% arrow.tex: macros for commutative diagrams. % % Copyright (C) 1991,1992 Steven T. Smith. % % This program is free software; you can redistribute it and/or modify % it under the terms of the GNU General Public License as published by % the Free Software Foundation; either version 2, or (at your option) % any later version. % % This program is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the % GNU General Public License for more details. % % You should have received a copy of the GNU General Public License % along with this program; if not, write to the Free Software % Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. % Version 0 Released for alpha testing, November 16, 1991. % Version 0.1 Morphism positions for slanted lines improved, Nov. 17, 1991. % Version 0.11 \biline changed to \bisline for compatible naming. 11/21/91 % Version 0.2 Equate \lft & \rt w. _ and ^ instead of L_{12} & R_{12}. 1/20/92 % Version 1.0 Distributed with Eplain. 1/20/92 % Version 1.1 Purged \newcount's, etc.; Warner ref.; \getch@nnel logic. 4/21/92 % Syntax: \[arrow](X,Y) or % \[arrow](X,Y)\lft{MOR} (morphism placed left of arrow) or % \[arrow](X,Y)\rt{MOR} (morphism placed right of arrow) % % [arrow] is one of % sline (straight line) % dotline (dotted line) * Unimplemented % arrow (straight arrow) % dotarrow (dotted arrow) * Unimplemented % % The following allow plain versions and some combination of \lft and \rt. % biarrow (two straight arrows) % adjarrow (two adjoint arrows) % bisline (two straight lines) % % Also, for left, right, up, and down mappings: % % \mapright (or \mapright^{f_*}, \mapright_{f_*}) % \mapleft (ditto) % \mapup (use \rt and \lft as above) % \mapdown (ditto) % % And variants of these (can use combinations of ^/_ and lft/rt): % % \bimapright (two right arrows) % \bimapleft (two left arrows) % \adjmapright (two adjoint arrows; <- over ->) % \adjmapleft (two adjoint arrows; -> over <-) % \hline (horizontal line) % \dothline (dotted horizontal line) * Unimplemented % \bihline (two horizontal lines) % % \bimapdown (two down arrows) % \bimapup (two left arrows) % \adjmapdown (two adjoint arrows; down then up) % \adjmapup (two adjoint arrows; up then down) % \vline (vertical line) % \dotvline (dotted vertical line) * Unimplemented % \bivline (two vertical lines) % Use \thinlines temporarily to find the current catcode of @, so we can % restore it at the end. \edef\thinlines{\the\catcode`@ }% \catcode`@ = 11 \let\@oldatcatcode = \thinlines % Adapted LaTeX code for drawing lines and vectors % Note: to ensure compatibility with LaTeX, all LaTeX control % sequences have been renamed. Control sequence names containing the % at sign (@) have been changed to contain an ampersand (&) instead. \edef\@oldandcatcode{\the\catcode`& }% \catcode`& = 11 % LaTeX macros changed here: % \line - changed to \drawline % \vector - changed to \drawvector % \@badlinearg - simply uses \errmessage now % \@height, \@width, and \@depth are changed to height, width, and depth % \@sline and \@svector - changed so that \hbox{\drawline...} yields % a box of positive width and positive height for a positive slope % and positive depth for a negative slope. % \@hline and \@hvector - likewise % \unitlength eliminated; pass dimensions to \drawline and \drawvector. % LaTeX's while loop \def\&whilenoop#1{}% \def\&whiledim#1\do #2{\ifdim #1\relax#2\&iwhiledim{#1\relax#2}\fi}% \def\&iwhiledim#1{\ifdim #1\let\&nextwhile=\&iwhiledim \else\let\&nextwhile=\&whilenoop\fi\&nextwhile{#1}}% % LaTeX's \line and \vector macros: \newif\if&negarg \newdimen\&wholewidth \newdimen\&halfwidth \font\tenln=line10 \def\thinlines{\let\&linefnt\tenln \let\&circlefnt\tencirc \&wholewidth\fontdimen8\tenln \&halfwidth .5\&wholewidth}% \def\thicklines{\let\&linefnt\tenlnw \let\&circlefnt\tencircw \&wholewidth\fontdimen8\tenlnw \&halfwidth .5\&wholewidth}% \def\drawline(#1,#2)#3{\&xarg #1\relax \&yarg #2\relax \&linelen=#3\relax \ifnum\&xarg =0 \&vline \else \ifnum\&yarg =0 \&hline \else \&sline\fi\fi}% \def\&sline{\leavevmode \ifnum\&xarg< 0 \&negargtrue \&xarg -\&xarg \&yyarg -\&yarg \else \&negargfalse \&yyarg \&yarg \fi \ifnum \&yyarg >0 \&tempcnta\&yyarg \else \&tempcnta -\&yyarg \fi \ifnum\&tempcnta>6 \&badlinearg \&yyarg0 \fi \ifnum\&xarg>6 \&badlinearg \&xarg1 \fi \setbox\&linechar\hbox{\&linefnt\&getlinechar(\&xarg,\&yyarg)}% \ifnum \&yyarg >0 \let\&upordown\raise \&clnht\z@ \else\let\&upordown\lower \&clnht \ht\&linechar\fi \&clnwd=\wd\&linechar \&whiledim \&clnwd <\&linelen \do {% \&upordown\&clnht\copy\&linechar \advance\&clnht \ht\&linechar \advance\&clnwd \wd\&linechar }% \advance\&clnht -\ht\&linechar \advance\&clnwd -\wd\&linechar \&tempdima\&linelen\advance\&tempdima -\&clnwd \&tempdimb\&tempdima\advance\&tempdimb -\wd\&linechar \hskip\&tempdimb \multiply\&tempdima \@m \&tempcnta \&tempdima \&tempdima \wd\&linechar \divide\&tempcnta \&tempdima \&tempdima \ht\&linechar \multiply\&tempdima \&tempcnta \divide\&tempdima \@m \advance\&clnht \&tempdima \ifdim \&linelen <\wd\&linechar \hskip \wd\&linechar \else\&upordown\&clnht\copy\&linechar\fi}% \def\&hline{\vrule height \&halfwidth depth \&halfwidth width \&linelen}% \def\&getlinechar(#1,#2){\&tempcnta#1\relax\multiply\&tempcnta 8 \advance\&tempcnta -9 \ifnum #2>0 \advance\&tempcnta #2\relax\else \advance\&tempcnta -#2\relax\advance\&tempcnta 64 \fi \char\&tempcnta}% \def\drawvector(#1,#2)#3{\&xarg #1\relax \&yarg #2\relax \&tempcnta \ifnum\&xarg<0 -\&xarg\else\&xarg\fi \ifnum\&tempcnta<5\relax \&linelen=#3\relax \ifnum\&xarg =0 \&vvector \else \ifnum\&yarg =0 \&hvector \else \&svector\fi\fi\else\&badlinearg\fi}% \def\&hvector{\ifnum\&xarg<0 \rlap{\&linefnt\&getlarrow(1,0)}\fi \&hline \ifnum\&xarg>0 \llap{\&linefnt\&getrarrow(1,0)}\fi}% \def\&vvector{\ifnum \&yarg <0 \&downvector \else \&upvector \fi}% \def\&svector{\&sline \&tempcnta\&yarg \ifnum\&tempcnta <0 \&tempcnta=-\&tempcnta\fi \ifnum\&tempcnta <5 \if&negarg\ifnum\&yarg>0 % 3d quadrant; dp > 0 \llap{\lower\ht\&linechar\hbox to\&linelen{\&linefnt \&getlarrow(\&xarg,\&yyarg)\hss}}\else % 4th quadrant; ht > 0 \llap{\hbox to\&linelen{\&linefnt\&getlarrow(\&xarg,\&yyarg)\hss}}\fi \else\ifnum\&yarg>0 % 1st quadrant; ht > 0 \&tempdima\&linelen \multiply\&tempdima\&yarg \divide\&tempdima\&xarg \advance\&tempdima-\ht\&linechar \raise\&tempdima\llap{\&linefnt\&getrarrow(\&xarg,\&yyarg)}\else \&tempdima\&linelen \multiply\&tempdima-\&yarg % 2d quadrant; dp > 0 \divide\&tempdima\&xarg \lower\&tempdima\llap{\&linefnt\&getrarrow(\&xarg,\&yyarg)}\fi\fi \else\&badlinearg\fi}% \def\&getlarrow(#1,#2){\ifnum #2 =\z@ \&tempcnta='33\else \&tempcnta=#1\relax\multiply\&tempcnta \sixt@@n \advance\&tempcnta -9 \&tempcntb=#2\relax\multiply\&tempcntb \tw@ \ifnum \&tempcntb >0 \advance\&tempcnta \&tempcntb\relax \else\advance\&tempcnta -\&tempcntb\advance\&tempcnta 64 \fi\fi\char\&tempcnta}% \def\&getrarrow(#1,#2){\&tempcntb=#2\relax \ifnum\&tempcntb < 0 \&tempcntb=-\&tempcntb\relax\fi \ifcase \&tempcntb\relax \&tempcnta='55 \or \ifnum #1<3 \&tempcnta=#1\relax\multiply\&tempcnta 24 \advance\&tempcnta -6 \else \ifnum #1=3 \&tempcnta=49 \else\&tempcnta=58 \fi\fi\or \ifnum #1<3 \&tempcnta=#1\relax\multiply\&tempcnta 24 \advance\&tempcnta -3 \else \&tempcnta=51\fi\or \&tempcnta=#1\relax\multiply\&tempcnta \sixt@@n \advance\&tempcnta -\tw@ \else \&tempcnta=#1\relax\multiply\&tempcnta \sixt@@n \advance\&tempcnta 7 \fi\ifnum #2<0 \advance\&tempcnta 64 \fi \char\&tempcnta}% \def\&vline{\ifnum \&yarg <0 \&downline \else \&upline\fi}% \def\&upline{\hbox to \z@{\hskip -\&halfwidth \vrule width \&wholewidth height \&linelen depth \z@\hss}}% \def\&downline{\hbox to \z@{\hskip -\&halfwidth \vrule width \&wholewidth height \z@ depth \&linelen \hss}}% \def\&upvector{\&upline\setbox\&tempboxa\hbox{\&linefnt\char'66}\raise \&linelen \hbox to\z@{\lower \ht\&tempboxa\box\&tempboxa\hss}}% \def\&downvector{\&downline\lower \&linelen \hbox to \z@{\&linefnt\char'77\hss}}% \def\&badlinearg{\errmessage{Bad \string\arrow\space argument.}}% %INITIALIZATION \thinlines % Allocate registers using the rules of p.~346 of {\sl The \TeX book}. \countdef\&xarg 0 \countdef\&yarg 2 \countdef\&yyarg 4 \countdef\&tempcnta 6 \countdef\&tempcntb 8 \dimendef\&linelen 0 \dimendef\&clnwd 2 \dimendef\&clnht 4 \dimendef\&tempdima 6 \dimendef\&tempdimb 8 \chardef\@arrbox 0 \chardef\&linechar 2 \chardef\&tempboxa 2 % \&linechar and \&tempboxa don't interfere. % Macros for abstract nonsense % Macros for slanted lines and arrows. \let\lft^% \let\rt_% distinguish between \rt and \lft \newif\if@pslope % test for positive slope \def\@findslope(#1,#2){\ifnum#1>0 \ifnum#2>0 \@pslopetrue \else\@pslopefalse\fi \else \ifnum#2>0 \@pslopefalse \else\@pslopetrue\fi\fi}% \def\generalsmap(#1,#2){\getm@rphposn(#1,#2)\plnmorph\futurelet\next\addm@rph}% % Put arrow in \@arrbox, then add morphisms later. % Single lines and arrows. \def\sline(#1,#2){\setbox\@arrbox=\hbox{\drawline(#1,#2){\sarrowlength}}% \@findslope(#1,#2)\d@@blearrfalse\generalsmap(#1,#2)}% \def\arrow(#1,#2){\setbox\@arrbox=\hbox{\drawvector(#1,#2){\sarrowlength}}% \@findslope(#1,#2)\d@@blearrfalse\generalsmap(#1,#2)}% % Double lines, arrows, and adjoint arrows. \newif\ifd@@blearr \def\bisline(#1,#2){\@findslope(#1,#2)% \if@pslope \let\@upordown\raise \else \let\@upordown\lower\fi \getch@nnel(#1,#2)\setbox\@arrbox=\hbox{\@upordown\@vchannel \rlap{\drawline(#1,#2){\sarrowlength}}% \hskip\@hchannel\hbox{\drawline(#1,#2){\sarrowlength}}}% \d@@blearrtrue\generalsmap(#1,#2)}% \def\biarrow(#1,#2){\@findslope(#1,#2)% \if@pslope \let\@upordown\raise \else \let\@upordown\lower\fi \getch@nnel(#1,#2)\setbox\@arrbox=\hbox{\@upordown\@vchannel \rlap{\drawvector(#1,#2){\sarrowlength}}% \hskip\@hchannel\hbox{\drawvector(#1,#2){\sarrowlength}}}% \d@@blearrtrue\generalsmap(#1,#2)}% \def\adjarrow(#1,#2){\@findslope(#1,#2)% \if@pslope \let\@upordown\raise \else \let\@upordown\lower\fi \getch@nnel(#1,#2)\setbox\@arrbox=\hbox{\@upordown\@vchannel \rlap{\drawvector(#1,#2){\sarrowlength}}% \hskip\@hchannel\hbox{\drawvector(-#1,-#2){\sarrowlength}}}% \d@@blearrtrue\generalsmap(#1,#2)}% % Morphism placement. % Logic for positioning morphisms on slanted arrows: % If \lft then % \hskip by -\@hmorphdflt % if \@pslopetrue then \raise by \@vmorphdflt % else \lower by \@vmorphdflt % Else if \rt then % \hskip by \@hmorphdflt % if \@pslopetrue then \lower by \@vmorphdflt % else \raise by \@vmorphdflt % % \@hmorphdflt and \@vmorphdflt defined by \getm@rphposn % Advance \morphdist by .5\channelwidth if double arrows % % Use \@shiftmorph to allow users to move morphisms % Logic for \@shiftmorph: % If \rtm@rph then % if \hmorphposnrt=0 then hshift by\hmorphposn else hshift by\hmorphposnrt % if \vmorphposnrt=0 then vshift by\vmorphposn else vshift by\vmorphposnrt % Else % if \hmorphposnlft=0 then hshift by\hmorphposn else hshift by\hmorphposnlft % if \vmorphposnlft=0 then vshift by\vmorphposn else vshift by\vmorphposnlft \newif\ifrtm@rph \def\@shiftmorph#1{\hbox{\setbox0=\hbox{$\scriptstyle#1$}% \setbox1=\hbox{\hskip\@hm@rphshift\raise\@vm@rphshift\copy0}% \wd1=\wd0 \ht1=\ht0 \dp1=\dp0 \box1}}% \def\@hm@rphshift{\ifrtm@rph \ifdim\hmorphposnrt=\z@\hmorphposn\else\hmorphposnrt\fi \else \ifdim\hmorphposnlft=\z@\hmorphposn\else\hmorphposnlft\fi \fi}% \def\@vm@rphshift{\ifrtm@rph \ifdim\vmorphposnrt=\z@\vmorphposn\else\vmorphposnrt\fi \else \ifdim\vmorphposnlft=\z@\vmorphposn\else\vmorphposnlft\fi \fi}% \def\addm@rph{\ifx\next\lft\let\temp=\lftmorph\else \ifx\next\rt\let\temp=\rtmorph\else\let\temp\relax\fi\fi \temp}% \def\plnmorph{\dimen1\wd\@arrbox \ifdim\dimen1<\z@ \dimen1-\dimen1\fi \vcenter{\box\@arrbox}}% \def\lftmorph\lft#1{\rtm@rphfalse \setbox0=\@shiftmorph{#1}% \if@pslope \let\@upordown\raise \else \let\@upordown\lower\fi \llap{\@upordown\@vmorphdflt\hbox to\dimen1{\hss % \dimen1=\wd\@arrbox \llap{\box0}\hss}\hskip\@hmorphdflt}\futurelet\next\addm@rph}% \def\rtmorph\rt#1{\rtm@rphtrue \setbox0=\@shiftmorph{#1}% \if@pslope \let\@upordown\lower \else \let\@upordown\raise\fi \llap{\@upordown\@vmorphdflt\hbox to\dimen1{\hss \rlap{\box0}\hss}\hskip-\@hmorphdflt}\futurelet\next\addm@rph}% % Get appropriate shifts for morphisms and double lines at various slopes % Syntax e.g.: \@getshift(1,2){\@hchannel}{\@vchannel}{\channelwidth}% \def\getm@rphposn(#1,#2){\ifd@@blearr \dimen@\morphdist \advance\dimen@ by .5\channelwidth \@getshift(#1,#2){\@hmorphdflt}{\@vmorphdflt}{\dimen@}\else \@getshift(#1,#2){\@hmorphdflt}{\@vmorphdflt}{\morphdist}\fi}% \def\getch@nnel(#1,#2){\ifdim\hchannel=\z@ \ifdim\vchannel=\z@ \@getshift(#1,#2){\@hchannel}{\@vchannel}{\channelwidth}% \else \@hchannel\hchannel \@vchannel\vchannel \fi \else \@hchannel\hchannel \@vchannel\vchannel \fi}% \def\@getshift(#1,#2)#3#4#5{\dimen@ #5\relax \&xarg #1\relax \&yarg #2\relax \ifnum\&xarg<0 \&xarg -\&xarg \fi \ifnum\&yarg<0 \&yarg -\&yarg \fi \ifnum\&xarg<\&yarg \&negargtrue \&yyarg\&xarg \&xarg\&yarg \&yarg\&yyarg\fi \ifcase\&xarg \or % There is no case 0 \ifcase\&yarg % case 1 \dimen@i \z@ \dimen@ii \dimen@ \or % case (1,0) \dimen@i .7071\dimen@ \dimen@ii .7071\dimen@ \fi \or \ifcase\&yarg % case 2 \or % case 0,2 wrong \dimen@i .4472\dimen@ \dimen@ii .8944\dimen@ \fi \or \ifcase\&yarg % case 3 \or % case 0,3 wrong \dimen@i .3162\dimen@ \dimen@ii .9486\dimen@ \or \dimen@i .5547\dimen@ \dimen@ii .8321\dimen@ \fi \or \ifcase\&yarg % case 4 \or % case 0,2,4 wrong \dimen@i .2425\dimen@ \dimen@ii .9701\dimen@ \or\or \dimen@i .6\dimen@ \dimen@ii .8\dimen@ \fi \or \ifcase\&yarg % case 5 \or % case 0,5 wrong \dimen@i .1961\dimen@ \dimen@ii .9801\dimen@ \or \dimen@i .3714\dimen@ \dimen@ii .9284\dimen@ \or \dimen@i .5144\dimen@ \dimen@ii .8575\dimen@ \or \dimen@i .6247\dimen@ \dimen@ii .7801\dimen@ \fi \or \ifcase\&yarg % case 6 \or % case 0,2,3,4,6 wrong \dimen@i .1645\dimen@ \dimen@ii .9864\dimen@ \or\or\or\or \dimen@i .6402\dimen@ \dimen@ii .7682\dimen@ \fi \fi \if&negarg \&tempdima\dimen@i \dimen@i\dimen@ii \dimen@ii\&tempdima\fi #3\dimen@i\relax #4\dimen@ii\relax }% \catcode`\&=4 % Back to alignment tab % Macros for horizontal and vertical lines and arrows. % These macros use an idea from Appendix~D, p.~374 of the Texbook. % Usage: `\mapright^f', `\mapleft', etc. % `\mapdown\lft{f}', `\mapup\rt{g}', `\mapdown', etc. % \toks@ will contain the token sequence that defines the arrow and morphisms; % ensure that \toks@={\mathop{\vcenter{\smash{horiz. arrow}}}\limits} to start. \def\generalhmap{\futurelet\next\@generalhmap}% \def\@generalhmap{\ifx\next^ \let\temp\generalhm@rph\else \ifx\next_ \let\temp\generalhm@rph\else \let\temp\m@kehmap\fi\fi \temp}% \def\generalhm@rph#1#2{\ifx#1^ \toks@=\expandafter{\the\toks@#1{\rtm@rphtrue\@shiftmorph{#2}}}\else \toks@=\expandafter{\the\toks@#1{\rtm@rphfalse\@shiftmorph{#2}}}\fi \generalhmap}% \def\m@kehmap{\mathrel{\smash{\the\toks@}}}% \def\mapright{\toks@={\mathop{\vcenter{\smash{\drawrightarrow}}}\limits}% \generalhmap}% \def\mapleft{\toks@={\mathop{\vcenter{\smash{\drawleftarrow}}}\limits}% \generalhmap}% \def\bimapright{\toks@={\mathop{\vcenter{\smash{\drawbirightarrow}}}\limits}% \generalhmap}% \def\bimapleft{\toks@={\mathop{\vcenter{\smash{\drawbileftarrow}}}\limits}% \generalhmap}% \def\adjmapright{\toks@={\mathop{\vcenter{\smash{\drawadjrightarrow}}}\limits}% \generalhmap}% \def\adjmapleft{\toks@={\mathop{\vcenter{\smash{\drawadjleftarrow}}}\limits}% \generalhmap}% \def\hline{\toks@={\mathop{\vcenter{\smash{\drawhline}}}\limits}% \generalhmap}% \def\bihline{\toks@={\mathop{\vcenter{\smash{\drawbihline}}}\limits}% \generalhmap}% \def\drawrightarrow{\hbox{\drawvector(1,0){\harrowlength}}}% \def\drawleftarrow{\hbox{\drawvector(-1,0){\harrowlength}}}% \def\drawbirightarrow{\hbox{\raise.5\channelwidth \hbox{\drawvector(1,0){\harrowlength}}\lower.5\channelwidth \llap{\drawvector(1,0){\harrowlength}}}}% \def\drawbileftarrow{\hbox{\raise.5\channelwidth \hbox{\drawvector(-1,0){\harrowlength}}\lower.5\channelwidth \llap{\drawvector(-1,0){\harrowlength}}}}% \def\drawadjrightarrow{\hbox{\raise.5\channelwidth \hbox{\drawvector(-1,0){\harrowlength}}\lower.5\channelwidth \llap{\drawvector(1,0){\harrowlength}}}}% \def\drawadjleftarrow{\hbox{\raise.5\channelwidth \hbox{\drawvector(1,0){\harrowlength}}\lower.5\channelwidth \llap{\drawvector(-1,0){\harrowlength}}}}% \def\drawhline{\hbox{\drawline(1,0){\harrowlength}}}% \def\drawbihline{\hbox{\raise.5\channelwidth \hbox{\drawline(1,0){\harrowlength}}\lower.5\channelwidth \llap{\drawline(1,0){\harrowlength}}}}% % Vertical arrows are handled differently because there is no \mathop. % \toks@ will contain the token sequence that defines the arrow and morphisms; % ensure that \toks@={\vcenter{vertical arrow}} to start. \def\generalvmap{\futurelet\next\@generalvmap}% \def\@generalvmap{\ifx\next\lft \let\temp\generalvm@rph\else \ifx\next\rt \let\temp\generalvm@rph\else \let\temp\m@kevmap\fi\fi \temp}% % Prepend or append to \toks@ depending on \rt or \lft. \toksdef\toks@@=1 \def\generalvm@rph#1#2{\ifx#1\rt % append \toks@=\expandafter{\the\toks@ \rlap{$\vcenter{\rtm@rphtrue\@shiftmorph{#2}}$}}\else % prepend \toks@@={\llap{$\vcenter{\rtm@rphfalse\@shiftmorph{#2}}$}}% \toks@=\expandafter\expandafter\expandafter{\expandafter\the\expandafter \toks@@ \the\toks@}\fi \generalvmap}% \def\m@kevmap{\the\toks@}% \def\mapdown{\toks@={\vcenter{\drawdownarrow}}\generalvmap}% \def\mapup{\toks@={\vcenter{\drawuparrow}}\generalvmap}% \def\bimapdown{\toks@={\vcenter{\drawbidownarrow}}\generalvmap}% \def\bimapup{\toks@={\vcenter{\drawbiuparrow}}\generalvmap}% \def\adjmapdown{\toks@={\vcenter{\drawadjdownarrow}}\generalvmap}% \def\adjmapup{\toks@={\vcenter{\drawadjuparrow}}\generalvmap}% \def\vline{\toks@={\vcenter{\drawvline}}\generalvmap}% \def\bivline{\toks@={\vcenter{\drawbivline}}\generalvmap}% \def\drawdownarrow{\hbox to5pt{\hss\drawvector(0,-1){\varrowlength}\hss}}% \def\drawuparrow{\hbox to5pt{\hss\drawvector(0,1){\varrowlength}\hss}}% \def\drawbidownarrow{\hbox to5pt{\hss\hbox{\drawvector(0,-1){\varrowlength}}% \hskip\channelwidth\hbox{\drawvector(0,-1){\varrowlength}}\hss}}% \def\drawbiuparrow{\hbox to5pt{\hss\hbox{\drawvector(0,1){\varrowlength}}% \hskip\channelwidth\hbox{\drawvector(0,1){\varrowlength}}\hss}}% \def\drawadjdownarrow{\hbox to5pt{\hss\hbox{\drawvector(0,-1){\varrowlength}}% \hskip\channelwidth\lower\varrowlength \hbox{\drawvector(0,1){\varrowlength}}\hss}}% \def\drawadjuparrow{\hbox to5pt{\hss\hbox{\drawvector(0,1){\varrowlength}}% \hskip\channelwidth\raise\varrowlength \hbox{\drawvector(0,-1){\varrowlength}}\hss}}% \def\drawvline{\hbox to5pt{\hss\drawline(0,1){\varrowlength}\hss}}% \def\drawbivline{\hbox to5pt{\hss\hbox{\drawline(0,1){\varrowlength}}% \hskip\channelwidth\hbox{\drawline(0,1){\varrowlength}}\hss}}% % Macros for setting commutative diagrams. % A macro inspired by Ex.~18.46 of the TeXbook. \def\commdiag#1{\null\, \vcenter{\commdiagbaselines \m@th\ialign{\hfil$##$\hfil&&\hfil$\mkern4mu ##$\hfil\crcr \mathstrut\crcr\noalign{\kern-\baselineskip} #1\crcr\mathstrut\crcr\noalign{\kern-\baselineskip}}}\,}% \def\commdiagbaselines{\baselineskip15pt \lineskip3pt \lineskiplimit3pt }% % A macro inspired by Francis Borceux's Diagram macros for LaTeX % (FBORCEUX@BUCLLN11.BITNET). \def\gridcommdiag#1{\null\, \vcenter{\offinterlineskip \m@th\ialign{&\vbox to\vgrid{\vss \hbox to\hgrid{\hss\smash{$##$}\hss}}\crcr \mathstrut\crcr\noalign{\kern-\vgrid} #1\crcr\mathstrut\crcr\noalign{\kern-.5\vgrid}}}\,}% % Default parameters % Define default heights and widths for arrows using the golden ratio. % Note that 5:3 (for sline) and 3:2 (for vector) approximate this ratio. \newdimen\harrowlength \harrowlength=60pt \newdimen\varrowlength \varrowlength=.618\harrowlength \newdimen\sarrowlength \sarrowlength=\harrowlength % Morphism placement \newdimen\hmorphposn \hmorphposn=\z@ \newdimen\vmorphposn \vmorphposn=\z@ \newdimen\morphdist \morphdist=4pt \dimendef\@hmorphdflt 0 % These two dimensions are \dimendef\@vmorphdflt 2 % defined by \getm@rphposn \newdimen\hmorphposnrt \hmorphposnrt=\z@ \newdimen\hmorphposnlft \hmorphposnlft=\z@ \newdimen\vmorphposnrt \vmorphposnrt=\z@ \newdimen\vmorphposnlft \vmorphposnlft=\z@ \let\hmorphposnup=\hmorphposnrt \let\hmorphposndn=\hmorphposnlft \let\vmorphposnup=\vmorphposnrt \let\vmorphposndn=\vmorphposnlft % Default grid size for \gridcommdiag \newdimen\hgrid \hgrid=15pt \newdimen\vgrid \vgrid=15pt % Horizontal and vertical distance between double lines and arrows. \newdimen\hchannel \hchannel=0pt \newdimen\vchannel \vchannel=0pt \newdimen\channelwidth \channelwidth=3pt \dimendef\@hchannel 0 % Defined via the \dimendef\@vchannel 2 % macro \getch@nnel \catcode`& = \@oldandcatcode \catcode`@ = \@oldatcatcode % Some examples %\parskip=20pt % %The first example: %$$\commdiag{A&\mapright^f&B&\mapleft^g&C\cr %\mapdown\lft\psi&\arrow(3,-2)\rt s&\mapup\rt\phi& %\arrow(-3,2)\lft l&\mapdown\rt\theta\cr %D&\mapright_h&E&\mapleft_{\int_0^t{\bf A}\,d\sigma}&F\cr}$$ % % %Covering homotopy property (Bott and Tu, {\it Differential Forms in %Algebraic Topology}): %$$\commdiag{Y&\mapright^f&E\cr \mapdown&\arrow(3,2)\lft{f_t}&\mapdown\cr %Y\times I&\mapright^{\bar f_t}&X}$$ % % %Universal mapping property (Warner, {\it Foundations of Differentiable %Manifolds and Lie Groups}): $$\varrowlength=20pt %\commdiag{V\otimes W\cr \mapup\lft\phi&\arrow(3,-1)\rt{\tilde l}\cr %V\times W&\mapright^l&U\cr}$$ % % %A cube (Francis Borceux): %$$\harrowlength=48pt \varrowlength=48pt \sarrowlength=20pt %\def\cross#1#2{\setbox0=\hbox{$#1$}% % \hbox to\wd0{\hss\hbox{$#2$}\hss}\llap{\unhbox0}} %\gridcommdiag{&&B&&\mapright^b&&D\cr %&\arrow(1,1)\lft a&&&&\arrow(1,1)\lft d\cr %A&&\cross{\hmorphposn=12pt\mapright^c}{\vmorphposn=-12pt\mapdown\lft f} %&&C&&\mapdown\rt h\cr\cr %\mapdown\lft e&&F&&\cross{\hmorphposn=-12pt\mapright_j} %{\vmorphposn=12pt\mapdown\rt g}&&H\cr %&\arrow(1,1)\lft i&&&&\arrow(1,1)\rt l\cr %E&&\mapright_k&&G\cr}$$ % %Zassenhaus's Butterfly Lemma (Lang, {\it Algebra}): %$$\hgrid=16pt \vgrid=8pt \sarrowlength=32pt %\def\cross#1#2{\setbox0=\hbox{$#1$}% % \hbox to\wd0{\hss\hbox{$#2$}\hss}\llap{\unhbox0}} %\def\l#1{\llap{$#1$\hskip.5em}} %\def\r#1{\rlap{\hskip.5em$#1$}} %\gridcommdiag{&&U&&&&V\cr &&\bullet&&&&\bullet\cr %&&\sarrowlength=16pt\sline(0,1)&&&&\sarrowlength=16pt\sline(0,1)\cr %&&\l{u(U\cap V)}\bullet&&&&\bullet\r{(U\cap V)v}\cr %&&&\sline(2,-1)&&\sline(2,1)\cr %&&\cross{=}{\sline(0,1)}&&\bullet&&\cross{=}{\sline(0,1)}\cr\cr %&&\l{^{\textstyle u(U\cap v)}}\bullet&&\cross{=}{\sline(0,1)}&& % \bullet\r{^{\textstyle(u\cap V)v}}\cr %&\sline(2,1)&&\sline(2,-1)&&\sline(2,1)&&\sline(2,-1)\cr %\l{u}\bullet&&&&\bullet&&&&\bullet\r{v}\cr %&\sline(2,-1)&&\sline(2,1)&&\sline(2,-1)&&\sline(2,1)\cr %&&\bullet&&&&\bullet\cr &&u\cap V&&&&U\cap v\cr}$$