%% This is file `tikzlibrarykarnaugh.code.tex' formerly known as `tikz-karnaugh.tex', %% Version: 1.3 %% Version date: 2021-10-14 %% %% Copyright (C) 2018 by Luis Paulo Laus, laus@utfpr.edu.br %% %% This package 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; either %% version 1 of the License, or (at your option) any later version, %% with `The Package' referring to the software %% `tikzlibrarykarnaugh.code.tex' %% and its accompanying documentation and `The Copyright Holder' %% referring to the person Luis Paulo Laus. %% %% %% IMPORTANT NOTICE: %% %% For error reports, comments or suggestions in case of UNCHANGED %% versions send mail to: %% laus@utfpr.edu.br %% \typeout{} \typeout{Macros for typesetting Karnaugh maps} \typeout{Version 1.3 of 14 October 2021} \typeout{by Luis Paulo Laus, laus@utfpr.edu.br} \typeout{} %% %% Change History: %% 1.0: 22 December 2017: Original Version ported from kvmacros.tex %% 1.1: 10 January 2018: new style for the map outer box. Support for %% options in the identifiers and values lists. New vertical mode. %% New keys to enable indices and disable bars. Macro file renamed %% to proper tikz library file name. %% 1.2: 19 March 2018: stop using \pgftransformshift, new kmindexpos %% (kmindexposx and kmindexposy) to control index position, cell %% typesetting order switched (first content then index), parameter %% names changed to include ``km'' letters, new binary index mode %% 1.3: 14 October 2021: New American style KM (for maps with ones %% and zeros labels surrounding the map). In addition, a new macro for %% decimal to Gray Code conversion (\pgfmathdectoGray) is provided. %% %% Setting up some TikZ parameters for Karnaugh Maps %% \tikzset{ karnaugh/.style={ disable bars/.is if=disablebars, kmbar/.style={|-|}, kmbar label/.style={}, kmbar sep/.initial=0.2\kmunitlength, kmbar top sep/.initial=1\kmunitlength, kmbar left sep/.initial=1\kmunitlength, enable indices/.is if=enableindices, kmindex/.style={red,font=\tiny}, kmtoplabel/.style={blue,font=\footnotesize}, kmleftlabel/.style={blue,font=\footnotesize}, kmindexposx/.initial=0.2\kmunitlength, kmindexposy/.initial=0.8\kmunitlength, kmindexpos/.style 2 args={kmindexposx={##1\kmunitlength},kmindexposy={##2\kmunitlength}}, binary index/.is if=indexbin, Gray index/.is if=indexGray, American style/.is if=Americanstyle, kmcell/.style={}, kmvar/.style={}, kmbox/.style={}, kmlines/.style={}, every karnaugh/.try, } } %% %% New ifs for the options above %% \newif\ifenableindices \enableindicesfalse \newif\ifindexGray \indexGrayfalse \newif\ifdisablebars \disablebarsfalse \newif\ifindexbin \indexbinfalse \newif\ifAmericanstyle \Americanstylefalse %% %% We need a fixed dimension for a single field in a Karnaugh map %% and also, an auxiliary dimension to place the bars. %% \newdimen\kmunitlength \newdimen\kmtemplength \kmunitlength=8mm %% %% First, we have to introduce some counters: %% %% \kmrecursiondepth is used to control the recursion of the %% \karnaughmakemap macro. %% \newcount\kmrecursiondepth %% %% The \kmindexcounter is needed for the indices in the fields of the %% diagrams. %% \newcount\kmindexcounter %% %% \kmxsize and \kmysize store the dimensions of an entire diagram. %% \newcount\kmxsize \newcount\kmysize %% %% Some counters are necessary to compute the bars for the variable %% identifiers: %% \newcount\kmvarno \newcount\kmxvarno \newcount\kmyvarno \newcount\kmbarstart \newcount\kmbarlength \newcount\kmbarnum \newcount\kmbarmove \newcount\kmtemppos %% %% Single cells in a diagram should be indexed, which makes the map easier to %% use (ok, not really, but it might be useful). %% \def\kmcurrentindex{\kmcurrentindexdec} \def\kmcurrentindexdec{% \the\kmindexcounter\global\advance\kmindexcounter by 1}% \def\kmcurrentindexbin{% \kmdectobin{\kmindexcounter}\global\advance\kmindexcounter by 1}% \def\kmcurrentindexGray{% \kmdectoKG{\kmindexcounter}\global\advance\kmindexcounter by 1}% \def\kmcurrentindexGrayvert{% \kmdectoKGvert{\kmindexcounter}\global\advance\kmindexcounter by 1}% %% %% We need a macro that computes the powers of two: %% \def\kmpoweroftwo#1#2{{% Computes #1=2^#2, both of which have to be counters \ifnum#2>0 \global\multiply#1 by 2 \advance#2 by -1 \kmpoweroftwo{#1}{#2} \fi}} %% %% \pgfmathdectoGray %% %% Convert a representation of an integer from %% base 10 to Gray Code. %% %% #1 - a macro to store the result. %% #2 - a number in base 10 (in a macro, not a register) %% %% e.g. %% %% \pgfmathdectoGray\mynumber{9} %% %% \mynumber <- 1101 %% {\makeatletter \gdef\pgfmathdectoGray#1#2{% \pgfmathdectobase{\pgfresult@}{#2}{2}% \c@pgfmath@counta=0\relax% \let\pgfresult@@=\pgfmath@empty% \let\pgf@lib@sh@next\pgfmathdectoGray@% \expandafter\pgfmathdectoGray@\pgfresult@\pgf@stop% \let#1=\pgfresult@@% \pgfmath@ensurenumberlength{#1}} \gdef\pgfmathdectoGray@#1{% \ifx#1\pgf@stop% \let\pgf@lib@sh@next\relax% \else% \edef\pgfresult@@{\pgfresult@@\ifnum#1=\c@pgfmath@counta\relax0\else1\fi}% \c@pgfmath@counta=#1\relax% \fi% \pgf@lib@sh@next} %% %% The macros \kmdectoKG converts the cell index %% to a binary code that resembles Gray code %% deinterleaving the variables %% \gdef\kmdectoKG#1{% \kmbarnum=#1\relax% decimal number to be converted \kmbarlength=\kmvarno\relax% number of bits \let\kmresult@=\empty \let\kmresult@@=\empty \let\next\kmdectoKG@% \next% \kmresult@@\kmresult@} \gdef\kmdectoKGvert#1{% \kmbarnum=#1\relax% decimal number to be converted \kmbarlength=\kmvarno\relax% number of bits \let\kmresult@=\empty \let\kmresult@@=\empty \let\next\kmdectoKG@% \next% \kmresult@\kmresult@@} \gdef\kmdectoKG@{% \ifnum\kmbarlength=0% \let\next\relax% \else% \edef\kmresult@{\ifodd\kmbarnum1\else0\fi\kmresult@}% \divide \kmbarnum by 2% \advance\kmbarlength by -1\relax% \let\next\kmdectoKG@@% \fi% \next} \gdef\kmdectoKG@@{% \ifnum\kmbarlength=0% \let\next\relax% \else% \edef\kmresult@@{\ifodd\kmbarnum1\else0\fi\kmresult@@}% \divide \kmbarnum by 2% \advance\kmbarlength by -1\relax% \let\next\kmdectoKG@% \fi% \next} %% %% The macros \kmdectobin converts a decimal number %% passed as argument to binary such that the number of %% digits (length) is equal to \kmvarno %% %% e.g. %% %% \kmvarno=6\relax\kmdectobin{9} %% %% 001001 %% \gdef\kmdectobin#1{% \kmbarnum=#1\relax% decimal number to be converted \kmbarlength=\kmvarno\relax% number of bits \let\kmresult@=\empty \let\next\kmdectobin@% \next% \kmresult@} \gdef\kmdectobin@{% \ifnum\kmbarlength=0% \let\next\relax% \else% \edef\kmresult@{\ifodd\kmbarnum1\else0\fi\kmresult@}% \divide \kmbarnum by 2% \advance\kmbarlength by -1\relax% \fi% \next} } %% %% The macros \kmmakeindexGray creates a Gray coded index %% inside each cell %% Deprecated!!! Replaced by a new mechanism based on \kmdectoKG %% \def\kmmakeindexGray{ \kmbarlength=\kmxsize\relax \advance\kmbarlength by -1\relax \kmtemppos=\kmysize\relax \advance\kmtemppos by -1\relax \foreach \x in {0,...,\kmbarlength}{ \foreach \y in {0,...,\kmtemppos}{ \pgfmathsetbasenumberlength{\kmyvarno} \pgfmathdectoGray\mynumbery{\y} \pgfmathsetbasenumberlength{\kmxvarno} \pgfmathdectoGray\mynumberx{\x} \node[shift={((\pgfkeysvalueof{/tikz/kmindexposx},(\pgfkeysvalueof{/tikz/kmindexposy}+\kmtemppos\kmunitlength)},kmindex] at(\x\kmunitlength,-\y\kmunitlength) {\mynumbery\mynumberx}; } } } %% %% The macros \kmargumentstring and \kmsetoptstr are needed to %% process the variable-length parameters in \karnaughmap: %% \def\kmargumentstring#1{\gdef\kmstringbuf{#1{}\noexpand\end}} %% %% The macro \kmsetoptstr reads one token from the list of parameters in %% \karnaughmap in the form <[opt]>srt and sets the optional style kmtempsty %% and saves its contents of the string srt in macro \kmstr %% \def\kmsetoptstr{\expandafter\kmgetonetok\kmstringbuf} %% %% The macros \kmgetonetok, \kmsplittok and \kmoptstrmake are %% auxiliary macros used to split the token and save to contents %% \def\kmgetonetok#1#2\end{\expandafter\kmsplittok#1{}\end \gdef\kmstringbuf{#2\noexpand\end}} \def\kmsplittok#1#2\end{\ifx#1[ \kmoptstrmake#2\end \else \kmoptstrmake]#1#2\end \fi} \def\kmoptstrmake#1]#2\end{\tikzset{kmtempsty/.style={#1}} \edef\kmstr{#2}}%\typeout{Teste #1 e #2}} %%\def\kmoptstrmake#1]#2\end{Test: #1 and #2.\par} %% %% The macro \karnaughmakemap calls itself recursively until the parameter #1 %% equals 1, whereupon it draws one cell contents in a node and, if enabled, %% another node with the index. %% \def\karnaughmakemap#1#2#3#4{{% \kmrecursiondepth #1\relax \ifnum\kmrecursiondepth>1 \divide\kmrecursiondepth by 2 \edef\tempx{#3} \edef\tempy{#4} \kmtemppos=\tempx\relax \advance\kmtemppos by \kmrecursiondepth \edef\tempxs{\the\kmtemppos} \kmtemppos=\tempy\relax \advance\kmtemppos by \kmrecursiondepth \edef\tempys{\the\kmtemppos} \ifcase#2 %% %% The parameter #2 of \karnaughmakemap is needed because the inner Karnaugh %% maps need to be mirrored. This is achieved by the following case-statement, %% which orders the inner Karnaugh maps properly: %% +---+---+ %% | 0 | 1 | %% +---+---+ %% | 2 | 3 | %% +---+---+ %% %% Case 0: top-left Karnaugh map \karnaughmakemap{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{1}{\tempxs}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{2}{\tempx}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \or %% Case 1: top-right Karnaugh map \karnaughmakemap{\kmrecursiondepth}{1}{\tempxs}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{2}{\tempx}{\tempy}% \or %% Case 2: bottom-left Karnaugh map \karnaughmakemap{\kmrecursiondepth}{2}{\tempx}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{1}{\tempxs}{\tempys}% \or %% Case 3: bottom-right Karnaugh map \karnaughmakemap{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{2}{\tempx}{\tempy}% \karnaughmakemap{\kmrecursiondepth}{1}{\tempxs}{\tempys}% \karnaughmakemap{\kmrecursiondepth}{0}{\tempx}{\tempys}% \fi \else \kmsetoptstr{} % reads argument as <[opt]>str \node[kmcell,kmtempsty,shift={(0.5\kmunitlength,0.5\kmunitlength)}] at (#3\kmunitlength,#4\kmunitlength){\kmstr};% \ifenableindices \node[kmindex,shift={(\pgfkeysvalueof{/tikz/kmindexposx},\pgfkeysvalueof{/tikz/kmindexposy})}] at (#3\kmunitlength,#4\kmunitlength) {\kmcurrentindex}; \fi \fi}}% %% %% \karnaughmaketopbar typesets the variable bars of a Karnaugh map that are %% located on top of the diagram: %% \def\karnaughmaketopbar{% \kmbarstart=1 \kmpoweroftwo{\kmbarstart}{\kmxvarno} % \kmybarstart is the start % position for the \foreach \kmbarlength=\kmbarstart \multiply\kmbarlength by 2 % \kmbarlength is the length of a bar \kmbarmove=\kmbarstart \multiply\kmbarmove by 4 % This is the move distance for the \draw. \kmbarnum=\kmxsize \divide\kmbarnum by \kmbarmove % This is the number of repetitions for % the \foreach. % The highest-order variable bar needs a special treatment: \ifnum\kmbarnum=0\kmbarnum=1\divide\kmbarlength by 2\fi \advance\kmbarmove by \kmbarstart \kmtemplength=\pgfkeysvalueof{/tikz/kmbar top sep} \multiply \kmtemplength by \kmxvarno \advance \kmtemplength by \pgfkeysvalueof{/tikz/kmbar sep} \advance \kmtemplength by \kmysize\kmunitlength \kmsetoptstr % reads argument as <[opt]>str \ifnum\kmbarnum=1 \draw[kmbar,xshift=\kmbarstart\kmunitlength,yshift=\kmtemplength,kmtempsty] (0,0) -- node[above, kmbar label,kmtempsty]{\kmstr} (\kmbarlength\kmunitlength,0); \else \foreach \x in {\kmbarstart,\kmbarmove,...,\kmxsize} \draw[kmbar,xshift=\x\kmunitlength,yshift=\kmtemplength,kmtempsty] (0,0) -- node[above, kmbar label,kmtempsty]{\kmstr} (\kmbarlength\kmunitlength,0); \fi } %% %% \karnaughmakeleftbar typesets the variable bars of a Karnaugh map that are %% located on the left of the diagram: %% \def\karnaughmakeleftbar{% \kmbarstart=1 \kmpoweroftwo{\kmbarstart}{\kmyvarno} % \kmbarstart is the start % position for the \foreach \kmbarlength=\kmbarstart \multiply\kmbarlength by 2 % \kmbarlength is the length of a bar \kmbarmove=\kmbarstart \multiply\kmbarmove by 4 % This now is the move distance for the % \foreach. \kmbarnum=\kmysize \divide\kmbarnum by \kmbarmove % This now is the number of % repetitions for the \draw. %The highest-order variable bar needs a special treatment: \ifnum\kmbarnum=0\kmbarstart=0\kmbarnum=1\divide\kmbarlength by 2\fi \advance\kmbarmove by \kmbarstart \kmtemplength=-\pgfkeysvalueof{/tikz/kmbar left sep} \multiply \kmtemplength by \kmyvarno \advance \kmtemplength by -\pgfkeysvalueof{/tikz/kmbar sep} \kmsetoptstr % reads argument as <[opt]>str \ifnum\kmbarnum=1 \draw[kmbar,yshift=\kmbarstart\kmunitlength,xshift=\kmtemplength,kmtempsty] (0,0) -- node[left,kmbar label,kmtempsty]{\kmstr} (0,\kmbarlength\kmunitlength); \else \foreach \y in {\kmbarstart,\kmbarmove,...,\kmysize} \draw[kmbar,yshift=\y\kmunitlength,xshift=\kmtemplength,kmtempsty] (0,0) -- node[left,kmbar label,kmtempsty]{\kmstr} (0,\kmbarlength\kmunitlength); \fi } %% \karnaughmakebars calls \karnaughmaketopbar or \karnaughmakeleftbar %% depending on whether \kmvarno is odd or even. %% \def\karnaughmakebars{% \ifnum\kmvarno>0 \let\next=\karnaughmakebars \ifodd\kmvarno % We have to make a bar at the top \advance\kmxvarno by -1 \karnaughmaketopbar \else % We have to make a bar at the left \advance\kmyvarno by -1 \karnaughmakeleftbar \fi \advance\kmvarno by -1 \else \let\next=\relax \fi \next } %% \karnaughmakelabels is a modification of \karnaughmakebars. %% Instead of making the bars it sets two macros, \kmtoplabels %% and \kmleftlabels, with the labels for American style maps %% \def\karnaughmakelabels{% \ifnum\kmvarno>0 \let\next=\karnaughmakelabels \ifodd\kmvarno % We have to make the label for top \advance\kmxvarno by -1 \kmsetoptstr % reads argument as <[opt]>str \ifx\kmtoplabels\empty \xdef\kmtoplabels{\kmstr} \else \xdef\kmtoplabels{\kmtoplabels, \kmstr} \fi \else % We have to make the label for left \advance\kmyvarno by -1 \kmsetoptstr % reads argument as <[opt]>str \ifx\kmleftlabels\empty \xdef\kmleftlabels{\kmstr} \else \xdef\kmleftlabels{\kmleftlabels, \kmstr} \fi \fi \advance\kmvarno by -1 \else \let\next=\relax \fi \next } %% %% \karnaughmap is the macro that a user calls if he wants to draw a %% Karnaugh map: %% \def\karnaughmap#1#2#3#4#5{% %% %% #1 is the number of variables in the Karnaugh map %% #2 is the identifier of the function %% #3 is the list of identifiers of those variables %% #4 is the list of tokens that have to be written into the map %% #5 a possibly empty set of TikZ commands that will be drown before %% the function values so the values will appear on top of them %% \kmvarno=#1 % \kmvarno is the total number of variables \kmyvarno=#1 % \kmyvarno is the number of variable bars at the left \divide\kmyvarno by 2 \kmxvarno=#1 % \kmxvarno is the number of variable bars on top \advance\kmxvarno by -\kmyvarno \kmxsize=1 \kmpoweroftwo{\kmxsize}{\kmxvarno} \kmysize=1 \kmpoweroftwo{\kmysize}{\kmyvarno} \kmtemppos=\kmxsize \advance\kmtemppos by -1 \kmtemplength=\pgfkeysvalueof{/tikz/kmbar top sep} \foreach \x in {1,...,\kmtemppos} \draw[kmlines] (\x\kmunitlength,0) -- (\x\kmunitlength,\kmysize\kmunitlength); \kmtemppos=\kmysize \advance\kmtemppos by -1 \ifnum\kmtemppos>0 \foreach \y in {1,...,\kmtemppos} \draw[kmlines] (0,\y\kmunitlength) -- (\kmxsize\kmunitlength,\y\kmunitlength); \fi \draw[kmbox] (0,0) rectangle (\kmxsize\kmunitlength,\kmysize\kmunitlength); #5 \ifAmericanstyle \pgfmathsetbasenumberlength{\kmxvarno} \kmtemppos=\kmxsize \advance\kmtemppos by -1 \kmtemplength=\pgfkeysvalueof{/tikz/kmbar top sep} \pgfmathsetbasenumberlength{\kmxvarno} \foreach \x in {0,...,\kmtemppos} \node[xshift=0.5\kmunitlength, yshift=\kmtemplength,kmtoplabel] at (\x\kmunitlength,\kmysize\kmunitlength) {\pgfmathdectoGray\mynumber{\x}\mynumber}; \kmtemppos=\kmysize \advance\kmtemppos by -1 \ifnum\kmtemppos>0 \kmtemplength=\pgfkeysvalueof{/tikz/kmbar left sep} \pgfmathsetbasenumberlength{\kmyvarno} \foreach \y in {0,...,\kmtemppos} \node[xshift=-\kmtemplength, yshift=\kmysize\kmunitlength-0.5\kmunitlength,left,kmleftlabel] at (0,-\y\kmunitlength) {\pgfmathdectoGray\mynumber{\y}\mynumber}; \fi \kmargumentstring{#3} \gdef\kmtoplabels{} \gdef\kmleftlabels{} \karnaughmakelabels \draw[kmbox] (0,\kmysize\kmunitlength) -- ++(135:1\kmunitlength) node[kmbar label,below left,pos=0.5]{\kmleftlabels} node[kmbar label,above right,pos=0.5]{\kmtoplabels} node[kmvar,above left]{#2}; \else \ifdisablebars\relax\else \node[kmvar,above left] at (0,\kmysize\kmunitlength){#2}; \kmargumentstring{#3} \karnaughmakebars \fi \fi \ifenableindices \ifindexbin \gdef\kmcurrentindex{\kmcurrentindexbin} \pgfmathsetbasenumberlength{#1} \else \ifindexGray \gdef\kmcurrentindex{\kmcurrentindexGray} \else \gdef\kmcurrentindex{\kmcurrentindexdec} \fi \fi \fi \kmvarno=#1 % \kmvarno is the total number of variables \kmindexcounter=0 \kmargumentstring{#4} \karnaughmakemap{\the\kmysize}{0}{0}{0} \ifodd\kmvarno \divide\kmxsize by 2 \karnaughmakemap{\the\kmysize}{1}{\the\kmxsize}{0} \fi }% %% Vertical Mode %% The next three macros are similar to the ones for normal mode. %% The macro \karnaughmakemapvert calls itself recursively until the parameter #1 %% equals 1, whereupon it draws one cell contents in a node and, if enabled, %% another node with the index. %% \def\karnaughmakemapvert#1#2#3#4{{% \kmrecursiondepth #1\relax \ifnum\kmrecursiondepth>1 \divide\kmrecursiondepth by 2 \edef\tempx{#3} \edef\tempy{#4} \kmtemppos=\tempx\relax \advance\kmtemppos by \kmrecursiondepth \edef\tempxs{\the\kmtemppos} \kmtemppos=\tempy\relax \advance\kmtemppos by \kmrecursiondepth \edef\tempys{\the\kmtemppos} \ifcase#2 %% %% The parameter #2 of \karnaughmakemapvert is needed because the inner Karnaugh %% maps need to be mirrored. This is achieved by the following case-statement, %% which orders the inner Karnaugh maps properly: %% +---+---+ %% | 0 | 2 | %% +---+---+ %% | 1 | 3 | %% +---+---+ %% %% Case 0: top-left Karnaugh map \karnaughmakemapvert{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{1}{\tempx}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{2}{\tempxs}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \or %% Case 1: bottom-left Karnaugh map \karnaughmakemapvert{\kmrecursiondepth}{1}{\tempx}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{2}{\tempxs}{\tempys}% \or %% Case 2: top-right Karnaugh map \karnaughmakemapvert{\kmrecursiondepth}{2}{\tempxs}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{0}{\tempx}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{1}{\tempx}{\tempy}% \or %% Case 3: bottom-right Karnaugh map \karnaughmakemapvert{\kmrecursiondepth}{3}{\tempxs}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{2}{\tempxs}{\tempys}% \karnaughmakemapvert{\kmrecursiondepth}{1}{\tempx}{\tempy}% \karnaughmakemapvert{\kmrecursiondepth}{0}{\tempx}{\tempys}% \fi \else \kmsetoptstr{} % reads argument as <[opt]>str \node[kmcell,kmtempsty,shift={(0.5\kmunitlength,0.5\kmunitlength)}] at (#3\kmunitlength,#4\kmunitlength){\kmstr}; \ifenableindices \node[kmindex,shift={(\pgfkeysvalueof{/tikz/kmindexposx},\pgfkeysvalueof{/tikz/kmindexposy})}] at (#3\kmunitlength,#4\kmunitlength) {\kmcurrentindex}; \fi \fi}}% %% %% \karnaughmakebarsvert calls \karnaughmaketopbar or \karnaughmakeleftbar %% depending on whether \kmvarno is odd or even. %% \def\karnaughmakebarsvert{% \ifnum\kmvarno>0 \let\next=\karnaughmakebarsvert \ifodd\kmvarno % We have to make a bar at the left \advance\kmyvarno by -1 \karnaughmakeleftbar \else % We have to make a bar at the top \advance\kmxvarno by -1 \karnaughmaketopbar \fi \advance\kmvarno by -1 \else \let\next=\relax \fi \next } %% \karnaughmakelabelsvert is a modification of \karnaughmakebars. %% Instead of making the bars it sets two macros, \kmtoplabels %% and \kmleftlabels, with the labels for americal style maps %% \def\karnaughmakelabelsvert{% \ifnum\kmvarno>0 \let\next=\karnaughmakelabelsvert \ifodd\kmvarno % We have to make the label for left \advance\kmyvarno by -1 \kmsetoptstr % reads argument as <[opt]>str \ifx\kmleftlabels\empty \xdef\kmleftlabels{\kmstr} \else \xdef\kmleftlabels{\kmleftlabels, \kmstr} \fi \else % We have to make the label for top \advance\kmxvarno by -1 \kmsetoptstr % reads argument as <[opt]>str \ifx\kmtoplabels\empty \xdef\kmtoplabels{\kmstr} \else \xdef\kmtoplabels{\kmtoplabels, \kmstr} \fi \fi \advance\kmvarno by -1 \else \let\next=\relax \fi \next } %% %% \karnaughmapvert is the macro that a user calls if he wants to draw a %% Karnaugh map in vertical mode (not be confused with TeX vertical mode): %% \def\karnaughmapvert#1#2#3#4#5{% %% %% #1 is the number of variables in the Karnaugh map %% #2 is the identifier of the function %% #3 is the list of identifiers of those variables %% #4 is the list of tokens that have to be written into the map %% #5 a possibly empty set of TikZ commands that will be drown before %% the function values so the values will appear on top of them %% \kmvarno=#1 % \kmvarno is the total number of variables \kmxvarno=#1 % \kmxvarno is the number of variable bars on top \divide\kmxvarno by 2 \kmyvarno=#1 % \kmyvarno is the number of variable bars at the left \advance\kmyvarno by -\kmxvarno \kmxsize=1 \kmpoweroftwo{\kmxsize}{\kmxvarno} \kmysize=1 \kmpoweroftwo{\kmysize}{\kmyvarno} \kmtemppos=\kmxsize \advance\kmtemppos by -1 \ifnum\kmtemppos>0 \foreach \x in {1,...,\kmtemppos} \draw[kmlines] (\x\kmunitlength,0) -- (\x\kmunitlength,\kmysize\kmunitlength); \fi \kmtemppos=\kmysize \advance\kmtemppos by -1 \foreach \y in {1,...,\kmtemppos} \draw[kmlines] (0,\y\kmunitlength) -- (\kmxsize\kmunitlength,\y\kmunitlength); \draw[kmbox] (0,0) rectangle (\kmxsize\kmunitlength,\kmysize\kmunitlength); #5 \ifAmericanstyle \pgfmathsetbasenumberlength{\kmxvarno} \kmtemppos=\kmxsize \advance\kmtemppos by -1 \kmtemplength=\pgfkeysvalueof{/tikz/kmbar top sep} \pgfmathsetbasenumberlength{\kmxvarno} \foreach \x in {0,...,\kmtemppos} \node[xshift=0.5\kmunitlength, yshift=\kmtemplength,kmtoplabel] at (\x\kmunitlength,\kmysize\kmunitlength) {\pgfmathdectoGray\mynumber{\x}\mynumber}; \kmtemppos=\kmysize \advance\kmtemppos by -1 \ifnum\kmtemppos>0 \kmtemplength=\pgfkeysvalueof{/tikz/kmbar left sep} \pgfmathsetbasenumberlength{\kmyvarno} \foreach \y in {0,...,\kmtemppos} \node[xshift=-\kmtemplength, yshift=\kmysize\kmunitlength-0.5\kmunitlength,left,kmleftlabel] at (0,-\y\kmunitlength) {\pgfmathdectoGray\mynumber{\y}\mynumber}; \fi \kmargumentstring{#3} \gdef\kmtoplabels{} \gdef\kmleftlabels{} \karnaughmakelabelsvert \draw[kmbox] (0,\kmysize\kmunitlength) -- ++(135:1\kmunitlength) node[kmbar label,below left,pos=0.5]{\kmleftlabels} node[kmbar label,above right,pos=0.5]{\kmtoplabels} node[kmvar,above left]{#2}; \else \ifdisablebars\relax\else \node[kmvar,above left] at (0,\kmysize\kmunitlength){#2}; \kmargumentstring{#3} \karnaughmakebarsvert \fi \fi \ifenableindices \ifindexbin \gdef\kmcurrentindex{\kmcurrentindexbin} \pgfmathsetbasenumberlength{#1} \else \ifindexGray \gdef\kmcurrentindex{\kmcurrentindexGrayvert} \else \gdef\kmcurrentindex{\kmcurrentindexdec} \fi \fi \fi \kmvarno=#1 % \kmvarno is the total number of variables \kmindexcounter=0 \kmargumentstring{#4} \ifodd\kmvarno \divide\kmysize by 2 \karnaughmakemapvert{\the\kmxsize}{0}{0}{\the\kmysize} \karnaughmakemapvert{\the\kmxsize}{1}{0}{0} \else \karnaughmakemapvert{\the\kmxsize}{0}{0}{0} \fi }% \endinput