% Block diagrams in TeXdraw
% $Id: blockdiagram.tex,v 1.11 1995/08/24 texdraw-V2R0 $
% Copyright (C) 1993 Peter Kabal
% The routines in this file are provided free of charge without
% warranty of any kind. Note that the TeXdraw routines are copyrighted.
% They may be distributed freely provided that the recipients also
% acquire the right to distribute them freely. The notices to this
% effect must be preserved when the files are distributed.
% Peter Kabal
% Department of Electrical Engineering
% McGill University
% 3480 University
% Montreal, Quebec
% Canada H3A 2A7
% [email protected]
% ===============================================================
\input txdtools
% size of sum and product circles
\def\cradius{0.08}
% \bdot
% big dot
\def\bdot{\fcir f:0 r:0.02 }
% centred, stacked items
\def\hcp#1{$\vcenter{\halign{\hss ##\hss\cr #1\crcr}}$}
% left justified, stacked items
\def\hlp#1{$\vcenter{\halign{##\hss\cr #1\crcr}}$}
% right justified, stacked items
\def\hrp#1{$\vcenter{\halign{\hss ##\cr #1\crcr}}$}
% signal labels - Top text, Bottom text, Left text, Right text,
% and Center text
\def\Ttext#1{\bsegment
\textref h:C v:B \htext (0 +0.06){\hcp{#1}}
\esegment}
\def\Btext#1{\bsegment
\textref h:C v:T \htext (0 -0.06){\hcp{#1}}
\esegment}
\def\Ltext#1{\bsegment
\textref h:R v:C \htext (-0.06 0){\hrp{#1}}
\esegment}
\def\Rtext#1{\bsegment
\textref h:L v:C \htext (+0.06 0){\hlp{#1}}
\esegment}
\def\Ctext#1{\bsegment
\textref h:C v:C \htext{\hcp{#1}}
\esegment}
% ruled box (horizontal) with centered label,
% position set to the end of the box
% \Fbox W H text
\def\Fbox#1#2#3{\bsegment
\bsegment
\setsegscale 0.5
\textref h:C v:C \htext (#1 0){\hcp{#3}}
\esegment
\setsegscale 0.5 \lvec (0 #2)
\setsegscale 1
\rlvec (#1 0) \rlvec (0 -#2) \rlvec (-#1 0) \lvec (0 0)
\savepos (#1 0)(*@x *@y)
\esegment
\move (*@x *@y)}
% ruled box (vertical) with centered label, position set to the end of the box
% \Gbox W H text
\def\Gbox#1#2#3{\bsegment
\bsegment
\setsegscale 0.5
\textref h:C v:C \htext (0 #2){\hcp{#3}}
\esegment
\setsegscale 0.5 \lvec (#1 0)
\setsegscale 1
\rlvec (0 #2) \rlvec (-#1 0) \rlvec (0 -#2) \lvec (0 0)
\savepos (0 #2)(*@x *@y)
\esegment
\move (*@x *@y)}
% ruled triangle (horizontal) with centered label,
% position set to the end of the box
% \Ftri W H text
\def\Ftri#1#2#3{\bsegment
\bsegment
\setsegscale 0.3333
\textref h:C v:C \htext (#1 0){\hcp{#3}}
\esegment
\bsegment
\savepos (#1 0)(*@x *@y)
\esegment
\setsegscale 0.5 \lvec (0 #2)
\setsegscale 1 \lvec (#1 0)
\setsegscale 0.5 \lvec (0 -#2) \lvec (0 0)
\esegment
\move (*@x *@y)}
% \pluss
% plus sign
\def\pluss {\bsegment
\setsegscale {\cradius}
\move (-0.5 0) \lvec (+0.5 0)
\move (0 -0.5) \lvec (0 +0.5)
\esegment}
% \minuss
% minus sign
\def\minuss {\bsegment
\setsegscale {\cradius}
\move (-0.5 0) \lvec (+0.5 0)
\esegment}
% \mults
% multiplication sign
\def\mults {\bsegment
\setsegscale {\cradius}
\realmult \cradius {0.354} \tmpa
\move (-0.354 -0.354) \lvec (+0.354 +0.354)
\move (-0.354 +0.354) \lvec (+0.354 -0.354)
\esegment}
% \pcir
% circle of given radius with a plus sign
\def\pcir {\lcir r:{\cradius} \pluss}
% \mcir
% circle of given radius with a multiplication sign
\def\mcir {\lcir r:{\cradius} \mults}
% \putn, \putnne, etc
% places text at an offset from the center of a circle, with
% the position of the text specified in compass directions
\def\puttext (#1 #2)#3{\bsegment
\setsegscale {\cradius}
\textref h:C v:C \htext (#1 #2){#3}
\esegment}
\def\putn #1{\puttext ( 0 +2 ){#1}}
\def\putnne #1{\puttext (+1.2 +1.7){#1}}
\def\putene #1{\puttext (+1.7 +1.2){#1}}
\def\putese #1{\puttext (+1.7 -1.2){#1}}
\def\putsse #1{\puttext (+1.2 -1.7){#1}}
\def\puts #1{\puttext ( 0 -2 ){#1}}
\def\putssw #1{\puttext (-1.2 -1.7){#1}}
\def\putwsw #1{\puttext (-1.7 -1.2){#1}}
\def\putwnw #1{\puttext (-1.7 +1.2){#1}}
\def\putnnw #1{\puttext (-1.2 +1.7){#1}}
% \avectoc
% arrow vector to a circle
\def\avectoc (#1 #2){\currentpos \xa\ya
\cossin ({\xa} \ya)(#1 #2)\cosa\sina
\savepos (#1 #2)(*@x *@y)%
\bsegment
\move (*@x *@y)%
\setsegscale {\cradius}
\rmove ({-\cosa} -\sina)%
\savecurrpos (*@x *@y)%
\esegment
\avec (*@x *@y)%
\move (#1 #2)}
% \avecfrc
% arrow vector from a circle
\def\avecfrc (#1 #2){\currentpos \xa\ya
\cossin ({\xa} \ya)(#1 #2)\cosa\sina
\bsegment
\setsegscale {\cradius}
\move ({\cosa} \sina)%
\savecurrpos (*@x *@y)%
\esegment
\move (*@x *@y)%
\avec (#1 #2)}
% \avecfrctoc
% arrow vector from a circle to a circle
\def\avecfrctoc (#1 #2){\currentpos \xa\ya
\cossin ({\xa} \ya)(#1 #2)\cosa\sina
\bsegment
\setsegscale {\cradius}
\move ({\cosa} \sina)%
\savecurrpos (*@x *@y)%
\esegment
\move (*@x *@y)%
\avectoc (#1 #2)}
% \lvecfrc
% line vector from a circle
\def\lvecfrc (#1 #2){\currentpos \xa\ya
\cossin ({\xa} \ya)(#1 #2)\cosa\sina
\bsegment
\setsegscale {\cradius}
\move ({\cosa} {\sina})%
\savecurrpos (*@x *@y)%
\esegment
\move (*@x *@y)%
\lvec (#1 #2)}
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