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%% This is file `tikzlibrarykarnaugh.code.tex' formerly known as `tikz-karnaugh.tex',
%% Version: 1.2
%% Version date: 2018-03-19
%%
%% 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 1.2 of 19 March 2018}
\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
%%
%% 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},
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,
kmcell/.style={},
kmvar/.style={},
kmbox/.style={},
kmlines/.style={},
every karnaugh/.try,
}
}
%%
%% New ifs for the options above
%%
\newif\ifenableindices
\enableindicesfalse
\newif\ifdisablebars
\disablebarsfalse
\newif\ifindexbin
\indexbinfalse
%%
%% 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{%
\pgfmathdectobase\mynumber{\the\kmindexcounter}{2} \mynumber\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}}
%%
%% 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
}
%%
%% \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
%%
\ifenableindices\ifindexbin\gdef\kmcurrentindex{\kmcurrentindexbin}\pgfmathsetbasenumberlength{#1}\else\gdef\kmcurrentindex{\kmcurrentindexdec}\fi\fi
\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
\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
\ifdisablebars\relax\else
\node[kmvar,above left] at (0,\kmysize\kmunitlength){#2};
\kmargumentstring{#3}
\karnaughmakebars
\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
}
%%
%% \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
%%
\ifenableindices\ifindexbin\gdef\kmcurrentindex{\kmcurrentindexbin}\pgfmathsetbasenumberlength{#1}\else\gdef\kmcurrentindex{\kmcurrentindexdec}\fi\fi
\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
\ifdisablebars\relax\else
\node[kmvar,above left] at (0,\kmysize\kmunitlength){#2};
\kmargumentstring{#3}
\karnaughmakebarsvert
\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
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