diff options
-rwxr-xr-x | Build/tools/tpm-ctan-check | 2 | ||||
-rw-r--r-- | Master/texmf-dist/doc/latex/gastex/README | 57 | ||||
-rw-r--r-- | Master/texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex | 107 | ||||
-rwxr-xr-x | Master/texmf-dist/doc/latex/gastex/ex-gastex.tex | 469 | ||||
-rwxr-xr-x | Master/texmf-dist/dvips/gastex/gastex.pro | 162 | ||||
-rwxr-xr-x | Master/texmf-dist/tex/latex/gastex/gastex.sty | 1959 | ||||
-rw-r--r-- | Master/texmf-dist/tpm/gastex.tpm | 28 | ||||
-rw-r--r-- | Master/texmf/lists/gastex | 9 | ||||
-rw-r--r-- | Master/texmf/tpm/collection-science.tpm | 1 |
9 files changed, 2793 insertions, 1 deletions
diff --git a/Build/tools/tpm-ctan-check b/Build/tools/tpm-ctan-check index a59d932c7ee..f5d530bbced 100755 --- a/Build/tools/tpm-ctan-check +++ b/Build/tools/tpm-ctan-check @@ -111,7 +111,7 @@ my @WorkingTPM = qw( vancouver variations varindex vector velthuis verse versions vhistory visualfaq vmargin volumes vpe wallpaper warning warpcol williams wordlike wrapfig - xcolor xifthen xkeyval xq xtab xyling xypic-tut-pt + xtcapts xcolor xifthen xkeyval xq xtab xyling xypic-tut-pt xytree york-thesis ); diff --git a/Master/texmf-dist/doc/latex/gastex/README b/Master/texmf-dist/doc/latex/gastex/README new file mode 100644 index 00000000000..1f14e8cb6d2 --- /dev/null +++ b/Master/texmf-dist/doc/latex/gastex/README @@ -0,0 +1,57 @@ +This is the README file for gastex package. + +GasTeX: Graphs and Automata Simplified in TeX + +GasTeX is a set of LaTeX macros which allow to draw very easily graphs, +automata, nets, diagrams, etc... under the picture environment of LaTeX. + +Author: +------- +Paul Gastin <http://www.lsv.ens-cachan.fr/~gastin> + +Copyright: 2006 by Paul Gastin +---------- +This program can be redistributed and/or modified under the terms +of the LaTeX Project Public License Distributed from CTAN +archives in directory macros/latex/base/lppl.txt. + +Installation: +------------- +In order to use gastex you only need two files: +- gastex.sty which contains the definition of all the LaTeX macros (this file +could be in your working folder or where other .sty files are). +- gastex.pro which contains all the postscript procedures (this file could +be in your working folder but it is best placed where the tex.pro file is). + +Usage: latex+dvips(+ps2pdf) +------ +- Compile the source file with latex (not pdflatex) and generate the ps file +with dvips. One may then use ps2pdf to get a pdf file. + +Remarks: +-------- +- gastex mainly generates postscript code so the pictures cannot be seen with a +dvi-viewer. One has to generate a ps file (latex+dvips) and view it with a +ps-viewer. One can also generate a pdf file (latex+dvips+ps2pdf) and view +it with a pdf-viewer. +- gastex does not work with pdflatex since it produces postscript code +which cannot be interpreted by a pdf viewer. Instead, one should generate +the pdf file with latex+dvips+ps2pdf. + +Examples: +--------- +- Several examples are provided on the gastex web page at +http://www.lsv.ens-cachan.fr/~gastin/gastex/gastex.html +- ex-gastex.tex contains some examples to learn gastex and to test your +installation. +- ex-beamer-gastex.tex shows how gastex may be used with beamer in order to +produce very nice animated slides. You have to compile the file through +latex-dvips-ps2pdf (not pdflatex). + +Documentation: +-------------- +See http://www.lsv.ens-cachan.fr/~gastin/gastex/gastex.html +The best is to learn with the examples (see above). +Comments in the file gastex.sty provide documentation for all macros. + +Enjoy!
\ No newline at end of file diff --git a/Master/texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex b/Master/texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex new file mode 100644 index 00000000000..d35ab955a4c --- /dev/null +++ b/Master/texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex @@ -0,0 +1,107 @@ +% \documentclass[10pt,mathserif,handout]{beamer} +\documentclass[10pt,mathserif,display]{beamer} +\usepackage{gastex} +\gasset{linewidth=0.21,AHdist=2.1,AHLength=2.25,AHlength=2.1} +\gasset{ATdist=2.1,ATLength=2.25,ATlength=2.1} +% \usepackage{beamerthemeEPIT} +\usepackage{beamerthemeplain} + +\beamersetleftmargin{3mm} +\beamersetrightmargin{3mm} +\abovedisplayskip=1ex +\belowdisplayskip=1ex +\parskip=.5ex +\parindent=0pt + +\newcommand{\Auto}{\mathcal{A}} +\newcommand{\F}{\mathop{\mathsf{F}\vphantom{a}}\nolimits} +\newcommand{\G}{\mathop{\mathsf{G}\vphantom{a}}\nolimits} +\newcommand{\X}{\mathop{\mathsf{X}\vphantom{a}}\nolimits} +\newcommand{\True}{\top} +\newcommand{\False}{\bot} + +\newcommand{\Blue}[1]{\textcolor{blue}{#1}} +\newcommand{\Red}[1]{\textcolor{red}{#1}} +\newcommand{\Green}[1]{\textcolor{PineGreen}{#1}} + +\begin{document} + + +%%%%%%%%%%%%%%%%%%%%%% +\frame{ + \frametitle{Automaton $\Auto_\varphi$} + \vspace{-7mm} + \begin{center}\scalebox{0.9}{ + \begin{picture}(130,71)(-12,0)\nullfont +% \put(-12,0){\framebox(130,71){}} + \gasset{Nadjust=w,Nadjustdist=2,Nh=8,fillcolor=White,Nfill=y,ilength=7} + {\only<7-| handout:0>{\gasset{fillcolor=yellow}} + \node[Nmarks=i](1)(10,45){$\varphi=\G(\neg p\vee\F q)$}} + \node(2)(10,25){$\neg p\vee\F q, \X\varphi$}\drawedge(1,2){} + \node(3)(10,05){$\neg p, \X\varphi$}\drawedge(2,3){} + \node(4)(40,25){$\F q, \X\varphi$}\drawedge(2,4){} + \node(5)(40,45){$q, \X\varphi$}\drawedge(4,5){} + \node(6)(40,05){$\X\F q, \X\varphi$}\drawedge(4,6){\Blue{$\F q$}} + + \only<2->{ + \only<2| handout:0>{\gasset{linecolor=Red}} + \drawedge[curvedepth=15](3,1){$\neg p$} + \drawedge[ELside=r,ELpos=35](5,1){$q$} + {\only<7-| handout:0>{\gasset{fillcolor=yellow}} + \node(7)(70,05){$\F q, {\only<3| handout:0>{\color{red}}\varphi}$}} + \drawedge(6,7){$\True$} + } + \only<3->{ + \only<3| handout:0>{\gasset{linecolor=Red}} + \node(8)(70,25){$\F q, + {\only<3-4| handout:0>{\color{red}}\neg p\vee\F q}, + {\only<3| handout:0>{\color{red}}\X\varphi}$} + \drawedge(7,8){} + } + \only<4->{ + \only<4| handout:0>{\gasset{linecolor=Red}} + \node(9)(70,45){${\only<5| handout:0>{\color{red}}\F q}, + {\only<4| handout:0>{\color{red}}\neg p}, + \X\varphi$} + \drawedge[ELpos=55](8,4){} + \drawedge(8,9){} + } + \only<5->{ + \node(10)(105,25){${\only<5| handout:0>{\color{red}}\X\F q}, + \neg p, \X\varphi$} + \node(11)(40,65){${\only<5| handout:0>{\color{red}}q}, + \neg p, \X\varphi$} + \only<5| handout:0>{\gasset{linecolor=Red}} + \drawedge(9,10){\Blue{$\F q$}} + \drawedge(9,11){} + } + \only<6->{ + \only<6| handout:0>{\gasset{linecolor=Red}} + \drawedge(10,7){$\neg p$} + \drawedge[ELside=r](11,1){$\neg p\wedge q$} + } + \only<7->{\put(18,18){ +% \drawrect(58,33,100,53) + \gasset{loopdiam=5,Nw=7,Nh=7} + \gasset{fillcolor=yellow} + \node[Nmarks=i,ilength=5](A)(72,40){1} + \node(B)(92,40){2} + \drawedge[curvedepth=2,linecolor=blue](A,B){$\True$} + \drawedge[curvedepth=2](B,A){$q$} + \only<7>{\drawedge[curvedepth=8](B,A){$\neg p\wedge q$}} + \drawloop(A){$\neg p\vee q$} + \drawloop[linecolor=blue](B){$\True$} + \only<7>{\drawloop[ELpos=75,linecolor=blue,loopangle=0](B){$\neg p$}} + }} + \end{picture}} + \end{center} + + \vspace{-2mm} + \uncover<2->{{\only<2>{\color{red}} + Transition = check litterals and move forward.}} + + \uncover<8->{{\only<8>{\color{red}} + Simplification}} +} + +\end{document} diff --git a/Master/texmf-dist/doc/latex/gastex/ex-gastex.tex b/Master/texmf-dist/doc/latex/gastex/ex-gastex.tex new file mode 100755 index 00000000000..42cbd1155f5 --- /dev/null +++ b/Master/texmf-dist/doc/latex/gastex/ex-gastex.tex @@ -0,0 +1,469 @@ +%&latex +\documentclass{article} +\usepackage[usenames]{color} +\usepackage{gastex} + +\begin{document} + +% Peterson automaton + +\begin{center} +\begin{picture}(85,33)(-20,-28) +% \put(-20,-28){\framebox(85,33){}} + \gasset{Nadjust=w,Nadjustdist=2,Nh=6,Nmr=1} + \node[Nmarks=i](A)(0,0){idle} + \node(B)(50,0){wait} + \node(C)(50,-20){wait} + \node[Nmarks=r](D)(0,-20){critical} + + \drawedge(A,B){req1:=true} + \drawedge(B,C){turn:=2} + \drawedge[syo=-1,eyo=-1](C,D){turn=1?} + \drawedge[syo=1,eyo=1,ELside=r](C,D){req2=false?} + \drawedge(D,A){req1:=false} +\end{picture} +\end{center} + +% Petri Net and offsets + +\begin{center} +\begin{picture}(110,50)(-25,-24) +% \put(-25,-24){\framebox(110,50){}} + \node(A)(-20,-7){$\bullet \bullet$} + \node(B)(-20, 7){$\bullet$} + \node(C)( 20,-7){} + \node(D)( 20, 7){} + \gasset{Nw=.7,Nh=7,Nmr=0,fillgray=0} % black rectangle + \gasset{ExtNL=y,NLdist=1,NLangle=90} % external label above the node + \node(Ta)(0, 0){$a$} + \node(Tb)(0,-20){$b$} + \node(Tc)(0, 20){$c$} + + \gasset{ELdistC=y,ELdist=0} + \drawedge[ELside=r,eyo=-1](A,Ta){\colorbox{white}{2}}\drawedge[eyo=1](B,Ta){} + \drawedge[syo=-1](Ta,C){}\drawedge[syo=1](Ta,D){} + {\gasset{curvedepth=4}\drawedge(C,Tb){}\drawedge(Tb,A){\colorbox{white}{2}}} + {\gasset{curvedepth=-4}\drawedge(D,Tc){}\drawedge[syo=1](Tc,B){}} + \drawbpedge[syo=-1,ELpos=70](Tc,-160,15,D,170,20){\colorbox{white}{3}} +% offsets + \put(40,-15){\unitlength=1.2mm + \gasset{Nmr=0,Nfill=y,fillgray=0} + \node[Nw= 1,Nh=10](B)(0,20){} + \node[Nw= 1,Nh=10](C)(30,20){} + \node[Nw=10,Nh= 1](D)(15,0){} + \drawedge[syo=3,eyo=3,curvedepth=3](B,C){} + \drawedge[syo=1,eyo=1](B,C){} + \drawedge[syo=-1,eyo=-1](C,B){} + \drawbpedge[syo=4,eyo=4](B,165,30,C,15,30){} + \drawbpedge[syo=-3,exo=-3](B,0,10,D,90,10){} + \drawbpedge[syo=-3](C,180,10,D,90,10){} + \drawbpedge[sxo=3,eyo=-5](D,90,10,C,-90,10){} + \drawloop[sxo=-3,loopdiam=4,loopangle=-90](D){} + \drawloop[sxo= 3,loopdiam=4,loopangle=-90](D){} + } +\end{picture} +\end{center} + +% Diagram + +\begin{center} +\begin{picture}(105,28)(-33,-3) +% \put(-33,-3){\framebox(105,28){}} + \gasset{Nframe=n,Nadjust=w,Nh=6,Nmr=0} + \node(L)(0,20){$\mathcal{L}$} + \node(F)(30,20){$[F^V\to F]$} + \node(O1)( 20,0){$(\mathcal{P}(R)^V\to 2^{M\times\mathcal{P}(R)})$} + \node(O2)(-20,0){$(\mathcal{P}(R)^V\to 2^M)$} + \node(B1)( 60,0){$(\mathcal{P}(R)^V\to F)$} + + \drawedge[ELpos=40](L,F){$[\![ -]\!]$} + \drawedge(L,O1){$X_F$} + \drawedge(F,O1){$\chi$} + \drawedge[ELside=r](L,O2){$X_M$} + \drawedge[ELpos=55](O1,B1){$\sqcup$} + \drawedge[ELside=r,ELpos=53](O1,O2){$\mathrm{Re}$} +\end{picture} +\end{center} + +% and more ... + +\begin{center} +\begin{picture}(120,52)(-35,-37) +% \put(-35,-37){\framebox(120,52){}} + \node[Nw=16,linecolor=Yellow,fillcolor=Yellow](A)(-20,0){initial} + \imark[iangle=200,linecolor=Peach](A) + \node[Nmr=0,Nw=14,fillgray=0.85, + dash={1}0](B)( 20,0){\textcolor{RedViolet}{final}} + \fmark[flength=10,fangle=-30,dash={3 1 1 1}0](B) + \node[Nadjust=wh,Nadjustdist=2,Nmr=3,Nmarks=r,linecolor=Green](C)(60,-20){$\left( + \begin{array}{ccc} + 2 & 1 & 0 \\ + -1 & 0 & 1 \\ + 0 & -1 & 2 + \end{array} + \right)$} + \rmark[linecolor=Green,rdist=1.4](C) + + \drawedge[curvedepth=5,linecolor=Red](A,B){\textcolor{Cyan}{curved}} + \drawedge[ELside=r,ELpos=35](A,B){straight} + \drawedge[curvedepth=-25,ELside=r,dash={1.5}0](A,B){far} + \drawloop[ELpos=75, loopangle=150, dash={0.2 0.5}0](A){loopCW} + \drawloop[loopCW=n,ELside=r,loopangle=30,dash={3 1.5}{1.5}](B){loopCCW} + \drawqbpedge[ELside=r,ELdist=0,dash={4 1 1 1}0](B,-90,C,180){qbpedge} + \drawloop[ELpos=70,loopangle=0](C){$b / 01$} + \drawloop[loopCW=n,ELpos=75,ELside=r,loopangle=-90,sxo=6](C){$a / 01$} + \drawloop[ELpos=75,loopangle=-90,sxo=-6](C){$b / 10 $} + \drawloop[loopangle=50](C){$b / 01$} + \drawloop[ELpos=75,loopangle=148](C){$b / 01$} +\end{picture} +\end{center} + +% Edges + +\begin{center} +\begin{picture}(120,60)(-32,-14) +% \put(-32,-14){\framebox(120,60){}} + \node(A)(10,0){}\node(B)(40,0){} + \drawedge(A,B){straight} + \drawedge[curvedepth=8](A,B){positive curve depth} + \drawedge[curvedepth=-8,ELside=r](A,B){negative curve depth} + \drawloop[loopangle=180](A){180} + \drawloop[loopangle=0](B){0} + + \node(A)(-15,30){}\node(B)(15,30){} + \drawqbedge(A,-15,50,B){qbedge} + \drawbcedge(A,-20,10,B,20,10){bcedge} + \drawloop[loopangle=210](A){210} + \drawloop[loopangle=90,loopCW=n,ELside=r](B){90} + + \node(A)(40,30){}\node(B)(70,30){} + \drawbpedge[ELpos=30,ELdist=0](A,45,20,B,225,20){bpedge} + \drawbpedge[ELpos=30,ELside=r](A,210,30,B,-30,30){30} + \drawbpedge[ELpos=70,ELside=r](A,210,30,B,-30,30){70} + \drawloop[loopdiam=5,loopangle=120,ELpos=60](A){smaller} + \drawloop[loopdiam=10,loopangle=30,ELpos=30](B){larger} +\end{picture} +\end{center} + +% Nodes, colors, etc... + +\begin{center} +\begin{picture}(105,70)(-15,-65) +% \put(-15,-65){\framebox(105,70){}} + \node[Nmarks=if](A)(0,0){1} + \node[Nw=15,Nh=6,Nmr=0](A)(25,0){rectangle} + \node[Nw=12,Nh=6,Nmr=3](A)(50,0){oval} + + \node(B)(0,-15){Nadjust=n} + \node[Nadjust=w,Nmr=2](B)(25,-15){Nadjust=w} + \node[Nadjust=wh,Nmr=1](B)(50,-15){Nadjust=wh} + + \gasset{Nadjust=w,Nadjustdist=3} + \node[Nmarks=i,iangle=210,ilength=5](C)(0,-30){imark} + \imark[iangle=150,ilength=10,linecolor=Red](C) + \node[Nmarks=f,fangle=30,flength=5,linecolor=Green](C)(25,-30){fmark} + \fmark[fangle=-30,flength=10,linecolor=Blue](C) + \node(C)(50,-30){rmark} + \rmark[linecolor=Red](C)\rmark[rdist=1.4,linecolor=Green](C) + \node[Nmarks=ifr](C)(75,-30){all} + + \node(D)(0,-45){framed} + \node[Nframe=n,fillcolor=Yellow](D)(25,-45){filled} + \node[fillcolor=Yellow](D)(50,-45){both} + \node[fillcolor=Yellow, + linecolor=Green](D)(75,-45){\textcolor{RedViolet}{RedViolet}} + + \node[linewidth=0.5](E)(0,-60){Thick} + \node[linewidth=1,linegray=0.8](E)(25,-60){Gray} + \node[dash={1.5}0](E)(50,-60){Dash} + \node[dash={4 1 1 1}0,linecolor=Red](E)(75,-60){More dash} +\end{picture} +\end{center} + +% Arrows + +\begin{center}\unitlength=0.85mm +\begin{picture}(60,40)(-30,-17) +% \put(-30,-17){\framebox(60,40){}} + \drawline[AHangle=30,AHLength=3,AHlength=0, + ATnb=1,ATangle=90,ATLength=2,ATlength=0](-15,20)(15,20) + \drawline[AHnb=2,ATnb=2](-15,15)(15,15) + \drawline[AHnb=2,AHangle=30,AHLength=3,AHlength=0,AHdist=1, + ATnb=2,ATangle=30,ATLength=3,ATlength=0,ATdist=1](-15,10)(15,10) + \drawline[AHnb=1,AHangle=30,AHLength=3,AHlength=1, + ATnb=1,ATangle=140,ATLength=3,ATlength=1.5](-15,5)(15,5) + \drawline[AHnb=2,AHangle=30,AHLength=3,AHlength=0,AHdist=1, + ATnb=2,ATangle=150,ATLength=3,ATlength=0,ATdist=1](-15,0)(15,0) + \node(A)(-15,-10){}\node(B)( 15,-10){} + \drawbpedge[AHnb=6,ATnb=6](A,60,25,B,240,25){} + \gasset{AHnb=1,AHangle=30,AHLength=3,AHlength=0, + ATnb=1,ATangle=30,ATLength=3,ATlength=0} + \drawloop[loopangle=180](A){} + \gasset{AHnb=3,AHangle=30,AHLength=3,AHlength=1.5,AHdist=1.8, + ATnb=3,ATangle=30,ATLength=3,ATlength=1.5,ATdist=1.8} + \drawloop[loopangle=0](B){} +\end{picture} +% \end{center} +% +% % Node label +% +% \begin{center} +\begin{picture}(80,40)(-20,-20) +% \put(-20,-20){\framebox(80,40){}} + \node[Nh=30,Nw=30,Nmr=15](D)(0,0){} + \gasset{ExtNL=y,NLdist=1,AHnb=0,ilength=-2} + \nodelabel[NLangle= 0](D){3} \imark[iangle= 0](D) + \nodelabel[NLangle= 30](D){2} \imark[iangle= 30](D) + \nodelabel[NLangle= 60](D){1} \imark[iangle= 60](D) + \nodelabel[NLangle= 90](D){12} \imark[iangle= 90](D) + \nodelabel[NLangle=120](D){11} \imark[iangle=120](D) + \nodelabel[NLangle=150](D){10} \imark[iangle=150](D) + \nodelabel[NLangle=180](D){9} \imark[iangle=180](D) + \nodelabel[NLangle=210](D){8} \imark[iangle=210](D) + \nodelabel[NLangle=240](D){7} \imark[iangle=240](D) + \nodelabel[NLangle=270](D){6} \imark[iangle=270](D) + \nodelabel[NLangle=300](D){5} \imark[iangle=300](D) + \nodelabel[NLangle=330](D){4} \imark[iangle=330](D) + + \node[Nh=30,Nw=30,Nmr=15](B)(40,0){} + \gasset{ExtNL=n,NLdist=13} + \nodelabel[NLangle= 0](B){3} + \nodelabel[NLangle= 30](B){2} + \nodelabel[NLangle= 60](B){1} + \nodelabel[NLangle= 90](B){12} + \nodelabel[NLangle=120](B){11} + \nodelabel[NLangle=150](B){10} + \nodelabel[NLangle=180](B){9} + \nodelabel[NLangle=210](B){8} + \nodelabel[NLangle=240](B){7} + \nodelabel[NLangle=270](B){6} + \nodelabel[NLangle=300](B){5} + \nodelabel[NLangle=330](B){4} +\end{picture} +\end{center} + +% Nodes whose shape is a regular polygon + +\begin{center} +\begin{picture}(120,30)(0,0) +% \put(0,0){\framebox(120,30){}} + \rpnode[polyangle=90,Nmarks=i,iangle=-90](A)(5,14)(3,5){A} + \rpnode[arcradius=2,Nmarks=r](B)(35,17)(6,10){B} + \nodelabel[ExtNL=y,NLangle=30,NLdist=0.5](B){B} + \nodelabel[ExtNL=y,NLangle=60,NLdist=0.5](B){B} + \rpnode[arcradius=2,polyangle=90](C)(70,12)(5,7){C} + \imark[iangle=198](C)\fmark[fangle=18](C) + \rpnode[Nmarks=fr,fangle=45](D)(105,15)(4,7){D} + \drawloop(A){$a$} + \drawloop[loopangle=90](C){$c$} + \drawloop[loopangle=-45](D){$d$} + \drawedge(A,B){$x$} + \drawbpedge(B,-30,30,C,140,30){$y$} + \drawqbpedge(C,37,D,83){$z$} + \drawedge[curvedepth=14,ELside=r](D,A){} +\end{picture} +\end{center} + +% polygons and closed curves + +\begin{center} +\begin{picture}(120,40)(0,0) +% \put(0,0){\framebox(120,40){}} + \put(3,3){ + \unitlength=8mm + \drawpolygon[fillcolor=Green,Nframe=n,arcradius=.3](0,0)(0,2)(1,3)(0,4)(2,4)(2,2)(4,0)(2,0)(1,1) + \drawpolygon(0,0)(0,2)(1,3)(0,4)(2,4)(2,2)(4,0)(2,0)(1,1) + \drawccurve[linecolor=Red](0,0)(0,2)(1,3)(0,4)(2,4)(2,2)(4,0)(2,0)(1,1) + } + \put(55,20){ + \unitlength=1.4mm + \drawpolygon[fillcolor=Green,Nframe=n,arcradius=2](-10,-10)(10,10)(-10,10)(10,-10) + \drawpolygon(-10,-10)(10,10)(-10,10)(10,-10) + \drawccurve[linecolor=Red](-10,-10)(10,10)(-10,10)(10,-10) + } + \put(100,19){ + \unitlength=20mm + \drawccurve[fillcolor=Yellow,linecolor=Red](0,1)(0.59,-0.8)(-0.95,0.3)(0.95,0.3)(-0.59,-0.8) + \drawpolygon(0,1)(0.59,-0.8)(-0.95,0.3)(0.95,0.3)(-0.59,-0.8) + } +\end{picture} +\end{center} + +% curves + +\begin{center} +\begin{picture}(120,40)(0,0) +% \put(0,0){\framebox(120,40){}} + \put(2,3){ + \unitlength=8mm + \drawline[AHnb=0](0,0)(0,2)(1,3)(0,4)(2,4)(2,2)(4,0)(2,0)(1,1) + \drawcurve[linecolor=Red,AHnb=0](0,0)(0,2)(1,3)(0,4)(2,4)(2,2)(4,0)(2,0)(1,1) + } + \put(55,16){ + \unitlength=1.5mm + \drawline[AHnb=0](-10,-10)(10,10)(-10,10)(10,-10) + \drawcurve[linecolor=Red,ATnb=3,AHnb=4](-10,-10)(10,10)(-10,10)(10,-10) + } + \put(100,19){ + \unitlength=20mm + \drawline[AHnb=0](0.95,0.3)(-0.59,-0.8)(0,1)(0.59,-0.8)(-0.95,0.3) + \drawcurve[linecolor=Red](0.95,0.3)(-0.59,-0.8)(0,1)(0.59,-0.8)(-0.95,0.3) + } +\end{picture} +\end{center} + +% Various macros + +\begin{center} +\begin{picture}(120,60)(-60,-30) +% \put(-60,-30){\framebox(120,60){}} + \drawline(-60,0)(60,0) + \drawline(0,-30)(0,30) + \drawrpolygon[polyangle=90,fillcolor=Blue](-9,5)(3,8) + \drawrpolygon(-9,22)(8,7) + \drawrpolygon(-9,22)(8,6) + \drawrpolygon(-9,22)(8,5) + \drawrpolygon[polyangle=18,arcradius=5](-27,7)(5,7) + \drawrpolygon[fillcolor=Green](-27,23)(4,7) + \put(-48,15){ + \unitlength=14mm + \gasset{Nfill=y,fillcolor=Yellow,Nframe=y,arcradius=.1} + \drawpolygon(0,1)(0.59,-0.8)(-0.95,0.3)(0.95,0.3)(-0.59,-0.8) + } + \drawline[AHLength=4,AHlength=0,AHangle=30,linewidth=.8](5,25)(15,15)(5,15)(15,5) + \drawline[AHLength=4,AHlength=0,AHangle=30,linecolor=White](5,25)(15,15)(5,15)(15,5) + \drawline[arcradius=1](17,25)(27,15)(17,15)(27,5) + \drawline[linecolor=Red](30,10)(50,20)(25,25)(55,5) + \drawline[AHLength=4,AHlength=0,AHangle=30,linewidth=.3](10,28)(35,28) + \drawline[AHnb=0,linewidth=.9](10,28)(34.5,28) + \drawline[AHnb=0,linewidth=.2,linecolor=White](10,28)(34.5,28) + \drawcbezier[ATnb=1](-50,-5,-30,-5,-30,-25,-10,-25) + \drawcbezier[AHnb=0,dash={1.5}0](-50,-25,-30,-25,-30,-5,-10,-5) + \drawqbezier(31,-20,50,-20,50,-1) + \drawqbezier[AHnb=0,linecolor=Green](31,-20,31,-1,50,-1) + \drawcircle[Nfill=y,fillcolor=Yellow](40,-25,10) + \drawrect[Nfill=y,fillcolor=Yellow,dash={1.5}0](5,-5,25,-15) + \drawoval(15,-25,20,10,3) +\end{picture} +\end{center} + +% Tricks: multiput and variables + +\begin{center} + \unitlength=0.7mm +\begin{picture}(60,46)(0,-3) +% \put(0,-3){\framebox(60,46){}} + {\gasset{AHnb=0} + \drawline(0,0)(60,0) + \drawline(0,20)(60,20) + \drawline(0,40)(60,40)} + \gasset{Nw=1.5,Nh=1.5,Nframe=n,Nfill=y} + \multiput(0,0)(10,0){5}{% + \node(A)(0,0){}\node(B)(5,20){} + \drawedge(A,B){} + } + \multiput(10,20)(10,0){5}{% + \node(A)(0,0){}\node(B)(5,20){} + \drawedge(A,B){} + } +\end{picture} + \qquad + \unitlength=1mm +\begin{picture}(50,30)(-5,0) +% \put(-5,0){\framebox(50,30){}} + \def\ax{5}\def\ay{5}\def\bx{35}\def\by{25}% + \node(a)(\ax,\ay){$a$}\node(b)(\bx,\by){$b$} + \drawedge(a,b){} + \drawloop[loopdiam=6,loopangle=180](a){} + \drawloop[loopdiam=6,loopangle=0](b){} + + \def\ax{5}\def\ay{25}\def\bx{35}\def\by{5}% + \node(a)(\ax,\ay){$a$}\node(b)(\bx,\by){$b$} + \drawedge(a,b){} + \drawloop[loopdiam=6,loopangle=180](a){} + \drawloop[loopdiam=6,loopangle=0](b){} +\end{picture} +\end{center} + +% Compatibility with gastex 1.0 + +\begin{center}\compatiblegastexun +\begin{picture}(80,55)(-20,-15) +\thinlines +\put(-20,-15){\framebox(80,55){}} + +\letstate A=(0,0) \drawinitialstate(A){1}\drawfinalstate[b](A){} +\letstate B=(20,0) \drawrepeatedstate(B){2} +\letstate C=(40,0) \drawfinalstate(C){3} +\letstate D=(0,20) \drawrepeatedstate(D){4} +\letstate E=(20,18) \drawstate(E){5} +\letstate[8,6] F=(40,20) \drawrepeatedstate(F){6} + +\drawloop[b](B){$A,a,\alpha$} \drawloop[l](D){$A,\varepsilon$} +{ \setpsdash(1) \drawloop(E){$B,b,\beta$} } +\drawloop[r](F){$B,\varepsilon$} + +\drawtrans[r](A,B){$D,d,\delta$} \drawtrans[r](B,C){$D,\varepsilon$} +{ \settransdecal{1} + \drawtrans(C,F){$F,f,\varphi$} \drawtrans(F,C){$G,g,\gamma$} } +\drawtrans(B,E){$\varepsilon$} \drawtrans(E,F){$E,\varepsilon$} +{ \setprofcurve{0} \drawcurvedtrans[r](E,D){$F,\varepsilon$} } + +\drawcurvedtrans(A,D){$C,c,\gamma$} +{ \setpsdash(3) \drawcurvedtrans(D,A){$C,\varepsilon$} } +{ \setprofcurve{-15} \drawcurvedtrans[r](F,D){$G_1,g_1,\gamma_1$} } +\end{picture} +\end{center} + +\begin{center}\compatiblegastexun +\unitlength=1mm +\begin{picture}(90,30)(-5,-16) +\thinlines +\put(-5,-16){\framebox(90,30){}} + +\setvertexdiam{6} +\letvertex A=(0,0) \drawcircledvertex(A){$a$} +\letvertex B=(20,0) \drawvertex(B){$b$} +\letvertex[9] C=(40,0) \drawcircledvertex(C){$c$} +\letvertex D=(60,0) \drawcircledvertex(D){$d$} +\letvertex E=(80,0) \drawcircledvertex(E){$e$} + +\drawundirectededge(A,B){7} +\drawundirectededge(B,C){-11} +\drawundirectededge(C,D){13} +\drawundirectededge(D,E){2} + +\setprofcurve{10} +\drawundirectedcurvededge(A,C){3} +\drawundirectedcurvededge(C,E){8} +\setprofcurve{-10} +\drawundirectedcurvededge[r](B,D){-5} + +\drawundirectedloop[b](A){17} +\end{picture} +\end{center} + +% Compatibility with pspictpg +\begin{center}\compatiblepspictpg +\begin{picture}(80,80)(-40,-40) +% \put(-40,-40){\framebox(80,80){}} + \drawvector(-40,0)(40,0) + \drawvector(0,-40)(0,40) + \drawline(-30,-30)(30,30) + \cbeziervector(-30,-20)(-30,0)(-10,0)(-10,20) + {\setpsdash(3)\cbezier(-30,20)(-30,0)(-10,0)(-10,-20)} + \qbeziervector(1,-20)(20,-20)(20,-1) + \qbezier(1,-20)(1,-1)(20,-1) + \drawcircle(10,30)(10) + \put(-20,-30){\circle{10}} + \put(25,5){\line(1,3){8}} + \put(25,5){\vector(1,2){8}} + \setpsgray{0.5} + \drawdisk(-30,30)(10) + \put(20,-30){\circle*{10}} +\end{picture} +\end{center} + +\end{document} + + diff --git a/Master/texmf-dist/dvips/gastex/gastex.pro b/Master/texmf-dist/dvips/gastex/gastex.pro new file mode 100755 index 00000000000..e2ae122440e --- /dev/null +++ b/Master/texmf-dist/dvips/gastex/gastex.pro @@ -0,0 +1,162 @@ +%! +TeXDict begin +/!BP{ 72 72.27 div dup scale } def /!smartarct { /!r exch def /!y2 +exch def /!x2 exch def /!y1 exch def /!x1 exch def currentpoint /!y0 +exch def /!x0 exch def /!d0 !y0 !y1 sub dup mul !x0 !x1 sub dup mul +add sqrt def /!d2 !y2 !y1 sub dup mul !x2 !x1 sub dup mul add sqrt +def !d0 !d2 add 0 gt { !d0 !d2 le { /!xp !x1 !x2 !x1 sub !d0 mul !d2 +div add def /!yp !y1 !y2 !y1 sub !d0 mul !d2 div add def /!d !yp !y0 +sub dup mul !xp !x0 sub dup mul add sqrt 2 div def } { /!xp !x1 !x0 +!x1 sub !d2 mul !d0 div add def /!yp !y1 !y0 !y1 sub !d2 mul !d0 div +add def /!d !yp !y2 sub dup mul !xp !x2 sub dup mul add sqrt 2 div +def } ifelse } { /!d 0 def } ifelse !d !r lt { /!r !d def } if !x1 +!y1 !x2 !y2 !r arct } def /!psarrow { gsave 2 copy translate 3 -1 roll +sub neg /!y exch def sub /!x exch def !x 0 eq !y 0 eq and {/!x 1 def} +if !y !x atan rotate /L2 exch def /L1 exch def /ang exch def /dist +exch def /nb exch def 1 1 nb { pop L2 0 eq { newpath L1 ang cos mul +L1 ang sin mul 2 copy moveto 0 0 lineto neg lineto stroke } { newpath +0 0 moveto L1 ang cos mul L1 ang sin mul 2 copy lineto L2 0 lineto +neg lineto closepath fill } ifelse dist 0 translate } for grestore +} def /!psvect { /y exch def /x exch def newpath 0 0 moveto x y lineto +stroke 0 0 x y !psarrow x y 0 0 !psarrow } def /!pslines { /ra exch +def /n exch def /yn exch def /xn exch def /yn_1 exch def /xn_1 exch +def /x xn def /y yn def /xx xn_1 def /yy yn_1 def newpath xn yn moveto +3 1 n { pop /x xx def /y yy def /yy exch def /xx exch def x y xx yy +ra !smartarct } for xx yy lineto stroke xn_1 yn_1 xn yn !psarrow x +y xx yy !psarrow } def /!psrectpath { /y1 exch def /x1 exch def /y0 +exch def /x0 exch def newpath x0 y0 moveto x1 y0 lineto x1 y1 lineto +x0 y1 lineto closepath } def /!pscirclepath { newpath 0 360 arc closepath +} def /!psovalpath { /rmax exch dup 0.1 le { pop 0.1 } if def /H exch +2 div dup 0.1 le { pop 0.1 } if def /W exch 2 div dup 0.1 le { pop +0.1 } if def /y exch def /x exch def H W le { /R H def }{ /R W def +} ifelse rmax R le { /R rmax def } if newpath x y H add moveto x W +add y H add x W add y R arct x W add y H sub x y H sub R arct x W sub +y H sub x W sub y R arct x W sub y H add x y H add R arct closepath +} def /!pspolygonpath { /ra exch def /n exch def dup n 2 mul 1 add +1 roll 1 index n 2 mul 2 add 1 roll n 2 mul 1 sub index n 2 mul 1 sub +index /yy exch def /xx exch def /y exch def /x exch def newpath xx +x add 2 div yy y add 2 div moveto 1 1 n { pop /yy exch def /xx exch +def x y x xx add 2 div y yy add 2 div ra !smartarct /x xx def /y yy +def } for closepath } def /!psrpolygonpath { /rd exch def /ra exch +def /a exch def /r exch def /n exch def /y exch def /x exch def /b +360 n div def /c b def x y translate a rotate rd 0 ne { r rd b 2 div +cos div sub r div dup scale } if /x1 r b cos mul def /y1 r b sin mul +def newpath r x1 add 2 div y1 2 div moveto 1 1 n { pop /c c b add def +/x2 r c cos mul def /y2 r c sin mul def x1 y1 x1 x2 add 2 div y1 y2 +add 2 div ra !smartarct /x1 x2 def /y1 y2 def } for closepath rd 0 +ne { r r rd b 2 div cos div sub div dup scale } if a neg rotate x neg +y neg translate } def /!psccurvepath { /n exch def n 2 mul 1 sub index +n 2 mul 1 sub index n 2 mul 1 sub index n 2 mul 1 sub index n 2 mul +4 add array astore /coef exch def /alpha 3.5 def /px0 coef n 2 mul +2 sub get def /py0 coef n 2 mul 1 sub get def /px1 coef 0 get def /py1 +coef 1 get def /px2 coef 2 get def /py2 coef 3 get def /d0 px1 px0 +sub dup mul py1 py0 sub dup mul add sqrt def /d2 px1 px2 sub dup mul +py1 py2 sub dup mul add sqrt def /ppx d2 d0 div px0 px1 sub mul px1 +add def /ppy d2 d0 div py0 py1 sub mul py1 add def /d1 ppx px2 sub +dup mul ppy py2 sub dup mul add sqrt def /qx d2 d1 div px2 ppx sub +mul alpha div px1 add def /qy d2 d1 div py2 ppy sub mul alpha div py1 +add def newpath px1 py1 moveto 4 2 n 2 mul 2 add { /i exch def /px0 +px1 def /px1 px2 def /px2 coef i get def /py0 py1 def /py1 py2 def +/py2 coef i 1 add get def /d0 d2 def /d2 px1 px2 sub dup mul py1 py2 +sub dup mul add sqrt def /ppx d0 d2 div px2 px1 sub mul px1 add def +/ppy d0 d2 div py2 py1 sub mul py1 add def /d1 ppx px0 sub dup mul +ppy py0 sub dup mul add sqrt def /rx d0 d1 div px0 ppx sub mul alpha +div px1 add def /ry d0 d1 div py0 ppy sub mul alpha div py1 add def +qx qy rx ry px1 py1 curveto /ppx d2 d0 div px0 px1 sub mul px1 add +def /ppy d2 d0 div py0 py1 sub mul py1 add def /d1 ppx px2 sub dup +mul ppy py2 sub dup mul add sqrt def /qx d2 d1 div px2 ppx sub mul +alpha div px1 add def /qy d2 d1 div py2 ppy sub mul alpha div py1 add +def } for closepath } def /!pscurve { /n exch def n 2 mul array astore +/coef exch def /alpha 3.5 def /px1 coef 0 get def /py1 coef 1 get def +/px2 coef 2 get def /py2 coef 3 get def /d2 px1 px2 sub dup mul py1 +py2 sub dup mul add sqrt def /qx px1 def /qy py1 def newpath px1 py1 +moveto 4 2 n 2 mul 2 sub { /i exch def /px0 px1 def /px1 px2 def /px2 +coef i get def /py0 py1 def /py1 py2 def /py2 coef i 1 add get def +/d0 d2 def /d2 px1 px2 sub dup mul py1 py2 sub dup mul add sqrt def +/ppx d0 d2 div px2 px1 sub mul px1 add def /ppy d0 d2 div py2 py1 sub +mul py1 add def /d1 ppx px0 sub dup mul ppy py0 sub dup mul add sqrt +def /rx d0 d1 div px0 ppx sub mul alpha div px1 add def /ry d0 d1 div +py0 ppy sub mul alpha div py1 add def qx qy rx ry px1 py1 curveto /ppx +d2 d0 div px0 px1 sub mul px1 add def /ppy d2 d0 div py0 py1 sub mul +py1 add def /d1 ppx px2 sub dup mul ppy py2 sub dup mul add sqrt def +/qx d2 d1 div px2 ppx sub mul alpha div px1 add def /qy d2 d1 div py2 +ppy sub mul alpha div py1 add def } for /px1 coef n 2 mul 2 sub get +def /py1 coef n 2 mul 1 sub get def /rx px1 def /ry py1 def qx qy rx +ry px1 py1 curveto stroke /px0 coef n 2 mul 6 sub get def /py0 coef +n 2 mul 5 sub get def /px1 coef n 2 mul 4 sub get def /py1 coef n 2 +mul 3 sub get def /px2 coef n 2 mul 2 sub get def /py2 coef n 2 mul +1 sub get def /d0 px1 px0 sub dup mul py1 py0 sub dup mul add sqrt +def /d2 px1 px2 sub dup mul py1 py2 sub dup mul add sqrt def /ppx d2 +d0 div px0 px1 sub mul px1 add def /ppy d2 d0 div py0 py1 sub mul py1 +add def /d1 ppx px2 sub dup mul ppy py2 sub dup mul add sqrt def /qx +d2 d1 div px2 ppx sub mul alpha div px1 add def /qy d2 d1 div py2 ppy +sub mul alpha div py1 add def px1 py1 qx qy px2 py2 px2 py2 !ps_cbezier_arrow +/px0 coef 0 get def /py0 coef 1 get def /px1 coef 2 get def /py1 coef +3 get def /px2 coef 4 get def /py2 coef 5 get def /d0 px1 px0 sub dup +mul py1 py0 sub dup mul add sqrt def /d2 px1 px2 sub dup mul py1 py2 +sub dup mul add sqrt def /ppx d0 d2 div px2 px1 sub mul px1 add def +/ppy d0 d2 div py2 py1 sub mul py1 add def /d1 ppx px0 sub dup mul +ppy py0 sub dup mul add sqrt def /rx d0 d1 div px0 ppx sub mul alpha +div px1 add def /ry d0 d1 div py0 ppy sub mul alpha div py1 add def +px1 py1 rx ry px0 py0 px0 py0 !ps_cbezier_arrow } def /!ps_cbezier +{ /y3 exch def /x3 exch def /y2 exch def /x2 exch def /y1 exch def +/x1 exch def /y0 exch def /x0 exch def newpath x0 y0 moveto x1 y1 x2 +y2 x3 y3 curveto stroke x0 y0 x1 y1 x2 y2 x3 y3 !ps_cbezier_arrow x3 +y3 x2 y2 x1 y1 x0 y0 !ps_cbezier_arrow } def /!ps_cbezier_arrow { /y3 +exch def /x3 exch def /y2 exch def /x2 exch def /y1 exch def /x1 exch +def /y0 exch def /x0 exch def /xa x1 x2 sub 3 mul x3 x0 sub add def +/xb x0 x1 sub x1 sub x2 add 3 mul def /xc x1 x0 sub 3 mul def /ya y1 +y2 sub 3 mul y3 y0 sub add def /yb y0 y1 sub y1 sub y2 add 3 mul def +/yc y1 y0 sub 3 mul def /L2 exch def /L1 exch def /ang exch def /dist +exch def /nb exch def L2 0 le { /L L1 ang cos mul 2 div def } { /L +L2 def } ifelse /t4 1 def 1 1 nb { pop /x4 t4 !calculx def /y4 t4 !calculy +def L 0 le { /dx t4 !calculdx def /dy t4 !calculdy def dx dup mul dy +dup mul add sqrt dup 0 eq { /dx 1 def /dy 0 def pop 1 } if L1 exch +div dup dx neg mul /xx exch def dy neg mul /yy exch def } { /t1 0 def +/t2 t4 def 0 1 !max { pop /t t1 t2 add 2 div def t !calculx x4 sub +dup mul t !calculy y4 sub dup mul add sqrt L ge { /t1 t def } { /t2 +t def } ifelse } for /x6 t !calculx def /y6 t !calculy def L1 L div +dup x6 x4 sub mul /xx exch def y6 y4 sub mul /yy exch def } ifelse +/x5 x4 xx ang cos mul add yy ang sin mul sub def /y5 y4 xx ang sin +mul add yy ang cos mul add def /x7 x4 xx ang cos mul add yy ang sin +mul add def /y7 y4 xx ang sin mul sub yy ang cos mul add def L2 0 le +{ newpath x5 y5 moveto x4 y4 lineto x7 y7 lineto stroke } { newpath +x4 y4 moveto x5 y5 lineto x6 y6 lineto x7 y7 lineto closepath fill +} ifelse /t1 0 def /t2 t4 def 0 1 !max { pop /t t1 t2 add 2 div def +t !calculx x4 sub dup mul t !calculy y4 sub dup mul add sqrt dist ge +{ /t1 t def } { /t2 t def } ifelse } for /t4 t def } for } def /!ps_qbezier +{ /y3 exch def /x3 exch def /yy exch def /xx exch def /y0 exch def +/x0 exch def /x1 xx 2 mul x0 add 3 div def /y1 yy 2 mul y0 add 3 div +def /x2 xx 2 mul x3 add 3 div def /y2 yy 2 mul y3 add 3 div def x0 +y0 x1 y1 x2 y2 x3 y3 !ps_cbezier } def /!max 10 def /!ps_r_cbezier +{ /y3 exch def /x3 exch def /y2 exch def /x2 exch def /y1 exch def +/x1 exch def /y0 exch def /x0 exch def /xa x1 x2 sub 3 mul x3 x0 sub +add def /xb x0 x1 sub x1 sub x2 add 3 mul def /xc x1 x0 sub 3 mul def +/ya y1 y2 sub 3 mul y3 y0 sub add def /yb y0 y1 sub y1 sub y2 add 3 +mul def /yc y1 y0 sub 3 mul def /t1 0 def /t2 1 def 0 1 !max { pop +/t t1 t2 add 2 div def t !calculx t !calculy path!a inufill { /t1 t +def } { /t2 t def } ifelse } for /ta t def /t1 0 def /t2 1 def 0 1 +!max { pop /t t1 t2 add 2 div def t !calculx t !calculy path!b inufill +{ /t2 t def } { /t1 t def } ifelse } for /tb t def ta !calculx ta !calculy +ta !calculdx 3 div tb ta sub mul ta !calculx add ta !calculdy 3 div +tb ta sub mul ta !calculy add tb !calculdx 3 div ta tb sub mul tb !calculx +add tb !calculdy 3 div ta tb sub mul tb !calculy add tb !calculx tb +!calculy !ps_cbezier } def /!calculx { dup dup xa mul xb add mul xc +add mul x0 add } def /!calculy { dup dup ya mul yb add mul yc add mul +y0 add } def /!calculdx { dup 3 xa mul mul 2 xb mul add mul xc add +} def /!calculdy { dup 3 ya mul mul 2 yb mul add mul yc add } def /!node_mark +{ /ma exch def /ml exch def /y exch def /x exch def /x1 x def /y1 y +def /x2 x 500 ma cos mul add def /y2 y 500 ma sin mul add def 0 1 !max +{ pop /x x1 x2 add 2 div def /y y1 y2 add 2 div def x y path!a inufill +{ /x1 x def /y1 y def } { /x2 x def /y2 y def } ifelse } for /x1 x +def /y1 y def /x2 x ml ma cos mul add def /y2 y ml ma sin mul add def +newpath x1 y1 moveto x2 y2 lineto stroke x2 y2 x1 y1 !psarrow x1 y1 +x2 y2 !psarrow } def /!sign {dup 0 lt {pop -1} {0 eq {0} {1} ifelse} +ifelse} def /!pslatexline { /L exch def /b exch def /a exch def a 0 +eq {0 L b !sign mul} {L a !sign mul dup b mul a div} ifelse newpath +0 0 moveto lineto stroke } def /!pslatexvector { /L exch def /b exch +def /a exch def a 0 eq {0 L b !sign mul} {L a !sign mul dup b mul a +div} ifelse !psvect } def /!pscircle { 2 div newpath 0 0 3 2 roll 0 +360 arc stroke } def /!psdisk { 2 div newpath 0 0 3 2 roll 0 360 arc +fill } def +end
\ No newline at end of file diff --git a/Master/texmf-dist/tex/latex/gastex/gastex.sty b/Master/texmf-dist/tex/latex/gastex/gastex.sty new file mode 100755 index 00000000000..a9f0a8ad43b --- /dev/null +++ b/Master/texmf-dist/tex/latex/gastex/gastex.sty @@ -0,0 +1,1959 @@ +\NeedsTeXFormat{LaTeX2e} +\ProvidesPackage{gastex}[2006/11/28 v2.8] +\newif\ifgastexslide\gastexslidefalse +\DeclareOption{slide}{\global\gastexslidetrue} +\DeclareOption{paper}{\global\gastexslidefalse} +\ProcessOptions +\RequirePackage{calc,trig} +\special{header=gastex.pro} +% \input gastex.ps + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% +%% GasTeX : Graphs and Automata Simplified in TeX +%% +%% Macros for drawing easily graphs and automata under the picture +%% environment of LaTeX2e. +%% See the README file +%% +%% Paul Gastin +%% LSV +%% ENS de Cachan +%% 61, avenue du PrŽsident Wilson +%% F-94235 CACHAN Cedex +%% FRANCE +%% http://www.lsv.ens-cachan.fr/~gastin/ +%% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% A lot of changes has been made since gastex 1.0 and as a result, +% these new macros are no longer compatible with the previous ones. +% To be able to use old pictures, a compatible mode is provided +% (see \compatiblegastexun at the end of the file). The compatibility +% is almost 100% and should be sufficient in most cases. +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% History since version 2.0 +% +% 2.8: +% - packaged for CTAN +% +% 2.7: +% - gastex is now compatible with the xcolor package which allows very +% useful color expressions such as red!50!blue!60!white. +% +% 2.6: +% - improved precision of some computations +% +% 2.5: +% The horizontal shifts that one gets sometimes (e.g. with overlays in +% presentations) should no more occur provided \nullfont is used inside the +% picture environment: +% \begin{picture}(100,35)(-50,0)\nullfont +% ... +% \end{picture} +% \selectfont is automatically used by gastex for node or edge labels. +% I found this solution looking in the package pgf (portable graphics +% format) by Till Tantau. I also recommend his excellent beamer package +% for laptop presentations. +% +% 2.4: +% - added the macro \rpnode to allow nodes whose shape is a regular polygon +% defined by its radius, its number of sides and an angle for the first point. +% - added the possibility to have arrows at the tail of edges and lines. +% For this, the following new parameters are provided: +% ATnb, ATdist, ATangle, ATlength, ATLength +% - added the macro \drawpolygon to draw a polygon defined by a list of points. +% - added the macro \drawrpolygon to draw a regular polygon defined by +% its radius, its number of sides and an angle for the first point. +% - added the macro \drawline to draw a broken line defined by n points. +% - added the parameter "arcradius" in order to have arcs instead of sharp angles +% for polygons and broken lines. The default is arcradius=0 for sharp angles. +% - added the macro \drawcurve to draw a continuous curve going through n points. +% - added the macro \drawccurve to draw a continuous closed curve going through n points. +% All these macros use gasset parameters and in particular: +% Nframe, Nfill, linecolor, fillcolor, dash, ... +% +% Uncompatibility: The macro \drawline was introduced in version 2.1 to +% draw a line between two points. The new version allows to draw a line +% defined by an arbitrary number of points but the syntax is different. +% It was \drawline(x1,y1,x2,y2) and it is now \drawline(x1,y1)(x2,y2). +% +% 2.3: +% - added the parameter ELdistC (y or n) allowing to specify whether +% the distance (ELdist) is between the center (y) of the label and the edge +% or between the side (n) of the label and the edge. +% The behaviour of previous gastex versions corresponds to the setting +% (n) which is therefore the default. +% - added the macro \drawqbpedge allowing to specify the auxiliary +% point of a quadratic Bezier curve with two angles instead of the +% absolute coordinates required by \drawqbedge. +% - added parameters sxo, syo, exo, eyo (offsets in \unitlength). +% They define offsets for the virtual starting and ending points of an +% edge with respect to the centers of the starting and ending nodes. +% - improved drawing for arrowheads (in gastex.pro). +% First, the direction of the arrowhead is better for curved edges. +% Second, when several arrowheads are drawn they follow the curve. +% Previously, they followed the tangent at the ending point of the +% edge which was bad for curved edges. +% +% 2.2: +% - added the options slide and paper to the package. +% In order to get the default settings for slides, use +% \usepackage[slide]{gastex} +% The default settings for papers is obtained with +% \usepackage[paper]{gastex} +% or +% \usepackage{gastex} +% - added new option loopCW to define whether loops are in +% clockwise direction or not. +% - Fix a TeX error (Arithmetic overflow) that occurred when using +% \drawedge(A,B){} with two nodes A and B having the same coordinates. +% Now, in this case, an error message is issued in the log +% and the macro \drawedge(A,B){} is ignored. +% +% 2.1: +% - New macros to draw directly circles, rectanges, ovals, +% lines and bezier curves. +% \drawcircle, \drawrect, \drawoval, +% \drawline, \drawqbezier, \drawcbezier +% All these macros use gasset options and in particular: +% Nframe, Nfill, linecolor, fillcolor, dash, AHnb, etc... +% - Compatibility mode for pspictpg up to v0.6 +% - Fix the bug which occured sometimes when using Nw=0,Nh=0. +% +% 2.01: +% - Fix an error that occured in v2.0 when using Nfill=y without +% defining previously fillgray or fillcolor. +% The following default setting has been added. +% \gasset{fillgray=0,Nfill=n} % Not filled but black if filled +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% Known problems and (hopefully) solutions. +% +% 21/10/99: Frank Goertzen (frank.goertzen@unibw-muenchen.de) has +% reported that when using gastex together with german an error may +% occur when running dvips if the german package is loaded first. The +% solution is to load gastex before german: +% \usepackage{gastex} +% \usepackage{german} +% I have no idea concerning the cause of this error. +% +% 07/03/00: A postscript error may occur when using Nw=0,Nh=0. +% Solution: Use a small value instead of 0, e.g. Nw=0.1,Nh=0.1 +% Fixed in version 2.1. +% +% 27/10/00: Using gasset inside a tabular or an array produces an error. +% The reason is that I'm using the "&" symbol as a marker in order to +% process gasset options. +% Solution: Include the whole picture inside an mbox. +% \begin{tabular}{c} +% \mbox{\begin{picture}(10,20)(-5,-5) +% \gasset{ELdist=0} +% \node(A)(0,0){1}\drawloop(A){$a$} +% \end{picture}} +% \end{tabular} +% +% pdflatex: gastex does not work with pdflatex since it produces +% postscript code and pdflatex does not know what to do with it. +% Solution: Use latex and then ps2pdf. +% I don't know whether it is possible to translate my postscript code +% into pdf code. The problem is that I'm using postscript to make some +% computations and not only to draw the picture. +% I would appreciate the help of a pdf guru on this. +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Internal variables and macros +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +\newcounter{cnt@a}\newcounter{cnt@b}\newcounter{cnt@c} +\newdimen\dim@x \newdimen\dim@y +\newbox\temp@box +\newdimen\d@my@unit \d@my@unit=0.01mm +% \d@my@unit is the unit used for all drawings with gastex. +% All values given in \unitlength are converted in \d@my@unit. +% The aim is to improve the precision of the drawings. + +{\catcode`t=12\catcode`p=12\gdef\no@PT#1pt{#1}} +\def\strip@PT#1{\expandafter\no@PT\the#1\space} + +\def\gas@initps{!BP + \gas@dash + \line@width setlinewidth\space} + +\def\gas@AHparam{\AH@nb\AH@d\AH@angle\AH@L\AH@l} +\def\gas@ATparam{\AT@nb\AT@d\AT@angle\AT@L\AT@l} +\def\gas@ATnul{0 \AT@d\AT@angle\AT@L\AT@l} +\def\gas@gobble#1{}% + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Settings +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%----------------------------------------------------------------------- +% Set values for gastex parameters. +% +% \gasset{parameter=value,parameter=value,...} +% optional spaces are only allowed after commas +% +% Nw=number +% widht in \unitlength of oval nodes +% Nh=number +% height in \unitlength of oval nodes +% Nmr=number +% maximal radius in \unitlength of oval nodes +% The actual radius will be min(Nw/2,Nh/2,Nmr) +% Nmr=0 yields a rectangle node +% +% Nadjust=any combination of the letters w,h,n +% w : the node width is adjusted to the node label width + Nadjustdist +% h : the node height is adjusted to the node label height + Nadjustdist +% n : no adjustment +% Nadjustdist=number +% distance in \unitlength between the label box and the node frame +% when using Nadjust +% +% Nframe=y or n +% boolean flag defining whether nodes are framed or not. +% Nfill=y or n +% boolean flag defining whether nodes are filled or not. +% Automatically set to true by the parameters fillgray and fillcolor +% +% ExtNL=y or n +% boolean flag defining whether node labels are external or not. +% NLangle=number +% direction in degree of node labels +% NLdist=number +% The meaning depends on the ExtNL flag. +% If the flag is set to "n" then NLdist defines the distance +% in \unitlength between the node center and the label center. +% If the flag is set to "y" then NLdist defines the distance +% in \unitlength between the node frame and the label box. +% +% Nmarks=any combination of the letters i,f,r,n +% i : initial mark on nodes +% f : final mark on nodes +% r : repeated mark on nodes +% n : no mark on nodes +% ilength=number +% length in \unitlength of arrows marking initial nodes +% iangle=number +% direction in degree of arrows marking initial nodes +% flength=number +% length in \unitlength of arrows marking final nodes +% fangle=number +% direction in degree of arrows marking final nodes +% rdist=number +% distance in \unitlength between the lines of repeated nodes +% a positive value draw the second line inside the normal one +% a negative value draw the second line outside the normal one +% but the edges are still connected to the normal line. +% +% An edge virtually starts from the center of the starting node and +% ends at the center of the ending node (indeed they are only drawn +% outside of the nodes). It is possible to change the virtual starting +% and ending points of an edge using offsets with respect to the center +% of the starting and ending node. This is the purpose of the following +% parameters. +% sxo=number (starting x offset) +% horizontal offset in \unitlength of the starting point of an edge +% with respect to the center of the starting node. +% syo=number (starting y offset) +% vertical offset in \unitlength of the starting point of an edge +% with respect to the center of the starting node. +% exo=number (ending x offset) +% horizontal offset in \unitlength of the ending point of an edge +% with respect to the center of the ending node. +% eyo=number (ending y offset) +% vertical offset in \unitlength of the ending point of an edge +% with respect to the center of the ending node. +% +% curvedepth=number +% depth in \unitlength of curved edges between two nodes +% The absolute value of curvedepth defines the distance between the +% middle of the curved edge and the center of the line joining the two nodes +% With a positive/negative value the curved edge is on the left/right +% of the line joining the two nodes. +% +% loopdiam=number +% diameters in \unitlength of loops +% loopangle=number +% direction in degree of loops +% loopCW=y or n +% boolean flag defining whether loops are in clockwise direction or not. +% +% AHnb=number +% number of arrow(s) at the head of edges. +% 0 for no arrowhead. +% AHdist=number +% distance in \unitlength between two arrowheads +% AHangle=angle +% angle in degree between the edge and the arrowhead side +% AHLength=number +% Length in \unitlegth of the arrowhead side +% AHlength=number +% length in \unitlegth defining the shape of the arrowhead +% 0 for an arrowhead formed with just two lines +% Length*cos(angle) for a triangular arrowhead +% See examples. +% +% ATnb=number +% number of arrow(s) at the tail of edges. +% 0 for no arrowhead. +% ATdist=number +% distance in \unitlength between two arrowtails +% ATangle=angle +% angle in degree between the edge and the arrowtail side +% ATLength=number +% Length in \unitlegth of the arrowtail side +% ATlength=number +% length in \unitlegth defining the shape of the arrowtail +% 0 for an arrowtail formed with just two lines +% Length*cos(angle) for a triangular arrowtail +% See examples. +% +% ELside=l or r +% label on the (l)eft or (r)ight side of the edge +% ELpos=0..100 +% position of the label along the edge. +% 0 : starting node +% 50 : middle of the edge +% 100 : ending node +% ELdist=number +% distance in \unitlength between the label and the edge +% ELdistC=y or n +% y : The distance is between the center of the label and the edge. +% With ELdist=0 the center of the label is on the edge. +% n : The distance is between the side of the label and the edge. +% This is the default. +% The distance is actually between the side of the label and +% the tangent of the edge which is usually a good approximation. +% It may not work very well if the label is large and the edge is +% strongly curved because then the tangent is far from the edge at the +% point that achieve the distance between the tangent and the label. +% +% linegray=decimal number between 0 and 1 +% gray level used to draw lines. 0=black, 1=white. +% fillgray=decimal number between 0 and 1 +% gray level used to fill nodes. 0=black, 1=white. +% linecolor=ColorName +% color used to draw lines. +% The color name should be defined in dvipsnam.def and one should +% include \usepackage[usenames]{color}. +% This is to avoid the trouble of defining our own colors. +% The drawback is that it is not possible to define and use other colors. +% It should not be very restrictive since plenty of colours are +% defined in dvipsnam.def. +% It should not be difficult to add the possibility of using new +% colors if needed. +% fillcolor=ColorName +% color used to fill nodes. See remarks above. +% linewidth=number +% width in \unitlegth of lines +% dash={list of numbers}{offset} +% Set the dash pattern used for drawing postscript paths. +% The numbers in the list indicate alternatively lengths +% in \unitlength of dashes and lengths in \unitlength of spaces. +% The list of lenghts is used circularly. +% offset allows to start the pattern at some distance from its beginning. +% Here are some examples: +% dash={}{0} % continuous path +% dash={1.5}0 % dashs of length 1.5 and empty spaces of length 1.5 +% dash={0.2 0.5}0 % looks like a sequence of dots +% dash={4 1 1 1}0 % alternation of long and short dashs +% dash={1.5}{1.5} % we start with the empty space and not the dash +% dash={4}{2} % we start in the middle of the first dash +% +% arcradius=number +% radius in \unitlength of the arcs used at the vertices +% of polygons and broken lines. 0 for sharp angles. +% polyangle=angle +% angle in degrees with respect to the x axis of the first vertex +% of the regular polygon. +% +\def\gasset#1{\gas@set#1,&}% +\def\gas@set#1=#2,{\ignorespaces% + \@ifundefined{gasset@#1} + {\PackageWarning{gastex}{Parameter #1 undefined}{}} + {\csname gasset@#1\endcsname{#2}}% + \@ifnextchar&{\gas@gobble}{\gas@set}} + +\def\gasset@Nw#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\N@w{\thecnt@a}}% +\def\gasset@Nh#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\N@h{\thecnt@a}}% +\def\gasset@Nmr#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\N@mr{\thecnt@a}}% + +\newif\if@wadjust \newif\if@hadjust \newif\if@nadjust +\def\gasset@Nadjust#1{% + \@wadjustfalse \@hadjustfalse \gasset@@Nadjust #1&} +\def\gasset@@Nadjust#1{% + \@ifundefined{if@#1adjust} + {\PackageWarning{gastex}{Node adjust #1 undefined}{}} + {\csname @#1adjusttrue\endcsname}% + \@ifnextchar&{\gas@gobble}{\gasset@@Nadjust}} +\def\gasset@Nadjustdist#1{% + \setcounter{cnt@a}{2*\ratio{#1\unitlength}{\d@my@unit}} + \edef\N@adjustdist{\thecnt@a}}% + +\newif\if@frame \newif\if@fill \newif\if@ExtNL +\def\flag@y{\relax}\def\flag@n{\relax} +\def\gasset@Nframe#1{% + \@ifundefined{flag@#1} + {\PackageWarning{gastex}{Nframe value should be y or n}{}} + {\if#1y \@frametrue \else \@framefalse \fi}} +\def\gasset@Nfill#1{% + \@ifundefined{flag@#1} + {\PackageWarning{gastex}{Nfill value should be y or n}{}} + {\if#1y \@filltrue \else \@fillfalse \fi}} +\def\gasset@ExtNL#1{% + \@ifundefined{flag@#1} + {\PackageWarning{gastex}{ExtNL value should be y or n}{}} + {\if#1y \@ExtNLtrue \else \@ExtNLfalse \fi}} + +\def\gasset@NLangle#1{\edef\NL@angle{#1}}% +\def\gasset@NLdist#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\NL@dist{\thecnt@a}}% + +\newif\if@imark \newif\if@fmark \newif\if@rmark \newif\if@nmark +\def\gasset@Nmarks#1{% + \@imarkfalse \@fmarkfalse \@rmarkfalse \gasset@@Nmarks #1&} +\def\gasset@@Nmarks#1{% + \@ifundefined{if@#1mark} + {\PackageWarning{gastex}{Node mark #1 undefined}{}} + {\csname @#1marktrue\endcsname}% + \@ifnextchar&{\gas@gobble}{\gasset@@Nmarks}} + +\def\gasset@ilength#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\i@length{\thecnt@a}}% +\def\gasset@iangle#1{\edef\i@angle{#1}}% +\def\gasset@flength#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\f@length{\thecnt@a}}% +\def\gasset@fangle#1{\edef\f@angle{#1}}% +\def\gasset@rdist#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\rep@dist{\thecnt@a}}% + +\def\gasset@sxo#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\E@sxo{\thecnt@a}}% +\def\gasset@syo#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\E@syo{\thecnt@a}}% +\def\gasset@exo#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\E@exo{\thecnt@a}}% +\def\gasset@eyo#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\E@eyo{\thecnt@a}}% + +\def\gasset@curvedepth#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\curve@depth{\thecnt@a}}% + +\def\gasset@loopdiam#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\loop@diam{\thecnt@a}}% +\def\gasset@loopangle#1{\edef\loop@angle{#1}}% +\newif\if@loopCW +\def\gasset@loopCW#1{% + \@ifundefined{flag@#1} + {\PackageWarning{gastex}{loopCW value should be y or n}{}} + {\if#1y \@loopCWtrue \else \@loopCWfalse \fi}} + +\def\gasset@AHnb#1{\edef\AH@nb{#1\space}}% +\def\gasset@AHdist#1{% + \dim@x=#1\unitlength \edef\AH@d{\strip@PT\dim@x}}% +\def\gasset@AHangle#1{\edef\AH@angle{#1\space}}% +\def\gasset@AHLength#1{% + \dim@x=#1\unitlength \edef\AH@L{\strip@PT\dim@x}}% +\def\gasset@AHlength#1{% + \dim@x=#1\unitlength \edef\AH@l{\strip@PT\dim@x}}% + +\def\gasset@ATnb#1{\edef\AT@nb{#1\space}}% +\def\gasset@ATdist#1{% + \dim@x=#1\unitlength \edef\AT@d{\strip@PT\dim@x}}% +\def\gasset@ATangle#1{\edef\AT@angle{#1\space}}% +\def\gasset@ATLength#1{% + \dim@x=#1\unitlength \edef\AT@L{\strip@PT\dim@x}}% +\def\gasset@ATlength#1{% + \dim@x=#1\unitlength \edef\AT@l{\strip@PT\dim@x}}% + +\def\ELside@l{\relax}\def\ELside@r{\relax} +\def\gasset@ELside#1{% + \@ifundefined{ELside@#1} + {\PackageWarning{gastex}{ELside value should be l or r}{}} + {\edef\EL@s{#1}}}% +\def\gasset@ELpos#1{ + \ifnum#1>100 + \PackageWarning{gastex}{ELpos value should be between 0 and 100}{} + \else\ifnum#1<0 + \PackageWarning{gastex}{ELpos value should be between 0 and 100}{} + \else\edef\EL@p{#1}\fi\fi}% +\def\gasset@ELdist#1{% + \setcounter{cnt@a}{1*\ratio{#1\unitlength}{\d@my@unit}} + \edef\EL@dist{\thecnt@a}}% +\newif\if@ELdistC +\def\gasset@ELdistC#1{% + \@ifundefined{flag@#1} + {\PackageWarning{gastex}{ELdistC value should be y or n}{}} + {\if#1y \@ELdistCtrue \else \@ELdistCfalse \fi}} + +\def\gas@rgb@model{setrgbcolor}% +\def\gas@cmyk@model{setcmykcolor}% +\def\gas@gray@model{setgray}% +\def\gas@color#1#2{\@ifundefined{gas@#1@model}% + {\PackageWarning{gastex}{Color model '#1' not supported}{}} + {\def\gas@tmp@col{}\gas@recode #2,&}% + \edef\gas@tmp@col{\gas@tmp@col\csname gas@#1@model\endcsname}}% +\def\gas@recode#1,{\edef\gas@tmp@col{\gas@tmp@col #1 }% + \@ifnextchar&{\gas@gobble}{\gas@recode}} + +\def\gasset@linegray#1{\edef\line@color{#1 setgray\space}}% +\def\gasset@linecolor#1{\@ifundefined{extractcolorspec}% + {\@ifundefined{\string\color @#1} + {\PackageWarning{gastex}{Color #1 undefined}{}} + {\edef\line@color{#1\space}}}% + {\extractcolorspec{#1}{\gas@tmp@color}% + \expandafter\gas@color\gas@tmp@color% + \edef\line@color{\gas@tmp@col\space}}}% + +\def\gasset@fillgray#1{\@filltrue\edef\fill@color{#1 setgray\space}}% +\def\gasset@fillcolor#1{\@ifundefined{extractcolorspec}% + {\@ifundefined{\string\color @#1} + {\PackageWarning{gastex}{Color #1 undefined}{}} + {\@filltrue\edef\fill@color{#1\space}}}% + {\extractcolorspec{#1}{\gas@tmp@color}% + \expandafter\gas@color\gas@tmp@color% + \@filltrue\edef\fill@color{\gas@tmp@col\space}}}% + +\def\gasset@linewidth#1{% + \dim@x=#1\unitlength \edef\line@width{\strip@PT\dim@x}}% +\def\gasset@dash#1{\gasset@@dash #1}% +\def\gasset@@dash#1#2{% + \def\gas@dash{[}% + \gas@convert 0 #1 & + \dim@x=#2\unitlength + \edef\gas@dash{\gas@dash] \strip@PT\dim@x setdash\space}}% +\def\gas@convert#1 {% + \dim@x=#1\unitlength + \ifdim\dim@x=0pt\else\edef\gas@dash{\gas@dash\strip@PT\dim@x}\fi% + \@ifnextchar&{\gas@gobble}{\gas@convert}} + +\def\gasset@arcradius#1{% + \dim@x=#1\unitlength \edef\arc@radius{\strip@PT\dim@x}}% +\def\gasset@polyangle#1{\edef\poly@angle{#1}}% + +%----------------------------------------------------------------------- +% Default settings +\unitlength=1mm +\gasset{Nw=8,Nh=8,Nmr=4} % circle +\gasset{Nframe=y} +\gasset{fillgray=0,Nfill=n} % Not filled but black if filled +\gasset{ExtNL=n,NLangle=90,NLdist=0} +\gasset{iangle=180,ilength=5} +\gasset{fangle=0,flength=5} +\gasset{rdist=0.7} +\gasset{Nmarks=n} % no mark +\gasset{Nadjustdist=1,Nadjust=n} % no adjust +\gasset{sxo=0,syo=0,exo=0,eyo=0} +\gasset{curvedepth=0} +\gasset{loopdiam=8,loopangle=90,loopCW=y} +% One triangular small arrowhead +\gasset{AHnb=1,AHdist=1.41,AHangle=20,AHLength=1.5,AHlength=1.41} +\gasset{ATnb=0,ATdist=1.41,ATangle=20,ATLength=1.5,ATlength=1.41} +\gasset{ELside=l,ELpos=50,ELdist=1} +\gasset{linegray=0} % black lines +\gasset{linewidth=0.14,dash={}0} % continuous path +\gasset{arcradius=0,polyangle=0} % sharp angles + +% Settings for slides +\ifgastexslide + \gasset{Nw=12,Nh=12,Nmr=6,ilength=8,flength=8,rdist=1,loopdiam=12} + \gasset{linewidth=0.21,AHdist=2.1,AHLength=2.25,AHlength=2.1} + \gasset{ATdist=2.1,ATLength=2.25,ATlength=2.1} +\fi + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Nodes +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%----------------------------------------------------------------------- +% Define and draw a node whose shape is a regular polygon. +% +% \rpnode(NodeName)(x,y)(n,r){NodeLabel} +% \rpnode[parameter=value,...](NodeName)(x,y)(n,r){NodeLabel} +% +% Required arguments: +% NodeName : name of the node +% x,y : coordinates in \unitlengh of the node (center of the polygon). +% n : number of sides of the polygon. +% r : radius in \unitlengh of the circle containing the polygon. +% NodeLabel : label of the node. Empty if no label. +% Optional argument: (in particular, polyangle and arcradius) +% [parameter=value,...] +% One may just define a node without drawing it using an empty label +% and the parameters Nframe=n,Nfill=n +\def\rpnode#1(#2)(#3)(#4)#5{{% + \@ifnextchar[{\process@rpnodeopt}{\rp@node}#1(#2)(#3)(#4){#5}}} +\def\process@rpnodeopt[#1]{\gas@set#1,&\rp@node}% +\def\rp@node(#1)(#2,#3)(#4,#5)#6{{% +% The value -1 assigned to node@#1@w characterizes polygonal nodes + \global\expandafter\edef\csname node@#1@w\endcsname{-1}% + \setcounter{cnt@a}{1*\ratio{#2\unitlength}{\d@my@unit}} + \global\expandafter\edef\csname node@#1@x\endcsname{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#3\unitlength}{\d@my@unit}} + \global\expandafter\edef\csname node@#1@y\endcsname{\thecnt@a}% + \global\expandafter\edef\csname node@#1@n\endcsname{#4}% + \setcounter{cnt@a}{1*\ratio{#5\unitlength}{\d@my@unit}} + \global\expandafter\edef\csname node@#1@rad\endcsname{\thecnt@a}% + \global\expandafter\edef\csname node@#1@a\endcsname{\poly@angle}% +% Definition of the polygonal path for the node + \dim@x=\csname node@#1@x\endcsname\d@my@unit + \dim@y=\csname node@#1@y\endcsname\d@my@unit + \edef\ps@path{\strip@PT\dim@x\strip@PT\dim@y\csname node@#1@n\endcsname\space}% + \dim@x=\csname node@#1@rad\endcsname\d@my@unit + \edef\ps@path{\ps@path \strip@PT\dim@x \csname node@#1@a\endcsname\space}% + \edef\ps@path{\ps@path \arc@radius 0 !psrpolygonpath\space}% + \global\expandafter\edef\csname node@#1@path\endcsname{\ps@path}% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color \csname node@#1@path\endcsname fill + \fi + \if@frame + \line@color \csname node@#1@path\endcsname stroke + \fi + }} + \if@imark \imark(#1) \fi + \if@fmark \fmark(#1) \fi + \if@rmark \rmark(#1) \fi +% \@ExtNLfalse + \nodelabel(#1){#6} +}} + +%----------------------------------------------------------------------- +% Define and draw a node. +% +% \node(NodeName)(x,y){NodeLabel} +% \node[parameter=value,...](NodeName)(x,y){NodeLabel} +% +% Required arguments: +% NodeName : name of the node +% (x,y) : coordinates of the node in \unitlengh. +% NodeLabel : label of the node. Empty if no label. +% Optional argument: +% [parameter=value,...] +% One may just define a node without drawing it using an empty label +% and the parameters Nframe=n,Nfill=n +\def\node#1(#2)(#3,#4)#5{{% + \@ifnextchar[{\process@nodeopt}{\i@node}#1(#2)(#3,#4){#5}}} +\def\process@nodeopt[#1]{\gas@set#1,&\i@node}% +\def\i@node(#1)(#2,#3)#4{% + \let@node(#1)(#2,#3){#4}\draw@node(#1){#4}} + +%----------------------------------------------------------------------- +% Define a node without drawing it. +% Internal macro also used in \compatiblegastexun. +% +% \let@node(NodeName)(x,y){NodeLabel} +% +% Required arguments: +% NodeName : name of the node +% x,y : coordinates of the node in \unitlengh. +% NodeLabel : label of the node. Empty if no label. +\def\let@node(#1)(#2,#3)#4{{% +% width and height of the box containing #4 + \setbox\temp@box\hbox{\selectfont #4} + \if@wadjust + \setcounter{cnt@a}{\N@adjustdist + \wd\temp@box / \d@my@unit} + \edef\N@w{\thecnt@a}% + \fi + \if@hadjust + \setcounter{cnt@a}{\N@adjustdist + (\ht\temp@box+\dp\temp@box) / \d@my@unit} + \edef\N@h{\thecnt@a}% + \fi + \global\expandafter\edef\csname node@#1@w\endcsname{\N@w}% + \global\expandafter\edef\csname node@#1@h\endcsname{\N@h}% + \ifnum\N@h<\N@w + \setcounter{cnt@a}{\N@h/2} + \else + \setcounter{cnt@a}{\N@w/2} + \fi + \ifnum\N@mr<\thecnt@a\setcounter{cnt@a}{\N@mr}\fi + \global\expandafter\edef\csname node@#1@r\endcsname{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#2\unitlength}{\d@my@unit}} + \global\expandafter\edef\csname node@#1@x\endcsname{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#3\unitlength}{\d@my@unit}} + \global\expandafter\edef\csname node@#1@y\endcsname{\thecnt@a}% +% Definition of the oval path for the node + \dim@x=#2\unitlength \edef\ps@path{\strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=\N@w\d@my@unit \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=\N@h\d@my@unit \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=\N@mr\d@my@unit \edef\ps@path{\ps@path \strip@PT\dim@x}% + \edef\ps@path{\ps@path !psovalpath\space}% + \global\expandafter\edef\csname node@#1@path\endcsname{\ps@path}% +}} + +%----------------------------------------------------------------------- +% Draw a node which is already defined. Internal macro. +% +% \draw@node(NodeName){NodeLabel} +% +% Required arguments: +% NodeName : name of the node +% NodeLabel : label of the node. Empty if no label. +\def\draw@node(#1)#2{{% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color \csname node@#1@path\endcsname fill + \fi + \if@frame + \line@color \csname node@#1@path\endcsname stroke + \fi + }} + \if@imark \imark(#1) \fi + \if@fmark \fmark(#1) \fi + \if@rmark \rmark(#1) \fi + \nodelabel(#1){#2} +}} + +%----------------------------------------------------------------------- +% Add an ingoing arrow to mark an initial node. +% This arrow is usually drawn by \node using Nmarks=i. +% This separate macro can be used to draw several arrows +% or arrows with different colors, thickness, dash, ... +% +% \imark(NodeName) +% \imark[parameter=value,...](NodeName) +% +% Required arguments: +% NodeName : name of the node +% Optional argument: +% [parameter=value,...] +\def\imark#1(#2){{% + \@ifnextchar[{\process@imarkopt}{\i@mark}#1(#2)}} +\def\process@imarkopt[#1]{\gas@set#1,&\i@mark}% +\def\i@mark(#1){{% + \dim@x=\csname node@#1@x\endcsname\d@my@unit \edef\ps@par{\strip@PT\dim@x}% + \dim@x=\csname node@#1@y\endcsname\d@my@unit \edef\ps@par{\ps@par \strip@PT\dim@x}% + \dim@x=\i@length\d@my@unit \edef\ps@par{\ps@par \strip@PT\dim@x \i@angle\space}% + \put(0,0){\special{" \gas@initps \line@color +% Path around the node + \csname node@#1@path\endcsname /path!a false upath cvlit def + \gas@ATnul \gas@AHparam \ps@par !node_mark}} +}} + +%----------------------------------------------------------------------- +% Add an outgoing arrow to mark a final node. +% This arrow is usually drawn by \node using Nmarks=f. +% This separate macro can be used to draw several arrows +% or arrows with different colors, thickness, dash, ... +% +% \fmark(NodeName) +% \fmark[parameter=value,...](NodeName) +% +% Required arguments: +% NodeName : name of the node +% Optional argument: +% [parameter=value,...] +\def\fmark#1(#2){{% + \@ifnextchar[{\process@fmarkopt}{\f@mark}#1(#2)}} +\def\process@fmarkopt[#1]{\gas@set#1,&\f@mark}% +\def\f@mark(#1){{% + \dim@x=\csname node@#1@x\endcsname\d@my@unit \edef\ps@par{\strip@PT\dim@x}% + \dim@x=\csname node@#1@y\endcsname\d@my@unit \edef\ps@par{\ps@par \strip@PT\dim@x}% + \dim@x=\f@length\d@my@unit \edef\ps@par{\ps@par \strip@PT\dim@x \f@angle\space}% + \put(0,0){\special{" \gas@initps \line@color +% Path around the node + \csname node@#1@path\endcsname /path!a false upath cvlit def + \gas@AHparam \gas@ATnul \ps@par !node_mark}} +}} + +%----------------------------------------------------------------------- +% Add a second line to mark a repeated node. +% This line is usually drawn by \node using Nmarks=r. +% This separate macro can be used to draw several lines around the +% node or lines with different colors, thickness, dash, ... +% +% \rmark(NodeName) +% \rmark[parameter=value,...](NodeName) +% +% Required arguments: +% NodeName : name of the node +% Optional argument: +% [parameter=value,...] +\def\rmark#1(#2){{% + \@ifnextchar[{\process@rmarkopt}{\r@mark}#1(#2)}} +\def\process@rmarkopt[#1]{\gas@set#1,&\r@mark}% +\def\r@mark(#1){{% + \ifnum\csname node@#1@w\endcsname=-1 % then it's a polygonal node + \dim@x=\csname node@#1@x\endcsname\d@my@unit + \edef\ps@path{\strip@PT\dim@x}% + \dim@x=\csname node@#1@y\endcsname\d@my@unit + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \edef\ps@path{\ps@path \csname node@#1@n\endcsname\space}% + \dim@x=\csname node@#1@rad\endcsname\d@my@unit + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \edef\ps@path{\ps@path \csname node@#1@a\endcsname\space}% + \dim@y=\rep@dist\d@my@unit + \edef\ps@path{\ps@path \arc@radius \strip@PT\dim@y !psrpolygonpath\space}% + \put(0,0){\special{" \gas@initps \line@color \ps@path stroke}} + \else % it's an oval node + \dim@x=\csname node@#1@x\endcsname\d@my@unit + \edef\ps@path{\strip@PT\dim@x}% + \dim@x=\csname node@#1@y\endcsname\d@my@unit + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@y=-\rep@dist\d@my@unit + \dim@x=\csname node@#1@w\endcsname\d@my@unit + \advance\dim@x\dim@y\advance\dim@x\dim@y + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=\csname node@#1@h\endcsname\d@my@unit + \advance\dim@x\dim@y\advance\dim@x\dim@y + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=\csname node@#1@r\endcsname\d@my@unit + \advance\dim@x\dim@y + \edef\ps@path{\ps@path \strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps \line@color \ps@path !psovalpath stroke}} + \fi +}} + +%----------------------------------------------------------------------- +% Add a label to the node. +% The position of the label is determined by the ExtNL flag +% and the parameters NLangle and NLdist. +% The label is usually drawn by \node. +% This separate macro can be used to add several labels +% +% \nodelabel(NodeName){NodeLabel} +% \nodelabel[parameter=value,...](NodeName){NodeLabel} +% +% Required arguments: +% NodeName : name of the node +% NodeLabel : label of the node. +% Optional argument: +% [parameter=value,...] +\newif\if@cosneg \newif\if@sinneg +\def\nodelabel#1(#2)#3{{% + \@ifnextchar[{\process@nodelabelopt}{\node@label}#1(#2){#3}}} +\def\process@nodelabelopt[#1]{\gas@set#1,&\node@label}% +\def\node@label(#1)#2{{% + \unitlength=\d@my@unit + \edef\cs@x{\csname node@#1@x\endcsname}% + \edef\cs@y{\csname node@#1@y\endcsname}% + \if@ExtNL + \node@diam(#1,\NL@angle) + \setcounter{cnt@a}{\cs@nd/2}\edef\cs@nr{\thecnt@a}% +% width and height of the box containing #2 + \setbox\temp@box\hbox{\selectfont #2} + \setcounter{cnt@a}{\wd\temp@box / \d@my@unit} + \edef\cs@bw{\thecnt@a}% + \setcounter{cnt@a}{(\ht\temp@box+\dp\temp@box) / \d@my@unit} + \edef\cs@bh{\thecnt@a}% +% + \@cosnegfalse \@sinnegfalse + \dim@x=\cs@cos pt \ifnum \dim@x<0 \@cosnegtrue \dim@x=-\dim@x \fi + \edef\cs@abscos{\strip@PT\dim@x}% + \dim@x=\cs@sin pt \ifnum \dim@x<0 \@sinnegtrue \dim@x=-\dim@x \fi + \edef\cs@abssin{\strip@PT\dim@x}% +% + \ifnum\csname node@#1@w\endcsname=-1 % then it's a polygonal node + \setcounter{cnt@c}{\cs@nr+\NL@dist+% + (\cs@bw*\real{\cs@abscos}+\cs@bh*\real{\cs@abssin})/2} + \setcounter{cnt@a}{\cs@x+\thecnt@c*\real{\cs@cos}} + \setcounter{cnt@b}{\cs@y+\thecnt@c*\real{\cs@sin}} + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #2}} + \else % it's an oval node + \setcounter{cnt@a}{((\cs@h+\cs@bh)/2+\NL@dist)*\real{\cs@abscos}} + \setcounter{cnt@b}{((\cs@w+\cs@bw)/2-\cs@r)*\real{\cs@abssin}} + \ifnum\thecnt@a<\thecnt@b + \setcounter{cnt@c}{(\cs@h+\cs@bh)/2+\NL@dist} + \if@sinneg \setcounter{cnt@c}{-\thecnt@c} \fi + \setcounter{cnt@a}{\cs@x+\thecnt@c*\real{\cs@cos}/\real{\cs@sin}} + \setcounter{cnt@b}{\cs@y+\thecnt@c} + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #2}} + \else + \setcounter{cnt@a}{((\cs@w+\cs@bw)/2+\NL@dist)*\real{\cs@abssin}} + \setcounter{cnt@b}{((\cs@h+\cs@bh)/2-\cs@r)*\real{\cs@abscos}} + \ifnum\thecnt@a<\thecnt@b + \setcounter{cnt@c}{(\cs@w+\cs@bw)/2+\NL@dist} + \if@cosneg \setcounter{cnt@c}{-\thecnt@c} \fi + \setcounter{cnt@a}{\cs@x+\thecnt@c} + \setcounter{cnt@b}{\cs@y+\thecnt@c*\real{\cs@sin}/\real{\cs@cos}} + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #2}} + \else + % auxiliary parameters + \setcounter{cnt@a}{\cs@r-(\cs@w+\cs@bw)/2} + \edef\cs@xx{\thecnt@a}% + \setcounter{cnt@a}{\cs@r-(\cs@h+\cs@bh)/2} + \edef\cs@yy{\thecnt@a}% + \setcounter{cnt@a}{(\cs@r+\NL@dist)*(\cs@r+\NL@dist)} + \edef\cs@lim{\thecnt@a}% + \def\cs@tmin{0}% + \setcounter{cnt@a}{\NL@dist+(\cs@bw+\cs@bh)/2} + \edef\cs@tmax{\thecnt@a}% + % computation of the center of the label + \setcounter{cnt@c}{10} + \@whilenum\thecnt@c>0\do{ + \setcounter{cnt@a}{(\cs@tmin+\cs@tmax)/2} + \edef\cs@t{\thecnt@a}% + \setcounter{cnt@a}{(\cs@nr+\cs@t)*\real{\cs@abscos}+\cs@xx} + \setcounter{cnt@b}{(\cs@nr+\cs@t)*\real{\cs@abssin}+\cs@yy} + \setcounter{cnt@a}{\thecnt@a*\thecnt@a + \thecnt@b*\thecnt@b} + \ifnum\thecnt@a<\cs@lim + \edef\cs@tmin{\cs@t}% + \else + \edef\cs@tmax{\cs@t}% + \fi + \addtocounter{cnt@c}{-1}} + \setcounter{cnt@a}{\cs@x+(\cs@nr+\cs@t)*\real{\cs@cos}} + \setcounter{cnt@b}{\cs@y+(\cs@nr+\cs@t)*\real{\cs@sin}} + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #2}} + \fi + \fi + \fi + \else % regular node label + \CalculateCos{\NL@angle} \edef\cs@cos{\UseCos{\NL@angle}}% + \CalculateSin{\NL@angle} \edef\cs@sin{\UseSin{\NL@angle}}% + \setcounter{cnt@a}{\cs@x+\NL@dist*\real{\cs@cos}} + \setcounter{cnt@b}{\cs@y+\NL@dist*\real{\cs@sin}} + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #2}} + \fi +}} + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Edges +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%----------------------------------------------------------------------- +% Edge between two nodes. +% +% \drawedge(startingNode,endingNode){label} +% \drawedge[parameter=value,...](startingNode,endingNode){label} +% +% Required arguments: +% startingNode : name of the starting node, +% endingNode : name of the ending node, +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawedge#1(#2)#3{{% + \@ifnextchar[{\process@edgeopt}{\draw@edge}#1(#2){#3}}} +\def\process@edgeopt[#1]{\gas@set#1,&\draw@edge}% +\def\draw@edge(#1,#2)#3{% +% Control points of the cubic Bezier curve + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#2@x\endcsname + \E@exo}% + \edef\cs@xd{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#2@y\endcsname + \E@eyo}% + \edef\cs@yd{\thecnt@a}% + \setcounter{cnt@a}{\cs@xd-\cs@xa} + \setcounter{cnt@b}{\cs@yd-\cs@ya} + \setcounter{cnt@c}{\thecnt@a*\thecnt@a+\thecnt@b*\thecnt@b} + \ifnum\thecnt@c=0 + \PackageError{gastex}{drawedge(#1,#2)}{} + \typeout{The starting and ending nodes should not have the same coordinates.} + \else + \gas@sqrt{\thecnt@c} + \setcounter{cnt@b}{\cs@xa+\cs@xd-4*\curve@depth*(\cs@yd-\cs@ya)/\the@sqrt} + \setcounter{cnt@a}{(\thecnt@b+\cs@xa)/3}\edef\cs@xb{\thecnt@a}% + \setcounter{cnt@a}{(\thecnt@b+\cs@xd)/3}\edef\cs@xc{\thecnt@a}% + \setcounter{cnt@b}{\cs@ya+\cs@yd+4*\curve@depth*(\cs@xd-\cs@xa)/\the@sqrt} + \setcounter{cnt@a}{(\thecnt@b+\cs@ya)/3}\edef\cs@yb{\thecnt@a}% + \setcounter{cnt@a}{(\thecnt@b+\cs@yd)/3}\edef\cs@yc{\thecnt@a}% + \unitlength=\d@my@unit + \draw@b@edge(#1,#2){#3} + \fi +} + +%----------------------------------------------------------------------- +% Edge between two nodes following a quadratic Bezier curve. +% The first and last control points are the centers of the starting +% and ending nodes resp, modified with the starting and ending offsets. +% The middle control point is given by its absolute cartesian coordinates +% +% \drawqbedge(startingNode,x,y,endingNode){label} +% \drawqbedge[parameter=value,...](startingNode,x,y,endingNode){label} +% +% Required arguments: +% startingNode : name of the starting node, +% x,y : coordinates in \unitlength of the intermediary control point +% endingNode : name of the ending node, +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawqbedge#1(#2)#3{{% + \@ifnextchar[{\process@qbedgeopt}{\draw@qbedge}#1(#2){#3}}} +\def\process@qbedgeopt[#1]{\gas@set#1,&\draw@qbedge}% +\def\draw@qbedge(#1,#2,#3,#4)#5{% +% Control points of the cubic Bezier curve + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@x\endcsname + \E@exo}% + \edef\cs@xd{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@y\endcsname + \E@eyo}% + \edef\cs@yd{\thecnt@a}% + \setcounter{cnt@b}{2*\ratio{#2\unitlength}{\d@my@unit}} + \setcounter{cnt@a}{(\cs@xa+\thecnt@b)/3}\edef\cs@xb{\thecnt@a}% + \setcounter{cnt@a}{(\cs@xd+\thecnt@b)/3}\edef\cs@xc{\thecnt@a}% + \setcounter{cnt@b}{2*\ratio{#3\unitlength}{\d@my@unit}} + \setcounter{cnt@a}{(\cs@ya+\thecnt@b)/3}\edef\cs@yb{\thecnt@a}% + \setcounter{cnt@a}{(\cs@yd+\thecnt@b)/3}\edef\cs@yc{\thecnt@a}% + \unitlength=\d@my@unit + \draw@b@edge(#1,#4){#5} +} + +%----------------------------------------------------------------------- +% Edge between two nodes following a quadratic Bezier curve. +% The first and last control points are the centers of the starting +% and ending nodes resp, modified with the starting and ending offsets. +% The middle control point is defined by two angles. +% +% \drawqbpedge(startingNode,sa,endingNode,ea){label} +% \drawqbpedge[parameter=value,...](startingNode,sa,endingNode,ea){label} +% +% Required arguments: +% startingNode : name of the starting node, +% endingNode : name of the ending node, +% sa,ea : angles in degree at the starting and ending nodes, +% these angles define intermediary control point +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawqbpedge#1(#2)#3{{% + \@ifnextchar[{\process@qbpedgeopt}{\draw@qbpedge}#1(#2){#3}}} +\def\process@qbpedgeopt[#1]{\gas@set#1,&\draw@qbpedge}% +\def\draw@qbpedge(#1,#2,#3,#4)#5{% +% Control points of the cubic Bezier curve + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#3@x\endcsname + \E@exo}% + \edef\cs@xd{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#3@y\endcsname + \E@eyo}% + \edef\cs@yd{\thecnt@a}% + \edef\cs@sangle{#2}% + \CalculateCos\cs@sangle \CalculateSin\cs@sangle + \edef\cs@eangle{#4}% + \CalculateCos\cs@eangle \CalculateSin\cs@eangle + \setcounter{cnt@a}{1000*\real{\UseCos\cs@sangle}*\real{\UseSin\cs@eangle} + -1000*\real{\UseSin\cs@sangle}*\real{\UseCos\cs@eangle}} + \ifnum\thecnt@a=0 + \PackageError{gastex}{drawqbpedge(#1,#2,#3,#4)}{} + \typeout{The angles do not allow to compute the intersection point.} + \else + \setcounter{cnt@c}{((\cs@xd-\cs@xa)*1000*\real{\UseSin\cs@eangle} + -(\cs@yd-\cs@ya)*1000*\real{\UseCos\cs@eangle}) + /\thecnt@a} + \setcounter{cnt@b}{2*(\cs@xa+\thecnt@c*\real{\UseCos\cs@sangle})} + \setcounter{cnt@a}{(\cs@xa+\thecnt@b)/3}\edef\cs@xb{\thecnt@a}% + \setcounter{cnt@a}{(\cs@xd+\thecnt@b)/3}\edef\cs@xc{\thecnt@a}% + \setcounter{cnt@b}{2*(\cs@ya+\thecnt@c*\real{\UseSin\cs@sangle})} + \setcounter{cnt@a}{(\cs@ya+\thecnt@b)/3}\edef\cs@yb{\thecnt@a}% + \setcounter{cnt@a}{(\cs@yd+\thecnt@b)/3}\edef\cs@yc{\thecnt@a}% + \unitlength=\d@my@unit + \draw@b@edge(#1,#3){#5} + \fi +} + +%----------------------------------------------------------------------- +% Edge between two nodes following a cubic Bezier curve. +% The first and last control points are the centers of the starting +% and ending nodes resp, modified with the starting and ending offsets. +% The second and third control points are given by their polar coordinates +% relative to the first and last control points resp. +% +% \drawbpedge(startingNode,sa,sr,endingNode,ea,er){label} +% \drawbpedge[parameter=value,...](startingNode,sa,sr,endingNode,ea,er){label} +% +% Required arguments: +% startingNode : name of the starting node, +% sa,sr : polar coordinates of the second control point relative to the +% first control point (angle in degree and radius in \unitlength) +% endingNode : name of the ending node, +% ea,er : polar coordinates of the third control point relative to the +% last control point (angle in degree and radius in \unitlength) +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawbpedge#1(#2)#3{{% + \@ifnextchar[{\process@bpedgeopt}{\draw@bpedge}#1(#2){#3}}} +\def\process@bpedgeopt[#1]{\gas@set#1,&\draw@bpedge}% +\def\draw@bpedge(#1,#2,#3,#4,#5,#6)#7{% +% Control points of the cubic Bezier curve + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@x\endcsname + \E@exo}% + \edef\cs@xd{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@y\endcsname + \E@eyo}% + \edef\cs@yd{\thecnt@a}% + \setcounter{cnt@b}{1*\ratio{#3\unitlength}{\d@my@unit}} + \edef\cs@angle{#2}% + \CalculateCos\cs@angle \CalculateSin\cs@angle + \setcounter{cnt@a}{\cs@xa+\thecnt@b*\real{\UseCos\cs@angle}} + \edef\cs@xb{\thecnt@a}% + \setcounter{cnt@a}{\cs@ya+\thecnt@b*\real{\UseSin\cs@angle}} + \edef\cs@yb{\thecnt@a}% + \setcounter{cnt@b}{1*\ratio{#6\unitlength}{\d@my@unit}} + \edef\cs@angle{#5}% + \CalculateCos\cs@angle \CalculateSin\cs@angle + \setcounter{cnt@a}{\cs@xd+\thecnt@b*\real{\UseCos\cs@angle}} + \edef\cs@xc{\thecnt@a}% + \setcounter{cnt@a}{\cs@yd+\thecnt@b*\real{\UseSin\cs@angle}} + \edef\cs@yc{\thecnt@a}% + \unitlength=\d@my@unit + \draw@b@edge(#1,#4){#7} +} + +%----------------------------------------------------------------------- +% Edge between two nodes following a cubic Bezier curve. +% The first and last control points are the centers of the starting +% and ending nodes resp, modified with the starting and ending offsets. +% The second and third control points are given by their absolute +% cartesian coordinates. +% +% \drawbcedge(startingNode,xs,ys,endingNode,xe,ye){label} +% \drawbcedge[parameter=value,...](startingNode,xs,ys,endingNode,xe,ye){label} +% +% Required arguments: +% startingNode : name of the starting node, +% xs,ys : coordinates in \unitlength of the control point defining +% the tangent at the starting node +% endingNode : name of the ending node, +% xe,ye : coordinates in \unitlength of the control point defining +% the tangent at the ending node +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawbcedge#1(#2)#3{{% + \@ifnextchar[{\process@bcedgeopt}{\draw@bcedge}#1(#2){#3}}} +\def\process@bcedgeopt[#1]{\gas@set#1,&\draw@bcedge}% +\def\draw@bcedge(#1,#2,#3,#4,#5,#6)#7{% +% Control points of the cubic Bezier curve + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@x\endcsname + \E@exo}% + \edef\cs@xd{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#4@y\endcsname + \E@eyo}% + \edef\cs@yd{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#2\unitlength}{\d@my@unit}} + \edef\cs@xb{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#3\unitlength}{\d@my@unit}} + \edef\cs@yb{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#5\unitlength}{\d@my@unit}} + \edef\cs@xc{\thecnt@a}% + \setcounter{cnt@a}{1*\ratio{#6\unitlength}{\d@my@unit}} + \edef\cs@yc{\thecnt@a}% + \unitlength=\d@my@unit + \draw@b@edge(#1,#4){#7} +} + +%----------------------------------------------------------------------- +% Loop on a node following a cubic Bezier curve. +% Only the starting offsets sxo and syo are used. +% +% \drawloop(Node){label} +% \drawloop[parameter=value,...](Node){label} +% +% Required arguments: +% Node : name of the node, +% label : label of the edge. {} for no label. +% Optional argument: +% [parameter=value,...] +\def\drawloop#1(#2)#3{{% + \@ifnextchar[{\process@loopopt}{\draw@loop}#1(#2){#3}}} +\def\process@loopopt[#1]{\gas@set#1,&\draw@loop}% +\def\draw@loop(#1)#2{% +% Control points of the cubic Bezier curve + \unitlength=\d@my@unit + \setcounter{cnt@a}{\csname node@#1@x\endcsname + \E@sxo}% + \edef\cs@xa{\thecnt@a}% + \setcounter{cnt@a}{\csname node@#1@y\endcsname + \E@syo}% + \edef\cs@ya{\thecnt@a}% + \edef\cs@xd{\cs@xa}% + \edef\cs@yd{\cs@ya}% + \node@diam(#1,\loop@angle) + \setcounter{cnt@a}{2*(\cs@nd+2*\loop@diam)/3} + \setcounter{cnt@b}{\loop@diam*1732/1000} % approx of sqrt(3) +% Rotation + \setcounter{cnt@c} + {\cs@xa+\thecnt@a*\real{\cs@cos}-\thecnt@b*\real{\cs@sin}} + \if@loopCW + \edef\cs@xb{\thecnt@c}% + \else + \edef\cs@xc{\thecnt@c}% + \fi + \setcounter{cnt@c} + {\cs@xa+\thecnt@a*\real{\cs@cos}+\thecnt@b*\real{\cs@sin}} + \if@loopCW + \edef\cs@xc{\thecnt@c}% + \else + \edef\cs@xb{\thecnt@c}% + \fi + \setcounter{cnt@c} + {\cs@ya+\thecnt@a*\real{\cs@sin}+\thecnt@b*\real{\cs@cos}} + \if@loopCW + \edef\cs@yb{\thecnt@c}% + \else + \edef\cs@yc{\thecnt@c}% + \fi + \setcounter{cnt@c} + {\cs@ya+\thecnt@a*\real{\cs@sin}-\thecnt@b*\real{\cs@cos}} + \if@loopCW + \edef\cs@yc{\thecnt@c}% + \else + \edef\cs@yb{\thecnt@c}% + \fi + \draw@b@edge(#1,#1){#2} +} + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Other macros +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%----------------------------------------------------------------------- +% Draw a broken line defined by n points (n>1). +% The line may have arrowhead(s), arrowtail(s), color, ... +% depending of the current settings +% +% \drawline(x1,y1)...(xn,yn) +% \drawline[parameter=value,...](x1,y1)...(xn,yn) +% +% Required arguments in \unitlengh: +% (x1,y1)...(xn,yn) : coordinates of the points. +% Optional argument: +% [parameter=value,...] +\def\drawline#1(#2){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \@ifnextchar[{\process@drawlineopt}{\draw@line}#1(#2)} +\def\process@drawlineopt[#1]{\gas@set#1,&\draw@line}% +\def\draw@line(#1,#2){% + \setcounter{cnt@a}{\thecnt@a+1} + \dim@x=#1\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \@ifnextchar({\draw@line}{ + \put(0,0){\special{" \gas@initps \line@color + \gas@ATparam \gas@AHparam \ps@param \thecnt@a\space \arc@radius !pslines}} + \endgroup + }} + +%----------------------------------------------------------------------- +% Draw a circle. +% +% \drawcircle(x,y,r) +% \drawcircle[parameter=value,...](x,y,d) +% +% Required arguments in \unitlengh: +% x,y : coordinates of the circle center. +% d : diameter of the circle. +% Optional argument: +% [parameter=value,...] +\def\drawcircle#1(#2){{% + \@ifnextchar[{\process@circleopt}{\draw@circle}#1(#2)}} +\def\process@circleopt[#1]{\gas@set#1,&\draw@circle}% +\def\draw@circle(#1,#2,#3){{% + \dim@x=#1\unitlength \edef\ps@x{\strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@y{\strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@d{\strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color + \ps@x \ps@y \ps@d 2 div !pscirclepath fill + \fi + \if@frame + \line@color + \ps@x \ps@y \ps@d 2 div !pscirclepath stroke + \fi + }} +}} + +%----------------------------------------------------------------------- +% Draw a rectangle. +% +% \drawrect(x0,y0,x1,y1) +% \drawrect[parameter=value,...](x0,y0,x1,y1) +% +% Required arguments in \unitlengh: +% x0,y0 : coordinates of the lower left corner of the rectangle. +% x1,y1 : coordinates of the upper right corner of the rectangle. +% Optional argument: +% [parameter=value,...] +\def\drawrect#1(#2){{% + \@ifnextchar[{\process@rectopt}{\draw@rect}#1(#2)}} +\def\process@rectopt[#1]{\gas@set#1,&\draw@rect}% +\def\draw@rect(#1,#2,#3,#4){{% + \dim@x=#1\unitlength \edef\ps@x{\strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@y{\strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@a{\strip@PT\dim@x}% + \dim@x=#4\unitlength \edef\ps@b{\strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color + \ps@x \ps@y \ps@a \ps@b !psrectpath fill + \fi + \if@frame + \line@color + \ps@x \ps@y \ps@a \ps@b !psrectpath stroke + \fi + }} +}} + +%----------------------------------------------------------------------- +% Draw an oval. +% +% \drawoval(x,y,w,h,mr) +% \drawoval[parameter=value,...](x,y,w,h,mr) +% +% Required arguments in \unitlengh: +% x,y : coordinates of the oval center. +% w,h : width and height of the oval. +% rm : defines the maximal radius for the corners. +% Optional argument: +% [parameter=value,...] +\def\drawoval#1(#2){{% + \@ifnextchar[{\process@ovalopt}{\draw@oval}#1(#2)}} +\def\process@ovalopt[#1]{\gas@set#1,&\draw@oval}% +\def\draw@oval(#1,#2,#3,#4,#5){{% + \dim@x=#1\unitlength \edef\ps@path{\strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=#4\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \dim@x=#5\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \edef\ps@path{\ps@path !psovalpath\space}% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color \ps@path fill + \fi + \if@frame + \line@color \ps@path stroke + \fi + }} +}} + +%----------------------------------------------------------------------- +% Draw a polygon defined by n points (n>1). +% The polygon may be framed and/or filled depending on the current parameters. +% +% \drawpolygon(x1,y1)...(xn,yn) +% \drawpolygon[parameter=value,...](x1,y1)...(xn,yn) +% +% Required arguments in \unitlengh: +% (x1,y1)...(xn,yn) : coordinates of the points. +% Optional argument: +% [parameter=value,...] +\def\drawpolygon#1(#2){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \@ifnextchar[{\process@polygonopt}{\draw@polygon}#1(#2)} +\def\process@polygonopt[#1]{\gas@set#1,&\draw@polygon}% +\def\draw@polygon(#1,#2){% + \setcounter{cnt@a}{\thecnt@a+1} + \dim@x=#1\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \@ifnextchar({\draw@polygon}{ + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color + \ps@param \thecnt@a\space \arc@radius !pspolygonpath fill + \fi + \if@frame + \line@color + \ps@param \thecnt@a\space \arc@radius !pspolygonpath stroke + \fi + }} + \endgroup + }} + +%----------------------------------------------------------------------- +% Draw a regular polygon +% The polygon may be framed and/or filled depending on the current parameters. +% +% \drawrpolygon(x,y)(n,r) +% \drawrpolygon[parameter=value,...](x,y)(n,r) +% +% Required arguments: +% x,y : coordinates in \unitlengh of the center of the polygon. +% n : number of sides of the polygon. +% r : radius in \unitlengh of the polygon. +% Optional argument: (in particular, polyangle and arcradius) +% [parameter=value,...] +\def\drawrpolygon#1(#2)(#3){\begingroup% + \@ifnextchar[{\process@rpolygonopt}{\draw@rpolygon}#1(#2)(#3)} +\def\process@rpolygonopt[#1]{\gas@set#1,&\draw@rpolygon}% +\def\draw@rpolygon(#1,#2)(#3,#4){% + \dim@x=#1\unitlength \dim@y=#2\unitlength + \edef\ps@path{\strip@PT\dim@x \strip@PT\dim@y #3\space}% + \dim@x=#4\unitlength \edef\ps@path{\ps@path \strip@PT\dim@x}% + \edef\ps@path{\ps@path \poly@angle\space \arc@radius 0 !psrpolygonpath\space}% + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color \ps@path fill + \fi + \if@frame + \line@color \ps@path stroke + \fi + }} + \endgroup} + +%----------------------------------------------------------------------- +% Draw closed curve defined by n points (n>1). +% Between each pair of consecutive points, we use a cubic Bezier curve. +% The control points of the cubic Bezier curves are determined so that +% the whole curve is C^1 and the tangent at each point is orthogonal to +% the bisector at this point. +% The closed curve may be framed and/or filled depending on +% the current parameters. +% +% \drawccurve(x1,y1)...(xn,yn) +% \drawccurve[parameter=value,...](x1,y1)...(xn,yn) +% +% Required arguments in \unitlengh: +% (x1,y1)...(xn,yn) : coordinates of the points. +% Optional argument: +% [parameter=value,...] +\def\drawccurve#1(#2){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \@ifnextchar[{\process@drawccurveopt}{\draw@c@curve}#1(#2)} +\def\process@drawccurveopt[#1]{\gas@set#1,&\draw@c@curve}% +\def\draw@c@curve(#1,#2){% + \setcounter{cnt@a}{\thecnt@a+1} + \dim@x=#1\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \@ifnextchar({\draw@c@curve}{ + \put(0,0){\special{" \gas@initps + \if@fill + \fill@color + \ps@param \thecnt@a\space !psccurvepath fill + \fi + \if@frame + \line@color + \ps@param \thecnt@a\space !psccurvepath stroke + \fi + }} + \endgroup +}} + +%----------------------------------------------------------------------- +% Draw curve defined by n points (n>1). +% Between each pair of consecutive points, we use a cubic Bezier curve. +% The control points of the cubic Bezier curves are determined so that +% the whole curve is C^1 and the tangent at each point is orthogonal to +% the bisector at this point. +% +% \drawcurve(x1,y1)...(xn,yn) +% \drawcurve[parameter=value,...](x1,y1)...(xn,yn) +% +% Required arguments in \unitlengh: +% (x1,y1)...(xn,yn) : coordinates of the points. +% Optional argument: +% [parameter=value,...] +\def\drawcurve#1(#2){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \@ifnextchar[{\process@drawcurveopt}{\draw@curve}#1(#2)} +\def\process@drawcurveopt[#1]{\gas@set#1,&\draw@curve}% +\def\draw@curve(#1,#2){% + \setcounter{cnt@a}{\thecnt@a+1} + \dim@x=#1\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@param{\ps@param \strip@PT\dim@x}% + \@ifnextchar({\draw@curve}{ + \put(0,0){\special{" \gas@initps \line@color + \gas@ATparam \gas@AHparam + \ps@param \thecnt@a\space !pscurve}} + \endgroup +}} + +%----------------------------------------------------------------------- +% Draw a quadratic Bezier curve. +% The line may have arrowhead(s), ... depending of the current settings +% +% \drawqbezier(x0,y0,x1,y1,x2,y2) +% \drawqbezier[parameter=value,...](x0,y0,x1,y1,x2,y2) +% +% \drawqbezier arguments: +% x0,y0,x1,y1,x2,y2 : coordinates in \unitlength of the control points +% Optional argument: +% [parameter=value,...] +\def\drawqbezier#1(#2){{% + \@ifnextchar[{\process@drawqbezieropt}{\draw@q@bezier}#1(#2)}} +\def\process@drawqbezieropt[#1]{\gas@set#1,&\draw@q@bezier}% +\def\draw@q@bezier(#1,#2,#3,#4,#5,#6){{% + \dim@x=#1\unitlength \edef\ps@xa{\strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@ya{\strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@xb{\strip@PT\dim@x}% + \dim@x=#4\unitlength \edef\ps@yb{\strip@PT\dim@x}% + \dim@x=#5\unitlength \edef\ps@xc{\strip@PT\dim@x}% + \dim@x=#6\unitlength \edef\ps@yc{\strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps \line@color + \gas@ATparam \gas@AHparam + \ps@xa \ps@ya \ps@xb \ps@yb \ps@xc \ps@yc !ps_qbezier}} +}} + +%----------------------------------------------------------------------- +% Draw a cubic Bezier curve. +% The line may have arrowhead(s), ... depending of the current settings +% +% \drawcbezier(x0,y0,x1,y1,x2,y2,x3,y3) +% \drawcbezier[parameter=value,...](x0,y0,x1,y1,x2,y2,x3,y3) +% +% \drawcbezier arguments: +% x0,y0,x1,y1,x2,y2,x3,y3 : coordinates in \unitlength of the control points +% Optional argument: +% [parameter=value,...] +\def\drawcbezier#1(#2){{% + \@ifnextchar[{\process@drawcbezieropt}{\draw@c@bezier}#1(#2)}} +\def\process@drawcbezieropt[#1]{\gas@set#1,&\draw@c@bezier}% +\def\draw@c@bezier(#1,#2,#3,#4,#5,#6,#7,#8){{% + \dim@x=#1\unitlength \edef\ps@xa{\strip@PT\dim@x}% + \dim@x=#2\unitlength \edef\ps@ya{\strip@PT\dim@x}% + \dim@x=#3\unitlength \edef\ps@xb{\strip@PT\dim@x}% + \dim@x=#4\unitlength \edef\ps@yb{\strip@PT\dim@x}% + \dim@x=#5\unitlength \edef\ps@xc{\strip@PT\dim@x}% + \dim@x=#6\unitlength \edef\ps@yc{\strip@PT\dim@x}% + \dim@x=#7\unitlength \edef\ps@xd{\strip@PT\dim@x}% + \dim@x=#8\unitlength \edef\ps@yd{\strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps \line@color + \gas@ATparam \gas@AHparam + \ps@xa \ps@ya \ps@xb \ps@yb \ps@xc \ps@yc \ps@xd \ps@yd !ps_cbezier}} +}} + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Internal macros +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% + +%----------------------------------------------------------------------- +% Compute the diameter of a node in some direction +% +% \node@diam(Node,angle) +% +% Result in \cs@nd. +% Byproduct: \cs@cos=cos(angle), \cs@sin=sin(angle) are also defined. +% +% There are 3 cases depending on whether the direction intersects the node +% on a vertical line, an horizontal line or a rounded corner. +\def\node@diam(#1,#2){% + \CalculateCos{#2} \edef\cs@cos{\UseCos{#2}}% + \CalculateSin{#2} \edef\cs@sin{\UseSin{#2}}% + \ifnum\csname node@#1@w\endcsname=-1 % then it's a polygonal node + \edef\cs@rad{\csname node@#1@rad\endcsname}% + \edef\cs@n{\csname node@#1@n\endcsname}% + \edef\cs@a{\csname node@#1@a\endcsname}% + \setcounter{cnt@b}{360/\cs@n}\edef\cs@b{\thecnt@b}% + \setcounter{cnt@a}{#2-\cs@a} + \@whilenum\thecnt@a>\thecnt@b\do{\setcounter{cnt@a}{\thecnt@a-\thecnt@b}} + \@whilenum\thecnt@a<0\do{\setcounter{cnt@a}{\thecnt@a+\thecnt@b}} + \setcounter{cnt@b}{\thecnt@b/2} + \setcounter{cnt@a}{\thecnt@a-\thecnt@b} + \ifnum\thecnt@a<0 \setcounter{cnt@a}{-\thecnt@a} \fi + \CalculateCos{\thecnt@a} \CalculateCos{\thecnt@b}% + \setcounter{cnt@c}{2*\cs@rad*\real{\UseCos{\thecnt@b}}/\real{\UseCos{\thecnt@a}}} + \edef\cs@nd{\thecnt@c}% + \else % it's an oval node + \edef\cs@w{\csname node@#1@w\endcsname}% + \edef\cs@h{\csname node@#1@h\endcsname}% + \edef\cs@r{\csname node@#1@r\endcsname}% + \setcounter{cnt@a}{\cs@r+\cs@r}\edef\cs@rr{\thecnt@a}% + \setcounter{cnt@a}{(\cs@h-\cs@rr)*\real{\cs@cos}} + \ifnum\thecnt@a<0\edef\cs@A{-\thecnt@a}\else\edef\cs@A{\thecnt@a}\fi% + \setcounter{cnt@a}{(\cs@w-\cs@rr)*\real{\cs@sin}} + \ifnum\thecnt@a<0\edef\cs@B{-\thecnt@a}\else\edef\cs@B{\thecnt@a}\fi% + \setcounter{cnt@a}{\cs@w*\real{\cs@sin}} + \ifnum\thecnt@a<0\setcounter{cnt@a}{-\thecnt@a}\fi + \ifnum\thecnt@a<\cs@A + \setcounter{cnt@c}{\cs@w/\real{\cs@cos}} + \ifnum\thecnt@c<0\edef\cs@nd{-\thecnt@c}\else\edef\cs@nd{\thecnt@c}\fi% + \else + \setcounter{cnt@a}{\cs@h*\real{\cs@cos}} + \ifnum\thecnt@a<0\setcounter{cnt@a}{-\thecnt@a}\fi + \ifnum\thecnt@a<\cs@B + \setcounter{cnt@c}{\cs@h/\real{\cs@sin}} + \ifnum\thecnt@c<0\edef\cs@nd{-\thecnt@c}\else\edef\cs@nd{\thecnt@c}\fi% + \else + \setcounter{cnt@a}{\cs@rr*\cs@rr-(\cs@B-\cs@A)*(\cs@B-\cs@A)} + \gas@sqrt{\thecnt@a} + \setcounter{cnt@a}{(\cs@w-\cs@rr)*\real{\cs@cos}} + \ifnum\thecnt@a<0\edef\cs@E{-\thecnt@a}\else\edef\cs@E{\thecnt@a}\fi% + \setcounter{cnt@a}{(\cs@h-\cs@rr)*\real{\cs@sin}} + \ifnum\thecnt@a<0\edef\cs@F{-\thecnt@a}\else\edef\cs@F{\thecnt@a}\fi% + \setcounter{cnt@a}{\the@sqrt+\cs@E+\cs@F}\edef\cs@nd{\thecnt@a}% + \fi + \fi + \fi +% \typeout{w=\cs@w,h=\cs@h,r=\cs@r,angle=#2,\cs@nd} +} + +%----------------------------------------------------------------------- +% Draw the cubic Bezier curve. +% The control points +% (\cs@xa,\cs@ya)(\cs@xb,\cs@yb)(\cs@xc,\cs@yc)(\cs@xd,\cs@yd) +% should already be defined. +% +% #1 : name of the starting node +% #2 : name of the ending node +% #3 : label of the edge +\def\draw@b@edge(#1,#2)#3{{% +% Parameters for the Bezier curve. + \dim@x=\cs@xa\unitlength \edef\ps@xa{\strip@PT\dim@x}% + \dim@x=\cs@ya\unitlength \edef\ps@ya{\strip@PT\dim@x}% + \dim@x=\cs@xb\unitlength \edef\ps@xb{\strip@PT\dim@x}% + \dim@x=\cs@yb\unitlength \edef\ps@yb{\strip@PT\dim@x}% + \dim@x=\cs@xc\unitlength \edef\ps@xc{\strip@PT\dim@x}% + \dim@x=\cs@yc\unitlength \edef\ps@yc{\strip@PT\dim@x}% + \dim@x=\cs@xd\unitlength \edef\ps@xd{\strip@PT\dim@x}% + \dim@x=\cs@yd\unitlength \edef\ps@yd{\strip@PT\dim@x}% + \put(0,0){\special{" \gas@initps \line@color +% Path around starting node + \csname node@#1@path\endcsname /path!a false upath cvlit def +% Path around ending node + \csname node@#2@path\endcsname /path!b false upath cvlit def +% The curve + \gas@ATparam \gas@AHparam + \ps@xa \ps@ya \ps@xb \ps@yb \ps@xc \ps@yc \ps@xd \ps@yd !ps_r_cbezier + }} +% Coordinates (\cs@x,\cs@y) and slope (\cs@deltax,\cs@deltay) at the +% point of the curve defined by the parameter label@pos. + \def\@N{100}% +% coefficients of the polynomial x(t) + \setcounter{cnt@a}{\cs@xd-\cs@xa+3*(\cs@xb-\cs@xc)}\edef\@A{\thecnt@a}% + \setcounter{cnt@a}{3*(\cs@xa+\cs@xc-2*\cs@xb)}\edef\@B{\thecnt@a}% + \setcounter{cnt@a}{3*(\cs@xb-\cs@xa)}\edef\@C{\thecnt@a}% +% computation of \cs@x and \cs@deltax + \setcounter{cnt@a}{((\@A*\EL@p/\@N+\@B)*\EL@p/\@N+\@C)*\EL@p/\@N+\cs@xa} + \edef\cs@x{\thecnt@a}% + \setcounter{cnt@a}{(3*\@A*\EL@p/\@N+2*\@B)*\EL@p/\@N+\@C} + \edef\cs@deltax{\thecnt@a}% +% coefficients of the polynomial y(t) + \setcounter{cnt@a}{\cs@yd-\cs@ya+3*(\cs@yb-\cs@yc)}\edef\@A{\thecnt@a}% + \setcounter{cnt@a}{3*(\cs@ya+\cs@yc-2*\cs@yb)}\edef\@B{\thecnt@a}% + \setcounter{cnt@a}{3*(\cs@yb-\cs@ya)}\edef\@C{\thecnt@a}% +% computation of \cs@y and \cs@deltay + \setcounter{cnt@a}{((\@A*\EL@p/\@N+\@B)*\EL@p/\@N+\@C)*\EL@p/\@N+\cs@ya} + \edef\cs@y{\thecnt@a}% + \setcounter{cnt@a}{(3*\@A*\EL@p/\@N+2*\@B)*\EL@p/\@N+\@C} + \edef\cs@deltay{\thecnt@a}% +% Computation of sqrt(\cs@deltax^2+\cs@deltay^2). + \setcounter{cnt@c}{\cs@deltax*\cs@deltax+\cs@deltay*\cs@deltay} + \gas@sqrt{\thecnt@c} + \ifnum\the@sqrt=0\def\the@sqrt{1}\fi +% Label of the edge. +% Computation of the shift from C to the center of the label. + \if@ELdistC + \setcounter{cnt@c}{\EL@dist} + \else + \setbox\temp@box\hbox{\selectfont #3} + \setcounter{cnt@a}{\wd\temp@box / \d@my@unit * \cs@deltay} + \ifnum\thecnt@a<0 \setcounter{cnt@a}{-\thecnt@a} \fi + \setcounter{cnt@c}{(\ht\temp@box+\dp\temp@box) / \d@my@unit * \cs@deltax} + \ifnum\thecnt@c<0 \setcounter{cnt@c}{-\thecnt@c} \fi + \setcounter{cnt@c}{(\thecnt@c+\thecnt@a) / \the@sqrt / 2 + \EL@dist} + \fi + \if r\EL@s + \setcounter{cnt@a}{\cs@x + \cs@deltay * \thecnt@c / \the@sqrt} + \setcounter{cnt@b}{\cs@y - \cs@deltax * \thecnt@c / \the@sqrt} + \else + \setcounter{cnt@a}{\cs@x - \cs@deltay * \thecnt@c / \the@sqrt} + \setcounter{cnt@b}{\cs@y + \cs@deltax * \thecnt@c / \the@sqrt} + \fi +% Shifting point C and drawing the label. + \put(\thecnt@a,\thecnt@b){\makebox(0,0){\selectfont #3}} +}} + +%----------------------------------------------------------------------- +% Compute the lower interger part of the square root of +% (the absolute value of) its argument. +% The result is obtained with \the@sqrt. +% We use Heron's method which converges quickly. +\newcounter{cnt@@a}\newcounter{cnt@@b}\newcounter{cnt@@c} +\def\gas@sqrt#1{% + \ifnum#1<0\setcounter{cnt@@a}{-#1}\else\setcounter{cnt@@a}{#1}\fi + \ifnum\thecnt@@a>1 + \setcounter{cnt@@b}{\thecnt@@a} + \setcounter{cnt@@c}{(\thecnt@@a+1)/2} + \@whilenum\thecnt@@b>\thecnt@@c\do{ + \setcounter{cnt@@b}{\thecnt@@c} + \setcounter{cnt@@c}{(\thecnt@@b+\thecnt@@a/\thecnt@@b)/2}} + \edef\the@sqrt{\thecnt@@b} + \else + \edef\the@sqrt{\thecnt@@a} + \fi +} + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Compatibility with gastex v1.0 +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% Should be called inside the scope of a group +% +% {\compatiblegastexun ... } +% +% The macros \drawloop and \drawedge are redefined to match the old +% ones (v1.0) hence the new ones (v2.0) cannot be used inside the scope +% of \compatiblegastexun. +% +% The compatibility is almost 100%: +% - the following are ignored +% \setmaxbezier +% The optional argument of letstate defining the repeated state diameter +% - \settransdecal, \setedgedecal give curved edges +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +\def\compatiblegastexun{ +%----------------------------------------------------------------------- +% Definitions +%----------------------------------------------------------------------- + \unitlength=4pt + \d@my@unit= 2048sp % =1/32 pt ~= 0.011 mm + \gasset{AHnb=1,AHangle=20} + \def\AH@L{\strip@PT\@wholewidth 9 mul } + \def\AH@l{\strip@PT\@wholewidth 9 mul 20 cos mul } + \def\line@width{\strip@PT\@wholewidth} +% + \def\setstatediam##1{\gasset@Nw{##1}\gasset@Nh{##1}\gasset@Nmr{##1}} + \def\setvertexdiam{\setstatediam} + \setstatediam{6} +% + \def\setrepeatedstatediam##1{% + \setcounter{cnt@a}{1*\ratio{##1\unitlength}{\d@my@unit}} + \edef\repeated@diam{\thecnt@a}}% + \setrepeatedstatediam{5} +% + \def\setloopdiam{\gasset@loopdiam}% + \setloopdiam{6} +% + \def\settranslabelskip{\gasset@ELdist}% + \def\setedgelabelskip{\gasset@ELdist} + \settranslabelskip{1} +% + \def\setprofcurve##1{% + \setcounter{cnt@a}{1*\ratio{##1\unitlength}{\d@my@unit}} + \edef\prof@curve{\thecnt@a}}% + \setprofcurve{3} +% + \def\settransdecal##1{% + \setcounter{cnt@a}{1*\ratio{##1\unitlength}{\d@my@unit}} + \edef\trans@decal{\thecnt@a}}% + \settransdecal{0} + \def\setedgedecal{\settransdecal} +% + \def\setmaxbezier##1{} + \def\setnbptbezier##1{} % compatibilite version 0.3 + \def\setprecision##1{} % compatibilite version 0.3 +% + \def\setpsdash{\@ifnextchar[{\i@setpsdash}{\i@setpsdash[0]}} + \def\i@setpsdash[##1](##2){% + \dim@y=\unitlength \unitlength=1pt + \gasset@@dash{0 ##2}{##1} + \unitlength=\dim@y + \def\ps@dash{[##2] ##1\space}}% + \setpsdash() % continuous path +% + \def\pcolor{} + \def\pictcolor##1##2{} +% + \def\setpsgray##1{\gasset@linegray{##1}\gasset@fillgray{##1}}% + \setpsgray{0} % black +%----------------------------------------------------------------------- +% States +%----------------------------------------------------------------------- + \def\letstate{\@ifnextchar[{\i@letstate}{\ii@letstate}}% + \def\i@letstate[##1,##2] ##3=(##4,##5){{% + \gasset{Nw=##1,Nh=##1,Nmr=##1} + \let@node(##3)(##4,##5){}}} + \def\ii@letstate ##1=(##2,##3){% + \let@node(##1)(##2,##3){}} + \def\letvertex{\@ifnextchar[{\i@letvertex}{\ii@letstate}}% + \def\i@letvertex[##1] ##2=(##3,##4){{% + \gasset{Nw=##1,Nh=##1,Nmr=##1} + \let@node(##2)(##3,##4){}}} +% + \def\drawstate(##1)##2{{\gasset{Nfill=n}\draw@node(##1){##2}}}% + \def\drawvertex(##1)##2{{\gasset{Nfill=n,Nframe=n}\draw@node(##1){##2}}}% + \def\drawcircledvertex{\drawstate}% +% + \def\drawinitialstate{% + \@ifnextchar[{\@idrawinitialstate}{\@idrawinitialstate[l]}} + \def\@idrawinitialstate[##1](##2)##3{{% + \gasset{Nfill=n}\draw@node(##2){##3} + \setcounter{cnt@a}{\N@w*\ratio{\d@my@unit}{\unitlength}/2} + \if##1l \imark[iangle=180,ilength=\thecnt@a](##2) \fi + \if##1r \imark[iangle= 0,ilength=\thecnt@a](##2) \fi + \if##1t \imark[iangle= 90,ilength=\thecnt@a](##2) \fi + \if##1b \imark[iangle=-90,ilength=\thecnt@a](##2) \fi}} +% + \def\drawfinalstate{% + \@ifnextchar[{\@idrawfinalstate}{\@idrawfinalstate[r]}} + \def\@idrawfinalstate[##1](##2)##3{{% + \gasset{Nfill=n}\draw@node(##2){##3} + \setcounter{cnt@a}{\N@w*\ratio{\d@my@unit}{\unitlength}/2} + \if##1l \fmark[fangle=180,flength=\thecnt@a](##2) \fi + \if##1r \fmark[fangle= 0,flength=\thecnt@a](##2) \fi + \if##1t \fmark[fangle= 90,flength=\thecnt@a](##2) \fi + \if##1b \fmark[fangle=-90,flength=\thecnt@a](##2) \fi}} +% + \def\drawrepeatedstate(##1)##2{{% + \gasset{Nfill=n}\draw@node(##1){##2} + \setcounter{cnt@a}{(\N@w-\repeated@diam)/2} + \edef\rep@dist{\thecnt@a}% + \rmark(##1)}} +%----------------------------------------------------------------------- +% Transitions +%----------------------------------------------------------------------- + \let\gas@edge=\drawedge + \def\drawtrans{\@ifnextchar[{\@idrawtrans}{\@idrawtrans[l]}} + \def\@idrawtrans[##1](##2,##3)##4{% + \setcounter{cnt@a}{\trans@decal*\ratio{\d@my@unit}{\unitlength}} + \if##1r \gas@edge[ELside=r,curvedepth=\thecnt@a](##2,##3){##4} + \else \if##1b \gas@edge[ELside=r,curvedepth=\thecnt@a](##2,##3){##4} + \else \gas@edge[ELside=l,curvedepth=\thecnt@a](##2,##3){##4} \fi\fi} + \def\drawedge{\drawtrans} + \def\drawundirectededge##1(##2,##3)##4{% + {\def\AH@nb{0 }\drawtrans##1(##2,##3){##4}}} +% + \def\drawcurvedtrans{% + \@ifnextchar[{\@idrawcurvedtrans}{\@idrawcurvedtrans[l]}} + \def\@idrawcurvedtrans[##1](##2,##3)##4{% + \setcounter{cnt@a}{\prof@curve*\ratio{\d@my@unit}{\unitlength}} + \if##1r \gas@edge[ELside=r,curvedepth=\thecnt@a](##2,##3){##4} + \else \if##1b \gas@edge[ELside=r,curvedepth=\thecnt@a](##2,##3){##4} + \else \gas@edge[ELside=l,curvedepth=\thecnt@a](##2,##3){##4} \fi\fi} + \def\drawcurvededge{\drawcurvedtrans} + \def\drawundirectedcurvededge##1(##2,##3)##4{% + {\def\AH@nb{0 }\drawcurvedtrans##1(##2,##3){##4}}} +% + \def\drawqbeziertrans{% + \@ifnextchar[{\@idrawqbeziertrans}{\@idrawqbeziertrans[l]}} + \def\@idrawqbeziertrans[##1](##2)(##3,##4)(##5)##6{% + \if##1r \drawqbedge[ELside=r](##2,##3,##4,##5){##6} + \else \if##1b \drawqbedge[ELside=r](##2,##3,##4,##5){##6} + \else \drawqbedge[ELside=l](##2,##3,##4,##5){##6} \fi\fi} + \def\drawqbezieredge{\drawqbeziertrans} + \def\drawundirectedqbezieredge##1(##2)(##3,##4)(##5)##6{% + {\def\AH@nb{0 }\drawqbeziertrans##1(##2)(##3,##4)(##5){##6}}} +% + \def\drawcbeziertrans{% + \@ifnextchar[{\@idrawcbeziertrans}{\@idrawcbeziertrans[l]}} + \def\@idrawcbeziertrans[##1](##2)(##3,##4)(##5,##6)(##7)##8{{% + \if##1r \edef\EL@s{r} + \else \if##1b \edef\EL@s{r} + \else \edef\EL@s{l} \fi\fi + \draw@bcedge(##2,##3,##4,##7,##5,##6){##8} + }} + \def\drawcbezieredge{\drawcbeziertrans} + \def\drawundirectedcbezieredge##1(##2)(##3,##4)(##5,##6)(##7)##8{% + {\def\AH@nb{0 }\drawcbeziertrans##1(##2)(##3,##4)(##5,##6)(##7){##8}}} +% + \let\gas@loop=\drawloop + \def\drawloop{\@ifnextchar[{\@idrawloop}{\@idrawloop[t]}}% + \def\@idrawloop[##1](##2)##3{% + \if##1l \gas@loop[loopangle=180](##2){##3} \fi + \if##1r \gas@loop[loopangle= 0](##2){##3} \fi + \if##1t \gas@loop[loopangle= 90](##2){##3} \fi + \if##1b \gas@loop[loopangle=-90](##2){##3} \fi} + \def\drawundirectedloop##1(##2)##3{% + {\def\AH@nb{0 }\drawloop##1(##2){##3}}} +} + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% Compatibility with pspictpg v0.6 +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +% Should be called inside the scope of a group +% +% {\compatiblepspictpg ... } +% +% The macros \drawline and \drawcircle are redefined to match those of +% pspictpg hence thoses of GasTeX cannot be used inside the scope +% of \compatiblepspictpg. +% +% The following macros are ignored. Use linecolor and fillcolor instead. +% \pcolor, \pictcolor +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +\def\compatiblepspictpg{ +% + \def\setpsdash{\@ifnextchar[{\i@setpsdash}{\i@setpsdash[0]}} + \def\i@setpsdash[##1](##2){% + \dim@y=\unitlength \unitlength=1pt + \gasset@@dash{0 ##2}{##1} + \unitlength=\dim@y + \def\ps@dash{[##2] ##1\space}}% + \setpsdash() % continuous path +% + \def\pcolor{} + \def\pictcolor##1##2{} +% + \def\setpsgray##1{\gasset@linegray{##1}\gasset@fillgray{##1}}% + \setpsgray{0} % black +% + % Redefinition of latex \line(a,b){L}. + % Can be used with any values for a and b. + \def\line(##1,##2)##3{{% + \@xarg ##1\relax \@yarg ##2\relax + \dim@x=##3\unitlength + \special{" \gas@initps \line@color + \the\@xarg\space \the\@yarg\space \strip@PT\dim@x !pslatexline} + }} +% + % Redefinition of latex \vector(a,b){L}. + % Can be used with any values for a and b. + \def\vector(##1,##2)##3{{% + \@xarg ##1\relax \@yarg ##2\relax + \dim@x=##3\unitlength + \special{" \gas@initps \line@color \gas@ATnul \gas@AHparam + \the\@xarg\space \the\@yarg\space \strip@PT\dim@x !pslatexvector} + }} +% + % redefinition of \circle of LaTeX + % can be used with any diameter + \def\circle{\@ifnextchar*{\@idisk}{\@icircle}} + \def\@icircle##1{{% + \dim@x=##1\unitlength + \special{" \gas@initps \line@color + \strip@PT\dim@x !pscircle} + }} + \def\@idisk*##1{{% + \dim@x=##1\unitlength + \special{" \gas@initps \fill@color + \strip@PT\dim@x !psdisk} + }} +% + \def\drawline(##1,##2)(##3,##4){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \process@drawlineopt[ATnb=0,AHnb=0](##1,##2)(##3,##4)} + \def\drawvector(##1,##2)(##3,##4){\begingroup% + \setcounter{cnt@a}{0} \edef\ps@param{}% + \process@drawlineopt[ATnb=0,AHnb=1](##1,##2)(##3,##4)} + \def\drawcircle(##1,##2)(##3){{% + \gasset{Nframe=y,Nfill=n}\draw@circle(##1,##2,##3)}} + \def\drawdisk(##1,##2)(##3){{% + \gasset{Nframe=n,Nfill=y}\draw@circle(##1,##2,##3)}} + \def\cbezier(##1,##2)(##3,##4)(##5,##6)(##7,##8){% + \drawcbezier[ATnb=0,AHnb=0](##1,##2,##3,##4,##5,##6,##7,##8)} + \def\cbeziervector(##1,##2)(##3,##4)(##5,##6)(##7,##8){% + \drawcbezier[ATnb=0,AHnb=1](##1,##2,##3,##4,##5,##6,##7,##8)} + \def\qbezier(##1,##2)(##3,##4)(##5,##6){% + \drawqbezier[ATnb=0,AHnb=0](##1,##2,##3,##4,##5,##6)} + \def\qbeziervector(##1,##2)(##3,##4)(##5,##6){% + \drawqbezier[ATnb=0,AHnb=1](##1,##2,##3,##4,##5,##6)} +} + +\endinput diff --git a/Master/texmf-dist/tpm/gastex.tpm b/Master/texmf-dist/tpm/gastex.tpm new file mode 100644 index 00000000000..cf35415bba1 --- /dev/null +++ b/Master/texmf-dist/tpm/gastex.tpm @@ -0,0 +1,28 @@ +<!DOCTYPE rdf:RDF SYSTEM "../../support/tpm.dtd"> +<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" xmlns:TPM="http://texlive.dante.de/"> + <rdf:Description about="http://texlive.dante.de/texlive/Package/gastex.zip"> + <TPM:Name>gastex</TPM:Name> + <TPM:Type>Package</TPM:Type> + <TPM:Date>2006/11/28 16:30:54</TPM:Date> + <TPM:Version></TPM:Version> + <TPM:Creator>karl</TPM:Creator> + <TPM:Title>The gastex package.</TPM:Title> + <TPM:Description></TPM:Description> + <TPM:Author></TPM:Author> + <TPM:Size>109024</TPM:Size> + <TPM:License></TPM:License> + <TPM:Build/> + <TPM:RunFiles size="88974"> +texmf-dist/dvips/gastex/gastex.pro +texmf-dist/tex/latex/gastex/gastex.sty +texmf-dist/tpm/gastex.tpm + </TPM:RunFiles> + <TPM:DocFiles size="21040"> +texmf-dist/doc/latex/gastex/README +texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex +texmf-dist/doc/latex/gastex/ex-gastex.tex + </TPM:DocFiles> + <TPM:Provides>Package/gastex</TPM:Provides> + </rdf:Description> +</rdf:RDF> + diff --git a/Master/texmf/lists/gastex b/Master/texmf/lists/gastex new file mode 100644 index 00000000000..6a72a43b46e --- /dev/null +++ b/Master/texmf/lists/gastex @@ -0,0 +1,9 @@ +texmf-dist/doc/latex/gastex/README +texmf-dist/doc/latex/gastex/ex-beamer-gastex.tex +texmf-dist/doc/latex/gastex/ex-gastex.tex + +texmf-dist/dvips/gastex/gastex.pro +texmf-dist/tex/latex/gastex/gastex.sty +texmf-dist/tpm/gastex.tpm + +texmf/lists/gastex diff --git a/Master/texmf/tpm/collection-science.tpm b/Master/texmf/tpm/collection-science.tpm index 147da6f0e94..8b19d872f30 100644 --- a/Master/texmf/tpm/collection-science.tpm +++ b/Master/texmf/tpm/collection-science.tpm @@ -37,6 +37,7 @@ <TPM:Package name="formula"/> <TPM:Package name="functan"/> <TPM:Package name="galois"/> + <TPM:Package name="gastex"/> <TPM:Package name="hepparticles"/> <TPM:Package name="hepthesis"/> <TPM:Package name="hepunits"/> |