%% This is part of the OpTeX project, see http://petr.olsak.net/optex \_codedecl \inspic {Graphics <2023-03-16>} % preloaded in format \_doc ----------------------------- \`\inspic` accepts old syntax `\inspic ` or new syntax `\inspic{}`. So, we need to define two auxiliary macros \`\_inspicA` and \`\_inspicB`. All `\inspic` macros are surrounded in `\hbox` in order user can write `\moveright\inspic ...` or something similar. \_cod ----------------------------- \_def\_inspic{\_hbox\_bgroup\_isnextchar\_bgroup\_inspicB\_inspicA} \_def\_inspicA #1 {\_inspicB {#1}} \_def\_inspicB #1{% \_pdfximage \_ifdim\_picwidth=\_zo \_else width\_picwidth\_fi \_ifdim\_picheight=\_zo \_else height\_picheight\_fi \_the\_picparams {\_the\_picdir#1}% \_pdfrefximage\_pdflastximage\_egroup} \_public \inspic ; \_doc ----------------------------- Inkscape can save a picture to `*.pdf` file and labels for the picture to `*.pdf_tex` file. The second file is in \LaTeX/ format (unfortunately) and it is intended to read immediately after `*.pdf` is included in order to place labels of this picture in the same font as the document is printed. We need to read this \LaTeX/ file by plain \TeX/ macros when \`\inkinspic` is used. These macros are stored in the \`\_inkdefs` tokens list and it is used locally in the group. The solution is borrowed from OPmac trick 0032. \_cod ----------------------------- \_def\_inkinspic{\_hbox\_bgroup\_isnextchar\_bgroup\_inkinspicB\_inkinspicA} \_def\_inkinspicA #1 {\_inkinspicB {#1}} \_def\_inkinspicB #1{% \_ifdim\_picwidth=0pt \_setbox0=\_hbox{\_inspic{#1}}\_picwidth=\_wd0 \_fi \_tmptoks={#1}% \_the\_inkdefs \_opinput {\_the\_picdir #1_tex}% file with labels \_egroup} \_newtoks\_tmptoks \_newtoks\_inkdefs \_inkdefs={% \_def\makeatletter#1\makeatother{}% \_def\includegraphics[#1]#2{\_inkscanpage#1,page=,\_fin \_inspic{\_the\_tmptoks}\_hss}% \_def\_inkscanpage#1page=#2,#3\_fin{\_ifx,#2,\_else\_picparams{page#2}\_fi}% \_def\put(#1,#2)#3{\_nointerlineskip\_vbox to\_zo{\_vss\_hbox to\_zo{\_kern#1\_picwidth \_pdfsave\_hbox to\_zo{#3}\_pdfrestore\_hss}\_kern#2\_picwidth}}% \_def\begin#1{\_csname _begin#1\_endcsname}% \_def\_beginpicture(#1,#2){\_vbox\_bgroup \_hbox to\_picwidth{}\_kern#2\_picwidth \_def\end##1{\_egroup}}% \_def\_begintabular[#1]#2#3\end#4{% \_vtop{\_def\\{\_cr}\_tabiteml{}\_tabitemr{}\_table{#2}{#3}}}% \_def\color[#1]#2{\_scancolor #2,}% \_def\_scancolor#1,#2,#3,{\_pdfliteral{#1 #2 #3 rg}}% \_def\makebox(#1)[#2]#3{\_hbox to\_zo{\_csname _mbx:#2\_endcsname{#3}}}% \_sdef{_mbx:lb}#1{#1\_hss}\_sdef{_mbx:rb}#1{\_hss#1}\_sdef{_mbx:b}#1{\_hss#1\_hss}% \_sdef{_mbx:lt}#1{#1\_hss}\_sdef{_mbx:rt}#1{\_hss#1}\_sdef{_mbx:t}#1{\_hss#1\_hss}% \_def\rotatebox#1#2{\_pdfrotate{#1}#2}% \_def\lineheight#1{}% \_def\setlength#1#2{}% \_def\transparent#1{\_transparency\_exprA[0]{(1-#1)*255} }% % Inkscape may generate \textbf{\textit{\textsc{TEXT}}} \_def\textbf#1{\_begingroup\_let\_it\_bi\_bf #1\_endgroup}% \_def\textit#1{\_begingroup\_it #1\_endgroup}% \_def\textsl#1{\_begingroup\_trycs{slant}{}\_it #1\_endgroup}% } \_public \inkinspic ; \_doc ---------------------------- \`\pdfscale``{}{}` and \`\pdfrotate``{}` macros are implemented by `\pdfsetmatrix` primitive. We need to know the values of sin, cos function in the `\pdfrotate`. We use Lua code for this. \_cod ---------------------------- \_def\_pdfscale#1#2{\_pdfsetmatrix{#1 0 0 #2}} \_def\_gonfunc#1#2{% \_directlua{tex.print(string.format('\_pcent.4f',math.#1(3.14159265*(#2)/180)))}% } \_def\_sin{\_gonfunc{sin}} \_def\_cos{\_gonfunc{cos}} \_def\_pdfrotate#1{\_pdfsetmatrix{\_cos{#1} \_sin{#1} \_sin{(#1)-180} \_cos{#1}}} \_public \pdfscale \pdfrotate ; \_doc ----------------------------- The \`\transformbox``{}{}` is copied from OPmac trick 0046.\nl The \`\rotbox``{}{}` is a combination of `\rotsimple` from OPmac trick 0101 and the `\transformbox`. Note, that `\rotbox{-90}` puts the rotated text to the height of the outer box (depth is zero) because code from `\rotsimple` is processed. But `\rotbox{-90.0}` puts the rotated text to the depth of the outer box (height is zero) because `\transformbox` is processed. \_cod ----------------------------- \_def\_multiplyMxV #1 #2 #3 #4 {% matrix * (vvalX, vvalY) \_tmpdim = #1\_vvalX \_advance\_tmpdim by #3\_vvalY \_vvalY = #4\_vvalY \_advance\_vvalY by #2\_vvalX \_vvalX = \_tmpdim } \_def\_multiplyMxM #1 #2 #3 #4 {% currmatrix := currmatrix * matrix \_vvalX=#1pt \_vvalY=#2pt \_ea\_multiplyMxV \_currmatrix \_edef\_tmpb{\_ea\_ignorept\_the\_vvalX\_space \_ea\_ignorept\_the\_vvalY}% \_vvalX=#3pt \_vvalY=#4pt \_ea\_multiplyMxV \_currmatrix \_edef\_currmatrix{\_tmpb\_space \_ea\_ignorept\_the\_vvalX\_space \_ea\_ignorept\_the\_vvalY\_space}% } \_def\_transformbox#1#2{\_hbox{\_setbox0=\_hbox{{#2}}% \_dimendef\_vvalX 11 \_dimendef\_vvalY 12 % we use these variables \_dimendef\_newHt 13 \_dimendef\_newDp 14 % only in this group \_dimendef\_newLt 15 \_dimendef\_newRt 16 \_preptransform{#1}% \_kern-\_newLt \_vrule height\_newHt depth\_newDp width\_zo \_setbox0=\_hbox{\_box0}\_ht0=\_zo \_dp0=\_zo \_pdfsave#1\_rlap{\_box0}\_pdfrestore \_kern\_newRt}% } \_def\_preptransform #1{\_def\_currmatrix{1 0 0 1 }% \_def\_pdfsetmatrix##1{\_edef\_tmpb{##1 }\_ea\_multiplyMxM \_tmpb\_unskip}% \_let\pdfsetmatrix=\_pdfsetmatrix #1% \_setnewHtDp 0pt \_ht0 \_setnewHtDp 0pt -\_dp0 \_setnewHtDp \_wd0 \_ht0 \_setnewHtDp \_wd0 -\_dp0 \_protected\_def \_pdfsetmatrix {\_pdfextension setmatrix}% \_let\pdfsetmatrix=\_pdfsetmatrix } \_def\_setnewHtDp #1 #2 {% \_vvalX=#1\_relax \_vvalY=#2\_relax \_ea\_multiplyMxV \_currmatrix \_ifdim\_vvalX<\_newLt \_newLt=\_vvalX \_fi \_ifdim\_vvalX>\_newRt \_newRt=\_vvalX \_fi \_ifdim\_vvalY>\_newHt \_newHt=\_vvalY \_fi \_ifdim-\_vvalY>\_newDp \_newDp=-\_vvalY \_fi } \_def\_rotbox#1#2{% \_isequal{90}{#1}\_iftrue \_rotboxA{#1}{\_kern\_ht0 \_tmpdim=\_dp0}{\_vfill}{#2}% \_else \_isequal{-90}{#1}\_iftrue \_rotboxA{#1}{\_kern\_dp0 \_tmpdim=\_ht0}{}{#2}% \_else \_transformbox{\_pdfrotate{#1}}{#2}% \_fi \_fi } \_def\_rotboxA #1#2#3#4{\_hbox{\_setbox0=\_hbox{{#4}}#2% \_vbox to\_wd0{#3\_wd0=\_zo \_dp0=\_zo \_ht0=\_zo \_pdfsave\_pdfrotate{#1}\_box0\_pdfrestore\vfil}% \_kern\_tmpdim }} \_public \transformbox \rotbox ; \_doc --------------------------- \`\_scantwodimens` scans two objects with the syntactic rule `` and returns `{}{}` in `sp` unit. \nl \`\puttext` ` {}` puts the `` to desired place: From current point moves and , puts the and returns back. The current point is unchanged after this macro ends. \nl \`\putpic` ` {}` does `\puttext` with the image scaled to desired and . If or is zero, natural dimension is used. The \`\nospec` is a shortcut to such a natural dimension. \nl \`\backgroundpic``{}` puts the image to the background of each page. It is used in the \~`\slides` style, for example. \_cod --------------------------- \_def\_scantwodimens{% \_directlua{tex.print(string.format('{\_pcent d}{\_pcent d}', token.scan_dimen(),token.scan_dimen()))}% } \_def\_puttext{\_ea\_ea\_ea\_puttextA\_scantwodimens} \_long\_def\_puttextA#1#2#3{{\_setbox0=\_hbox{{#3}}\_dimen1=#1sp \_dimen2=#2sp \_puttextB}} \_def\_puttextB{% \_ifvmode \_ifdim\_prevdepth>\_zo \_vskip-\_prevdepth \_relax \_fi \_nointerlineskip \_fi \_wd0=\_zo \_ht0=\_zo \_dp0=\_zo \_vbox to\_zo{\_kern-\_dimen2 \_hbox to\_zo{\_kern\_dimen1 \_box0\_hss}\_vss}} \_def\_putpic{\_ea\_ea\_ea\_putpicA\_scantwodimens} \_def\_putpicA#1#2{\_dimen1=#1sp \_dimen2=#2sp \_ea\_ea\_ea\_putpicB\_scantwodimens} \_def\_putpicB#1#2#3{{\_setbox0=\_hbox{\_picwidth=#1sp \_picheight=#2sp \_inspic{#3}}\_puttextB}} \_newbox\_bgbox \_def\_backgroundpic#1{% \_setbox\_bgbox=\_hbox{\_picwidth=\_pdfpagewidth \_picheight=\_pdfpageheight \_inspic{#1}}% \_pgbackground={\_copy\_bgbox} } \_def\nospec{0pt} \_public \puttext \putpic \backgroundpic ; \_doc ----------------------------- \`\_circle``{}{}` creates an ellipse with `` axis and `` axis. The origin is in the center. \nl \`\_oval``{}{}{}` creates an oval with ``, `` size and with the given ``. The real size is bigger by 2``. The origin is at the left bottom corner. \nl \`\_mv``{}{}{}` moves current point to ``, ``, creates the `` and returns the current point back. All these macros are fully expandable and they can be used in the `\pdfliteral` argument. \_cod ----------------------------- \def\_circle#1#2{\_expr{.5*(#1)} 0 m \_expr{.5*(#1)} \_expr{.276*(#2)} \_expr{.276*(#1)} \_expr{.5*(#2)} 0 \_expr{.5*(#2)} c \_expr{-.276*(#1)} \_expr{.5*(#2)} \_expr{-.5*(#1)} \_expr{.276*(#2)} \_expr{-.5*(#1)} 0 c \_expr{-.5*(#1)} \_expr{-.276*(#2)} \_expr{-.276*(#1)} \_expr{-.5*(#2)} 0 \_expr{-.5*(#2)} c \_expr{.276*(#1)} \_expr{-.5*(#2)} \_expr{.5*(#1)} \_expr{-.276*(#2)} \_expr{.5*(#1)} 0 c h} \def\_oval#1#2#3{0 \_expr{-(#3)} m \_expr{#1} \_expr{-(#3)} l \_expr{(#1)+.552*(#3)} \_expr{-(#3)} \_expr{(#1)+(#3)} \_expr{-.552*(#3)} \_expr{(#1)+(#3)} 0 c \_expr{(#1)+(#3)} \_expr{#2} l \_expr{(#1)+(#3)} \_expr{(#2)+.552*(#3)} \_expr{(#1)+.552*(#3)} \_expr{(#2)+(#3)} \_expr{#1} \_expr{(#2)+(#3)} c 0 \_expr{(#2)+(#3)} l \_expr{-.552*(#3)} \_expr{(#2)+(#3)} \_expr{-(#3)} \_expr{(#2)+.552*(#3)} \_expr{-(#3)} \_expr{#2} c \_expr{-(#3)} 0 l \_expr{-(#3)} \_expr{-.552*(#3)} \_expr{-.552*(#3)} \_expr{-(#3)} 0 \_expr{-(#3)} c h} \def\_mv#1#2#3{1 0 0 1 \_expr{#1} \_expr{#2} cm #3 1 0 0 1 \_expr{-(#1)} \_expr{-(#2)} cm} \_doc ----------------------------- The \`\inoval``{}` is an example of \^`\_oval` usage.\nl The \`\incircle``{}` is an example of \^`\_circle` usage.\nl The \`\ratio`, \`\lwidth`, \`\fcolor`, \`\lcolor`, \`\shadow` and \`\overlapmargins` are parameters, they can be set by user in optional brackets `[...]`. For example `\fcolor=\Red` does `\_let\_fcolorvalue=\Red` and it means filling color.\nl The \`\_setflcolors` uses the \^`\_setcolor` macro to separate filling (non-stroking) color and stroking color. The \`\_coc` macro means \"create oval or circle" and it expands to the stroking primitive `S` or filling primitive `f` or boh `B`. Only boundary stroking is performed after `\fcolor=\relax`. You cannot combine `\fcolor=\relax` with `\shadow=Y`. \_cod ----------------------------- \_newdimen \_lwidth \_def\_fcolor{\_let\_fcolorvalue} \_def\_lcolor{\_let\_lcolorvalue} \_def\_shadow{\_let\_shadowvalue} \_def\_overlapmargins{\_let\_overlapmarginsvalue} \_def\_ratio{\_isnextchar ={\_ratioA}{\_ratioA=}} \_def\_ratioA =#1 {\_def\_ratiovalue{#1}} \_def\_touppervalue#1{\_ifx#1n\_let#1=N\_fi} \_def\_setflcolors#1{% use only in a group \_def\_setcolor##1##2##3{##1 ##2}% \_edef#1{\_fcolorvalue}% \_def\_setcolor##1##2##3{##1 ##3}% \_edef#1{#1\_space\_lcolorvalue\_space}% } \_optdef\_inoval[]{\_vbox\_bgroup \_roundness=2pt \_fcolor=\Yellow \_lcolor=\Red \_lwidth=.5bp \_shadow=N \_overlapmargins=N \_hhkern=0pt \_vvkern=0pt \_the\_ovalparams \_relax \_the\_opt \_relax \_touppervalue\_overlapmarginsvalue \_touppervalue\_shadowvalue \_ifx\_overlapmarginsvalue N% \_advance\_hsize by-2\_hhkern \_advance\_hsize by-2\_roundness \_fi \_setbox0=\_hbox\_bgroup\_bgroup \_aftergroup\_inovalA \_kern\_hhkern \_let\_next=% } \_def\_inovalA{\_egroup % of \setbox0=\hbox\bgroup \_ifdim\_vvkern=\_zo \_else \_ht0=\_dimexpr\_ht0+\_vvkern \_relax \_dp0=\_dimexpr\_dp0+\_vvkern \_relax \_fi \_ifdim\_hhkern=\_zo \_else \_wd0=\_dimexpr\_wd0+\_hhkern \_relax \_fi \_ifx\_overlapmarginsvalue N\_dimen0=\_roundness \_dimen1=\_roundness \_else \_dimen0=-\_hhkern \_dimen1=-\_vvkern \_fi \_setflcolors\_tmp \_hbox{\_kern\_dimen0 \_vbox to\_zo{\_kern\_dp0 \_ifx\_shadowvalue N\_else \_edef\_tmpb{{\_bp{\_wd0+\_lwidth}}{\_bp{\_ht0+\_dp0+\_lwidth}}{\_bp{\_roundness}}}% \_doshadow\_oval \_fi \_pdfliteral{q \_bp{\_lwidth} w \_tmp \_oval{\_bp{\_wd0}}{\_bp{\_ht0+\_dp0}}{\_bp{\_roundness}} \_coc\_space Q}\_vss}% \_ht0=\_dimexpr\_ht0+\_dimen1 \_relax \_dp0=\_dimexpr\_dp0+\_dimen1 \_relax \_box0 \_kern\_dimen0}% \_egroup % of \vbox\bgroup } \_optdef\_incircle[]{\_vbox\_bgroup \_ratio=1 \_fcolor=\Yellow \_lcolor=\Red \_lwidth=.5bp \_shadow=N \_overlapmargins=N \_hhkern=3pt \_vvkern=3pt \_ea\_the \_ea\_circleparams \_space \_relax \_ea\_the \_ea\_opt \_space \_relax \_touppervalue\_overlapmarginsvalue \_touppervalue\_shadowvalue \_setbox0=\_hbox\_bgroup\_bgroup \_aftergroup\_incircleA \_kern\_hhkern \_let\_next=% } \_def\_incircleA {\_egroup % of \setbox0=\hbox\bgroup \_wd0=\_dimexpr \_wd0+\_hhkern \_relax \_ht0=\_dimexpr \_ht0+\_vvkern \_relax \_dp0=\_dimexpr \_dp0+\_vvkern \_relax \_ifdim \_ratiovalue\_dimexpr \_ht0+\_dp0 > \_wd0 \_dimen3=\_dimexpr \_ht0+\_dp0 \_relax \_dimen2=\_ratiovalue\_dimen3 \_else \_dimen2=\_wd0 \_dimen3=\_expr{1/\_ratiovalue}\_dimen2 \_fi \_setflcolors\_tmp \_ifx\_overlapmarginsvalue N\_dimen0=\_zo \_dimen1=\_zo \_else \_dimen0=-\_hhkern \_dimen1=-\_vvkern \_fi \_hbox{\_kern\_dimen0 \_ifx\_shadowvalue N\_else \_edef\_tmpb{{\_bp{\_dimen2+\_lwidth}}{\_bp{\_dimen3+\_lwidth}}{}}% \_doshadow\_circlet \_fi \_pdfliteral{q \_bp{\_lwidth} w \_tmp \_mv{\_bp{.5\_wd0}}{\_bp{(\_ht0-\_dp0)/2}} {\_circle{\_bp{\_dimen2}}{\_bp{\_dimen3}} \_coc} Q}% \_ifdim\_dimen1=\_zo \_else \_ht0=\_dimexpr \_ht0+\_dimen1 \_relax \_dp0=\_dimexpr \_dp0+\_dimen1 \_relax \_fi \_box0 \_kern\_dimen0} \_egroup % of \vbox\bgroup } \_def\_circlet#1#2#3{\_circle{#1}{#2}} \_def\_coc{\_ifx\_fcolorvalue\_relax S\_else \_ifdim\_lwidth=0pt f\_else B\_fi\_fi} \_public \inoval \incircle \ratio \lwidth \fcolor \lcolor \shadow \overlapmargins ; \_doc ----------------------------- Just before defining shadows, which require special graphics states, we define means for managing these graphics states and other PDF page resources (graphics states, patterns, shadings, etc.). Our mechanism, defined mostly in Lua (see \ref[lua-pdf-resources], uses single dictionary for each PDF page resource type (extgstate, etc.) for all pages (`\pdfpageresources` just points to it). The macro \`\addextgstate``{}{}` is a use of that general mechanism and shall be used for adding more graphics states. It must be used {\em after} `\dump`. It's general variant defined in Lua is \^`\_addpageresource` `{}{}{}`. You can use `\pageresources` or \^`\_pageresources` if you need to insert resource entries to manually created PDF XObjects. \_cod ----------------------------- \_def\_addextgstate{\_addpageresource{ExtGState}} \_public \addextgstate ; \_def\pageresources{\_pageresources} \_def\addpageresource{\_addpageresource} \_doc ----------------------------- A shadow effect is implemented here. The shadow is equal to the silhouette of the given path in a gray-transparent color shifted by \`\_shadowmoveto` vector and with blurred boundary. A waistline with the width 2*\`\_shadowb` around the boundary is blurred. The \`\shadowlevels` levels of transparent shapes is used for creating this effect. The `\shadowlevels+1/2` level is equal to the shifted given path. \_cod ----------------------------- \_def\_shadowlevels{9} % number of layers for blur effect \_def\_shadowdarknessA{0.025} % transparency of first shadowlevels/2 layers \_def\_shadowdarknessB{0.07} % transparency of second half of layers \_def\_shadowmoveto{1.8 -2.5} % vector defines shifting layer (in bp) \_def\_shadowb{1} % 2*shadowb = blurring area thickness \_def\_insertshadowresources{% \_addextgstate{op1}{<>}% \_addextgstate{op2}{<>}% \_glet\_insertshadowresources=\_relax } \_doc ----------------------------- The \`\_doshadow``{}` does the shadow effect. \_cod ----------------------------- \_def\_doshadow#1{\_vbox{% \_insertshadowresources \_tmpnum=\_numexpr (\_shadowlevels-1)/2 \_relax \_edef\_tmpfin{\_the\_tmpnum}% \_ifnum\_tmpfin=0 \_def\_shadowb{0}\_def\_shadowstep{0}% \_else \_edef\_shadowstep{\_expr{\_shadowb/\_tmpfin}}\_fi \_def\_tmpa##1##2##3{\_def\_tmpb {#1{##1+2*\_the\_tmpnum*\_shadowstep}{##2+2*\_the\_tmpnum*\_shadowstep}{##3}}}% \_ea \_tmpa \_tmpb \_def\_shadowlayer{% \_ifnum\_tmpnum=0 /op2 gs \_fi \_tmpb\_space f \_immediateassignment\_advance\_tmpnum by-1 \_ifnum-\_tmpfin<\_tmpnum \_ifx#1\_oval 1 0 0 1 \_shadowstep\_space \_shadowstep\_space cm \_fi \_ea \_shadowlayer \_fi }% \_pdfliteral{q /op1 gs 0 g 1 0 0 1 \_shadowmoveto\_space cm \_ifx#1\_circlet 1 0 0 1 \_bp{.5\_wd0} \_bp{(\_ht0-\_dp0)/2} cm \_else 1 0 0 1 -\_shadowb\_space -\_shadowb\_space cm \_fi \_shadowlayer Q} }} \_doc ----------------------------- A generic macro \`\_clipinpath`` ` declares a clipping path by the `` shifted by the ``, ``. The `` is typeset when such clipping path is active. Dimensions are given by bp without the unit here. The macros \`\clipinoval` ` {}` and \`\clipincircle` ` {}` are defined here. These macros read normal \TeX/ dimensions in their parameters. \_cod ----------------------------- \_def\_clipinpath#1#2#3#4{% #1=x-pos[bp], #2=y-pos[bp], #3=curve, #4=text \_hbox{\_setbox0=\_hbox{{#4}}% \_tmpdim=\_wd0 \_wd0=\_zo \_pdfliteral{q \_mv{#1}{#2}{#3 W n}}% \_box0\_pdfliteral{Q}\_kern\_tmpdim }% } \_def\_clipinoval {\_ea\_ea\_ea\_clipinovalA\_scantwodimens} \_def\_clipinovalA #1#2{% \_def\_tmp{{#1/65781.76}{#2/65781.76}}% \_ea\_ea\_ea\_clipinovalB\_scantwodimens } \_def\_clipinovalB{\_ea\_clipinovalC\_tmp} \_def\_clipinovalC#1#2#3#4{% \_ea\_clipinpath{#1-(#3/131563.52)+(\_bp{\_roundness})}{#2-(#4/131563.52)+(\_bp{\_roundness})}% {\_oval{#3/65781.76-(\_bp{2\_roundness})}{#4/65781.76-(\_bp{2\_roundness})}{\_bp{\_roundness}}}% } \_def\_clipincircle {\_ea\_ea\_ea\_clipincircleA\_scantwodimens} \_def\_clipincircleA #1#2{% \_def\_tmp{{#1/65781.76}{#2/65781.76}}% \_ea\_ea\_ea\_clipincircleB\_scantwodimens } \_def\_clipincircleB#1#2{% \_ea\_clipinpath\_tmp{\_circle{#1/65781.76}{#2/65781.76}}% } \_public \clipinoval \clipincircle ; \_endcode % ------------------------------------- The \^`\inspic` is defined by `\pdfximage` and `\pdfrefximage` primitives. If you want to use one picture more than once in your document, then the following code is recommended: \begtt \catcode`\<=13 \newbox\mypic \setbox\mypic = \hbox{\picw=3cm \inspic{}} My picture: \copy\mypic, again my picture: \copy\mypic, etc. \endtt This code downloads the picture data to the PFD output only once (when `\setbox` is processed). Each usage of `\copy\mypic` puts only a pointer to the picture data in the PDF. If you want to copy the same picture in different sizes, then choose a \"basic size" used in `\setbox` and all different sizes can be realized by the \^`\transformbox{}{\copy\mypic}`. \_endinput 2023-16-03: more \_inkdefs macros 2022-11-05 \_doshadow: renduntant \_expr from \_expr{\_bp{...}} removed 2022-10-18 \_puttextA defined \long, bug fixed 2022-03-05: \_addextgstate, \pageresources, \addpageresources added 2022-03-03: \_coc introduced 2021-07-16: \inoval, \incircle are more simple, using attribitecolor features 2021-03-19: \inkinspic: pictures in subdirectories, bug fixed 2020-12-21: \puttext: \box0 in group, bugfix 2020-04-12: \_public \clipinoval \clipincircle ; added, bug fixed