use
- % 100 (10v) 101
- % 101 (v01) 001
- % 001 (0v1) 011
- % 011 (01v) 010
- % 010 (v10) 110
+ % 100 (10v) 101
+ % 101 (v01) 001
+ % 001 (0v1) 011
+ % 011 (01v) 010
+ % 010 (v10) 110
% 110 (1v0) 100 (cycle)
\def\pgfplots@clippath@install##1{%
\pgfpathmoveto{\pgfplotsqpointxyz{\pgfplots@xmax}{\pgfplots@ymin}{\pgfplots@zmin}}%
@@ -9219,7 +9299,7 @@
}%
}%
}%
-
+
\else
\pgfplotsqpointxy{\pgfplots@xmin}{\pgfplots@ymin}%
\edef\pgfplots@loc@TMPa{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
@@ -9329,9 +9409,9 @@
}%
\def\pgfplots@clippath@install@test{\pgfusepath{clip}}%
-% This is the main part of the implementation for
+% This is the main part of the implementation for
% 'clip bounding box=upper bound' : it collects the bounding box of everything inside of
-% the clipped area. Then in the associated \endscope, it clips that bounding box to the expected
+% the clipped area. Then in the associated \endscope, it clips that bounding box to the expected
% clip path -- and protocols that size.
\def\pgfplots@clippath@install@BB@upper@bound{%
\tikzset{
@@ -9747,17 +9827,17 @@
{\pgfplots@evalute@tikz@coord@system@interface@x[]}%
}
-% In case of (semi-) logplots, this command will
+% In case of (semi-) logplots, this command will
% - assign a filter which invokes \pgfmathlog@{} for each coordinate
% - replace any user-specified coordinate by its log.
%
% All subsequent commands will then work with logarithmic coordinates.
%
-% PRECONDITION:
-% - The user input options have been set correctly,
+% PRECONDITION:
+% - The user input options have been set correctly,
% - the options have been set, but are not applied
%
-% POSTCONDITION:
+% POSTCONDITION:
% - any user input has been parsed
% - any user input for log-axis has been replaced by its log if
% necessary
@@ -9779,9 +9859,9 @@
\expandafter\edef\csname pgfplots@prepare@#1coord\endcsname##1{%
% do not expand it here - might contain unexpandable
% material which is processed by the #1 coord trafo:
- % FIXME : this might produce an endless loop if ##1 = \pgfmathresult!
+ % FIXME : this might produce an endless loop if ##1 = \pgfmathresult!
\noexpand\def\noexpand\pgfmathresult{##1}%
- % this becomes
+ % this becomes
\expandafter\noexpand\csname pgfplots@highlevel@trafo@#1\endcsname{##1}\noexpand\pgfeov
%
% ensure that it is expanded.
@@ -9911,7 +9991,7 @@
%
% generate default ticks in the 'log basis', not base 10:
\pgfplotsset{/pgfplots/log basis ticks=#1}%
- %
+ %
\ifdim\pgfkeysvalueof{/pgfplots/log basis #1}pt=10pt
\else
\pgfplots@identify@log@minor@tick@posfalse
@@ -10061,7 +10141,7 @@
\else
\pgfplots@show@label{y}{\pgfplots@label@}%
\fi
- \fi
+ \fi
\fi
\ifpgfplots@threedim
\ifpgfplots@hide@z
@@ -10140,7 +10220,7 @@
%
\pgfnodealias{parent axis}{current axis}%
%
- % FIXME :
+ % FIXME :
% I would really prefer to find a different way to move these
% variables out of the current scope. But expansion leads to
% mistakes with '#' characters ... :-(
@@ -10248,7 +10328,7 @@
\noexpand\expandafter
\noexpand\gdef\noexpand\csname pgfplots@colorbar@to@name@\pgfplots@colorbar@toname\endcsname{\the\toks0}}%
\xdef#1{}% NOP.
- %
+ %
% make sure \ref{<colorbarname>} works:
\pgfplots@label{\pgfplots@colorbar@toname}{pgfplots@colorbar@to@name@}%
\fi
@@ -10291,7 +10371,7 @@
\def\pgfplots@loc@TMPa{cmyk}%
\ifx\pgfplots@loc@TMPa\pgfplotsretval
\pgfutil@ifundefined{pgfplots@colorbar@CMYK@\pgfplots@loc@TMPb}{%
- \pgfplotswarning{colorbar CMYK unsupported}{\pgfplots@loc@TMPb}\pgfeov%
+ \pgfplotswarning{colorbar CMYK unsupported}{\pgfplots@loc@TMPb}\pgfeov%
\expandafter\gdef\csname pgfplots@colorbar@CMYK@\pgfplots@loc@TMPb\endcsname{1}%
}{}%
\def\b@pgfplots@colorbar@fallback@to@sampled{1}%
@@ -10330,7 +10410,7 @@
\pgfplotsset{%
/pgfplots/every axis plot post/.append code={%
\ifpgfplots@collect@firstplot@astick
- % Oh! Someone wrote 'ytick=data. We want the precise positions.
+ % Oh! Someone wrote 'ytick=data. We want the precise positions.
%
% Note that this check needs to be done late: it must
% be after \begin{axis} -- and since many colorbar
@@ -10494,16 +10574,16 @@
% Parses all options in #1 which are known in the currently active families.
%
-% The result will be stored back into the TikZ-style named #1 without
+% The result will be stored back into the TikZ-style named #1 without
% further processing.
%
% Example:
% \tikzstyle{every axis}=[xmin=0,xmax=1,line width=1pt
% \pgfplots@set@keys@from@tikz@style\tmpmacro{every axis}{/pgfplots}
-%
+%
% - sets axis options 'xmin' and 'xmax'
% - calls \tikzstyle{every axis}={line width=1pt}
-%
+%
% I assume that this method is called within local TeX groups so
% nothing will be destroyed outside.
%
@@ -10755,7 +10835,7 @@
%
\pgfplots@set@options@of@layered@graphics
%
- % Now, any 'name' and 'alias' options have been processed.
+ % Now, any 'name' and 'alias' options have been processed.
%
% Remember their current meaning and reset the tikz options!
\let\pgfplots@fig@name=\tikz@fig@name
@@ -10824,7 +10904,7 @@
% \pgfkeysactivatefamily{/pgfplots}%
% \pgfplots@set@keys@from@tikz@style{every axis plot}%
% \pgfkeysdeactivatefamily{/pgfplots}%
- %--------------------------------------------------
+ %--------------------------------------------------
%
% Attention: do NOT set the description styles here! Setting them
% must be postponed until |every 3d description| has been set (to
@@ -10874,7 +10954,7 @@
\pgfkeysifdefined{/tikz/on layer}{}{%
% make sure assignments 'on layer' in the /tikz/ prefix
% doesn't hurt.
- % this may happen, for example with
+ % this may happen, for example with
% 'x grid style={on layer=...}'
% because 'x grid style' is not processed by the key filtering
% above (it is extracted later).
@@ -10939,7 +11019,7 @@
\pgfkeysifdefined{/tikz/name path/.@cmd}{%
% 'name path' does not work inside of a pgfplots axis because
% pgfplots unnecessarily introduces extra \scopes around each path :-/
- % it needs to be 'name path global'.
+ % it needs to be 'name path global'.
% PATCH IT:
\pgfkeysgetvalue{/tikz/name path global/.@cmd}\pgfplots@loc@TMPa%
\ifx\pgfplots@loc@TMPa\pgfplots@name@path@global@cmd@pgf@two@ten
@@ -11089,7 +11169,7 @@
%
% This macro is used inside for \label{} / \ref{}; it tries to be
% reasonable smart about restoring relevant flags stored in a pgfplots
-% axis. If it forgets something... well, it is not too smart.
+% axis. If it forgets something... well, it is not too smart.
%
% #1: the style to export.
% #2: either empty or the fully qualified name of a code key. If #2 is not empty,
@@ -11101,7 +11181,7 @@
% The exported routine autodetects whether the result is used inside of
% a picture. In that case, the '#2' style will be set inside of a
% scope instead of \tikz[#2].
-%
+%
% Assembles a macro \pgfplotsretval which, upon execution, draws the
% plot style.
%
@@ -11189,9 +11269,9 @@
% The implementation for \label{foo} after \addplot. It allows to
% \ref{foo} (it inserts the 'legend image code').
%
-% With
+% With
% \addplot[scatter/classes={a={}}] ... ;
-% \label[a]{my label}
+% \label[a]{my label}
% you can reference scatter/classes labels.
%
% I only need to overwrite '\label'; the rest is done by LaTeX.
@@ -11231,7 +11311,7 @@
%
% b) \protect . If the resulting \ref{} command occurs within
% a "moving argument" like \caption or so, we need to use
- % proper '\protect'ion.
+ % proper '\protect'ion.
%
% this here is the low-level implementation of \ref{#3}. Write it into
% the .aux file:
@@ -11265,14 +11345,14 @@
}%
}%
-% A helper method which defines
+% A helper method which defines
% `/tikz/current plot style' to be {#1} --- with properly set key
% search paths.
\def\pgfplots@define@currentplotstyle@as#1{%
\pgfkeysdef{/tikz/current plot style}{%
\pgfplots@search@also@tikz
%
- % Make sure that
+ % Make sure that
% \addplot[every mark/.append style={...}]
% or something like that is interpreted as /tikz/ key:
\pgfplots@invoke@pgfkeyscode{/handler config/full or existing/.@cmd}{}% restrict
@@ -11410,13 +11490,16 @@
\pgfplotsutil@directlua{%
pgfplots.gca = pgfplots.Axis.new();
pgfplots.gca.is3d = \pgfplots@boolval{pgfplots@threedim};
- pgfplots.gca.clipLimits = \pgfplots@boolval{pgfplots@clip@limits};
+ pgfplots.gca.clipLimits = {
+ \pgfplots@boolval{pgfplots@clip@limits@x},
+ \pgfplots@boolval{pgfplots@clip@limits@y},
+ \pgfplots@boolval{pgfplots@clip@limits@z} };
pgfplots.gca.autocomputeAllLimits = \pgfplots@boolval{pgfplots@autocompute@all@limits};
- pgfplots.gca.autocomputeMin = {
+ pgfplots.gca.autocomputeMin = {
\pgfplots@boolval{pgfplots@autocompute@xmin},
\pgfplots@boolval{pgfplots@autocompute@ymin},
\pgfplots@boolval{pgfplots@autocompute@zmin} };
- pgfplots.gca.autocomputeMax = {
+ pgfplots.gca.autocomputeMax = {
\pgfplots@boolval{pgfplots@autocompute@xmax},
\pgfplots@boolval{pgfplots@autocompute@ymax},
\pgfplots@boolval{pgfplots@autocompute@zmax} };
@@ -11449,14 +11532,14 @@
% until \end{axis}. During the collect phase, axis limits will be
% computed.
%
-% The following variables are accummulated between
+% The following variables are accummulated between
% \begin{axis}
% and
% \end{axis}:
%
% - \pgfplots@[xyz]min
% \pgfplots@[xyz]max
-% - These denote the axis limits.
+% - These denote the axis limits.
% - They are always assigned globally.
% - For linear axes, they will be computed in floating point.
% - For log axes, they will be computed using pgf math engine.
@@ -11550,11 +11633,11 @@
% (including the 'pt' suffix).
%
% - \ifpgfplots@curplot@threedim
-% - valid during an '\addplot' preparation step.
+% - valid during an '\addplot' preparation step.
% - \ifpgfplots@threedim
% - whether the axis shall be threedimensional.
%
-% - \pgfplots@currentplot@firstcoord@[xyz]
+% - \pgfplots@currentplot@firstcoord@[xyz]
% - \pgfplots@currentplot@lastcoord@[xyz]
% - contains the first/last coordinate of the current plot.
% - assigned globally.
@@ -11747,16 +11830,38 @@
\pgfkeyslet{/pgfplots/on layer}\pgfutil@empty
}
-\def\pgfplots@set@options@after@survey{%
- \pgfkeyssetvalue{/pgfplots/xmin}{\pgfplots@xmin}%
- \pgfkeyssetvalue{/pgfplots/ymin}{\pgfplots@ymin}%
- \pgfkeyssetvalue{/pgfplots/zmin}{\pgfplots@zmin}%
- \pgfkeyssetvalue{/pgfplots/point meta min}{\pgfplots@axiswide@metamin}%
+% #1 if and only if the limits are already ready (sanitized to bounded
+% values and transformed)
+\def\pgfplots@set@options@after@survey#1{%
+ \def\pgfplots@set@options@after@survey@@##1{%
+ \edef\pgfmathresult{\csname pgfplots@##1min\endcsname}%
+ \if1#1%
+ \pgfplotscoordmath{##1}{datascaletrafo inverse}{\pgfmathresult}%
+ \pgfplotscoordmath{##1}{tofixed}{\pgfmathresult}%
+ \else
+ % might be unbounded...
+ \pgfplotscoordmath{##1}{tostring}{\pgfmathresult}%
+ \fi
+ \pgfkeyslet{/pgfplots/##1min}\pgfmathresult
+ %
+ \edef\pgfmathresult{\csname pgfplots@##1max\endcsname}%
+ \if1#1%
+ \pgfplotscoordmath{##1}{datascaletrafo inverse}{\pgfmathresult}%
+ \pgfplotscoordmath{##1}{tofixed}{\pgfmathresult}%
+ \else
+ % might be unbounded...
+ \pgfplotscoordmath{##1}{tostring}{\pgfmathresult}%
+ \fi
+ \pgfkeyslet{/pgfplots/##1max}\pgfmathresult
+ }%
+ \pgfplots@set@options@after@survey@@ x%
+ \pgfplots@set@options@after@survey@@ y%
+ \ifpgfplots@threedim
+ \pgfplots@set@options@after@survey@@ z%
+ \fi
%
- \pgfkeyssetvalue{/pgfplots/xmax}{\pgfplots@xmax}%
- \pgfkeyssetvalue{/pgfplots/ymax}{\pgfplots@ymax}%
- \pgfkeyssetvalue{/pgfplots/zmax}{\pgfplots@zmax}%
- \pgfkeyssetvalue{/pgfplots/point meta max}{\pgfplots@axiswide@metamax}%
+ \pgfkeyslet{/pgfplots/point meta min}{\pgfplots@axiswide@metamin}%
+ \pgfkeyslet{/pgfplots/point meta max}{\pgfplots@axiswide@metamax}%
}%
% \end{axis} :
@@ -11778,7 +11883,7 @@
%
\pgfplotssurveyphase@setactiveplothandlers
%
- \pgfplots@set@options@after@survey
+ \pgfplots@set@options@after@survey0%
\expandafter\pgfplotsset\expandafter{\pgfplots@late@options}%
%
\pgfplots@prepare@layered@graphics
@@ -11848,7 +11953,7 @@
%
\pgfplots@create@axis@descriptions
%
- % this here does \endtikzpicture\endpgfinterruptpicture
+ % this here does \endtikzpicture\endpgfinterruptpicture
% (and stores sizes):
\pgfplots@END@cell@picture
%
@@ -11862,7 +11967,7 @@
\def\pgfplots@loc@TMPa##1{%
\pgftransformshift{%
% So far, the inner node's position has not been
- % corrected (that happens in
+ % corrected (that happens in
% \pgfplots@finally@correct@child@node@positions).
% Do that here with \pgfplots@saveddimen@picminx:
\pgfpointdiff
@@ -11965,9 +12070,9 @@
{ \pgf@sys@tonumber\pgf@yx, \pgf@sys@tonumber\pgf@yy },
{ \pgf@sys@tonumber\pgf@zx, \pgf@sys@tonumber\pgf@zy } });^^J%
\ifpgfplots@threedim
- axis.viewdir = {
+ axis.viewdir = {
pgfplots.pgftonumber("\pgfplots@loc@x"),
- pgfplots.pgftonumber("\pgfplots@loc@y"),
+ pgfplots.pgftonumber("\pgfplots@loc@y"),
pgfplots.pgftonumber("\pgfplots@loc@z") };^^J%
\fi
}%
@@ -12073,6 +12178,7 @@
% expanded, i.e. it can be a macro.
\def\pgfplots@stored@plotlist@visualize@selected@phases#1{%
\begingroup
+ \def\pgfplotsaxisplotphase{V}%
\pgfplotsonlayer{\pgfkeysvalueof{/pgfplots/on layer}}{a plot or graphical element (or inherited from the axis)}%
\pgfkeysvalueof{/pgfplots/execute at begin plot visualization}%
\ifpgfplots@threedim
@@ -12239,7 +12345,7 @@
\pgfplots@polarxy@#2\@@%
\else%
\pgfplots@polarxy@#2and #2\@@%
- \fi%
+ \fi%
\pgfmathparse{#1}%
\let\pgfpoint@angle=\pgfmathresult%
\pgfmathcos@{\pgfpoint@angle}%
@@ -12264,8 +12370,8 @@
% see docs of \pgfplots@tikz@do@arc for a motivation:
\pgfplots@disable@directionmath
%
- % ok, now, evaluate the arcs. Since this implements
- % 'substitute pgfpoint', we have to evaluate the angles via
+ % ok, now, evaluate the arcs. Since this implements
+ % 'substitute pgfpoint', we have to evaluate the angles via
% 'axis direction cs' ...
\let\pgfpointxy=\pgfplotspointaxisdirectionxy
\let\pgfpointxyz=\pgfplotspointaxisdirectionxyz
@@ -12414,7 +12520,7 @@
}%
% Replaces the pdfmark for #1 by that of #2.
-%
+%
% Note that when this macro is executed (it resides in the .aux file),
% the pdfmark for #2 is typically UNDEFINED.
%
@@ -12428,7 +12534,7 @@
% Ok, make a "lazy replace":
\expandafter\let\expandafter\pgfplots@glob@TMPa\csname pgf@sys@pdf@mark@pos@#1\endcsname
\expandafter\global\expandafter\let\csname pgf@sys@pdf@mark@pos@#1@old\endcsname=\pgfplots@loc@TMPa%
- %
+ %
\expandafter\gdef\csname pgf@sys@pdf@mark@pos@#1\endcsname{%
% this is the lazy replace, assuming knowledge about how
% pgf calls its internal structures :-/
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.markers.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.markers.code.tex
index 1e1f8c9a746..c836e1ea9e8 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.markers.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.markers.code.tex
@@ -4,7 +4,7 @@
%
% 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 2007-2013 by Christian Feuersänger.
@@ -13,17 +13,17 @@
% 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@markers@visphase@name@none{none}%
\def\pgfplots@markers@visphase@name@afterpath@clipped{afterpath@clipped}%
\def\pgfplots@markers@visphase@name@afterpath@unclipped{afterpath@unclipped}%
@@ -137,7 +137,7 @@
% This sets the \iftikz@mode@draw etc:
%\tikz@mode
% FIXME: using 'color=blue' will NOT activate filltrue!
- % So: if 'tikz@mode' *contains* 'fillfalse', I know what to do...
+ % So: if 'tikz@mode' *contains* 'fillfalse', I know what to do...
% but all other cases are not clear
%--------------------------------------------------
% \iftikz@mode@draw
@@ -152,7 +152,7 @@
% % even if the markers likes to be filled:
% \let\pgfusepathqfillstroke=\pgfusepathqstroke
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
%
% this here is the MAIN marker code.
% It may be modified if scatter plot is enabled, see below.
@@ -242,7 +242,7 @@
% check for clip marker paths:
\pgfplotsaxisifcontainspoint{\pgfplots@markers@mark@handler@@{#1}}{}%
\else
- \pgfplots@markers@mark@handler@@{#1}
+ \pgfplots@markers@mark@handler@@{#1}%
\fi
}%
@@ -365,4 +365,3 @@
\pgfkeyslet{/pgfplots/mark layer}\pgfutil@empty%
\fi
}%
-
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
index 3108885c8e2..59068fa8d26 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.revision.tex
@@ -5,10 +5,10 @@
\catcode`\:=12
\catcode`\+=12
\catcode`\-=12
-\gdef\pgfplotsrevision{1.14}
-\gdef\pgfplotsversion{1.14}
-\gdef\pgfplotsversiondatetime{2016-08-10 20:41:40 +0200}
-\gdef\pgfplotsrevisiondatetime{2016-08-10 20:41:40 +0200}
+\gdef\pgfplotsrevision{1.15}
+\gdef\pgfplotsversion{1.15}
+\gdef\pgfplotsversiondatetime{2017-06-05 20:30:57 +0200}
+\gdef\pgfplotsrevisiondatetime{2017-06-05 20:30:57 +0200}
\gdef\pgfplots@glob@TMPa#1-#2-#3 #4\relax{#1/#2/#3}
\xdef\pgfplotsversiondate{\expandafter\pgfplots@glob@TMPa\pgfplotsversiondatetime\relax}
\xdef\pgfplotsrevisiondate{\expandafter\pgfplots@glob@TMPa\pgfplotsrevisiondatetime\relax}
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.scaling.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.scaling.code.tex
index 283650ac54d..e079bb6d46f 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplots.scaling.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplots.scaling.code.tex
@@ -4,7 +4,7 @@
%
% 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 2007-2012 by Christian Feuersänger.
@@ -13,21 +13,21 @@
% 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/>.
%
%--------------------------------------------
-% PRECONDITION:
+% PRECONDITION:
% - final axis limits are given in transformed range
% - \pgfplots@set@default@size@options has been invoked before
-% POSTCONDITION:
+% POSTCONDITION:
% - the current x,y and z unit vectors are defined properly;
% - the fast-access registers are initialised for the axis limits,
% - the following macros are assigned:
@@ -190,18 +190,18 @@
}
% Takes azimuth (horizontal angle) '#1' and elongation (vertical
-% angle) '#2' (both in degrees) and computes
+% angle) '#2' (both in degrees) and computes
% x,y and z vectors which define the view in the direction
% defined by '#1' and '#2'.
%
% 'azimuth' means a rotation around the viewport's x axis. 'elongation' means
% a rotation around the original coordinate system's z axis.
%
-% The method works by computing
+% The method works by computing
% Az = [ cos(azimuth) -sin(azimuth) 0; ...
% sin(azimuth) cos(azimuth) 0; ...
% 0 0 1 ];
-%
+%
%
% Ax = [ 1 0 0; ...
% 0 cos(elevation) -sin(elevation) ;...
@@ -213,7 +213,7 @@
% sinaz cosaz cosel -sinel cosaz; ...
% 0 sinel cosel ];
%
-% Then, we use the rotated XZ plane as viewport, that means
+% Then, we use the rotated XZ plane as viewport, that means
% xvec = v * [1 0 0]' = <first column of v>
% zvec = v * [0 0 1]' = <third column of v>
% and we define the projection onto the twodimensional surface
@@ -230,7 +230,7 @@
%
% Furthermore, the 3D view vector which points into the direction of the view
% is
-% n = v * [0 1 0 ]' = <second column of v> = [-sinaz cosel, cosaz cosel, sinel]'
+% n = v * [0 1 0 ]' = <second column of v> = [-sinaz cosel, cosaz cosel, sinel]'
% because the normal view point was the XZ plane with y as its normal
% vector.
% The 3D vector n is returned by this routine as well - it is
@@ -241,7 +241,7 @@
% - #1 : azimuth ("yaw")
% - #2 : elevation ("pitch")
% OUTPUT:
-% - #3 : a macro which will be set to '1' if and only if
+% - #3 : a macro which will be set to '1' if and only if
% the viewport is the standard XY axis (i.e. azimuth=0, elevation=90).
% - [xyz] vectors,
% \pgfplots@view@dir@threedim will contain the three components
@@ -353,7 +353,7 @@
}%
% 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
+% 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).
%
@@ -373,7 +373,7 @@
% that the bounding box of the final image has width #1 and height #2.
%
% The relative length of the input vectors is important for the 3D case: it
-% will be scaled as-is.
+% will be scaled as-is.
%
% PRECONDITION
% - the x, y and z unit vectors have been set to the proper
@@ -384,7 +384,7 @@
% to the data transformation.
% - the data transformation has ONLY been applied to the axis limits
% (not other axis inputs). It may be changed by this method.
-%
+%
% POSTCONDITION
% - the unit vectors have been re-scaled such that the final plot
% has the desired dimensions.
@@ -419,7 +419,7 @@
% to respect the limits.
%
% This method ignores width/height; its purpose is only to make sure
-% that [xmin,xmax] fits into the CURRENT plot box.
+% that [xmin,xmax] fits into the CURRENT plot box.
%
% In this context, each unit vector is supposed to be scaled such that
% width/height fit if xmin=0 and xmax=1.
@@ -427,12 +427,12 @@
% #1 [output] a macro name which will contain the INVERSE scale for x
% #2 [output] a macro name which will contain the INVERSE scale for y
% #3 [output] a macro name which will contain the INVERSE scale for z
-%
+%
\def\pgfplots@BB@for@plotbox@get@unit@scales@for@limits#1#2#3{%
\if1\b@pgfplots@plotbox@xisunit
% Consequently, we have to multiply with 1/(max-min):
% compute 1/(xmax - xmin) in float for more recent versions (see /pgfplots/compat/scaling).
- % I observed that it is much more accurate
+ % I observed that it is much more accurate
\pgfmathsubtract@{\pgfplots@xmax}{\pgfplots@xmin}%
\else
\def\pgfmathresult{1}%
@@ -491,7 +491,7 @@
%
% the result of this call will be used to scale to target
% dimensions. If we omit \pgftransformreset here, we might
- % accidentally UNDO the PGF transformation matrix (compare by
+ % accidentally UNDO the PGF transformation matrix (compare by
% writing \tikzpicture[scale=0.5] before the axis).
\pgftransformreset
%
@@ -526,7 +526,7 @@
\def\pgfplots@scaleaxes@to@BB@prepare@plotbox@limits@#1{%
\expandafter\ifx\csname pgfplots@#1\endcsname\pgfutil@empty
- % Ah - we have no unit vector in this direction.
+ % Ah - we have no unit vector in this direction.
\expandafter\def\csname pgfplots@plotbox@#1min\endcsname{0}%
\expandafter\def\csname pgfplots@plotbox@#1max\endcsname{1}%
\expandafter\def\csname b@pgfplots@plotbox@#1isunit\endcsname{1}%
@@ -578,7 +578,7 @@
%
\if3\pgfplots@scale@mode@choice
% scale mode=scale uniformly
- %
+ %
% We need to recompensate in case the previous method chose
% different unit scaling scalings:
\pgfplots@BB@for@plotbox@get@unit@scales@compensated@axis@limits
@@ -793,7 +793,7 @@
\fi
}%
-% Defines
+% Defines
% \pgfplots@target@unit@scale@xx
% \pgfplots@target@unit@scale@xy
% \pgfplots@target@unit@scale@yx
@@ -905,7 +905,7 @@
}%
\def\pgfplots@notify@final@scalings#1{%
- \pgfkeys{/pgfplots/scaling/.cd,
+ \pgfkeys{/pgfplots/scaling/.cd,
.unknown/.code={%
%\message{setting key '\pgfkeyscurrentkey' to {##1}^^J}
\pgfkeyssetvalue{\pgfkeyscurrentkey}{##1}%
@@ -960,7 +960,7 @@
%
% OUTPUT:
% \pgfplots@target@datascaletrafo@x@exponent and its variants for y and z
-% -> contains NEW datascaletrafo exponents
+% -> contains NEW datascaletrafo exponents
% \pgfplots@target@datascaletrafo@x@exponent@old and its variants for y and z
% -> contains OLD datascaletrafo exponents
% \pgfplots@target@unit@scale@inv@x and its variants for y and z
@@ -980,7 +980,7 @@
\expandafter\pgfplots@loc@TMPa\pgfmathresult
\pgf@xa=\csname pgfplots@target@limitrescale@#1\endcsname pt
\ifdim\pgf@xa>5pt %
- % We want to enlarge axis limits considerably!
+ % We want to enlarge axis limits considerably!
%
\pgfplots@scaling@adjust@datascaling@for@get@compensation{\pgf@xa}%
%
@@ -1004,8 +1004,8 @@
}%
}
-% Returns
-% \pgfplotsretval -> the absolute scaling
+% Returns
+% \pgfplotsretval -> the absolute scaling
% \pgfplotsretvalb -> the log10 of the scaling
\def\pgfplots@scaling@adjust@datascaling@for@get@compensation#1{
\ifdim#1<100pt %
@@ -1067,7 +1067,7 @@
% scale mode=none does not happen here
\or
% scale mode=stretch to fill
- %
+ %
% This is very simple:
%
% Compute individual scaling factors for X and Y
@@ -1077,7 +1077,7 @@
%
\pgfmathdivide@{\H}{\h}%
\let\scaley=\pgfmathresult
- %
+ %
% no changes to the axis limits - we only rescale units.
\def\pgfplots@target@limitrescale@x@{1}%
\def\pgfplots@target@limitrescale@y@{1}%
@@ -1094,7 +1094,7 @@
% scale -- but the axis limits can receive individual
% compensation scales. But it should "look reasonable well".
%
- % currently, we have
+ % currently, we have
% w = r_x e_xx + r_y e_yx + rz e_zx (with e_zx = 0 typically)
% h = r_x e_xy + r_y e_yy + rz e_zy
%
@@ -1103,7 +1103,7 @@
% they are either 1 (relative coords) or
% (xmax-xmin) (absolute coords).
%
- % Now, search for a set of real numbers
+ % Now, search for a set of real numbers
% Rx, Ry, Rz, s
% such that
% W = (Rx r_x) (s e_xx) + (Ry r_y) (s e_yx) + (Rz r_z) (s e_zx)
@@ -1124,7 +1124,7 @@
% bad: Rz will be less than 1, causing the limit to become
% smaller. This, in turn, will clip away parts of the image.
%
- %
+ %
%
% Another solution is to make it the other way: to keep the
% limit r_z, but to reduce the size and enlarge the other
@@ -1184,17 +1184,17 @@
% 1. if a choice requires to REDUCE the axis limits in order to
% fulfill all constraints, it is neglected (using maximal cost 16000).
% Reducing axis limits may clip away information.
-%
+%
% 2. if a choice requires to ENLARGE some axis limits, its cost is the
% sum of the individual scaling factors (even if they are are one -
% who cares).
%
% Note that this method *is* relevant and the optimization appears to
-% be necessary.
+% be necessary.
% Examples are
% unittest_scalemode_2d_standard_1.tex
% and perhaps
-% unittest_scalemode_2d_standard_0.tex
+% unittest_scalemode_2d_standard_0.tex
% and more involved 3d examples are also available.
%
% My first guess was that it is sufficient to decide the optimal
@@ -1202,7 +1202,7 @@
% height - but that proved to be insufficient: it leads to correct
% results, but wastes too much space (i.e. enlarges limits too much).
%
-% ATTENTION: the cost function INCLUDES RESULTS OF
+% ATTENTION: the cost function INCLUDES RESULTS OF
% \pgfplots@BB@for@plotbox@get@unit@scales@for@limits and its
% corrector
% \pgfplots@BB@for@plotbox@get@unit@scales@compensated@axis@limits.
@@ -1210,16 +1210,16 @@
% More precisely, it relies on already computes limit compensation
% factors which do not depend on the target width/target height: both
% \pgfplots@BB@for@plotbox@get@unit@scales@compensated@axis@limits and
-% this implementation of 'scale uniformly strategy' can be used to compute
+% this implementation of 'scale uniformly strategy' can be used to compute
% the cost of a strategy.
-%
+%
\def\pgfplots@get@scale@horiz@and@vert@scaleuniformly@of@optimal@strategy{%
\begingroup
\def\mathclass{default}%
\pgfplotscoordmath{\mathclass}{max limit}%
\let\pgfplots@cost@for@choice@superhigh=\pgfmathresult%
%
- % private helpers to compute the cost.
+ % private helpers to compute the cost.
\def\pgfplots@scalestrategy@compute@cost{%
\begingroup
% ATTENTION: this call changes
@@ -1324,7 +1324,7 @@
\def\pgfplots@tostring@scaleuniformlystrategy#1{%
% scale uniformly strategy:
- \ifcase#1\relax
+ \ifcase#1\relax
auto
\or
units only
@@ -1419,7 +1419,7 @@
% Computes 'scale uniformly strategy=change horizontal limits'.
% This is a complicated solution, see the documentation in the
-% implementation for
+% implementation for
% 'scale mode=scale uniformly'
%
% #1 [output] a macro which will contain the (uniform) scale for the
@@ -1471,7 +1471,7 @@
%
% This is the (most stupid) nonlinear method which is at hand:
% fix point iteration.
- % choose R arbitrarily (R=1 seems adequate), solve for s.
+ % choose R arbitrarily (R=1 seems adequate), solve for s.
% Then, fix s and solve for R. Then, fix R and
% solve for s until convergence.
\c@pgf@countc=0
@@ -1500,7 +1500,7 @@
}%
% Computes 'scale uniformly strategy=change horizontal limits'.
-%
+%
% This is a simplified closed solution assuming that e_xy=0 and e_yx = 0
%
% #1 [output] a macro which will contain the (uniform) scale for the
@@ -1510,7 +1510,7 @@
% #4 [output] a macro which will contain a x axis limit compensation scale
\def\pgfplots@scaleuniformly@change@horizontal@limits@twodim#1#2#3#4{%
\begingroup
- % Assuming that we have a standard 2d axis, i.e.
+ % Assuming that we have a standard 2d axis, i.e.
% e_zx = e_zy = 0, e_xy = 0, and e_yx =0,
% we can immediately compute a solution.
%
@@ -1529,7 +1529,7 @@
% since this strategy changes horizontal limits (only), we have
% Ry := 1.
% We find
- % s : = H/h
+ % s : = H/h
% and
% Rx : = W/w /s .
%
@@ -1583,7 +1583,7 @@
% This is part of the implementation of 'scale mode=scale uniformly'.
%
-% Its purpose it to set up the initial scaling such that
+% Its purpose it to set up the initial scaling such that
% 1. each unit vector gets the same scale
% 2. the axis limits are resized (enlarged) to keep the plot box ratio
% (as far as possible)
@@ -1727,7 +1727,7 @@
% EXECUTABLE instructions which will modify the axis limits to fit the
% scaling.
%
-% PRECONDITION:
+% PRECONDITION:
% - \pgfplots@glob@TMPa contains the already computed
% scaling factor for 'scale uniformly'
% - \pgf@xb is the actual height and \pgf@yb is the desired height
@@ -1739,7 +1739,7 @@
% 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.
+ % 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
@@ -1760,7 +1760,7 @@
%
% This strategy achieves this goal by
% modifying axis limits for an axis whose unit vector is
- % parallel to the canvas y axis, i.e. e_i = (0,*).
+ % parallel to the canvas y axis, i.e. e_i = (0,*).
%
% That means I have to introduce a SECOND scale s_z which
% applies only to the Z unit vector (since e_z = (0,*) ).
@@ -1771,13 +1771,13 @@
% =>
% s_z = ( H- s*r_x e_xy - s*r_y e_yy) / ( s * r_z * e_zy).
%
- % Remember that
+ % Remember that
% s = \scalex
% H = \H
% h = r_x * e_xy + r_y * e_yy + r_z * e_zy = \h
% =>
% s_z = ( H- s*( h - r_z * e_zy) ) / ( s * r_z * e_zy).
- %
+ %
\begingroup
\pgfplots@BB@for@plotbox@getunitheight{\pgf@xc}{#1}%
%
@@ -1925,7 +1925,7 @@
% \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}
@@ -1934,9 +1934,9 @@
% \addplot3[surf] {x};
% \end{axis}
% \end{tikzpicture}
-%
+%
% }
-%
+%
% \def\v{-30}
% \foreach \h in {30,120,210,300} {
% \message{VIEW={\h}{\v}^^J}
@@ -1945,16 +1945,16 @@
% \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
+ \begingroup
% temporarily undo the effects of reversed axes -- we *really*
% need a right-handed-coordinate system here:
\if r\pgfkeysvalueof{/pgfplots/x dir/value}%
@@ -1972,7 +1972,7 @@
% FIRST: check for special cases.
\let\pgfplots@view@dir@threedim=\pgfutil@empty%
% Special case:
- % e_xx = e_xy = 0
+ % e_xx = e_xy = 0
%
% i.e.:
%
@@ -1981,7 +1981,7 @@
% z | |
% |---|
% y->
- %
+ %
% In this case, N must be the x axis.
\ifdim\pgf@xx=0pt %
\ifdim\pgf@xy=0pt %
@@ -1989,7 +1989,7 @@
\fi
\fi
% Special case:
- % e_yx = e_yy = 0
+ % e_yx = e_yy = 0
%
% i.e.:
%
@@ -1998,7 +1998,7 @@
% z | |
% |---|
% x->
- %
+ %
% In this case, N must be the y axis.
\ifdim\pgf@yx=0pt %
\ifdim\pgf@yy=0pt %
@@ -2008,8 +2008,8 @@
% Special case:
% e_xy = e_yy = 0 (i.e. one row)
%
- % that is hard to draw, use view={30}{0} to see it.
- %
+ % that is hard to draw, use view={30}{0} to see it.
+ %
% In this case, N_z must be 0 and we have a different system.
\ifdim\pgf@xy=0pt %
\ifdim\pgf@yy=0pt %
@@ -2218,7 +2218,7 @@
% The axes 'x' and 'y' vectors will be scaled such that the total
% size is (\axisdefaultwidth, \axisdefaultheight).
%
- % If the user specifies ONE of width OR height,
+ % If the user specifies ONE of width OR height,
% the plot will be resized; keeping the aspect ratio.
%
\let\pgfplots@default@aspect@ratio=\pgfutil@empty
@@ -2248,7 +2248,7 @@
% H := 'height' option non-empty
%
% W H
- % 0 0 -> \axisdefaultwidth
+ % 0 0 -> \axisdefaultwidth
% 0 1 -> determine width out of H and the default aspect ratio
% 1 X -> ok, use the user parameter.
% -> KEEP ASPECT RATIO if just one W, or H is given!
@@ -2488,7 +2488,7 @@
\pgfplots@apply@unit@ratio@find@reference%
\fi
%
- % FIXME : I could spent some attention here to save work:
+ % 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).
@@ -2553,7 +2553,7 @@
% 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.
%
@@ -2627,7 +2627,7 @@
% 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
+ % instead, since I need the value
% max( 1-s_a, 1-s_b )
% anyway.
\def\pgfplots@ref@is@feasible{1}%
@@ -2671,16 +2671,16 @@
\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:
+ % 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.
@@ -2823,21 +2823,21 @@
% 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
+% - 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: we want to add an absolute component 'd'
% to the range:
-% 1/s (xmax - xmin ) = xmax - xmin +d
+% 1/s (xmax - xmin ) = xmax - xmin +d
% =>
% d = (1/s - 1) * (xmax - xmin)
%
% The only remaining thing to do is to distribute 'd' to 'xmax' and
% 'xmin'. Typically, 50% to each will be fine, I guess...
-%
+%
% #1: either x, y or z. It denotes the direction which has been
% modified.
% #2: the INVERSE of the scaling factor, #2 = 1/s .
@@ -2881,7 +2881,7 @@
\xdef\pgfplots@glob@TMPb{\pgf@sys@tonumber{\pgf@xa}}%
\xdef\pgfplots@glob@TMPc{\pgfplots@glob@TMPb}%
\else
- % unit rescale keep size=unless limits declared:
+ % unit rescale keep size=unless limits declared:
% do not scale - all limits are declared
% explicitly
\xdef\pgfplots@glob@TMPb{0.0}%
@@ -2905,7 +2905,7 @@
% #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
@@ -2927,13 +2927,13 @@
% 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 ||
+ % 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'!
+ % -> compute 's'!
%
% Part 1: compute
% #2 * ||e_ref|| / ||e_#1||.
@@ -2958,7 +2958,7 @@
{\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}
@@ -3004,7 +3004,7 @@
}
% helper for \pgfplots@check@and@apply@datatrafo@for.
-%
+%
\def\pgfplots@compute@number@order@for@trafo@isfloat#1\tocount#2{%
\pgfmathfloatparsenumber{#1}%
\expandafter\pgfmathfloat@decompose@E\pgfmathresult\relax#2\relax
@@ -3035,7 +3035,7 @@
% - the scaling transformation is set up,
\def\pgfplots@set@optimal@datatrafo@for@#1{%
\pgfplots@if{pgfplots@apply@datatrafo@#1}{%
- % initialise data scale transformation
+ % initialise data scale transformation
% T(x) = 10^{q-m} * x
%
\ifpgfplots@disabledatascaling
@@ -3148,16 +3148,16 @@
% Now, I introduce a loop which shall avoid cancellation of
% significant digits.
%
- % Harmless Example:
- % if we have data shift = -3 and
+ % 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
+ % max = 1980, min = 1930 then
% T(max) = 1.98 and T(min) = 1.93
- % and thus T(max)-T(min) = 0.05 .
+ % 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
@@ -3201,7 +3201,7 @@
% \fi
% \pgfplots@loop@CONTINUEfalse
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
\pgfutil@repeat
\xdef\pgfplots@glob@TMPa{\the\data@EXPONENT}%
\xdef\pgfplots@glob@TMPb{\pgfplots@min@fixed}%
@@ -3239,7 +3239,7 @@
%
% The strategy to fix the transformation is as follows:
% 1. we assume that axis limits will be enlarged in order to
- % satisfy 'scale uniformly'.
+ % satisfy 'scale uniformly'.
% 2. we assume that the LARGEST axis limit dominates the
% others.
% 3. if one of the axes does not have datascaling (i.e. is
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
index 6518b542006..6f2f127afde 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotscoordprocessing.code.tex
@@ -4,7 +4,7 @@
%
% 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.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -89,8 +89,8 @@
\else
\pgfplotspointbblowerleft
\fi}%
- {\pgfpointxy@orig{##1}{##2}}%
- %I use the '@orig' variant here because descriptions may
+ {\pgfpointxy@orig{##1}{##2}}%
+ %I use the '@orig' variant here because descriptions may
%\let\pgfpointxy=\pgfplotspointdescriptionxy
}%
}%
@@ -104,7 +104,7 @@
\else
\pgfplotspointbblowerleft
\fi}%
- {\pgfqpointxy@orig{##1}{##2}}%
+ {\pgfqpointxy@orig{##1}{##2}}%
}%
}%
\pgfplotspoint@initialisation@axes
@@ -131,7 +131,7 @@
}%
% Determine final axes this does also fix the axis' dimension.
-% There are the following cases:
+% 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!
@@ -141,9 +141,9 @@
%
% 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).
%
@@ -175,7 +175,7 @@
\pgfplots@ycoordminTEX=\pgf@y
%
%--------------------------------------------------
- % FIXME : WHAT IS THIS HERE FOR?
+ % 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}}%
@@ -197,7 +197,7 @@
% \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}%
@@ -293,7 +293,7 @@
% 2. Any other point coordinate should not be altered.
%
% Former versions installed a shift and changed e_x, e_y and
-% e_z. However, that was misleading as it disabled point 2).
+% e_z. However, that was misleading as it disabled point 2).
% So, my idea here is to replace \pgfpointxy and \pgfqpointxy
% such that they install the correct coordinate system before
% doing anything else.
@@ -323,7 +323,7 @@
% argument is omitted, the <default shift> will be used (0pt if this
% argument has been omitted as well).
%
-% \pgfplotspointticklabelcs#1#2:
+% \pgfplotspointticklabelcs#1#2:
% #1 is the axis (either x,y or z)
% #2 is the coordinate (either <relative coord> or <relative coord>,<shift>)
%
@@ -403,7 +403,7 @@
% component #1, #2 and #3. The results are directly communicated to
% \pgfplotsqpointxyz.
%
-% Expects #1, #2 and #3 to be numbers with units and issues a \pgfplotsqpointxyz
+% Expects #1, #2 and #3 to be numbers with units and issues a \pgfplotsqpointxyz
\def\pgfplotsqpointxyzabsolutesize#1#2#3{%
\begingroup
\pgf@xa=#1\relax
@@ -419,7 +419,7 @@
% Denotes a point in a twodimensional hyperplane. The hyperplane is
% one of the six planes of the threedimensional axis cube.
-%
+%
% The meaning of coordinates #1 and #2 will be redefined depending on
% which surface we are currently processing. You can get the axis
% names for '#1' (a) and '#2' (b) using the macros
@@ -456,7 +456,7 @@
\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
+% This is a shortcut for
% \pgfpointadd
% {\pgfplotspointonorientedsurfaceab{#1}{#2}}
% {<shift in B direction of #3>}
@@ -479,7 +479,7 @@
% This macro will be defined after
% \pgfplotspointonorientedsurfaceabsetupfor...
-% routines. It expands to a three-character string
+% routines. It expands to a three-character string
% where the first character contains information about the x axis,
% the second about the y axis and the third about the z axis.
%
@@ -518,7 +518,7 @@
% axis and 'b' is the y axis and the z coordinate has been fixed with
% \pgfplotspointonorientedsurfaceabsetupforsetz{}.
%
-% The Z value needs to be fixed with
+% The Z value needs to be fixed with
% \pgfplotspointonorientedsurfaceabsetupforsetz .
\def\pgfplotspointonorientedsurfaceabsetupfor@@xyz{%
\def\pgfplotspointonorientedsurfaceab##1##2{\pgfplotsqpointxyz{##1}{##2}{\pgfplotspointonorientedsurfaceabsetupfor@fixedz}}%
@@ -576,7 +576,7 @@
}%
% Fixes 'x' to #1 for use in
-% \pgfplotspointonorientedsurfaceabsetupfor zyx and
+% \pgfplotspointonorientedsurfaceabsetupfor zyx and
% \pgfplotspointonorientedsurfaceabsetupfor yzx.
%
% #1: The fixed value for 'x' (a coordinate in transformed range).
@@ -650,7 +650,7 @@
% the currently active oriented surface.
% #2 : the macro which will contain the output axis line specification
% (three-char-string).
-%
+%
% Example:
% \pgfplotspointonorientedsurfaceabsetupfor xyz
% \pgfplotspointonorientedsurfaceabsetupforsetz{<lower z limit>}{0}
@@ -721,8 +721,8 @@
% three-character-string '#1' is a foreground surface and code '#3' if
% the surface '#1' is a background surface.
%
-% #1: a three-char-string with the keys
-% 'v' = 'varying',
+% #1: a three-char-string with the keys
+% 'v' = 'varying',
% '0' = 'lower axis limit',
% '1' = 'upper axis limit'.
% The string 'v0v' means that x and z are varying in that surface
@@ -869,7 +869,7 @@
% This does only handle foreground/background issues; it has NOTHING
% to do with the actual checks if grid lines are active or not.
\def\pgfplots@ifgridlines@onorientedsurf@should@be@drawn#1#2{%
- % grid lines shall be drawn
+ % grid lines shall be drawn
% if and only if BOTH adjacent axis lines shall be drawn:
\pgfplots@ifaxisline@B@onorientedsurf@should@be@drawn@allaxislinevariations{0}{%
% remark: this is ALWAYS true for 2D plots.
@@ -910,7 +910,7 @@
% surface axis (which is called the 'b' axis).
% Thus, the following values for '#2' can be expected:
% - '' (empty) if the line is not on the surface,
-% - 'v' if the line IS on the surface, and '#1' contains a 'v'
+% - 'v' if the line IS on the surface, and '#1' contains a 'v'
% in direction of the surface's 'b' axis.
% - '0' if the line IS on the surface and '#1' contains a '0' in
% direction of the surface's 'b' axis,
@@ -961,7 +961,7 @@
\let#3=\pgfplots@loc@TMPa
}%
-% IMPLEMENTATION:
+% IMPLEMENTATION:
% The return value is 'yes, #1#2#3 is on the oriented surface #4#5#6'
% if and only if for all three character pairs, the following single
% relations hold.
@@ -970,7 +970,7 @@
% '0' : is either 0, a, b, v or 2 (i.e. NOT 1) FIXME : is the '2' correct here!?
% '1' : is either 1, a, b, v or 2 (i.e. NOT 0)
% '2' : is either 2, a, b, v (i.e. NOT 0 or 1)
-% That's all.
+% That's all.
%
% If the 'oriented surface char' is 'v', then we actually don't have
% an oriented surface but just a surface.
@@ -1049,7 +1049,7 @@
% Provides a point on an arbitrary axis (identified by a
% three-character-string) which can take any value on that axis and
-% which is shifted in the direction of the outer normal vector.
+% which is shifted in the direction of the outer normal vector.
%
% #1: a three-character-string denoting the desired axis
% #2: the coordinate on that axis (the coordinate for the 'v'
@@ -1078,9 +1078,9 @@
% A variant of \pgfplotsqpointoutsideofaxis with relative values for
% #2.
-% That means
-% '#2 = 0' === lower axis limit
-% and
+% That means
+% '#2 = 0' === lower axis limit
+% and
% '#2 = 1' === upper axis limit.
\def\pgfplotsqpointoutsideofaxisrel#1#2#3{%
\begingroup
@@ -1304,7 +1304,7 @@
%
% The idea is to return the same normal vector as if this would be a boxed axis.
% To this end, we have to access the "ticklabel axis spec"
- % which would have been used in this case.
+ % which would have been used in this case.
%
% We computed it at startup. Might be a hack ... :-(
\edef\pgfplots@loc@TMPb{\csname pgfplots@#1ticklabelaxisspec@box\endcsname}%
@@ -1466,7 +1466,7 @@
% }%
% \endgroup
% }%
-%--------------------------------------------------
+%--------------------------------------------------
% Helper method for \pgfplotsqpointoutsideofaxis and its variants.
% #1: an axis (x,y or z)
@@ -1508,7 +1508,7 @@
% coordinate directions.
%
% \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
@@ -1540,7 +1540,7 @@
% '#1#2#3':
\pgfqpointscale{\csname pgfplotsunit#2invlength\endcsname}{\csname pgfplotspointunit#2\endcsname}%
%
- \ifdim\pgf@x<0pt%
+ \ifdim\pgf@x<0pt%
% oh. upside down.
\pgfkeysvalueof{/pgfplots/sloped/execute for upside down}%
\ifpgfplots@sloped@allowupsidedown
@@ -1552,8 +1552,8 @@
\fi%
%
\pgf@ya=-\pgf@y%
- % set up rotation matrix
- % [ cos(alpha) sin(alpha);
+ % set up rotation matrix
+ % [ cos(alpha) sin(alpha);
% -sin(alpha) cos(alpha) ]
% where cos(alpha) = n_x and sin(alpha) = n_y:
\pgftransformcm%
@@ -1581,15 +1581,15 @@
%
\pgfdeclaregenericanchor{#3}{\pgfplots@borderanchor@for@axis{#1}{#2}{##1}}%
\pgfdeclaregenericanchor{#3 opposite}{\pgfplots@borderanchor@for@axis@{#1}{#2}{##1}{+1}}%
- %
+ %
% This variant will ALWAYS be placed on the boundary of the node.
% It is deprecated, I am keeping it for some time....
\pgfdeclaregenericanchor{#3*}{%
\csname pgf@anchor@##1@border\endcsname{%
\pgf@process{%
%
- % I want to rotate the node FIRST, then
- % I'd like to get the boundary anchor!
+ % I want to rotate the node FIRST, then
+ % I'd like to get the boundary anchor!
%
% My idea: apply the INVERSE transformation
% matrix, then compute the boundary anchor.
@@ -1676,7 +1676,7 @@
% we apply the inverse CM onto it here:
\pgf@pos@transform\pgf@x\pgf@y
\edef\pgfplots@tmp@normaldir{\global\pgf@x=\the\pgf@x\space\global\pgf@y=\the\pgf@y\space}%
- %
+ %
\pgfplots@borderanchor@snap@to@nearest@anchor{}% takes \pgf@x and \pgf@y
\let\pgfplots@anchor=\pgfplotsretval
%
@@ -1748,7 +1748,7 @@
\let\pgfplots@anchor@inner=\pgfplotsretval
%
%
- % verify that |n^T d |
+ % 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
@@ -1762,7 +1762,7 @@
{\pgf@sys@tonumber\pgf@xb}{\pgf@sys@tonumber\pgf@xa}%
{\pgf@sys@tonumber\pgf@yb}{\pgf@sys@tonumber\pgf@ya}%
}%
- %
+ %
% This here controls the anchor! Changing it might be more
% useful than I thought in the first place...
\pgf@sh@reanchor{#3}{\pgfplots@anchor@inner}%
@@ -1806,7 +1806,7 @@
% Now:
% auto-determine the canonical (north, north east etc) anchor
% at which the node touches the axis (remember: the axis is to
- % be found in direction of the normal vector).
+ % be found in direction of the normal vector).
%
% This is kind of a snap-to-nearest-existing-anchor feature. But
% it tends to move the node too far away. It is used as starting
@@ -1884,10 +1884,10 @@
\pgfplotsmathvectortostring{\pgfplots@view@dir@threedim}{default}%
\edef\normal{view = (\pgfplotsretval),^^J}%
\fi
- \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
+ \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
\normal
unit vector ratio=[\X\space\Y\space 1],^^J}%
\endgroup
@@ -1895,7 +1895,7 @@
% ==================================================================================
-%
+%
% COORDINATE MATH.
%
% ==================================================================================
@@ -1910,7 +1910,7 @@
% 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.
+% 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
@@ -1921,7 +1921,7 @@
% #2: methods to override the default.
%
% The available methods are documented and shown below in the
-% \pgfqkeys listing.
+% \pgfqkeys listing.
%
% @see the predefined examples, also shown below.
\def\pgfplotsdeclarecoordmath#1#2{%
@@ -2139,7 +2139,7 @@
set log basis/.code=
{\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ set log basis\endcsname##1{#1}},%
%
- % The inverse to 'log e '.
+ % The inverse to 'log e '.
exp e/.code=
{\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ exp e\endcsname##1{#1}},%
%
@@ -2162,7 +2162,7 @@
{\expandafter\def\csname pgfpmth\pgfplotsdeclarecoordmath@ datascaletrafo set shift\endcsname##1{%
#1\relax\pgfplotscoordmathnotifydatascalesetfor{\pgfplotscoordmathid}%
}},%
- %
+ %
% Defines \pgfmathresult to contain the two parameters in the form
% {#1}{#2} required for 'datascaletrafo set params':
% #1: the EXPONENT (as integer)
@@ -2333,7 +2333,7 @@
\else
% log basis a ---> log basis 10
%
- % log_a x = log x / log a
+ % 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
@@ -2352,7 +2352,7 @@
parsenumber={%
\pgfmathfloatparsenumber{#1}%
\expandafter\pgfmathfloatgetflagstomacro\expandafter{\pgfmathresult}\pgfplotsretval
- \ifnum\pgfplotsretval>2
+ \ifnum\pgfplotsretval>2
\let\pgfmathresult=\pgfutil@empty
\else
\pgfmathfloattofixed\pgfmathresult
@@ -2371,7 +2371,7 @@
}{},
parsenumber=\pgfmathfloatparsenumber{#1},
parse={%
- \begingroup
+ \begingroup
\pgfkeys{/pgf/fpu,%
/pgf/fpu/output format=float,%
}%
@@ -2563,7 +2563,7 @@
\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
@@ -2630,7 +2630,7 @@
%
% a macro used to initialise the point meta source when it is
% selected.
- % This macro body is invoked by pgfplots when someone types
+ % 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':
@@ -2657,7 +2657,7 @@
% - the other input coordinates are already read.
% POSTCONDITION for '@assign':
% - \pgfplots@current@point@meta is ready for use:
- % - EITHER a parsed floating point number
+ % - EITHER a parsed floating point number
% - OR an empty string,
% - OR a symbolic string (if the issymbolic boolean is true)
% The default implementation is
@@ -2822,9 +2822,9 @@
% Internal stream methods.
%
-% Please overwrite
+% Please overwrite
% - \pgfplots@coord@stream@start@,
-% - \pgfplots@coord@stream@end@ and
+% - \pgfplots@coord@stream@end@ and
% - \pgfplots@coord@stream@coord@
% if you implement streams.
%
@@ -2934,8 +2934,8 @@
% 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
+% Now, \pgfplotsscanlinelength expands to either
+% a) a negative number in which case there is no
% unique scanline length.
% More precisely, -1 means "there was no end-of-scanline marker"
% -2 means "there where end-of-scanline markers, but the scanlines
@@ -2972,7 +2972,7 @@
\newif\ifpgfplots@emptyline@compat
-% Invoked for 'empty line=auto'.
+% Invoked for 'empty line=auto'.
%
% @POSTCONDITION: '/pgfplots/empty line' is set to something useful
% (not auto)
@@ -3011,7 +3011,7 @@
\def\pgfplotsscanlinelength@scanline@complete{%
\ifnum\pgfplots@scanlinelength>0
\ifnum\c@pgfplots@scanlineindex=0
- %
+ %
% \pgfplotsscanlinecomplete
% \pgfplotsscanlinecomplete
% \pgfplotsscanlinecomplete
@@ -3050,7 +3050,7 @@
% -------------------------------------------------------------------------------
%
% empty line=none class:
-%
+%
\let\pgfplotsscanlinelength@none@initzero=\pgfutil@empty
\let\pgfplotsscanlinelength@none@increase=\relax
\let\pgfplotsscanlinelength@none@complete=\relax
@@ -3061,7 +3061,9 @@
\def\pgfplotsscanlinelength@nan@initzero{%
\def\pgfplotsscanlinelength@nan@isfirst{1}%
\let\pgfplotsscanlinelength@nan@pendingwork=\relax
- \pgfplotsifinaxis{}{\let\pgfplotsaxisserializedatapoint=\relax}%
+ \pgfplotsifinplot{}{%
+ \let\pgfplotsaxisserializedatapoint=\relax
+ }%
}%
\def\pgfplotsscanlinelength@nan@increase{%
\def\pgfplotsscanlinelength@nan@isfirst{0}%
@@ -3070,33 +3072,38 @@
\def\pgfplotsscanlinelength@nan@complete{%
\if1\pgfplotsscanlinelength@nan@isfirst
\else
- \def\pgfplotsscanlinelength@nan@pendingwork{%
- \ifpgfplots@LUA@backend@supported
- \pgfplotsutil@directlua{pgfplots.texSurveyAddJump()}%
- \else
- % 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
- \fi
- %
+ \pgfplotsifinplot{%
+ \let\pgfplotsscanlinelength@nan@pendingwork=\pgfplotsscanlinelength@nan@pendingwork@PREPARED
+ }{%
\let\pgfplotsscanlinelength@nan@pendingwork=\relax
}%
\fi
\def\pgfplotsscanlinelength@nan@isfirst{1}%
}%
\let\pgfplotsscanlinelength@nan@cleanup=\relax
-%
+\def\pgfplotsscanlinelength@nan@pendingwork@PREPARED{%
+ \ifpgfplots@LUA@backend@supported
+ \pgfplotsutil@directlua{pgfplots.texSurveyAddJump()}%
+ \else
+ % 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
+ \fi
+ %
+ \let\pgfplotsscanlinelength@nan@pendingwork=\relax
+}%
+%
% -------------------------------------------------------------------------------
@@ -3105,7 +3112,21 @@
\def\pgfplotsaxisplothasunboundedpointmeta{0}%
\newif\ifpgfplotsaxisparsecoordinateok
-% Initialises
+% Possibly values:
+% N = none, is not in \addplot
+% S = survey
+% V = visualization
+\def\pgfplotsaxisplotphase{N}
+
+\def\pgfplotsifinplot#1#2{%
+ \if\pgfplotsaxisplotphase N%
+ #2%
+ \else
+ #1%
+ \fi
+}%
+
+% Initialises
% \pgfplots@coord@stream@start
% \pgfplots@coord@stream@coord
% \pgfplots@coord@stream@end
@@ -3184,12 +3205,12 @@
\begingroup
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\let\E=\noexpand
- %
+ %
%\message{Assembled update-limits \ifpgfplots@curplot@threedim 3D\else 2D\fi macro to {\meaning\pgfplotsaxisupdatelimitsforcoordinate}}%
\ifpgfplots@bb@isactive
\else
- % we are inside of
- % \pgfplotsinterruptdatabb
+ % we are inside of
+ % \pgfplotsinterruptdatabb
% ..
% \endpgfinterruptboundingbox
% -> don't change data limits!
@@ -3228,17 +3249,17 @@
%
% A data point might be a complicated thing which contains
% multiple coordinates. You need to invoke
- % \pgfplotsaxisparsecoordinate and
+ % \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,
+ % - stacked plot things,
% - error bars,
% - xtick=data
% are all processed.
@@ -3298,7 +3319,7 @@
\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)
- has been dropped because
+ has been dropped because
\E\ifx\E\pgfplots@unbounded@dir\E\pgfutil@empty
of a coordinate filter.
\E\else
@@ -3340,7 +3361,7 @@
%
%\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@
\def\pgfplots@coord@stream@coord@{%
\def\pgfplots@set@perpointmeta@done{0}%
@@ -3467,7 +3488,7 @@
\endgroup
}%
% This is the \pgfplots@coord@stream@end@ routine which is invoked by
-% \pgfplots@PREPARE@COORD@STREAM.
+% \pgfplots@PREPARE@COORD@STREAM.
%
% It finalizes the first pass through the input coordinates and
% remembers the preprocessed \addplot command.
@@ -3575,14 +3596,14 @@
\ifpgfplots@LUA@backend@supported
\noexpand\pgfplots@LUA@backend@supportedtrue
\pgfplots@LUA@backend@serialized@commands
- \else
+ \else
\noexpand\pgfplots@LUA@backend@supportedfalse
\fi
- \noexpand\def\noexpand\plotnum{\the\pgfplots@numplots}%
+ \noexpand\def\noexpand\plotnum{\plotnum}%
%
% store \plotnumofactualtype
\noexpand\def\noexpand\plotnumofactualtype{\plotnumofactualtype}%
- % ... and make sure that it
+ % ... and make sure that it
% remains the same type even if some plot handler uses
% other plot handlers internally:
\noexpand\def\noexpand\pgfplotsplothandlername@actual{\pgfplotsplothandlername@actual}%
@@ -3679,7 +3700,7 @@
\pgfkeysgetvalue{/pgfplots/#1 filter/.@cmd}\pgfplots@loc@TMPc
\ifx\pgfplots@loc@TMPc\pgfplots@empty@command@key
\let\pgfplotsretval=\pgfutil@empty
- \else
+ \else
\pgfplots@ifisfilterexpression{#1 filter}{%
\pgfkeysgetvalue{/pgfplots/#1 filter/@expressionvalue}\pgfplotsretval
\expandafter\pgfplotsutilifcontainsmacro\expandafter{\pgfplotsretval}{%
@@ -3751,11 +3772,10 @@
\if m\pgfplots@colormap@access
\else
\if c\pgfplots@colormap@access
- \pgfplots@LUA@survey@log@deactivation{color map access=piecewise constant not supported (yet)}%
\else
\pgfplots@LUA@survey@log@deactivation{color map access=direct not supported (yet)}%
+ \pgfplots@LUA@backend@supportedfalse
\fi
- \pgfplots@LUA@backend@supportedfalse
\fi
\pgfplotscolormapifisuniform{\pgfkeysvalueof{/pgfplots/colormap name}}{%
}{%
@@ -3764,6 +3784,14 @@
\pgfplots@LUA@backend@supportedfalse
}%
%
+ \ifpgfplots@curplot@threedim
+ \else
+ \ifpgfplots@threedim
+ \pgfplots@LUA@survey@log@deactivation{2d plots in 3d axis currently unsupported}%
+ \pgfplots@LUA@backend@supportedfalse
+ \fi
+ \fi
+ %
\ifpgfplots@LUA@backend@supported
\edef\pgfplots@LUA@backend@plotnum{\pgfutil@directlua{tex.sprint(\pgfplotsHASH pgfplots.gca.plothandlers)}}%
\begingroup
@@ -3859,15 +3887,27 @@
% Otherwise we would have nothing here.
% FIXME : what about \pgfplots@LUA@backend@failed in this context!?
\pgfplots@log{\pgfplots@LUA@loglevel@info}{Using 'lua backend=false' for visualization of plot \the\pgfplots@numplots\space (type '\pgfplotsplothandlername'): it has no LUA visualizer.}%
- \expandafter\def\expandafter\pgfplots@stored@current@data\expandafter{%
+ % NOTE:
+ % I use two levels of \expandafter here because 'lua debug =trace'
+ % introduces another level of expansion. And I do not
+ % want to use \edef... silly, perhaps..?
+ \expandafter\expandafter\expandafter\def
+ \expandafter\expandafter\expandafter\pgfplots@stored@current@data
+ \expandafter\expandafter\expandafter{%
\pgfplotsutil@directlua{pgfplots.texGetSurveyedCoordsToPgfplots()}%
}%
\else
% visualize using LUA! ... and acquire the coordinates.
- \expandafter\def\expandafter\pgfplots@stored@current@data\expandafter{%
+ % NOTE:
+ % I use two levels of \expandafter here because 'lua debug =trace'
+ % introduces another level of expansion. And I do not
+ % want to use \edef... silly, perhaps..?
+ \expandafter\expandafter\expandafter\def
+ \expandafter\expandafter\expandafter\pgfplots@stored@current@data
+ \expandafter\expandafter\expandafter{%
\pgfplotsutil@directlua{pgfplots.texVisualizePlot(\pgfplotsplothandlerLUAvisualizerfactory)}%
}%
-%\message{plot \plotnum: LUA backend returned \pgfplots@stored@current@data^^J}%
+%\message{plot \plotnum: LUA backend returned \meaning\pgfplots@stored@current@data^^J}%
%
% ... and ensure that the resulting
% \pgfplots@stored@current@data can be deserialized. It
@@ -4009,14 +4049,14 @@
% \pgfplotsaxistransformcs.
% #1: the source coordinate system
% #2: the target coordinate system
-% #3: the transformation code.
+% #3: the transformation code.
%
% @see \pgfplotsaxistransformcs for what #3 should do.
%
% 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}%
}%
@@ -4145,9 +4185,9 @@
% 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
+% - the macros
% \pgfplotsaxisserializedatapoint@private
% \pgfplotsaxisdeserializedatapointfrom@private
% are known and valid.
@@ -4160,7 +4200,7 @@
% \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
@@ -4176,7 +4216,7 @@
%
% prepare
% \t@pgfplots@tokc={<\macro1><\macro2><\macro3>...}
- \t@pgfplots@tokc={}%
+ \t@pgfplots@tokc={}%
\expandafter\pgfplotsutilforeachcommasep\expandafter{\pgfplots@loc@TMPa}\as\pgfplots@loc@TMPa{%
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
@@ -4224,7 +4264,7 @@
\escapechar=-1
\xdef\pgfplots@glob@TMPa{\string##1}%
\endgroup
- \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
+ \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
\begingroup
\t@pgfplots@toka={##1}%
\pgfplotsthrow{invalid argument}
@@ -4246,7 +4286,7 @@
\escapechar=-1
\xdef\pgfplots@glob@TMPa{\string#1}%
\endgroup
- \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
+ \pgfutil@ifundefined{\pgfplots@glob@TMPa}{%
\begingroup
\t@pgfplots@toka={#1}%
\pgfplotsthrow{invalid argument}
@@ -4267,7 +4307,7 @@
\t@pgfplots@tokc=\expandafter{\the\t@pgfplots@tokc\csname assign@\string#2\endcsname}%
}%
-% task: define a macro '\csname assign@\string#2\endcsname' which, when executed,
+% task: define a macro '\csname assign@\string#2\endcsname' which, when executed,
% defines \csname\string#2@value\endcsname such that it expands
% to a the correct value.
\def\pgfplots@prepare@visualization@depends@on@preparetype#1\as#2{%
@@ -4307,9 +4347,9 @@
% ok, prepare the value.
\def\pgfplots@loc@TMPb{#2}%
\ifx\pgfplots@loc@TMPa\pgfplots@loc@TMPb
- % oh - a special case! We have value\macro\as\macro.
+ % oh - a special case! We have value\macro\as\macro.
\expandafter\def\csname\string#2@value\endcsname{#2}%
- %
+ %
% this is special; we do not need to EXECUTE assign@\string#2 to arrive at its value.
% But we need to define #2@value as that will be stored.
\expandafter\let\csname assign@\string#2\endcsname=\relax
@@ -4345,7 +4385,7 @@
% \pgfplots@PREPARE@COORD@STREAM@end@.
%
% POSTCONDITION:
-% assigns '/pgfplots/#1 coord sorting=[+-]'
+% 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{%
@@ -4365,7 +4405,7 @@
%
% The trafo is expected to prepare meta information before it is used
% as input to \pgfplotscolormapaccess (or
-% \pgfplotscolormapdefinemappedcolor). Thus, the 10^k is chosen to be
+% \pgfplotscolormapdefinemappedcolor). Thus, the 10^k is chosen to be
% the same as \pgfplotscolormaprange (which is 1000 per default).
%
% If there is no data range (for example because meta information is
@@ -4511,7 +4551,7 @@
\def\pgfplotspointmetatransformed{1000}% use the maximum because it is usually divided by 1000
% 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.
%
@@ -4542,7 +4582,7 @@
its value is empty. %
\if1\csname pgfpmeta@\pgfplotspointmetainputhandler @explicitinput\endcsname%
\pgfplots@addplot@point@meta@description@of@explicit@value
- \else
+ \else
Please ensure that the value exists and is not empty
\fi
}%
@@ -4574,7 +4614,7 @@
% call \pgfplots@coord@stream@coord
% \pgfplots@coord@stream@end
%
-% #1 a sequence of coordinates of the form
+% #1 a sequence of coordinates of the form
% '(x,y)' or '(x,y,z)'
% or
% '(x,y[,z]) +- (ex,ey)'
@@ -4875,7 +4915,7 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
%
% A coordinate stream which works like this:
-%
+%
% -------------
% \pgfplots@coord@stream@start
%
@@ -4918,7 +4958,7 @@
% 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.
%
@@ -4933,11 +4973,12 @@
% - 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
+% They are stored into
% \pgfplots@addplot@survey@@optionlist.
-%
+%
\def\pgfplots@start@plot@with@behavioroptions#1{%
%\begingroup%<-- has been moved to \pgfplots@addplotimpl@plot@withoptions
+ \def\pgfplotsaxisplotphase{S}% "in survey"
\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
@@ -4967,7 +5008,7 @@
\fi
%
% make sure it is reset, just in case it is not supported by the
- % input method.
+ % input method.
\pgfplotsscanlinelengthinitzero
%
\pgfplots@getcurrent@plothandler\pgfplots@basiclevel@plothandler
@@ -5072,12 +5113,12 @@
% The main interface to draw a plot into an axis.
%
% Usage:
-% \addplot
+% \addplot
% plot coordinates {
% (0,0)
% (1,1)
% };
-%
+%
% or
%
% \addplot[color=blue,mark=*]
@@ -5087,14 +5128,14 @@
% };
%
% or one of the other input types.
-%
+%
% The first syntax will use the next plot specification in the list
% \autoplotspeclist
-% and the first will use blue color and * markers.
+% and the first will use blue color and * markers.
%
% \addplot [<style options>] plot[<behavior options>] <input type and args> <post plot path> ;
% \addplot3[<style options>] plot[<behavior options>] <input type and args> <post plot path> ;
-%
+%
% The complete accumulation is done GLOBALLY. It should be safe to put
% '\addplot' into local groups.
%
@@ -5103,7 +5144,7 @@
%
% Low-level implementation:
%
-% \pgfplots@addplot
+% \pgfplots@addplot
% \pgfplots@addplotimpl
% \pgfplots@start@plot@with@behavioroptions <--- \begingroup
% ...
@@ -5132,7 +5173,7 @@
}{%
\pgfplots@getautoplotspec into\nextplotspec
% the space after ']' is required here:
- % FIXME:
+ % FIXME:
% - \addplot[]plot coordinates is NOT allowed!?
\expandafter\pgfplots@addplotimpl\expandafter[\nextplotspec]%
}%
@@ -5164,7 +5205,7 @@
\begingroup% <-- This groups ends in \pgfplots@end@plot
%
\pgfplotsutil@ifnextchar c{%
- \pgfplots@addplotimpl@coordinates{#1}{#2}plot
+ \pgfplots@addplotimpl@coordinates{#1}{#2}plot
}{%
\pgfplotsutil@ifnextchar f{%
\pgfplots@addplotimpl@f{#1}{#2}%
@@ -5230,7 +5271,7 @@
\long\def\pgfplots@addplotimpl@fillbetween@opt@#1#2#3#4{%
\pgfkeysifdefined{/tikz/fill between/of/.@cmd}{%
\pgfplotslibraryfillbetween@addplot{#1,#2}{#3}{#4}%
- }{%
+ }{%
\pgfplotsthrow{invalid argument}
{\pgfplots@loc@TMPa}%
{Please load \string\usepgfplotslibrary{fillbetween} in order to use `\string\addplot\space fill between'.}%
@@ -5244,7 +5285,7 @@
% PRECONDITION:
% the key-value sets have all been set in the current scope.
-%
+%
% POSTCONDITION:
% 1. the following macros are initialised and sanitized:
% \pgfplots@plot@domain
@@ -5259,9 +5300,9 @@
% /pgfplots/mesh/rows
% /pgfplots/mesh/cols
% /pgfplots/samples y (will contain a value )
-% 3. the macro
-% \b@pgfplots@should@sample@LINE
-% will be
+% 3. the macro
+% \b@pgfplots@should@sample@LINE
+% will be
% \def\b@pgfplots@should@sample@LINE{1}
% if the expression plotter should sample a line
% and
@@ -5272,7 +5313,7 @@
\pgfkeysgetvalue{/pgfplots/samples y}\pgfplots@plot@samples@y
\pgfkeysgetvalue{/pgfplots/samples at}\pgfplots@plot@samples@at
\pgfkeysgetvalue{/pgfplots/variable y}\pgfplots@plot@var@y
- %
+ %
\ifx\pgfplots@plot@samples@y\pgfutil@empty
\else
\pgfplotscoordmath{default}{parse int}{\pgfplots@plot@samples@y}%
@@ -5306,7 +5347,7 @@
\fi
%
% 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
@@ -5444,6 +5485,25 @@
\def\pgfplots@addplotimpl@expression@hasuniform@y{0}%
%
%
+ %
+ % if(
+ % x is logarithmic &&
+ % #1 == '\x' &&
+ % the 'samples at' key has not been used )
+ % -> sample logarithmically!
+ \def\pgfplots@samples@logarithmically@x{0}%
+ \ifpgfplots@xislinear
+ \else
+ \if\pgfplots@addplotimpl@expression@hasuniform@x1%
+ \ifx\pgfplots@plot@samples@at\pgfutil@empty
+ % we don't have 'samples at' -> use domain!
+ \def\pgfplots@samples@logarithmically@x{1}%
+ \fi
+ \fi
+ \fi
+ %
+ \def\pgfplots@samples@logarithmically@y{0}%
+ %
% Now, prepare the loops.
%
% I am using \pgfplotsforeachungrouped in favor of
@@ -5460,15 +5520,6 @@
}%
\pgfplots@addplotimpl@expression@split@yz#2\pgfplots@EOI%
%
- \ifx\pgfplots@plot@samples@at\pgfutil@empty
- % we don't have 'samples at' -> use domain!
- \expandafter\pgfplots@domain@to@foreach\pgfplots@plot@domain\relax{\pgfplots@plot@samples}%
- \let\pgfplots@expression@xdomain=\pgfplotsretval
- \else
- % use 'samples at':
- \let\pgfplots@expression@xdomain=\pgfplots@plot@samples@at
- \fi
- %
% do we have '\y' as y coordinate?
\expandafter\def\expandafter\pgfplots@loc@TMPb\expandafter{\pgfplots@plot@var@y}%
\ifx\pgfplots@addplotimpl@expression@yEXPR\pgfplots@loc@TMPb
@@ -5487,37 +5538,137 @@
\fi
\fi
%
+ \ifpgfplots@yislinear
+ \else
+ \if\pgfplots@addplotimpl@expression@hasuniform@y1%
+ \def\pgfplots@samples@logarithmically@y{1}%
+ \fi
+ \fi
+ %
+ \ifpgfplots@threedim@log@sampling
+ \else
+ \def\pgfplots@samples@logarithmically@x{0}%
+ \def\pgfplots@samples@logarithmically@y{0}%
+ \fi
+ %
+ \if\pgfplots@samples@logarithmically@x1%
+ \else
+ \ifx\pgfplots@plot@samples@at\pgfutil@empty
+ % we don't have 'samples at' -> use domain!
+ \expandafter\pgfplots@domain@to@foreach\pgfplots@plot@domain\relax{\pgfplots@plot@samples}%
+ \let\pgfplots@expression@xdomain=\pgfplotsretval
+ \else
+ % use 'samples at':
+ \let\pgfplots@expression@xdomain=\pgfplots@plot@samples@at
+ \fi
+ \fi
+ %
+ \if\pgfplots@samples@logarithmically@x1%
+ \if\pgfplots@samples@logarithmically@y1%
+ \pgfplots@warning{Sorry, 3d log sampling in BOTH x and y is not implemented yet}%
+ \def\pgfplots@samples@logarithmically@y{0}%
+ \fi
+ \fi
%
\if0\b@pgfplots@should@sample@LINE
% Samples twodimensionally (a lattice):
- \expandafter\pgfplots@domain@to@foreach\pgfplots@plot@ydomain\relax{\pgfplots@plot@samples@y}%
- \let\pgfplots@expression@ydomain=\pgfplotsretval
+ \if\pgfplots@samples@logarithmically@y0%
+ \expandafter\pgfplots@domain@to@foreach\pgfplots@plot@ydomain\relax{\pgfplots@plot@samples@y}%
+ \let\pgfplots@expression@ydomain=\pgfplotsretval
+ \fi
%
- % Assemble a
- % \pgfplots@plot@data##1 ->
- % \foreach \y in {-5,-4.6,...,5} {##1};
- % \foreach \x in {-5,-4.6,...,5}
+ % Assemble a
+ % \pgfplots@plot@data##1 ->
+ % \foreach \y in {-5,-4.6,...,5} {##1};
+ % \foreach \x in {-5,-4.6,...,5}
% macro:
- \edef\pgfplots@plot@data##1{%
- \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\pgfplots@plot@var@y in {\pgfplots@expression@ydomain}
- {%
- \pgfplots@plot@data@notify@next@y
- \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {%
- \pgfplots@plot@data@notify@next@x
- ##1%
+ \if\pgfplots@samples@logarithmically@x0%
+ \if\pgfplots@samples@logarithmically@y0%
+ % standard case: no log sampling.
+ \edef\pgfplots@plot@data##1{%
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\pgfplots@plot@var@y in {\pgfplots@expression@ydomain}
+ {%
+ \pgfplots@plot@data@notify@next@y
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {%
+ \pgfplots@plot@data@notify@next@x
+ ##1%
+ }%
+ \noexpand\pgfplotsplothandlernotifyscanlinecomplete
+ }%
}%
- \noexpand\pgfplotsplothandlernotifyscanlinecomplete
- }%
- }%
+ \fi
+ \fi
+ \if\pgfplots@samples@logarithmically@x1%
+ \if\pgfplots@samples@logarithmically@y0%
+ % sample logarithmically in X:
+ \edef\pgfplots@plot@data##1{%
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\pgfplots@plot@var@y in {\pgfplots@expression@ydomain}
+ {%
+ \pgfplots@plot@data@notify@next@y
+ %
+ \noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples][x]
+ \expandafter\noexpand\tikz@plot@var/\noexpand\pgfplots@current@point@x@log
+ in {\pgfplots@plot@domain}%
+ {%
+ \pgfplots@plot@data@notify@next@x
+ ##1%
+ }%
+ \noexpand\pgfplotsplothandlernotifyscanlinecomplete
+ }%
+ }%
+ \fi
+ \fi
+ \if\pgfplots@samples@logarithmically@x0%
+ \if\pgfplots@samples@logarithmically@y1%
+ % sample logarithmically in Y:
+ \edef\pgfplots@plot@data##1{%
+ \noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples@y][y]
+ \expandafter\noexpand\pgfplots@plot@var@y/\noexpand\pgfplots@current@point@y@log
+ in {\pgfplots@plot@ydomain}%
+ {%
+ \pgfplots@plot@data@notify@next@y
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {%
+ \pgfplots@plot@data@notify@next@x
+ ##1%
+ }%
+ \noexpand\pgfplotsplothandlernotifyscanlinecomplete
+ }%
+ }%
+ \fi
+ \fi
+ \if\pgfplots@samples@logarithmically@x1%
+ \if\pgfplots@samples@logarithmically@y1%
+ % sample logarithmically in X and Y:
+ % FIXME : IMPLEMENT!
+ % FIXME : implementation UNFINISHED: also support log
+ % sampling in BOTH 'x' 'y'!
+ % requires to solve FIXME in \pgfplotsforeachlogarithmicungrouped)
+ % -> also adopt unittest_log_sampling_3d.tex
+ %
+ \fi
+ \fi
\else
% sample a line:
\def\pgfplots@plot@ydomain{0:0}%
- \edef\pgfplots@plot@data##1{%
- \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {%
- \pgfplots@plot@data@notify@next@x
- ##1%
+ \if\pgfplots@samples@logarithmically@x1%
+ % sample logarithmically:
+ \edef\pgfplots@plot@data##1{%
+ \noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples][x]
+ \expandafter\noexpand\tikz@plot@var/\noexpand\pgfplots@current@point@x@log
+ in {\pgfplots@plot@domain}%
+ {%
+ \pgfplots@plot@data@notify@next@x
+ ##1%
+ }%
}%
- }%
+ \else
+ \edef\pgfplots@plot@data##1{%
+ \noexpand\pgfplotsforeachungrouped\expandafter\noexpand\tikz@plot@var in {\pgfplots@expression@xdomain} {%
+ \pgfplots@plot@data@notify@next@x
+ ##1%
+ }%
+ }%
+ \fi
%
% If we have (\x,\y,f(x)), use (\x,0,f(x)) instead and
% suppress the error message which would occur for \y.
@@ -5529,57 +5680,19 @@
\fi
\fi
\else
- % Assemble a
+ % Assemble a
% \pgfplots@plot@data##1 -> \foreach \x in {-5,-4.6,...,5} {##1} macro:
- %
- %
- % if(
- % x is logarithmic &&
- % #1 == '\x' &&
- % the 'samples at' key has not been used )
- % -> sample logarithmically!
- \def\pgfplots@samples@logarithmically{0}%
- \ifpgfplots@xislinear
- \else
- \if\pgfplots@addplotimpl@expression@hasuniform@x1%
- \ifx\pgfplots@plot@samples@at\pgfutil@empty
- % we don't have 'samples at' -> use domain!
- \def\pgfplots@samples@logarithmically{1}%
- \fi
- \fi
- \fi
- \if\pgfplots@samples@logarithmically1%
- \def\pgfplotsforeachlogarithmicmathid{x}% use \pgfplotscoordmath{x}
+ \if\pgfplots@samples@logarithmically@x1%
% sample logarithmically:
\edef\pgfplots@plot@data##1{%
- \noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples]
- \expandafter\noexpand\tikz@plot@var/\noexpand\pgfplots@current@point@x@log
+ \noexpand\pgfplotsforeachlogarithmicungrouped[\pgfplots@plot@samples][x]
+ \expandafter\noexpand\tikz@plot@var/\noexpand\pgfplots@current@point@x@log
in {\pgfplots@plot@domain}%
{%
\pgfplots@plot@data@notify@next@x
##1%
}%
}%
- % we have a logarithmic sampling sequence,
- % \pgfplots@current@point@x@log is already available
- % logarithmic! We can safe time and accuracy for the x
- % coordinate by using that one instead of computing
- % log(exp(\x)) numerically:
- \pgfplots@disablelogfilter@xtrue
- \def\pgfplots@addplotimpl@expression@prepare@x{%
- \let\pgfplots@current@point@x=\pgfplots@current@point@x@log
- }%
- \pgflibraryfpuifactive
- {\relax}
- {%
- % ok, if the FPU is NOT active, we should return
- % results as fixed points.
- % We need to configure that for
- % \pgfplotsforeachlogarithmicungrouped manually:
- \pgfplotsforeachlogarithmicformatresultwith{%
- \pgfmathfloattofixed{\pgfmathresult}%
- }%
- }%
\else
\ifx\pgfplots@plot@samples@at\pgfutil@empty
% we don't have 'samples at' -> use domain!
@@ -5604,6 +5717,50 @@
\fi
%
%
+ \if\pgfplots@samples@logarithmically@x1%
+ % we have a logarithmic sampling sequence,
+ % \pgfplots@current@point@x@log is already available
+ % logarithmic! We can safe time and accuracy for the x
+ % coordinate by using that one instead of computing
+ % log(exp(\x)) numerically:
+ \pgfplots@disablelogfilter@xtrue
+ \def\pgfplots@addplotimpl@expression@prepare@x{%
+ \let\pgfplots@current@point@x=\pgfplots@current@point@x@log
+ }%
+ \pgflibraryfpuifactive
+ {\relax}
+ {%
+ % ok, if the FPU is NOT active, we should return
+ % results as fixed points.
+ % We need to configure that for
+ % \pgfplotsforeachlogarithmicungrouped manually:
+ \pgfplotsforeachlogarithmicformatresultwith{%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ }%
+ }%
+ \fi
+ \if\pgfplots@samples@logarithmically@y1%
+ % we have a logarithmic sampling sequence,
+ % \pgfplots@current@point@y@log is already available
+ % logarithmic! We can safe time and accuracy for the y
+ % coordinate by using that one instead of computing
+ % log(exp(\y)) numerically:
+ \pgfplots@disablelogfilter@ytrue
+ \def\pgfplots@addplotimpl@expression@prepare@y{%
+ \let\pgfplots@current@point@y=\pgfplots@current@point@y@log
+ }%
+ \pgflibraryfpuifactive
+ {\relax}
+ {%
+ % ok, if the FPU is NOT active, we should return
+ % results as fixed points.
+ % We need to configure that for
+ % \pgfplotsforeachlogarithmicungrouped manually:
+ \pgfplotsforeachlogarithmicformatresultwith{%
+ \pgfmathfloattofixed{\pgfmathresult}%
+ }%
+ }%
+ \fi
% START:
% (NOTE: this does also define 'x', 'y', and 'z' math
% expressions!)
@@ -5724,7 +5881,7 @@
\expandafter\let\csname #3@max\endcsname=\pgfmathresult%
}%
\def\pgfplots@addplotimpl@expression@streamall{%
- % create a backup of the 'x' and 'y' math expressions which
+ % create a backup of the 'x' and 'y' math expressions which
% have been defined in \pgfplots@coord@stream@start:
\let\pgfplots@addplotimpl@expression@pseudoconst@old@x=\pgfmathx@
\let\pgfplots@addplotimpl@expression@pseudoconst@old@y=\pgfmathy@
@@ -5758,7 +5915,7 @@
% 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
@@ -5918,7 +6075,7 @@
\let\pgfplots@backupof@pgfplotxyfile=\pgfplotxyfile
-% the following code
+% the following code
% results finally in
%
% set format "%.7e";; set samples <...>; plot ...
@@ -5973,7 +6130,7 @@
\ifx\pgfplots@gnuplot@dummy\pgfutil@empty
\else
\expandafter\pgfutil@in@\expandafter,\expandafter{\pgfplots@gnuplot@dummy}%
- \ifpgfutil@in@
+ \ifpgfutil@in@
\def\pgfplots@loc@TMPa##1,##2\pgfeov{\pgfplotsset{variable={##1},variable y={##2}}}%
\else
\def\pgfplots@loc@TMPa##1\pgfeov{\pgfplotsset{variable={##1}}}%
@@ -6034,10 +6191,10 @@
set dummy \pgfplots@gnuplot@x\if0\b@pgfplots@should@sample@LINE,\pgfplots@gnuplot@y\fi;
\ifx\pgfplots@gnuplot@logdirs\pgfutil@empty
\else
- set logscale \pgfplots@gnuplot@logdirs\space 2.71828182845905;
+ set logscale \pgfplots@gnuplot@logdirs\space 2.71828182845905;
\fi
\iftikz@plot@parametric set parametric;\fi
- \ifpgfplots@curplot@threedim
+ \ifpgfplots@curplot@threedim
\if0\b@pgfplots@should@sample@LINE
% Samples twodimensionally (a lattice):
% and the isosamples thing confuses me.
@@ -6134,7 +6291,7 @@
\ifpgfplots@loop@CONTINUE
% Now, invoke 'plot file'.
%
- % I invoke the private '@opt@' method because the semicolon ';'
+ % I invoke the private '@opt@' method because the semicolon ';'
% character may cause problems due to catcode mismatches.
% *sigh*.
\pgfplots@addplotimpl@file@opt@@{}{}{#2}{#1}% this does not invoke the \pgfplots@start@plot@with@behavioroptions method.
@@ -6159,7 +6316,7 @@
\pgfplots@gettikzinternal@keyval{prefix}{tikz@plot@prefix}{\jobname.}%
\pgfplots@gettikzinternal@keyval{id}{tikz@plot@id}{pgf-shell}%
%
- \def\pgfplots@plot@filename{\tikz@plot@prefix\tikz@plot@id}%
+ \def\pgfplots@plot@filename{\tikz@plot@prefix\tikz@plot@id}%
\def\pgfplots@plot@data{\pgfshell[\pgfplots@plot@filename]{#4}\pgfplotxyfile{\pgfplots@plot@filename.out}}%
\def\pgfplotxyfile{\pgfplots@addplotimpl@shellresult{#5}}%
\pgfplots@plot@data
@@ -6180,7 +6337,7 @@
\ifpgfplots@loop@CONTINUE
% Now, invoke 'plot file'.
%
- % I invoke the private '@opt@' method because the semicolon ';'
+ % I invoke the private '@opt@' method because the semicolon ';'
% character may cause problems due to catcode mismatches.
% *sigh*.
\pgfplots@addplotimpl@file@opt@@{}{}{#2}{#1}%
@@ -6312,7 +6469,7 @@
/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,
+ /pgfplots/mesh/check=false,%
#1,/pgfplots/.cd,#2,%
/pgfplots/plot graphics/@prepare legend,
/pgfplots/plot graphics,%
@@ -6380,7 +6537,7 @@
% automatically.
%
% Input options can be provided in '#2' using
-% - column names,
+% - column names,
% for example '/pgfplots/table/x=firstcol' or just 'x=firstcol'
%
% - column indices,
@@ -6395,14 +6552,14 @@
% \columnerrory, \columnerrorz
% Provide access to the cell content which would be used without
% 'expr'.
-% The first three access the input coordinate columns, \meta the meta column
-% (if any) and the last three the error data (if any).
+% The first three access the input coordinate columns, \meta the meta column
+% (if any) and the last three the error data (if any).
%
-% That means it is allowed to provide both, 'x' and 'x expr':
+% That means it is allowed to provide both, 'x' and 'x expr':
% 'x expr' can use the (old) value stored in 'x'. the final x
% coordinate will be that returned of 'x expr'.
%
-% - \coordindex
+% - \coordindex
%
% - \lineno (physical line numbers including comments etc)
%
@@ -6488,7 +6645,7 @@
\pgfplots@addplotimpl@table@fromstructure@prepareexpr@for{#1}{#3}{#4}%
}
-% Invokes `#1' if the command is invoked within
+% Invokes `#1' if the command is invoked within
% \addplot table {<\macro>};
% and `#2' if not.
\def\pgfplotsifinaddplottablestruct#1#2{%
@@ -6571,7 +6728,7 @@
\ifpgfplotslistempty
\pgfplots@loop@CONTINUEfalse
\else
- % This here is just for sanity checking: if the 'y' column is
+ % This here is just for sanity checking: if the 'y' column is
% - for whatever reasons - invalid; provide good error
% recovery.
\pgfplotslistcheckempty\addplot@tbl@y
@@ -6671,7 +6828,7 @@
% PRECONDITION:
% \pgfplots@plot@tbl@#1 contains the column name which would be used
% if '#1 expr' is empty.
-%
+%
% POSTCONDITION:
% \pgfplots@plot@tbl@#1 will be CHANGED to use the 'expr' column (a
% temporary name).
@@ -6694,7 +6851,7 @@
\pgfkeysgetvalue{/pgfplots/table/#1 expr}{\pgfplots@loc@TMPa}%
\ifx\pgfplots@loc@TMPa\pgfutil@empty
\else
- % get expression into register:
+ % get expression into register:
\t@pgfplots@toka=\expandafter{\pgfplots@loc@TMPa}%
%
%
@@ -7007,7 +7164,7 @@
\pgfplots@gettikzinternal@keyval{prefix}{tikz@plot@prefix}{\jobname.}%
\pgfplots@gettikzinternal@keyval{id}{tikz@plot@id}{pgf-shell}%
%
- \def\pgfplots@plot@filename{\tikz@plot@prefix\tikz@plot@id}%
+ \def\pgfplots@plot@filename{\tikz@plot@prefix\tikz@plot@id}%
\pgfshell[\pgfplots@plot@filename]{#3}\pgfplots@addplotimpl@table@fromfile{#1}{#2}{\pgfplots@plot@filename.out}#4;%
}%
@@ -7069,7 +7226,7 @@
% \numplotsofactualtype
% Expands to the number of plots which have been seen in the current
-% axis and which have the same type as the actual plot handler.
+% axis and which have the same type as the actual plot handler.
%
% See also \plotnumofactualtype
\def\pgfplots@numplotsofactualtype{%
@@ -7095,6 +7252,7 @@
%
\pgfplotssurveyphase@setactiveplothandlers
%
+ \def\plotnum{\the\pgfplots@numplots}%
\let\numplotsofactualtype=\pgfplots@numplotsofactualtype@duringplot
%
% Store this name during the \addplot command. Thus, even if the
@@ -7400,7 +7558,7 @@
\fi
}%
-% Takes the current point (defined by a set of macros) as input and defines \pgf@x and \pgf@y
+% Takes the current point (defined by a set of macros) as input and defines \pgf@x and \pgf@y
% as the output point. It also defines
% \pgfplots@current@point@x and its variants to contain the
% transformed canvas coords (those which can be given to
@@ -7484,14 +7642,14 @@
% Defines where to expect INPUT coordinates
% \pgfplotspointgetcoordinatesfromnormalized[path=/data point/
-% would expect input coordinates
+% would expect input coordinates
% /data point/x
% /data point/y
% /data point/z
\pgfkeyssetvalue{/pgfplots/coords/path}{/data point}
% \pgfplotspointgetcoordinatesfromnormalized[target path=/data point/zero/
-% would write output coordinates
+% would write output coordinates
% /data point/zero/x
% /data point/zero/y
% /data point/zero/z
@@ -7533,7 +7691,7 @@
\let#2=\pgfmathresult
}%
-% Defines an optimized and matching \pgfplotsaxisvisphasetransformcoordinate
+% Defines an optimized and matching \pgfplotsaxisvisphasetransformcoordinate
% during the coordinate finalization step in \end{axis}.
\def\pgfplots@coord@stream@INIT@finalize@storedcoords@prepare@scaletrafomacro{%
\begingroup
@@ -7715,14 +7873,14 @@
% The argument '#1' is optional: if you leave it away, the current value of the 'pos' key will be used.
% This method will work for most plot handlers, although some of them might be unsupported.
%
-% As a side-effect, it defines the (global) macros
+% As a side-effect, it defines the (global) macros
% - \pgfplotspointplotattimefirst the start coordinate of the line segment containing #1
% - \pgfplotspointplotattimesecond the end coordinate of the line segment containing #1
% - \pgfplotspointplotattimecoords the coordinates of #1
-% The first two are interesting in order to allow the computation of gradients.
+% The first two are interesting in order to allow the computation of gradients.
% \pgfplotsplothandlerpointtokeys{/data point}%
% for the \pgfplotspointplotattimecoords point
-%
+%
% Any of these macros can be decoded using
% \pgfplotsplothandlerdeserializepointfrom\pgfplotspointplotattimesecond
% \pgfplotsaxisvisphasegetpoint
@@ -7738,7 +7896,7 @@
\else
\pgfplotspointplotattimegetfromcache{#1}%
\ifpgfplots@loc@tmp
- % CACHE HIT!
+ % CACHE HIT!
%\message{CACHE HIT for \string\pgfplotspointplotattime{#1}^^J}%
\else
%\message{NO cache hit for \string\pgfplotspointplotattime{#1}^^J}%
@@ -7879,9 +8037,9 @@
}%
% A macro which is invoked whenever \pgfplotspointplotattime found a
-% line segment.
+% line segment.
%
-% INPUT:
+% INPUT:
% - \pgfplots@cur : serialized current point. This current point's
% properties are available in the macros
% \pgfplots@current@point@[xyz] etc.
@@ -7969,7 +8127,7 @@
\fi
}%
-% INPUT:
+% INPUT:
% either floating point or fixed point coordinates (depending on the
% state of the \ifpgfplots@apply@datatrafo boolean)
%
@@ -8047,7 +8205,7 @@
\fi
}%
-
+
% This routine is called at the begin of every plot.
% It initialises a zero level stream.
%
@@ -8061,7 +8219,7 @@
% "draw zero level coordinates from list XYZ."
% But at the time of this initialisation, the list will be EMPTY!
%
- % It will be filled later. That's ok, because
+ % It will be filled later. That's ok, because
% \pgfplots@initzerolevelhandler will be
% used as 'precommand', that means before Tikz sees any
% coordinates.
@@ -8184,7 +8342,7 @@
% \ifpgfplots@threedim
% \pgfkeyslet{/pgfplots/axis/zero/z}\pgfplots@logical@ZERO@z
% \fi
- %--------------------------------------------------
+ %--------------------------------------------------
}%
@@ -8346,8 +8504,8 @@
}%
% PRECONDITION:
-% \pgfplotsplothandlergraphicspointmappointindex is
-% empty if and only if (#4,#5) is empty
+% \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){%
@@ -8403,7 +8561,7 @@
% 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
+ % Then, I solve for o,e_x,e_y,e_z
%
\pgfplotsmatrixnewempty\pgfplotsmatrix
\pgfplotsmatrixresize\pgfplotsmatrix88%
@@ -8421,8 +8579,8 @@
\def\pgfplots@logical@z{##3}%
}%
% Assemble the linear system such that
- % x = [
- % exx
+ % x = [
+ % exx
% exy
% eyx
% eyy
@@ -8565,13 +8723,13 @@
\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'.
+ {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]' or 'plot graphics[debug=visual]' to generate debug output files.
\fi
- ^^J}%
+ ^^J}%
\endgroup
\fi
%
@@ -8700,9 +8858,9 @@
% 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
+ % 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
%
@@ -8825,7 +8983,7 @@
\pgfsetfillcolor{green}%
\pgfpathcircle{\pgfplots@point@canvas}{2pt}%
\pgfusepath{stroke,fill}%
- \draw[->,red]
+ \draw[->,red]
\pgfextra{
\pgfpathmoveto{\pgfplots@point@canvas@check}%
\pgfpathlineto{\pgfplots@point@canvas}};
@@ -8846,8 +9004,8 @@
\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
+
+ \fi
\begingroup
% determine the lower left / upper right corners.
\pgfplots@plot@handler@graphics@bb@first
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex
index e6d957d842d..60d6274eb5e 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsmeshplothandler.code.tex
@@ -4,7 +4,7 @@
%
% 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 2007-2015 by Christian Feuersänger.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -26,7 +26,7 @@
% The low-level tikz plot handler for 3D mesh and surface plots.
%
-% It expects
+% 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/.
@@ -55,7 +55,7 @@
% 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
+% 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.
@@ -76,24 +76,24 @@
% mesh/rows=4,
% mesh/cols=4,
% mesh/num points=,
-% /tikz/x={(0.44237cm,-0.07439cm)},
+% /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
@@ -102,31 +102,31 @@
% % 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}
% ----------------------------------------------------------
@@ -199,7 +199,7 @@
\fi
\fi
%
- %
+ %
\pgfplotsifisvisualizationphase{%
\pgfplotsplothandlermesh@init@variables
}{}%
@@ -223,7 +223,7 @@
%
% Prepare color data source:
\ifx\pgfplotspointmetainputhandler\pgfutil@empty%
- % oh. There is no color data!?
+ % oh. There is no color data!?
\pgfplotsplothandlermesh@init@path@without@point@meta
%
\else
@@ -362,7 +362,7 @@
% -> perhaps the check can be skipped entirely.
%
% oh. shading type=5 is *essentially* the same as
- % matrix output, but matrix output is forbidden.
+ % matrix output, but matrix output is forbidden.
% In that case, triangulate the matrix and shade the
% triangles:
\def\pgfplotsplothandlermesh@triangulate{1}%
@@ -381,7 +381,7 @@
\else
\edef\pgfplotsplothandlerLUAvisualizerfactory{
function(plothandler) return pgfplots.MeshVisualizer.new(
- plothandler,
+ plothandler,
\pgfplotsretval(),
pgfplots.pgftonumber("\pgfkeysvalueof{/pgfplots/mesh/rows}"),
pgfplots.pgftonumber("\pgfkeysvalueof{/pgfplots/mesh/cols}"),
@@ -403,7 +403,7 @@
%
% PRECONDITION:
% The values of
-% - '/pgfplots/mesh/rows'
+% - '/pgfplots/mesh/rows'
% - '/pgfplots/mesh/cols'
% - '/pgfplots/mesh/num points'
% - \pgfplotsscanlinelength
@@ -429,12 +429,12 @@
%
% PRECONDITION:
% The values of
-% - '/pgfplots/mesh/rows'
+% - '/pgfplots/mesh/rows'
% - '/pgfplots/mesh/cols'
% - '/pgfplots/mesh/num points'
% - '/pgfplots/mesh/ordering'
% are assigned properly.
-% If
+% If
% - \pgfplotsscanlinelength
% exists and is positive, it may also be used.
%
@@ -537,7 +537,7 @@
\pgfplotswarning{matrix delinearize uses sqrt}{\pgfplotsplothandlermesh@rows}{\pgfplotsplothandlermesh@cols}{\pgfplotsplothandlermesh@numpoints}{\pgfmathresult}\pgfeov%
\else
\pgfplots@error{Sorry, 'plot mesh' needs either '[mesh/rows=<N>]' or '[mesh/cols=<N>]' set,
- but it did not find any of them.
+ 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
@@ -616,7 +616,7 @@
\expandafter\pgfplots@loc@TMPa\expandafter{\pgfplotsplothandlermesh@cols}%
}%
-%%
+%%
%% Helper structs for patch plots (surfaces)
% #1: the canvas x coordinate
@@ -634,7 +634,7 @@
}%
% Assumes that #1 expands to an argument of \pgfplotspatchvertex and
-% that #2 is a macro containing another patch vertex.
+% that #2 is a macro containing another patch vertex.
%
% It then replaces #2 by a new vector which is equal to #2 except for
% the point meta which is taken from #1.
@@ -858,7 +858,7 @@
}%
% 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
@@ -1011,7 +1011,7 @@
% type).
%
% 'sample in unit cube={<code to invoke for each sampled point>}'
- %
+ %
% It will invoke <code to invoke for each sampled point> once for
% every sampled vertex. The complete unit cube will be covered.
% Depending on the patch type, either one or more patches are
@@ -1019,8 +1019,8 @@
% \pgfplotspatchready will be invoked.
%
%
- % PRECONDITION:
- % -\pgfplotspatchready is defined.
+ % PRECONDITION:
+ % -\pgfplotspatchready is defined.
%
% Arguments:
% #1: code which will be invoked whenever a new coordinate is
@@ -1078,14 +1078,14 @@
first vertex before z buffer/.code=
{\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ first vertex before z buffer\endcsname{#1}},%
%
- % invokes
+ % invokes
% \pgfplotspatchvertex...\endvertex
% #1
% for the every vertex.
foreach vertex/.code=
{\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ foreach vertex\endcsname##1{#1}},%
%
- % invokes
+ % invokes
% \pgfplotspatchvertex...\endvertex
% #1
% for every colored vertex.
@@ -1182,7 +1182,7 @@
% A method which defines \pgfplotsretval to be the normal of the current segment.
% The values will be given in a format understood by
% \pgfplotsmathvectortostring{\pgfplotsretval}{default}
- %
+ %
% This method REQUIRES that 3d coordinates are stored (see \pgfplotsplothandlermesh@serialize@logical@coords).
compute normal/.code=
{\expandafter\def\csname pgfpptch\pgfplotsdeclarepatchclass@ compute normal\endcsname{#1}},%
@@ -1593,7 +1593,7 @@
% reverse xy seq
\let\pgfplots@loc@TMPa\pgfplotspatchclass@rect@C
\or
- % sort
+ % sort
\let\pgfplots@loc@TMPa\pgfplotspatchclass@rect@A
\else
% the choices 'default' or 'auto' should have been expanded already. Nothing to do here:
@@ -1614,7 +1614,7 @@
% reverse xy seq
\let\pgfplots@loc@TMPa\pgfplotspatchclass@rect@C
\or
- % sort
+ % sort
\let\pgfplots@loc@TMPa\pgfplotspatchclass@rect@A
\else
% the choices 'default' or 'auto' should have been expanded already. Nothing to do here:
@@ -1628,8 +1628,8 @@
% D <-- C
% | ^
% v |
-% A --> B
-%
+% A --> B
+%
\pgfplotsdeclarepatchclass{rectangle}{%
allow matrix=\def\pgfplotsretval{1},
new=\def\pgfplotspatchclass@rect@no{0},
@@ -1758,7 +1758,7 @@
% 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
+% In other words, if the coons patch looks like
%
% BB-------CC <--v=1
% | |
@@ -1769,7 +1769,7 @@
% 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,
+% 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).
@@ -1796,7 +1796,7 @@
%
% 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{}%
@@ -1862,7 +1862,7 @@
\def\pgfplotsplothandlermesh@VISUALIZE{\pgfplotsplothandlermesh@VISUALIZE@globalpath@fill@andor@stroke}%
\let\pgfplotsplothandlermesh@pathmoveto=\pgfplotsplothandlermesh@pathmoveto@globalpath
\let\pgfplotsplothandlermesh@setlastpoint=\pgfplotsplothandlermesh@setlastpoint@globalpath
- %
+ %
% This activates tikz colors:
%\tikz@options
\pgfplots@drawoptions
@@ -2094,7 +2094,7 @@
% mesh input=lattice|image
% Init memory:
%
- % And now finally: initialise the conversion from
+ % And now finally: initialise the conversion from
% LINEARIZED COORD STREAM -> DATA MATRIX:
\if\pgfplots@plot@mesh@ordering0%
% x varies (=rowwise):
@@ -2285,12 +2285,12 @@
}
% Invokes \pgfplotsscanlinecomplete if the scanline is complete according to the keys 'mesh/rows' and/or 'mesh/cols'
-%
+%
% This routine improves the precision of the scanline computation, but not much.
% At the time of this writing, its only purpose is to help 'matrix input=image'
% as that requires information about the current scanline in order to update its
% axis limits.
-%
+%
% Note that this macro is unnecessary in many cases: if the user input _contains_ end-of-scanline markers, it is redundant.
%
% Limitations of this routine:
@@ -2339,7 +2339,7 @@
%
\ifpgfplotsplothandlermesh@needs@scanlinecomplete@notifications
%
- % OK, we EXPECT that the code generated
+ % OK, we EXPECT that the code generated
% notifications of sorts \pgfplotsscanlinecomplete.
%
% If this turns out to be NOT the case, we generate a
@@ -2351,7 +2351,7 @@
% input has been surveyed)
% 2. OR \pgfplotsscanlinecomplete has been called due to scan
% line length comparison with mesh/cols or mesh/rows. In this
- % case, the required argument must have been set, see
+ % case, the required argument must have been set, see
% \pgfplotsplothandlersurveypoint@mesh@check@scanline@length@init
%
\ifnum\c@pgfplotsplothandlermesh@image@numscanlines<2
@@ -2386,7 +2386,7 @@
\fi
}%
-\def\pgfplotsplothandlersurveyaftersetpointmeta@mesh@cdatanormalize{%
+\def\pgfplotsplothandlersurveyaftersetpointmeta@mesh@cdatanormalize{%
\pgfplotsplothandlersurveyaftersetpointmeta@default
\if0\pgfplotsplothandlermesh@colorinput
% mesh/color input=colormap
@@ -2691,7 +2691,7 @@
% mesh/color input=colormap
\if d\pgfplots@colormap@access
% colormap access=direct
- % we assume that the color *is* already normalized,
+ % we assume that the color *is* already normalized,
% i.e. it is {<comma-separate-components>} and to be
% interpreted in the correct color space.
\edef\pgfplots@loc@TMPb{%
@@ -2707,7 +2707,7 @@
\else
% mesh/color input=explicit
%
- % we assume that the color *is* already normalized,
+ % we assume that the color *is* already normalized,
% i.e. it is {<comma-separate-components>} and to be
% interpreted in the correct color space.
\edef\pgfplots@loc@TMPb{%
@@ -2787,8 +2787,8 @@
% nor in two dimensions.
\pgfkeyssetvalue{/pgfplots/surf shading/anchor}{\pgfpointorigin}%
%
- % do NOT update the picture's BB using the streamed low-level coordinates
- % (which are bezier control points in most cases).
+ % do NOT update the picture's BB using the streamed low-level coordinates
+ % (which are bezier control points in most cases).
% We do that on our own using the input vertices.
\pgfkeys{/pgfplots/surf shading/update BB=false}%
\if1\b@pgfplotsplothandlermesh@matrixoutput
@@ -2841,7 +2841,7 @@
% ordering=x varies:
% nothing special to do
\else
- % FIXME
+ % FIXME
% [this happens only for mesh input=lattice]
% colwise:
%
@@ -2956,7 +2956,7 @@
% segment.
\let\pgfplotsplothandlermesh@usepath=\pgfplotsplothandlermeshusepathstroke
\else
- % 'surf' plot:
+ % 'surf' plot:
\let\pgfplotsplothandlermesh@usepath=\pgfplotsplothandlermeshusepathfillstroke
\if\pgfplotsplothandlermesh@shader3% faceted interp
% it has an extra fill command (shading)
@@ -3120,7 +3120,7 @@
\fi
%
\if 1\pgfplots@loc@TMPa
- % ok, this uses (only) 'shader=flat'
+ % ok, this uses (only) 'shader=flat'
\if c\pgfplotsplothandlermesh@flatmode
% 'flat corner':
\if1\b@pgfplots@correct@shader@flat
@@ -3174,7 +3174,7 @@
\let\pgfplotsplothandlermesh@compute@vertex@depth=\pgfplotsplothandlermesh@compute@vertex@depth@doit%
%
% the "element depth" is defined to be the MEAN of all
- % vertex depths.
+ % vertex depths.
% And since the mean is 1/n * sum_{i=1}^n V_i, we can
% directly omit the 1/n --- it is the same for every
% vertex anyway, and we only want to compare the depth
@@ -3269,7 +3269,7 @@
/pgfplots/mesh input=lattice,
/pgfplots/patch type=rectangle,
/pgfplots/z buffer=default,
- /tikz/x={(0.44237cm,-0.07439cm)},
+ /tikz/x={(0.44237cm,-0.07439cm)},
/tikz/y={(0.30942cm,0.23932cm)},
/tikz/z={(0.0cm,1.5cm)},
scale=0.4,
@@ -3406,7 +3406,7 @@
% 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
+% draw
% (i-1,j-1) [from last iteration] -- (i-1,j ) [from deque]
% -- ( i,j ) [from last iteration] -- (i ,j-1) [from #1]
% -- cycle
@@ -3421,7 +3421,7 @@
% #2: a callback (TeX code) which will be executed for each point with j>0
% #3: a callback (TeX code) which will be executed if the scanline is completed, i.e. j=cols
\def\pgfplotsplothandlermesh@PIPE@DECODE@matrix@collect@and@callback#1#2#3{%
- % NOTATION:
+ % NOTATION:
% 'im == (i-1)'
% 'jm == (j-1)'
\pgfplotsplothandlermesh@compute@vertex@depth% <-- this modifies \pgfplotsretval
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex
index f3b28374d07..f10082afb32 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsplothandlers.code.tex
@@ -4,7 +4,7 @@
%
% 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.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -68,7 +68,7 @@
% \pgfplotstreamstart
% foreach <serizalized point> {
% \pgfplotsplothandlerdeserializepointfrom{<serialized point>}
-% apply data transformations
+% apply data transformations
% handle plot marks
% \pgfplotstreampoint{\pgfplotsqpointxy{<x>}{<y}}
% }
@@ -148,7 +148,7 @@
% 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
+% 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:
@@ -159,7 +159,7 @@
% \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
+% 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
@@ -191,12 +191,12 @@
% 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>}
+% \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
@@ -340,7 +340,7 @@
%
% For example:
% \pgfplotsplothandlers@get@tikz@backup@name{\pgfplothandlerlineto}
-% will return \pgfplotsretval={\\pgfplothandlerlineto@tikz}
+% will return \pgfplotsretval={\\pgfplothandlerlineto@tikz}
% (up to \escapechar)
\def\pgfplotsplothandlers@get@tikz@backup@name#1{%
\begingroup
@@ -363,7 +363,7 @@
% ... get the name of the backup (see \pgfplotsplothandlers@init)
\expandafter\pgfplotsplothandlers@get@tikz@backup@name\pgfplots@loc@TMPa
\expandafter\ifx\pgfplotsretval\tikz@plot@handler
- % AH! \tikz@plot@handler is the same as some backup name!
+ % AH! \tikz@plot@handler is the same as some backup name!
% Replace it:
\expandafter\let\expandafter\tikz@plot@handler\pgfplots@loc@TMPa
\fi
@@ -468,7 +468,7 @@
\let\pgfplots@loc@TMPa=\pgfmathresult
\csname pgfplotstransformdirection\pgfplots@bar@direction@choice@\endcsname{\pgfplots@loc@TMPa}%
\let\pgfplots@loc@TMPa=\pgfmathresult
- \if\pgfplots@bar@direction@choice@ x%
+ \if\pgfplots@bar@direction@choice@ x%
\pgfqpointxy@orig{\pgfplots@loc@TMPa}{0}%
\edef\pgfmathresult{\pgf@sys@tonumber\pgf@x}%
\else
@@ -523,7 +523,7 @@
}%
% This should expand to a LUA function which takes the axis and the point
-% meta handler.
+% meta handler.
% Use empty if there is none.
\def\pgfplotsplothandlerLUAfactory@default{}%
@@ -565,7 +565,7 @@
% 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].
+% 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
@@ -615,7 +615,7 @@
% Store normalized point for list:
% We need
% xi,yi,zi;
- % where zi may be empty.
+ % where zi may be empty.
%
% Note that per-point meta information is stored in
% \pgfplotsaxisserializedatapoint .
@@ -726,7 +726,7 @@
% \pgfplotsplothandlersurveydifflen#1#2
%
% computes the length between two points which are given in logical
-% coordinates.
+% coordinates.
% #1 a serialized point
% #2 a serialized point
%
@@ -791,7 +791,7 @@
\advance\pgf@y by-\pgf@ya%
\ifpgfallowupsidedownattime%
\else%
- \ifdim\pgf@x<0pt%
+ \ifdim\pgf@x<0pt%
\pgf@x=-\pgf@x%
\pgf@y=-\pgf@y%
\fi%
@@ -830,7 +830,7 @@
}%
% ==================================
-% Defines
+% Defines
% - a generic update limits routine,
% \pgfplotsaxisupdatelimitsforcoordinate#1#2#3
% if #3 is empty, it will assume a 2d point, otherwise a 3d point
@@ -897,7 +897,7 @@
%\E\tracingmacros=2\E\tracingcommands=2
%\E\pgfplots@message{Updating limits for (##1,##2) ...}%
%
- % VIM SEARCH PATTERN:
+ % VIM SEARCH PATTERN:
% [^E]\zs\\\ze[^E]
% -> this finds '\' which is neither '\E' nor is it prefixed
% by 'E'.
@@ -906,7 +906,7 @@
%
\E\pgfplots@update@limits@for@one@point@ISCLIPPEDfalse
% check whether we need to clip limits:
- \ifpgfplots@clip@limits
+ \ifpgfplots@clip@limits@x
\ifpgfplots@autocompute@xmin
\else
\ifpgfplots@xislinear
@@ -935,6 +935,8 @@
\E\fi
\fi
\fi
+ \fi
+ \ifpgfplots@clip@limits@y
\ifpgfplots@autocompute@ymin
\else
\ifpgfplots@yislinear
@@ -963,6 +965,8 @@
\E\fi
\fi
\fi
+ \fi
+ \ifpgfplots@clip@limits@z
\ifpgfplots@curplot@threedim
\ifpgfplots@autocompute@zmin
\else
@@ -1103,7 +1107,7 @@
% 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
@@ -1218,7 +1222,7 @@
% 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
@@ -1227,7 +1231,7 @@
%
% User Interface:
% use /pgfplots/quiver to enable the plot handler.
- % Then, provide `quiver/u value' or `quiver/u' to
+ % 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={%
@@ -1253,9 +1257,9 @@
\def\pgfplots@quiver@v{1}%
\def\pgfplots@quiver@w{1}%
},%
- ]
+ ]
plot coordinates {
- (0cm,0cm)
+ (0cm,0cm)
};%
}%
},
@@ -1647,8 +1651,8 @@
hist/density=false,
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},
+ /pgfplots/symbolic coords={hist/data}{#1},
+ /pgfplots/symbolic coords={x}{#1},
},%
}%
\def\pgfplotsplothandlerhistogram{%
@@ -1779,11 +1783,11 @@
\expandafter\pgfplotsplothandlersurveyend@hist@loop\pgfplots@hist@data\pgfplots@EOI
\let\pgfplots@hist@data=\relax
%
-
+
% Calculate total count
\c@pgf@counta=0
\pgfplotsarrayforeachungrouped{pgfp@hist}\as\pgfplots@hist@count{%
- \advance\c@pgf@counta by\pgfplots@hist@count\relax
+ \advance\c@pgf@counta by\pgfplots@hist@count\relax
\def\pgfplots@loc@TMPa{\pgfplotsarrayset{\pgfplotsarrayforeachindex}\of{pgfp@hist}\to}%
}%
\pgfmathfloatparsenumber{\the\c@pgf@counta}%
@@ -1814,11 +1818,11 @@
\else
\pgfmathfloatmultiply@{\pgfp@hist@totalcount@inv}{\pgfplotsplothandlerhistogram@invh}%
\let\pgfp@hist@totalcount@times@h@inv=\pgfmathresult
-% FIXME : this here is a patch suggestion for
+% FIXME : this here is a patch suggestion for
% https://sourceforge.net/tracker/?func=detail&atid=1060656&aid=3609245&group_id=224188
%
% FIXME : this line would actually compute relative frequencies...
-% might not be too bad at all, but is no density
+% might not be too bad at all, but is no density
%\let\pgfp@hist@totalcount@times@h@inv=\pgfp@hist@totalcount@inv
\pgfplotsarrayforeachungrouped{pgfp@hist}\as\pgfplots@hist@count{%
\pgfmathfloatparsenumber{\pgfplots@hist@count}%
@@ -1864,7 +1868,7 @@
% 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.
+ % the hist/data coord trafo.
%
% But I did not find a way to combine the transformations
% automatically without resorting to hackery.
@@ -1988,7 +1992,7 @@
},%
contour/labels/.is if=pgfplotsplothandlercontour@labels,
contour/labels=true,
- %
+ %
% XXX : this here is dead code... it has been superseded by
% \pgfplotsplothandlercontourfilled:
contour/filled/.is if=pgfplotsplothandlercontour@filled,
@@ -2078,14 +2082,14 @@
contour external={%
scanline marks=required,
script={
- unset surface;
+ unset surface;
\ifx\thecontourlevels\empty
set cntrparam levels \thecontournumber;
\else
set cntrparam levels discrete \thecontourlevels;
\fi
- set contour;
- set table \"\outfile\";
+ set contour;
+ set table \"\outfile\";
splot \"\infile\";
},
cmd={gnuplot \"\script\"},%
@@ -2524,7 +2528,7 @@
\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
@@ -2664,7 +2668,7 @@
%
\if0\pgfplotsplothandlercontourexternal@scanlinemode
\pgfplotsset{plot to file/scanline marks/false}%
- \else
+ \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}%
@@ -2805,7 +2809,7 @@
}%
}
-
+
@@ -2994,11 +2998,11 @@
%
\pgfkeysgetvalue{/pgfplots/contour/levels}\pgfplots@loc@TMPa
\ifx\pgfplots@loc@TMPa\pgfutil@empty
- % no levels.
+ % no levels.
% Ok, check the other keys in the order of precedence:
\pgfkeysgetvalue{/pgfplots/contour/levels from colormap}\pgfplots@loc@TMPa
\ifx\pgfplots@loc@TMPa\pgfutil@empty
- % no 'levels from colormap'.
+ % no 'levels from colormap'.
% Ok, check the other keys in the order of precedence:
\pgfkeysgetvalue{/pgfplots/contour/number}\pgfplots@loc@TMPa
\ifx\pgfplots@loc@TMPa\pgfutil@empty
@@ -3077,5 +3081,3 @@
%\message{contour filled: assembled options \meaning\pgfplots@contour@cm@options^^J}%
\fi
}%
-
-
diff --git a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
index 6b8c58a9e30..926476e73b5 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/pgfplotsticks.code.tex
@@ -4,7 +4,7 @@
%
% 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.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -37,15 +37,15 @@
% Arguments:
% #1.#2 the value log10(T)
%
-% Implementation:
+% Implementation:
% if T = i*10^j, log10(T) = log10(i) + j.
% That means if log10(T) in \Z, we have T = 10^j. If not, we need to
% check wether i is an integer. Please note that log10(i) < 1.
%
% Further note: log(T) < 0 <=> j<0.
-% In case j<0, we have
-% #1.#2 = j + log(i)
-% = - ( -j - log(i) )
+% In case j<0, we have
+% #1.#2 = j + log(i)
+% = - ( -j - log(i) )
% = - ( -j - 1 + (1-log(i)) )
% = #1 '.' #2 [ up to the '0.'
% that means #1 = j-1 and #2 = 1-log(i).
@@ -138,10 +138,10 @@
% PRECONDITION:
% Axis limits for #1 are given. I need their values before any data
% scale transformation has been applied.
-% If
-% \pgfplots@#1min@unscaled@as@float
+% If
+% \pgfplots@#1min@unscaled@as@float
% and
-% \pgfplots@#1max@unscaled@as@float
+% \pgfplots@#1max@unscaled@as@float
% exist; I will use these macros.
% Otherwise, I will use \pgfplots@#1min and \pgfplots@#1max;
% assuming that no data scale transformation is active.
@@ -223,7 +223,7 @@
% and we want to use B's exponent (only) for the decision here.
%
% INPUT:
-% - \pgfplots@cur@min@unscaled,
+% - \pgfplots@cur@min@unscaled,
% - \pgfplots@cur@max@unscaled,
% - \pgfmathfloat@a@E
% - \pgfmathfloat@b@E
@@ -234,7 +234,7 @@
\pgfmathfloatgetflags\pgfplots@cur@min@unscaled\pgfmathfloat@a@S
\pgfmathfloatgetflags\pgfplots@cur@max@unscaled\pgfmathfloat@b@S
\ifcase\pgfmathfloat@a@S%
- % min = 0.
+ % min = 0.
\ifcase\pgfmathfloat@b@S
% max =0
% normalize to 0 * 10^0 !
@@ -455,14 +455,14 @@
\expandafter\xdef\csname pgfplots@maxtickdimen@#1\endcsname{\the\pgf@xa}%
\endgroup
}%
-%
+%
% #1: the axis (x,y or z)
% #2: the normal vector
\def\pgfplots@ticklabel@maxtickdimen@prepare@for@normalvec#1#2{%
\pgf@process{#2}%
\edef\pgfplots@loc@vector@to@outside{\pgf@x=\the\pgf@x\space\pgf@y=\the\pgf@y\space}%
% Identify the corner point of the ticklabel bounding box which
- % shall be used:
+ % shall be used:
\ifdim\pgf@x>0sp
\ifdim\pgf@y>0sp
% NORTH EAST
@@ -711,9 +711,9 @@
% Fills the macros
% \pgfplots@tick@LOWER@b \pgfplots@tick@end@a
% \pgfplots@tick@UPPER@b \pgfplots@tick@end@b
-% with coordinates such that
+% with coordinates such that
% (\pgfplots@tick@LOWER@b,\pgfplots@tmpa) -- (\pgfplots@tick@end@a,\pgfplots@tmpa)
-% produces a correct tick line.
+% produces a correct tick line.
%
% The '@b' variant is only used in case of \pgfplots@ytickposnum = 0
%
@@ -833,7 +833,7 @@
\fi
}
-% Check if the current tick position, stored in \pgfplots@tmpa,
+% Check if the current tick position, stored in \pgfplots@tmpa,
% does not cross the y-axis.
%
% This is just a special case for centered axis lines.
@@ -934,7 +934,7 @@
% #1: the axis
% #2: the tick list.
%
-% PRECONDITION:
+% PRECONDITION:
% - \pgfplots@determinedefaultvalues has been executed.
% That means particularly that \pgfplots@[xy][min,max] are available in TeX point
% range (after datascaling and logs).
@@ -1010,6 +1010,12 @@
}%
\fi
%
+ % compute the last index because it won't receive minor ticks:
+ \gdef\pgfplots@glob@TMPd{-1}%
+ \foreach \x in {#2} {%
+ \pgfplotsutil@advancestringcounter@global\pgfplots@glob@TMPd
+ }%
+ \let\c@pgfplots@ticknum@last=\pgfplots@glob@TMPd
%
\gdef\pgfplots@glob@TMPa{0}%
\foreach \x in {#2} {%
@@ -1027,29 +1033,34 @@
\fi
% X-Axis ticks bottom and top
\ifpgfplots@needsminorloop
- % SEE BELOW for the 'minor #1tick' feature -- it has a
- % separate loop.
- \foreach \pgfplots@i in {1,...,\pgfplots@minor@tick@num} {%
- \ifpgfplots@islinear
- \pgfmathmultiply@{\pgfplots@i}{\pgfplots@minor@tick@dist}%
- \else
- % 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
- \pgfplots@prepare@tick@coordlists@for@advance\pgfplots@tmpa by\pgfmathresult
- \pgfplots@tickshowtrue
- \pgfplots@prepare@tick@coordlists@for@checkdatalimits#1%
- \pgfplots@checktickminmax
- \ifpgfplots@tickshow
- \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
- }%
+ \ifnum\pgfplots@ticknum=\c@pgfplots@ticknum@last\relax
+ \else
+ % SEE BELOW for the 'minor #1tick' feature -- it has a
+ % separate loop.
+ \foreach \pgfplots@i in {1,...,\pgfplots@minor@tick@num} {%
+ % XXX : bug 165 [minor ticks] minor tick drawn after the last xtick
+ % seems to be here. Does that harm?
+ \ifpgfplots@islinear
+ \pgfmathmultiply@{\pgfplots@i}{\pgfplots@minor@tick@dist}%
+ \else
+ % 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
+ \pgfplots@prepare@tick@coordlists@for@advance\pgfplots@tmpa by\pgfmathresult
+ \pgfplots@tickshowtrue
+ \pgfplots@prepare@tick@coordlists@for@checkdatalimits#1%
+ \pgfplots@checktickminmax
+ \ifpgfplots@tickshow
+ \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
\fi
\pgfplotsutil@advancestringcounter\pgfplots@ticknum
% carry \ticknum outside of this scope:
@@ -1269,8 +1280,8 @@
\pgfkeysgetvalue{/pgfplots/axis \pgfplots@loc@TMPa\space line shift}\pgfplots@loc@TMPb
\ifx\pgfplots@loc@TMPb\pgfutil@empty
\else
- % in this case, we KNOW that is is
- % (a) parsed and
+ % in this case, we KNOW that is is
+ % (a) parsed and
% (b) nonzero and
% (c) a dimension WITHOUT unit
% See \pgfplots@init@axis@shift
@@ -1297,7 +1308,7 @@
% The oriented surface is two dimensional and has been initialised
% with \pgfplotspointonorientedsurfaceabsetupfor*** somehow.
%
-% The idea is now the following:
+% The idea is now the following:
% - the tick positions change along the FIRST coordinate of this
% surface:
%
@@ -1310,7 +1321,7 @@
% | ---- | ---- | ---- | | SECOND
% | | | | v
%
-% for example,
+% for example,
% \pgfplotspointonorientedsurfaceab@setupfor@xyZ{1}
% \pgfplots@drawticklines@onorientedsurf
% will draw ticks at x-positions designated by \pgfplots@xtick. The
@@ -1323,7 +1334,7 @@
% will draw ticks at y-positions designated by \pgfplots@ytick. The
% small tick lines will be drawn along the x axis. For each processed
% point, the z coordinate will be fixed to '-1'.
-%
+%
% Tick positions are taken out of the already precomputed list
% \pgfplots@prepared@tick@positions@major@...
\def\pgfplots@drawticklines@onorientedsurf{%
@@ -1559,12 +1570,12 @@
%
% That's all, basically.
%
-% For 3D axes, all these points are basically ... the same!
+% For 3D axes, all these points are basically ... the same!
% Now it can happen that the current oriented surface shall
% not contain ANY tick label. In that case, we do nothing.
% Furthermore, the "outside" direction (i.e. the anchoring of the
% label nodes) is a little bit more difficult.
-%
+%
%
% See \pgfplots@drawticklines@onorientedsurf@ for a description of the
% oriented surface.
@@ -1608,7 +1619,7 @@
%\pgfmathmultiply@{\pgfplots@tick@offset}{\csname pgfplots@\pgfplotspointonorientedsurfaceB @inverseveclength\endcsname}%
\let\pgfplots@tick@offset=\pgfmathresult
}%
- %
+ %
\if2\csname pgfplots@#1axislinesnum\endcsname % Centered axis lines?
\expandafter\let\expandafter\pgfplots@tick@origin\csname pgfplots@logical@ZERO@\pgfplotspointonorientedsurfaceB\endcsname%
% FIXME : that stuff here does not respect
@@ -1646,7 +1657,7 @@
\if2\pgfplots@ticklabelside
\else
% Should never happen.
- \pgfplots@error{Internal logic error during tick label placement (got placement character '\pgfplots@ticklabelside').
+ \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
@@ -1699,7 +1710,7 @@
% 'a': this is the direction in which tick positions are known.
% 'b': the 'orthogonal' axis to 'a' which is also in the surface.
% 'n': the surface normal.
-% Now, the idea for tick labels is to place them at
+% Now, the idea for tick labels is to place them at
% SCALE_b * b + SCALE_n * n,
% where the SCALE_[bn] numbers are choosen such that the label is
% outside of the axis.
@@ -1717,7 +1728,7 @@
% PRECONDITION:
% - called inside of \pgfplots@drawticklabels@onorientedsurf@
% POSTCONDITION:
-% - defines
+% - defines
% - \pgfplots@tickposchoicea
% if called, sets keys such that tick labels are RIGHT (TOP) of
% the axis,
@@ -1735,7 +1746,7 @@
\or
% 1: near ticklabel.
% The following code contains automatically
- % aligned tick labels (especially for 3D axes).
+ % aligned tick labels (especially for 3D axes).
% see the manual for the |near ticklabel| anchors.
\pgfkeys{/tikz/anchor=near #1ticklabel}%
%
@@ -1812,14 +1823,14 @@
% Checks whether the argument to xtick or ytick is a UNIFORM tick
% sequence.
%
-% A uniform tick sequence is 0,...,10 and 3,4,5 and -5,-4,-2 but
+% A uniform tick sequence is 0,...,10 and 3,4,5 and -5,-4,-2 but
% NOT 0,2,4 or 4,10.
%
% Furthermore, any NON-integer tick arguments are also assumed to be
% NOT uniform.
%
% INPUT:
-% #1: a tick argument (i.e. something which can be put to
+% #1: a tick argument (i.e. something which can be put to
% \foreach \x in {#1})
%
% OUTPUT:
@@ -1914,7 +1925,7 @@
% This is part of \pgfplots@assign@default@tick@foraxis and relies on
% its temporary variables.
%
-% INPUT:
+% INPUT:
% \MIN : the lower axis limit of #1 (a TeX register, in transformed range)
% \MAX : same with upper axis limit of #1
% \desirednumticks: the number of ticks to use
@@ -2208,10 +2219,10 @@
% it won't be printed).
\advance\MIN by-\H\relax
\else
- % Now, we want to activate the Tick set
+ % Now, we want to activate the Tick set
% {lowest, lowest+H, ..., highest}
%
- % Where
+ % Where
% lowest = I * log(10) + rest, |rest| < log(10).
% this is conceptionally different from the approach for
% linear axes, because H = j*log(10).
@@ -2235,7 +2246,7 @@
% near the lower axis limit.
%
% "Near" means either directly above or directly below ymin.
- %
+ %
% My application example is as follows:
% Let H = 2*log(10).
% Furthermore, ymin = 3e-6, ymax= 8e-2. That means we can choose either
@@ -2250,12 +2261,12 @@
% shift the current tick by log(10):
% if( ymin - I * log(10) < 0.5*H -> use I+1, that means add log(10).
%
- % that's equivalent to
+ % that's equivalent to
% 2*(ymin - I * log(10)) - H < 0.
\advance\MINH by-\MIN
\multiply\MINH by2
\advance\MINH by-\H
- %
+ %
\ifdim\MINH<0pt
\advance\MIN \pgfplots@loc@log@to@display@log@scale pt
\fi
@@ -2268,9 +2279,9 @@
% That's useless, so check for it.
%
% That's the case if
- % MIN < ORIGMIN && MAX < MIN+2 H
+ % MIN < ORIGMIN && MAX < MIN+2 H
% MIN < ORIGMIN by construction (ok, MIN <= ORIGMIN by
- % construction, but I don't care about this case).
+ % construction, but I don't care about this case).
% So: check only the second condition.
%\message{Got MIN=\pgf@sys@tonumber\MIN; H=\pgf@sys@tonumber\H; MAX=\pgf@sys@tonumber\MAX.^^J}%
\def\pgfplots@tick@returnval@ready{0}%
@@ -2280,7 +2291,7 @@
\ifdim\MAX<\pgfplots@tmpa
\if1\b@pgfplots@ticks@computed@tick@distance@is@final
% OK, we cannot auto adjust tick labels -- if if there are
- % too few of them.
+ % too few of them.
\else
\pgfplots@assign@default@tick@foraxis@autoadjust@result#1%
\fi
@@ -2290,7 +2301,7 @@
% FIXME :this minimum might actually be too small...
\ifdim\MINH=\MIN
\pgfplotsthrow{dimension too small in ticks}{#1}\pgfeov%
- %
+ %
% make sure that the compilation succeeds:
\H=1pt %
\advance\MINH by\H
@@ -2316,16 +2327,16 @@
% see manual
%
% Idea:
-% We want ticks at each
+% We want ticks at each
% { i*H, i in \Z }.
-% Of course, there shouldn't be TOO MUCH ticks.
+% Of course, there shouldn't be TOO MUCH ticks.
%
% Our heuristics is to set
% desirednumticks = round(ACTUAL WIDTH / (max space between ticks) )
% and generate H = (axis range) / (desirednumticks).
%
-% Since not all step sizes H look well, restrict H to a set of allowed
-% step sizes such as
+% Since not all step sizes H look well, restrict H to a set of allowed
+% step sizes such as
% { 1, 1/2, 1/5, 1/10 },
% or, to be more precise:
% { 1*10^e, 2*10^e, 5*10^e }
@@ -2346,12 +2357,12 @@
% -> for the data scaling case, I will use floating point
% arithmetics to compute that last step.
% I will acquire \pgfplots@[xy]min@unscaled@as@float here.
-%
%
%
%
%
-% For log-plots,
+%
+% For log-plots,
% H in { j*log(10), j=1,2,3,... }
% where the usual case should be j = 1.
%
@@ -2359,7 +2370,7 @@
% TICK={MIN,MIN+H,...,MAX}
% where
% MIN = I*H
-% is chosen such that
+% is chosen such that
% axis minimum limit = I*H + rest; |rest| < H.
%
% Again, log plots follow a slightly different approach: here,
@@ -2453,13 +2464,13 @@
% 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
%
@@ -2470,7 +2481,7 @@
% -->
%
% \pgfmathresult={1200}
-% or something like that.
+% or something like that.
\def\pgfplots@assign@default@tick@foraxis@normalizetickdist#1#2{%
\begingroup
\let\H=\pgf@xb
@@ -2503,11 +2514,11 @@
\endgroup
}%
-% Helper method for
+% Helper method for
% \pgfplots@apply@data@scale@trafo@to@options@for
% #1: the ticks
% #2: the trafo routine (not necessarily a single macro, but should
-% take one arg)
+% 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
@@ -2523,10 +2534,10 @@
%
}%
-% Helper method for
+% Helper method for
% \pgfplots@apply@data@scale@trafo@to@options@for
% #1: the ticks ALREADY IN FLOAT FORMAT
-% #2: the trafo macro name
+% #2: the trafo macro name
% #3: the output macro name
\long\def\pgfplots@apply@data@scale@trafo@to@user@ticks@isfloat#1#2\to#3{%
\let#3=\pgfutil@empty
@@ -2562,4 +2573,3 @@
\def\pgfplotsdeclareborderanchorforticklabelaxis#1#2{%
\pgfplotsdeclareborderanchorforaxis{#1}{\pgfplotsticklabelaxisspec{#1}}{#2}%
}
-
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 0e1221e3286..69db3f9dbe7 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
@@ -4,7 +4,7 @@
%
% 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.
@@ -13,12 +13,12 @@
% 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/>.
%
@@ -37,7 +37,7 @@
}%
% The lowlevel call for surface shadings. It uses a pattern type 2
-% dictionary as fill color and has thus several things to do.
+% dictionary as fill color and has thus several things to do.
%
% It appears the dvips implementation is simpler than the pdftex
% implementation - I did not need to adjust the matrix (don't know
@@ -69,7 +69,7 @@
% \pgf@sys@bp@correct\pgf@x%
% \pgf@sys@bp@correct\pgf@y%
\pgfsys@invoke{%
- <<
+ <<
%/Type /Pattern
/PatternType 2
/Shading
@@ -87,8 +87,8 @@
\ifpgfplotslibrarysurf@usecolormap
/Function \pgfkeysvalueof{/pgfplots/surf shading/colormap}
\fi
- /DataSource
- currentfile
+ /DataSource
+ currentfile
% direct binary output not possible: DVI
% doesn't support it (?)
%<< /EODCount \pgfplotslibrarysurf@binarystream@len\space /EODString () >> /SubFileDecode filter
diff --git a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-luatex.def b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-luatex.def
index 0a874efa6b5..0046daadae1 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-luatex.def
+++ b/Master/texmf-dist/tex/generic/pgfplots/sys/pgflibrarypgfplots.surfshading.pgfsys-luatex.def
@@ -25,6 +25,13 @@
%
%--------------------------------------------
+\ifnum\luatexversion<95
+ \immediate\write-1{luatex driver of pgfplots: detected lua version \the\luatexversion; falling back to old pdftex driver^^J}%
+ \input pgflibrarypgfplots.surfshading.pgfsys-pdftex.def
+ \expandafter\endinput
+\fi
+
+
% The lowlevel call for surface shadings. It uses a pattern type 2
% dictionary as fill color and has thus several things to do. This is
% a little bit more complicated than using the '/sh' operator (as
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 992687268c3..464f05359fb 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotscolormap.code.tex
@@ -5,7 +5,7 @@
%
% 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 2007-2013 by Christian Feuersänger.
@@ -14,12 +14,12 @@
% 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/>.
%
@@ -52,7 +52,7 @@
% the last length+h for all others).
% - the semicolons can be omitted.
%
-% Example:
+% Example:
% \pgfplotscreatecolormap{my map}{rgb(0cm)=(1,0,0); rgb(1cm)=(0,1,0); rgb255(1.5cm)=(128,5,255); rgb(2cm)=(0,0,1); gray(3cm)=(3); color(4cm)=(green); }
% \pgfplotscreatecolormap{my map}{color=(green); color=(red); color=(blue); color=(yellow)}
\def\pgfplotscreatecolormap#{\pgfplots@createcolormap}%
@@ -201,9 +201,9 @@
% compute the 'h'.
%
% Note that 's:=#2' is a fraction 0<x<1 of the RESULTING
- % range, i.e. s * 1000 = H where 0<=H<=1000.
+ % range, i.e. s * 1000 = H where 0<=H<=1000.
% but H = 1000/(1000+h) * 1000, and we need the 'h'.
- %
+ %
% -> h = 1000/s - 1000.
% regarding the '1-#2': I did some mistake in my
% computation and that fixed it :-/
@@ -218,6 +218,12 @@
\fi
}%
\fi
+ %
+ \ifpgfplots@LUA@supported
+ \pgfplotsutil@directlua{%
+ pgfplots.texColorMapSetScaleOrderZ("#1", "\csname pgfpl@cm@#1@X@scale@order@z\endcsname")
+ }%
+ \fi
}%
% see \pgfplotscolormapsetadditionalintervalwidth
@@ -258,7 +264,7 @@
\pgfutil@ifnextchar;{\pgfplots@createcolormap@grabsemicolon}%
{%
\pgfutil@ifnextchar,{\pgfplots@createcolormap@grabcomma}%
- {
+ {%
\expandafter\pgfutil@ifnextchar\pgfplots@activesemicolon{\pgfplots@createcolormap@grabsemicolon@active}%
{%
\pgfplots@createcolormap@grabnext
@@ -276,7 +282,7 @@
\pgfutil@ifnextchar;{\pgfplots@createcolormap@grabsemicolon@hasnext{#1}{#2}}%
{%
\pgfutil@ifnextchar,{\pgfplots@createcolormap@grabcomma@hasnext{#1}{#2}}%
- {
+ {%
\expandafter\pgfutil@ifnextchar\pgfplots@activesemicolon{\pgfplots@createcolormap@grabsemicolon@active@hasnext{#1}{#2}}%
{%
#1% has more.
@@ -355,7 +361,7 @@
% Splits '<argument> of <source name>*' into (\pgfplotsretval,
% \pgfplotsretvalb).
-%
+%
% The 'of' part is optional. If it is missing, '\pgfplotsretval'
% contains the entire argument and '\pgfplotsretvalb' is the current
% colormap.
@@ -448,7 +454,7 @@
},
%
@define/.code={%
- \pgfplots@error{Please write 'single color' or 'color list' such that pgfplots knows how to interprete values}
+ \pgfplots@error{Please write 'single color' or 'color list' such that pgfplots knows how to interprete values}%
\let\pgfplotsretval=\pgfutil@empty
},
single color/.style={%
@@ -542,7 +548,7 @@
%
/pgfplots/of colormap/.unknown/.code={%
\pgfplotsutilifstringequal{#1}{\pgfkeysnovalue}{%
- % This here allows to write 'of colormap={initial}'
+ % This here allows to write 'of colormap={initial}'
\pgfplotscolormapifdefined{\pgfkeyscurrentname}{%
\edef\pgfplots@loc@TMPa{%
\noexpand\pgfkeysalso{%
@@ -894,8 +900,8 @@
\let\pgfplotsretval=\pgfplots@glob@TMPa
}
-% Defines
-% * 'source range',
+% Defines
+% * 'source range',
% * 'source pos',
% in a way such that it implements 'samples of colormap'
% #1: 'S' if it _must_ satisfy the number of samples and 'P' if it
@@ -909,7 +915,7 @@
\if c\pgfplots@ofcolorbar@sample@for@choice%
% or colormap/sample for=const:
% sample one less and replicate the last color. This
- % is to compensate for 'colormap access/extra interval width=0'
+ % is to compensate for 'colormap access/extra interval width=0'
% (which is the default for colormaps with positions)
\ifnum\pgfplots@pos@size>1
% ah - we have at least 2 positions and 'extra interval width=0' applies!
@@ -1057,7 +1063,7 @@
\expandafter\pgfplots@createcolormap@\pgfplotsretval
}%
-% INPUT:
+% INPUT:
% \pgfplotscolormap@at
% \pgfplotscolormap@argument
% \pgfplotscolormap@key
@@ -1179,7 +1185,7 @@
\fi
\fi
%\message{found current H@cur = \pgfplots@createcolormap@H@cur\space (\pgfplots@createcolormap@LAST) -> H=\pgfplots@createcolormap@H^^J}%
- %
+ %
% remember positions:
\expandafter\pgfplotsapplistXpushback\expandafter{\pgfplots@createcolormap@MAX,}\to\pgfplots@createcolormap@X
%
@@ -1256,12 +1262,12 @@
%
\pgfplotscolornormalizesequencezero
\pgfplotscolornormalizesequenceaddweighted
- {\pgfplotsretval}
- {\pgfplots@createcolormap@scale@current}
+ {\pgfplotsretval}%
+ {\pgfplots@createcolormap@scale@current}%
{#1}%
\pgfplotscolornormalizesequenceaddweighted
- {\pgfplotsretval}
- {\pgfplots@createcolormap@scale@last}
+ {\pgfplotsretval}%
+ {\pgfplots@createcolormap@scale@last}%
{\pgfplots@createcolormap@last}%
%
%\message{interpolation step \c@pgfplots@createcolormap = \pgfplotsretval^^J}%
@@ -1321,7 +1327,8 @@
\csname pgfpl@cm@#1@h\endcsname,^^J%
colorspace,^^J%
{ \pgfplots@values },^^J
- { \pgfplots@pos }^^J
+ { \pgfplots@pos },^^J
+ "\csname pgfpl@cm@#1@X@scale@order@z\endcsname"^^J
);^^J%
else^^J%
io.write("There is no LUA colorspace for '\csname pgfpl@cm@#1@colspace\endcsname' - skipping LUA color map definition of #1\string\n");^^J%
@@ -1382,7 +1389,7 @@
% output format=csv,
% ]{viridis}
% {viridis.dat}
-\def\pgfplotscolormaptodatafile@elem#1#2#3#4{
+\def\pgfplotscolormaptodatafile@elem#1#2#3#4{%
\let\pgfplotsretval=\pgfutil@empty
}%
@@ -1689,9 +1696,9 @@
\def\pgfplotscolormap@piecewiseconst@prepare@scale#1{%
% advance the number of intervals by 1.
\pgfplotscolormapifisuniform{#1}{%
- % To this end, we have to compute
+ % To this end, we have to compute
% N = n+1
- % and
+ % and
% H = 1000 / (N-1) = 1000/n.
% Store H in \pgf@x:
\expandafter\ifx\csname pgfpl@cm@#1@X@scale@order@z\endcsname\pgfutil@empty%
@@ -1711,7 +1718,7 @@
% artificial interval at the rightmost end.
% The idea is to think of a temporary map in the range
% [0,1000+ h] where h is the current colormap's
- % mesh width.
+ % mesh width.
% Since the domain is [0,1000], we map [0,1000+h]
% linearly into [0,1000].
%
@@ -1784,10 +1791,10 @@
\pgfplotscolormapassertexists{#1}%
\pgfplotsapplistXnewempty\pgfplots@resultaccum
\pgfplotsapplistXpushback{
- <<
- /FunctionType 3
- /Domain [0 \pgfplotscolormappdfmax]
- /Functions [
+ <<
+ /FunctionType 3
+ /Domain [0 \pgfplotscolormappdfmax]
+ /Functions [
}\to\pgfplots@resultaccum%
\c@pgf@counta=0
\c@pgf@countb=\pgfplotsarraysizeof{pgfpl@cm@#1} %
@@ -1810,14 +1817,14 @@
\if c\pgfplots@colormap@access
% colormap access=piecewise constant
% This has a dedicated special interval at the rightmost
- % end.
+ % end.
% See comments in pgfplotscolormapfindpiecewiseconst@precomputed@
\def\pgfplots@order{0}%
%
\pgfplotscolormap@piecewiseconst@prepare@scale{#1}%
%
% interchange the sequence in the PDF function as it is
- % defined as
+ % defined as
% y = C0 + x^0 * (C1 - C0) = C1
% -> we want the left interval boundary.
\def\pgfplots@C@left{C1}%
@@ -1844,8 +1851,8 @@
\edef\pgfplots@loc@TMPd{%
<<
/FunctionType 2
- /Domain [0 \pgfplotscolormappdfmax]
- /\pgfplots@C@left\space [\pgfplots@loc@TMPa] /\pgfplots@C@right\space [\cdata]
+ /Domain [0 \pgfplotscolormappdfmax]
+ /\pgfplots@C@left\space [\pgfplots@loc@TMPa] /\pgfplots@C@right\space [\cdata]
/N \pgfplots@order
>>
}%
@@ -1883,8 +1890,8 @@
\edef\pgfplots@loc@TMPd{%
<<
/FunctionType 2
- /Domain [0 \pgfplotscolormappdfmax]
- /\pgfplots@C@left\space [\cdata] /\pgfplots@C@right\space [\cdata]
+ /Domain [0 \pgfplotscolormappdfmax]
+ /\pgfplots@C@left\space [\cdata] /\pgfplots@C@right\space [\cdata]
/N \pgfplots@order
>>
}%
@@ -1947,7 +1954,7 @@
% Example:
% \pgfplotscolormaptoshadingspec{my colormap}{4cm}{\output}
% \def\tempb{\pgfdeclarehorizontalshading{myshadingA}{1cm}}
-% \expandafter\tempb\expandafter{\temp}
+% \expandafter\tempb\expandafter{\temp}
%
% \pgfuseshading{myshadingA}
\def\pgfplotscolormaptoshadingspec#1#2#3{%
@@ -2034,10 +2041,10 @@
% 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 (i.e. of #4). This is required to
% map into the colormap.
-% [#3] (optional) the quantity
+% [#3] (optional) the quantity
% s := \pgfplotscolormaprange / (#2-#1).
% Precomputing this quantity may save a lot of time because
% divisions are expensive in TeX. You can omit [#3] or
@@ -2144,10 +2151,10 @@
% interpolation on the identified interval.
\c@pgf@counta=\pgfplotscolormapfind@intervalno\relax
% color^m(x) = ( (x-x_i)/(x_{i+1} - x_i) ) * (c_{i+1}^m - c_i^m ) + c_i^m
- % = ( x/h - i ) * ( c_{i+1}^m - c_{i}^m ) + c_i^m
+ % = ( x/h - i ) * ( c_{i+1}^m - c_{i}^m ) + c_i^m
% = s * c_{i+1}^m + S * c_i^m
%
- % s= x_h / h -i
+ % s= x_h / h -i
\pgfmathsubtract@{\pgfplotscolormapfind@transformedx@divh}{\pgfplotscolormapfind@intervalno}%
\let\pgfplots@loc@factor=\pgfmathresult
}{%
@@ -2210,12 +2217,12 @@
%
\pgfplotscolorzero{\csname pgfpl@cm@#5@col@comps\endcsname}%
\pgfplotscoloraddweighted
- {\csname pgfpl@cm@#5@col@comps\endcsname}
+ {\csname pgfpl@cm@#5@col@comps\endcsname}%
{\pgfplotsretval}%
{\pgfplots@loc@factor@two}%
{\pgfplotscolormapfind@rgb@LEFT}%
\pgfplotscoloraddweighted
- {\csname pgfpl@cm@#5@col@comps\endcsname}
+ {\csname pgfpl@cm@#5@col@comps\endcsname}%
{\pgfplotsretval}%
{\pgfplots@loc@factor}%
{\pgfplotscolormapfind@rgb@RIGHT}%
@@ -2234,10 +2241,10 @@
% interpolation. It 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 (i.e. of #4). This is required to
% map into the colormap.
-% [#3] (optional) the quantity
+% [#3] (optional) the quantity
% s := \pgfplotscolormaprange / (#2-#1).
% Precomputing this quantity may save a lot of time because
% divisions are expensive in TeX. You can omit [#3] or
@@ -2256,20 +2263,23 @@
}%
}%
\def\pgfplotscolormapfindpiecewiseconst@precomputed[#1:#2][#3]#4#5{%
- %\ifpgfplots@LUA@supported
- \iffalse
- % FIXME : implement
- \edef\pgfmathresult{%
- \pgfplotsutil@directlua{%
- pgfplots.texColorMapPrecomputed("#5", #1,#2,#4)
+ \ifpgfplots@LUA@supported
+ \pgfplotscolormapifisuniform{#5}{%
+ \edef\pgfmathresult{%
+ \pgfplotsutil@directlua{%
+ pgfplots.texColorMapFindPiecewiseConst("#5", #1,#2,#4)
+ }%
}%
- }%
- \ifx\pgfmathresult\pgfutil@empty
- \pgfplotscolormapfindpiecewiseconst@precomputed@warn@LUA{#5}%
+ \ifx\pgfmathresult\pgfutil@empty
+ \pgfplotscolormapfindpiecewiseconst@precomputed@warn@LUA{#5}%
+ \pgfplotscolormapfindpiecewiseconst@precomputed@[#1:#2][#3]{#4}{#5}%
+ \else
+ %\message{LUA colormapfindpiecewiseconst[#1:#2](#4)(#5) = \pgfmathresult^^J}%
+ \fi
+ }{%
+ % FIXME : implement LUA for non-uniform colormaps
\pgfplotscolormapfindpiecewiseconst@precomputed@[#1:#2][#3]{#4}{#5}%
- \else
- %\message{LUA colormapfindpiecewiseconst[#1:#2](#4)(#5) = \pgfmathresult^^J}%
- \fi
+ }%
\else
\pgfplotscolormapfindpiecewiseconst@precomputed@[#1:#2][#3]{#4}{#5}%
\fi
@@ -2296,9 +2306,9 @@
%
% I decided to enlarge the colormap artificially such that the
% rightmost color receives its own interval.
- %
+ %
% To this end, I recompute the coordinates at which colors "live".
- % The operations sounds more involved than it is: I simply need a NEW mesh width locally
+ % The operations sounds more involved than it is: I simply need a NEW mesh width locally
% inside of this function. The new mesh width H can be computed as
% follows, assuming that the OLD colormap has mesh width h.
%
@@ -2334,8 +2344,8 @@
%
% My idea is that I add an extra interval of length 'h' at the right end of
% the domain, i.e. I enlarge the domain to [0,1000+h].
- %
- % To this end, I map the input number linearly from
+ %
+ % To this end, I map the input number linearly from
% [0,1000] -> [0,1000+h]
% using k(t) = (1000+h)/1000 * t
%
@@ -2384,7 +2394,7 @@
%
\ifnum\c@pgf@counta=\pgfplotscolormapsizeof{#5}\relax
% we have artificially increased the "h" (see the comments
- % above) -- meaning that this 'if' can happen.
+ % above) -- meaning that this 'if' can happen.
% ->Map the rightmost point to the rightmost interval:
\advance\c@pgf@counta by-1
\fi
@@ -2394,7 +2404,7 @@
\let\pgfmathresult=\pgfplotscolormapfind@rgb@LEFT
\pgfmath@smuggleone\pgfmathresult
\endgroup
-}%
+}
\def\pgfplotscolormap@floor#1.#2\relax{%
\ifdim0.#2pt>0.999pt
@@ -2480,12 +2490,11 @@
% #1: is the value which should be mapped into the color map; it
% is expected in the range [0,1000] (like point meta).
\def\pgfplotscolormapdefinemappedcolor#1{%
- \expandafter\pgfplotscolormapaccess\expandafter[\pgfplotspointmetatransformedrange]
- [1.0]
- {#1}
- {\pgfkeysvalueof{/pgfplots/colormap name}}
+ \expandafter\pgfplotscolormapaccess\expandafter[\pgfplotspointmetatransformedrange]%
+ [1.0]%
+ {#1}%
+ {\pgfkeysvalueof{/pgfplots/colormap name}}%
%\message{Color for current point is RGB '\pgfmathresult' (determined using meta 'phi(\pgfplotspointmeta) = \pgfplotspointmetatransformed')^^J}%
\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 d08717c533a..743f4545eea 100644
--- a/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex
+++ b/Master/texmf-dist/tex/generic/pgfplots/util/pgfplotsutil.code.tex
@@ -937,6 +937,7 @@
}
% \pgfplotsforeachlogarithmicungrouped[<samples>] \x/\logx in {a:b} {#3}
+% \pgfplotsforeachlogarithmicungrouped[<samples>][<math id>] \x/\logx in {a:b} {#3}
%
% samples \x between a and b using a logarithmic scale.
%
@@ -947,75 +948,82 @@
% configured otherwise with \pgfplotsforeachlogarithmicsetoutput,
% see above.
%
-% Arithmethics will be carried out with the math class
-% '\pgfplotsforeachlogarithmicmathid'.
+% Arithmethics will be carried out with the math class '<math id>'
+% (defaults to '\pgfplotsforeachlogarithmicmathid').
% This macro should expand to something which is usable inside of
-% \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{....}
+% \pgfplotscoordmath{<math id>}{....}
% the default is 'float'
%
% FIXME : THIS CAN'T BE NESTED YET!
-\def\pgfplotsforeachlogarithmicungrouped[#1]#2/#3{\pgfplotsforeachlogarithmicungrouped@[#1]{#2}{#3}}%
-\long\def\pgfplotsforeachlogarithmicungrouped@[#1]#2#3in #4#5{%
+\def\pgfplotsforeachlogarithmicungrouped[#1]{%
+ \pgfutil@ifnextchar[{%
+ \pgfplotsforeachlogarithmicungrouped@[#1]%
+ }{%
+ \pgfplotsforeachlogarithmicungrouped@[#1][\pgfplotsforeachlogarithmicmathid]%
+ }%
+}%
+\def\pgfplotsforeachlogarithmicungrouped@[#1][#2]#3/#4{\pgfplotsforeachlogarithmicungrouped@@[#1][#2]{#3}{#4}}%
+\long\def\pgfplotsforeachlogarithmicungrouped@@[#1][#2]#3#4in #5#6{%
% define
- % \pgfplots@foreach@loc@TMPd = N in fixed point
- % \pgfplots@foreach@loc@TMPc = N-1 in float :
+ % \pgfplots@foreachlog@loc@TMPd = N in fixed point
+ % \pgfplots@foreachlog@loc@TMPc = N-1 in float :
\edef\pgfplots@plot@samples@@{#1}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{one}%
- \let\pgfplots@foreach@loc@TMPa=\pgfmathresult
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{parsenumber}{\pgfplots@plot@samples@@}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{op}{subtract}{{\pgfmathresult}{\pgfplots@foreach@loc@TMPa}}%
- \let\pgfplots@foreach@loc@TMPc=\pgfmathresult
+ \pgfplotscoordmath{#2}{one}%
+ \let\pgfplots@foreachlog@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{#2}{parsenumber}{\pgfplots@plot@samples@@}%
+ \pgfplotscoordmath{#2}{op}{subtract}{{\pgfmathresult}{\pgfplots@foreachlog@loc@TMPa}}%
+ \let\pgfplots@foreachlog@loc@TMPc=\pgfmathresult
%
- \edef\pgfplots@loc@TMPb{#4}%
- \expandafter\pgfplotsforeachlogarithmicungrouped@readdomain\pgfplots@loc@TMPb\relax
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{if is bounded}{\pgfplots@foreach@loc@TMPb}{%
+ \edef\pgfplots@loc@TMPb{#5}%
+ \expandafter\pgfplotsforeachlogarithmicungrouped@readdomain\pgfplots@loc@TMPb\relax{#2}%
+ \pgfplotscoordmath{#2}{if is bounded}{\pgfplots@foreachlog@loc@TMPb}{%
}{%
- \pgfplotsforeachlogarithmicmath@unbounded@domain{#4}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{parsenumber}{-10000}%
- \let\pgfplots@foreach@loc@TMPb=\pgfmathresult
+ \pgfplotsforeachlogarithmicmath@unbounded@domain{#5}%
+ \pgfplotscoordmath{#2}{parsenumber}{-10000}%
+ \let\pgfplots@foreachlog@loc@TMPb=\pgfmathresult
}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{if is bounded}{\pgfplots@foreach@loc@TMPa}{%
+ \pgfplotscoordmath{#2}{if is bounded}{\pgfplots@foreachlog@loc@TMPa}{%
}{%
- \pgfplotsforeachlogarithmicmath@unbounded@domain{#4}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{parsenumber}{-10000}%
- \let\pgfplots@foreach@loc@TMPa=\pgfmathresult
+ \pgfplotsforeachlogarithmicmath@unbounded@domain{#5}%
+ \pgfplotscoordmath{#2}{parsenumber}{-10000}%
+ \let\pgfplots@foreachlog@loc@TMPa=\pgfmathresult
}%
- % compute mesh width into \pgfplots@foreach@loc@TMPc:
- % \pgfplots@foreach@loc@TMPc := h := ( log(xmax) - log(xmin) ) / (N-1)
- \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
+ % compute mesh width into \pgfplots@foreachlog@loc@TMPc:
+ % \pgfplots@foreachlog@loc@TMPc := h := ( log(xmax) - log(xmin) ) / (N-1)
+ \pgfplotscoordmath{#2}{op}{subtract}{{\pgfplots@foreachlog@loc@TMPb}{\pgfplots@foreachlog@loc@TMPa}}%
+ \pgfplotscoordmath{#2}{op}{divide}{{\pgfmathresult}{\pgfplots@foreachlog@loc@TMPc}}%
+ \let\pgfplots@foreachlog@loc@TMPc=\pgfmathresult
%
% apply local scoping here:
- \edef\pgfplots@foreach@loc@TMPd{%
+ \edef\pgfplots@foreachlog@loc@TMPd{%
\noexpand\c@pgf@counta=\the\c@pgf@counta\noexpand\relax
}%
- \long\def\pgfplots@foreach@loc@TMPf{#5}%
+ \long\def\pgfplots@foreachlog@loc@TMPf{#6}%
\c@pgf@counta=0
\pgfutil@loop
\ifnum\c@pgf@counta<\pgfplots@plot@samples@@
% compute exp(log(min) + i * h)
\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}}%
+ \pgfplotscoordmath{#2}{parsenumber}{\pgfplots@loc@TMPa}%
+ \pgfplotscoordmath{#2}{op}{multiply}{{\pgfmathresult}{\pgfplots@foreachlog@loc@TMPc}}%
+ \pgfplotscoordmath{#2}{op}{add}{{\pgfmathresult}{\pgfplots@foreachlog@loc@TMPa}}%
\let\pgfplots@loc@TMPa=\pgfmathresult
\pgfplotsforeachlogarithmicungrouped@finalizeresult%
- \let#3=\pgfmathresult
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{exp}{\pgfplots@loc@TMPa}%
+ \let#4=\pgfmathresult
+ \pgfplotscoordmath{#2}{exp}{\pgfplots@loc@TMPa}%
\pgfplotsforeachlogarithmicungrouped@finalizeresult%
- \let#2=\pgfmathresult
+ \let#3=\pgfmathresult
%
% ok, invoke it!
% -> store \c@pgf@counta before doing so. We need to scope
% manually here.
- \edef\pgfplots@foreach@loc@TMPe{\the\c@pgf@counta}%
- \pgfplots@foreach@loc@TMPf\relax
- \c@pgf@counta=\pgfplots@foreach@loc@TMPe\relax
+ \edef\pgfplots@foreachlog@loc@TMPe{\the\c@pgf@counta}%
+ \pgfplots@foreachlog@loc@TMPf\relax
+ \c@pgf@counta=\pgfplots@foreachlog@loc@TMPe\relax
\advance\c@pgf@counta by 1
\pgfutil@repeat
% restore scoped variables:
- \pgfplots@foreach@loc@TMPd
+ \pgfplots@foreachlog@loc@TMPd
}
\def\pgfplotsforeachlogarithmicmath@unbounded@domain#1{%
@@ -1030,16 +1038,16 @@
\def\pgfplotsforeachlogarithmicmathid{float}
% defines
-% \pgfplots@foreach@loc@TMPa := log(firstintervalpt)
+% \pgfplots@foreachlog@loc@TMPa := log(firstintervalpt)
% and
-% \pgfplots@foreach@loc@TMPb := log(secondintervalpt)
-\def\pgfplotsforeachlogarithmicungrouped@readdomain#1:#2\relax{%
+% \pgfplots@foreachlog@loc@TMPb := log(secondintervalpt)
+\def\pgfplotsforeachlogarithmicungrouped@readdomain#1:#2\relax#3{%
\pgfplotscoordmath{default}{parse}{#1}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{log}{\pgfmathresult}%
- \let\pgfplots@foreach@loc@TMPa=\pgfmathresult
+ \pgfplotscoordmath{#3}{log}{\pgfmathresult}%
+ \let\pgfplots@foreachlog@loc@TMPa=\pgfmathresult
\pgfplotscoordmath{default}{parse}{#2}%
- \pgfplotscoordmath{\pgfplotsforeachlogarithmicmathid}{log}{\pgfmathresult}%
- \let\pgfplots@foreach@loc@TMPb=\pgfmathresult
+ \pgfplotscoordmath{#3}{log}{\pgfmathresult}%
+ \let\pgfplots@foreachlog@loc@TMPb=\pgfmathresult
}
% invokes '#2' if #1 expands (\edef) to the empty string or '#3' if not.