% Copyright 2018-2023 by Romano Giannetti % Copyright 2015-2023 by Stefan Lindner % Copyright 2013-2023 by Stefan Erhardt % Copyright 2007-2023 by Massimo Redaelli % % This file may be distributed and/or modified % % 1. under the LaTeX Project Public License and/or % 2. under the GNU Public License. % % See the files gpl-3.0_license.txt and lppl-1-3c_license.txt for more details. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Quadripoles %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Setting for Transformers and similar quadpoles%<<<1 \ctikzset{quadpoles/transformer/inner/.initial=0.4} \ctikzset{quadpoles/transformer/width/.initial=1.5} \ctikzset{quadpoles/transformer/width1/.initial=.4} \ctikzset{quadpoles/transformer/height/.initial=1.5} \ctikzset{quadpoles/transformer/height1/.initial=.8} \ctikzset{quadpoles/transformer core/inner/.initial=0.4} \ctikzset{quadpoles/transformer core/width/.initial=1.5} \ctikzset{quadpoles/transformer core/height/.initial=1.5} \ctikzset{quadpoles/transformer core/core height/.initial=.5} \ctikzset{quadpoles/transformer core/core width/.initial=.05} \ctikzset{transformer core/relative thickness/.initial=1} \ctikzset{transformer core/color/.initial=default} \ctikzset{transformer core/dash/.initial=default} \ctikzset{quadpoles/gyrator/inner/.initial=0.4} \ctikzset{quadpoles/gyrator/width/.initial=1.5} \ctikzset{quadpoles/gyrator/height/.initial=1.5} \ctikzset{quadpoles/fourport/width/.initial=1.3} \ctikzset{quadpoles/fourport/height/.initial=1.3} \ctikzset{quadpoles/coupler/width/.initial=1.3} \ctikzset{quadpoles/coupler/height/.initial=1.3} \ctikzset{quadpoles/coupler2/width/.initial=1.3} \ctikzset{quadpoles/coupler2/height/.initial=1.3} \ctikzset{quadpoles/double bipole/inner/.initial=0.4} \ctikzset{quadpoles/double bipole/width/.initial=1.5} \ctikzset{quadpoles/double bipole/width1/.initial=.4} \ctikzset{quadpoles/double bipole/height/.initial=1.5} \ctikzset{quadpoles/double bipole/height1/.initial=.8} \ctikzset{quadpoles style/.is choice} \ctikzset{quadpoles style/inward/.code={% default value \ctikzset{quadpoles/transformer/inner=0.4}% \ctikzset{quadpoles/transformer/width=1.5}% \ctikzset{quadpoles/transformer core/inner=0.4}% \ctikzset{quadpoles/transformer core/width=1.5}% \ctikzset{quadpoles/gyrator/inner=0.4}% \ctikzset{quadpoles/gyrator/width=1.5}% \ctikzset{quadpoles/double bipole/inner=0.4}% \ctikzset{quadpoles/double bipole/width=1.5}% }% } \ctikzset{quadpoles style/inline/.code={% now horizontal baffle \ctikzset{quadpoles/transformer/inner=1}% \ctikzset{quadpoles/transformer/width=0.6}% \ctikzset{quadpoles/transformer core/inner=1}% \ctikzset{quadpoles/transformer core/width=0.6}% \ctikzset{quadpoles/gyrator/inner=1} % FIXME \ctikzset{quadpoles/gyrator/width=0.6}% \ctikzset{quadpoles/double bipole/inner=1}% \ctikzset{quadpoles/double bipole/width=0.6}% }% } %%>>> %% Node shapes for quadpoles (basically transformers)%<<< \long\def\pgfcircdeclarequadpole#1#2#3{ \pgfdeclareshape{#1} { \savedmacro{\ctikzclass}{\edef\ctikzclass{inductors}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} % shapename \savedmacro{\thisshape}{\def\thisshape{\tikz@fig@name}} \savedmacro{\stretto}{\def\stretto{\ctikzvalof{quadpoles/#1/inner}}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{quadpoles/#1/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=.5\pgf@circ@scaled@Rlen \pgf@x=-\ctikzvalof{quadpoles/#1/width}\pgf@x } %% we define the upper right (positive coord) inner and outer dots (on the side of B1) \savedanchor{\innerdot}{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@xa=.5\pgf@circ@scaled@Rlen \pgf@xa=-\ctikzvalof{quadpoles/#1/width}\pgf@xa % by default use the cute inductor size \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa-\ctikzvalof{bipoles/cuteinductor/height}*\pgf@circ@scaled@Rlen/2} % check if it's american \edef\pgf@circ@temp{\ctikzvalof{inductor}} \edef\pgf@temp{american} \ifx\pgf@circ@temp\pgf@temp \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa-\ctikzvalof{bipoles/americaninductor/height}*\pgf@circ@scaled@Rlen/2} \fi % check if it's european \edef\pgf@temp{european} \ifx\pgf@circ@temp\pgf@temp \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa-\ctikzvalof{bipoles/fullgeneric/height}*\pgf@circ@scaled@Rlen/2} \fi \pgfmathsetlength\pgf@y{0.5*\pgf@circ@scaled@Rlen} } \savedanchor{\outerdot}{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@xa=.5\pgf@circ@scaled@Rlen \pgf@xa=-\ctikzvalof{quadpoles/#1/width}\pgf@xa % by default use the cute inductor size \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa+\ctikzvalof{bipoles/cuteinductor/height}*\pgf@circ@scaled@Rlen/2} % check if it's american \edef\pgf@circ@temp{\ctikzvalof{inductor}} \edef\pgf@temp{american} \ifx\pgf@circ@temp\pgf@temp \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa+\ctikzvalof{bipoles/americaninductor/height}*\pgf@circ@scaled@Rlen/2} \fi % check if it's european \edef\pgf@temp{european} \ifx\pgf@circ@temp\pgf@temp \pgfmathsetlength\pgf@x{-\stretto*\pgf@xa+\ctikzvalof{bipoles/fullgeneric/height}*\pgf@circ@scaled@Rlen/2} \fi \pgfmathsetlength\pgf@y{0.5*\pgf@circ@scaled@Rlen} } % geographical \anchor{center}{\northwest\pgf@x=0pt\pgf@y=0pt} \pgfcirc@northwest@symmetric@geoanchors \anchor{base}{\northwest\pgf@x=0pt} % external wires \anchor{A2}{\northwest\pgf@y=-\pgf@y} \anchor{B1}{\northwest\pgf@x=-\pgf@x} \anchor{A1}{\northwest} \anchor{B2}{\northwest\pgf@x=-\pgf@x \pgf@y=-\pgf@y} %% dot's anchors \anchor{inner dot A1}{\innerdot\pgf@x=-\pgf@x} \anchor{outer dot A1}{\outerdot\pgf@x=-\pgf@x} \anchor{inner dot A2}{\innerdot\pgf@x=-\pgf@x\pgf@y=-\pgf@y} \anchor{outer dot A2}{\outerdot\pgf@x=-\pgf@x\pgf@y=-\pgf@y} \anchor{inner dot B1}{\innerdot} \anchor{outer dot B1}{\outerdot} \anchor{inner dot B2}{\innerdot\pgf@y=-\pgf@y} \anchor{outer dot B2}{\outerdot\pgf@y=-\pgf@y} % text above \anchor{text}{ \northwest \pgf@x=\dimexpr -.5\wd\pgfnodeparttextbox\relax \advance\pgf@y by .6\ht\pgfnodeparttextbox\relax } #3% \pgf@circ@draw@component{ \pgf@circ@setcolor \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x #2% } } } % these are deprecated anchors (really I do not know what they are --- Romano.) % They are here for compatibility, I suppose. Don't use. \def\pgf@circ@drawtransformerbasicanchor{ % \ctikzvalof{quadpoles/trans/height} \anchor{AA2}{ \northwest \pgf@x=\ctikzvalof{quadpoles/transformer/width1}\pgf@x \pgf@x=.7\pgf@x \pgf@y=-\pgf@y \pgf@y=\ctikzvalof{quadpoles/transformer/height1}\pgf@y } \anchor{BB1}{ \northwest \pgf@x=-\pgf@x \pgf@x=\ctikzvalof{quadpoles/transformer/width1}\pgf@x \pgf@x=.7\pgf@x \pgf@y=\ctikzvalof{quadpoles/transformer/height1}\pgf@y } \anchor{AA1}{ \northwest \pgf@x=\ctikzvalof{quadpoles/transformer/width1}\pgf@x \pgf@x=.7\pgf@x \pgf@y=\ctikzvalof{quadpoles/transformer/height1}\pgf@y } \anchor{BB2}{ \northwest \pgf@x=-\pgf@x \pgf@x=\ctikzvalof{quadpoles/transformer/width1}\pgf@x \pgf@x=.7\pgf@x \pgf@y=-\pgf@y \pgf@y=\ctikzvalof{quadpoles/transformer/height1}\pgf@y } } %% Null styles that can be used to change individually the L1 and L2 %% inductors of the transformer. \ctikzset{transformer L1/.style={}} \ctikzset{transformer L2/.style={}} \def\pgf@circ@drawtransformerbasicbody{ \pgfscope \pgfslopedattimetrue \pgfallowupsidedownattimetrue \pgftransformlineattime{.5}{% \pgfpoint% {\stretto\pgf@circ@res@left}% {\pgf@circ@res@up}% }{% \pgfpoint {\stretto\pgf@circ@res@left}% {\pgf@circ@res@down}% } \pgfkeys{\circuitikzbasekey/.cd, transformer L1} \edef\pgf@circ@temp{\ctikzvalof{inductor}}% \def\pgf@temp{european}% \ifx\pgf@temp\pgf@circ@temp% \pgfnode{fullgenericshape}{center}{}{\thisshape-L1}{\pgfusepath{stroke}} \else% \def\pgf@temp{cute} \ifx\pgf@temp\pgf@circ@temp% \pgfnode{cuteinductorshape}{center}{}{\thisshape-L1}{\pgfusepath{stroke}} \else% \pgfnode{americaninductorshape}{center}{}{\thisshape-L1}{\pgfusepath{stroke}} \fi% \fi% \endpgfscope \pgfscope \pgfslopedattimetrue \pgfallowupsidedownattimetrue \pgftransformlineattime{.5}{% \pgfpoint% {\stretto\pgf@circ@res@right}% {\pgf@circ@res@down}% }{% \pgfpoint {\stretto\pgf@circ@res@right}% {\pgf@circ@res@up}% } \pgfkeys{\circuitikzbasekey/.cd, transformer L2} \edef\pgf@circ@temp{\ctikzvalof{inductor}}% \def\pgf@temp{european}% \ifx\pgf@temp\pgf@circ@temp% \pgfnode{fullgenericshape}{center}{}{\thisshape-L2}{\pgfusepath{stroke}} \else% \def\pgf@temp{cute} \ifx\pgf@temp\pgf@circ@temp% \pgfnode{cuteinductorshape}{center}{}{\thisshape-L2}{\pgfusepath{stroke}} \else% \pgfnode{americaninductorshape}{center}{}{\thisshape-L2}{\pgfusepath{stroke}} \fi% \fi% \endpgfscope \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpointanchor{\thisshape-L1}{b}} \pgfpathmoveto{\pgfpointanchor{\thisshape-L1}{a}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpointanchor{\thisshape-L2}{a}} \pgfpathmoveto{\pgfpointanchor{\thisshape-L2}{b}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfusepath{draw} } \pgfcircdeclarequadpole{transformer}{ \pgf@circ@drawtransformerbasicbody }{\pgf@circ@drawtransformerbasicanchor} \pgfcircdeclarequadpole{transformer core}{ \pgf@circ@drawtransformerbasicbody % use the chocke line thickness \pgfsetlinewidth{\ctikzvalof{bipoles/cutechoke/cthick}*\ctikzvalof{transformer core/relative thickness}*\pgflinewidth} \pgf@circ@subset@color@dash{transformer core} % Find the distance from center for the lines representing the core % the 2.5 is for backward compatibility --- the distance was calculated as a fraction % of the whole component, now as a fraction of the distance between coils, to be % compatible with the quadpoles "inner" style. \pgfmathsetlength{\pgf@circ@res@other}{2.5*\stretto*\ctikzvalof{quadpoles/transformer core/core width}*\pgf@circ@res@right} \pgfmoveto{\pgfpoint% {\pgf@circ@res@other}% {\ctikzvalof{quadpoles/transformer core/core height}\pgf@circ@res@down}% } \pgflineto{ \pgfpoint% {\pgf@circ@res@other}% {\ctikzvalof{quadpoles/transformer core/core height}\pgf@circ@res@up}% } %% this should be just -\pgf@circ@res@other, but in case someone define an asymmetric trafo someday... \pgfmathsetlength{\pgf@circ@res@other}{2.5*\stretto*\ctikzvalof{quadpoles/transformer core/core width}*\pgf@circ@res@left} \pgfmoveto{\pgfpoint% {\pgf@circ@res@other}% {\ctikzvalof{quadpoles/transformer core/core height}\pgf@circ@res@down}% } \pgflineto{ \pgfpoint% {\pgf@circ@res@other}% {\ctikzvalof{quadpoles/transformer core/core height}\pgf@circ@res@up}% } \pgf@circ@setlinewidth{bipoles}{\pgflinewidth} \pgfusepath{draw} }{\pgf@circ@drawtransformerbasicanchor} \pgfcircdeclarequadpole{gyrator}{ \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfusepath{draw} \pgf@circ@setlinewidth{quadpoles}{\pgflinewidth} \pgfmathsetlength{\pgf@circ@res@other}{min(.7*\stretto*\pgf@circ@res@up, .8*\pgf@circ@res@right)} % radius \pgfpathmoveto{\pgfpoint{\stretto\pgf@circ@res@left}{-\pgf@circ@res@other}} \pgfpatharc{-90}{90}{\pgf@circ@res@other} \pgfpathclose \pgf@circ@draworfill \pgfpathmoveto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@other}} \pgfpatharc{90}{270}{\pgf@circ@res@other} \pgfpathclose \pgf@circ@draworfill }{} % %>>> % Node shapes for generic double bipoles %<<< % \long\def\pgfcircdeclaredbipole#1#2#3{ \pgfdeclareshape{#1} { \savedmacro{\ctikzclass}{\edef\ctikzclass{misc}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} % shapename \savedmacro{\thisshape}{\def\thisshape{\tikz@fig@name}} \savedmacro{\stretto}{\def\stretto{\ctikzvalof{quadpoles/#1/inner}}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{quadpoles/#1/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=.5\pgf@circ@scaled@Rlen \pgf@x=-\ctikzvalof{quadpoles/#1/width}\pgf@x } %% we define the upper right (positive coord) inner and outer dot (near B1) %% in the generic case, we just place the dot position in a fixed spot %% we do not know the width of the component there... \savedanchor{\innerdot}{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@xa=.5\pgf@circ@scaled@Rlen \pgf@xa=-\ctikzvalof{quadpoles/#1/width}\pgf@xa \pgfmathsetlength\pgf@x{-0.5*\stretto*\pgf@xa} \pgfmathsetlength\pgf@y{0.5*\pgf@circ@scaled@Rlen} } \savedanchor{\outerdot}{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@xa=.5\pgf@circ@scaled@Rlen \pgf@xa=-\ctikzvalof{quadpoles/#1/width}\pgf@xa \pgfmathsetlength\pgf@x{-1.5*\stretto*\pgf@xa} \pgfmathsetlength\pgf@y{0.5*\pgf@circ@scaled@Rlen} } % geographical \anchor{center}{\northwest\pgf@x=0pt\pgf@y=0pt} \pgfcirc@northwest@symmetric@geoanchors \anchor{base}{\northwest\pgf@x=0pt} % external wires \anchor{A2}{\northwest\pgf@y=-\pgf@y} \anchor{B1}{\northwest\pgf@x=-\pgf@x} \anchor{A1}{\northwest} \anchor{B2}{\northwest\pgf@x=-\pgf@x \pgf@y=-\pgf@y} %% dot's anchors \anchor{inner dot A1}{\innerdot\pgf@x=-\pgf@x} \anchor{outer dot A1}{\outerdot\pgf@x=-\pgf@x} \anchor{inner dot A2}{\innerdot\pgf@x=-\pgf@x\pgf@y=-\pgf@y} \anchor{outer dot A2}{\outerdot\pgf@x=-\pgf@x\pgf@y=-\pgf@y} \anchor{inner dot B1}{\innerdot} \anchor{outer dot B1}{\outerdot} \anchor{inner dot B2}{\innerdot\pgf@y=-\pgf@y} \anchor{outer dot B2}{\outerdot\pgf@y=-\pgf@y} % text above \anchor{text}{ \northwest \pgf@x=\dimexpr -.5\wd\pgfnodeparttextbox\relax \advance\pgf@y by .6\ht\pgfnodeparttextbox\relax } #3% \pgf@circ@draw@component{ \pgf@circ@setcolor \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x #2% } } } \ctikzset{every double bipole L/.style={}} \ctikzset{every double bipole R/.style={}} \ctikzset{double bipole L/.initial=genericshape} \ctikzset{double bipole R/.initial=vsourceAMshape} \newif\ifpgf@circ@dbipoleL@invert\pgf@circ@dbipoleL@invertfalse \newif\ifpgf@circ@dbipoleR@invert\pgf@circ@dbipoleR@invertfalse \ctikzset{double bipole L invert/.is if=pgf@circ@dbipoleL@invert} \ctikzset{double bipole R invert/.is if=pgf@circ@dbipoleR@invert} \def\pgf@circ@drawdbipolebasicbody{ \pgfscope \ifpgf@circ@dbipoleL@invert \pgf@circ@res@temp=\pgf@circ@res@down \pgf@circ@res@other=\pgf@circ@res@up \else \pgf@circ@res@temp=\pgf@circ@res@up \pgf@circ@res@other=\pgf@circ@res@down \fi \pgfslopedattimetrue \pgfallowupsidedownattimetrue \pgftransformlineattime{.5}{% \pgfpoint% {\stretto\pgf@circ@res@left}% {\pgf@circ@res@temp}% }{% \pgfpoint {\stretto\pgf@circ@res@left}% {\pgf@circ@res@other}% } \pgfkeys{\circuitikzbasekey/.cd, every double bipole L} \edef\pgf@circ@temp{\ctikzvalof{double bipole L}}% \pgfnode{\pgf@circ@temp}{center}{}{\thisshape-L}{\pgfusepath{stroke}} \endpgfscope \pgfscope \ifpgf@circ@dbipoleR@invert \pgf@circ@res@temp=\pgf@circ@res@down \pgf@circ@res@other=\pgf@circ@res@up \else \pgf@circ@res@temp=\pgf@circ@res@up \pgf@circ@res@other=\pgf@circ@res@down \fi \pgfslopedattimetrue \pgfallowupsidedownattimetrue \pgftransformlineattime{.5}{% \pgfpoint% {\stretto\pgf@circ@res@right}% {\pgf@circ@res@other}% }{% \pgfpoint {\stretto\pgf@circ@res@right}% {\pgf@circ@res@temp}% } % \pgfkeys{\circuitikzbasekey/.cd, every double bipole R} \edef\pgf@circ@temp{\ctikzvalof{double bipole R}}% \pgfnode{\pgf@circ@temp}{center}{}{\thisshape-R}{\pgfusepath{stroke}} \endpgfscope % \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpointanchor{\thisshape-L}{\ifpgf@circ@dbipoleL@invert a\else b\fi}} % \pgfpathmoveto{\pgfpointanchor{\thisshape-L}{\ifpgf@circ@dbipoleL@invert b\else a\fi}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@down}} % \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpointanchor{\thisshape-R}{\ifpgf@circ@dbipoleR@invert b\else a\fi}} % \pgfpathmoveto{\pgfpointanchor{\thisshape-R}{\ifpgf@circ@dbipoleR@invert a\else b\fi}} \pgfpathlineto{\pgfpoint{\stretto\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfusepath{draw} } \pgfcircdeclaredbipole{double bipole}{ \pgf@circ@drawdbipolebasicbody }{} % %>>> %%%%%%%%%%%%%%%%%%% %% Block diagrams %%%%%%%%%%%%%%%%%%% % Definitions and options for blocks (twoports and so)%<<<1 \ctikzset{bipoles/twoport/width/.initial=.7} \ctikzset{bipoles/twoport/height/.initial=.7} \ctikzset{bipoles/twoport/text/.initial=} \ctikzset{bipoles/twoportsplit/width/.initial=.7} \ctikzset{bipoles/twoportsplit/height/.initial=.7} \ctikzset{bipoles/twoport/text in/.initial=} \ctikzset{bipoles/twoport/text out/.initial=} \ctikzset{text/.style={t=#1}} \ctikzset{t/.code={% \ctikzsetvalof{bipoles/twoport/text}{#1}% }} \ctikzset{text in/.style={t1=#1}} \ctikzset{t1/.code={% \ctikzsetvalof{bipoles/twoport/text in}{#1}% }} \ctikzset{text out/.style={t2=#1}} \ctikzset{t2/.code={% \ctikzsetvalof{bipoles/twoport/text out}{#1}% }} \ctikzset{bipoles/vco/width/.initial=.7} \ctikzset{bipoles/bandpass/width/.initial=.7} \ctikzset{bipoles/bandstop/width/.initial=.7} \ctikzset{bipoles/highpass/width/.initial=.7} \ctikzset{bipoles/highpass2/width/.initial=.7} \ctikzset{bipoles/lowpass/width/.initial=.7} \ctikzset{bipoles/lowpass2/width/.initial=.7} \ctikzset{bipoles/allpass/width/.initial=.7} \ctikzset{bipoles/adc/width/.initial=.7} \ctikzset{bipoles/dac/width/.initial=.7} \ctikzset{bipoles/dsp/width/.initial=.7} \ctikzset{bipoles/fft/width/.initial=.7} \ctikzset{bipoles/amp/width/.initial=.7} \ctikzset{bipoles/vamp/width/.initial=.7} \ctikzset{bipoles/piattenuator/width/.initial=.7} \ctikzset{bipoles/vpiattenuator/width/.initial=.7} \ctikzset{bipoles/tattenuator/width/.initial=.7} \ctikzset{bipoles/vtattenuator/width/.initial=.7} \ctikzset{bipoles/phaseshifter/width/.initial=.7} \ctikzset{bipoles/vphaseshifter/width/.initial=.7} \ctikzset{bipoles/detector/width/.initial=.7} \ctikzset{tripoles/mixer/width/.initial=0.7} \ctikzset{tripoles/adder/width/.initial=0.7} \ctikzset{tripoles/circulator/width/.initial=.7} \ctikzset{tripoles/oscillator/width/.initial=.7} \ctikzset{tripoles/wilkinson/height/.initial=1.3} \ctikzset{tripoles/wilkinson/width/.initial=1.3} \ctikzset{tripoles/splitter/height/.initial=1.3} \ctikzset{tripoles/splitter/width/.initial=1.3} \ctikzset{tripoles/genericsplitter/height/.initial=1.3} \ctikzset{tripoles/genericsplitter/width/.initial=1.3} \ctikzset{tripoles/mzm/height/.initial=1.3} \ctikzset{tripoles/mzm/width/.initial=1.3} % Option ">" for twoports \newif\ifpgf@circuit@inputarrow \ctikzset{>/.add code={}{\pgf@circuit@inputarrowtrue}} \ctikzset{inputarrow/.is choice} \ctikzset{inputarrow/true/.code={\pgf@circuit@inputarrowtrue}} \ctikzset{inputarrow/false/.code={\pgf@circuit@inputarrowfalse}} % Option "boxed" for nodes and twoports \newif\ifpgf@circuit@boxed \newif\ifpgf@circuit@boxedcircled\pgf@circuit@boxedcircledtrue \pgfkeys{/tikz/boxed/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledtrue}} \ctikzset{boxed/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledtrue}} \pgfkeys{/tikz/box/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledtrue}} \ctikzset{box/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledtrue}} % boxed, no circle \pgfkeys{/tikz/boxed only/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledfalse}} \ctikzset{boxed only/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledfalse}} \pgfkeys{/tikz/box only/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledfalse}} \ctikzset{box only/.add code={}{\pgf@circuit@boxedtrue\pgf@circuit@boxedcircledfalse}} % Option "dashed" for nodes and twoports \newif\ifpgf@circuit@dashed \pgfkeys{/tikz/dashed/.add code={}{\pgf@circuit@dashedtrue}} \ctikzset{dashed/.add code={}{\pgf@circuit@dashedtrue}}% % Also draw internal things dashed \newif\ifpgf@circuit@full@dashed \ctikzset{inner blocks dashed/.is if=pgf@circuit@full@dashed}% % Default block dash \ctikzset{dashed blocks pattern/.initial={{0.1cm}{0.1cm}}} % % powerelectronic blocks \ctikzset{bipoles/sacdc/width/.initial=.7} \ctikzset{bipoles/sdcac/width/.initial=.7} \ctikzset{bipoles/sdcdc/width/.initial=.7} \ctikzset{bipoles/tacdc/width/.initial=.7} \ctikzset{bipoles/tdcac/width/.initial=.7} \ctikzset{quadpoles/gridnode/width/.initial=.7} %not sure if quadpole? %>>> %% Node shapes definition for path-style block diagrams%<<< %% Draw the two-port fillable box \def\pgf@circ@twoportbox{% \pgfscope \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth}% \pgfpathrectanglecorners{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up}}{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@down}}% \pgf@circ@draworfill \endpgfscope } \def\pgf@circ@inputarrow{% \ifpgf@circuit@inputarrow {% % Remove this: the line will overrun the tip, resulting in bad look. See issue #613, thanks to Laurenz Preindl % \advance \pgf@circ@res@left by -.5\ctikzvalof{bipoles/thickness}\pgfstartlinewidth \pgftransformshift{\pgfpoint{\pgf@circ@res@left}{0pt}}% \pgfnode{inputarrow}{tip}{}{pgf@inputarrow}{\pgfusepath{fill}}% }% \fi } %%% blocks additional anchors \def\pgcirc@twoport@additional@anchors{% \anchor{right down}{\northeast\pgf@y=-0.5\pgf@y} \anchor{left down}{\northeast\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{left up}{\northeast\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{right up}{\northeast\pgf@y=0.5\pgf@y} \anchor{up}{\northeast\pgf@x=0pt\relax} \anchor{down}{\northeast\pgf@y=-\pgf@y\pgf@x=0pt\relax} } %%% definition to help define the blocks. Notice that the height, width, etc are different, so we can't %%% simplify more... \def\pfgcirc@twoport@get@symbol@rotation{ %%% put the needed rotation in \@@rotation \def\pgfcircmathresult{\expandafter\pgf@circ@stripdecimals\pgf@circ@direction\pgf@nil} \def\@@rotation{0} \ifnum \pgfcircmathresult > 45 \ifnum \pgfcircmathresult < 135 \def\@@rotation{270} \fi\fi \ifnum \pgfcircmathresult > 134 \ifnum \pgfcircmathresult < 225 \def\@@rotation{180} \fi\fi \ifnum \pgfcircmathresult > 224 \ifnum \pgfcircmathresult < 315 \def\@@rotation{90} \fi\fi } % \def\pfgcirc@twoport@rotate@inner@symbol{% % rotate inner symbol \pfgcirc@twoport@get@symbol@rotation \pgftransformrotate{\@@rotation} } % enact dashing if needed \def\pgfcirc@twoport@maybedash{% \ifpgf@circuit@dashed \edef\@@tmp{\ctikzvalof{dashed blocks pattern}} \expandafter\pgfsetdash\expandafter{\@@tmp}{0cm} \fi } % debug \def\@@printrot{% \pgfsetcolor{red} \pgftext[center,x=0,y=0,]{\tiny\ttfamily\pgf@circ@direction > \@@rotation} } % \def\pgfcirc@twoport@setup#1{% \pgf@circ@res@step = #1\pgf@circ@scaled@Rlen%6 is the real width parameter \divide \pgf@circ@res@step by 2 \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} % let set the dash for the next operations \pgfcirc@twoport@maybedash } % \def\pgfcirc@twoport@draw@sine#1#2{% #1 -> y shift; #2 -> crossed out if != 0 % draw inner sine waves; ...res@step must be defined \pgfscope \pgfsetlinewidth{\pgfstartlinewidth} \pgftransformyshift{#1\pgf@circ@res@step} \pgfpathmoveto{\pgfpoint{-.5\pgf@circ@res@step}{0\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.25\pgf@circ@res@step}{.25\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.25\pgf@circ@res@step}{-.25\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.25\pgf@circ@res@step}{-.25\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.25\pgf@circ@res@step}{.25\pgf@circ@res@step}} \ifnum #2=0\else \pgfpathmoveto{\pgfpoint{0.15\pgf@circ@res@step}{0.15\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{-0.15\pgf@circ@res@step}{-0.15\pgf@circ@res@step}} \fi \pgfusepath{draw} \endpgfscope } % \def\pgfcirc@twoport@draw@splitline{% \pgfscope \pgfcirc@twoport@maybedash \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfusepath{draw} \endpgfscope } % \long\def\pgfcirc@define@twoports#1#2#3#4#5#6#7{ \pgfcircdeclarebipolescaled{#1} { \pgcirc@twoport@additional@anchors #2 } {#3} {#4} {#5} {#6} { \pgfcirc@twoport@setup{#6} % draw outer box \pgf@circ@twoportbox % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgf@circ@inputarrow \pfgcirc@twoport@rotate@inner@symbol #7 } } % \long\def\pgfcirc@define@twoports@norotate#1#2#3#4#5#6#7{ \pgfcircdeclarebipolescaled{#1} { \pgcirc@twoport@additional@anchors #2 } {#3} {#4} {#5} {#6} { \pgfcirc@twoport@setup{#6} % draw outer box \pgf@circ@twoportbox % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgf@circ@inputarrow #7 } } %% Generic two port box \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/twoport/height}} {twoport} {\ctikzvalof{bipoles/twoport/height}} {\ctikzvalof{bipoles/twoport/width}} { % draw inner symbol \pgf@circ@text@strokecolor \pgftext[center,x=0,y=0]{\ctikzvalof{bipoles/twoport/text}} } %% twoport split \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/twoportsplit/height}} {twoportsplit} {\ctikzvalof{bipoles/twoportsplit/height}} {\ctikzvalof{bipoles/twoportsplit/width}} { %get texts \def\pgfcirc@tin{\ctikzvalof{bipoles/twoport/text in}} \def\pgfcirc@tout{\ctikzvalof{bipoles/twoport/text out}} % shuffle text depending on rotation \pgfcirc@twoport@draw@splitline % \pgf@circ@text@strokecolor \ifnum\@@rotation<145 \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{\pgfcirc@tin} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{\pgfcirc@tout} \else \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{\pgfcirc@tout} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{\pgfcirc@tin} \fi } %% bandpass filter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/bandpass/width}} {bandpass} {\ctikzvalof{bipoles/bandpass/width}} {\ctikzvalof{bipoles/bandpass/width}} { \pgfcirc@twoport@draw@sine{0.5}{1} \pgfcirc@twoport@draw@sine{0.0}{0} \pgfcirc@twoport@draw@sine{-0.5}{1} } %% bandstop filter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/bandstop/width}} {bandstop} {\ctikzvalof{bipoles/bandstop/width}} {\ctikzvalof{bipoles/bandstop/width}} { \pgfcirc@twoport@draw@sine{0.5}{0} \pgfcirc@twoport@draw@sine{0.0}{1} \pgfcirc@twoport@draw@sine{-0.5}{0} } %% highpass filter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/highpass/width}} {highpass} {\ctikzvalof{bipoles/highpass/width}} {\ctikzvalof{bipoles/highpass/width}} { \pgfcirc@twoport@draw@sine{0.5}{0} \pgfcirc@twoport@draw@sine{0.0}{1} \pgfcirc@twoport@draw@sine{-0.5}{1} } %% highpass2 filter ---simplyfied with just two waves \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/highpass2/width}} {highpass2} {\ctikzvalof{bipoles/highpass2/width}} {\ctikzvalof{bipoles/highpass2/width}} { \pgfcirc@twoport@draw@sine{0.25}{0} \pgfcirc@twoport@draw@sine{-0.25}{1} } %% lowpass filter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/lowpass/width}} {lowpass} {\ctikzvalof{bipoles/lowpass/width}} {\ctikzvalof{bipoles/lowpass/width}} { \pgfcirc@twoport@draw@sine{0.5}{1} \pgfcirc@twoport@draw@sine{0.0}{1} \pgfcirc@twoport@draw@sine{-0.5}{0} } %% lowpass2 filter: simplyfied with just two waves \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/lowpass2/width}} {lowpass2} {\ctikzvalof{bipoles/lowpass2/width}} {\ctikzvalof{bipoles/lowpass2/width}} { \pgfcirc@twoport@draw@sine{0.25}{1} \pgfcirc@twoport@draw@sine{-0.25}{0} } %% allpass filter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/allpass/width}} {allpass} {\ctikzvalof{bipoles/allpass/width}} {\ctikzvalof{bipoles/allpass/width}} { \pgfcirc@twoport@draw@sine{0.5}{0} \pgfcirc@twoport@draw@sine{0.0}{0} \pgfcirc@twoport@draw@sine{-0.5}{0} } %% ADC \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/adc/width}} {adc} {\ctikzvalof{bipoles/adc/width}} {\ctikzvalof{bipoles/adc/width}} { \pgfcirc@twoport@draw@splitline % \pgf@circ@text@strokecolor \ifnum\@@rotation<145 \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{A} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{D} \else \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{D} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{A} \fi } %% DAC \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/dac/width}} {dac} {\ctikzvalof{bipoles/dac/width}} {\ctikzvalof{bipoles/dac/width}} { \pgfcirc@twoport@draw@splitline % \pgf@circ@text@strokecolor \ifnum\@@rotation<145 \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{D} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{A} \else \pgftext[center,x=0.45\pgf@circ@res@left,y=0.45\pgf@circ@res@up]{A} \pgftext[center,x=0.45\pgf@circ@res@right,y=0.45\pgf@circ@res@down]{D} \fi } %% DSP \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/dsp/width}} {dsp} {\ctikzvalof{bipoles/dsp/width}} {\ctikzvalof{bipoles/dsp/width}} { \pgf@circ@text@strokecolor \pgftext[center,x=0,y=0]{\textsf{DSP}} } %% FFT \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/fft/width}} {fft} {\ctikzvalof{bipoles/fft/width}} {\ctikzvalof{bipoles/fft/width}} { \pgf@circ@text@strokecolor \pgftext[center,x=0,y=0]{\textsf{FFT}} } %% pi attenuator \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/piattenuator/width}} {piattenuator} {\ctikzvalof{bipoles/piattenuator/width}} {\ctikzvalof{bipoles/piattenuator/width}} { % draw inner symbol \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{0.4\pgf@circ@res@left}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.4\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.4\pgf@circ@res@right}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.4\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.6\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.6\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfusepath{draw} } %% variable pi attenuator \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/vpiattenuator/width}} {vpiattenuator} {\ctikzvalof{bipoles/vpiattenuator/width}} {\ctikzvalof{bipoles/vpiattenuator/width}} { % draw inner symbol \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{0.4\pgf@circ@res@left}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.4\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.4\pgf@circ@res@right}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.4\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.6\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.6\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfusepath{draw} \pgfcirc@set@arrows{tunable}{}{latex} \pgfpathmoveto{\pgfpoint{0.7\pgf@circ@res@left}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.7\pgf@circ@res@right}{0.8\pgf@circ@res@up}} \pgfusepath{draw} } %% T attenuator \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/tattenuator/width}} {tattenuator} {\ctikzvalof{bipoles/tattenuator/width}} {\ctikzvalof{bipoles/tattenuator/width}} { % draw inner symbol \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{0pt}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0pt}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.6\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.6\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfusepath{draw} } %% variable T attenuator \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/vtattenuator/width}} {vtattenuator} {\ctikzvalof{bipoles/vtattenuator/width}} {\ctikzvalof{bipoles/vtattenuator/width}} { % draw inner symbol \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{0pt}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0pt}{0.4\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.6\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.6\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfusepath{draw} \pgfcirc@set@arrows{tunable}{}{latex} \pgfpathmoveto{\pgfpoint{0.7\pgf@circ@res@left}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.7\pgf@circ@res@right}{0.8\pgf@circ@res@up}} \pgfusepath{draw} } %% phase shifter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/phaseshifter/width}} {phaseshifter} {\ctikzvalof{bipoles/phaseshifter/width}} {\ctikzvalof{bipoles/phaseshifter/width}} { % inner symbol \pgf@circ@text@strokecolor \pgftext[center,x=0,y=0]{\Large$\varphi$} } %% variable phase shifter \pgfcirc@define@twoports{blocks} {} {\ctikzvalof{bipoles/phaseshifter/width}} {vphaseshifter} {\ctikzvalof{bipoles/vphaseshifter/width}} {\ctikzvalof{bipoles/vphaseshifter/width}} { \pgfsetlinewidth{\pgfstartlinewidth} \pgfcirc@set@arrows{tunable}{}{latex} \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@left}{0.65\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.7\pgf@circ@res@right}{0.65\pgf@circ@res@up}} \pgfusepath{draw} % inner symbol \pgf@circ@text@strokecolor \pgftext[center,x=0,y=0]{\Large$\varphi$} } %% detector \pgfcirc@define@twoports@norotate{blocks} {} {\ctikzvalof{bipoles/detector/width}} {detector} {\ctikzvalof{bipoles/detector/width}} {\ctikzvalof{bipoles/detector/width}} { % draw inner stuff \pgfsetlinewidth{0.8\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@left}{0}} \pgfpathlineto{\pgfpoint{0.75\pgf@circ@res@right}{0}} \pgfusepath{draw} \ifpgf@circuit@fulldiode \pgfmathparse{2\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/generic/width}} \pgftransformscale{\pgfmathresult} \pgfnode{fulldiodeshape}{center}{}{pgf@fulldiode}{\pgfusepath{fill}} \else \pgfmathparse{2\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/resistor/width}} \pgftransformscale{\pgfmathresult} \pgfnode{emptydiodeshape}{center}{}{pgf@emptydiode}{\pgfusepath{fill}} \fi } %% converters help function %% definition for styling the DC symbols (GitHub issue #680) \ctikzset{blocks dc in segments/.initial=1} \ctikzset{blocks dc out segments/.initial=1} \ctikzset{blocks dc segments/.code={% \ctikzset{blocks dc in segments=#1}% \ctikzset{blocks dc out segments=#1}% } } \def\pgf@circ@twoport@converter@dc#1#2{% \pgfscope \pgftransformshift{\pgfpoint{#1\pgf@circ@res@step}{#2\pgf@circ@res@step}} \pgfpathmoveto{\pgfpoint{-0.25\pgf@circ@res@step}{0.125\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{0.25\pgf@circ@res@step}{0.125\pgf@circ@res@step}} \pgfusepath{draw} \ifpgf@circuit@full@dashed\else % do not apply the specific dash if fully dashing \edef\@@up{\ctikzvalof{blocks dc in segments}} \edef\@@down{\ctikzvalof{blocks dc out segments}} \ifdim\dimexpr#1\pgf@circ@res@step\relax<0pt \pgfmathsetlength{\pgf@circ@res@other}{\pgf@circ@res@step/(4*\@@up-2)} \else \pgfmathsetlength{\pgf@circ@res@other}{\pgf@circ@res@step/(4*\@@down-2)} \fi \pgfsetdash{{\pgf@circ@res@other}{\pgf@circ@res@other}}{0pt} \fi \pgfpathmoveto{\pgfpoint{-0.25\pgf@circ@res@step}{-0.125\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{0.25\pgf@circ@res@step}{-0.125\pgf@circ@res@step}} \pgfusepath{draw} \endpgfscope } \def\pgf@circ@twoport@converter@dc@up{% \pgf@circ@twoport@converter@dc{-0.5}{0.5} } \def\pgf@circ@twoport@converter@dc@down{% \pgf@circ@twoport@converter@dc{0.5}{-0.5} } \def\pgf@circ@twoport@converter@ac#1#2{% \pgfscope \pgftransformshift{\pgfpoint{#1\pgf@circ@res@step}{#2\pgf@circ@res@step}} \pgfpathmoveto{\pgfpoint{-.31\pgf@circ@res@step}{0\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.17\pgf@circ@res@step}{.17\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.17\pgf@circ@res@step}{-.17\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.17\pgf@circ@res@step}{-.17\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.17\pgf@circ@res@step}{.17\pgf@circ@res@step}} \pgfusepath{draw} \endpgfscope } \def\pgf@circ@twoport@converter@ac@up{% \pgf@circ@twoport@converter@ac{-0.45}{0.5} } \def\pgf@circ@twoport@converter@ac@down{% \pgf@circ@twoport@converter@ac{0.45}{-0.5} } \def\pgf@circ@twoport@converter@tac@up{% \pgf@circ@twoport@converter@ac{-0.45}{0.65} \pgf@circ@twoport@converter@ac{-0.45}{0.5} \pgf@circ@twoport@converter@ac{-0.45}{0.35} } \def\pgf@circ@twoport@converter@tac@down{% \pgf@circ@twoport@converter@ac{0.45}{-0.65} \pgf@circ@twoport@converter@ac{0.45}{-0.5} \pgf@circ@twoport@converter@ac{0.45}{-0.35} } %% single phase ac/dc converter \pgfcirc@define@twoports{blocks} { % these two are left for backward compatibiliyt \anchor{dc1}{\northeast\pgf@y=.4\pgf@y} \anchor{dc2}{\northeast\pgf@y=-.4\pgf@y} % better \anchor{ac up in}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac down in}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc up out}{\northeast\pgf@y=.4\pgf@y} \anchor{dc down out}{\northeast\pgf@y=-.4\pgf@y} } {\ctikzvalof{bipoles/sacdc/width}} {sacdc} {\ctikzvalof{bipoles/sacdc/width}} {\ctikzvalof{bipoles/sacdc/width}} { \pgfcirc@twoport@draw@splitline \ifnum\@@rotation<145 % swap dc/ac for "backward" and "up" symbol \pgf@circ@twoport@converter@ac@up \pgf@circ@twoport@converter@dc@down \else \pgf@circ@twoport@converter@dc@up \pgf@circ@twoport@converter@ac@down \fi } %% dc/dc converter \pgfcirc@define@twoports{blocks} { % these two are left for backward compatibiliyt \anchor{dc1}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc2}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} % better \anchor{dc up in}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc down in}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc up out}{\northeast\pgf@y=.4\pgf@y} \anchor{dc down out}{\northeast\pgf@y=-.4\pgf@y} } {\ctikzvalof{bipoles/sdcdc/width}} {sdcdc} {\ctikzvalof{bipoles/sdcdc/width}} {\ctikzvalof{bipoles/sdcdc/width}} { \pgfcirc@twoport@draw@splitline % No need to switch here \pgf@circ@twoport@converter@dc@up \pgf@circ@twoport@converter@dc@down } %% single phase dc/ac converter \pgfcirc@define@twoports{blocks} { % these two are left for backward compatibiliyt \anchor{dc1}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc2}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} % better \anchor{dc up in}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc down in}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac up out}{\northeast\pgf@y=.4\pgf@y} \anchor{ac down out}{\northeast\pgf@y=-.4\pgf@y} } {\ctikzvalof{bipoles/sdcac/width}} {sdcac} {\ctikzvalof{bipoles/sdcac/width}} {\ctikzvalof{bipoles/sdcac/width}} { \pgfcirc@twoport@draw@splitline \ifnum\@@rotation<145 % swap dc/ac for "backward" and "up" symbol \pgf@circ@twoport@converter@dc@up \pgf@circ@twoport@converter@ac@down \else \pgf@circ@twoport@converter@ac@up \pgf@circ@twoport@converter@dc@down \fi } %% single phase ac/ac converter \pgfcirc@define@twoports{blocks} { \anchor{ac up in}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac down in}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac up out}{\northeast\pgf@y=.4\pgf@y} \anchor{ac down out}{\northeast\pgf@y=-.4\pgf@y} } {\ctikzvalof{bipoles/sdcac/width}} {sacac} {\ctikzvalof{bipoles/sdcac/width}} {\ctikzvalof{bipoles/sdcac/width}} { \pgfcirc@twoport@draw@splitline \pgf@circ@twoport@converter@ac@up \pgf@circ@twoport@converter@ac@down } %% threephase ac/dc converter \pgfcirc@define@twoports{blocks} { % legacy, let for compatibility \anchor{dc1}{\northeast\pgf@y=.4\pgf@y} \anchor{dc2}{\northeast\pgf@y=-.4\pgf@y} \anchor{ac1}{\northeast\pgf@y=.6\pgf@y\pgf@x=-\pgf@x} \anchor{ac2}{\northeast\pgf@y=0\pgf@y\pgf@x=-\pgf@x} \anchor{ac3}{\northeast\pgf@y=-.6\pgf@y\pgf@x=-\pgf@x} %better \anchor{dc up out}{\northeast\pgf@y=.4\pgf@y} \anchor{dc down out}{\northeast\pgf@y=-.4\pgf@y} \anchor{ac up in}{\northeast\pgf@y=.6\pgf@y\pgf@x=-\pgf@x} \anchor{ac mid in}{\northeast\pgf@y=0\pgf@y\pgf@x=-\pgf@x} \anchor{ac down in}{\northeast\pgf@y=-.6\pgf@y\pgf@x=-\pgf@x} } {\ctikzvalof{bipoles/tacdc/width}} {tacdc} {\ctikzvalof{bipoles/tacdc/width}} {\ctikzvalof{bipoles/tacdc/width}} { \pgfcirc@twoport@draw@splitline \ifnum\@@rotation<145 % swap dc/ac for "backward" and "up" symbol \pgf@circ@twoport@converter@tac@up \pgf@circ@twoport@converter@dc@down \else \pgf@circ@twoport@converter@dc@up \pgf@circ@twoport@converter@tac@down \fi } %% threephase dc/ac converter \pgfcirc@define@twoports{blocks} { % legacy, let for compatibility \anchor{dc1}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc2}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac1}{\northeast\pgf@y=.6\pgf@y} \anchor{ac2}{\northeast\pgf@y=0\pgf@y} \anchor{ac3}{\northeast\pgf@y=-.6\pgf@y} %better \anchor{dc up in}{\northeast\pgf@y=.4\pgf@y\pgf@x=-\pgf@x} \anchor{dc down in}{\northeast\pgf@y=-.4\pgf@y\pgf@x=-\pgf@x} \anchor{ac up out}{\northeast\pgf@y=.6\pgf@y} \anchor{ac mid out}{\northeast\pgf@y=0\pgf@y} \anchor{ac down out}{\northeast\pgf@y=-.6\pgf@y} } {\ctikzvalof{bipoles/tdcac/width}} {tdcac} {\ctikzvalof{bipoles/tdcac/width}} {\ctikzvalof{bipoles/tdcac/width}} { \pgfcirc@twoport@draw@splitline \ifnum\@@rotation<145 % swap dc/ac for "backward" and "up" symbol \pgf@circ@twoport@converter@dc@up \pgf@circ@twoport@converter@tac@down \else \pgf@circ@twoport@converter@tac@up \pgf@circ@twoport@converter@dc@down \fi } %% threephase ac/ac converter \pgfcirc@define@twoports{blocks} { \anchor{ac up in}{\northeast\pgf@y=.6\pgf@y\pgf@x=-\pgf@x} \anchor{ac mid in}{\northeast\pgf@y=0\pgf@y\pgf@x=-\pgf@x} \anchor{ac down in}{\northeast\pgf@y=-.6\pgf@y\pgf@x=-\pgf@x} \anchor{ac up out}{\northeast\pgf@y=.6\pgf@y} \anchor{ac mid out}{\northeast\pgf@y=0\pgf@y} \anchor{ac down out}{\northeast\pgf@y=-.6\pgf@y} } {\ctikzvalof{bipoles/tdcac/width}} {tacac} {\ctikzvalof{bipoles/tdcac/width}} {\ctikzvalof{bipoles/tdcac/width}} { \pgfcirc@twoport@draw@splitline \pgf@circ@twoport@converter@tac@down \pgf@circ@twoport@converter@tac@up } %%%% Non-square blocks. We do not use the standard macros %%%% this one is adapted to do the boxed thing % \long\def\pgfcirc@define@twoports@boxed#1#2#3#4#5#6#7{ \pgfcircdeclarebipolescaled{#1} { \savedmacro{\componentisboxed}{\edef\componentisboxed{\ifpgf@circuit@boxed 1\else 0\fi}} \pgcirc@twoport@additional@anchors #2 } {#3} {#4} {#5} {#6} { \pgf@circ@res@step=#6\pgf@circ@scaled@Rlen %6 is the real width parameter \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} \pgfcirc@twoport@maybedash % draw outer box \ifpgf@circuit@boxed \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth} \pgfnode{blockbox}{center}{}{pgf@box}{\pgfusepath{draw}} \pgf@circ@draworfill \fi \pgf@circ@inputarrow \ifpgf@circuit@boxed \pgfsetlinewidth{\pgfstartlinewidth} % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgf@circ@res@step=.7\pgf@circ@res@step % scale amp symbol when inside a box \else \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth} \fi #7 } } %% voltage controled oscillator \pgfcirc@define@twoports@boxed{blocks} {} {\ctikzvalof{bipoles/vco/width}} {vco} {\ctikzvalof{bipoles/twoport/width}} {\ctikzvalof{bipoles/vco/width}} { % ok, this is a bit of incoherence \divide \pgf@circ@res@step by 2 % draw circle \pgfscope \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth} \pgfpathcircle{\pgfpoint{0}{0}} {\pgf@circ@res@step} \pgf@circ@draworfill \endpgfscope \pfgcirc@twoport@rotate@inner@symbol \pgfcirc@twoport@draw@sine{0}{0} } %% amplifier and vamplifier %% Amplifier %% Beware, not using the generic twoport(s) macros. \pgfcirc@define@twoports@boxed{blocks} { \anchor{up}{% \northeast\pgf@x=0pt\relax \ifnum\componentisboxed=0 \pgf@y=0.55\pgf@y \fi } \anchor{down}{% \northeast\pgf@x=0pt\pgf@y=-\pgf@y\relax \ifnum\componentisboxed=0 \pgf@y=0.55\pgf@y \fi } } {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} {amp} {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} { % draw triangle \pgfpathmoveto{\pgfpoint{-0.5\pgf@circ@res@step}{0.55\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@step}{0}} \pgfpathlineto{\pgfpoint{-0.5\pgf@circ@res@step}{-0.55\pgf@circ@res@step}} \pgfpathclose \pgf@circ@draworfill \pfgcirc@twoport@get@symbol@rotation % draw inner text \pgf@circ@text@strokecolor \ifnum\@@rotation=180 \pgftransformrotate{180} \pgftext[center,x=0.12\pgf@circ@res@step,y=0]{\ctikzvalof{bipoles/twoport/text}} \else \pgftext[center,x=-0.12\pgf@circ@res@step,y=0]{\ctikzvalof{bipoles/twoport/text}} \fi } %% variable amplifier %% Beware, not using the generic twoport(s) macros. % \pgfcircdeclarebipolescaled{blocks} \pgfcirc@define@twoports@boxed{blocks} { \anchor{up}{% \northeast\pgf@x=0pt\relax \ifnum\componentisboxed=0 \pgf@y=0.55\pgf@y \fi } \anchor{down}{% \northeast\pgf@x=0pt\pgf@y=-\pgf@y\relax \ifnum\componentisboxed=0 \pgf@y=0.55\pgf@y \fi } } {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} {vamp} {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} {\ifpgf@circuit@boxed\ctikzvalof{bipoles/twoport/width}\else\ctikzvalof{bipoles/amp/width}\fi} { % draw triangle \pgfpathmoveto{\pgfpoint{-0.5\pgf@circ@res@step}{0.55\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@step}{0}} \pgfpathlineto{\pgfpoint{-0.5\pgf@circ@res@step}{-0.55\pgf@circ@res@step}} \pgfpathclose \pgf@circ@draworfill \pfgcirc@twoport@get@symbol@rotation % draw arrow \pgfsetlinewidth{\pgfstartlinewidth} \pgfcirc@set@arrows{tunable}{}{latex} \pgfpathmoveto{\pgfpoint{-0.8\pgf@circ@res@step}{-0.5\pgf@circ@res@step}} \pgfpathlineto{\pgfpoint{0.6\pgf@circ@res@step}{0.6\pgf@circ@res@step}} \pgfusepath{draw} % draw inner text \pgf@circ@text@strokecolor \ifnum\@@rotation=180 \pgftransformrotate{180} \pgftext[center,x=0.12\pgf@circ@res@step,y=0]{\ctikzvalof{bipoles/twoport/text}} \else \pgftext[center,x=-0.12\pgf@circ@res@step,y=0]{\ctikzvalof{bipoles/twoport/text}} \fi } % %>>> %% Path definitions for Blocks%<<< \pgfcirc@activate@bipole@simple{l}{twoport} \pgfcirc@activate@bipole@simple{l}{twoportsplit} \pgfcirc@activate@bipole@simple{l}{vco} \pgfcirc@activate@bipole@simple{l}{bandpass} \pgfcirc@activate@bipole@simple{l}{bandstop} \pgfcirc@activate@bipole@simple{l}{highpass} \pgfcirc@activate@bipole@simple{l}{highpass2} \pgfcirc@activate@bipole@simple{l}{lowpass} \pgfcirc@activate@bipole@simple{l}{lowpass2} \pgfcirc@activate@bipole@simple{l}{allpass} \pgfcirc@activate@bipole@simple{l}{adc} \pgfcirc@activate@bipole@simple{l}{dac} \pgfcirc@activate@bipole@simple{l}{dsp} \pgfcirc@activate@bipole@simple{l}{fft} \pgfcirc@activate@bipole@simple{l}{amp} \pgfcirc@activate@bipole@simple{l}{vamp} \pgfcirc@activate@bipole@simple{l}{piattenuator} \pgfcirc@activate@bipole@simple{l}{vpiattenuator} \pgfcirc@activate@bipole@simple{l}{tattenuator} \pgfcirc@activate@bipole@simple{l}{vtattenuator} \pgfcirc@activate@bipole@simple{l}{phaseshifter} \pgfcirc@activate@bipole@simple{l}{vphaseshifter} \pgfcirc@activate@bipole@simple{l}{detector} \pgfcirc@activate@bipole@simple{l}{sacdc} \pgfcirc@activate@bipole@simple{l}{sdcac} \pgfcirc@activate@bipole@simple{l}{sdcdc} \pgfcirc@activate@bipole@simple{l}{sacac} \pgfcirc@activate@bipole@simple{l}{tacdc} \pgfcirc@activate@bipole@simple{l}{tdcac} \pgfcirc@activate@bipole@simple{l}{tacac} % %>>> %% Node shapes for Block elements %<<< % % utility macro for the anchors \def\pgf@circ@circular@rf@anchors#1{% \savedanchor\northwest{ \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \ifpgf@circuit@boxed \pgf@y=\ctikzvalof{bipoles/twoport/width}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=-\ctikzvalof{bipoles/twoport/width}\pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \else \pgf@y=\ctikzvalof{tripoles/#1/width}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=-\ctikzvalof{tripoles/#1/width}\pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \fi } % border anchors \anchorborder{ \pgf@circ@res@left=\pgf@x \pgf@circ@res@up=\pgf@y \ifnum\componentisboxed=0 \pgfpointborderellipse{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up} }{\pgfpoint{\ctikzvalof{tripoles/#1/width}*\scaledRlen/2}{\ctikzvalof{tripoles/#1/width}*\scaledRlen/2}} \else \pgfpointborderrectangle{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up} }{\pgfpoint{\ctikzvalof{tripoles/#1/width}*\scaledRlen/2}{\ctikzvalof{tripoles/#1/width}*\scaledRlen/2}} \fi } \pgfcirc@northwest@symmetric@geoanchors \anchor{geocenter}{\pgfpointorigin} \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} % Deprecated number anchors \anchor{1}{\northwest\pgf@y=0pt} \anchor{2}{\northwest\pgf@y=-\pgf@y\pgf@x=0pt} \anchor{3}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{4}{\northwest\pgf@y=\pgf@y\pgf@x=0pt} % input output anchors (also quite bad) \anchor{in 1}{\northwest\pgf@y=0pt} \anchor{in1}{\northwest\pgf@y=0pt} \anchor{in}{\northwest\pgf@y=0pt} \anchor{in 2}{\northwest\pgf@y=-\pgf@y\pgf@x=0pt} \anchor{in2}{\northwest\pgf@y=-\pgf@y\pgf@x=0pt} \anchor{out}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{\northwest \advance\pgf@y\dimexpr-.5\dp\pgfnodeparttextbox+.5\ht\pgfnodeparttextbox\relax \pgf@x=-.5\wd\pgfnodeparttextbox\relax} } % draw the body rectangle and circle if and when needed \def\pgf@circ@circular@rf@box@circle{% \pgfstartlinewidth=\pgflinewidth % draw outer box \ifpgf@circuit@boxed \pgfnode{blockbox}{center}{}{pgf@box}{\pgfusepath{draw}} \fi % draw outer circle \ifpgf@circuit@boxed \pgf@circ@res@step=.7\pgf@circ@res@step % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \else \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth} \fi \ifpgf@circuit@boxedcircled \pgfpathcircle{\pgfpoint{0}{0}} {0.5\pgf@circ@res@step} \fi \pgf@circ@draworfill } % \pgfdeclareshape{mixer} { \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedmacro{\componentisboxed}{\edef\componentisboxed{\ifpgf@circuit@boxed 1\else 0\fi}} % build the anchor set \anchor{center}{\pgfpointorigin} \pgf@circ@circular@rf@anchors{mixer} \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \pgf@circ@res@step=\ctikzvalof{tripoles/mixer/width}\pgf@circ@scaled@Rlen \pgfscope \pgf@circ@circular@rf@box@circle % draw inner stuff % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpointorigin} \pgfpathmoveto{\pgfpointpolar{135}{0.5\pgf@circ@res@step}} \pgfpathlineto{\pgfpointpolar{-45}{0.5\pgf@circ@res@step}} \pgfpathmoveto{\pgfpointorigin} \pgfpathmoveto{\pgfpointpolar{45}{0.5\pgf@circ@res@step}} \pgfpathlineto{\pgfpointpolar{-135}{0.5\pgf@circ@res@step}} \pgfusepath{draw} \endpgfscope } } \pgfdeclareshape{adder} { \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedmacro{\componentisboxed}{\edef\componentisboxed{\ifpgf@circuit@boxed 1\else 0\fi}} % build the anchor set \anchor{center}{\pgfpointorigin} \pgf@circ@circular@rf@anchors{adder} \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \pgf@circ@res@step=\ctikzvalof{tripoles/adder/width}\pgf@circ@scaled@Rlen \pgfscope \pgf@circ@circular@rf@box@circle % draw inner stuff % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpointorigin} \pgfpathmoveto{\pgfpointpolar{0}{0.3\pgf@circ@res@step}} \pgfpathlineto{\pgfpointpolar{180}{0.3\pgf@circ@res@step}} \pgfpathmoveto{\pgfpointorigin} \pgfpathmoveto{\pgfpointpolar{90}{0.3\pgf@circ@res@step}} \pgfpathlineto{\pgfpointpolar{270}{0.3\pgf@circ@res@step}} \pgf@circ@setlinewidth{tripoles}{\pgflinewidth} \pgfusepath{draw} \endpgfscope } } \pgfdeclareshape{oscillator} { \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedmacro{\componentisboxed}{\edef\componentisboxed{\ifpgf@circuit@boxed 1\else 0\fi}} % build the anchor set --- the center of an oscillator is on the right \anchor{center}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \pgf@circ@circular@rf@anchors{oscillator} % border anchors \anchor{text}{ \pgf@x=-2\pgf@x \advance \pgf@x by -.5\wd\pgfnodeparttextbox \advance \pgf@y by -1.5\ht\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \pgf@circ@res@step=\ctikzvalof{tripoles/oscillator/width}\pgf@circ@scaled@Rlen{} \pgfscope \pgf@circ@circular@rf@box@circle % draw inner sine waves % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgfsetlinewidth{\pgfstartlinewidth} \pgfsetcornersarced{\pgfpointorigin}% do not use rounded corners! \pgfpathmoveto{\pgfpoint{-0.3\pgf@circ@res@step}{0\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.15\pgf@circ@res@step}{.15\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.15\pgf@circ@res@step}{-.15\pgf@circ@res@step}} \pgfpathsine{\pgfpoint{.15\pgf@circ@res@step}{-.15\pgf@circ@res@step}} \pgfpathcosine{\pgfpoint{.15\pgf@circ@res@step}{.15\pgf@circ@res@step}} \pgfusepath{draw} \endpgfscope } } \pgfdeclareshape{circulator} { \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedmacro{\componentisboxed}{\edef\componentisboxed{\ifpgf@circuit@boxed 1\else 0\fi}} % build the anchor set \anchor{center}{\pgfpointorigin} \pgf@circ@circular@rf@anchors{circulator} \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \pgf@circ@res@step=\ctikzvalof{tripoles/circulator/width}\pgf@circ@scaled@Rlen \pgfscope \pgf@circ@circular@rf@box@circle % inner arrow % draw solid line for inner symbol if no box is drawn and not fully dashed \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgfsetlinewidth{\pgfstartlinewidth} \pgfsetarrowsend{latex} \pgfpathmoveto{\pgfpoint{-0.25\pgf@circ@res@step}{0}} \pgfpatharc{180}{-90} {0.25\pgf@circ@res@step} \pgfpathlineto{\pgfpoint{-5pt}{-0.2\pgf@circ@res@step}} \pgfusepath{draw} \endpgfscope } } %% gridnode \pgfdeclareshape{gridnode} { \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{ \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{quadpoles/gridnode/width}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=-\ctikzvalof{quadpoles/gridnode/width}\pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{center}{\pgfpointorigin} \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} \anchor{right}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left}{\northwest\pgf@y=0pt} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{ \pgf@x=-2\pgf@x \advance \pgf@x by -.5\wd\pgfnodeparttextbox \advance \pgf@y by -1.5\ht\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \pgf@circ@res@step=\ctikzvalof{quadpoles/gridnode/width}\pgf@circ@scaled@Rlen \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x \pgf@circ@res@step = \ctikzvalof{quadpoles/gridnode/width}\pgf@circ@scaled@Rlen \divide \pgf@circ@res@step by 2 \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@zero}} \pgf@circ@res@other = \pgf@circ@res@left \advance\pgf@circ@res@other by \pgf@circ@res@step \pgfcirc@twoport@maybedash % draw outer box \pgf@circ@twoportbox \pgf@circ@inputarrow \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} %never draw arrows \pgfsetlinewidth{0.05mm} % draw grid \foreach \line in {-1,-.5,...,1} { \pgfpathmoveto{\pgfpoint{\line\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\line\pgf@circ@res@up}} % \pgfpathmoveto{\pgfpoint{\line\pgf@circ@res@right}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@left}{\line\pgf@circ@res@down}} } %prevent from draw the inner cross twice \foreach \line in {-.5,0,...,.5} { \pgfpathmoveto{\pgfpoint{\line\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@left}{\line\pgf@circ@res@up}} % \pgfpathmoveto{\pgfpoint{\line\pgf@circ@res@right}{\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{\line\pgf@circ@res@down}} } \pgfusepath{draw} } } % Wilkinson divider \pgfdeclareshape{wilkinson}{ \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{tripoles/wilkinson/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x= \pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \pgf@x=-\ctikzvalof{tripoles/wilkinson/width}\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} \anchor{right}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left}{\northwest\pgf@y=0pt} \anchor{center}{\pgfpointorigin} \anchor{in}{\northwest\pgf@y=0pt} \anchor{out1}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{out2}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{ \northwest \advance \pgf@y by 0.5\ht\pgfnodeparttextbox \pgf@x=-.5\wd\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen % \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x % \pgfstartlinewidth=\pgflinewidth % draw outer box \pgf@circ@twoportbox \pgf@circ@inputarrow % draw inner stuff \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} %never draw arrows \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0pt}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} \pgfsetdash{}{0pt} % always draw solid line for inner symbol % draw inner resisitor - european or american style is recognised { \pgftransformshift{\pgfpoint{0.5\pgf@circ@res@right}{0pt}} \pgftransformrotate{90} % calculate size of resistor \ifpgf@circuit@europeanresistor \pgfmathparse{\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/generic/width} / 2} \pgftransformscale{\pgfmathresult} \pgfnode{genericshape}{center}{}{wilk@int@R}{\pgfusepath{fill}} \else \pgfmathparse{\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/resistor/width} / 2} \pgftransformscale{\pgfmathresult} \pgfnode{resistorshape}{center}{}{wilk@int@R}{\pgfusepath{fill}} \fi } \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpointanchor{wilk@int@R}{right}} \pgfpathmoveto{\pgfpointanchor{wilk@int@R}{left}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} } } %% resistive splitter \pgfdeclareshape{splitter}{ \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{tripoles/splitter/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x= \pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \pgf@x=-\ctikzvalof{tripoles/splitter/width}\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{center}{\pgfpointorigin} \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} \anchor{right}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left}{\northwest\pgf@y=0pt} \anchor{in}{\northwest\pgf@y=0pt} \anchor{out1}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{out2}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{ \northwest \advance \pgf@y by 0.5\ht\pgfnodeparttextbox \pgf@x=-.5\wd\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen % \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x % \pgfstartlinewidth=\pgflinewidth % draw outer box \pgf@circ@twoportbox \pgf@circ@inputarrow % draw inner stuff \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} %never draw arrows \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0pt}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} % \pgfsetdash{}{0pt} % always draw solid line for inner symbol % draw inner resisitors - european or american style is recognised \foreach \respt/\resang/\linepta/\lineptb in % { \pgfpoint{0.5\pgf@circ@res@right}{0pt}/90/% \pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}/\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down},% \pgfpoint{0}{0.25\pgf@circ@res@up}/25/% \pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}/\pgfpoint{0.5\pgf@circ@res@left}{0},% \pgfpoint{0}{0.25\pgf@circ@res@down}/-25/% \pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}/\pgfpoint{0.5\pgf@circ@res@left}{0}} { { \pgftransformshift{\respt} \pgftransformrotate{\resang} % calculate size of resistor \ifpgf@circuit@europeanresistor \pgfmathparse{\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/generic/width} / 2} \pgftransformscale{\pgfmathresult} \pgfnode{genericshape}{center}{}{wilk@int@R}{\pgfusepath{fill}} \else \pgfmathparse{\pgf@circ@res@up / \pgf@circ@scaled@Rlen / \ctikzvalof{bipoles/resistor/width} / 2} \pgftransformscale{\pgfmathresult} \pgfnode{resistorshape}{center}{}{wilk@int@R}{\pgfusepath{fill}} \fi } \pgfpathmoveto{\linepta} \pgfpathlineto{\pgfpointanchor{wilk@int@R}{right}} \pgfpathmoveto{\pgfpointanchor{wilk@int@R}{left}} \pgfpathlineto{\lineptb} \pgfusepath{draw} } } } %% generic splitter \pgfdeclareshape{genericsplitter}{ \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{tripoles/genericsplitter/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x= \pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \pgf@x=-\ctikzvalof{tripoles/genericsplitter/width}\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{center}{\pgfpointorigin} \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} \anchor{right}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left}{\northwest\pgf@y=0pt} \anchor{in}{\northwest\pgf@y=0pt} \anchor{out1}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{out2}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{ \northwest \pgf@y=-.5\ht\pgfnodeparttextbox \pgf@x=-.2\wd\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen % \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x % \pgfstartlinewidth=\pgflinewidth % draw outer box \pgf@circ@twoportbox \pgf@circ@inputarrow % draw inner stuff \pgfsetdash{}{0pt} % always draw solid line for inner symbol \pgfsetarrows{-} %never draw arrows \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0pt}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@left}{0pt}} \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} % \pgfsetdash{}{0pt} % always draw solid line for inner symbol % draw inner resisitors - european or american style is recognised \foreach \linepta/\lineptb in % { \pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@up}/\pgfpoint{0.5\pgf@circ@res@left}{0},% \pgfpoint{0.5\pgf@circ@res@right}{0.5\pgf@circ@res@down}/\pgfpoint{0.5\pgf@circ@res@left}{0}} { \pgfpathmoveto{\linepta} \pgfpathlineto{\lineptb} \pgfusepath{draw} } } } %% couplers generics \long\def\pgfcircdeclarefourport#1#2{ \pgfdeclareshape{#1}{ \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{quadpoles/#1/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x=.5\pgf@circ@scaled@Rlen \pgf@x=-\ctikzvalof{quadpoles/#1/width}\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{center}{\pgfpointorigin} \anchor{up}{\northwest\pgf@x=0pt} \anchor{down}{\northwest\pgf@x=0pt\pgf@y=-\pgf@y} \anchor{right}{\northwest\pgf@y=0pt\pgf@x=-\pgf@x} \anchor{left}{\northwest\pgf@y=0pt} \anchor{port1}{\northwest\pgf@y=-0.5\pgf@y} \anchor{port2}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{port3}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{port4}{\northwest\pgf@y=0.5\pgf@y} \anchor{left down}{\northwest\pgf@y=-0.5\pgf@y} \anchor{right down}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{right up}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{left up}{\northwest\pgf@y=0.5\pgf@y} %1,2,3,4 are deprecated \anchor{1}{\northwest\pgf@y=-0.5\pgf@y} \anchor{2}{\northwest\pgf@x=-\pgf@x\pgf@y=-0.5\pgf@y} \anchor{3}{\northwest\pgf@x=-\pgf@x\pgf@y=0.5\pgf@y} \anchor{4}{\northwest\pgf@y=0.5\pgf@y} \anchor{text}{ \northwest \advance \pgf@y by 0.5\ht\pgfnodeparttextbox \pgf@x=-.5\wd\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x \pgf@circ@scaled@Rlen=\scaledRlen % \pgfstartlinewidth=\pgflinewidth % draw outer box \pgf@circ@setlinewidth{bipoles}{\pgfstartlinewidth} \pgfpathrectanglecorners{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@up}}{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@down}} \pgf@circ@draworfill % draw inner stuff #2% % draw inner text \pgf@circ@text@strokecolor \pgftext[center,x=-0.15\pgf@circ@res@step,y=0]{\ctikzvalof{bipoles/twoport/text}} } } } % four-port \pgfcircdeclarefourport{fourport}{} % straight coupler \pgfcircdeclarefourport{coupler}{ \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} \pgfpathmoveto{\pgfpoint{0.7\pgf@circ@res@left}{0.4\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.7\pgf@circ@res@right}{0.4\pgf@circ@res@up}} \pgfsetarrows{latex-latex} \pgfusepath{draw} \pgfpathmoveto{\pgfpoint{0.7\pgf@circ@res@left}{0.4\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.7\pgf@circ@res@right}{0.4\pgf@circ@res@down}} \pgfsetarrows{latex-latex} \pgfusepath{draw} } % "bended" coupler \pgfcircdeclarefourport{coupler2}{ \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0.5\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@up}} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{0.5\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@right}{0.5\pgf@circ@res@down}} \pgfusepath{draw} \pgfscope \pgfpathmoveto{\pgfpoint{0.1\pgf@circ@res@left}{0pt}} \pgfpatharc{0}{90} {0.4\pgf@circ@res@up} \pgfsetarrowsend{latex} \pgfusepath{draw} \endpgfscope \pgfscope \pgfpathmoveto{\pgfpoint{0.1\pgf@circ@res@left}{0pt}} \pgfpatharc{0}{-90} {0.4\pgf@circ@res@up} \pgfsetarrowsend{latex} \pgfusepath{draw} \endpgfscope \pgfscope \pgfpathmoveto{\pgfpoint{0.1\pgf@circ@res@right}{0pt}} \pgfpatharc{180}{90} {0.4\pgf@circ@res@up} \pgfsetarrowsend{latex} \pgfusepath{draw} \endpgfscope \pgfscope \pgfpathmoveto{\pgfpoint{0.1\pgf@circ@res@right}{0pt}} \pgfpatharc{-180}{-90} {0.4\pgf@circ@res@up} \pgfsetarrowsend{latex} \pgfusepath{draw} \endpgfscope } % mach zehnder modulator \pgfdeclareshape{mzm}{ \savedmacro{\ctikzclass}{\edef\ctikzclass{blocks}} \saveddimen{\scaledRlen}{\pgfmathsetlength{\pgf@x}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen}} \savedanchor\northwest{% \pgfmathsetlength{\pgf@circ@scaled@Rlen}{\ctikzvalof{\ctikzclass/scale}\pgf@circ@Rlen} \pgf@y=\ctikzvalof{tripoles/mzm/height}\pgf@circ@scaled@Rlen \pgf@y=.5\pgf@y \pgf@x= \pgf@circ@scaled@Rlen \pgf@x=.5\pgf@x \pgf@x=-\ctikzvalof{tripoles/mzm/width}\pgf@x } \pgfcirc@northwest@symmetric@geoanchors \anchor{center}{\pgfpointorigin} \anchor{in}{ \northwest \pgf@y=0pt } \anchor{mod}{ \northwest \pgf@x=0pt } \anchor{out}{ \northwest \pgf@x=-\pgf@x \pgf@y=0pt } \anchor{text}{ \northwest \advance \pgf@y by 0.5\ht\pgfnodeparttextbox \pgf@x=-.5\wd\pgfnodeparttextbox } \pgf@circ@draw@component{ \pgf@circ@setcolor \pgf@circ@scaled@Rlen=\scaledRlen \northwest \pgf@circ@res@up = \pgf@y \pgf@circ@res@down = -\pgf@y \pgf@circ@res@right = -\pgf@x \pgf@circ@res@left = \pgf@x \pgfstartlinewidth=\pgflinewidth % draw outer box \pgf@circ@twoportbox \pgf@circ@inputarrow % draw inner stuff \pfgcirc@twoport@rotate@inner@symbol % draw inner symbol \ifpgf@circuit@full@dashed\else\pgfsetdash{}{0pt}\fi \pgfsetarrows{-} %never draw arrows \pgfsetlinewidth{\pgfstartlinewidth} \pgfpathmoveto{\pgfpoint{\pgf@circ@res@left}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.75\pgf@circ@res@left}{\pgf@circ@res@zero}} % \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@left}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0.25\pgf@circ@res@up}} % \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@left}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0.25\pgf@circ@res@down}} % \pgfpathmoveto{\pgfpoint{\pgf@circ@res@right}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.75\pgf@circ@res@right}{\pgf@circ@res@zero}} % \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@right}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.25\pgf@circ@res@up}} % \pgfpathmoveto{\pgfpoint{0.75\pgf@circ@res@right}{\pgf@circ@res@zero}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@right}{0.25\pgf@circ@res@down}} % \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@right}{0.25\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0.25\pgf@circ@res@up}} % \pgfpathmoveto{\pgfpoint{0.5\pgf@circ@res@right}{0.25\pgf@circ@res@down}} \pgfpathlineto{\pgfpoint{0.5\pgf@circ@res@left}{0.25\pgf@circ@res@down}} % \pgfpathmoveto{\pgfpoint{\pgf@circ@res@zero}{\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{\pgf@circ@res@zero}{0.35\pgf@circ@res@up}} \pgfpathlineto{\pgfpoint{0.25\pgf@circ@res@right}{0.1\pgf@circ@res@up}} \pgfusepath{draw} } } % %>>> % vim: set fdm=marker fmr=%<<<,%>>>: