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%D \module
%D [ file=supp-tpi,
%D version=1997.07.05,
%D title=\CONTEXT\ Support Macros,
%D subtitle=\TPIC\ Conversion,
%D author=Hans Hagen,
%D date=\currentdate,
%D copyright={PRAGMA / Hans Hagen \& Ton Otten}]
%C
%C This module is part of the \CONTEXT\ macro||package and is
%C therefore copyrighted by \PRAGMA. See mreadme.pdf for
%C details.
%D This modules implements the conversion of graphic \TPIC\
%D specials using \METAPOST.
%D
%D We reimplement the \TPIC\ specials using the special
%D mimmicking mechanism implemented in the support module
%D \type{supp-spe} as well as the \METAPOST\ run||time support
%D implemented in \type{supp-mps}.
\beginLUATEX \endinput \endLUATEX % to be sure, we don't want to load the following
\ifx\undefined\writestatus \input supp-mis \relax \fi
\ifx\undefined\mimmickspecials \input supp-spe \relax \fi
\ifx\undefined\MPgraphicbox \input supp-mps \relax \fi
\ifx\undefined\dogetEPSboundingbox \input supp-eps \relax \fi
\writestatus{loading}{Context Support Macros / TPIC Conversion}
%D Beware: we haven't activated both mechanism yet. This is
%D to be done in the calling module.
\unprotect
%D When we want to mimmick \TPIC\ specials in \PDFTEX, we need
%D to map its graphic primitives into \PDF\ ones. The main
%D problem in doing so is that \PDF\ does not support b-splines
%D directly and also does not offer us something to draw arcs.
%D Of course all this scan be implemented in \TEX, and the
%D first implementation of this module did so, but the results
%D were not that satisfying. Not having used these specials
%D before, I had for instance to find out that the \TPIC\
%D specials were not that unambiguesly defined.
%D
%D Then, while discussing something else, Sebastian Ratz told
%D me that the Web2c implementation that \PDFTEX\ is base upon,
%D offers some rather discutable, but nevertheless handy
%D feature:
%D
%D \starttyping
%D \write18{execute program with arguments}
%D \stoptyping
%D
%D Knowing this, I immediatelly decided to throw away the old
%D conversion macros and use the marvelous \METAPOST, \TEX\
%D related, drawing program to do the conversion in as high a
%D quality as possible.
%D
%D implementation we're going to present here, not only uses
%D for drawing purposes, but also uses the more efficient
%D \METAPOST\ features to store the path.
%D
%D \in{Table}[tab:TPIC specials] lists the \TPIC\ specials as
%D mentioned in the \LATEX\ Graphics Companion and the
%D relevant part of the \DVIPS\ source. This list shows us
%D that we have to store the path before we can use it, simply
%D because we don't know in advance what actions to apply on
%D it.
%D
%D \placetable[here][tab:TPIC specials]{The \TPIC\ special syntax.}
%D \starttable[|||l|]
%D \HL
%D \NC \bf tag \NC \bf arguments \NC \bf meaning \NC\SR
%D \HL
%D \NC pn \NC $w$ \NC set linewidth \NC\FR
%D \NC pa \NC $x$ $y$ \NC add point to path \NC\MR
%D \NC fp \NC \NC draw/fill path \NC\MR
%D \NC ip \NC \NC fill path \NC\MR
%D \NC da \NC $l$ \NC draw dashed path \NC\MR
%D \NC dt \NC $l$ \NC draw doted path \NC\MR
%D \NC sp \NC $d$ \NC draw spline \NC\MR
%D \NC ar \NC $x$ $y$ $r_x$ $r_y$ $b$ $e$ \NC draw (partial) arc \NC\MR
%D \NC ia \NC $x$ $y$ $r_x$ $r_y$ $b$ $e$ \NC fill (partial) arc \NC\MR
%D \NC sh \NC $s$ \NC fill next path \NC\LR
%D \HL
%D \stoptable
%D The first problem we have to take care of is the fact that
%D there is no decent begin or end of the drawing process
%D defined. We can however be quite sure that writers of
%D packages using these specials will put them into a box,
%D simply because else this is the most common used way to
%D treat something \TEX\ as as a whole, like:
%D
%D \starttyping
%D \hbox{\special{}\special{}...}
%D \stoptyping
%D
%D We just start a picture as soon as the first special is
%D encountered, so this becomes:
%D
%D \starttyping
%D \hbox{\openpicture\newspecial{}\newspecial{}...
%D \stoptyping
%D The first step in opening the picture is to start a group.
%D Now we can savely use the egroup that closes the box to also
%D end the picture.
% BETER: check for context and include mp-tool.mp
\def\startTPICspecials
{\bgroup
\let\startTPICspecials\relax
\aftergroup\stopTPICspecials
\resetMPdrawing
\startMPdrawing
input mp-tool.mp;
pair p[];
\stopMPdrawing}
%D As soon as we begin a picture, we inhibit nesting by
%D relaxing the start macro. The first \METAPOST\ action we
%D take is declaring an array of pairs named $p$.
%D Ending the picture is invoked by closing the current group.
%D Because the \TPIC\ picture comes out mirrored, we have to
%D reflect the current \METAPOST\ picture, stored in the system
%D variable {\it currentpicture}, around the $x$-axis.
\def\stopTPICspecials
{\startMPdrawing
currentpicture:=currentpicture reflectedabout ((0,0),(4095,0));
\stopMPdrawing
\MPdrawingdonetrue
\setbox\MPgraphicbox\hbox
{\getMPdrawing}%
\setbox\MPgraphicbox\hbox to \zeropoint
{\kern-\wd\MPgraphicbox
\vbox to \zeropoint{\box\MPgraphicbox\vss}\hss}%
\ht\MPgraphicbox\zeropoint
\wd\MPgraphicbox\zeropoint
\dp\MPgraphicbox\zeropoint
\box\MPgraphicbox
\egroup}
%D Here the macro \type{\stopwritingMPgraphic} has to take care
%D of executing and including the \METAPOST\ code.
%D We need to keep track of the number of elements that form
%D the path. This is needed because we don't know in advance
%D how the points are to be connected.
\newcount\TPICcounter
%D When a path is draw, we can connect the points using a
%D smooth curve of drawing straight lines. A closed path can be
%D drawn or filled.
\newif\ifTPICdraw
\newif\ifTPICfill
\newif\ifTPICcurve
%D The \TPIC\ specials permit specifying the line and fill
%D color as well as the linetype, which can be solid, dashed or
%D dotted. We'll save those specifications as a \METAPOST\
%D string, using:
\let\TPIClinetype =\empty
\let\TPICgrayscale=\empty
%D The magic reduction factor $.07227$ is needed to map the
%D \TPIC\ $1/1000$ of an inch to \POSTSCRIPT\ points. We cannot
%D delegate this task to \METAPOST\ because this program does
%D not accept values greater than 4095.
%D I won't discuss all the specifics used in implementing
%D the specials. The \METAPOST\ part is rather trivial. Many
%D specials have much in common, so the amout of code is not
%D that large.
\redefinespecial pa \using#1 #2\endspecial
{\startTPICspecials
\bgroup
\global\advance\TPICcounter 1
\dimen0=#1pt \dimen0=.07227\dimen0
\dimen2=#2pt \dimen2=.07227\dimen2
\startMPdrawing
p[\the\TPICcounter]:=(\the\dimen0,\the\dimen2);
\stopMPdrawing
\egroup}
\redefinespecial pn \using#1\endspecial
{\startTPICspecials
\bgroup
\dimen0=#1pt \dimen0=.07227\dimen0
\startMPdrawing
pickup pencircle scaled \the\dimen0;
\stopMPdrawing
\egroup}
\redefinespecial sh \using#1\endspecial
{\startTPICspecials
\bgroup
\edef\g{#1}%
\edef\g{\ifx\g\empty.5\else#1\fi}%
\xdef\TPICgrayscale{withcolor (\g,\g,\g)}%
\egroup}
\redefinespecial wh \using#1\endspecial
{\mimmickspecial sh \using0\endspecial}
\redefinespecial bk \using#1\endspecial
{\mimmickspecial sh \using1\endspecial}
\redefinespecial da \using#1\endspecial
{\startTPICspecials
\bgroup
\edef\l{#1}%
\ifx\l\empty
\gdef\TPIClinetype{dashed evenly}%
\else
\dimen0=#1in
\ifdim\dimen0<\!!zeropoint \dimen0=-\dimen0\fi
\edef\f{\the\dimen0 \space}%
\dimen0=.5\dimen0
\edef\h{\the\dimen0 \space}%
\xdef\TPIClinetype{dashed dashpattern (on \h off \f on \h)}%
\fi
\egroup
\TPICcurvefalse\TPICdrawtrue
\drawTPICpath\using#1\endspecial}
\redefinespecial dt \using#1\endspecial
{\startTPICspecials
\bgroup
\edef\l{#1}%
\xdef\TPIClinetype{dashed withdots \ifx\l\empty\else scaled #1in\fi}%
\egroup
\TPICcurvefalse\TPICdrawtrue
\drawTPICpath\using#1\endspecial}
\redefinespecial fp \using#1\endspecial
{\startTPICspecials
\TPICcurvefalse\TPICdrawtrue
\ifdim0#1pt=\!!zeropoint
\drawTPICpath\using#1\endspecial
\else\ifdim0#1pt<\!!zeropoint
\mimmickspecial dt\using#1\endspecial
\else
\mimmickspecial da\using#1\endspecial
\fi\fi}
\redefinespecial sp
{\startTPICspecials\TPICdrawtrue\TPICcurvetrue\drawTPICpath}
\redefinespecial ip
{\startTPICspecials\TPICfilltrue\drawTPICpath}
\redefinespecial ar
{\startTPICspecials\TPICdrawtrue\drawTPICarc}
\redefinespecial ia
{\startTPICspecials\TPICfilltrue\drawTPICarc}
%D These substitutes use two auxiliary macros that take care of
%D actually drawing the shape or arc. Here we use the stored
%D linetype (solid, dashed, dotted) and color (grayscale).
\def\drawTPICpath\using#1\endspecial
{\bgroup
\ifTPICdraw
\def\TPICgrayscale{}%
\fi
\startMPdrawing
\ifTPICfill fill\fi\ifTPICdraw draw\fi\space
for i:=1 upto \the\TPICcounter-1:
p[i]\ifTPICcurve..\else--\fi
endfor
p[\the\TPICcounter]
\ifTPICfill\ifTPICcurve..\else--\fi cycle \fi
\TPIClinetype\space\TPICgrayscale;
\stopMPdrawing
\resetTPICvariables
\egroup}
%D I have to admit that at the moment I wrote this macro, I
%D could not write this piece of \METAPOST. Fortunately
%D Thortsen Ohl promptly answered the question I posted to the
%D \METAFONT\ discussion list.
\def\drawTPICarc\using#1 #2 #3 #4 #5 #6\endspecial
{\bgroup
\ifTPICdraw
\def\TPICgrayscale{}%
\fi
\dimen 0=#1pt\dimen 0=.07227\dimen 0
\dimen 2=#2pt\dimen 2=.07227\dimen 2
\dimen10=#3pt\dimen10=.14454\dimen10
\dimen12=#4pt\dimen12=.14454\dimen12
\dimen20=#5pt
\dimen22=#6pt
\startMPdrawing
\ifTPICfill fill\fi\ifTPICdraw draw\fi \space
\ifTPICfill\else subpath 4/3.14159*(\the\dimen20,\the\dimen22) of \fi
fullcircle xscaled \the\dimen10 \space yscaled \the\dimen12 \space
shifted (\the\dimen0,\the\dimen2)
\TPIClinetype \space \TPICgrayscale;
\stopMPdrawing
\resetTPICvariables
\egroup}
%D Resetting the variables need to be done globally because we
%D cannot be sure if any further grouping is used by the
%D envelopping macros.
\def\resetTPICvariables
{\global\TPICcounter\zerocount
\global\TPICfillfalse
\global\TPICdrawfalse
\global\let\TPIClinetype\empty
\global\let\TPICgrayscale\empty}
%D I have to admit that by using the \METAPOST\ B‚zier cubics
%D routines these implementation does produce better curves
%D then most \DVI\ drivers do using the \TPIC\ prescribed
%D b-splines. Take for instance the sequence:
%D
%D \starttyping
%D \special{pa 2000 1000}
%D \special{pa 1000 2000}
%D \special{pa 0000 1000}
%D \special{pa 1000 0000}
%D \special{pa 2000 1000}
%D \special{sp}
%D \stoptyping
%D
%D One would expect that this code produced a closed circle,
%D but the curve that comes out using b-splines is far from
%D round. We can however savely asume that the arc producing
%D specials will be used for drawing circle fragments, while
%D the path specials will be used for arbitraty curves. And for
%D b-splines to produce nice curves, one will often use many
%D points to get the desired results. Therefore, using the
%D \METAPOST\ B‚zier curves will certainly produce similar and
%D even better graphics, except in those rare cases where one
%D uses delinberately the not that accurate features of
%D b-splines. Hereby the user is warned.
\protect \endinput
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