BMSTU/tikz-uml.sty

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2023-01-27 22:32:16 +03:00
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Start of tikz-uml.sty
%
% Some macros for UML Diagrams.
% Home page of project:
% Author: Nicolas Kielbasiewicz
% Style from:
% Fixed by Nicolas Kielbasiewicz (nicolas.kielbasiewicz@ensta-paristech.fr) in dec 2010 to compile with pgf 2.00
\NeedsTeXFormat{LaTeX2e}[1995/12/01]%
\ProvidesPackage{tikz-uml}[2011/01/26]%
\RequirePackage{ifthen}%
\RequirePackage{tikz}%
\RequirePackage{xstring}%
\RequirePackage{calc}%
\RequirePackage{pgfopts}%
\usetikzlibrary{backgrounds,arrows,shapes,fit,shadows,decorations.markings}%
\def\tikzumlPackageLayersNum{3}%
\pgfkeys{/tikzuml/options/.cd, packageLayers/.initial=3}%
\pgfkeys{/tikzuml/options/.cd, packageLayers/.store in=\tikzumlPackageLayersNum}%
\def\tikzumlStateLayersNum{3}%
\pgfkeys{/tikzuml/options/.cd, stateLayers/.initial=3}%
\pgfkeys{/tikzuml/options/.cd, stateLayers/.store in=\tikzumlStateLayersNum}%
\def\tikzumlFragmentLayersNum{3}%
\pgfkeys{/tikzuml/options/.cd, fragmentLayers/.initial=3}%
\pgfkeys{/tikzuml/options/.cd, fragmentLayers/.store in=\tikzumlFragmentLayersNum}%
\def\tikzumlComponentLayersNum{3}%
\pgfkeys{/tikzuml/options/.cd, componentLayers/.initial=3}%
\pgfkeys{/tikzuml/options/.cd, componentLayers/.store in=\tikzumlComponentLayersNum}%
\ProcessPgfOptions{/tikzuml/options}%
\def\pgfsetlayersArg{background}%
\pgfdeclarelayer{background}%
\newcounter{tikzumlPackageLayers}%
\loop \pgfdeclarelayer{package\thetikzumlPackageLayers}%
\xdef\pgfsetlayersArg{\pgfsetlayersArg,package\thetikzumlPackageLayers}%
\ifnum\tikzumlPackageLayersNum>\thetikzumlPackageLayers%
\stepcounter{tikzumlPackageLayers}%
\repeat%
%
\newcounter{tikzumlFragmentLayers}%
\loop \pgfdeclarelayer{fragment\thetikzumlFragmentLayers}%
\xdef\pgfsetlayersArg{\pgfsetlayersArg,fragment\thetikzumlFragmentLayers}%
\ifnum\tikzumlFragmentLayersNum>\thetikzumlFragmentLayers%
\stepcounter{tikzumlFragmentLayers}%
\repeat%
%
\newcounter{tikzumlStateLayers}%
\loop \pgfdeclarelayer{state\thetikzumlStateLayers}%
\xdef\pgfsetlayersArg{\pgfsetlayersArg,state\thetikzumlStateLayers}%
\ifnum\tikzumlStateLayersNum>\thetikzumlStateLayers%
\stepcounter{tikzumlStateLayers}%
\repeat%
%
\newcounter{tikzumlComponentLayers}%
\loop \pgfdeclarelayer{component\thetikzumlComponentLayers}%
\xdef\pgfsetlayersArg{\pgfsetlayersArg,component\thetikzumlComponentLayers}%
\ifnum\tikzumlComponentLayersNum>\thetikzumlComponentLayers%
\stepcounter{tikzumlComponentLayers}%
\repeat%
%
\pgfdeclarelayer{lifelines}%
\pgfdeclarelayer{activity}%
\pgfdeclarelayer{connections}%
\xdef\pgfsetlayersArg{\pgfsetlayersArg,lifelines,activity,connections,main}%
\pgfsetlayers{\pgfsetlayersArg}%
\pgfkeys{/tikzuml/.cd, text/.initial=black, draw/.initial=black, font/.initial=\small,%
fill class/.initial=yellow!20, fill template/.initial=yellow!2, fill package/.initial=blue!20, fill note/.initial=green!20,%
fill usecase/.initial=blue!20, fill system/.initial=white,%
fill state/.initial=yellow!20,%
fill object/.initial=yellow!20,%
fill call/.initial=white,%
fill fragment/.initial= none,%
fill component/.initial= yellow!20,%
fill assembly connector/.initial= white,%
fill port/.initial=yellow!10,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in tikzuml global, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/.cd, text/.get=\tikzumltextcolor, draw/.get=\tikzumldrawcolor, font/.get=\tikzumlfont,%
fill class/.get=\tikzumlfillclasscolor, fill template/.get=\tikzumlfilltemplatecolor,%
fill package/.get=\tikzumlfillpackagecolor, fill note/.get=\tikzumlfillnotecolor,%
fill usecase/.get=\tikzumlfillusecasecolor, fill system/.get=\tikzumlfillsystemcolor,%
fill state/.get=\tikzumlfillstatecolor,%
fill object/.get=\tikzumlfillobjectcolor,%
fill call/.get=\tikzumlfillcallcolor,%
fill fragment/.get=\tikzumlfillfragmentcolor,%
fill component/.get=\tikzumlfillcomponentcolor,%
fill assembly connector/.get=\tikzumlfillassemblyconnectorcolor,%
fill port/.get=\tikzumlfillportcolor%
}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% class diagrams %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\pgfkeys{/tikzuml/relation/.cd, attr1/.style args={#1|#2}{arg1=#1, mult1=#2},%
attr2/.style args={#1|#2}{arg2=#1, mult2=#2},%
attr/.style args={#1|#2}{arg=#1, mult=#2},%
recursive/.style args={#1|#2|#3}{angle1=#1, angle2=#2, loopsize=#3},%
anchors/.style args={#1 and #2}{anchor1=#1, anchor2=#2},%
recursive direction/.style args={#1 to #2}{recursive direction start=#1, recursive direction end=#2}}%
\pgfkeys{/tikzuml/note/.cd, anchors/.style args={#1 and #2}{anchor1=#1, anchor2=#2}}%
\tikzstyle{tikzuml class style}=[rectangle split, rectangle split parts=3, rectangle split part align={center, left, left}, minimum height=2em, node distance=2em]%
\tikzstyle{tikzuml narynode style}=[diamond]%
\tikzstyle{tikzuml template style}=[dashed, inner ysep=0.5em, inner xsep=1ex]%
\tikzstyle{tikzuml control nodes style}=[fill=black, inner sep=1.5pt, circle]%
\tikzstyle{tikzuml inherit style}=[color=\tikzumldrawcolor, -open triangle 45]%
\tikzstyle{tikzuml implements style}=[color=\tikzumldrawcolor, -open triangle 45, dashed]%
\tikzstyle{tikzuml association style}=[color=\tikzumldrawcolor, -]%
\tikzstyle{tikzuml unidirectional association style}=[color=\tikzumldrawcolor, -angle 45]%
\tikzstyle{tikzuml aggregation style}=[color=\tikzumldrawcolor, open diamond-]%
\tikzstyle{tikzuml unidirectional aggregation style}=[color=\tikzumldrawcolor, open diamond-angle 45]%
\tikzstyle{tikzuml composition style}=[color=\tikzumldrawcolor, diamond-]%
\tikzstyle{tikzuml unidirectional composition style}=[color=\tikzumldrawcolor, diamond-angle 45]%
\tikzstyle{tikzuml dependency style}=[color=\tikzumldrawcolor, -angle 45, dashed]%
\tikzstyle{tikzuml import style}=[color=\tikzumldrawcolor, -angle 45, dashed]%
\pgfkeys{/tikzuml/assemblyconnectorrelation/.cd, anchors/.style args={#1 and #2}{anchor1=#1, anchor2=#2}}%
\newcounter{tikzumlPackageClassNum}%
\newcounter{tikzumlPackageSubPackageNum}%
\newcounter{tikzumlRelationNum}%
\setcounter{tikzumlRelationNum}{1}%
\newcounter{tikzumlNoteNum}%
\setcounter{tikzumlNoteNum}{1}%
\newcounter{pos}%
\newcounter{posT}%
\newcounter{posStereo}%
\newcounter{tikzumlPackageLevel}%
\setcounter{tikzumlPackageLevel}{0}%
% utility : change default colors
\newcommand{\tikzumlset}[1]{%
\pgfkeys{/tikzuml/.cd,#1}%
\pgfkeys{/tikzuml/.cd, text/.get=\tikzumltextcolor, draw/.get=\tikzumldrawcolor, font/.get=\tikzumlfont,%
fill class/.get=\tikzumlfillclasscolor, fill template/.get=\tikzumlfilltemplatecolor,%
fill package/.get=\tikzumlfillpackagecolor, fill note/.get=\tikzumlfillnotecolor,%
fill usecase/.get=\tikzumlfillusecasecolor, fill system/.get=\tikzumlfillsystemcolor,%
fill state/.get=\tikzumlfillstatecolor,%
fill object/.get=\tikzumlfillobjectcolor,%
fill call/.get=\tikzumlfillcallcolor,%
fill fragment/.get=\tikzumlfillfragmentcolor,%
fill component/.get=\tikzumlfillcomponentcolor,%
fill assembly connector/.get=\tikzumlfillassemblyconnectorcolor,%
fill port/.get=\tikzumlfillportcolor}}%
% define a point
% arg : node/coordinates of the point
\newcommand{\umlpoint}[1]{%
\begin{pgfonlayer}{connections}%
\node[tikzuml control nodes style] at (#1) {};%
\end{pgfonlayer}%
}%
\newcommand{\tikzumlskipescape}[3][_]{%
\begingroup%
\def\_{#1}\edef\x{\endgroup%
\def\noexpand\csname #3\endcsname{#2}}\x%
}%
% define a uml package
% arg : package name
% optional : x, y coordinates of the package
% draw, fill, text colors
\newenvironment{umlpackage}[2][]{%
\ifnum\thetikzumlPackageLevel>0%
\let\tikzumlPackage@nameold\tikzumlPackage@fitname%
\def\tikzumlPackage@name{#2}%
\begingroup%
\def\_{@}\edef\x{\endgroup%
\def\noexpand\tikzumlPackage@fitname{\tikzumlPackage@name}}\x%
\let\tikzumlPackage@parentold\tikzumlPackage@parent%
\edef\tikzumlPackage@parent{\tikzumlPackage@parentold @@\tikzumlPackage@nameold}%
\else%
\def\tikzumlPackage@parent{}%
\def\tikzumlPackage@name{#2}%
\begingroup%
\def\_{@}\edef\x{\endgroup%
\def\noexpand\tikzumlPackage@fitname{\tikzumlPackage@name}}\x%
\fi%
%
\let\tikzumlPackage@nodeNameold\tikzumlPackage@nodeName%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlPackage@nodeName{\tikzumlPackage@name}}\x%
%
\expandafter\gdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{}%
%
\setcounter{tikzumlPackageClassNum}{0}%
\setcounter{tikzumlPackageSubPackageNum}{0}%
\stepcounter{tikzumlPackageLevel}%
\pgfkeys{/tikzuml/package/.cd, x/.initial=0, y/.initial=0, x/.default=0, y/.default=0,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillpackagecolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlpackage, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/package/.cd, #1}%
\pgfkeys{/tikzuml/package/.cd, x/.get=\xshift, y/.get=\yshift, draw/.get=\tikzumlpackagedraw, fill/.get=\tikzumlpackagefill, text/.get=\tikzumlpackagetext}%
%
\begin{scope}[xshift=\xshift cm, yshift=\yshift cm]%
}{%
\addtocounter{tikzumlPackageLevel}{-1}%
\begin{pgfonlayer}{package\thetikzumlPackageLevel}%
%
% if contains no class, one define a fictive node to enable the fit option
\ifnum\c@tikzumlPackageClassNum=0%
\ifnum\c@tikzumlPackageSubPackageNum=0%
\node[inner sep=1.5ex] (\tikzumlPackage@nodeName-root) at (0,0) {\phantom{\tikzumlPackage@nodeName}};%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{(\tikzumlPackage@nodeName-root)}%
%
\fi%
\fi%
%
\ifnum\c@tikzumlPackageLevel>0%
\def\tikzumlPackageFitTmp{\csname tikzumlPackageFit\tikzumlPackage@parent\endcsname}%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent\endcsname{\tikzumlPackageFitTmp (\tikzumlPackage@nodeName) (\tikzumlPackage@nodeName-caption)}%
\stepcounter{tikzumlPackageSubPackageNum}%
\fi%
%
\node[draw=\tikzumlpackagedraw, fill=\tikzumlpackagefill, text=\tikzumlpackagetext, font=\tikzumlfont, inner sep=1.5ex, fit = \csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname] (\tikzumlPackage@nodeName) {};%
\node[draw=\tikzumlpackagedraw, fill=\tikzumlpackagefill, text=\tikzumlpackagetext, font=\tikzumlfont, minimum height=1.5em, outer ysep=-0.3, anchor=south west] (\tikzumlPackage@nodeName-caption) at (\tikzumlPackage@nodeName.north west) {\tikzumlPackage@name};%
\end{pgfonlayer}%
\end{scope}%
}%
% shortcut to define an empty package
\newcommand{\umlemptypackage}[2][]{\begin{umlpackage}[#1]{#2} \end{umlpackage}}%
% define a uml class (environment)
% arg : name of the class
% optional : x,y coordinates of the class
% width of the class node
% type of class (class, interface, typedef, enum)
% template parameters
% draw, fill, text colors
\newenvironment{umlclassenv}[2][]{%
\pgfkeys{/tikzuml/class/.cd, x/.initial=0, y/.initial=0, width/.initial=10ex, type/.initial=class, template/.initial={}, name/.initial={tikzumlEmpty},%
draw/.initial=\tikzumldrawcolor, fill template/.initial=\tikzumlfilltemplatecolor, fill/.initial=\tikzumlfillclasscolor,%
text/.initial=\tikzumltextcolor, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlclassenv, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/class/.cd,#1}%
\pgfkeys{/tikzuml/class/.cd, x/.get=\umlclassX, y/.get=\umlclassY, width/.get=\umlclassMinimumWidth, type/.get=\umlclassType, template/.get=\umlclassTemplateParam,%
name/.get=\umlclassName,%
draw/.get=\tikzumlclassdraw, fill/.get=\tikzumlclassfill, text/.get=\tikzumlclasstext, fill template/.get=\tikzumlclasstemplate}%
%
\ifthenelse{\equal{\umlclassType}{class}}{%
\def\tikzumlClassType{}%
}{%
\ifthenelse{\equal{\umlclassType}{abstract}}{%
\def\tikzumlClassType{}%
}{%
\def\tikzumlClassType{$<<$\umlclassType$>>$ \\}%
}%
}%
%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{%
\def\tikzumlClassVPadding{}%
\def\tikzumlClassHPadding{}%
}{%
\def\tikzumlClassVPadding{\vspace{0.1em} \\}%
\def\tikzumlClassHPadding{\hspace{0.5ex} $ $}%
}%
%
\def\tikzumlClassName{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlClassNodeName{\tikzumlClassName}}\x%
%
\ifthenelse{\equal{\umlclassName}{tikzumlEmpty}}{}{%
\def\tikzumlClassNodeName{\umlclassName}%
}%
%
\StrSubstitute{\tikzumlClassNodeName}{:}{@COLON@}[\tikzumlClassNodeName]
%
\ifthenelse{\equal{\umlclassType}{abstract}}{%
\let\tikzumlClassNameOld\tikzumlClassName%
\def\tikzumlClassName{{\it \tikzumlClassNameOld}}%
}{}%
%
\def\tikzumlClassPos{\umlclassX,\umlclassY}%
\def\tikzumlClassAttributes{}%
\def\tikzumlClassOperations{}%
\def\tikzumlClassAbstractClass{}%
\def\tikzumlClassInterface{}%
%
}{%
\node[tikzuml class style, draw=\tikzumlclassdraw, fill=\tikzumlclassfill, text=\tikzumlclasstext, font=\tikzumlfont, minimum width=\umlclassMinimumWidth] (\tikzumlClassNodeName) at (\tikzumlClassPos) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \end{tabular}%
\nodepart{second}%
\begin{tabular}{l}%
\tikzumlClassAttributes%
\end{tabular}%
\nodepart{third}%
\begin{tabular}{l}%
\tikzumlClassOperations%
\end{tabular}%
};%
%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{}{%
\draw (\tikzumlClassNodeName.north east) node[tikzuml template style, name=\tikzumlClassNodeName-template, draw=\tikzumlclassdraw, fill=\tikzumlclasstemplate, text=\tikzumlclasstext, font=\tikzumlfont] {\umlclassTemplateParam};%
}%
%
% add to fit
\ifnum\c@tikzumlPackageLevel>0%
\edef\tikzumlPackageFitOld{\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname}%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlClassNodeName)}%
}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlClassNodeName) (\tikzumlClassNodeName-template)}%
}%
\stepcounter{tikzumlPackageClassNum}%
\fi%
}%
% shortcuts for interface, enum and typedef environments
\newenvironment{umlabstractenv}[2][]{\begin{umlclassenv}[type=abstract,#1]{#2}}{\end{umlclassenv}}%
\newenvironment{umlinterfaceenv}[2][]{\begin{umlclassenv}[type=interface,#1]{#2}}{\end{umlclassenv}}%
\newenvironment{umltypedefenv}[2][]{\begin{umlclassenv}[type=typedef,#1]{#2}}{\end{umlclassenv}}%
\newenvironment{umlenumenv}[2][]{\begin{umlclassenv}[type=enum,#1]{#2}}{\end{umlclassenv}}%
% define a uml class (command)
% args : name of the class
% attributes of the class
% operations of the class
% optional : x,y coordinates of the class
% width of the class node
% type of class (class, interface, typedef, enum)
% template parameters
% draw, fill, text colors
\newcommand{\umlclass}[4][]{%
\pgfkeys{/tikzuml/class/.cd, x/.initial=0, y/.initial=0, width/.initial=10ex, type/.initial=class, template/.initial={}, name/.initial={tikzumlEmpty},%
draw/.initial=\tikzumldrawcolor, fill template/.initial=\tikzumlfilltemplatecolor, fill/.initial=\tikzumlfillclasscolor,%
text/.initial=\tikzumltextcolor, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlclass, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/class/.cd,#1}%
\pgfkeys{/tikzuml/class/.cd, x/.get=\umlclassX, y/.get=\umlclassY, width/.get=\umlclassMinimumWidth, type/.get=\umlclassType, template/.get=\umlclassTemplateParam,%
name/.get=\umlclassName,%
draw/.get=\tikzumlclassdraw, fill/.get=\tikzumlclassfill, text/.get=\tikzumlclasstext, fill template/.get=\tikzumlclasstemplate}%
%
\ifthenelse{\equal{\umlclassType}{class}\OR\equal{\umlclassType}{abstract}}{%
\def\tikzumlClassType{}%
}{%
\def\tikzumlClassType{$<<$\umlclassType$>>$ \\}%
}%
%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{%
\def\tikzumlClassVPadding{}%
\def\tikzumlClassHPadding{}%
}{%
\def\tikzumlClassVPadding{\vspace{0.1em} \\}%
\def\tikzumlClassHPadding{\hspace{0.5ex} $ $}%
}%
%
\def\tikzumlClassName{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlClassNodeName{\tikzumlClassName}}\x%
%
\ifthenelse{\equal{\umlclassName}{tikzumlEmpty}}{}{%
\def\tikzumlClassNodeName{\umlclassName}%
}%
%
\StrSubstitute{\tikzumlClassNodeName}{:}{@COLON@}[\tikzumlClassNodeName]
%
\ifthenelse{\equal{\umlclassType}{abstract}}{%
\let\tikzumlClassNameOld\tikzumlClassName%
\def\tikzumlClassName{{\it \tikzumlClassNameOld}}%
}{}%
%
\def\tikzumlClassPos{\umlclassX,\umlclassY}%
\def\tikzumlClassAttributes{#3}%
\def\tikzumlClassOperations{#4}%
%
\node[tikzuml class style, draw=\tikzumlclassdraw, fill=\tikzumlclassfill, text=\tikzumlclasstext, font=\tikzumlfont, minimum width=\umlclassMinimumWidth] (\tikzumlClassNodeName) at (\tikzumlClassPos) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \end{tabular}%
\nodepart{second}%
\begin{tabular}{l}%
\tikzumlClassAttributes%
\end{tabular}%
\nodepart{third}%
\begin{tabular}{l}%
\tikzumlClassOperations%
\end{tabular}%
};%
%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{}{%
\draw (\tikzumlClassNodeName.north east) node[tikzuml template style, name=\tikzumlClassNodeName-template, draw=\tikzumlclassdraw, fill=\tikzumlclasstemplate, text=\tikzumlclasstext, font=\tikzumlfont] {\umlclassTemplateParam};%
}%
%
% add to fit
\ifnum\c@tikzumlPackageLevel>0%
\edef\tikzumlPackageFitOld{\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname}%
\ifthenelse{\equal{\umlclassTemplateParam}{}}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlClassNodeName)}%
}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlClassNodeName) (\tikzumlClassNodeName-template)}%
}%
\stepcounter{tikzumlPackageClassNum}%
\fi%
}%
% shortcuts for interface, enum and typedef environments
\newcommand{\umlabstract}[4][]{\umlclass[type=abstract,#1]{#2}{#3}{#4}}%
\newcommand{\umlinterface}[4][]{\umlclass[type=interface,#1]{#2}{#3}{#4}}%
\newcommand{\umltypedef}[4][]{\umlclass[type=typedef,#1]{#2}{#3}{#4}}%
\newcommand{\umlenum}[4][]{\umlclass[type=enum,#1]{#2}{#3}{#4}}%
% shortcut to define an empty class
\newcommand{\umlemptyclass}[2][]{\umlclass[#1]{#2}{}{}}%
% define a class attribute
\newcommand{\umlattr}[1]{\def\tikzumlClassAttributes{#1}}%
% underline the text for static arg
\newcommand{\umlstatic}[1]{\underline{#1}}%
\newcommand{\umlvirt}[1]{\textit{#1}}%
% define a class operation
\newcommand{\umlop}[1]{\def\tikzumlClassOperations{#1}}%
% define node for n-ary association
\newcommand{\umlNarynode}[2][]{%
\def\tikzumlNaryNodeAnchor{.north}
\def\tikzumlNaryNodeLabelPos{above}
\pgfkeys{/tikzuml/narynode/.cd, x/.initial=0, y/.initial=0, width/.initial=6ex, name/.initial={tikzumlEmpty},%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillclasscolor,%
text/.initial=\tikzumltextcolor, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{above}}{%
\def\tikzumlNaryNodeAnchor{.north}%
\def\tikzumlNaryNodeLabelPos{above}%
}{%
\ifthenelse{\equal{\keyname}{above left}}{%
\def\tikzumlNaryNodeAnchor{.north west}%
\def\tikzumlNaryNodeLabelPos{above left}%
}{%
\ifthenelse{\equal{\keyname}{left}}{%
\def\tikzumlNaryNodeAnchor{.west}%
\def\tikzumlNaryNodeLabelPos{left}%
}{%
\ifthenelse{\equal{\keyname}{below left}}{%
\def\tikzumlNaryNodeAnchor{.south west}%
\def\tikzumlNaryNodeLabelPos{below left}%
}{%
\ifthenelse{\equal{\keyname}{below}}{%
\def\tikzumlNaryNodeAnchor{.south}%
\def\tikzumlNaryNodeLabelPos{below}%
}{%
\ifthenelse{\equal{\keyname}{below right}}{%
\def\tikzumlNaryNodeAnchor{.south east}%
\def\tikzumlNaryNodeLabelPos{below right}%
}{%
\ifthenelse{\equal{\keyname}{right}}{%
\def\tikzumlNaryNodeAnchor{.east}%
\def\tikzumlNaryNodeLabelPos{right}%
}{%
\ifthenelse{\equal{\keyname}{above right}}{%
\def\tikzumlNaryNodeAnchor{.north east}%
\def\tikzumlNaryNodeLabelPos{above right}%
}{%
\errmessage{TIKZUML ERROR : in umlNarynode, invalid option \keyname}%
}%
}%
}%
}%
}%
}%
}%
}%
}}%
\pgfkeys{/tikzuml/narynode/.cd,#1}%
\pgfkeys{/tikzuml/narynode/.cd, x/.get=\umlnarynodeX, y/.get=\umlnarynodeY, width/.get=\umlnarynodeMinimumWidth, name/.get=\umlnaryName,%
draw/.get=\tikzumlnarynodedraw, fill/.get=\tikzumlnarynodefill, text/.get=\tikzumlnarynodetext}%
%
\def\tikzumlNaryName{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlNaryNodeName{\tikzumlNaryName}}\x%
%
\ifthenelse{\equal{\umlnaryName}{tikzumlEmpty}}{}{%
\def\tikzumlNaryNodeName{\umlnaryName}%
}%
%
\StrSubstitute{\tikzumlNaryNodeName}{:}{@COLON@}[\tikzumlNaryNodeName]
%
\def\tikzumlNarynodePos{\umlnarynodeX,\umlnarynodeY}%
%
\node[tikzuml narynode style, draw=\tikzumlnarynodedraw, fill=\tikzumlnarynodefill, text=\tikzumlnarynodetext, font=\tikzumlfont, minimum width=\umlnarynodeMinimumWidth, minimum height=\umlnarynodeMinimumWidth] (\tikzumlNaryNodeName) at (\tikzumlNarynodePos) {};%
\draw (\tikzumlNaryNodeName\tikzumlNaryNodeAnchor) node[\tikzumlNaryNodeLabelPos] {\tikzumlNaryName};
%
% add to fit
\ifnum\c@tikzumlPackageLevel>0%
\edef\tikzumlPackageFitOld{\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname}%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlNaryNodeName)}%
\stepcounter{tikzumlPackageClassNum}%
\fi%
}%
% main command to define a relation between two classes
% args : src class
% dest class
% optional : geometry of the line
% barycentric weight
% name of the src class type attribute defined by the relation
% multiplicity of the src class type attribute defined by the relation
% position on the relation
% text justification on the relation
% name of the dest class type attribute defined by the relation
% multiplicity of the dest class type attribute defined by the relation
% position on the relation
% anchors on linked classes
% text justification on the relation
% start angle, end angle and size of the relation (only if recursive)
% stereotype of the relation
% style of the relation (association, aggregation, composition, inherit, ...)
\newcommand{\umlrelation}[3][]{%
\pgfkeys{/tikzuml/relation/.cd, geometry/.initial=--, weight/.initial=0.5, arm1/.initial={auto}, arm2/.initial={auto},%
arg1/.initial={}, arg2/.initial={}, arg/.initial={},%
mult1/.initial={}, mult2/.initial={}, mult/.initial={},%
pos1/.initial=0.2, pos2/.initial=0.8, pos/.initial={tikzumlEmpty},%
align1/.initial={}, align2/.initial={}, align/.initial={},%
anchor1/.initial={tikzumlEmpty}, anchor2/.initial={tikzumlEmpty},%
angle1/.initial=-30, angle2/.initial=30, loopsize/.initial=3em,%
stereo/.initial={}, pos stereo/.initial=0.5,%
style/.initial=->, name/.initial=relation-\thetikzumlRelationNum,%
recursive mode/.initial=default, recursive direction start/.initial=right,%
recursive direction end/.initial=bottom,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{with port}%
\OR\equal{\keyname}{interface}%
\OR\equal{\keyname}{padding}%
\OR\equal{\keyname}{width}%
\OR\equal{\keyname}{first arm}%
\OR\equal{\keyname}{second arm}%
\OR\equal{\keyname}{middle arm}%
\OR\equal{\keyname}{last arm}%
\OR\equal{\keyname}{distance}}{}{%
\errmessage{TIKZUML ERROR : in umlrelation, invalid option \keyname}%
}%
}}%
\pgfkeys{/tikzuml/relation/.cd,#1}%
\pgfkeys{/tikzuml/relation/.cd, geometry/.get=\geometry, weight/.get=\weight, arm1/.get=\armO, arm2/.get=\armT,%
arg1/.get=\attrName, arg2/.get=\attrNameTO, arg/.get=\attrNameTT,%
mult1/.get=\multiplicity, mult2/.get=\multiplicityTO, mult/.get=\multiplicityTT,%
pos1/.get=\position, pos2/.get=\positionTO, pos/.get=\positionTT,%
align1/.get=\align, align2/.get=\alignTO, align/.get=\alignTT,%
anchor1/.get=\tikzumlSrcAnchor, anchor2/.get=\tikzumlDestAnchor,%
angle1/.get=\startangle, angle2/.get=\endangle, loopsize/.get=\loopsize,%
stereo/.get=\stereo, pos stereo/.get=\positionStereotype,%
style/.get=\style, name/.get=\relationName,%
recursive mode/.get=\tikzumlrecmode,%
recursive direction start/.get=\tikzumlrecdirstart,%
recursive direction end/.get=\tikzumlrecdirend}%
%
% managing \_ in class names for node names
\def\tikzumlSrcClassName{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlSrcClassNodeName{\tikzumlSrcClassName}}\x%
%
\StrSubstitute{\tikzumlSrcClassNodeName}{:}{@COLON@}[\tikzumlSrcClassNodeName]
%
\def\tikzumlDestClassName{#3}%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlDestClassNodeName{\tikzumlDestClassName}}\x%
%
\StrSubstitute{\tikzumlDestClassNodeName}{:}{@COLON@}[\tikzumlDestClassNodeName]
%
% managing alias keys
\def\attrNameT{\attrNameTO\attrNameTT}%
\def\multiplicityT{\multiplicityTO\multiplicityTT}%
\def\alignT{\alignTO\alignTT}%
\def\posAttrName{}%
\def\posMultiplicity{}%
\def\posAttrNameT{}%
\def\posMultiplicityT{}%
%
\ifthenelse{\equal{\positionTT}{tikzumlEmpty}}{%
\def\positionT{\positionTO}%
}{%
\def\positionT{\positionTT}%
}%
%
\def\attrAlign{}%
\def\multAlign{}%
\def\attrAlignT{}%
\def\multAlignT{}%
%
\ifthenelse{\equal{\align}{left}}{%
\def\attrAlign{above right}%
\def\multAlign{below right}%
}{%
\ifthenelse{\equal{\align}{right}}{%
\def\attrAlign{above left}%
\def\multAlign{below left}%
}{}%
}%
%
\ifthenelse{\equal{\alignT}{left}}{%
\def\attrAlignT{above right}%
\def\multAlignT{below right}%
}{%
\ifthenelse{\equal{\alignT}{right}}{%
\def\attrAlignT{above left}%
\def\multAlignT{below left}%
}{}%
}%
%
% def stereotype
\ifthenelse{\equal{\stereo}{}}{%
\def\stereotype{}%
}{%
\def\stereotype{$<<$\stereo$>>$}%
}%
% def anchors macros
\ifthenelse{\equal{\tikzumlSrcAnchor}{tikzumlEmpty}}{%
\def\tikzumlSrcAnchor{}%
}{%
\let\tikzumlSrcAnchorold\tikzumlSrcAnchor%
\def\tikzumlSrcAnchor{.\tikzumlSrcAnchorold}%
}%
%
\ifthenelse{\equal{\tikzumlDestAnchor}{tikzumlEmpty}}{%
\def\tikzumlDestAnchor{}%
}{%
\let\tikzumlDestAnchorold\tikzumlDestAnchor%
\def\tikzumlDestAnchor{.\tikzumlDestAnchorold}%
}%
%
\setcounter{pos}{100*\real{\position}}%
\setcounter{posT}{100*\real{\positionT}}%
\setcounter{posStereo}{100*\real{\positionStereotype}}%
%
%\pgfmathsetmacro{\weightT}{1-\real{\weight}}%
\tikzmath{%
real \weightT;%
\weightT = 1 - real \weight;%
}%
%
\def\tikzumlControlNodesNum{0}%
%
\def\pos{\position}%
\def\posT{\positionT}%
\def\posStereo{\positionStereotype}%
%
\node[inner sep=0] (\relationName-middle) at (barycentric cs:\tikzumlSrcClassNodeName=\weightT,\tikzumlDestClassNodeName=\weight) {};%
%
% straight line
\ifthenelse{\equal{\geometry}{--}}{%
\ifthenelse{\equal{\tikzumlSrcClassNodeName}{\tikzumlDestClassNodeName}}{%
\def\arcNum{1}%
\def\arcNumT{1}%
%
\ifthenelse{\equal{\tikzumlrecmode}{default}}{%
\xdef\tikzumlLastArc{node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
node[pos=\positionStereotype, anchor=center] {\stereotype} }%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName) edge[in=\endangle, out=\startangle, distance=\loopsize] \tikzumlLastArc%
node[midway, inner sep=0, name=\relationName-1, anchor=center] {} (\tikzumlDestClassNodeName) }%
}{%
\ifthenelse{\equal{\tikzumlrecmode}{transition}}{%
\xdef\tikzumlFirstArc{node[midway, inner sep=0, name=\relationName-1, anchor=center] {}}%
\xdef\tikzumlMidOneArc{node[midway, inner sep=0, name=\relationName-3, anchor=center] {}}%
%
\ifthenelse{\equal{\tikzumlrecdirstart}{\tikzumlrecdirend}}{%
\def\numArcs{3}%
\xdef\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-5, anchor=center] {}}%
%
\begin{pgfonlayer}{connections}%
\draw (\tikzumlSrcClassNodeName) edge[in=\endangle, out=\startangle, distance=\loopsize, draw=none] %
node[midway, inner sep=0, name=\relationName-tmp, anchor=center] {} (\tikzumlDestClassNodeName);%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}\OR\equal{\tikzumlrecdirstart}{left}}{%
\node[inner sep=0, name=\relationName-2] at (\tikzumlSrcClassNodeName.\startangle -| \relationName-tmp) {};%
\node[inner sep=0, name=\relationName-4] at (\tikzumlDestClassNodeName.\endangle -| \relationName-tmp) {};%
}{%
\node[inner sep=0, name=\relationName-2] at (\tikzumlSrcClassNodeName.\startangle |- \relationName-tmp) {};%
\node[inner sep=0, name=\relationName-4] at (\tikzumlDestClassNodeName.\endangle |- \relationName-tmp) {};%
}%
\end{pgfonlayer}%
}{%
\def\numArcs{4}%
\xdef\tikzumlMidTwoArc{node[midway, inner sep=0, name=\relationName-5, anchor=center] {}}%
\xdef\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-7, anchor=center] {}}%
%
\begin{pgfonlayer}{connections}%
\draw (\tikzumlSrcClassNodeName) edge[in=\endangle, out=\startangle, distance=\loopsize, draw=none] %
node[midway, name=\relationName-4, anchor=center] {} (\tikzumlDestClassNodeName);%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}\OR\equal{\tikzumlrecdirstart}{left}}{%
\node[inner sep=0, name=\relationName-2] at (\tikzumlSrcClassNodeName.\startangle -| \relationName-4) {};%
\node[inner sep=0, name=\relationName-6] at (\tikzumlDestClassNodeName.\endangle |- \relationName-4) {};%
}{%
\node[inner sep=0, name=\relationName-2] at (\tikzumlSrcClassNodeName.\startangle |- \relationName-4) {};%
\node[inner sep=0, name=\relationName-6] at (\tikzumlDestClassNodeName.\endangle -| \relationName-4) {};%
}%
\end{pgfonlayer}%
}%
%
\ifnum\numArcs=4%
\ifnum\theposStereo>300%
\pgfmathsetmacro{\posStereo}{(\theposStereo-300)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype}}%
\else%
\ifnum\theposStereo<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype}}%
\else%
\ifnum\theposStereo>200%
\pgfmathsetmacro{\posStereo}{(\theposStereo-200)/100}%
\xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\posStereo, anchor=center] {\stereotype}}%
\else%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posStereo, anchor=center] {\stereotype}}%
\fi%
\fi%
\fi%
%
\ifthenelse{\thepos=300\OR\thepos=100}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}%
}%
}%
}{}%
%
\ifthenelse{\thepos=200}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}%
}%
}%
}{}%
%
\ifnum\thepos>300%
\pgfmathsetmacro{\pos}{(\thepos-300)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\else%
\ifnum\thepos<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\else%
\ifnum\thepos>200%
\pgfmathsetmacro{\pos}{(\thepos-200)/100}%
\xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\else%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\fi%
\fi%
\fi%
%
\ifthenelse{\theposT=300\OR\theposT=100}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}%
}%
}%
}{}%
\ifthenelse{\theposT=200}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrNameT{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{bottom}}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirend}{left}}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}%
}%
}%
}{}%
%
\ifnum\theposT>300%
\pgfmathsetmacro{\posT}{(\theposT-300)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\else%
\ifnum\theposT<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\else%
\ifnum\theposT>200%
\pgfmathsetmacro{\posT}{(\theposT-200)/100}%
\xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\else%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\fi%
\fi%
\fi%
\else%
\ifnum\theposStereo>200%
\pgfmathsetmacro{\posStereo}{(\theposStereo-200)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\ifnum\theposStereo<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
\fi%
%
\ifthenelse{\thepos=100}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}%
}%
}%
}{}%
%
\ifthenelse{\thepos=200}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}%
}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrName{above right}%
\def\posMultiplicity{below left}%
}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}%
}%
}%
}%
}{}%
%
\ifnum\thepos>200%
\pgfmathsetmacro{\pos}{(\thepos-200)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\else%
\ifnum\thepos<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\else%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
}%
\fi%
\fi%
%
\ifthenelse{\theposT=100}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}%
}%
}%
}{}%
%
\ifthenelse{\theposT=200}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{right}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{left}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}{%
\ifthenelse{\equal{\tikzumlrecdirstart}{top}}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}%
}{%
\ifthenelse{\endangle<\startangle}{%
\def\posAttrNameT{above right}%
\def\posMultiplicityT{below left}%
}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}%
}%
}%
}%
}{}%
%
\ifnum\theposT>200%
\pgfmathsetmacro{\posT}{(\theposT-200)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\else%
\ifnum\theposT<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\else%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
}%
\fi%
\fi%
\fi%
%
\ifthenelse{\equal{\tikzumlrecdirstart}{\tikzumlrecdirend}}{%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName.\startangle) -- \tikzumlFirstArc (\relationName-2.center) -- \tikzumlMidOneArc (\relationName-4.center) -- \tikzumlLastArc (\tikzumlDestClassNodeName.\endangle) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) (\relationName-4) (\relationName-5)}%
\fi%
}{%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName.\startangle) -- \tikzumlFirstArc (\relationName-2.center) -- \tikzumlMidOneArc (\relationName-4.center) -- \tikzumlMidTwoArc (\relationName-6.center) -- \tikzumlLastArc (\tikzumlDestClassNodeName.\endangle) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) (\relationName-4) (\relationName-5) (\relationName-6) (\relationName-7)}%
\fi%
}%
}{}%
}%
}{%
\def\arcNum{1}%
\def\arcNumT{1}%
%
\node[inner sep=0] (\relationName-1) at (\relationName-middle) {};%
\xdef\tikzumlLastArc{node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity}%
node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT}%
node[pos=\positionStereotype, anchor=center] {\stereotype} }%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) }%
\fi%
}%
}{%
% first vertical then horizontal line
\ifthenelse{\equal{\geometry}{|-}}%
{%
\def\tikzumlControlNodesNum{1}%
%
\def\tikzumlFirstArc{node[midway, inner sep=0, name=\relationName-1, anchor=center] {} }%
\def\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-3, anchor=center]{} }%
%
\begin{pgfonlayer}{connections}%
\node[inner sep=0] (\relationName-2) at (\tikzumlSrcClassNodeName\tikzumlSrcAnchor |- \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
\end{pgfonlayer}%
%
\ifnum\theposStereo>100%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
%
\ifnum\thepos>100%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\def\arcNum{2}%
\else%
\def\arcNum{1}%
\ifnum\thepos=100%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
\fi%
\fi%
%
\ifnum\arcNum=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
%
\ifnum\theposT>100%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\def\arcNumT{2}%
\else%
\def\arcNumT{1}%
\ifnum\theposT=100%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
\fi%
\fi%
%
\ifnum\arcNumT=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlFirstArc (\relationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) }%
\fi%
}{%
% first horizontal then vertical line
\ifthenelse{\equal{\geometry}{-|}}{%
\def\tikzumlControlNodesNum{1}%
%
\def\tikzumlFirstArc{node[midway, inner sep=0, name=\relationName-1, anchor=center]{} }%
\def\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-3, anchor=center] {} }%
%
\begin{pgfonlayer}{connections}%
\node[inner sep=0] (\relationName-2) at (\tikzumlSrcClassNodeName\tikzumlSrcAnchor -| \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
\end{pgfonlayer}%
%
\ifnum\theposStereo>100%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
%
\ifnum\thepos>100%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\def\arcNum{2}%
\else%
\def\arcNum{1}%
\ifnum\thepos=100%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
\fi%
\fi%
%
\ifnum\arcNum=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
%
\ifnum\theposT>100%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\def\arcNumT{2}%
\else%
\def\arcNumT{1}%
\ifnum\theposT=100%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
\fi%
\fi%
%
\ifnum\arcNumT=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlFirstArc (\relationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) }%
\fi%
}{%
% first vertical, then horizontal, finally vertical line
\ifthenelse{\equal{\geometry}{|-|}}{%
\def\tikzumlControlNodesNum{2}%
%
\def\tikzumlFirstArc{node[midway, inner sep=0, name=\relationName-1, anchor=center] {} }%
\def\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-5, anchor=center] {} }%
\def\tikzumlMidOneArc{ }%
%
\begin{pgfonlayer}{connections}%
%
\ifthenelse{\equal{\armO}{auto}}{%
\ifthenelse{\equal{\armT}{auto}}{%
\node[inner sep=0] (\relationName-3) at (\relationName-middle) {};%
\node[inner sep=0] (\relationName-2) at (\tikzumlSrcClassNodeName\tikzumlSrcAnchor |- \relationName-3) {};%
\node[inner sep=0] (\relationName-4) at (\relationName-3 -| \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
}{%
\draw (\tikzumlDestClassNodeName\tikzumlDestAnchor)+(0,\armT) node[inner sep=0, name=\relationName-4] {};%
\node[inner sep=0] (\relationName-2) at (\relationName-4 -| \tikzumlSrcClassNodeName\tikzumlSrcAnchor) {};%
\node[inner sep=0] (\relationName-3) at (barycentric cs:\relationName-2=0.5,\relationName-4=0.5) {};%
}%
}{%
\draw (\tikzumlSrcClassNodeName\tikzumlSrcAnchor)+(0,\armO) node[inner sep=0, name=\relationName-2] {};%
\node[inner sep=0] (\relationName-4) at (\relationName-2 -| \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
\node[inner sep=0] (\relationName-3) at (barycentric cs:\relationName-2=0.5,\relationName-4=0.5) {};%
}%
\end{pgfonlayer}%
%
\ifnum\theposStereo>200%
\pgfmathsetmacro{\posStereo}{(\theposStereo-200)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\ifnum\theposStereo<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
\fi%
%
\ifthenelse{\thepos=200\OR\thepos=100}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{}%
%
\ifthenelse{\thepos>200}{%
\pgfmathsetmacro{\pos}{(\thepos-200)/100}%
\def\arcNum{3}%
}{%
\ifthenelse{\thepos<100}{%
\def\arcNum{1}%
}{%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\def\arcNum{2}%
}%
}%
%
\ifnum\arcNum=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=2%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=3%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
%
\ifthenelse{\theposT=200\OR\theposT=100}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{}%
%
\ifthenelse{\theposT>200}{%
\pgfmathsetmacro{\posT}{(\theposT-200)/100}%
\def\arcNumT{3}%
}{%
\ifthenelse{\theposT<100}{%
\def\arcNumT{1}%
}{%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\def\arcNumT{2}%
}%
}%
%
\ifnum\arcNumT=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=2%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=3%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlFirstArc (\relationName-2.base) -- \tikzumlMidOneArc (\relationName-4.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) (\relationName-4) (\relationName-5) }%
\fi%
}{%
% first horizontal, then vertical, finally horizontal line
\ifthenelse{\equal{\geometry}{-|-}}{%
\def\tikzumlControlNodesNum{2}%
%
\def\tikzumlFirstArc{node[midway, inner sep=0, name=\relationName-1, anchor=center] {} }%
\def\tikzumlLastArc{node[midway, inner sep=0, name=\relationName-5, anchor=center] {} }%
\def\tikzumlMidOneArc{}%
%
\begin{pgfonlayer}{connections}%
%
\ifthenelse{\equal{\armO}{auto}}{%
\ifthenelse{\equal{\armT}{auto}}{%
\node[inner sep=0] (\relationName-3) at (\relationName-middle) {};%
\node[inner sep=0] (\relationName-2) at (\tikzumlSrcClassNodeName\tikzumlSrcAnchor -| \relationName-3) {};%
\node[inner sep=0] (\relationName-4) at (\relationName-3 |- \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
}{%
\draw (\tikzumlDestClassNodeName\tikzumlDestAnchor)+(\armT,0) node[inner sep=0, name=\relationName-4] {};%
\node[inner sep=0] (\relationName-2) at (\relationName-4 |- \tikzumlSrcClassNodeName\tikzumlSrcAnchor) {};%
\node[inner sep=0] (\relationName-3) at (barycentric cs:\relationName-2=0.5,\relationName-4=0.5) {};%
}%
}{%
\draw (\tikzumlSrcClassNodeName\tikzumlSrcAnchor)+(\armO,0) node[inner sep=0, name=\relationName-2] {};%
\node[inner sep=0] (\relationName-4) at (\relationName-2 |- \tikzumlDestClassNodeName\tikzumlDestAnchor) {};%
\node[inner sep=0] (\relationName-3) at (barycentric cs:\relationName-2=0.5,\relationName-4=0.5) {};%
}%
\end{pgfonlayer}%
%
%
\ifnum\theposStereo>200%
\pgfmathsetmacro{\posStereo}{(\theposStereo-200)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\ifnum\theposStereo<100%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
\fi%
%
\ifthenelse{\thepos=200\OR\thepos=100}{%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
}{}%
%
\ifthenelse{\thepos>200}{%
\pgfmathsetmacro{\pos}{(\thepos-200)/100}%
\def\arcNum{3}%
}{%
\ifthenelse{\thepos<100}{%
\def\arcNum{1}%
}{%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\def\arcNum{2}%
}%
}%
%
\ifnum\arcNum=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=2%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=3%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
%
\ifthenelse{\theposT=200\OR\theposT=100}{%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
}{}%
%
\ifthenelse{\theposT>200}{%
\pgfmathsetmacro{\posT}{(\theposT-200)/100}%
\def\arcNumT{3}%
}{%
\ifthenelse{\theposT<100}{%
\def\arcNumT{1}%
}{%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\def\arcNumT{2}%
}%
}%
%
\ifnum\arcNumT=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=2%
\xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=3%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlFirstArc (\relationName-2.base) -- \tikzumlMidOneArc (\relationName-4.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\ifnum\thetikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\relationName-1) (\relationName-2) (\relationName-3) (\relationName-4) (\relationName-5) }%
\fi%
}{%
\errmessage{TIKZUML ERROR : Unknown geometry value !!! It should be in the following list : --, |-, -|, |-|, -|-}%
}%
}%
}%
}%
}%
%
\begin{pgfonlayer}{connections}%
\draw[auto, \style, font=\tikzumlfont] \tikzumlPath ;%
\end{pgfonlayer}%
%
\stepcounter{tikzumlRelationNum}%
}%
% shortcuts of \umlrelation
\newcommand{\umlHVrelation}[3][]{%
\pgfkeys{/tikzuml/HVrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVrelation, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVrelation/.cd, #1}%
\umlrelation[geometry=-|, #1]{#2}{#3}%
}%
\newcommand{\umlVHrelation}[3][]{%
\pgfkeys{/tikzuml/VHrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHrelation, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHrelation/.cd, #1}%
\umlrelation[geometry=|-, #1]{#2}{#3}%
}%
\newcommand{\umlHVHrelation}[3][]{%
\pgfkeys{/tikzuml/HVHrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHrelation, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVHrelation/.cd, #1}%
\umlrelation[geometry=-|-, #1]{#2}{#3}%
}%
\newcommand{\umlVHVrelation}[3][]{%
\pgfkeys{/tikzuml/VHVrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVrelation, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHVrelation/.cd, #1}%
\umlrelation[geometry=|-|, #1]{#2}{#3}%
}%
% shortcuts for relations
\newcommand{\umlinherit}[3][]{\umlrelation[style={tikzuml inherit style}, #1]{#2}{#3}}%
\newcommand{\umlimpl}[3][]{\umlrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlreal}[3][]{\umlrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlassoc}[3][]{\umlrelation[style={tikzuml association style}, #1]{#2}{#3}}%
\newcommand{\umluniassoc}[3][]{\umlrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}}%
\newcommand{\umlaggreg}[3][]{\umlrelation[style={tikzuml aggregation style}, #1]{#2}{#3}}%
\newcommand{\umluniaggreg}[3][]{\umlrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlcompo}[3][]{\umlrelation[style={tikzuml composition style}, #1]{#2}{#3}}%
\newcommand{\umlunicompo}[3][]{\umlrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}}%
\newcommand{\umlimport}[3][]{\umlrelation[style={tikzuml import style}, #1]{#2}{#3}}%
\newcommand{\umldep}[3][]{\umlrelation[style={tikzuml dependency style}, #1]{#2}{#3}}%
\newcommand{\umlfriend}[3][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlfriend, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlrelation[stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVinherit}[3][]{\umlHVrelation[style={tikzuml inherit style}, #1]{#2}{#3}}%
\newcommand{\umlHVimpl}[3][]{\umlHVrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlHVreal}[3][]{\umlHVrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlHVassoc}[3][]{\umlHVrelation[style={tikzuml association style}, #1]{#2}{#3}}%
\newcommand{\umlHVuniassoc}[3][]{\umlHVrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}}%
\newcommand{\umlHVaggreg}[3][]{\umlHVrelation[style={tikzuml aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlHVuniaggreg}[3][]{\umlHVrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlHVcompo}[3][]{\umlHVrelation[style={tikzuml composition style}, #1]{#2}{#3}}%
\newcommand{\umlHVunicompo}[3][]{\umlHVrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}}%
\newcommand{\umlHVimport}[3][]{\umlHVrelation[style={tikzuml import style}, #1]{#2}{#3}}%
\newcommand{\umlHVdep}[3][]{\umlHVrelation[style={tikzuml dependency style}, #1]{#2}{#3}}%
\newcommand{\umlHVfriend}[3][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVfriend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVfriend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlrelation[geometry=-|, stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHinherit}[3][]{\umlVHrelation[style={tikzuml inherit style}, #1]{#2}{#3}}%
\newcommand{\umlVHimpl}[3][]{\umlVHrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlVHreal}[3][]{\umlVHrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlVHassoc}[3][]{\umlVHrelation[style={tikzuml association style}, #1]{#2}{#3}}%
\newcommand{\umlVHuniassoc}[3][]{\umlVHrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}}%
\newcommand{\umlVHaggreg}[3][]{\umlVHrelation[style={tikzuml aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlVHuniaggreg}[3][]{\umlVHrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlVHcompo}[3][]{\umlVHrelation[style={tikzuml composition style}, #1]{#2}{#3}}%
\newcommand{\umlVHunicompo}[3][]{\umlVHrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}}%
\newcommand{\umlVHimport}[3][]{\umlVHrelation[style={tikzuml import style}, #1]{#2}{#3}}%
\newcommand{\umlVHdep}[3][]{\umlVHrelation[style={tikzuml dependency style}, #1]{#2}{#3}}%
\newcommand{\umlVHfriend}[3][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHfriend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHfriend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlrelation[geometry=|-, stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVHinherit}[3][]{\umlHVHrelation[style={tikzuml inherit style}, #1]{#2}{#3}}%
\newcommand{\umlHVHimpl}[3][]{\umlHVHrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlHVHreal}[3][]{\umlHVHrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlHVHassoc}[3][]{\umlHVHrelation[style={tikzuml association style}, #1]{#2}{#3}}%
\newcommand{\umlHVHuniassoc}[3][]{\umlHVHrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}}%
\newcommand{\umlHVHaggreg}[3][]{\umlHVHrelation[style={tikzuml aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlHVHuniaggreg}[3][]{\umlHVHrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlHVHcompo}[3][]{\umlHVHrelation[style={tikzuml composition style}, #1]{#2}{#3}}%
\newcommand{\umlHVHunicompo}[3][]{\umlHVHrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}}%
\newcommand{\umlHVHimport}[3][]{\umlHVHrelation[style={tikzuml import style}, #1]{#2}{#3}}%
\newcommand{\umlHVHdep}[3][]{\umlHVHrelation[style={tikzuml dependency style}, #1]{#2}{#3}}%
\newcommand{\umlHVHfriend}[3][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVHfriend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHfriend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlrelation[geometry=-|-, stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHVinherit}[3][]{\umlVHVrelation[style={tikzuml inherit style}, #1]{#2}{#3}}%
\newcommand{\umlVHVimpl}[3][]{\umlVHVrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlVHVreal}[3][]{\umlVHVrelation[style={tikzuml implements style}, #1]{#2}{#3}}%
\newcommand{\umlVHVassoc}[3][]{\umlVHVrelation[style={tikzuml association style}, #1]{#2}{#3}}%
\newcommand{\umlVHVuniassoc}[3][]{\umlVHVrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}}%
\newcommand{\umlVHVaggreg}[3][]{\umlVHVrelation[style={tikzuml aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlVHVuniaggreg}[3][]{\umlVHVrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}}%
\newcommand{\umlVHVcompo}[3][]{\umlVHVrelation[style={tikzuml composition style}, #1]{#2}{#3}}%
\newcommand{\umlVHVunicompo}[3][]{\umlVHVrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}}%
\newcommand{\umlVHVimport}[3][]{\umlVHVrelation[style={tikzuml import style}, #1]{#2}{#3}}%
\newcommand{\umlVHVdep}[3][]{\umlVHVrelation[style={tikzuml dependency style}, #1]{#2}{#3}}%
\newcommand{\umlVHVfriend}[3][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHVfriend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVfriend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlrelation[geometry=|-|, stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
% define a node
\newcommand{\umlnode}[2]{%
\node (#2) at (#1) {};%
}%
% main command to define a relation between two classes through a control node
% args : src class
% control node
% dest class
% optional : geometry of the line
% barycentric weight
% name of the src class type attribute defined by the relation
% multiplicity of the src class type attribute defined by the relation
% position on the relation
% text justification on the relation
% name of the dest class type attribute defined by the relation
% multiplicity of the dest class type attribute defined by the relation
% position on the relation
% border anchors
% text justification on the relation
% start angle, end angle and size of the relation (only if recursive)
% stereotype of the relation
% style of the relation (association, aggregation, composition, inherit, ...)
\newcommand{\umlCNrelation}[4][]%
{%
\pgfkeys{/tikzuml/relation/.cd, arg1/.initial={}, arg2/.initial={}, arg/.initial={},%
mult1/.initial={}, mult2/.initial={}, mult/.initial={},%
pos1/.initial=0.2, pos2/.initial=0.8, pos/.initial={tikzumlEmpty},%
align1/.initial={}, align2/.initial={}, align/.initial={},%
anchor1/.initial={tikzumlempty}, anchor2/.initial={tikzumlempty},%
stereo/.initial={}, pos stereo/.initial=1,%
style/.initial=->, name/.initial=relation-\thetikzumlRelationNum,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlCNrelation, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/relation/.cd,#1}%
\pgfkeys{/tikzuml/relation/.cd, arg1/.get=\attrName, arg2/.get=\attrNameTO, arg/.get=\attrNameTT,%
mult1/.get=\multiplicity, mult2/.get=\multiplicityTO, mult/.get=\multiplicityTT,%
pos1/.get=\position, pos2/.get=\positionTO, pos/.get=\positionTT,%
align1/.get=\align, align2/.get=\alignTO, align/.get=\alignTT,%
anchor1/.get=\tikzumlSrcAnchor, anchor2/.get=\tikzumlDestAnchor,%
stereo/.get=\stereo, pos stereo/.get=\positionStereotype,%
style/.get=\style, name/.get=\relationName}%
%
% managing \_ in class names for node names
\def\tikzumlSrcClassName{#2}%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlSrcClassNodeName{\tikzumlSrcClassName}}\x%
%
\StrSubstitute{\tikzumlSrcClassNodeName}{:}{@COLON@}[\tikzumlSrcClassNodeName]
%
\def\tikzumlDestClassName{#4}%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlDestClassNodeName{\tikzumlDestClassName}}\x%
%
\StrSubstitute{\tikzumlDestClassNodeName}{:}{@COLON@}[\tikzumlDestClassNodeName]
%
% managing alias keys
\def\attrNameT{\attrNameTO\attrNameTT}%
\def\multiplicityT{\multiplicityTO\multiplicityTT}%
\def\alignT{\alignTO\alignTT}%
\def\orientationT{\orientationTO\orientationTT}%
%
\ifthenelse{\equal{\positionTT}{tikzumlEmpty}}{%
\def\positionT{\positionTO}%
}{%
\def\positionT{\positionTT}%
}%
%
\def\attrAlign{}%
\def\multAlign{}%
\def\attrAlignT{}%
\def\multAlignT{}%
%
\ifthenelse{\equal{\align}{left}}{%
\def\attrAlign{above right}%
\def\multAlign{below right}%
}{%
\ifthenelse{\equal{\align}{right}}{%
\def\attrAlign{above left}%
\def\multAlign{below left}%
}{}%
}%
%
\ifthenelse{\equal{\alignT}{left}}{%
\def\attrAlignT{above right}%
\def\multAlignT{below right}%
}{%
\ifthenelse{\equal{\alignT}{right}}{%
\def\attrAlignT{above left}%
\def\multAlignT{below left}%
}{}%
}%
%
% def stereotype
\ifthenelse{\equal{\stereo}{}}{%
\def\stereotype{}%
}{%
\def\stereotype{$<<$\stereo$>>$}%
}%
%
% def anchors macros
\ifthenelse{\equal{\tikzumlSrcAnchor}{tikzumlempty}}{%
\def\tikzumlSrcAnchor{}%
}{%
\let\tikzumlSrcAnchorold\tikzumlSrcAnchor%
\def\tikzumlSrcAnchor{.\tikzumlSrcAnchorold}%
}%
%
\ifthenelse{\equal{\tikzumlDestAnchor}{tikzumlempty}}{%
\def\tikzumlDestAnchor{}%
}{%
\let\tikzumlDestAnchorold\tikzumlDestAnchor%
\def\tikzumlDestAnchor{.\tikzumlDestAnchorold}%
}%
%
\setcounter{pos}{100*\real{\position}}%
\setcounter{posT}{100*\real{\positionT}}%
\setcounter{posStereo}{100*\real{\positionStereotype}}%
%
\def\pos{\position}%
\def\posT{\positionT}%
\def\posStereo{\positionStereotype}%
%
% straight line
\def\tikzumlControlNodesNum{1}%
%
\def\tikzumlFirstArc{node[midway, name=\relationName-1, anchor=center] {} }%
\def\tikzumlLastArc{node[midway, name=\relationName-3, anchor=center]{} }%
\def\posAttrName{}%
\def\posMultiplicity{}%
\def\posAttrNameT{}%
\def\posMultiplicityT{}%
%
\begin{pgfonlayer}{connections}%
\node (\relationName-2) at (#3) {};%
\end{pgfonlayer}%
%
\ifnum\theposStereo>100%
\pgfmathsetmacro{\posStereo}{(\theposStereo-100)/100}%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\else%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posStereo, anchor=center] {\stereotype} }%
\fi%
%
\ifnum\thepos>100%
\pgfmathsetmacro{\pos}{(\thepos-100)/100}%
\def\arcNum{2}%
\else%
\def\arcNum{1}%
\ifnum\thepos=100%
\def\posAttrName{above left}%
\def\posMultiplicity{below right}%
\fi%
\fi%
%
\ifnum\arcNum=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
\ifnum\arcNum=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\pos, \posAttrName, \attrAlign] {\attrName}%
node[pos=\pos, swap, \posMultiplicity, \multAlign] {\multiplicity} }%
\fi%
%
\ifnum\theposT>100%
\pgfmathsetmacro{\posT}{(\theposT-100)/100}%
\def\arcNumT{2}%
\else%
\def\arcNumT{1}%
\ifnum\theposT=100%
\def\posAttrNameT{above left}%
\def\posMultiplicityT{below right}%
\fi%
\fi%
%
\ifnum\arcNumT=1%
\xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
\ifnum\arcNumT=2%
\xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\posT, \posAttrNameT, \attrAlignT] {\attrNameT}%
node[pos=\posT, swap, \posMultiplicityT, \multAlignT] {\multiplicityT} }%
\fi%
%
\xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlSrcAnchor) -- \tikzumlFirstArc (\relationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlDestAnchor) }%
\begin{pgfonlayer}{connections}%
\draw[auto, \style, font=\tikzumlfont] \tikzumlPath ;%
\end{pgfonlayer}%
%
\stepcounter{tikzumlRelationNum}%
}%
% shortcuts for cnrelations
\newcommand{\umlCNinherit}[4][]{\umlCNrelation[style={tikzuml inherit style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNimpl}[4][]{\umlCNrelation[style={tikzuml implements style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNreal}[4][]{\umlCNrelation[style={tikzuml implements style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNassoc}[4][]{\umlCNrelation[style={tikzuml association style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNuniassoc}[4][]{\umlCNrelation[style={tikzuml unidirectional association style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNaggreg}[4][]{\umlCNrelation[style={tikzuml aggregation style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNuniaggreg}[4][]{\umlCNrelation[style={tikzuml unidirectional aggregation style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNcompo}[4][]{\umlCNrelation[style={tikzuml composition style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNunicompo}[4][]{\umlCNrelation[style={tikzuml unidirectional composition style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNimport}[4][]{\umlCNrelation[style={tikzuml import style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNdep}[4][]{\umlCNrelation[style={tikzuml dependency style}, #1]{#2}{#3}{#4}}%
\newcommand{\umlCNfriend}[4][]{%
\pgfkeys{/tikzuml/friendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlCNfriend, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/friendrelation/.cd, #1}%
\umlCNrelation[stereo=friend, style={tikzuml dependency style}, #1]{#2}{#3}{#4}%
}%
% define a note
% arg : attached class
% label of the note
% optional : x,y coordinates of the note
% width of the note
% draw, fill, text colors
\newcommand{\umlnote}[3][]{% ajouter options weight, arm, anchor1, anchor2
\pgfkeys{/tikzuml/note/.cd, x/.initial=0, y/.initial=0, width/.initial=3cm, geometry/.initial=--,%
weight/.initial=0.5, arm/.initial={auto}, anchor1/.initial={tikzumlEmpty}, anchor2/.initial={tikzumlEmpty},%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillnotecolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlnote, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/note/.cd, #1}%
\pgfkeys{/tikzuml/note/.cd, x/.get=\tikzumlnoteX, y/.get=\tikzumlnoteY, width/.get=\notetextwidth, geometry/.get=\tikzumlnotegeometry,%
weight/.get=\tikzumlnoteweight, arm/.get=\tikzumlnotearm, anchor1/.get=\tikzumlnoteSrcAnchor, anchor2/.get=\tikzumlnoteDestAnchor,%
draw/.get=\tikzumlnotedraw, fill/.get=\tikzumlnotefill, text/.get=\tikzumlnotetext}%
%
\def\tikzumlClassName{#2}%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlClassNodeName{\tikzumlClassName}}\x%
%
% def anchors macros
\ifthenelse{\equal{\tikzumlnoteSrcAnchor}{tikzumlEmpty}}{%
\def\tikzumlnoteSrcAnchor{}%
}{%
\let\tikzumlnoteSrcAnchorold\tikzumlnoteSrcAnchor%
\def\tikzumlnoteSrcAnchor{.\tikzumlnoteSrcAnchorold}%
}%
%
\ifthenelse{\equal{\tikzumlnoteDestAnchor}{tikzumlEmpty}}{%
\def\tikzumlnoteDestAnchor{}%
}{%
\let\tikzumlnoteDestAnchorold\tikzumlnoteDestAnchor%
\def\tikzumlnoteDestAnchor{.\tikzumlnoteDestAnchorold}%
}%
%
\node[text=\tikzumlnotetext, text width=\notetextwidth, font=\tikzumlfont, outer sep=0, inner xsep=1ex, inner ysep=3ex] (note-\thetikzumlNoteNum-coord) at (\tikzumlnoteX, \tikzumlnoteY) {#3};%
\draw (note-\thetikzumlNoteNum-coord.north east) node[name=note-\thetikzumlNoteNum-right-top, below=2ex, inner sep=0] {};%
\draw (note-\thetikzumlNoteNum-coord.north east) node[name=note-\thetikzumlNoteNum-top-right, left=2ex, inner sep=0] {};%
\draw[draw=\tikzumlnotedraw, fill=\tikzumlnotefill] (note-\thetikzumlNoteNum-coord.south west) -- (note-\thetikzumlNoteNum-coord.south east) -- (note-\thetikzumlNoteNum-right-top.base) -- (note-\thetikzumlNoteNum-top-right.base) -- (note-\thetikzumlNoteNum-coord.north west) -- cycle;%
\node[text=\tikzumlnotetext, text width=\notetextwidth, outer sep=0, inner xsep=1ex, inner ysep=3ex, font=\tikzumlfont] (note-\thetikzumlNoteNum) at (note-\thetikzumlNoteNum-coord) {#3};%
\begin{scope}[shift=(note-\thetikzumlNoteNum.north east)]%
\draw[draw=\tikzumlnotedraw, fill=\tikzumlnotefill] (-2ex,-2ex) -- ++(2ex,0) -- ++(-2ex,2ex) -- cycle;%
\end{scope}%
%
\pgfmathsetmacro{\tikzumlnoteweightT}{1-\tikzumlnoteweight}
\node (note-\thetikzumlNoteNum-middle) at (barycentric cs:note-\thetikzumlNoteNum-coord=\tikzumlnoteweight,\tikzumlClassNodeName=\tikzumlnoteweightT) {};%
%
\ifthenelse{\equal{\tikzumlnotegeometry}{--}\OR\equal{\tikzumlnotegeometry}{-|}\OR\equal{\tikzumlnotegeometry}{|-}}{%
\edef\tikzumlnotepath{\tikzumlnotegeometry}
}{%
\ifthenelse{\equal{\tikzumlnotegeometry}{-|-}}{%
\ifthenelse{\equal{\tikzumlnotearm}{auto}}{%
\edef\tikzumlnotepath{-- (note-\thetikzumlNoteNum-coord\tikzumlassocclassSrcAnchor -| note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center |- \tikzumlClassNodeName\tikzumlassocclassDestAnchor) --}%
}{%
\draw (note-\thetikzumlNoteNum-coord\tikzumlnoteSrcAnchor)+(\tikzumlnotearm,0) node[name=note-\thetikzumlNoteNum-tmp] {};
\edef\tikzumlnotepath{-- (note-\thetikzumlNoteNum-tmp.center) |-}%
}%
}{%
\ifthenelse{\equal{\tikzumlnotegeometry}{|-|}}{%
\ifthenelse{\equal{\tikzumlnotearm}{auto}}{%
\edef\tikzumlnotepath{-- (note-\thetikzumlNoteNum-coord\tikzumlassocclassSrcAnchor |- note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center -| \tikzumlClassNodeName\tikzumlassocclassDestAnchor) --}%
}{%
\draw (note-\thetikzumlNoteNum-coord\tikzumlnoteSrcAnchor)+(0,\tikzumlnotearm) node[name=note-\thetikzumlNoteNum-tmp] {};
\edef\tikzumlnotepath{-- (note-\thetikzumlNoteNum-tmp.center) -|}%
}%
}{%
\errmessage{TIKZUML ERROR : Unknown geometry value !!! It should be in the following list : --, |-, -|, |-|, -|-}%
}%
}%
}%
%
\begin{pgfonlayer}{connections}%
\draw[dashed] (note-\thetikzumlNoteNum-coord\tikzumlnoteSrcAnchor) \tikzumlnotepath (\tikzumlClassNodeName\tikzumlnoteDestAnchor);%
\end{pgfonlayer}%
%
\stepcounter{tikzumlNoteNum}%
}%
% shortcuts for note with geometry
\newcommand{\umlHVnote}[3][]{%
\pgfkeys{/tikzuml/note/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVnote, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/note/.cd, #1}%
\umlnote[geometry=-|, #1]{#2}{#3}%
}%
\newcommand{\umlVHnote}[3][]{%
\pgfkeys{/tikzuml/note/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHnote, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/note/.cd, #1}%
\umlnote[geometry=|-, #1]{#2}{#3}%
}%
\newcommand{\umlVHVnote}[3][]{%
\pgfkeys{/tikzuml/note/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVnote, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/note/.cd, #1}%
\umlnote[geometry=|-|, #1]{#2}{#3}%
}%
\newcommand{\umlHVHnote}[3][]{%
\pgfkeys{/tikzuml/note/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHnote, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/note/.cd, #1}%
\umlnote[geometry=-|-, #1]{#2}{#3}%
}%
% define a uml association class (command)
% args : name of the class
% attributes of the class
% operations of the class
% optional : x,y coordinates of the class
% width of the class node
% type of class (class, interface, typedef, enum)
% template parameters
% draw, fill, text colors
\newcommand{\umlassocclass}[5][]{%
\pgfkeys{/tikzuml/assocclass/.cd, x/.initial=0, y/.initial=0, width/.initial=10ex, type/.initial=class, template/.initial={}, name/.initial={tikzumlEmpty}, geometry/.initial=--,%
weight/.initial=0.5, arm/.initial={auto}, anchor1/.initial={tikzumlEmpty}, anchor2/.initial={tikzumlEmpty},%
draw/.initial=\tikzumldrawcolor, fill template/.initial=\tikzumlfilltemplatecolor, fill/.initial=\tikzumlfillclasscolor,%
text/.initial=\tikzumltextcolor, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlassocclass, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/assocclass/.cd,#1}%
\pgfkeys{/tikzuml/assocclass/.cd, x/.get=\umlassocclassX, y/.get=\umlassocclassY, width/.get=\umlassocclassMinimumWidth, type/.get=\umlassocclassType, template/.get=\umlassocclassTemplateParam,%
name/.get=\umlassocclassName, geometry/.get=\tikzumlassocclassgeometry,%
weight/.get=\tikzumlassocclassweight, arm/.get=\tikzumlassocclassarm, anchor1/.get=\tikzumlassocclassSrcAnchor, anchor2/.get=\tikzumlassocclassDestAnchor,%
draw/.get=\tikzumlassocclassdraw, fill/.get=\tikzumlassocclassfill, text/.get=\tikzumlassocclasstext, fill template/.get=\tikzumlassocclasstemplate}%
%
\ifthenelse{\equal{\umlassocclassType}{class}\OR\equal{\umlassocclassType}{abstract}}{%
\def\tikzumlAssocClassType{}%
}{%
\def\tikzumlAssocClassType{$<<$\umlassocclassType$>>$ \\}%
}%
%
\ifthenelse{\equal{\umlassocclassTemplateParam}{}}{%
\def\tikzumlAssocClassVPadding{}%
\def\tikzumlAssocClassHPadding{}%
}{%
\def\tikzumlAssocClassVPadding{\vspace{0.1em} \\}%
\def\tikzumlAssocClassHPadding{\hspace{0.5ex} $ $}%
}%
%
\def\tikzumlAssocClassName{#2}%
\def\tikzumlAssocClassRelationName{#3}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlAssocClassNodeName{\tikzumlAssocClassName}}\x%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlAssocClassRelationNodeName{\tikzumlAssocClassRelationName}}\x%
%
\ifthenelse{\equal{\umlassocclassName}{tikzumlEmpty}}{}{%
\def\tikzumlAssocClassNodeName{\umlassocclassName}%
}%
%
\StrSubstitute{\tikzumlAssocClassNodeName}{:}{@COLON@}[\tikzumlAssocClassNodeName]
%
\ifthenelse{\equal{\umlassocclassType}{abstract}}{%
\let\tikzumlAssocClassNameOld\tikzumlAssocClassName%
\def\tikzumlAssocClassName{{\it \tikzumlAssocClassNameOld}}%
}{}%
%
\def\tikzumlAssocClassPos{\umlassocclassX,\umlassocclassY}%
\def\tikzumlAssocClassAttributes{#4}%
\def\tikzumlAssocClassOperations{#5}%
%
% def anchors macros
\ifthenelse{\equal{\tikzumlassocclassSrcAnchor}{tikzumlEmpty}}{%
\def\tikzumlassocclassSrcAnchor{}%
}{%
\let\tikzumlassocclassSrcAnchorold\tikzumlassocclassSrcAnchor%
\def\tikzumlassocclassSrcAnchor{.\tikzumlassocclassSrcAnchorold}%
}%
%
\ifthenelse{\equal{\tikzumlassocclassDestAnchor}{tikzumlEmpty}}{%
\def\tikzumlassocclassDestAnchor{}%
}{%
\let\tikzumlassocclassDestAnchorold\tikzumlassocclassDestAnchor%
\def\tikzumlassocclassDestAnchor{.\tikzumlassocclassDestAnchorold}%
}%
%
\node[tikzuml class style, draw=\tikzumlassocclassdraw, fill=\tikzumlassocclassfill, text=\tikzumlassocclasstext, font=\tikzumlfont, minimum width=\umlassocclassMinimumWidth] (\tikzumlAssocClassNodeName) at (\tikzumlAssocClassPos) {\begin{tabular}{c}\tikzumlAssocClassVPadding \tikzumlAssocClassType \tikzumlAssocClassHPadding \textbf{\tikzumlAssocClassName} \tikzumlAssocClassHPadding \end{tabular}%
\nodepart{second}%
\begin{tabular}{l}%
\tikzumlAssocClassAttributes%
\end{tabular}%
\nodepart{third}%
\begin{tabular}{l}%
\tikzumlAssocClassOperations%
\end{tabular}%
};%
%
\ifthenelse{\equal{\umlassocclassTemplateParam}{}}{}{%
\draw (\tikzumlAssocClassNodeName.north east) node[tikzuml template style, name=\tikzumlAssocClassNodeName-template, draw=\tikzumlassocclassdraw, fill=\tikzumlassocclasstemplate, text=\tikzumlassocclasstext, font=\tikzumlfont] {\umlassocclassTemplateParam};%
}%
%
\pgfmathsetmacro{\tikzumlassocclassweightT}{1-\tikzumlassocclassweight}
\node (\tikzumlAssocClassNodeName-middle) at (barycentric cs:\tikzumlAssocClassNodeName=\tikzumlnoteweight,\tikzumlAssocClassRelationNodeName=\tikzumlnoteweightT) {};%
%
\ifthenelse{\equal{\tikzumlassocclassgeometry}{--}\OR\equal{\tikzumlassocclassgeometry}{-|}\OR\equal{\tikzumlassocclassgeometry}{|-}}{%
\edef\tikzumlassocclasspath{\tikzumlassocclassgeometry}
}{%
\ifthenelse{\equal{\tikzumlassocclassgeometry}{-|-}}{%
\ifthenelse{\equal{\tikzumlassocclassarm}{auto}}{%
\edef\tikzumlassocclasspath{-- (\tikzumlAssocClassNodeName\tikzumlassocclassSrcAnchor -| \tikzumlAssocClassNodeName-middle.center) -- (\tikzumlAssocClassNodeName-middle.center) -- (\tikzumlAssocClassNodeName-middle.center |- \tikzumlAssocClassRelationNodeName\tikzumlassocclassDestAnchor) --}%
}{%
\draw (\tikzumlAssocClassNodeName\tikzumlassocclassSrcAnchor)+(\tikzumlassocclassarm,0) node[name=\tikzumlAssocClassNodeName-tmp] {};
\edef\tikzumlnotepath{-- (\tikzumlAssocClassNodeName-tmp.center) |-}%
}%
}{%
\ifthenelse{\equal{\tikzumlassocclassgeometry}{|-|}}{%
\ifthenelse{\equal{\tikzumlassocclassarm}{auto}}{%
\edef\tikzumlassocclasspath{-- (\tikzumlAssocClassNodeName\tikzumlassocclassSrcAnchor |- \tikzumlAssocClassNodeName-middle.center) -- (\tikzumlAssocClassNodeName-middle.center) -- (\tikzumlAssocClassNodeName-middle.center -| \tikzumlAssocClassRelationNodeName\tikzumlassocclassDestAnchor) --}%
}{%
\draw (\tikzumlAssocClassNodeName\tikzumlassocclassSrcAnchor)+(0,\tikzumlassocclassarm) node[name=\tikzumlAssocClassNodeName-tmp] {};
\edef\tikzumlassocclasspath{-- (\thetikzumlAssocClassNodeName-tmp.center) -|}%
}%
}{%
\errmessage{TIKZUML ERROR : Unknown geometry value !!! It should be in the following list : --, |-, -|, |-|, -|-}%
}%
}%
}%
%
\begin{pgfonlayer}{connections}%
\draw[dashed] (\tikzumlAssocClassNodeName\tikzumlassocclassSrcAnchor) \tikzumlassocclasspath (\tikzumlAssocClassRelationNodeName\tikzumlassocclassDestAnchor);%
\end{pgfonlayer}%
%
%
% add to fit
\ifnum\c@tikzumlPackageLevel>0%
\edef\tikzumlPackageFitOld{\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname}%
\ifthenelse{\equal{\umlassocclassTemplateParam}{}}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlAssocClassNodeName)(\tikzumlAssocClassNodeName-middle)}%
}{%
\expandafter\xdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{\tikzumlPackageFitOld (\tikzumlAssocClassNodeName) (\tikzumlAssocClassNodeName-template)(\tikzumlAssocClassNodeName-middle)}%
}%
\stepcounter{tikzumlPackageClassNum}%
\fi%
}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% use case diagrams %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\tikzstyle{tikzuml usecase style}=[ellipse, text centered]%
\tikzstyle{tikzuml actor style}=[ellipse, inner sep=0, outer sep=0]%
\newcounter{tikzumlSystemUseCaseNum}%
\newcounter{tikzumlSystemLevel}%
\newcounter{tikzumlUseCaseNum}%
\newcounter{tikzumlActorNum}%
% define a system
% arg : name
% optional : x, y coordinates of the system
% draw, fill, text colors
\newenvironment{umlsystem}[2][]{%
\gdef\tikzumlSystemFit{}%
\def\tikzumlSystemName{#2}%
\setcounter{tikzumlSystemUseCaseNum}{0}%
%
\pgfkeys{/tikzuml/system/.cd, x/.initial=0, y/.initial=0, x/.default=0, y/.default=0,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillsystemcolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlsystem, invalid option \keyname}%
}}%
%
\pgfkeys{/tikzuml/system/.cd, #1}%
\pgfkeys{/tikzuml/system/.cd, x/.get=\xshift, y/.get=\yshift, draw/.get=\tikzumlsystemdraw, fill/.get=\tikzumlsystemfill, text/.get=\tikzumlsystemtext}%
%
\stepcounter{tikzumlSystemLevel}%
%
\begin{scope}[xshift=\xshift cm, yshift=\yshift cm]%
}{%
\addtocounter{tikzumlSystemLevel}{-1}%
% if contains no usecase, one define a fictive node to enable the fit option
\ifnum\c@tikzumlSystemUseCaseNum=0%
\node[inner xsep=10ex, inner ysep=1em] (\tikzumlSystemName-root) at (0,0) {};%
\xdef\tikzumlSystemFit{(\tikzumlSystemName-root)}%
\fi%
%
\begin{pgfonlayer}{background}%
\node[inner ysep=1em, inner xsep=2ex, fit = \tikzumlSystemFit] (\tikzumlSystemName-tmp) {};%
\node[text=\tikzumlsystemtext, font=\tikzumlfont] (\tikzumlSystemName-caption-tmp) at (\tikzumlSystemName-tmp.north) {\tikzumlSystemName};%
\node[draw=\tikzumlsystemdraw, fill=\tikzumlsystemfill, text=\tikzumlsystemtext, font=\tikzumlfont, inner ysep=1em, inner xsep=2ex, fit = (\tikzumlSystemName-tmp) (\tikzumlSystemName-caption-tmp)] (\tikzumlSystemName) {};%
\node[text=\tikzumlsystemtext, font=\tikzumlfont] (\tikzumlSystemName-caption) at (\tikzumlSystemName-caption-tmp.north) {\tikzumlSystemName};%
\end{pgfonlayer}%
\end{scope}%
%
}%
% define a use case
% arg : label of the use case
% optional : x, y coordinates of the use case
% name of the node
% draw, fill, text colors
\newcommand{\umlusecase}[2][]{%
\stepcounter{tikzumlUseCaseNum}%
\pgfkeys{/tikzuml/usecase/.cd, x/.initial=0, y/.initial=0, width/.initial=auto, name/.initial=usecase-\thetikzumlUseCaseNum,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillusecasecolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlusecase, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/usecase/.cd, #1}%
\pgfkeys{/tikzuml/usecase/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlusecasetextwidth, name/.get=\usecaseName,%
draw/.get=\tikzumlusecasedraw, fill/.get=\tikzumlusecasefill, text/.get=\tikzumlusecasetext}%
%
\def\tikzumlUseCaseText{#2}%
%
\def\tikzumlUseCasePos{\posx,\posy}%
%
\ifthenelse{\equal{\tikzumlusecasetextwidth}{auto}}{%
\node[tikzuml usecase style, draw=\tikzumlusecasedraw, fill=\tikzumlusecasefill, text=\tikzumlusecasetext, font=\tikzumlfont] (\usecaseName) at (\tikzumlUseCasePos) {\tikzumlUseCaseText};%
}{%
\node[tikzuml usecase style, draw=\tikzumlusecasedraw, fill=\tikzumlusecasefill, text=\tikzumlusecasetext, font=\tikzumlfont, text width=\tikzumlusecasetextwidth] (\usecaseName) at (\tikzumlUseCasePos) {\tikzumlUseCaseText};%
}%
%
% add to fit
\ifnum\c@tikzumlSystemLevel>0%
\let\tikzumlSystemFitOld\tikzumlSystemFit%
\xdef\tikzumlSystemFit{\tikzumlSystemFitOld (\usecaseName)}%
\stepcounter{tikzumlSystemUseCaseNum}%
\fi%
}%
% define the actor symbol
% optional : global tikzpicture styles
\newcommand{\picturedactor}[1]{%
\pgfkeys{/tikzuml/picactor/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/picactor/.cd,#1}%
\pgfkeys{/tikzuml/picactor/.cd, scale/.get=\tikzumlpicactorscale}%
%
\begin{tikzpicture}[#1]
\coordinate (head) at (0,4ex);
\coordinate (left-hand) at (-2ex,2ex);
\coordinate (right-hand) at (2ex,2ex);
\coordinate (left-foot) at (-2ex,-2ex);
\coordinate (right-foot) at (2ex,-2ex);
\coordinate (empty) at (0,-3ex);
\draw (empty) (0,0) -- (head);
\draw (left-hand) -- (right-hand);
\draw (0,0) -- (left-foot) (0,0) -- (right-foot);
\node[fill, draw, circle, inner sep=\tikzumlpicactorscale*0.3333ex, minimum size=\tikzumlpicactorscale*2ex] at (head) {};
\end{tikzpicture}
}%
% define an actor
% arg : var name
% optional : x, y coordinates of the actor
% name of the node
% draw, text colors
\newcommand{\umlactor}[2][]{%
\stepcounter{tikzumlActorNum}%
\pgfkeys{/tikzuml/actor/.cd, x/.initial=0, y/.initial=0, scale/.initial=1, below/.initial=0.5cm,%
draw/.initial=\tikzumldrawcolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlactor, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/actor/.cd, #1}%
\pgfkeys{/tikzuml/actor/.cd, x/.get=\posx, y/.get=\posy, scale/.get=\tikzumlactorscale, below/.get=\tikzumlactorbelow,%
draw/.get=\tikzumlactordraw, text/.get=\tikzumlactortext}%
%
\def\tikzumlActorName{#2}%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlActorNodeName{\tikzumlActorName}}\x%
%
\def\tikzumlActorPos{\posx,\posy}%
%
\ifthenelse{\equal{}{tikzumlEmpty}}{}{}
\node[tikzuml actor style, text=\tikzumlactortext, font=\tikzumlfont] (\tikzumlActorNodeName) at (\tikzumlActorPos) {\picturedactor{scale=\tikzumlactorscale, fill=white, draw=\tikzumlactordraw, thick}};%
\node[text=\tikzumlactortext, font=\tikzumlfont, below=\tikzumlactorscale*\tikzumlactorbelow] at (\tikzumlActorNodeName) {\tikzumlActorName};%
%
}%
% shortcuts for include and extend relation
\newcommand{\umlinclude}[3][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlinclude, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlinclude, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlrelation[stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlextend}[3][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlextend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlextend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlrelation[stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVinclude}[3][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVinclude, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVinclude, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlrelation[geometry=-|, stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVextend}[3][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVextend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVextend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlrelation[geometry=-|, stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHinclude}[3][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHinclude, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHinclude, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlrelation[geometry=|-, stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHextend}[3][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR :in umlVHextend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHextend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlrelation[geometry=|-, stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVHinclude}[3][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVHinclude, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHinclude, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlrelation[geometry=-|-, stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlHVHextend}[3][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVHextend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHextend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlrelation[geometry=-|-, stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHVinclude}[3][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHVinclude, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVinclude, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlrelation[geometry=|-|, stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlVHVextend}[3][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHVextend, forbidden option stereo}%
}{%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVextend, forbidden option geometry}%
}{}%
}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlrelation[geometry=|-|, stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}%
}%
\newcommand{\umlCNinclude}[4][]{%
\pgfkeys{/tikzuml/includerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlCNinclude, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/includerelation/.cd, #1}%
\umlCNrelation[stereo=include, style={tikzuml dependency style}, #1]{#2}{#3}{#4}%
}%
\newcommand{\umlCNextend}[4][]{%
\pgfkeys{/tikzuml/extendrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlCNextend, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/extendrelation/.cd, #1}%
\umlCNrelation[stereo=extend, style={tikzuml dependency style}, #1]{#2}{#3}{#4}%
}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% state diagrams %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\tikzstyle{tikzuml state style}=[rectangle split, rectangle split parts=2, rounded corners, inner xsep=1.5ex]%
\tikzstyle{tikzuml transition style}=[color=\tikzumldrawcolor, rounded corners, -angle 45]%
\newcounter{tikzumlStateJoinNum}%
\newcounter{tikzumlStateDecisionNum}%
\newcounter{tikzumlStateInitialNum}%
\newcounter{tikzumlStateFinalNum}%
\newcounter{tikzumlStateEnterNum}%
\newcounter{tikzumlStateExitNum}%
\newcounter{tikzumlStateEndNum}%
\newcounter{tikzumlStateHistoryNum}%
\newcounter{tikzumlStateDeepHistoryNum}%
\newcounter{tikzumlStateLevel}%
\newcounter{tikzumlStateSubStateNum}%
\newcounter{tikzumlStateText}%
\newcommand{\umlstatejoin}[1][]{%
\pgfkeys{/tikzuml/statejoin/.cd, x/.initial=0, y/.initial=0, width/.initial=3ex,%
name/.initial=statejoin-\thetikzumlStateJoinNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstatejoin, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/statejoin/.cd, #1}%
\pgfkeys{/tikzuml/statejoin/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstatejoinwidth,%
name/.get=\tikzumlstatejoinname, color/.get=\tikzumlstatejoincolor}%
%
\def\tikzumlStateJoinPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstatejoinwidth, draw=\tikzumlstatejoincolor, fill=\tikzumlstatejoincolor] (\tikzumlstatejoinname) at (\tikzumlStateJoinPos) {};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstatejoinname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateJoinNum}%
}%
\newcommand{\umlstatedecision}[1][]{%
\pgfkeys{/tikzuml/statedecision/.cd, x/.initial=0, y/.initial=0, width/.initial=3ex,%
name/.initial=statedecision-\thetikzumlStateDecisionNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstatedecision, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/statedecision/.cd, #1}%
\pgfkeys{/tikzuml/statedecision/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstatedecisionwidth,%
name/.get=\tikzumlstatedecisionname, color/.get=\tikzumlstatedecisioncolor}%
%
\def\tikzumlStateDecisionPos{\posx,\posy}%
%
\node[rectangle, rotate=45, minimum size=\tikzumlstatedecisionwidth, draw=\tikzumlstatedecisioncolor] (\tikzumlstatedecisionname) at (\tikzumlStateDecisionPos) {};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstatedecisionname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateDecisionNum}%
}%
\newcommand{\umlstateinitial}[1][]{%
\pgfkeys{/tikzuml/stateinitial/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=stateinitial-\thetikzumlStateInitialNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstateinitial, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/stateinitial/.cd, #1}%
\pgfkeys{/tikzuml/stateinitial/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstateinitialwidth,%
name/.get=\tikzumlstateinitialname, color/.get=\tikzumlstateinitialcolor}%
%
\def\tikzumlStateInitialPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstateinitialwidth, fill=\tikzumlstateinitialcolor] (\tikzumlstateinitialname) at (\tikzumlStateInitialPos) {};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstateinitialname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateInitialNum}%
}%
\newcommand{\umlstatefinal}[1][]{%
\pgfkeys{/tikzuml/statefinal/.cd, x/.initial=0, y/.initial=0, width/.initial=5.5ex,%
name/.initial=statefinal-\thetikzumlStateFinalNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstatefinal, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/statefinal/.cd, #1}%
\pgfkeys{/tikzuml/statefinal/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstatefinalwidth,%
name/.get=\tikzumlstatefinalname, color/.get=\tikzumlstatefinalcolor}%
%
\def\tikzumlStateFinalPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstatefinalwidth, draw=\tikzumlstatefinalcolor, fill=\tikzumlstatefinalcolor, double, double distance=0.1cm] (\tikzumlstatefinalname) at (\tikzumlStateFinalPos) {};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstatefinalname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateFinalNum}%
}%
\newcommand{\umlstateenter}[1][]{%
\pgfkeys{/tikzuml/stateenter/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=stateenter-\thetikzumlStateEnterNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstateenter, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/stateenter/.cd, #1}%
\pgfkeys{/tikzuml/stateenter/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstateenterwidth,%
name/.get=\tikzumlstateentername, color/.get=\tikzumlstateentercolor}%
%
\def\tikzumlStateEnterPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstateenterwidth, draw=\tikzumlstateentercolor] (\tikzumlstateentername) at (\tikzumlStateEnterPos) {};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstateentername)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateEnterNum}%
}%
\newcommand{\umlstateexit}[1][]{%
\pgfkeys{/tikzuml/stateexit/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=stateexit-\thetikzumlStateExitNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstateexit, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/stateexit/.cd, #1}%
\pgfkeys{/tikzuml/stateexit/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstateexitwidth,%
name/.get=\tikzumlstateexitname, color/.get=\tikzumlstateexitcolor}%
%
\def\tikzumlStateExitPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstateexitwidth, draw=\tikzumlstateexitcolor] (\tikzumlstateexitname) at (\tikzumlStateExitPos) {};%
\draw[draw=\tikzumlstateexitcolor] (\tikzumlstateexitname.north east) -- (\tikzumlstateexitname.south west) (\tikzumlstateexitname.north west) -- (\tikzumlstateexitname.south east);
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstateexitname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateExitNum}%
}%
\newcommand{\umlstateend}[1][]{%
\pgfkeys{/tikzuml/stateend/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=stateend-\thetikzumlStateEndNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstateend, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/stateend/.cd, #1}%
\pgfkeys{/tikzuml/stateend/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstateendwidth,%
name/.get=\tikzumlstateendname, color/.get=\tikzumlstateendcolor}%
%
\def\tikzumlStateEndPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstateendwidth] (\tikzumlstateendname) at (\tikzumlStateEndPos) {};%
\draw[draw=\tikzumlstateendcolor] (\tikzumlstateendname.north east) -- (\tikzumlstateendname.south west) (\tikzumlstateendname.north west) -- (\tikzumlstateendname.south east);
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstateendname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateEndNum}%
}%
\newcommand{\picturedhistory}[1]{%
\begin{tikzpicture}[#1]
\draw[thick] (-0.1cm,-0.15cm) -- (-0.1cm,0.15cm)
(-0.1cm,0) -- (0.1cm,0)
(0.1cm,-0.15cm) -- (0.1cm,0.15cm);
\end{tikzpicture}
}%
\newcommand{\umlstatehistory}[1][]{%
\pgfkeys{/tikzuml/statehistory/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=statehistory-\thetikzumlStateHistoryNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstatehistory, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/statehistory/.cd, #1}%
\pgfkeys{/tikzuml/statehistory/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstatehistorywidth,%
name/.get=\tikzumlstatehistoryname, color/.get=\tikzumlstatehistorycolor}%
%
\def\tikzumlStateHistoryPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstatehistorywidth, draw=\tikzumlstatehistorycolor] (\tikzumlstatehistoryname) at (\tikzumlStateHistoryPos) {\picturedhistory{draw=\tikzumlstatehistorycolor}};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstatehistoryname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateHistoryNum}%
}%
\newcommand{\pictureddeephistory}[1]{%
\begin{tikzpicture}[#1]
\draw[thick] (-0.1cm,-0.15cm) -- (-0.1cm,0.15cm)
(-0.1cm,0) -- (0.1cm,0)
(0.1cm,-0.15cm) -- (0.1cm,0.15cm)
(0.23cm,0.19cm) -- (0.23cm,0.11cm)
(0.20cm,0.17cm) -- (0.26cm,0.13cm)
(0.20cm,0.13cm) -- (0.26cm,0.17cm);
\end{tikzpicture}
}%
\newcommand{\umlstatedeephistory}[1][]{%
\pgfkeys{/tikzuml/statedeephistory/.cd, x/.initial=0, y/.initial=0, width/.initial=5ex,%
name/.initial=statedeephistory-\thetikzumlStateDeepHistoryNum, color/.initial=\tikzumldrawcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstatedeephistory, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/statedeephistory/.cd, #1}%
\pgfkeys{/tikzuml/statedeephistory/.cd, x/.get=\posx, y/.get=\posy, width/.get=\tikzumlstatedeephistorywidth,%
name/.get=\tikzumlstatedeephistoryname, color/.get=\tikzumlstatedeephistorycolor}%
%
\def\tikzumlStateDeepHistoryPos{\posx,\posy}%
%
\node[circle, minimum size=\tikzumlstatedeephistorywidth, draw=\tikzumlstatedeephistorycolor] (\tikzumlstatedeephistoryname) at (\tikzumlStateDeepHistoryPos) {\pictureddeephistory{draw=\tikzumlstatedeephistorycolor}};%
%
% add to fit
\ifnum\c@tikzumlStateLevel>0%
\edef\tikzumlStateFitOld{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitOld (\tikzumlstatedeephistoryname)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
\stepcounter{tikzumlStateDeepHistoryNum}%
}%
% define a uml state
% args : name of the state
% content of the state
% optional args : x,y coordinates of the state
% width of the state node
\newenvironment{umlstate}[2][]{%
\ifnum\thetikzumlStateLevel>0%
\let\tikzumlState@nameold\tikzumlState@fitname%
\let\tikzumlState@parentold\tikzumlState@parent%
\edef\tikzumlState@parent{\tikzumlState@parentold @@\tikzumlState@nameold}%
\else%
\def\tikzumlState@parent{}%
\fi%
\stepcounter{tikzumlStateLevel}%
\pgfkeys{/tikzuml/state/.cd, x/.initial=0, y/.initial=0, width/.initial=10ex, type/.initial=class, name/.initial={},%
entry/.initial={}, do/.initial={}, exit/.initial={},%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillstatecolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlstate, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/state/.cd, #1}%
\pgfkeys{/tikzuml/state/.cd, x/.get=\tikzumlstateX, y/.get=\tikzumlstateY, width/.get=\umlstateMinimumWidth, type/.get=\umlstateType, name/.get=\umlstateName,%
entry/.get=\umlstateentry, do/.get=\umlstatedo, exit/.get=\umlstateexit,%
draw/.get=\tikzumlstatedraw, fill/.get=\tikzumlstatefill, text/.get=\tikzumlstatetext}%
%
\ifthenelse{\equal{\umlstateName}{}}{%
\edef\tikzumlState@name{#2}%
}{%
\edef\tikzumlState@name{\umlstateName}%
}%
%
\begingroup%
\def\_{@}\edef\x{\endgroup%
\def\noexpand\tikzumlState@fitname{\tikzumlState@name}}\x%
%
\let\tikzumlState@nodeNameold\tikzumlState@nodeName%
\def\tikzumlState@caption{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlState@nodeName{\tikzumlState@name}}\x%
%
\expandafter\gdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{}%
%
\setcounter{tikzumlStateSubStateNum}{0}%
\setcounter{tikzumlStateText}{0}%
%
\def\tikzumlStateText{tikzumlEmpty}%
\begin{scope}[xshift=\tikzumlstateX cm, yshift=\tikzumlstateY cm]%
}{%
%
\def\tikzumlstaterootlabel{\phantom{\tikzumlState@nodeName}}%
%
\def\tikzumlstaterootinnerysep{0.5ex}%
\def\tikzumlstatebodyinnerysep{2ex}%
%
\ifthenelse{\equal{\umlstateentry}{}}{}{%
\def\tikzumlStateText{entry/\umlstateentry}%
\setcounter{tikzumlStateText}{1}%
\ifnum\c@tikzumlStateSubStateNum=0%
\def\tikzumlstatebodyinnerysep{0}%
\def\tikzumlstaterootinnerysep{0}%
\fi%
}%
\ifthenelse{\equal{\umlstatedo}{}}{}{%
\ifnum\c@tikzumlStateText=0%
\def\tikzumlStateText{do/\umlstatedo}%
\else%
\let\tikzumlStateTextOld\tikzumlStateText%
\def\tikzumlStateText{\tikzumlStateTextOld \\ do/\umlstatedo}%
\fi%
\setcounter{tikzumlStateText}{1}%
\ifnum\c@tikzumlStateSubStateNum=0%
\def\tikzumlstatebodyinnerysep{0}%
\def\tikzumlstaterootinnerysep{0}%
\fi%
}%
\ifthenelse{\equal{\umlstateexit}{}}{}{%
\ifnum\c@tikzumlStateText=0%
\def\tikzumlStateText{exit/\umlstateexit}%
\else%
\let\tikzumlStateTextOld\tikzumlStateText%
\def\tikzumlStateText{\tikzumlStateTextOld \\ exit/\umlstateexit}%
\fi%
\setcounter{tikzumlStateText}{1}%
\ifnum\c@tikzumlStateSubStateNum=0%
\def\tikzumlstatebodyinnerysep{0}%
\def\tikzumlstaterootinnerysep{0}%
\fi%
}%
%
\addtocounter{tikzumlStateLevel}{-1}%
\begin{pgfonlayer}{state\thetikzumlStateLevel}%
%
% if contains nothing, one define a fictive node to enable the fit option
\ifnum\c@tikzumlStateSubStateNum=0%
\node[inner ysep=\tikzumlstaterootinnerysep] (\tikzumlState@nodeName-root) at (0,0) {\tikzumlstaterootlabel};%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{(\tikzumlState@nodeName-root)}%
\fi%
%
\ifnum\c@tikzumlStateLevel>0%
\def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent\endcsname}%
\expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent\endcsname{\tikzumlStateFitTmp (\tikzumlState@nodeName-body) (\tikzumlState@nodeName-caption)}%
\stepcounter{tikzumlStateSubStateNum}%
\fi%
%
\node[inner xsep=2ex, inner ysep=\tikzumlstatebodyinnerysep, fit = \csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname] (\tikzumlState@nodeName-body) {};%
\def\tikzumlState@orig{body}%
\ifnum\c@tikzumlStateText=1%
\node[above=0] (\tikzumlState@nodeName-texttmp) at (\tikzumlState@nodeName-\tikzumlState@orig.north) {\begin{tabular}{l}\tikzumlStateText \end{tabular}};%
\def\tikzumlState@orig{texttmp}%
\fi%
\node[above] (\tikzumlState@nodeName-captiontmp) at (\tikzumlState@nodeName-\tikzumlState@orig.north) {\tikzumlState@caption};%
\node[rounded corners, draw=\tikzumlstatedraw, fill=\tikzumlstatefill, name=\tikzumlState@nodeName, fit=(\tikzumlState@nodeName-body) (\tikzumlState@nodeName-captiontmp)] {};%
\ifnum\c@tikzumlStateText=1%
\node (\tikzumlState@nodeName-text) at (\tikzumlState@nodeName-texttmp) {\begin{tabular}{l}\tikzumlStateText \end{tabular}};%
\fi%
\node (\tikzumlState@nodeName-caption) at (\tikzumlState@nodeName-captiontmp) {\tikzumlState@caption};%
\draw (\tikzumlState@nodeName-caption.south -| \tikzumlState@nodeName.north west) -- (\tikzumlState@nodeName-caption.south -| \tikzumlState@nodeName.north east);%
\end{pgfonlayer}%
\end{scope}%
}%
% shortcut for empty state
\newcommand{\umlbasicstate}[2][]{\begin{umlstate}[#1]{#2} \end{umlstate}}%
% command to add text in a state
\newcommand{\umlstatetext}[1]{%
\def\tikzumlStateText{#1}%
\setcounter{tikzumlStateText}{1}%
}%
% shortcuts for state transitions macros
\newcommand{\umltrans}[3][]{%
\ifthenelse{\equal{#2}{#3}}{%
\umlrelation[style={tikzuml transition style}, recursive mode=transition, #1]{#2}{#3}%
}{%
\umlrelation[style={tikzuml transition style}, #1]{#2}{#3}%
}%
}%
\newcommand{\umlHVtrans}[3][]{\umlHVrelation[style={tikzuml transition style}, #1]{#2}{#3}}%
\newcommand{\umlVHtrans}[3][]{\umlVHrelation[style={tikzuml transition style}, #1]{#2}{#3}}%
\newcommand{\umlVHVtrans}[3][]{\umlVHVrelation[style={tikzuml transition style}, #1]{#2}{#3}}%
\newcommand{\umlHVHtrans}[3][]{\umlHVHrelation[style={tikzuml transition style}, #1]{#2}{#3}}%
\newcommand{\umlCNtrans}[4][]{\umlCNrelation[style={tikzuml transition style}, #1]{#2}{#3}{#4}}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% sequence diagrams %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\tikzstyle{tikzuml synchron-msg style}=[color=\tikzumldrawcolor, -triangle 45]%
\tikzstyle{tikzuml asynchron-msg style}=[color=\tikzumldrawcolor, -angle 45]%
\tikzstyle{tikzuml return-msg style}=[color=\tikzumldrawcolor, dashed, -angle 45]%
\tikzstyle{tikzuml call return style}=[color=\tikzumldrawcolor, dashed, -angle 45]%
\tikzstyle{tikzuml activity style}=[inner xsep=1ex, inner ysep=1ex]%
\newcounter{tikzumlObjectNum}
\newcounter{tikzumlCallLevel}
\newcounter{tikzumlCallNum}
\newcounter{tikzumlFragmentLevel}
\newcounter{tikzumlFragmentLevelNum}
\newcounter{tikzumlFragmentNum}
\newcounter{tikzumlFragmentPartNum}
\newcounter{tikzumlCallStartFragmentNum}
\newcounter{tikzumlCallEndFragmentNum}
% define a sequence diagram
%
\newenvironment{umlseqdiag}{%
\gdef\tikzumlInCreateCall{0}%
\setcounter{tikzumlObjectNum}{0}%
\setcounter{tikzumlCallLevel}{0}%
\setcounter{tikzumlCallNum}{0}%
\setcounter{tikzumlFragmentLevel}{0}%
\setcounter{tikzumlFragmentLevelNum}{0}%
\setcounter{tikzumlFragmentNum}{0}%
\setcounter{tikzumlFragmentPartNum}{0}%
\setcounter{tikzumlCallStartFragmentNum}{0}%
\setcounter{tikzumlCallEndFragmentNum}{0}%
%
\ifx \@umlactor \@empty
\newcommand{\umlactor}[2][]{%
\pgfkeys{/tikzuml/actorobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlactor, forbidden option stereo}%
}{}%
}%
}%
%
\pgfkeys{/tikzuml/actorobj/.cd, ##1}%
\umlobject[stereo=actor, ##1]{##2}%
}%
\else%
\renewcommand{\umlactor}[2][]{
\pgfkeys{/tikzuml/actorobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlactor, forbidden option stereo}%
}{}%
}%
}%
%
\pgfkeys{/tikzuml/actorobj/.cd, ##1}%
\umlobject[stereo=actor, ##1]{##2}%
}%
\fi%
\begin{scope}[font=\tikzumlfont]%
}{%
% draw lifelines of each object
\begin{pgfonlayer}{lifelines}%
\foreach \id in \tikzumlIdList {%
\draw (\csname tikzumlLastChild@\id \endcsname)+(0,-2.5ex) node[inner sep=0, name=end-\id] {};%
\draw[dotted] (\id) -- (end-\id);%
}%
\end{pgfonlayer}%
\end{scope}%
}%
% define the actor symbol
% optional : global tikzpicture styles
\newcommand{\pictureddatabase}[1]{%
\pgfkeys{/tikzuml/database/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/database/.cd,#1}%
\pgfkeys{/tikzuml/database/.cd, scale/.get=\tikzumldatabasescale}%
%
\begin{tikzpicture}[#1]
\node[fill, draw, ellipse, minimum width=\tikzumldatabasescale*4ex, minimum height=\tikzumldatabasescale*2ex, inner sep=0] (bottom) at (0,-2ex) {};
\node[fill, draw, ellipse, minimum width=\tikzumldatabasescale*4ex, minimum height=\tikzumldatabasescale*2ex, inner sep=0] (top) at (0,4ex) {};
\fill (bottom.west) rectangle (top.east);
\begin{scope}
\clip (-3.5ex,-0.5ex) rectangle (3.5ex,2.5ex);
\node[draw, dashed, ellipse, minimum width=\tikzumldatabasescale*4ex, minimum height=\tikzumldatabasescale*2ex, inner sep=0] (bottom2) at (0,-2ex) {};
\end{scope}
\node[draw, ellipse, minimum width=\tikzumldatabasescale*4ex, minimum height=\tikzumldatabasescale*2ex, inner sep=0] (top2) at (0,4ex) {};
\draw (bottom.west) -- (top.west) (bottom.east) -- (top.east);
\end{tikzpicture}
}%
% define the actor symbol
% optional : global tikzpicture styles
\newcommand{\picturedentity}[1]{%
\pgfkeys{/tikzuml/entity/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/entity/.cd,#1}%
\pgfkeys{/tikzuml/entity/.cd, scale/.get=\tikzumlentityscale}%
%
\begin{tikzpicture}[#1]%
\node[fill, draw, circle, inner sep=0, minimum size=\tikzumlentityscale*5ex] (center) at (0,0) {};%
\draw (center.south) node[coordinate, name=bottom] {};%
\draw (bottom)+(-2ex,0) node[coordinate, name=bottom-left] {};%
\draw (bottom)+(2ex,0) node[coordinate, name=bottom-right] {};%
\draw (center) -- (bottom);%
\draw (bottom-left) -- (bottom-right);%
\end{tikzpicture}%
}%
% define the actor symbol
% optional : global tikzpicture styles
\newcommand{\picturedboundary}[1]{%
\pgfkeys{/tikzuml/boundary/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/boundary/.cd,#1}%
\pgfkeys{/tikzuml/boundary/.cd, scale/.get=\tikzumlboundaryscale}%
%
\begin{tikzpicture}[#1]
\node[fill, draw, circle, inner sep=0, minimum size=\tikzumlboundaryscale*5ex] (center) at (0,0) {};
\draw (center.west)+(-0.8ex,0) node[coordinate, name=left] {};
\draw (left)+(0,0.2ex) node[coordinate, name=left-top] {};
\draw (left)+(0,-0.2ex) node[coordinate, name=left-bottom] {};
\draw (center) -- (left);
\draw (left-top) -- (left-bottom);
\end{tikzpicture}
}%
% define the actor symbol
% optional : global tikzpicture styles
\newcommand{\picturedcontrol}[1]{%
\pgfkeys{/tikzuml/control/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/control/.cd,#1}%
\pgfkeys{/tikzuml/control/.cd, scale/.get=\tikzumlcontrolscale}%
%
\begin{tikzpicture}[#1, decoration={markings, mark=at position 0.25 with {\arrow{>}}}]
\node[fill, draw, circle, inner sep=0, minimum size=\tikzumlcontrolscale*5ex, postaction={decorate}] (center) at (0,0) {};
\end{tikzpicture}
}%
% define a uml object for a sequence diagram
% args : name of the object
% optional : x, y coordinates of the object
% stereotype of the object (object, actor, database, boundary, control, entity, multiobject)
% class of the object
% draw, fill, text colors
\newcommand{\umlobject}[2][]{
\stepcounter{tikzumlObjectNum}%
%
\pgfkeys{/tikzuml/obj/.cd, x/.initial={tikzumlEmpty}, y/.initial=0, stereo/.initial=object, class/.initial={}, scale/.initial=1,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillobjectcolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlobj, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/obj/.cd, #1}%
\pgfkeys{/tikzuml/obj/.cd, x/.get=\tikzumlobjectX, y/.get=\tikzumlobjectY, stereo/.get=\tikzumlobjectstereo, class/.get=\tikzumlobjectclass,%
scale/.get=\tikzumlobjectscale,%
draw/.get=\tikzumlobjectdraw, fill/.get=\tikzumlobjectfill, text/.get=\tikzumlobjecttext}%
%
\ifthenelse{\equal{\tikzumlobjectX}{tikzumlEmpty}}{%
\pgfmathsetmacro{\tikzumlobjectX}{4*(\thetikzumlObjectNum-1)}%
}{}%
%
\def\tikzumlObjectName{#2}%
\expandafter\xdef\csname tikzumlLastChild@\tikzumlObjectName \endcsname{\tikzumlObjectName}%
%
\ifnum\thetikzumlObjectNum=1%
\xdef\tikzumlIdList{\tikzumlObjectName}%
\else%
\let\tikzumlIdListOld\tikzumlIdList%
\xdef\tikzumlIdList{\tikzumlIdListOld,\tikzumlObjectName}%
\fi%
%
\tikzstyle{tikzuml object box style}=[rectangle, text=\tikzumlobjecttext, font=\tikzumlfont]%
%
\ifthenelse{\equal{\tikzumlobjectstereo}{object}}{%
\tikzstyle{tikzuml object box style}+=[draw=\tikzumlobjectdraw, fill=\tikzumlobjectfill]%
}{%
\ifthenelse{\equal{\tikzumlobjectstereo}{multi}}{%
\tikzstyle{tikzuml object box style}+=[fill=\tikzumlobjectfill]%
}{}%
}%
%
\ifnum\tikzumlInCreateCall=1%
\draw (\tikzumlCreateCallObjectSrc -| \tikzumlobjectX,0) node[tikzuml object box style] (\tikzumlObjectName) {\tikzumlObjectName:\tikzumlobjectclass};%
\else%
\node[tikzuml object box style] (\tikzumlObjectName) at (\tikzumlobjectX,\tikzumlobjectY) {\tikzumlObjectName:\tikzumlobjectclass};%
\fi%
%
\ifthenelse{\equal{\tikzumlobjectstereo}{multi}}{%
\draw (\tikzumlObjectName.north east)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-tr, coordinate] {};
\draw (\tikzumlObjectName.north west)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-tl, coordinate] {};
\draw (\tikzumlObjectName.south east)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-br, coordinate] {};
\draw (\tikzumlObjectName-tr)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-ttr, coordinate] {};
\draw (\tikzumlObjectName-tl)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-ttl, coordinate] {};
\draw (\tikzumlObjectName-br)+(0.4ex,0.4ex) node[name=\tikzumlObjectName-tbr, coordinate] {};
\fill[fill=\tikzumlobjectfill] (\tikzumlObjectName-ttl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-ttl) -- (\tikzumlObjectName-ttr) -- (\tikzumlObjectName-tbr) -- (\tikzumlObjectName-tbr -| \tikzumlObjectName.east) -- (\tikzumlObjectName.north east) -- (\tikzumlObjectName-ttl |- \tikzumlObjectName.north);
\draw[draw=\tikzumlobjectdraw] (\tikzumlObjectName-ttl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-ttl) -- (\tikzumlObjectName-ttr) -- (\tikzumlObjectName-tbr) -- (\tikzumlObjectName-tbr -| \tikzumlObjectName.east);
\fill[fill=\tikzumlobjectfill] (\tikzumlObjectName-tl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-tl) -- (\tikzumlObjectName-tr) -- (\tikzumlObjectName-br) -- (\tikzumlObjectName-br -| \tikzumlObjectName.east) -- (\tikzumlObjectName.north east) -- (\tikzumlObjectName-tl |- \tikzumlObjectName.north);
\draw[draw=\tikzumlobjectdraw] (\tikzumlObjectName-tl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-tl) -- (\tikzumlObjectName-tr) -- (\tikzumlObjectName-br) -- (\tikzumlObjectName-br -| \tikzumlObjectName.east);
\draw[draw=\tikzumlobjectdraw] (\tikzumlObjectName.north west) rectangle (\tikzumlObjectName.south east);
}{%
\ifthenelse{\equal{\tikzumlobjectstereo}{object}}{}{%
\node[above=1ex, name=\tikzumlObjectName-picture] at (\tikzumlObjectName) {\csname pictured\tikzumlobjectstereo \endcsname{draw=\tikzumlobjectdraw, fill=\tikzumlobjectfill, scale=\tikzumlobjectscale}};
}%
}%
}
% shortcuts for objects
\newcommand{\umldatabase}[2][]{%
\pgfkeys{/tikzuml/databaseobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umldatabase, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/databaseobj/.cd, #1}%
\umlobject[stereo=database, #1]{#2}%
}%
\newcommand{\umlentity}[2][]{%
\pgfkeys{/tikzuml/entityobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlentity, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/entityobj/.cd, #1}%
\umlobject[stereo=entity, #1]{#2}%
}%
\newcommand{\umlcontrol}[2][]{%
\pgfkeys{/tikzuml/controlobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlcontrol, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/controlobj/.cd, #1}%
\umlobject[stereo=control, #1]{#2}%
}%
\newcommand{\umlboundary}[2][]{%
\pgfkeys{/tikzuml/boundaryobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlboundary, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/boundaryobj/.cd, #1}%
\umlobject[stereo=boundary, #1]{#2}%
}%
\newcommand{\umlmulti}[2][]{%
\pgfkeys{/tikzuml/multiobj/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlmulti, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/multiobj/.cd, #1}%
\umlobject[stereo=multi, #1]{#2}%
}%
\newlength{\tikzumlCall@xa}%
\newlength{\tikzumlCall@xb}%
% define a uml operation call for sequence diagrams
% args : call sender
% call receiver
% optional : dt, time delay from precedent event end
% name of the call
% operation name and input args
% return value
% type of the call (synchron, asynchron)
% draw, fill, text colors
% time padding from call start and to call end
\newenvironment{umlcall}[3][]{%
\stepcounter{tikzumlCallNum}%
\def\tikzumlCallWithReturn{false}%
\edef\tikzumlCall@lastchildNum{\thetikzumlCallNum}% for testing presence of sub-calls
\gdef\tikzumlCallBottom{0}%
%
\pgfkeys{/tikzuml/call/.cd, dt/.initial={tikzumlEmpty}, name/.initial={call-\thetikzumlCallNum}, op/.initial={}, return/.initial={}, type/.initial=synchron,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillcallcolor, text/.initial=\tikzumltextcolor,%
padding/.initial=2,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{with return}}{%
\def\tikzumlCallWithReturn{true}%
}{%
\errmessage{TIKZUML ERROR : in umlcall, invalid option \keyname}%
}%
}}%
\pgfkeys{/tikzuml/call/.cd, #1}%
\pgfkeys{/tikzuml/call/.cd, dt/.get=\tikzumlcallDT, name/.get=\tikzumlcallname, op/.get=\tikzumlcallop, return/.get=\tikzumlcallreturn, type/.get=\tikzumlcalltype,%
padding/.get=\tikzumlcallpadding,%
draw/.get=\tikzumlcalldraw, fill/.get=\tikzumlcallfill, text/.get=\tikzumlcalltext}%
%
\edef\tikzumlfillcall{\tikzumlcallfill}%
\edef\tikzumldrawcall{\tikzumlcalldraw}%
\edef\tikzumltextcall{\tikzumlcalltext}%
\edef\tikzumltypecall{\tikzumlcalltype}%
\ifthenelse{\equal{\tikzumlcallDT}{tikzumlEmpty}}{%
\ifnum\thetikzumlCallNum=1%
\def\tikzumlcallDT{2}%
\def\tikzumlcallSrc{2}%
\else%
\def\tikzumlcallDT{2}%
\def\tikzumlcallSrc{1}%
\fi%
}{
\def\tikzumlcallSrc{0}%
}%
%
\let\tikzumlCallStartNodeNameold\tikzumlCallStartNodeName%
\def\tikzumlCallStartNodeName{#2}%
\let\tikzumlCallEndNodeNameold\tikzumlCallEndNodeName%
\def\tikzumlCallEndNodeName{#3}%
\def\tikzumlcallheight{\tikzumlcallpadding}%
%
% managing time delays from previous/parent fragments
\ifnum\thetikzumlCallStartFragmentNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\addtocounter{tikzumlCallStartFragmentNum}{-1}
\fi%
\ifnum\thetikzumlCallEndFragmentNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\addtocounter{tikzumlCallEndFragmentNum}{-1}
\fi%
\ifnum\thetikzumlFragmentPartNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\fi%
%
% managing parent-child structure
\ifnum\thetikzumlCallLevel>0%
\let\tikzumlCall@nameold\tikzumlCall@name%
\edef\tikzumlCall@name{\tikzumlcallname}%
\let\tikzumlCall@parentold\tikzumlCall@parent%
\edef\tikzumlCall@parent{\tikzumlCall@parentold @@\tikzumlCall@nameold}%
\else%
\edef\tikzumlCall@parent{}%
\edef\tikzumlCall@parentold{}%
\edef\tikzumlCall@nameold{}
\edef\tikzumlCall@name{\tikzumlcallname}%
\fi%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlCall@nodeName{\tikzumlCall@name}}\x%
%
\let\tikzumlCall@nodeNameold\tikzumlCall@nodeName%
%
\def\tikzumlcallstyle{tikzuml \tikzumlcalltype-msg style}%
%
% top node of activity period of call sender
\begin{pgfonlayer}{connections}%
\pgfmathparse{\tikzumlcallDT+\tikzumlcallSrc}%
\draw (\csname tikzumlLastChild@\tikzumlCallStartNodeName \endcsname)+(0,-\pgfmathresult ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (st-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- tikzumlTmpNode) {};%
%
% update last node drawn on sender lifeline
\expandafter\xdef\csname tikzumlLastChild@\tikzumlCallStartNodeName \endcsname{st-\tikzumlCall@nodeName}%
%
% top node of activity period of call receiver
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeName}}{%
\draw (st-\tikzumlCall@nodeName)+(0,-0.75*\tikzumlcallpadding ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (et-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- tikzumlTmpNode) {};%
}{%
\node[tikzuml activity style] (et-\tikzumlCall@nodeName) at (\tikzumlCallEndNodeName |- st-\tikzumlCall@nodeName) {};%
}%
%
% update last node drawn on receiver lifeline
\expandafter\xdef\csname tikzumlLastChild@\tikzumlCallEndNodeName \endcsname{et-\tikzumlCall@nodeName}%
\xdef\tikzumlCallBottomSrc{et-\tikzumlCall@nodeName}%
\end{pgfonlayer}%
%
\stepcounter{tikzumlCallLevel}%
}{%
\addtocounter{tikzumlCallLevel}{-1}%
%
% bottom nodes of activity periods of call sender and receiver
\begin{pgfonlayer}{connections}%
\ifnum\tikzumlCall@lastchildNum=\thetikzumlCallNum%
%
% this test occurs a bug with latex package preview
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeName}}{%
\draw (\tikzumlCallBottomSrc)+(0,-\tikzumlcallpadding ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (eb-\tikzumlCall@nodeName) at (\tikzumlCallEndNodeName |- tikzumlTmpNode) {};%
\draw (eb-\tikzumlCall@nodeName)+(0,-0.75*\tikzumlcallpadding ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (sb-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- tikzumlTmpNode) {};%
}{%
\ifthenelse{\equal{\tikzumlcallreturn}{tikzumlEmpty}}{%
\pgfmathsetmacro{\tikzumlcallpaddingd}{0.5*\tikzumlcallpadding}%
}{%
\pgfmathsetmacro{\tikzumlcallpaddingd}{1.2*\tikzumlcallpadding}%
}%
\draw (\tikzumlCallBottomSrc)+(0,-\tikzumlcallpaddingd ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (eb-\tikzumlCall@nodeName) at (\tikzumlCallEndNodeName |- tikzumlTmpNode) {};%
\node[tikzuml activity style] (sb-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- eb-\tikzumlCall@nodeName) {};%
}%
\xdef\tikzumlCallBottomSrc{sb-\tikzumlCall@nodeName}%
\else%
%
% managing time delays from previous/parent fragments
\ifnum\thetikzumlCallStartFragmentNum>0%
\let\tikzumlcallheightold\tikzumlcallpadding
\pgfmathparse{\tikzumlcallheightold+0.5*\tikzumlFragment@paddingy}
\edef\tikzumlcallheight{\pgfmathresult}
\addtocounter{tikzumlCallStartFragmentNum}{-1}
\fi%
\ifnum\thetikzumlCallEndFragmentNum>0%
\let\tikzumlcallheightold\tikzumlcallpadding
\pgfmathparse{\tikzumlcallheightold+0.5*\tikzumlFragment@paddingy}
\edef\tikzumlcallheight{\pgfmathresult}
\addtocounter{tikzumlCallEndFragmentNum}{-1}
\fi%
%
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeName}}{%
\draw (\tikzumlCallBottomSrc)+(0,-\tikzumlcallheight ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (eb-\tikzumlCall@nodeName) at (\tikzumlCallEndNodeName |- tikzumlTmpNode) {};%
\draw (eb-\tikzumlCall@nodeName)+(0,-0.75*\tikzumlcallpadding ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (sb-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- tikzumlTmpNode) {};%
}{%
\draw (\tikzumlCallBottomSrc)+(0,-\tikzumlcallheight ex) node[coordinate, name=tikzumlTmpNode] {};%
\node[tikzuml activity style] (eb-\tikzumlCall@nodeName) at (\tikzumlCallEndNodeName |- tikzumlTmpNode) {};%
\node[tikzuml activity style] (sb-\tikzumlCall@nodeName) at (\tikzumlCallStartNodeName |- eb-\tikzumlCall@nodeName) {};%
}%
%
\xdef\tikzumlCallBottomSrc{sb-\tikzumlCall@nodeName}%
\fi%
\end{pgfonlayer}%
%
% draw activity periods
\begin{pgfonlayer}{activity}%
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeName}}{%
% draw root activity period only
\ifnum\thetikzumlCallLevel=0%
\draw[draw=\tikzumldrawcall, fill=\tikzumlfillcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south east);%
\else%
% draw root activity from inner call
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeNameold}}{}{%
\draw[draw=\tikzumldrawcall, fill=\tikzumlfillcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south east);%
}%
\fi%
}{%
% draw root activity period
\ifnum\thetikzumlCallLevel=0%
\draw[draw=\tikzumldrawcall, fill=\tikzumlfillcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south east);%
\else%
% draw root activity from inner call
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeNameold}}{}{%
\draw[draw=\tikzumldrawcall, fill=\tikzumlfillcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south east);%
}%
\fi%
% draw receiver activity period
\draw[draw=\tikzumldrawcall, fill=\tikzumlfillcall] (et-\tikzumlCall@nodeName.north west) rectangle (eb-\tikzumlCall@nodeName.south east);%
}%
\end{pgfonlayer}%
\ifthenelse{\equal{\tikzumlfillcallcolor}{\tikzumlcallfill}}{}{%
\fill[\tikzumlfillcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south east);%
\draw[\tikzumldrawcall] (st-\tikzumlCall@nodeName.north west) rectangle (sb-\tikzumlCall@nodeName.south west) (st-\tikzumlCall@nodeName.north east) rectangle (sb-\tikzumlCall@nodeName.south east);
}%
%
% update last nodes drawn on sender and receiver lifelines
\expandafter\xdef\csname tikzumlLastChild@\tikzumlCallEndNodeName \endcsname{eb-\tikzumlCall@nodeName}%
\expandafter\xdef\csname tikzumlLastChild@\tikzumlCallStartNodeName \endcsname{sb-\tikzumlCall@nodeName}%
%
% draw call arrows
\begin{pgfonlayer}{connections}%
\ifthenelse{\equal{\tikzumlCallStartNodeName}{\tikzumlCallEndNodeName}}{%
\draw[\tikzumlcallstyle, \tikzumldrawcall] (st-\tikzumlCall@nodeName.east) -- ++(2.5*\tikzumlcallpadding ex,0) %
-- ++(0,-0.75*\tikzumlcallpadding ex) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, right, name=\tikzumlCall@nodeName-op] {\tikzumlcallop} %
-- (et-\tikzumlCall@nodeName.east);%
%
% draw return arrow and update fit for parent fragment
\ifthenelse{\equal{\tikzumltypecall}{synchron}}{%
\ifthenelse{\NOT\equal{\tikzumlcallreturn}{}\OR\equal{\tikzumlCallWithReturn}{true}}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op) (\tikzumlCall@nodeName-return)}%
\fi%
%
\draw[tikzuml call return style, \tikzumldrawcall] (eb-\tikzumlCall@nodeName.east) -- ++(2.5*\tikzumlcallpadding ex,0) -- ++(0,-0.75*\tikzumlcallpadding ex) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, right, name=\tikzumlCall@nodeName-return] {\tikzumlcallreturn} %
-- (sb-\tikzumlCall@nodeName.east);%
}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op)}%
\fi%
}%
}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op)}%
\fi%
%
}%
}{%
% draw call arrows
\pgfextractx{\tikzumlCall@xa}{\pgfpointanchor{\tikzumlCallStartNodeName}{center}}%
\pgfextractx{\tikzumlCall@xb}{\pgfpointanchor{\tikzumlCallEndNodeName}{center}}%
%
\ifthenelse{\tikzumlCall@xb>\tikzumlCall@xa}{%
\draw[\tikzumlcallstyle, \tikzumldrawcall] (st-\tikzumlCall@nodeName.east) -- (et-\tikzumlCall@nodeName.west) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, above=-0.4ex, name=\tikzumlCall@nodeName-op] {\tikzumlcallop};%
}{%
\draw[\tikzumlcallstyle, \tikzumldrawcall] (st-\tikzumlCall@nodeName.west) -- (et-\tikzumlCall@nodeName.east) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, above=-0.4ex, name=\tikzumlCall@nodeName-op] {\tikzumlcallop};%
}%
%
% draw return arrow and update fit for parent fragment
\ifthenelse{\equal{\tikzumltypecall}{synchron}}{%
\ifthenelse{\NOT\equal{\tikzumlcallreturn}{}\OR\equal{\tikzumlCallWithReturn}{true}}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op) (\tikzumlCall@nodeName-return)}%
\fi%
%
\ifthenelse{\tikzumlCall@xb>\tikzumlCall@xa}{%
\draw[tikzuml call return style, \tikzumldrawcall] (eb-\tikzumlCall@nodeName.west) -- (sb-\tikzumlCall@nodeName.east) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, above=-0.4ex, name=\tikzumlCall@nodeName-return] {\tikzumlcallreturn};%
}{%
\draw[tikzuml call return style, \tikzumldrawcall] (eb-\tikzumlCall@nodeName.east) -- (sb-\tikzumlCall@nodeName.west) %
node[font=\tikzumlfont, text=\tikzumltextcall, midway, above=-0.4ex, name=\tikzumlCall@nodeName-return] {\tikzumlcallreturn};%
}%
}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op)}%
\fi%
}%
}{%
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCall@nodeName) (et-\tikzumlCall@nodeName) (eb-\tikzumlCall@nodeName) (sb-\tikzumlCall@nodeName) (\tikzumlCall@nodeName-op)}%
\fi%
}%
}%
\end{pgfonlayer}%
}%
% alias for function self call
\newenvironment{umlcallself}[2][]{\begin{umlcall}[#1]{#2}{#2} }{\end{umlcall}}%
% define a combined fragment
% optional : name of fragment
% type of fragment (opt, alt, break, loop, par, critical, ignore, consider, assert, neg, weak, strict, ref)
% label of fragment (ex : condition for opt, iterator for loop, ...)
% inner xsep and ysep (padding of the fragment box)
% draw, fill, text colors
\newenvironment{umlfragment}[1][]{%
% define a fragment separator
% optional : label of the fragment part (ex : else for alt)
\providecommand{\umlfpart}[1][]{%
\stepcounter{tikzumlFragmentPartNum}%
%
\node[outer sep=0, inner xsep=\tikzumlfragmentxsep ex, inner ysep=\tikzumlfragmentysep ex, fit=\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname, name=\tikzumlFragment@name-Part-tmp] {};%
\node[anchor=east, name=\tikzumlFragment@name-PartType-\thetikzumlFragmentPartNum] at (\tikzumlFragment@name-Part-tmp.north west |- \tikzumlCallBottomSrc) {\phantom{\tikzumlfragmenttype}};
\draw (\tikzumlFragment@name-PartType-\thetikzumlFragmentPartNum.north west |- \tikzumlCallBottomSrc)+(0,-0.4*\tikzumlFragment@paddingy ex) node[name=\tikzumlFragment@name-PartWest-\thetikzumlFragmentPartNum] {};
\draw (\tikzumlFragment@name-Part-tmp.north east |- \tikzumlCallBottomSrc)+(0,-0.4*\tikzumlFragment@paddingy ex) node[name=\tikzumlFragment@name-PartEast-\thetikzumlFragmentPartNum] {};
\draw[dashed] (\tikzumlFragment@name-PartWest-\thetikzumlFragmentPartNum) -- (\tikzumlFragment@name-PartEast-\thetikzumlFragmentPartNum);
\draw (\tikzumlFragment@name-PartType-\thetikzumlFragmentPartNum)+(0,-0.4*\tikzumlFragment@paddingy ex) node[name=tikzumlTmpNode] {\phantom{\tikzumlfragmenttype}};
\node[anchor=north west] at (tikzumlTmpNode.south west) {[##1]};%
}%
\stepcounter{tikzumlFragmentNum}%
%
\pgfkeys{/tikzuml/fragment/.cd, name/.initial={fragment@\alph{tikzumlFragmentNum}}, type/.initial=opt, label/.initial={tikzumlEmpty},%
inner xsep/.initial=1, inner ysep/.initial=1,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillfragmentcolor, text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlfragment, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/fragment/.cd, #1}%
\pgfkeys{/tikzuml/fragment/.cd, name/.get=\tikzumlfragmentname, type/.get=\tikzumlfragmenttype, label/.get=\tikzumlfragmentlabel,%
inner xsep/.get=\tikzumlfragmentxsep, inner ysep/.get=\tikzumlfragmentysep,%
draw/.get=\tikzumlfragmentdraw, fill/.get=\tikzumlfragmentfill, text/.get=\tikzumlfragmenttext}%
%
\ifthenelse{\equal{\tikzumlfragmentlabel}{tikzumlEmpty}}{%
\def\tikzumlfragmentlabel{}%
}{%
\let\tikzumlfragmentlabelold\tikzumlfragmentlabel%
\def\tikzumlfragmentlabel{[\tikzumlfragmentlabelold]}%
}%
%
\ifnum\thetikzumlFragmentLevel>0%
\let\tikzumlFragment@parentold\tikzumlFragment@parent%
\let\tikzumlFragment@nameold\tikzumlFragment@name%
\edef\tikzumlFragment@parent{\tikzumlFragment@nameold}%
\else%
\setcounter{tikzumlFragmentPartNum}{0}%
\edef\tikzumlFragment@parent{}%
\edef\tikzumlFragment@parentold{}%
\edef\tikzumlFragment@nameold{}%
\fi%
%
\edef\tikzumlFragment@name{\tikzumlfragmentname}%
\expandafter\gdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{}%
%
\stepcounter{tikzumlFragmentLevel}%
%
\ifnum\thetikzumlCallLevel>0%
\stepcounter{tikzumlCallStartFragmentNum}%
\fi%
%
\pgfmathparse{6*\tikzumlfragmentysep}%
\xdef\tikzumlFragment@paddingy{\pgfmathresult}%
\if\c@tikzumlFragmentLevelNum=0%
\setcounter{tikzumlFragmentLevelNum}{\thetikzumlFragmentLevel}%
\fi%
%
% time delay adjustment for two consecutive fragments
\ifnum\thetikzumlCallEndFragmentNum>0%
\addtocounter{tikzumlCallEndFragmentNum}{-1}
\fi%
}{%
%
\addtocounter{tikzumlFragmentLevel}{-1}%
%
\ifnum\thetikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@parent \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@parent \endcsname{\tikzumlFragmentFitOld (\tikzumlFragment@name)}%
\fi%
%
% draw working fragment box
\begin{pgfonlayer}{fragment\thetikzumlFragmentLevel}%
\node[outer sep=0, inner xsep=\tikzumlfragmentxsep ex, inner ysep=\tikzumlfragmentysep ex, fit=\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname, name=\tikzumlFragment@name-back] {};%
\end{pgfonlayer}%
%
% draw type and label
\node[text=\tikzumlfragmenttext, font=\tikzumlfont, anchor=north east, name=\tikzumlFragment@name-type] %
at (\tikzumlFragment@name-back.north west) {\tikzumlfragmenttype};%
\node[text=\tikzumlfragmenttext, font=\tikzumlfont, anchor=north west, name=\tikzumlFragment@name-label] %
at (\tikzumlFragment@name-type.south west) {\tikzumlfragmentlabel};%
%
% draw final fragment box
\begin{pgfonlayer}{fragment\thetikzumlFragmentLevel}%
\node[draw=\tikzumlfragmentdraw, fill=\tikzumlfragmentfill, outer sep=0, inner sep=0, font=\tikzumlfont, fit=(\tikzumlFragment@name-back) (\tikzumlFragment@name-type) (\tikzumlFragment@name-label), name=\tikzumlFragment@name] {};%
\end{pgfonlayer}%
%
\draw[draw=\tikzumlfragmentdraw] (\tikzumlFragment@name.north west) rectangle (\tikzumlFragment@name.south east);%
\draw (\tikzumlFragment@name-type.south east)+(0,1ex) node[name=\tikzumlFragment@name-typetop, inner sep=0] {};%
\draw (\tikzumlFragment@name-type.south east)+(-1ex,0) node[name=\tikzumlFragment@name-typeleft, inner sep=0] {};%
\draw (\tikzumlFragment@name.north west) -| (\tikzumlFragment@name-typetop.center) -- (\tikzumlFragment@name-typeleft.center) -| (\tikzumlFragment@name.north west);%
%
\ifnum\thetikzumlCallLevel>0%
\stepcounter{tikzumlCallEndFragmentNum}%
\fi%
}%
% define a constructor call
% arg : call sender
% name of constructed object
% optional : x coordinate of the new object
% stereotype of the new object
% class type of the new object
% time delay from last event
% name of the call
% draw, fill, text colors
\newcommand{\umlcreatecall}[3][]{%
\stepcounter{tikzumlCallNum}%
\edef\tikzumlCall@lastchildNum{\thetikzumlCallNum}% for testing presence of sub-calls
\gdef\tikzumlInCreateCall{1}%
\pgfkeys{/tikzuml/createcall/.cd, x/.initial={tikzumlEmpty}, stereo/.initial=object, class/.initial={},%
dt/.initial=4, name/.initial={call-\thetikzumlCallNum},%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillcallcolor, text/.initial=\tikzumltextcolor,%
draw obj/.initial=\tikzumldrawcolor, fill obj/.initial=\tikzumlfillobjectcolor, text obj/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlcreatecall, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/createcall/.cd, #1}%
\pgfkeys{/tikzuml/createcall/.cd, x/.get=\tikzumlcallX, stereo/.get=\tikzumlcallstereo, class/.get=\tikzumlcallclass,%
dt/.get=\tikzumlcallDT, name/.get=\tikzumlcallname,%
draw/.get=\tikzumlcalldraw, fill/.get=\tikzumlcallfill, text/.get=\tikzumlcalltext,%
draw obj/.get=\tikzumlcallobjdraw, fill obj/.get=\tikzumlcallobjfill, text obj/.get=\tikzumlcallobjtext}%
%
\def\tikzumlCreateCallSrc@name{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlCreateCallSrc@nodeName{\tikzumlCreateCallSrc@name}}\x%
%
% managing time delays from previous/parent fragments
\ifnum\thetikzumlCallStartFragmentNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\addtocounter{tikzumlCallStartFragmentNum}{-1}
\fi%
\ifnum\thetikzumlCallEndFragmentNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\addtocounter{tikzumlCallEndFragmentNum}{-1}
\fi%
\ifnum\thetikzumlFragmentPartNum>0%
\let\tikzumlcallDTold\tikzumlcallDT%
\pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlcallDTold}%
\edef\tikzumlcallDT{\pgfmathresult}%
\fi%
%
% managing parent-child structure
\ifnum\thetikzumlCallLevel>0%
\let\tikzumlCall@nameold\tikzumlCall@name%
\def\tikzumlCall@name{\tikzumlcallname}%
\let\tikzumlCall@parentold\tikzumlCall@parent%
\edef\tikzumlCall@parent{\tikzumlCall@parentold @@\tikzumlCall@nameold}%
\else%
\edef\tikzumlCall@parent{}%
\edef\tikzumlCall@parentold{}%
\edef\tikzumlCall@nameold{}
\edef\tikzumlCall@name{\tikzumlcallname}%
\fi%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlCreateCall@nodeName{\tikzumlCall@name}}\x%
%
\draw (\csname tikzumlLastChild@\tikzumlCreateCallSrc@nodeName \endcsname)+(0,-\tikzumlcallDT ex) node[name=st-\tikzumlCreateCall@nodeName, tikzuml activity style] {};%
%
\xdef\tikzumlCreateCallObjectSrc{st-\tikzumlCreateCall@nodeName}%
%
\umlobject[x=\tikzumlcallX, stereo=\tikzumlcallstereo, class=\tikzumlcallclass, draw=\tikzumlcallobjdraw, fill=\tikzumlcallobjfill, text=\tikzumlcallobjtext]{#3}%
%
\draw (\csname tikzumlLastChild@\tikzumlCreateCallSrc@nodeName \endcsname |- #3)+(0,-0.5*\tikzumlcallDT ex) node[name=sb-\tikzumlCreateCall@nodeName, tikzuml activity style] {};%
%
\expandafter\xdef\csname tikzumlLastChild@\tikzumlCreateCallSrc@nodeName \endcsname{sb-\tikzumlCreateCall@nodeName}%
\xdef\tikzumlCallBottomSrc{sb-\tikzumlCreateCall@nodeName}%
%
\begin{pgfonlayer}{connections}%
\draw[tikzuml synchron-msg style, \tikzumlcalldraw] (st-\tikzumlCreateCall@nodeName) -- (#3) node[midway, above, font=\tikzumlfont, text=\tikzumlcalltext, name=\tikzumlCreateCall@nodeName-op] {create};%
\end{pgfonlayer}%
%
\ifnum\thetikzumlCallLevel=0%
\begin{pgfonlayer}{activity}%
\draw[draw=\tikzumlcalldraw, fill=\tikzumlcallfill] (st-\tikzumlCreateCall@nodeName.north west) rectangle (sb-\tikzumlCreateCall@nodeName.south east);%
\end{pgfonlayer}%
\fi%
% add to fit fragment
\ifnum\c@tikzumlFragmentLevel>0%
\edef\tikzumlFragmentFitOld{\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname}%
\expandafter\xdef\csname tikzumlFragmentFit\tikzumlFragment@name \endcsname{\tikzumlFragmentFitOld (st-\tikzumlCreateCall@nodeName) (sb-\tikzumlCreateCall@nodeName) (\tikzumlCreateCall@nodeName-op) (#3) }%
\fi%
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% component diagrams %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\tikzstyle{tikzuml connector style}=[color=\tikzumldrawcolor, -]%
\newcounter{tikzumlComponentLevel}%
\newcounter{tikzumlComponentSubComponentNum}%
\newcounter{tikzumlConnectorNum}%
\setcounter{tikzumlConnectorNum}{1}%
\newcommand{\picturedcomponent}[1]{%
\pgfkeys{/tikzuml/component/picture/.cd, scale/.initial=1, .unknown/.code={}}%
\pgfkeys{/tikzuml/component/picture/.cd,#1}%
\pgfkeys{/tikzuml/component/picture/.cd, scale/.get=\tikzumlcomponentscale}%
\begin{tikzpicture}[#1]%
\filldraw (0,0) rectangle (1ex,1.5ex);%
\filldraw (-0.2ex,0.4ex) rectangle (0.2ex,0.6ex);%
\filldraw (-0.2ex,0.9ex) rectangle (0.2ex,1.1ex);%
\end{tikzpicture}%
}%
% define a uml component
% args : name of the component
% content of the component
% optional args : x,y coordinates of the component
% width of the component node
\newenvironment{umlcomponent}[2][]{%
\ifnum\thetikzumlComponentLevel>0%
\let\tikzumlComponent@nameold\tikzumlComponent@fitname%
\let\tikzumlComponent@parentold\tikzumlComponent@parent%
\edef\tikzumlComponent@parent{\tikzumlComponent@parentold @@\tikzumlComponent@nameold}%
\else%
\def\tikzumlComponent@parent{}%
\fi%
%
\stepcounter{tikzumlComponentLevel}%
%
\pgfkeys{/tikzuml/component/.cd, x/.initial=0, y/.initial=0, width/.initial=10ex, name/.initial={},%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillcomponentcolor,%
text/.initial=\tikzumltextcolor,%
.unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\errmessage{TIKZUML ERROR : in umlcomponent, invalid option \keyname}%
}}%
\pgfkeys{/tikzuml/component/.cd, #1}%
\pgfkeys{/tikzuml/component/.cd, x/.get=\tikzumlcomponentX, y/.get=\tikzumlcomponentY,%
width/.get=\umlcomponentMinimumWidth, name/.get=\umlcomponentName,%
draw/.get=\tikzumlcomponentdraw, fill/.get=\tikzumlcomponentfill,%
text/.get=\tikzumlcomponenttext}%
%
\ifthenelse{\equal{\umlcomponentName}{}}{%
\edef\tikzumlComponent@name{#2}%
}{%
\edef\tikzumlComponent@name{\umlcomponentName}%
}%
%
\begingroup%
\def\_{@}\edef\x{\endgroup%
\def\noexpand\tikzumlComponent@fitname{\tikzumlComponent@name}}\x%
%
\let\tikzumlComponent@nodeNameold\tikzumlComponent@nodeName%
\def\tikzumlComponent@caption{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlComponent@nodeName{\tikzumlComponent@name}}\x%
%
\expandafter\gdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{}%
%
\setcounter{tikzumlComponentSubComponentNum}{0}%
%
\begin{scope}[xshift=\tikzumlcomponentX cm, yshift=\tikzumlcomponentY cm]%
}{%
\addtocounter{tikzumlComponentLevel}{-1}%
\begin{pgfonlayer}{component\thetikzumlComponentLevel}%
%
% if contains nothing, one define a fictive node to enable the fit option
\ifnum\c@tikzumlComponentSubComponentNum=0%
\node[inner ysep=0.5ex, font=\tikzumlfont] (\tikzumlComponent@nodeName-root) at (0,0) {\phantom{\tikzumlComponent@nodeName}};%
\expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{(\tikzumlComponent@nodeName-root)}%
\fi%
%
\ifnum\c@tikzumlComponentLevel>0%
\def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent\endcsname}%
\expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent\endcsname{\tikzumlComponentFitTmp (\tikzumlComponent@nodeName-body) (\tikzumlComponent@nodeName-caption)}%
\stepcounter{tikzumlComponentSubComponentNum}%
\fi%
%
\node[inner sep=2ex, font=\tikzumlfont, fit = \csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname] (\tikzumlComponent@nodeName-body) {};%
\node[above, font=\tikzumlfont] (\tikzumlComponent@nodeName-captiontmp) at (\tikzumlComponent@nodeName-body.north) {\tikzumlComponent@caption};%
\node (\tikzumlComponent@nodeName-logotmp) at (\tikzumlComponent@nodeName-captiontmp.north -| \tikzumlComponent@nodeName-body.east) {\picturedcomponent{draw=\tikzumlcomponentdraw, fill=\tikzumlcomponentfill, font=\tikzumlfont} };%
\node[draw=\tikzumlcomponentdraw, fill=\tikzumlcomponentfill, name=\tikzumlComponent@nodeName, fit=(\tikzumlComponent@nodeName-body) (\tikzumlComponent@nodeName-captiontmp)] {};%
\node[font=\tikzumlfont] (\tikzumlComponent@nodeName-caption) at (\tikzumlComponent@nodeName-captiontmp) {\tikzumlComponent@caption};%
\draw (\tikzumlComponent@nodeName-caption.north -| \tikzumlComponent@nodeName-body.east) node[below=-0.8ex, name=\tikzumlComponent@nodeName-logo] {\picturedcomponent{draw=\tikzumlcomponentdraw, fill=\tikzumlcomponentfill, font=\tikzumlfont} };%
\draw (\tikzumlComponent@nodeName-caption.south -| \tikzumlComponent@nodeName.north west) -- (\tikzumlComponent@nodeName-caption.south -| \tikzumlComponent@nodeName.north east);%
\end{pgfonlayer}%
\end{scope}%
}%
% shortcut for empty state
\newcommand{\umlbasiccomponent}[2][]{\begin{umlcomponent}[#1]{#2} \end{umlcomponent}}%
\newcommand{\umlprovidedinterface}[2][]{%
\def\tikzumlInterfaceWithPort{tikzumlFalse}%
\pgfkeys{/tikzuml/providedinterfacerelation/.cd, interface/.initial={}, distance/.initial=2cm,%
width/.initial=1em, padding/.initial=1cm,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillcomponentcolor}%
\pgfkeys{/tikzuml/providedinterfacerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{with port}}{%
\def\tikzumlInterfaceWithPort{tikzumlTrue}%
}{}%
}%
}%
\pgfkeys{/tikzuml/providedinterfacerelation/.cd, #1}%
\pgfkeys{/tikzuml/providedinterfacerelation/.cd, interface/.get=\tikzumlProvidedInterfaceLabel,%
distance/.get=\tikzumlProvidedInterfaceDistance,%
width/.get=\tikzumlProvidedInterfaceWidth,%
padding/.get=\tikzumlProvidedInterfacePadding,%
draw/.get=\tikzumlprovidedinterfacedraw, fill/.get=\tikzumlprovidedinterfacefill,}%
%
\edef\tikzumlProvidedInterface@name{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlProvidedInterface@nodeName{\tikzumlProvidedInterface@name}}\x%
%
\ifthenelse{\equal{\tikzumlInterfaceWithPort}{tikzumlTrue}}{%
\node[inner sep=0.5*\tikzumlProvidedInterfaceWidth, rectangle, draw=\tikzumlprovidedinterfacedraw, fill=\tikzumlprovidedinterfacefill] (\tikzumlProvidedInterface@nodeName-east-port) at (\tikzumlProvidedInterface@nodeName.east) {};%
}{%
\node[inner sep=0] (\tikzumlProvidedInterface@nodeName-east-port) at (\tikzumlProvidedInterface@nodeName.east) {};%
}%
\begin{scope}%
\draw (\tikzumlProvidedInterface@nodeName)+(\tikzumlProvidedInterfaceDistance,0) node[inner sep=0, text width=\tikzumlProvidedInterfaceWidth, circle, name=\tikzumlProvidedInterface@nodeName-east-interface-tmp] {};%
\clip (\tikzumlProvidedInterface@nodeName-east-interface-tmp.north) rectangle (\tikzumlProvidedInterface@nodeName-east-interface-tmp.south -| \tikzumlProvidedInterface@nodeName-east-interface-tmp.west);%
\node[inner sep=0, text width=\tikzumlProvidedInterfaceWidth, circle, draw=\tikzumlprovidedinterfacedraw] (\tikzumlProvidedInterface@nodeName-east-interface) at (\tikzumlProvidedInterface@nodeName-east-interface-tmp) {};%
\end{scope}%
\node[above] at (\tikzumlProvidedInterface@nodeName-east-interface.north) {\tikzumlProvidedInterfaceLabel};%
%
\umlrelation[style={tikzuml connector style}, #1]{\tikzumlProvidedInterface@nodeName-east-port}{\tikzumlProvidedInterface@nodeName-east-interface}%
% add to fit
\draw (\tikzumlProvidedInterface@nodeName-east-interface)+(\tikzumlProvidedInterfacePadding,0) node[name=\tikzumlProvidedInterface@nodeName-east-padding] {};%
\ifnum\thetikzumlComponentLevel>0%
\def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname}%
\expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlProvidedInterface@nodeName-east-padding) (\tikzumlProvidedInterface@nodeName-east-port) }%
\fi%
}%
\newcommand{\umlrequiredinterface}[2][]{%
\def\tikzumlInterfaceWithPort{tikzumlFalse}%
\pgfkeys{/tikzuml/requiredinterfacerelation/.cd, interface/.initial={}, distance/.initial=3cm,%
width/.initial=1em, padding/.initial=1cm,%
draw/.initial=\tikzumldrawcolor, fill/.initial=\tikzumlfillcomponentcolor}%
\pgfkeys{/tikzuml/requiredinterfacerelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{with port}}{%
\def\tikzumlInterfaceWithPort{tikzumlTrue}%
}{}%
}%
}%
\pgfkeys{/tikzuml/requiredinterfacerelation/.cd, #1}%
\pgfkeys{/tikzuml/requiredinterfacerelation/.cd, interface/.get=\tikzumlRequiredInterfaceLabel,%
distance/.get=\tikzumlRequiredInterfaceDistance,%
padding/.get=\tikzumlRequiredInterfacePadding,%
width/.get=\tikzumlRequiredInterfaceWidth,%
draw/.get=\tikzumlrequiredinterfacedraw, fill/.get=\tikzumlrequiredinterfacefill,}%
%
\edef\tikzumlRequiredInterface@name{#2}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlRequiredInterface@nodeName{\tikzumlRequiredInterface@name}}\x%
%
\ifthenelse{\equal{\tikzumlInterfaceWithPort}{tikzumlTrue}}{%
\node[inner sep=0.5*\tikzumlRequiredInterfaceWidth, rectangle, draw=\tikzumlrequiredinterfacedraw, fill=\tikzumlrequiredinterfacefill] (\tikzumlRequiredInterface@nodeName-west-port) at (\tikzumlRequiredInterface@nodeName.west) {};%
}{%
\node[inner sep=0] (\tikzumlRequiredInterface@nodeName-west-port) at (\tikzumlRequiredInterface@nodeName.west) {};%
}%
\draw (\tikzumlRequiredInterface@nodeName)+(-\tikzumlRequiredInterfaceDistance,0) node[inner sep=0, text width=\tikzumlRequiredInterfaceWidth, circle, draw=\tikzumlrequiredinterfacedraw, fill=\tikzumlrequiredinterfacefill, name=\tikzumlRequiredInterface@nodeName-west-interface] {};%
\node[above] at (\tikzumlRequiredInterface@nodeName-west-interface.north)
{\tikzumlRequiredInterfaceLabel};%
%
\umlrelation[style={tikzuml connector style}, #1]{\tikzumlRequiredInterface@nodeName-west-port}{\tikzumlRequiredInterface@nodeName-west-interface}%
% add to fit
\draw (\tikzumlRequiredInterface@nodeName-west-interface)+(-\tikzumlRequiredInterfacePadding,0) node[name=\tikzumlRequiredInterface@nodeName-west-padding] {};%
\ifnum\thetikzumlComponentLevel>0%
\def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname}%
\expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlRequiredInterface@nodeName-west-padding) (\tikzumlRequiredInterface@nodeName-west-port) }%
\fi%
}%
\newlength{\tikzuml@AC@xa}%
\newlength{\tikzuml@AC@ya}%
\newlength{\tikzuml@AC@xb}%
\newlength{\tikzuml@AC@yb}%
\newlength{\tikzuml@AC@xi}%
\newlength{\tikzuml@AC@yi}%
\newlength{\tikzuml@AC@xic}%
\newlength{\tikzuml@AC@yic}%
\newlength{\tikzuml@AC@xio}%
\newlength{\tikzuml@AC@yio}%
\newlength{\tikzuml@AC@AB}%
\newlength{\tikzuml@AC@lambda}%
\newlength{\tikzuml@AC@xtrc}%
\newlength{\tikzuml@AC@ytrc}%
\newlength{\tikzuml@AC@xtlc}%
\newlength{\tikzuml@AC@ytlc}%
\newlength{\tikzuml@AC@xblc}%
\newlength{\tikzuml@AC@yblc}%
\newlength{\tikzuml@AC@xbrc}%
\newlength{\tikzuml@AC@ybrc}%
\newlength{\tikzuml@AC@middleArm}%
\newcommand{\umlassemblyconnectorsymbol}[2]{%
\ifthenelse{\NOT\equal{\tikzumlAssemblyConnectorLabel}{}}{%
\edef\tikzuml@ACStart@name{#1}%
\edef\tikzuml@ACEnd@name{#2}%
\edef\tikzuml@AC@width{\tikzumlAssemblyConnectorWidth}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzuml@ACStart@nodeName{\tikzuml@ACStart@name}}\x%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzuml@ACEnd@nodeName{\tikzuml@ACEnd@name}}\x%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzuml@ACInterface@nodeName{\tikzumlAssemblyConnectorSymbolName}}\x%
%
\pgfextractx{\tikzuml@AC@xa}{\pgfpointanchor{\tikzuml@ACStart@nodeName}{\tikzumlAssemblyConnectorStartAnchor}}%
\pgfextracty{\tikzuml@AC@ya}{\pgfpointanchor{\tikzuml@ACStart@nodeName}{\tikzumlAssemblyConnectorStartAnchor}}%
\pgfextractx{\tikzuml@AC@xb}{\pgfpointanchor{\tikzuml@ACEnd@nodeName}{\tikzumlAssemblyConnectorEndAnchor}}%
\pgfextracty{\tikzuml@AC@yb}{\pgfpointanchor{\tikzuml@ACEnd@nodeName}{\tikzumlAssemblyConnectorEndAnchor}}%
\pgfmathsetlength{\tikzuml@AC@xi}{0.5*\tikzuml@AC@xa+0.5*\tikzuml@AC@xb}%
\pgfmathsetlength{\tikzuml@AC@yi}{0.5*\tikzuml@AC@ya+0.5*\tikzuml@AC@yb}%
\pgfmathsetlength{\tikzuml@AC@AB}{veclen(\tikzuml@AC@xa-\tikzuml@AC@xb,\tikzuml@AC@ya-\tikzuml@AC@yb)}%
\pgfmathsetlength{\tikzuml@AC@lambda}{0.25*\tikzuml@AC@width/\tikzuml@AC@AB}%
\pgfmathsetlength{\tikzuml@AC@xic}{\tikzuml@AC@xi-\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa)}%
\pgfmathsetlength{\tikzuml@AC@yic}{\tikzuml@AC@yi-\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya)}%
\pgfmathsetlength{\tikzuml@AC@xio}{\tikzuml@AC@xi+\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa)}%
\pgfmathsetlength{\tikzuml@AC@yio}{\tikzuml@AC@yi+\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya)}%
\node[inner sep=0.5*\tikzuml@AC@width] (\tikzuml@ACInterface@nodeName-interface) at (\tikzuml@AC@xi,\tikzuml@AC@yi) {};%
\node[inner sep=0, text width=\tikzuml@AC@width, circle, draw=\tikzumlassemblyconnectordraw, fill=\tikzumlassemblyconnectorfill] (\tikzuml@ACInterface@nodeName-io) at (\tikzuml@AC@xio,\tikzuml@AC@yio) {};%
\begin{scope}%
\pgfmathsetlength{\tikzuml@AC@xtrc}{\tikzuml@AC@xic-2*\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya)}%
\pgfmathsetlength{\tikzuml@AC@ytrc}{\tikzuml@AC@yic+2*\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa)}%
\pgfmathsetlength{\tikzuml@AC@xbrc}{\tikzuml@AC@xic+2*\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya)}%
\pgfmathsetlength{\tikzuml@AC@ybrc}{\tikzuml@AC@yic-2*\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa)}%
\pgfmathsetlength{\tikzuml@AC@xtlc}{\tikzuml@AC@xic-3*\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya+\tikzuml@AC@xb-\tikzuml@AC@xa)}%
\pgfmathsetlength{\tikzuml@AC@ytlc}{\tikzuml@AC@yic+3*\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa+\tikzuml@AC@ya-\tikzuml@AC@yb)}%
\pgfmathsetlength{\tikzuml@AC@xblc}{\tikzuml@AC@xic+3*\tikzuml@AC@lambda*(\tikzuml@AC@yb-\tikzuml@AC@ya+\tikzuml@AC@xa-\tikzuml@AC@xb)}%
\pgfmathsetlength{\tikzuml@AC@yblc}{\tikzuml@AC@yic-3*\tikzuml@AC@lambda*(\tikzuml@AC@xb-\tikzuml@AC@xa+\tikzuml@AC@yb-\tikzuml@AC@ya)}%
\coordinate (\tikzuml@ACInterface@nodeName-trc) at (\tikzuml@AC@xtrc,\tikzuml@AC@ytrc);%
\coordinate (\tikzuml@ACInterface@nodeName-brc) at (\tikzuml@AC@xbrc,\tikzuml@AC@ybrc);%
\coordinate (\tikzuml@ACInterface@nodeName-tlc) at (\tikzuml@AC@xtlc,\tikzuml@AC@ytlc);%
\coordinate (\tikzuml@ACInterface@nodeName-blc) at (\tikzuml@AC@xblc,\tikzuml@AC@yblc);%
\clip (\tikzuml@ACInterface@nodeName-trc) -- (\tikzuml@ACInterface@nodeName-tlc) -- (\tikzuml@ACInterface@nodeName-blc) -- (\tikzuml@ACInterface@nodeName-brc) -- cycle;%
\node[inner sep=0, text width=\tikzuml@AC@width, circle, draw=\tikzumlassemblyconnectordraw, fill=\tikzumlassemblyconnectorfill] (\tikzuml@ACInterface@nodeName-ic) at (\tikzuml@AC@xic,\tikzuml@AC@yic) {};%
\end{scope}%
\node[above, font=\tikzumlfont] at (\tikzuml@ACInterface@nodeName-interface.north)
{\tikzumlAssemblyConnectorLabel};%
}{}%
}%
\newcommand{\umlassemblyconnector}[3][]{%
\def\tikzumlAssemblyConnectorWithPort{tikzumlFalse}%
\def\tikzumlAssemblyConnectorFirstArm{tikzumlFalse}%
\def\tikzumlAssemblyConnectorSecondArm{tikzumlFalse}%
\def\tikzumlAssemblyConnectorMiddleArm{tikzumlFalse}%
\def\tikzumlAssemblyConnectorLastArm{tikzumlFalse}%
\pgfkeys{/tikzuml/assemblyconnectorrelation/.cd, geometry/.initial=--, interface/.initial={},%
arm1/.initial={auto}, arm2/.initial={auto},%
name/.initial=connector-\thetikzumlConnectorNum, width/.initial=1em,%
anchor1/.initial={}, anchor2/.initial={},%
draw/.initial=\tikzumldrawcolor,%
fill assembly connector/.initial=\tikzumlfillassemblyconnectorcolor,%
fill port/.initial=\tikzumlfillportcolor}%
\pgfkeys{/tikzuml/assemblyconnectorrelation/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{with port}}{%
\def\tikzumlAssemblyConnectorWithPort{tikzumlTrue}%
}{%
\ifthenelse{\equal{\keyname}{first arm}}{%
\def\tikzumlAssemblyConnectorFirstArm{tikzumlTrue}%
}{%
\ifthenelse{\equal{\keyname}{second arm}}{%
\def\tikzumlAssemblyConnectorSecondArm{tikzumlTrue}%
}{%
\ifthenelse{\equal{\keyname}{middle arm}}{%
\def\tikzumlAssemblyConnectorMiddleArm{tikzumlTrue}%
}{%
\ifthenelse{\equal{\keyname}{last arm}}{%
\def\tikzumlAssemblyConnectorLastArm{tikzumlTrue}%
}{%
}%
}%
}%
}%
}%
}%
}%
%
\pgfkeys{/tikzuml/assemblyconnectorrelation/.cd, #1}%
\pgfkeys{/tikzuml/assemblyconnectorrelation/.cd,%
geometry/.get=\tikzumlAssemblyConnectorGeometry,%
name/.get=\tikzumlAssemblyConnectorName,%
interface/.get=\tikzumlAssemblyConnectorLabel,%
width/.get=\tikzumlAssemblyConnectorWidth,%
arm1/.get=\tikzumlAssemblyConnectorStartArm,%
arm2/.get=\tikzumlAssemblyConnectorEndArm,%
anchor1/.get=\umlAssemblyConnectorStartAnchor,%
anchor2/.get=\umlAssemblyConnectorEndAnchor,%
draw/.get=\tikzumlassemblyconnectordraw,%
fill assembly connector/.get=\tikzumlassemblyconnectorfill,%
fill port/.get=\tikzumlassemblyconnectorportfill}%
%
\edef\tikzumlAssemblyConnectorStart@name{#2}%
\edef\tikzumlAssemblyConnectorEnd@name{#3}%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlAssemblyConnectorStart@nodeName{\tikzumlAssemblyConnectorStart@name}}\x%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlAssemblyConnectorEnd@nodeName{\tikzumlAssemblyConnectorEnd@name}}\x%
%
\begingroup%
\def\_{_}\edef\x{\endgroup%
\def\noexpand\tikzumlAssemblyConnectorLabel@nodeName{\tikzumlAssemblyConnectorLabel}}\x%
%
\pgfextractx{\tikzuml@AC@xa}{\pgfpointanchor{\tikzumlAssemblyConnectorStart@nodeName}{center}}%
\pgfextracty{\tikzuml@AC@ya}{\pgfpointanchor{\tikzumlAssemblyConnectorStart@nodeName}{center}}%
\pgfextractx{\tikzuml@AC@xb}{\pgfpointanchor{\tikzumlAssemblyConnectorEnd@nodeName}{center}}%
\pgfextracty{\tikzuml@AC@yb}{\pgfpointanchor{\tikzumlAssemblyConnectorEnd@nodeName}{center}}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{--}}{%
\ifthenelse{\tikzuml@AC@xb>\tikzuml@AC@xa}{%
\def\tikzumlAssemblyConnectorStartAnchor{east}%
\def\tikzumlAssemblyConnectorEndAnchor{west}%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{west}%
\def\tikzumlAssemblyConnectorEndAnchor{east}%
}
}{}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{-|}}{%
\ifthenelse{\tikzuml@AC@xb>\tikzuml@AC@xa}{%
\def\tikzumlAssemblyConnectorStartAnchor{east}%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{west}%
}
\ifthenelse{\tikzuml@AC@yb>\tikzuml@AC@ya}{%
\def\tikzumlAssemblyConnectorEndAnchor{south}%
}{%
\def\tikzumlAssemblyConnectorEndAnchor{north}%
}
}{}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{|-}}{%
\ifthenelse{\tikzuml@AC@xb>\tikzuml@AC@xa}{%
\def\tikzumlAssemblyConnectorEndAnchor{west}%
}{%
\def\tikzumlAssemblyConnectorEndAnchor{east}%
}
\ifthenelse{\tikzuml@AC@yb>\tikzuml@AC@ya}{%
\def\tikzumlAssemblyConnectorStartAnchor{north}%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{south}%
}
}{}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{-|-}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorStartArm}{auto}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorEndArm}{auto}}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{0.5 * \tikzuml@AC@xa + 0.5 * \tikzuml@AC@xb}%
}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{\tikzuml@AC@xb+\tikzumlAssemblyConnectorEndArm}%
}%
}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{\tikzuml@AC@xa+\tikzumlAssemblyConnectorStartArm}%
}%
\pgfmathparse{\tikzuml@AC@middleArm>\tikzuml@AC@xa}
\pgfmathparse{\tikzuml@AC@middleArm>\tikzuml@AC@xb}
\ifthenelse{\lengthtest{\tikzuml@AC@middleArm>\tikzuml@AC@xa}}{%
\def\tikzumlAssemblyConnectorStartAnchor{east}%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{west}%
}
\ifthenelse{\lengthtest{\tikzuml@AC@middleArm>\tikzuml@AC@xb}}{%
\def\tikzumlAssemblyConnectorEndAnchor{east}%
}{%
\def\tikzumlAssemblyConnectorEndAnchor{west}%
}
}{}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{|-|}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorStartArm}{auto}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorEndArm}{auto}}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{0.5 * \tikzuml@AC@ya + 0.5 * \tikzuml@AC@yb}%
}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{\tikzuml@AC@yb+\tikzumlAssemblyConnectorEndArm}%
}%
}{%
\pgfmathsetlength{\tikzuml@AC@middleArm}{\tikzuml@AC@ya+\tikzumlAssemblyConnectorStartArm}%
}%
\ifthenelse{\tikzuml@AC@middleArm>\tikzuml@AC@ya}{%
\def\tikzumlAssemblyConnectorStartAnchor{north}%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{south}%
}
\ifthenelse{\tikzuml@AC@middleArm>\tikzuml@AC@yb}{%
\def\tikzumlAssemblyConnectorEndAnchor{north}%
}{%
\def\tikzumlAssemblyConnectorEndAnchor{south}%
}
}{}%
%
\ifthenelse{\equal{\umlAssemblyConnectorStartAnchor}{}}{%
}{%
\def\tikzumlAssemblyConnectorStartAnchor{\umlAssemblyConnectorStartAnchor}%
}%
\ifthenelse{\equal{\umlAssemblyConnectorEndAnchor}{}}{%
}{%
\def\tikzumlAssemblyConnectorEndAnchor{\umlAssemblyConnectorEndAnchor}%
}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorWithPort}{tikzumlTrue}}{%
\node[inner sep=0.5*\tikzumlAssemblyConnectorWidth, rectangle, draw=\tikzumlassemblyconnectordraw, fill=\tikzumlassemblyconnectorportfill] (\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorStart@nodeName.\tikzumlAssemblyConnectorStartAnchor) {};%
\node[inner sep=0.5*\tikzumlAssemblyConnectorWidth, rectangle, draw=\tikzumlassemblyconnectordraw, fill=\tikzumlassemblyconnectorportfill] (\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorEnd@nodeName.\tikzumlAssemblyConnectorEndAnchor) {};%
}{%
\node[inner sep=0] (\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorStart@nodeName.\tikzumlAssemblyConnectorStartAnchor) {};%
\node[inner sep=0] (\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorEnd@nodeName.\tikzumlAssemblyConnectorEndAnchor) {};%
}%
%
\umlrelation[style={tikzuml connector style}, #1]{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorEnd@nodeName}%
%
\addtocounter{tikzumlRelationNum}{-1}%
\ifthenelse{\equal{\tikzumlAssemblyConnectorName}{connector-\thetikzumlConnectorNum}}{%
\edef\tikzumlAssemblyConnectorName{relation-\thetikzumlRelationNum}%
\edef\tikzumlAssemblyConnectorSymbolName{\tikzumlAssemblyConnectorLabel@nodeName}%
}{%
\edef\tikzumlAssemblyConnectorSymbolName{\tikzumlAssemblyConnectorName}%
}%
%
\stepcounter{tikzumlRelationNum}%
%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{--}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorEnd@nodeName}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{-|}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorFirstArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorName-2}%
}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-2}{\tikzumlAssemblyConnectorEnd@nodeName}%
}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{|-}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorFirstArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorName-2}%
}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-2}{\tikzumlAssemblyConnectorEnd@nodeName}%
}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{-|-}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorFirstArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorName-2}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorLastArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-4}{\tikzumlAssemblyConnectorEnd@nodeName}%
}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-2}{\tikzumlAssemblyConnectorName-4}%
}%
}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorGeometry}{|-|}}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorFirstArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorStart@nodeName}{\tikzumlAssemblyConnectorName-2}%
}{%
\ifthenelse{\equal{\tikzumlAssemblyConnectorLastArm}{tikzumlTrue}}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-4}{\tikzumlAssemblyConnectorEnd@nodeName}%
}{%
\umlassemblyconnectorsymbol{\tikzumlAssemblyConnectorName-2}{\tikzumlAssemblyConnectorName-4}%
}%
}%
}{}%
}%
}%
}%
}%
\stepcounter{tikzumlConnectorNum}%
}%
% shortcuts of \umlassemblyconnector
\newcommand{\umlHVassemblyconnector}[3][]{%
\pgfkeys{/tikzuml/HVassemblyconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVassemblyconnector, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVassemblyconnector/.cd, #1}%
\umlassemblyconnector[geometry=-|, #1]{#2}{#3}%
}%
\newcommand{\umlVHassemblyconnector}[3][]{%
\pgfkeys{/tikzuml/VHassemblyconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHassemblyconnector, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHassemblyconnector/.cd, #1}%
\umlassemblyconnector[geometry=|-, #1]{#2}{#3}%
}%
\newcommand{\umlHVHassemblyconnector}[3][]{%
\pgfkeys{/tikzuml/HVHassemblyconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlHVHassemblyconnector, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVHassemblyconnector/.cd, #1}%
\umlassemblyconnector[geometry=-|-, #1]{#2}{#3}%
}%
\newcommand{\umlVHVassemblyconnector}[3][]{%
\pgfkeys{/tikzuml/VHVassemblyconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}}{%
\errmessage{TIKZUML ERROR : in umlVHVassemblyconnector, forbidden option geometry}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHVassemblyconnector/.cd, #1}%
\umlassemblyconnector[geometry=|-|, #1]{#2}{#3}%
}%
\newcommand{\umldelegateconnector}[3][]{%
\pgfkeys{/tikzuml/delegateconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umldelegateconnector, forbidden option stereo}%
}{}%
}%
}%
\pgfkeys{/tikzuml/delegateconnector/.cd, #1}%
\umlrelation[style={tikzuml connector style}, stereo=delegate, #1]{#2}{#3}%
}%
% shortcuts of \umldelegateconnector
\newcommand{\umlHVdelegateconnector}[3][]{%
\pgfkeys{/tikzuml/HVdelegateconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVdelegateconnector, forbidden option \keyname}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVdelegateconnector/.cd, #1}%
\umlrelation[style={tikzuml connector style}, stereo=delegate, geometry=-|, #1]{#2}{#3}%
}%
\newcommand{\umlVHdelegateconnector}[3][]{%
\pgfkeys{/tikzuml/VHdelegateconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHdelegateconnector, forbidden option \keyname}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHdelegateconnector/.cd, #1}%
\umlrelation[style={tikzuml connector style}, stereo=delegate, geometry=|-, #1]{#2}{#3}%
}%
\newcommand{\umlHVHdelegateconnector}[3][]{%
\pgfkeys{/tikzuml/HVHdelegateconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlHVHdelegateconnector, forbidden option \keyname}%
}{}%
}%
}%
\pgfkeys{/tikzuml/HVHdelegateconnector/.cd, #1}%
\umlrelation[style={tikzuml connector style}, stereo=delegate, geometry=-|-, #1]{#2}{#3}%
}%
\newcommand{\umlVHVdelegateconnector}[3][]{%
\pgfkeys{/tikzuml/VHVdelegateconnector/.cd, .unknown/.code={%
\let\keyname=\pgfkeyscurrentname%
\ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{%
\errmessage{TIKZUML ERROR : in umlVHVdelegateconnector, forbidden option \keyname}%
}{}%
}%
}%
\pgfkeys{/tikzuml/VHVdelegateconnector/.cd, #1}%
\umlrelation[style={tikzuml connector style}, stereo=delegate, geometry=|-|, #1]{#2}{#3}%
}%
%%% End of tikz-uml.sty
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%