diff --git a/Implementation/implementation.tex b/Implementation/implementation.tex index 6de24d4..1d069d8 100644 --- a/Implementation/implementation.tex +++ b/Implementation/implementation.tex @@ -185,6 +185,60 @@ To resolve the issues seen with TCP, an implementation using UDP was built as an \subsection{Congestion Control} +Congestion control most commonly exists in the context of reliable delivery. This provides a significant benefit to TCP congestion control protocols: cumulative acknowledgements. As all of the bytes should always arrive, unless the connection has faulted, the acknowledgement number can simply be kept at the highest received byte. However, for an unreliable protocol, this is not as simple - which packets were missed? An example of this issue is given in + +\begin{figure} + \hfill + \begin{subfigure}[t]{0.3\textwidth} + \centering + \begin{tabular}{|c|c|} + SEQ & ACK \\ + 1 & 0 \\ + 2 & 0 \\ + 3 & 2 \\ + 4 & 2 \\ + 5 & 2 \\ + 6 & 5 \\ + 6 & 6 + \end{tabular} + \caption{ACKs responding to in order sequence numbers} + \label{fig:sequence-ack-continuous} + \end{subfigure}\hfill + \begin{subfigure}[t]{0.3\textwidth} + \centering + \begin{tabular}{|c|c|} + SEQ & ACK \\ + 1 & 0 \\ + 2 & 0 \\ + 3 & 2 \\ + 5 & 3 \\ + 6 & 3 \\ + 7 & 3 \\ + 7 & 3 + \end{tabular} + \caption{ACKs responding to a missing sequence number} + \label{fig:sequence-ack-discontinuous} + \end{subfigure}\hfill + \begin{subfigure}[t]{0.35\textwidth} + \centering + \begin{tabular}{|c|c|c|} + SEQ & ACK & NACK \\ + 1 & 0 & 0 \\ + 2 & 0 & 0 \\ + 3 & 2 & 0 \\ + 5 & 2 & 0 \\ + 6 & 2 & 0 \\ + 7 & 6 & 4 \\ + 7 & 7 & 4 + \end{tabular} + \caption{ACKs and NACKs responding to a missing sequence number} + \label{fig:sequence-ack-nack-discontinuous} + \end{subfigure} + \caption{ACKs and NACKs responding to sequence numbers} + \label{fig:sequence-ack-nack-comparison} + \hfill +\end{figure} + \mynote{Write this.} \subsubsection{New Reno} @@ -198,11 +252,11 @@ To resolve the issues seen with TCP, an implementation using UDP was built as an \subsection{Routing} -\mynote{Write this.} +\mynote{Left for now. I have a bit of an idea about why this might/might not be necessary, and what to discuss it in slightly more context (it differs massively between use cases).} \subsection{Buffers} -\mynote{Write this.} +\mynote{Left for now. I have some specific debugging I want to do on the real connection to see if I can come up with some better reasons for this. Currently it's along the lines of "setting it to 0 solves one problem but might make another worse".} % ----------------------------- Security ----------------------------------- % \section{Security} @@ -239,16 +293,16 @@ func (None) Next(b []byte) ([]byte, []byte, error) { return nil, nil, nil } \label{fig:crypto-exchanges-none} \end{figure} -The exchanges are designed to be flexible for any packet transport method. The flow of using an exchange is shown in pseudocode in figure \ref{fig:crypto-exchanges-pseudocode}. The flow manages all packets exchanged by the connection, until the exchange confirms that it is done, or fails. The exchange can also produce data during the exchange, which is handed off to the normal packet handling mechanism, represented in the pseudocode by the \verb'yield' keyword. +The exchanges are designed to be applicable to any packet transport method. The flow of using an exchange is shown in pseudocode in figure \ref{fig:crypto-exchanges-pseudocode}. The flow manages all packets exchanged by the connection, until the exchange confirms that it is done, or fails. The exchange can also produce data during the exchange, which is handed off to the normal packet handling mechanism, represented in the pseudocode by the \verb'yield' keyword. \begin{figure} \centering \begin{minted}{python} -if !exchange.IsDone(): +if not exchange.IsDone(): if this_side_goes_first: send(try(exchange.First())) - while !exchange.IsDone(): + while not exchange.IsDone(): packet = receive() next, out = try(exchange.Next(packet)) if out != nil: @@ -265,11 +319,10 @@ if !exchange.IsDone(): As discussed in section \ref{section:preparation-repeated-packets}, the algorithm used to prevent repeated packets is the \emph{IPsec Anti-Replay Algorithm without Bit Shifting} \citep{tsou_ipsec_2012}. In the referenced work, a \verb'C' implementation is provided, which could be easily adapted to Go. -Although the repeated packet protection is primarily targeted at avoiding repeated IP packets, it is possible for it to be used elsewhere, as mentioned in exchanges. As such, the interface for repeat protection is made concurrent, such that it can be used anywhere in the program it's deemed useful. Given that initial flow exchanges should happen exceedingly rarely compared to packet flow, this should not affect the size of the window in a meaningful way. - +Although the repeated packet protection is primarily targeted at avoiding repeated IP packets, it is possible for it to be used elsewhere, as mentioned in exchanges. As such, the interface for repeat protection is made concurrent, such that it can be used anywhere in the program it's deemed useful. Given that initial flow exchanges should happen exceedingly rarely compared to packet flow, this should not affect the size of the repeated packet window significantly. \subsection{Hierarchy} -The security features presented in this section form a hierarchy of attachment to a packet. Given in figure \ref{fig:udp-packet-dataflow} is an example of the growth of a packet with a specific configuration of UDP, replay protection, and a message authentication code. The process of sending a packet via a consumer is given right to left, and the reverse process of receiving a packet from a producer is given left to right. For a packet to consume, the first element added is the data sequence number. This data sequence number is closest to the proxy, as it is global and not unique to a flow. This is followed by the congestion control header, added before the MAC to receive integrity and authenticity protection, preventing tampering. Finally, the UDP header is prepended before the packet is dispatched. The same process is repeated in reverse in the other direction. This figure represents the flow of data through the software, and importantly, where each portion of the security must be implemented to achieve its goals. +The security features presented in this section form a hierarchy within the data flow of a packet. Given in figure \ref{fig:udp-packet-dataflow} is an example of the growth of a packet with a specific configuration of UDP, replay protection, and a message authentication code. The process of sending a packet via a consumer is given right to left, and the reverse process of receiving a packet from a producer is given left to right. For a packet to consume, the first element added is the data sequence number. This data sequence number is closest to the proxy, as it is global and not unique to a flow. This is followed by the congestion control header, added before the MAC such that it receive integrity and authenticity protection, preventing tampering. Finally, the UDP header is prepended before the packet is dispatched. The same process is repeated in reverse in the other direction. This figure represents the flow of data through the software, and importantly, where each portion of the security must be implemented to achieve its goals. \begin{figure} \centering @@ -305,7 +358,67 @@ The security features presented in this section form a hierarchy of attachment t % ----------------------------- Testing ------------------------------------ % \section{Testing and Evaluation} -\mynote{Write this.} +The project focuses particularly on automatic evaluation. Although some testing can be performed with mocked connections, the evaluation of the success criteria revolve around virtual hardware. The benefit of virtual hardware is the ability to spin up and spin down entire testing environments when required. As such, automatic evaluation software can be built to create the required environments and gather the information required. This allows each code change to be verified by confirming that the graphs show the required trends. + +The application is split into two parts: data gathering and data processing. There are two reasons for this. Firstly, the data gathering takes significantly longer than data processing, so being able to gather data once and then process it multiple times is a benefit for rapid development. Secondly, the choice of language is different for each stage, as discussed in \ref{section:preparation-language-choices-evaluation}. To complete the full process of automatic evaluation, the data is first updated by running the data gathering application, after which the data processing is completed. As the only item which needs to cross the language barrier is output data, this can be achieved by using the file system. Any loss of speed by switching from memory to files is irrelevant for testing purposes, so this is an acceptable trade-off. + +Discussion of data gathering will be given in this section, while the data processing will be discussed in the evaluation chapter, in section \ref{INVALID}. The data gathering grew to be a significant part of this project, and was built alongside the implementation to gather the requisite data. In fact, it developed from a custom script created to make testing this project easier, into a full blown Java library that can be used for a much wider variety of applications. + +\subsection{Data Gathering} + +The system for automated data gathering is built using Java. It involves three layers: the Java application itself, the \verb'virtualtests'\footnote{\url{https://github.com/JakeHillion/virtual-tests}} library, which depends on the \verb'proxmox'\footnote{\url{https://github.com/JakeHillion/proxmox-java}}. Each of those elements were developed by me within the constraints of this project. + +The data gathering system was built with to make adding data points as simple as possible. As such, the pseudocode of the program's main method follows that in figure \ref{fig:data-gathering-pseudocode}. This succinctly demonstrates that each testing environment exists only as long as test are running within it. The majority of tests are standard tests, with a network structure shown in \ref{fig:data-gathering-standard-network-structure}. The structure connects the local portal via $n$ connections to the remote portal. The test then specifies the connection initial rate limit, and changes to the connection liveness and rate over time. Once this is created, tests can be run between the speed test server and proxied client. + +\begin{figure} + \centering + \begin{minted}{python} +with environment_1.build() as env: + test(env, test1a) + test(env, test1b) + +with environment_2.build() as env: + test(env, test2a) + test(env, test2b) + \end{minted} + \caption{Pseudocode for data gathering main method.} + \label{fig:data-gathering-pseudocode} +\end{figure} + +\begin{figure} + \centering + \begin{tikzpicture}[ + squarednode/.style={rectangle, draw=black!60, fill=red!5, very thick, minimum size=5mm}, + ] + + % Nodes + \node[squarednode] at (0,0) (speedtest) {Speed Test Server}; + \node[squarednode] at (4,0) (remoteportal) {Remote Portal}; + \node[squarednode] at (8,0) (localportal) {Local Portal}; + \node[squarednode] at (11,0) (client) {Client}; + + % Edges + \draw[->] ([yshift=6mm]speedtest.north) -- (speedtest.north); + \draw[->] ([yshift=6mm]remoteportal.north) -- (remoteportal.north); + \draw[->] ([xshift=-7mm,yshift=6mm]localportal.north) -- ([xshift=-7mm]localportal.north); + \draw[->] ([yshift=6mm]localportal.north) -- (localportal.north); + \draw[->] ([xshift=7mm,yshift=6mm]localportal.north) -- ([xshift=7mm]localportal.north); + \draw[->] ([yshift=6mm]client.north) -- (client.north); + + \draw[-] ([yshift=6mm]speedtest.north) -- ([yshift=6mm]localportal.north); + \draw[-] ([xshift=7mm,yshift=6mm]localportal.north) -- ([yshift=6mm]client.north); + + % Edge Label + \node at ([xshift=-3.5mm,yshift=9mm]localportal.north) {0 .. N}; + \end{tikzpicture} + + \caption{The network structure of standard tests} + \label{fig:data-gathering-standard-network-structure} +\end{figure} + +The tests proposed here are expensive to compute. They involve creating Virtual Machines, installing the required software, and most involve running speed tests that take multiple seconds. As such, methods are taken to keep repeats of test small, while maintaining sufficiently small uncertainty to conclusively prove points. To achieve this, each test is run a minimum of 5 times, then run until the coefficient of variance ($CV = \mu/\sigma$) falls below a provided value. Further, the tests support a draft mode, which runs the tests less time in order to produce results more quickly, albeit with a higher level of uncertainty. + +After performing the required data analysis to confirm the level of uncertainty for each result, the result can be saved directly to a file. For the majority of tests these are JSON files. To ensure correct communication between the Java and Python softwares, a matching structure exists on both sides that can be compiled to a directory name. Within this directory, each repeat of test data can be stored by its numeric index. % ------------------------ Repository Overview ----------------------------- % \section{Repository Overview} @@ -432,58 +545,6 @@ The benefit of a NACK is demonstrated in figure \ref{fig:sequence-ack-nack-compa Figure \ref{fig:sequence-ack-nack-discontinuous} shows how this same situation can be responded to with a NACK field. After the receiver has concluded that the intermediate packet(s) were lost in transit (a function of RTT, to be discussed further later), it updates the NACK field to the highest lost packet, allowing the ACK field to be increased from one after the lost packet. This solution resolves the deadlock of not being able to increase the ACK number without requiring reliable delivery. That is, the receiver increases their NACK similarly to when a TCP sender would retransmit. -\begin{figure} - \hfill - \begin{subfigure}[t]{0.3\textwidth} - \centering - \begin{tabular}{|c|c|} - SEQ & ACK \\ - 1 & 0 \\ - 2 & 0 \\ - 3 & 2 \\ - 4 & 2 \\ - 5 & 2 \\ - 6 & 5 \\ - 6 & 6 - \end{tabular} - \caption{ACKs responding to in order sequence numbers} - \label{fig:sequence-ack-continuous} - \end{subfigure}\hfill - \begin{subfigure}[t]{0.3\textwidth} - \centering - \begin{tabular}{|c|c|} - SEQ & ACK \\ - 1 & 0 \\ - 2 & 0 \\ - 3 & 2 \\ - 5 & 3 \\ - 6 & 3 \\ - 7 & 3 \\ - 7 & 3 - \end{tabular} - \caption{ACKs responding to a missing sequence number} - \label{fig:sequence-ack-discontinuous} - \end{subfigure}\hfill - \begin{subfigure}[t]{0.35\textwidth} - \centering - \begin{tabular}{|c|c|c|} - SEQ & ACK & NACK \\ - 1 & 0 & 0 \\ - 2 & 0 & 0 \\ - 3 & 2 & 0 \\ - 5 & 2 & 0 \\ - 6 & 2 & 0 \\ - 7 & 6 & 4 \\ - 7 & 7 & 4 - \end{tabular} - \caption{ACKs and NACKs responding to a missing sequence number} - \label{fig:sequence-ack-nack-discontinuous} - \end{subfigure} - \caption{ACKs and NACKs responding to sequence numbers} - \label{fig:sequence-ack-nack-comparison} - \hfill -\end{figure} - As this was a new UDP protocol, I wrote a Wireshark\footnote{\url{https://wireshark.org}} dissector, shown in figure \ref{fig:udp-wireshark-dissector}. This is a Lua script that requests Wireshark use the given dissector function for UDP traffic on port 1234 (a port chosen for testing). It extracts the three congestion control parameters from the UDP datagram, showing them in a far easier to read format and allowing more efficient debugging of congestion control protocols. The extracted data can be seen in figure \ref{fig:udp-wireshark-dissector-results}. \begin{figure} diff --git a/Preamble/preamble.tex b/Preamble/preamble.tex index 989e23e..ffbd6b2 100644 --- a/Preamble/preamble.tex +++ b/Preamble/preamble.tex @@ -88,6 +88,7 @@ \usepackage{dirtree} \usepackage{tikz} +\usepackage{sty/tikz-uml} \usetikzlibrary{positioning} \usetikzlibrary{shapes.multipart} diff --git a/Preparation/preparation.tex b/Preparation/preparation.tex index fbeb321..6306b19 100644 --- a/Preparation/preparation.tex +++ b/Preparation/preparation.tex @@ -308,6 +308,8 @@ For the greedy structure of this project, Go's focus on concurrency is extremely Garbage collection and first order concurrency come together to make the code produced for this project highly readable. The downside of this runtime is that the speed of execution is negatively affected. However, for the purposes of this first production, that compromise is acceptable. By producing code that makes the functionality of the application clear, future implementations could more easily be built to mirror it. Given the sample of speeds displayed in section (Ref Needed: Introduction Comments on Speed), and the performance shown in section \ref{section:performance-evaluation}, the compromise of using a well-suited high-level language is one worth taking. \subsection{Evaluation Languages} +\label{section:preparation-language-choices-evaluation} + \subsubsection{Python} Python is a dynamically typed, and was chosen as the initial implementation language. The first reason for this is \verb'matplotlib'\footnote{\url{https://matplotlib.org/}}, a widely used graphing library that can produce the graphs needed for this evaluation. The second reason is \verb'proxmoxer'\footnote{\url{https://github.com/proxmoxer/proxmoxer}}, a fluent API for interacting with a Proxmox server. diff --git a/sty/tikz-uml.sty b/sty/tikz-uml.sty new file mode 100644 index 0000000..eacab58 --- /dev/null +++ b/sty/tikz-uml.sty @@ -0,0 +1,5376 @@ +%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% 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 march 2016 to compile with pgf 3.00 +%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% +\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,% + x/.initial=0, y/.initial=0,% + package type/.initial=tikzumlEmpty, fill package/.initial=blue!20,% + class width/.initial=10ex, simple interface width/.initial=4ex, class type/.initial=class, fill class/.initial=yellow!20, fill template/.initial=yellow!2,% + narynode width/.initial=6ex,% + relation geometry/.initial=--, relation angle1/.initial=-30, relation angle2/.initial=30, relation loopsize/.initial=3em, relation weight/.initial=0.5, relation pos1/.initial=0.2, relation pos2/.initial=0.8, relation pos stereo/.initial=0.5,% + note width/.initial=3cm, fill note/.initial=green!20,% + fill system/.initial=white,% + fill usecase/.initial=blue!20,% + actor below/.initial=0.5cm,% + state join width/.initial=3ex,% + state decision width/.initial=3ex,% + state initial width/.initial=5ex,% + state final width/.initial=5.5ex,% + state enter width/.initial=5ex,% + state exit width/.initial=5ex,% + state end width/.initial=5ex,% + state history width/.initial=5ex,% + state deep history width/.initial=5ex,% + state width/.initial=8ex, fill state/.initial=yellow!20,% + object stereo/.initial=object, fill object/.initial=yellow!20,% + call dt/.initial=tikzumlEmpty, call padding/.initial=2, call type/.initial=synchron, fill call/.initial=white,% + fragment type/.initial=opt, fragment inner xsep/.initial=1, fragment inner ysep/.initial=1, fill fragment/.initial= none,% + create call dt/.initial=4,% + component width/.initial=8ex, fill component/.initial= yellow!20,% + required interface distance/.initial=2.5cm, required interface width/.initial=1em, required interface padding/.initial=1cm,% + provided interface distance/.initial=3cm, provided interface width/.initial=1em, provided interface padding/.initial=1cm,% + port width/.initial=1ex, fill port/.initial= yellow!20,% + fill assembly connector/.initial= white,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in tikzuml global, invalid option \keyname}% + }% +}% +% +\pgfkeys{/tikzuml/.cd, text/.get=\tikzumlDefaultTextColor, draw/.get=\tikzumlDefaultDrawColor, font/.get=\tikzumlDefaultFont,% + x/.get=\tikzumlDefaultX, y/.get=\tikzumlDefaultY,% + package type/.get=\tikzumlPackageDefaultType, fill package/.get=\tikzumlPackageDefaultFillColor,% + class width/.get=\tikzumlClassDefaultWidth, simple interface width/.get=\tikzumlSimpleInterfaceDefaultWidth, class type/.get=\tikzumlClassDefaultType, fill class/.get=\tikzumlClassDefaultFillColor, fill template/.get=\tikzumlClassTemplateFillColorDefaultFillColor,% + narynode width/.get=\tikzumlNaryNodeDefaultWidth,% + relation geometry/.get=\tikzumlRelationDefaultGeometry, relation angle1/.get=\tikzumlRelationDefaultAngleO, relation angle2/.get=\tikzumlRelationDefaultAngleT, relation loopsize/.get=\tikzumlRelationDefaultLoopSize, relation weight/.get=\tikzumlRelationDefaultWeight, relation pos1/.get=\tikzumlRelationDefaultPosO, relation pos2/.get=\tikzumlRelationDefaultPosT, relation pos stereo/.get=\tikzumlRelationDefaultPosStereo,% + note width/.get=\tikzumlNoteDefaultWidth, fill note/.get=\tikzumlNoteDefaultFillColor,% + fill system/.get=\tikzumlSystemDefaultFillColor,% + fill usecase/.get=\tikzumlUseCaseDefaultFillColor,% + actor below/.get=\tikzumlActorDefaultBelow,% + state join width/.get=\tikzumlStateJoinDefaultWidth,% + state decision width/.get=\tikzumlStateDecisionDefaultWidth,% + state initial width/.get=\tikzumlStateInitialDefaultWidth,% + state final width/.get=\tikzumlStateFinalDefaultWidth,% + state enter width/.get=\tikzumlStateEnterDefaultWidth,% + state exit width/.get=\tikzumlStateExitDefaultWidth,% + state end width/.get=\tikzumlStateEndDefaultWidth,% + state history width/.get=\tikzumlStateHistoryDefaultWidth,% + state deep history width/.get=\tikzumlStateDeepHistoryDefaultWidth,% + state width/.get=\tikzumlStateDefaultWidth, fill state/.get=\tikzumlStateDefaultFillColor,% + object stereo/.get=\tikzumlObjectDefaultStereo, fill object/.get=\tikzumlObjectDefaultFillColor,% + call dt/.get=\tikzumlCallDefaultDT, call padding/.get=\tikzumlCallDefaultPadding, call type/.get=\tikzumlCallDefaultType, fill call/.get=\tikzumlCallDefaultFillColor,% + fragment type/.get=\tikzumlFragmentDefaultType, fragment inner xsep/.get=\tikzumlFragmentDefaultXSep, fragment inner ysep/.get=\tikzumlFragmentDefaultYSep, fill fragment/.get=\tikzumlFragmentDefaultFillColor,% + create call dt/.get=\tikzumlCreateCallDefaultDT,% + component width/.get=\tikzumlComponentDefaultWidth, fill component/.get=\tikzumlComponentDefaultFillColor,% + required interface distance/.get=\tikzumlRequiredInterfaceDefaultDistance, required interface width/.get=\tikzumlRequiredInterfaceDefaultWidth, required interface padding/.get=\tikzumlRequiredInterfaceDefaultPadding,% + provided interface distance/.get=\tikzumlProvidedInterfaceDefaultDistance, provided interface width/.get=\tikzumlProvidedInterfaceDefaultWidth, provided interface padding/.get=\tikzumlProvidedInterfaceDefaultPadding,% + port width/.get=\tikzumlPortDefaultWidth, fill port/.get=\tikzumlPortDefaultFillColor,% + fill assembly connector/.get=\tikzumlAssemblyConnectorDefaultFillColor% +}% +% +% utility : change default colors +\newcommand{\tikzumlset}[1]{% + \pgfkeys{/tikzuml/.cd,#1}% + \pgfkeys{/tikzuml/.cd, text/.get=\tikzumlDefaultTextColor, draw/.get=\tikzumlDefaultDrawColor, font/.get=\tikzumlDefaultFont,% + x/.get=\tikzumlDefaultX, y/.get=\tikzumlDefaultY,% + package type/.get=\tikzumlPackageDefaultType, fill package/.get=\tikzumlPackageDefaultFillColor,% + class width/.get=\tikzumlClassDefaultWidth, simple interface width/.get=\tikzumlSimpleInterfaceDefaultWidth, class type/.get=\tikzumlClassDefaultType, fill class/.get=\tikzumlClassDefaultFillColor, fill template/.get=\tikzumlClassTemplateFillColorDefaultFillColor,% + narynode width/.get=\tikzumlNaryNodeWidth,% + relation geometry/.get=\tikzumlRelationDefaultGeometry, relation angle1/.get=\tikzumlRelationDefaultAngleO, relation angle2/.get=\tikzumlRelationDefaultAngleT, relation loopsize/.get=\tikzumlRelationDefaultLoopSize, relation weight/.get=\tikzumlRelationDefaultWeight, relation pos1/.get=\tikzumlRelationDefaultPosO, relation pos2/.get=\tikzumlRelationDefaultPosT, relation pos stereo/.get=\tikzumlRelationDefaultPosStereo,% + note width/.get=\tikzumlNoteDefaultWidth, fill note/.get=\tikzumlNoteDefaultFillColor,% + fill system/.get=\tikzumlSystemDefaultFillColor,% + fill usecase/.get=\tikzumlUseCaseDefaultFillColor,% + actor below/.get=\tikzumlActorDefaultBelow,% + state join width/.get=\tikzumlStateJoinDefaultWidth,% + state decision width/.get=\tikzumlStateDecisionDefaultWidth,% + state initial width/.get=\tikzumlStateInitialDefaultWidth,% + state final width/.get=\tikzumlStateFinalDefaultWidth,% + state enter width/.get=\tikzumlStateEnterDefaultWidth,% + state exit width/.get=\tikzumlStateExitDefaultWidth,% + state end width/.get=\tikzumlStateEndDefaultWidth,% + state history width/.get=\tikzumlStateHistoryDefaultWidth,% + state deep history width/.get=\tikzumlStateDeepHistoryDefaultWidth,% + state width/.get=\tikzumlStateDefaultWidth, fill state/.get=\tikzumlStateDefaultFillColor,% + object stereo/.get=\tikzumlObjectDefaultStereo, fill object/.get=\tikzumlObjectDefaultFillColor,% + call dt/.get=\tikzumlCallDefaultDT, call padding/.get=\tikzumlCallDefaultPadding, call type/.get=\tikzumlCallDefaultType, fill call/.get=\tikzumlCallDefaultFillColor,% + fragment type/.get=\tikzumlFragmentDefaultType, fragment inner xsep/.get=\tikzumlFragmentDefaultXSep, fragment inner ysep/.get=\tikzumlFragmentDefaultYSep, fill fragment/.get=\tikzumlFragmentDefaultFillColor,% + create call dt/.get=\tikzumlCreateCallDT,% + component width/.get=\tikzumlComponentDefaultWidth, fill component/.get=\tikzumlComponentDefaultFillColor,% + required interface distance/.get=\tikzumlRequiredInterfaceDefaultDistance, required interface width/.get=\tikzumlRequiredInterfaceDefaultWidth, required interface padding/.get=\tikzumlRequiredInterfaceDefaultPadding,% + provided interface distance/.get=\tikzumlProvidedInterfaceDefaultDistance, provided interface width/.get=\tikzumlProvidedInterfaceDefaultWidth, provided interface padding/.get=\tikzumlProvidedInterfaceDefaultPadding,% + port width/.get=\tikzumlPortDefaultWidth, fill port/.get=\tikzumlPortDefaultFillColor,% + fill assembly connector/.get=\tikzumlAssemblyConnectorDefaultFillColor% + }% +}% +% +% 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% +}% +% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +% 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 simpleclass style}=[rectangle, minimum height=2em, node distance=2em]% +\tikzstyle{tikzuml simpleinterface style}=[circle, minimum height=1em, node distance=1em]% +\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 association style}=[color=\tikzumlDefaultDrawColor, -]% +\tikzstyle{tikzuml bidirectional association style}=[color=\tikzumlDefaultDrawColor, angle45-angle45]% +\tikzstyle{tikzuml unidirectional association style}=[color=\tikzumlDefaultDrawColor, -angle 45]% +\tikzstyle{tikzuml aggregation style}=[color=\tikzumlDefaultDrawColor, open diamond-]% +\tikzstyle{tikzuml unidirectional aggregation style}=[color=\tikzumlDefaultDrawColor, open diamond-angle 45]% +\tikzstyle{tikzuml composition style}=[color=\tikzumlDefaultDrawColor, diamond-]% +\tikzstyle{tikzuml unidirectional composition style}=[color=\tikzumlDefaultDrawColor, diamond-angle 45]% +\tikzstyle{tikzuml nesting style}=[color=\tikzumlDefaultDrawColor]% +\tikzstyle{tikzuml dependency style}=[color=\tikzumlDefaultDrawColor, -angle 45, dashed]% +\tikzstyle{tikzuml import style}=[color=\tikzumlDefaultDrawColor, -angle 45, dashed]% +\tikzstyle{tikzuml inherit style}=[color=\tikzumlDefaultDrawColor, -open triangle 45]% +\tikzstyle{tikzuml implements style}=[color=\tikzumlDefaultDrawColor, -open triangle 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}% +% +\newif\iftikzumlpackageSimpleStyle% +\newif\iftikzumlclassSimpleStyle% +\newif\iftikzumlclassCircleShape% +\newif\iftikzumlpackageWithoutCoords% +\newif\iftikzumlclassWithoutCoords% +\newif\iftikzumlassocclassWithoutCoords% +\newif\iftikzumlnoteWithoutCoords% +% +% define a uml package +% arg : package name +% optional : x, y: coordinates of the package +% type: stereotype of the package +% name: name of the package node +% draw, fill, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the package position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newenvironment{umlpackage}[2][]{% + \pgfkeys{/tikzuml/package/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, style/.style={},% + name/.initial=tikzumlEmpty, type/.initial=\tikzumlPackageDefaultType, draw/.initial=\tikzumlDefaultDrawColor,% + fill/.initial=\tikzumlPackageDefaultFillColor, text/.initial=\tikzumlDefaultTextColor,% + no coords/.is if=tikzumlpackageWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/package/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/package/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/package/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlpackage, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/package/.cd, #1}% + \pgfkeys{/tikzuml/package/.cd, x/.get=\tikzumlPackageXShift, y/.get=\tikzumlPackageYShift, name/.get=\tikzumlPackageName, type/.get=\tikzumlPackageTypeTmp,% + draw/.get=\tikzumlPackageDrawColor, fill/.get=\tikzumlPackageFillColor,% + text/.get=\tikzumlPackageTextColor% + }% + % + + % + \ifthenelse{\equal{\tikzumlPackageTypeTmp}{tikzumlEmpty}}{% + \def\tikzumlPackageType{}% + }{% + \expandafter\def\expandafter\tikzumlPackageType\expandafter{$\ll$\tikzumlPackageTypeTmp$\gg$ \\}% + }% + % + \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% + % + \ifthenelse{\equal{\tikzumlPackageName}{tikzumlEmpty}}{}{% + \def\tikzumlPackage@nodeName{\tikzumlPackageName}% + }% + % + \StrSubstitute{\tikzumlPackage@nodeName}{.}{@POINT@}{\tikzumlPackage@nodeName}% + % + \expandafter\gdef\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname{}% + % + \setcounter{tikzumlPackageClassNum}{0}% + \setcounter{tikzumlPackageSubPackageNum}{0}% + \stepcounter{tikzumlPackageLevel}% + % + \begin{scope}[xshift=\tikzumlPackageXShift cm, yshift=\tikzumlPackageYShift cm]% +}{% + \addtocounter{tikzumlPackageLevel}{-1}% + \begin{pgfonlayer}{package\thetikzumlPackageLevel}% + % + % if contains no class, and not simple, one define a fictive node to enable the fit option + \ifnum\c@tikzumlPackageClassNum=0% + \ifnum\c@tikzumlPackageSubPackageNum=0% + \iftikzumlpackageWithoutCoords% + \node[inner sep=1.5ex, /tikzuml/package/style] (\tikzumlPackage@nodeName-root) {\phantom{\tikzumlPackage@nodeName}};% + \else% + \node[inner sep=1.5ex, /tikzuml/package/style] (\tikzumlPackage@nodeName-root) at (0,0) {\phantom{\tikzumlPackage@nodeName}};% + \fi% + \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=\tikzumlPackageDrawColor, fill=\tikzumlPackageFillColor, text=\tikzumlPackageTextColor, font=\tikzumlDefaultFont, inner sep=1.5ex, /tikzuml/package/style, fit = \csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname] (\tikzumlPackage@nodeName) {};% + \node[draw=\tikzumlPackageDrawColor, fill=\tikzumlPackageFillColor, text=\tikzumlPackageTextColor, font=\tikzumlDefaultFont, minimum height=1.5em, outer ysep=-0.3, anchor=south west] (\tikzumlPackage@nodeName-caption) at (\tikzumlPackage@nodeName.north west) {\begin{tabular}{c} \tikzumlPackageType \textbf{\tikzumlPackage@name}\end{tabular}};% + \end{pgfonlayer}% + \end{scope}% +}% +% +% shortcut to define an empty package +\newcommand{\umlemptypackage}[2][]{\begin{umlpackage}[#1]{#2} \end{umlpackage}}% +% +% define a uml class +% 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: type of class (class, interface, typedef, enum) +% tags: tagged values of class +% template: template parameters +% simple: if used, class is empty and drawn with a rectangle +% circle: if used with simple, class is empty and drawn with a circle +% draw, fill, fill template, and text: colors +% style: to manage every default TikZ option +% no coords: to tell that the class position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlclass}[4][]{% + \pgfkeys{/tikzuml/class/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlClassDefaultWidth, type/.initial=\tikzumlClassDefaultType,% + tags/.initial={}, style/.style={},% + template/.initial={}, name/.initial=tikzumlEmpty,% + draw/.initial=\tikzumlDefaultDrawColor,% + fill template/.initial=\tikzumlClassTemplateFillColorDefaultFillColor,% + fill/.initial=\tikzumlClassDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + simple/.is if=tikzumlclassSimpleStyle, circle/.is if=tikzumlclassCircleShape, no coords/.is if=tikzumlclassWithoutCoords,% + simple=false, circle=false, no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/class/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/class/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/class/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlclass, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/class/.cd,#1}% + % + \iftikzumlclassSimpleStyle% + \iftikzumlclassCircleShape% + \pgfkeys{/tikzuml/class/.cd, width/.initial=\tikzumlSimpleInterfaceDefaultWidth}% + \fi% + \fi% + % + \pgfkeys{/tikzuml/class/.cd, x/.get=\tikzumlClassX, y/.get=\tikzumlClassY, width/.get=\tikzumlClassMinimumWidth,% + type/.get=\tikzumlClassTypeTmp, tags/.get=\tikzumlClassTagsTmp, template/.get=\tikzumlClassTemplateFillColorParam,% + name/.get=\tikzumlClassName,% + draw/.get=\tikzumlClassDrawColor, fill/.get=\tikzumlClassFillColor,% + text/.get=\tikzumlClassTextColor, fill template/.get=\tikzumlClassTemplateFillColor% + }% + % + \ifthenelse{\equal{\tikzumlClassTypeTmp}{class}\OR\equal{\tikzumlClassTypeTmp}{abstract}}{% + \def\tikzumlClassType{}% + }{% + \expandafter\def\expandafter\tikzumlClassType\expandafter{$\ll$\tikzumlClassTypeTmp$\gg$ \\}% + }% + % + \ifthenelse{\equal{\tikzumlClassTagsTmp}{}}{% + \def\tikzumlClassTags{}% + }{% + \def\tikzumlClassTags{\\ \{\tikzumlClassTagsTmp\}}% + }% + % + \ifthenelse{\equal{\tikzumlClassTemplateFillColorParam}{}}{% + \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{\tikzumlClassName}{tikzumlEmpty}}{}{% + \def\tikzumlClassNodeName{\tikzumlClassName}% + }% + % + \StrSubstitute{\tikzumlClassNodeName}{:}{@COLON@}[\tikzumlClassNodeName]% + \StrSubstitute{\tikzumlClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlClassNodeName]% + % + \ifthenelse{\equal{\tikzumlClassTypeTmp}{abstract}}{% + \let\tikzumlClassNameOld\tikzumlClassName% + \def\tikzumlClassName{{\it \tikzumlClassNameOld}}% + }{}% + % + \def\tikzumlClassPos{\tikzumlClassX,\tikzumlClassY}% + \def\tikzumlClassAttributes{#3}% + \def\tikzumlClassOperations{#4}% + % + \iftikzumlclassSimpleStyle% + \iftikzumlclassWithoutCoords% + \iftikzumlclassCircleShape% + \node[tikzuml simpleinterface style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) {};% + \node[anchor=south] (\tikzumlClassNodeName-label) at (\tikzumlClassNodeName.north) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + };% + \else% + \node[tikzuml simpleclass style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + };% + \fi% + \else% + \iftikzumlclassCircleShape% + \node[tikzuml simpleinterface style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) at (\tikzumlClassPos) {}; + \node[anchor=south] (\tikzumlClassNodeName-label) at (\tikzumlClassNodeName.north){\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + };% + \else% + \node[tikzuml simpleclass style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) at (\tikzumlClassPos) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + };% + \fi% + \fi% + \else% + \iftikzumlclassWithoutCoords% + \node[tikzuml class style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + \nodepart{second}% + \begin{tabular}{l}% + \tikzumlClassAttributes% + \end{tabular}% + \nodepart{third}% + \begin{tabular}{l}% + \tikzumlClassOperations% + \end{tabular}% + };% + \else% + \node[tikzuml class style, draw=\tikzumlClassDrawColor, fill=\tikzumlClassFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlClassMinimumWidth, /tikzuml/class/style] (\tikzumlClassNodeName) at (\tikzumlClassPos) {\begin{tabular}{c}\tikzumlClassVPadding \tikzumlClassType \tikzumlClassHPadding \textbf{\tikzumlClassName} \tikzumlClassHPadding \tikzumlClassTags \end{tabular}% + \nodepart{second}% + \begin{tabular}{l}% + \tikzumlClassAttributes% + \end{tabular}% + \nodepart{third}% + \begin{tabular}{l}% + \tikzumlClassOperations% + \end{tabular}% + };% + \fi% + \fi% + % + \ifthenelse{\equal{\tikzumlClassTemplateFillColorParam}{}}{}{% + \draw (\tikzumlClassNodeName.north east) node[tikzuml template style, name=\tikzumlClassNodeName-template, draw=\tikzumlClassDrawColor, fill=\tikzumlClassTemplateFillColor, text=\tikzumlClassTextColor, font=\tikzumlDefaultFont] {\tikzumlClassTemplateFillColorParam};% + }% + % + % add to fit + \ifnum\c@tikzumlPackageLevel>0% + \edef\tikzumlPackageFitOld{\csname tikzumlPackageFit\tikzumlPackage@parent @@\tikzumlPackage@fitname\endcsname}% + \ifthenelse{\equal{\tikzumlClassTemplateFillColorParam}{}}{% + \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% + \ifnum\c@tikzumlComponentLevel>0% + \def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname}% + \ifthenelse{\equal{\tikzumlClassTemplateFillColorParam}{}}{% + \expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlClassNodeName)}% + }{% + \expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlClassNodeName) (\tikzumlClassNodeName-template)}% + }% + \stepcounter{tikzumlComponentSubComponentNum}% + \fi% +}% +% +% shortcuts for interface, enum and typedef environments +\newcommand{\umlabstract}[4][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{type}}{% + \errmessage{TIKZUML ERROR : in umlabstract, forbidden option type}% + }{}% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlclass[type=abstract,#1]{#2}{#3}{#4}% +}% +\newcommand{\umlinterface}[4][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{type}}{% + \errmessage{TIKZUML ERROR : in umlinterface, forbidden option type}% + }{}% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlclass[type=interface,#1]{#2}{#3}{#4}% +}% +\newcommand{\umltypedef}[4][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{type}}{% + \errmessage{TIKZUML ERROR : in umltypedef, forbidden option type}% + }{}% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlclass[type=typedef,#1]{#2}{#3}{#4}% +}% +\newcommand{\umlenum}[4][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{type}}{% + \errmessage{TIKZUML ERROR : in umlenum, forbidden option type}% + }{}% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlclass[type=enum,#1]{#2}{#3}{#4} +}% +% +% shortcut to define an empty class +\newcommand{\umlemptyclass}[2][]{\umlclass[#1]{#2}{}{}}% +\newcommand{\umlsimpleclass}[2][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{simple}}{% + \errmessage{TIKZUML ERROR : in umlsimpleclass, forbidden option simple}% + }{}% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlemptyclass[simple, #1]{#2}% +}% +% +\newcommand{\umlsimpleinterface}[2][]{% + \pgfkeys{/tikzuml/class/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{simple}}{% + \errmessage{TIKZUML ERROR : in umlsimpleinterface, forbidden option simple}% + }{% + \ifthenelse{\equal{\keyname}{circle}}{% + \errmessage{TIKZUML ERROR : in umlsimpleinterface, forbidden option circle}% + }{}% + }% + }% + }% + \pgfkeys{/tikzuml/class/.cd, #1}% + \umlsimpleclass[circle, #1]{#2}% +}% +% underline the text for static arg +\newcommand{\umlstatic}[1]{\underline{#1}}% +\newcommand{\umlvirt}[1]{\textit{#1}}% +% +% define node for n-ary association +\newcommand{\umlNarynode}[2][]{% + \def\tikzumlNaryNodeAnchor{.north} + \def\tikzumlNaryNodeLabelPos{above} + \pgfkeys{/tikzuml/narynode/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlNaryNodeDefaultWidth, name/.initial=tikzumlEmpty,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlClassDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor, style/.style={},% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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}% + }{% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/narynode/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/narynode/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlNarynode, invalid option \keyname}% + }% + }% + }% + }% + }% + }% + }% + }% + }% + }% + \pgfkeys{/tikzuml/narynode/.cd,#1}% + \pgfkeys{/tikzuml/narynode/.cd, x/.get=\tikzumlNaryNodeX, y/.get=\tikzumlNaryNodeY, width/.get=\tikzumlNaryNodeMinimumWidth,% + name/.get=\tikzumlNaryNodeName,% + draw/.get=\tikzumlNaryNodeDrawColor, fill/.get=\tikzumlNaryNodeFillColor,% + text/.get=\tikzumlNaryNodeTextColor% + }% + % + \def\tikzumlNaryName{#2}% + % + \ifthenelse{\equal{\tikzumlNaryNodeName}{tikzumlEmpty}}{% + \edef\tikzumlNaryNodeName{\tikzumlNaryName}% + }{% + \edef\tikzumlNaryNodeName{\tikzumlNaryNodeName}% + }% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlNaryNode@nodeName{\tikzumlNaryNodeName}}\x% + % + \StrSubstitute{\tikzumlNaryNode@nodeName}{:}{@COLON@}[\tikzumlNaryNode@nodeName]% + \StrSubstitute{\tikzumlNaryNode@nodeName}{\_}{@UNDERSCORE@}[\tikzumlNaryNode@nodeName]% + % + \def\tikzumlNarynodePos{\tikzumlNaryNodeX,\tikzumlNaryNodeY}% + % + \node[tikzuml narynode style, draw=\tikzumlNaryNodeDrawColor, fill=\tikzumlNaryNodeFillColor, text=\tikzumlNaryNodeTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlNaryNodeMinimumWidth, minimum height=\tikzumlNaryNodeMinimumWidth, /tikzuml/narynode/style] (\tikzumlNaryNode@nodeName) at (\tikzumlNarynodePos) {};% + \draw (\tikzumlNaryNode@nodeName\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 (\tikzumlNaryNode@nodeName)}% + \stepcounter{tikzumlPackageClassNum}% + \fi% +}% +% +\newdimen\tikzumlNestingSymbolSize% +% +% main command to define a relation between two classes +% args : src class +% dest class +% optional : geometry: geometry of the line +% weight: barycentric weight of the middle part when geometry is a 3-line +% arm1, arm2: lengths of first or last part when geometry id a 3-line +% arg1, arg2, arg: name of the src/dest/dest side class type attribute defined by the relation +% mult1, mult2, mult: multiplicity of the src/dest/dest side class type attribute defined by the relation +% pos1, pos2, pos: position of the src/dest/dest side class type attribute defined by the relation +% align1, align2, align: text justification of the src/dest/dest side class type attribute defined by the relation +% anchor1, anchor2: src/dest anchors on linked classes +% angle1, angle2, loopsize: start angle, end angle and size of the relation (only if recursive) +% stereo: stereotype of the relation +% pos stereo: position of the stereotype on the relation +% style: style of the relation (association, aggregation, composition, inherit, ...) +% name: rootname used for naming nodes of the relation +% recursive mode: type of recursive arrow (transition for state diagrams, or default) +% recursive direction start/end: when transition relation, start/end directions of the relation arrow +\newcommand{\umlrelation}[3][]{% + \pgfkeys{/tikzuml/relation/.cd, geometry/.initial=\tikzumlRelationDefaultGeometry, weight/.initial=\tikzumlRelationDefaultWeight,% + arm1/.initial=auto, arm2/.initial=auto,% + arg1/.initial={}, arg2/.initial={}, arg/.initial={},% + mult1/.initial={}, mult2/.initial={}, mult/.initial={},% + pos1/.initial=\tikzumlRelationDefaultPosO, pos2/.initial=\tikzumlRelationDefaultPosT, pos/.initial=tikzumlEmpty,% + align1/.initial={}, align2/.initial={}, align/.initial={},% + anchor1/.initial=tikzumlEmpty, anchor2/.initial=tikzumlEmpty,% + angle1/.initial=\tikzumlRelationDefaultAngleO, angle2/.initial=\tikzumlRelationDefaultAngleT, loopsize/.initial=\tikzumlRelationDefaultLoopSize,% + stereo/.initial={}, pos stereo/.initial=\tikzumlRelationDefaultPosStereo,% + style/.initial=->, style2/.style={}, name/.initial=relation-\thetikzumlRelationNum,% + recursive mode/.initial=default, recursive direction start/.initial=right,% + recursive direction end/.initial=bottom,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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}}{}{% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/relation/.cd, style2/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/relation/.cd, style2/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlrelation, invalid option \keyname}% + }% + }% + }% + \pgfkeys{/tikzuml/relation/.cd,#1}% + \pgfkeys{/tikzuml/relation/.cd, geometry/.get=\tikzumlRelationGeometry, weight/.get=\tikzumlRelationWeight,% + arm1/.get=\tikzumlRelationArmO, arm2/.get=\tikzumlRelationArmT,% + arg1/.get=\tikzumlRelationAttrName, arg2/.get=\tikzumlRelationAttrNameTO, arg/.get=\tikzumlRelationAttrNameTT,% + mult1/.get=\tikzumlRelationMultiplicity, mult2/.get=\tikzumlRelationMultiplicityTO, mult/.get=\tikzumlRelationMultiplicityTT,% + pos1/.get=\tikzumlRelationPosition, pos2/.get=\tikzumlRelationPositionTO, pos/.get=\tikzumlRelationPositionTT,% + align1/.get=\tikzumlRelationAlign, align2/.get=\tikzumlRelationAlignTO, align/.get=\tikzumlRelationAlignTT,% + anchor1/.get=\tikzumlRelationSrcAnchor, anchor2/.get=\tikzumlRelationDestAnchor,% + angle1/.get=\tikzumlRelationStartAngle, angle2/.get=\tikzumlRelationEndAngle, loopsize/.get=\tikzumlRelationLoopSize,% + stereo/.get=\tikzumlRelationStereoType, pos stereo/.get=\tikzumlRelationPositionStereotype,% + style/.get=\tikzumlRelationStyle, name/.get=\tikzumlRelationName,% + recursive mode/.get=\tikzumlRelationRecursiveMode,% + recursive direction start/.get=\tikzumlRelationRecursiveDirectionStart,% + recursive direction end/.get=\tikzumlRelationRecursiveDirectionEnd% + }% + % + \def\tikzumlSrcClassName{#2}% + % + % managing \_ in class names for node names + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlSrcClassNodeName{\tikzumlSrcClassName}}\x% + % + \StrSubstitute{\tikzumlSrcClassNodeName}{:}{@COLON@}[\tikzumlSrcClassNodeName]% + \StrSubstitute{\tikzumlSrcClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlSrcClassNodeName]% + % + \def\tikzumlDestClassName{#3}% + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlDestClassNodeName{\tikzumlDestClassName}}\x% + % + \StrSubstitute{\tikzumlDestClassNodeName}{:}{@COLON@}[\tikzumlDestClassNodeName]% + \StrSubstitute{\tikzumlDestClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlDestClassNodeName]% + % + % managing alias keys + \def\tikzumlRelationAttrNameT{\tikzumlRelationAttrNameTO\tikzumlRelationAttrNameTT}% + \def\tikzumlRelationMultiplicityT{\tikzumlRelationMultiplicityTO\tikzumlRelationMultiplicityTT}% + \def\tikzumlRelationAlignT{\tikzumlRelationAlignTO\tikzumlRelationAlignTT}% + \def\posAttrName{}% + \def\posMultiplicity{}% + \def\posAttrNameT{}% + \def\posMultiplicityT{}% + % + \ifthenelse{\equal{\tikzumlRelationPositionTT}{tikzumlEmpty}}{% + \def\tikzumlRelationPositionT{\tikzumlRelationPositionTO}% + }{% + \def\tikzumlRelationPositionT{\tikzumlRelationPositionTT}% + }% + % + \def\attrAlign{}% + \def\multAlign{}% + \def\attrAlignT{}% + \def\multAlignT{}% + % + \ifthenelse{\equal{\tikzumlRelationAlign}{left}}{% + \def\attrAlign{above right}% + \def\multAlign{below right}% + }{% + \ifthenelse{\equal{\tikzumlRelationAlign}{right}}{% + \def\attrAlign{above left}% + \def\multAlign{below left}% + }{}% + }% + % + \ifthenelse{\equal{\tikzumlRelationAlignT}{left}}{% + \def\attrAlignT{above right}% + \def\multAlignT{below right}% + }{% + \ifthenelse{\equal{\tikzumlRelationAlignT}{right}}{% + \def\attrAlignT{above left}% + \def\multAlignT{below left}% + }{}% + }% + % + % def stereotype + \ifthenelse{\equal{\tikzumlRelationStereoType}{}}{% + \def\stereotype{}% + }{% + \def\stereotype{$\ll$\tikzumlRelationStereoType$\gg$}% + }% + + % def anchors macros + \ifthenelse{\equal{\tikzumlRelationSrcAnchor}{tikzumlEmpty}}{% + \def\tikzumlRelationSrcAnchor{}% + }{% + \let\tikzumlRelationSrcAnchorold\tikzumlRelationSrcAnchor% + \def\tikzumlRelationSrcAnchor{.\tikzumlRelationSrcAnchorold}% + }% + % + \ifthenelse{\equal{\tikzumlRelationDestAnchor}{tikzumlEmpty}}{% + \def\tikzumlRelationDestAnchor{}% + }{% + \let\tikzumlRelationDestAnchorold\tikzumlRelationDestAnchor% + \def\tikzumlRelationDestAnchor{.\tikzumlRelationDestAnchorold}% + }% + % + \setcounter{pos}{100*\real{\tikzumlRelationPosition}}% + \setcounter{posT}{100*\real{\tikzumlRelationPositionT}}% + \setcounter{posStereo}{100*\real{\tikzumlRelationPositionStereotype}}% + % + \pgfmathsetmacro{\tikzumlRelationWeightT}{1.0-\tikzumlRelationWeight}% + % + %\newcounter{tikzumlControlNodesNum}% + %\setcounter{tikzumlControlNodesNum}{0}% + % + \node[inner sep=0] (\tikzumlRelationName-middle) at (barycentric cs:\tikzumlSrcClassNodeName=\tikzumlRelationWeightT,\tikzumlDestClassNodeName=\tikzumlRelationWeight) {};% + % + % straight line + \ifthenelse{\equal{\tikzumlRelationGeometry}{--}}% + {% + \ifthenelse{\equal{\tikzumlSrcClassNodeName}{\tikzumlDestClassNodeName}}{% + \def\arcNum{1}% + \def\arcNumT{1}% + % + \ifthenelse{\equal{\tikzumlRelationRecursiveMode}{default}}{% + \xdef\tikzumlLastArc{node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName) edge[in=\tikzumlRelationEndAngle, out=\tikzumlRelationStartAngle, distance=\tikzumlRelationLoopSize] \tikzumlLastArc% + node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center] {} (\tikzumlDestClassNodeName) }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveMode}{transition}}{% + \xdef\tikzumlFirstArc{node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center] {}}% + \xdef\tikzumlMidOneArc{node[midway, inner sep=0, name=\tikzumlRelationName-3, anchor=center] {}}% + % + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{\tikzumlRelationRecursiveDirectionEnd}}{% + \def\numArcs{3}% + \xdef\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-5, anchor=center] {}}% + % + \begin{pgfonlayer}{connections}% + \draw (\tikzumlSrcClassNodeName) edge[in=\tikzumlRelationEndAngle, out=\tikzumlRelationStartAngle, distance=\tikzumlRelationLoopSize, draw=none] % + node[midway, inner sep=0, name=\tikzumlRelationName-tmp, anchor=center] {} (\tikzumlDestClassNodeName);% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}\OR\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \node[inner sep=0, name=\tikzumlRelationName-2] at (\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle -| \tikzumlRelationName-tmp) {};% + \node[inner sep=0, name=\tikzumlRelationName-4] at (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle -| \tikzumlRelationName-tmp) {};% + }{% + \node[inner sep=0, name=\tikzumlRelationName-2] at (\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle |- \tikzumlRelationName-tmp) {};% + \node[inner sep=0, name=\tikzumlRelationName-4] at (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle |- \tikzumlRelationName-tmp) {};% + }% + \end{pgfonlayer}% + }{% + \def\numArcs{4}% + \xdef\tikzumlMidTwoArc{node[midway, inner sep=0, name=\tikzumlRelationName-5, anchor=center] {}}% + \xdef\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-7, anchor=center] {}}% + % + \begin{pgfonlayer}{connections}% + \draw (\tikzumlSrcClassNodeName) edge[in=\tikzumlRelationEndAngle, out=\tikzumlRelationStartAngle, distance=\tikzumlRelationLoopSize, draw=none] % + node[midway, name=\tikzumlRelationName-4, anchor=center] {} (\tikzumlDestClassNodeName);% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}\OR\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \node[inner sep=0, name=\tikzumlRelationName-2] at (\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle -| \tikzumlRelationName-4) {};% + \node[inner sep=0, name=\tikzumlRelationName-6] at (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle |- \tikzumlRelationName-4) {};% + }{% + \node[inner sep=0, name=\tikzumlRelationName-2] at (\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle |- \tikzumlRelationName-4) {};% + \node[inner sep=0, name=\tikzumlRelationName-6] at (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle -| \tikzumlRelationName-4) {};% + }% + \end{pgfonlayer}% + }% + % + \ifnum\numArcs=4% + \ifnum\theposStereo>300% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-300)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype}}% + \else% + \ifnum\theposStereo<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype}}% + \else% + \ifnum\theposStereo>200% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-200)/100}% + \xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype}}% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype}}% + \fi% + \fi% + \fi% + % + \ifthenelse{\thepos=300\OR\thepos=100}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }% + }% + }% + }{}% + % + \ifthenelse{\thepos=200}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }% + }% + }% + }{}% + % + \ifnum\thepos>300% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-300)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \else% + \ifnum\thepos<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \else% + \ifnum\thepos>200% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-200)/100}% + \xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \else% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \fi% + \fi% + \fi% + % + \ifthenelse{\theposT=300\OR\theposT=100}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }% + }% + }% + }{}% + \ifthenelse{\theposT=200}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrNameT{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{bottom}}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionEnd}{left}}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }% + }% + }% + }{}% + % + \ifnum\theposT>300% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-300)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \else% + \ifnum\theposT<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \else% + \ifnum\theposT>200% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-200)/100}% + \xdef\tikzumlMidTwoArc{\tikzumlMidTwoArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \fi% + \fi% + \fi% + \else% + \ifnum\theposStereo>200% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-200)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \ifnum\theposStereo<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + \fi% + % + \ifthenelse{\thepos=100}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }% + }% + }% + }{}% + % + \ifthenelse{\thepos=200}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }% + }{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrName{above right}% + \def\posMultiplicity{below left}% + }{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }% + }% + }% + }% + }{}% + % + \ifnum\thepos>200% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-200)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \else% + \ifnum\thepos<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \else% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + }% + \fi% + \fi% + % + \ifthenelse{\theposT=100}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }% + }% + }% + }{}% + % + \ifthenelse{\theposT=200}{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{right}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{left}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }{% + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{top}}{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }% + }{% + \ifthenelse{\tikzumlRelationEndAngle<\tikzumlRelationStartAngle}{% + \def\posAttrNameT{above right}% + \def\posMultiplicityT{below left}% + }{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }% + }% + }% + }% + }{}% + % + \ifnum\theposT>200% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-200)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \else% + \ifnum\theposT<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + }% + \fi% + \fi% + \fi% + % + \ifthenelse{\equal{\tikzumlRelationRecursiveDirectionStart}{\tikzumlRelationRecursiveDirectionEnd}}{% + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle) -- \tikzumlFirstArc (\tikzumlRelationName-2.center) -- \tikzumlMidOneArc (\tikzumlRelationName-4.center) -- \tikzumlLastArc (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) (\tikzumlRelationName-4) (\tikzumlRelationName-5)}% + \fi% + }{% + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName.\tikzumlRelationStartAngle) -- \tikzumlFirstArc (\tikzumlRelationName-2.center) -- \tikzumlMidOneArc (\tikzumlRelationName-4.center) -- \tikzumlMidTwoArc (\tikzumlRelationName-6.center) -- \tikzumlLastArc (\tikzumlDestClassNodeName.\tikzumlRelationEndAngle) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) (\tikzumlRelationName-4) (\tikzumlRelationName-5) (\tikzumlRelationName-6) (\tikzumlRelationName-7)}% + \fi% + }% + }{}% + }% + }{% + \def\arcNum{1}% + \def\arcNumT{1}% + % + \node[inner sep=0] (\tikzumlRelationName-1) at (\tikzumlRelationName-middle) {};% + \xdef\tikzumlLastArc{node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity}% + node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT}% + node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) }% + \fi% + }% + }{% + % first vertical then horizontal line + \ifthenelse{\equal{\tikzumlRelationGeometry}{|-}}% + {% + %\setcounter{tikzumlControlNodesNum}{1}% + % + \def\tikzumlFirstArc{node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center] {} }% + \def\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-3, anchor=center]{} }% + % + \begin{pgfonlayer}{connections}% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor |- \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + \end{pgfonlayer}% + % + \ifnum\theposStereo>100% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + % + \ifnum\thepos>100% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\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=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + % + \ifnum\theposT>100% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\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=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + % + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) -- \tikzumlFirstArc (\tikzumlRelationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) }% + \fi% + }{% + % first horizontal then vertical line + \ifthenelse{\equal{\tikzumlRelationGeometry}{-|}}% + {% + %\setcounter{tikzumlControlNodesNum}{1}% + % + \def\tikzumlFirstArc{node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center]{} }% + \def\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-3, anchor=center] {} }% + % + \begin{pgfonlayer}{connections}% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor -| \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + \end{pgfonlayer}% + % + \ifnum\theposStereo>100% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + % + \ifnum\thepos>100% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\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=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + % + \ifnum\theposT>100% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\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=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + % + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) -- \tikzumlFirstArc (\tikzumlRelationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) }% + \fi% + }{% + % first vertical, then horizontal, finally vertical line + \ifthenelse{\equal{\tikzumlRelationGeometry}{|-|}}% + {% + %\setcounter{tikzumlControlNodesNum}{2}% + % + \def\tikzumlFirstArc{node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center] {} }% + \def\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-5, anchor=center] {} }% + \def\tikzumlMidOneArc{ }% + % + \begin{pgfonlayer}{connections}% + % + \ifthenelse{\equal{\tikzumlRelationArmO}{auto}}{% + \ifthenelse{\equal{\tikzumlRelationArmT}{auto}}{% + \node[inner sep=0] (\tikzumlRelationName-3) at (\tikzumlRelationName-middle) {};% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor |- \tikzumlRelationName-3) {};% + \node[inner sep=0] (\tikzumlRelationName-4) at (\tikzumlRelationName-3 -| \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + }{% + \draw (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor)+(0,\tikzumlRelationArmT) node[inner sep=0, name=\tikzumlRelationName-4] {};% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlRelationName-4 -| \tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) {};% + \node[inner sep=0] (\tikzumlRelationName-3) at (barycentric cs:\tikzumlRelationName-2=0.5,\tikzumlRelationName-4=0.5) {};% + }% + }{% + \draw (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor)+(0,\tikzumlRelationArmO) node[inner sep=0, name=\tikzumlRelationName-2] {};% + \node[inner sep=0] (\tikzumlRelationName-4) at (\tikzumlRelationName-2 -| \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + \node[inner sep=0] (\tikzumlRelationName-3) at (barycentric cs:\tikzumlRelationName-2=0.5,\tikzumlRelationName-4=0.5) {};% + }% + \end{pgfonlayer}% + % + \ifnum\theposStereo>200% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-200)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \ifnum\theposStereo<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + \fi% + % + \ifthenelse{\thepos=200\OR\thepos=100}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{}% + % + \ifthenelse{\thepos>200}{% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-200)/100}% + \def\arcNum{3}% + }{% + \ifthenelse{\thepos<100}{% + \def\arcNum{1}% + }{% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-100)/100}% + \def\arcNum{2}% + }% + }% + % + \ifnum\arcNum=1% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=2% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=3% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + % + \ifthenelse{\theposT=200\OR\theposT=100}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{}% + % + \ifthenelse{\theposT>200}{% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-200)/100}% + \def\arcNumT{3}% + }{% + \ifthenelse{\theposT<100}{% + \def\arcNumT{1}% + }{% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-100)/100}% + \def\arcNumT{2}% + }% + }% + % + \ifnum\arcNumT=1% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=2% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=3% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + % + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) -- \tikzumlFirstArc (\tikzumlRelationName-2.base) -- \tikzumlMidOneArc (\tikzumlRelationName-4.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) (\tikzumlRelationName-4) (\tikzumlRelationName-5) }% + \fi% + }{% + % first horizontal, then vertical, finally horizontal line + \ifthenelse{\equal{\tikzumlRelationGeometry}{-|-}}% + {% + %\setcounter{tikzumlControlNodesNum}{2}% + % + \def\tikzumlFirstArc{node[midway, inner sep=0, name=\tikzumlRelationName-1, anchor=center] {} }% + \def\tikzumlLastArc{node[midway, inner sep=0, name=\tikzumlRelationName-5, anchor=center] {} }% + \def\tikzumlMidOneArc{}% + % + \begin{pgfonlayer}{connections}% + % + \ifthenelse{\equal{\tikzumlRelationArmO}{auto}}{% + \ifthenelse{\equal{\tikzumlRelationArmT}{auto}}{% + \node[inner sep=0] (\tikzumlRelationName-3) at (\tikzumlRelationName-middle) {};% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor -| \tikzumlRelationName-3) {};% + \node[inner sep=0] (\tikzumlRelationName-4) at (\tikzumlRelationName-3 |- \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + }{% + \draw (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor)+(\tikzumlRelationArmT,0) node[inner sep=0, name=\tikzumlRelationName-4] {};% + \node[inner sep=0] (\tikzumlRelationName-2) at (\tikzumlRelationName-4 |- \tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) {};% + \node[inner sep=0] (\tikzumlRelationName-3) at (barycentric cs:\tikzumlRelationName-2=0.5,\tikzumlRelationName-4=0.5) {};% + }% + }{% + \draw (\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor)+(\tikzumlRelationArmO,0) node[inner sep=0, name=\tikzumlRelationName-2] {};% + \node[inner sep=0] (\tikzumlRelationName-4) at (\tikzumlRelationName-2 |- \tikzumlDestClassNodeName\tikzumlRelationDestAnchor) {};% + \node[inner sep=0] (\tikzumlRelationName-3) at (barycentric cs:\tikzumlRelationName-2=0.5,\tikzumlRelationName-4=0.5) {};% + }% + \end{pgfonlayer}% + % + \ifnum\theposStereo>200% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-200)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \ifnum\theposStereo<100% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \pgfmathsetmacro{\tikzumlRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + \fi% + % + \ifthenelse{\thepos=200\OR\thepos=100}{% + \def\posAttrName{above left}% + \def\posMultiplicity{below right}% + }{}% + % + \ifthenelse{\thepos>200}{% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-200)/100}% + \def\arcNum{3}% + }{% + \ifthenelse{\thepos<100}{% + \def\arcNum{1}% + }{% + \pgfmathsetmacro{\tikzumlRelationPosition}{(\thepos-100)/100}% + \def\arcNum{2}% + }% + }% + % + \ifnum\arcNum=1% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=2% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + \ifnum\arcNum=3% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPosition, \posAttrName, \attrAlign] {\tikzumlRelationAttrName}% + node[pos=\tikzumlRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlRelationMultiplicity} }% + \fi% + % + \ifthenelse{\theposT=200\OR\theposT=100}{% + \def\posAttrNameT{above left}% + \def\posMultiplicityT{below right}% + }{}% + % + \ifthenelse{\theposT>200}{% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-200)/100}% + \def\arcNumT{3}% + }{% + \ifthenelse{\theposT<100}{% + \def\arcNumT{1}% + }{% + \pgfmathsetmacro{\tikzumlRelationPositionT}{(\theposT-100)/100}% + \def\arcNumT{2}% + }% + }% + % + \ifnum\arcNumT=1% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=2% + \xdef\tikzumlMidOneArc{\tikzumlMidOneArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=3% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlRelationAttrNameT}% + node[pos=\tikzumlRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlRelationMultiplicityT} }% + \fi% + % + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlRelationSrcAnchor) -- \tikzumlFirstArc (\tikzumlRelationName-2.base) -- \tikzumlMidOneArc (\tikzumlRelationName-4.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlRelationDestAnchor) }% + \ifnum\thetikzumlStateLevel>0% + \def\tikzumlStateFitTmp{\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname}% + \expandafter\xdef\csname tikzumlStateFit\tikzumlState@parent @@\tikzumlState@fitname\endcsname{\tikzumlStateFitTmp (\tikzumlRelationName-1) (\tikzumlRelationName-2) (\tikzumlRelationName-3) (\tikzumlRelationName-4) (\tikzumlRelationName-5) }% + \fi% + }{% + \errmessage{TIKZUML ERROR : Unknown geometry value !!! It should be in the following list : --, |-, -|, |-|, -|-}% + }% + }% + }% + }% + }% + % + \begin{pgfonlayer}{connections}% + \ifthenelse{\equal{\tikzumlRelationStyle}{tikzuml nesting style}}{% + \pgfarrowsdeclare{nested}{nested}{...} + { + \tikzumlNestingSymbolSize=0.2pt% + \advance\tikzumlNestingSymbolSize by .5\pgflinewidth% + \pgfsetdash{}{0pt} % do not dash + \pgfsetroundjoin % fix join + \pgfsetroundcap % fix cap + \pgfpathmoveto{\pgfpoint{-16*\tikzumlNestingSymbolSize}{0pt}}% + \pgfpatharc{180}{90}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{90}{0}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{0}{-90}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{-90}{-180}{8*\tikzumlNestingSymbolSize}% + \pgfpathmoveto{\pgfpoint{-8*\tikzumlNestingSymbolSize}{8*\tikzumlNestingSymbolSize}}% + \pgfpathlineto{\pgfpoint{-8*\tikzumlNestingSymbolSize}{-8*\tikzumlNestingSymbolSize}}% + \pgfusepathqstroke% + }% + \draw[auto, nested-, font=\tikzumlDefaultFont, \tikzumlRelationStyle, /tikzuml/relation/style2] \tikzumlPath ;% + }{ + \draw[auto, font=\tikzumlDefaultFont, \tikzumlRelationStyle, /tikzuml/relation/style2] \tikzumlPath ;% + } + \end{pgfonlayer}% + % + \stepcounter{tikzumlRelationNum}% +}% +% +% shortcuts of \umlrelation +\newcommand{\umlHVrelation}[3][]{% + \pgfkeys{/tikzuml/HVrelation/.cd,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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{\umlbiassoc}[3][]{\umlrelation[style={tikzuml bidirectional 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{\umlnest}[3][]{\umlrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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{\umlHVnest}[3][]{\umlHVrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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{\umlVHnest}[3][]{\umlVHrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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{\umlHVHnest}[3][]{\umlHVHrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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{\umlVHVnest}[3][]{\umlVHVrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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 : arg1, arg2, arg: name of the src/dest/dest side class type attribute defined by the relation +% mult1, mult2, mult: multiplicity of the src/dest/dest side class type attribute defined by the relation +% pos1, pos2, pos: position of the src/dest/dest side class type attribute defined by the relation +% align1, align2, align: text justification of the src/dest/dest side class type attribute defined by the relation +% anchor1, anchor2: src/dest anchors on linked classes +% stereo: stereotype of the relation +% pos stereo: position of the stereotype on the relation +% style: style of the relation (association, aggregation, composition, inherit, ...) +% name: rootname used for naming nodes of the relation +\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% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in umlCNrelation, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/relation/.cd,#1}% + \pgfkeys{/tikzuml/relation/.cd, arg1/.get=\tikzumlCNRelationAttrName, arg2/.get=\tikzumlCNRelationAttrNameTO, arg/.get=\tikzumlCNRelationAttrNameTT,% + mult1/.get=\tikzumlCNRelationMultiplicity, mult2/.get=\tikzumlCNRelationMultiplicityTO, mult/.get=\tikzumlCNRelationMultiplicityTT,% + pos1/.get=\tikzumlCNRelationPosition, pos2/.get=\tikzumlCNRelationPositionTO, pos/.get=\tikzumlCNRelationPositionTT,% + align1/.get=\tikzumlCNRelationAlign, align2/.get=\tikzumlCNRelationAlignTO, align/.get=\tikzumlCNRelationAlignTT,% + anchor1/.get=\tikzumlCNRelationSrcAnchor, anchor2/.get=\tikzumlCNRelationDestAnchor,% + stereo/.get=\tikzumlCNRelationStereoType, pos stereo/.get=\tikzumlCNRelationPositionStereotype,% + style/.get=\tikzumlCNRelationStyle, name/.get=\tikzumlCNRelationName% + }% + % + % managing \_ in class names for node names + \def\tikzumlSrcClassName{#2}% + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlSrcClassNodeName{\tikzumlSrcClassName}}\x% + % + \StrSubstitute{\tikzumlSrcClassNodeName}{:}{@COLON@}[\tikzumlSrcClassNodeName]% + \StrSubstitute{\tikzumlSrcClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlSrcClassNodeName]% + % + \def\tikzumlDestClassName{#4}% + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlDestClassNodeName{\tikzumlDestClassName}}\x% + % + \StrSubstitute{\tikzumlDestClassNodeName}{:}{@COLON@}[\tikzumlDestClassNodeName]% + \StrSubstitute{\tikzumlDestClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlDestClassNodeName]% + % + % managing alias keys + \def\tikzumlCNRelationAttrNameT{\tikzumlCNRelationAttrNameTO\tikzumlCNRelationAttrNameTT}% + \def\tikzumlCNRelationMultiplicityT{\tikzumlCNRelationMultiplicityTO\tikzumlCNRelationMultiplicityTT}% + \def\tikzumlCNRelationAlignT{\tikzumlCNRelationAlignTO\tikzumlCNRelationAlignTT}% + \def\orientationT{\orientationTO\orientationTT}% + % + \ifthenelse{\equal{\tikzumlCNRelationPositionTT}{tikzumlEmpty}}{% + \def\tikzumlCNRelationPositionT{\tikzumlCNRelationPositionTO}% + }{% + \def\tikzumlCNRelationPositionT{\tikzumlCNRelationPositionTT}% + }% + % + \def\attrAlign{}% + \def\multAlign{}% + \def\attrAlignT{}% + \def\multAlignT{}% + % + \ifthenelse{\equal{\tikzumlCNRelationAlign}{left}}{% + \def\attrAlign{above right}% + \def\multAlign{below right}% + }{% + \ifthenelse{\equal{\tikzumlCNRelationAlign}{right}}{% + \def\attrAlign{above left}% + \def\multAlign{below left}% + }{}% + }% + % + \ifthenelse{\equal{\tikzumlCNRelationAlignT}{left}}{% + \def\attrAlignT{above right}% + \def\multAlignT{below right}% + }{% + \ifthenelse{\equal{\tikzumlCNRelationAlignT}{right}}{% + \def\attrAlignT{above left}% + \def\multAlignT{below left}% + }{}% + }% + % + % def stereotype + \ifthenelse{\equal{\tikzumlCNRelationStereoType}{}}{% + \def\stereotype{}% + }{% + \def\stereotype{$\ll$\tikzumlCNRelationStereoType$\gg$}% + }% + % + % def anchors macros + \ifthenelse{\equal{\tikzumlCNRelationSrcAnchor}{tikzumlEmpty}}{% + \def\tikzumlCNRelationSrcAnchor{}% + }{% + \let\tikzumlCNRelationSrcAnchorold\tikzumlCNRelationSrcAnchor% + \def\tikzumlCNRelationSrcAnchor{.\tikzumlCNRelationSrcAnchorold}% + }% + % + \ifthenelse{\equal{\tikzumlCNRelationDestAnchor}{tikzumlEmpty}}{% + \def\tikzumlCNRelationDestAnchor{}% + }{% + \let\tikzumlCNRelationDestAnchorold\tikzumlCNRelationDestAnchor% + \def\tikzumlCNRelationDestAnchor{.\tikzumlCNRelationDestAnchorold}% + }% + % + \setcounter{pos}{100*\real{\tikzumlCNRelationPosition}}% + \setcounter{posT}{100*\real{\tikzumlCNRelationPositionT}}% + \setcounter{posStereo}{100*\real{\tikzumlCNRelationPositionStereotype}}% + % + % straight line + %\setcounter{tikzumlControlNodesNum}{1}% + % + \def\tikzumlFirstArc{node[midway, name=\tikzumlCNRelationName-1, anchor=center] {} }% + \def\tikzumlLastArc{node[midway, name=\tikzumlCNRelationName-3, anchor=center]{} }% + \def\posAttrName{}% + \def\posMultiplicity{}% + \def\posAttrNameT{}% + \def\posMultiplicityT{}% + % + \begin{pgfonlayer}{connections}% + \node (\tikzumlCNRelationName-2) at (#3) {};% + \end{pgfonlayer}% + % + \ifnum\theposStereo>100% + \pgfmathsetmacro{\tikzumlCNRelationPositionStereotype}{(\theposStereo-100)/100}% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlCNRelationPositionStereotype, anchor=center] {\stereotype} }% + \else% + \xdef\tikzumlFirstArc{\tikzumlFirstArc node[pos=\tikzumlCNRelationPositionStereotype, anchor=center] {\stereotype} }% + \fi% + % + \ifnum\thepos>100% + \pgfmathsetmacro{\tikzumlCNRelationPosition}{(\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=\tikzumlCNRelationPosition, \posAttrName, \attrAlign] {\tikzumlCNRelationAttrName}% + node[pos=\tikzumlCNRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlCNRelationMultiplicity} }% + \fi% + \ifnum\arcNum=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlCNRelationPosition, \posAttrName, \attrAlign] {\tikzumlCNRelationAttrName}% + node[pos=\tikzumlCNRelationPosition, swap, \posMultiplicity, \multAlign] {\tikzumlCNRelationMultiplicity} }% + \fi% + % + \ifnum\theposT>100% + \pgfmathsetmacro{\tikzumlCNRelationPositionT}{(\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=\tikzumlCNRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlCNRelationAttrNameT}% + node[pos=\tikzumlCNRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlCNRelationMultiplicityT} }% + \fi% + \ifnum\arcNumT=2% + \xdef\tikzumlLastArc{\tikzumlLastArc node[pos=\tikzumlCNRelationPositionT, \posAttrNameT, \attrAlignT] {\tikzumlCNRelationAttrNameT}% + node[pos=\tikzumlCNRelationPositionT, swap, \posMultiplicityT, \multAlignT] {\tikzumlCNRelationMultiplicityT} }% + \fi% + % + \xdef\tikzumlPath{(\tikzumlSrcClassNodeName\tikzumlCNRelationSrcAnchor) -- \tikzumlFirstArc (\tikzumlCNRelationName-2.base) -- \tikzumlLastArc (\tikzumlDestClassNodeName\tikzumlCNRelationDestAnchor) }% + + \begin{pgfonlayer}{connections}% + \ifthenelse{\equal{\tikzumlCNRelationStyle}{tikzuml nesting style}}{% + \pgfarrowsdeclare{nested}{nested}{...} + { + \tikzumlNestingSymbolSize=0.2pt% + \advance\tikzumlNestingSymbolSize by .5\pgflinewidth% + \pgfsetdash{}{0pt} % do not dash + \pgfsetroundjoin % fix join + \pgfsetroundcap % fix cap + \pgfpathmoveto{\pgfpoint{-16*\tikzumlNestingSymbolSize}{0pt}}% + \pgfpatharc{180}{90}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{90}{0}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{0}{-90}{8*\tikzumlNestingSymbolSize}% + \pgfpatharc{-90}{-180}{8*\tikzumlNestingSymbolSize}% + \pgfpathmoveto{\pgfpoint{-8*\tikzumlNestingSymbolSize}{8*\tikzumlNestingSymbolSize}}% + \pgfpathlineto{\pgfpoint{-8*\tikzumlNestingSymbolSize}{-8*\tikzumlNestingSymbolSize}}% + \pgfusepathqstroke% + }% + \draw[auto, \tikzumlCNRelationStyle, nested-, font=\tikzumlDefaultFont] \tikzumlPath ;% + }{ + \draw[auto, \tikzumlCNRelationStyle, font=\tikzumlDefaultFont] \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{\umlCNnest}[4][]{\umlCNrelation[style={tikzuml nesting 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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: width of the note +% geometry: geometry of the relation between the note and what it is about +% weight: barycentric weight for a 3-line relation +% arm: length of the first arm +% anchor1, anchor2: anchors of the relation +% draw, fill, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the note position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlnote}[3][]{% + \pgfkeys{/tikzuml/note/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlNoteDefaultWidth,% + geometry/.initial=\tikzumlRelationDefaultGeometry,% + weight/.initial=\tikzumlRelationDefaultWeight, arm/.initial=auto, style/.style={},% + anchor1/.initial=tikzumlEmpty, anchor2/.initial=tikzumlEmpty,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlNoteDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + no coords/.is if=tikzumlnoteWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/note/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/note/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/note/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\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=\tikzumlNoteTextWidth,% + geometry/.get=\tikzumlNoteGeometry,% + weight/.get=\tikzumlNoteWeight, arm/.get=\tikzumlNoteArm,% + anchor1/.get=\tikzumlNoteSrcAnchor, anchor2/.get=\tikzumlNoteDestAnchor,% + draw/.get=\tikzumlNoteDrawColor, fill/.get=\tikzumlNoteFillColor,% + text/.get=\tikzumlNoteTextColor% + }% + % + \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}% + }% + % + \iftikzumlnoteWithoutCoords% + \node[text=\tikzumlNoteTextColor, text width=\tikzumlNoteTextWidth, font=\tikzumlDefaultFont, outer sep=0, inner xsep=1ex, inner ysep=3ex, /tikzuml/note/style] (note-\thetikzumlNoteNum-coord) {#3};% + \else% + \node[text=\tikzumlNoteTextColor, text width=\tikzumlNoteTextWidth, font=\tikzumlDefaultFont, outer sep=0, inner xsep=1ex, inner ysep=3ex, /tikzuml/note/style] (note-\thetikzumlNoteNum-coord) at (\tikzumlNoteX, \tikzumlNoteY) {#3};% + \fi% + \draw (note-\thetikzumlNoteNum-coord.north east) node[name=note-\thetikzumlNoteNum-right-top, below=2ex, coordinate] {};% + \draw (note-\thetikzumlNoteNum-coord.north east) node[name=note-\thetikzumlNoteNum-top-right, left=2ex, coordinate] {};% + \draw[draw=\tikzumlNoteDrawColor, fill=\tikzumlNoteFillColor] (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=\tikzumlNoteTextColor, text width=\tikzumlNoteTextWidth, outer sep=0, inner xsep=1ex, inner ysep=3ex, font=\tikzumlDefaultFont] (note-\thetikzumlNoteNum) at (note-\thetikzumlNoteNum-coord) {#3};% + \draw[draw=\tikzumlNoteDrawColor] (note-\thetikzumlNoteNum-right-top) -| (note-\thetikzumlNoteNum-top-right);% + % + \pgfmathsetmacro{\tikzumlNoteWeightT}{1.0-\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\tikzumlNoteSrcAnchor -| note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center |- \tikzumlClassNodeName\tikzumlNoteDestAnchor) --}% + }{% + \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\tikzumlNoteSrcAnchor |- note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center) -- (note-\thetikzumlNoteNum-middle.center -| \tikzumlClassNodeName\tikzumlNoteDestAnchor) --}% + }{% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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: width of the class node +% type: type of of class (class, interface, typedef, enum) +% template: template parameters +% name: name of the class node +% geometry: geometry of the line +% weight: barycentric weight of the middle part when geometry is a 3-line +% arm: length of first part when geometry id a 3-line +% anchor1, anchor2: src/dest anchors on linked classes +% style: style of the association class (association, aggregation, composition, inherit, ...) +% draw, fill, fill template, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the class position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlassocclass}[5][]{% + \pgfkeys{/tikzuml/assocclass/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, + width/.initial=\tikzumlClassDefaultWidth, type/.initial=\tikzumlClassDefaultType, style/.style={},% + template/.initial={}, name/.initial=tikzumlEmpty, geometry/.initial=\tikzumlRelationDefaultGeometry,% + weight/.initial=\tikzumlRelationDefaultWeight, arm/.initial=auto,% + anchor1/.initial=tikzumlEmpty, anchor2/.initial=tikzumlEmpty,% + draw/.initial=\tikzumlDefaultDrawColor,% + fill template/.initial=\tikzumlClassTemplateFillColorDefaultFillColor,% + fill/.initial=\tikzumlClassDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + no coords/.is if=tikzumlassocclassWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/assocclass/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/assocclass/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/assocclass/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlassocclass, invalid option \keyname}% + }% + }% + % + \pgfkeys{/tikzuml/assocclass/.cd,#1}% + \pgfkeys{/tikzuml/assocclass/.cd, x/.get=\tikzumlAssocClassX, y/.get=\tikzumlAssocClassY,% + width/.get=\tikzumlAssocClassMinimumWidth, type/.get=\tikzumlAssocClassTypeTmp,% + template/.get=\tikzumlAssocClassTemplateParam,% + name/.get=\tikzumlAssocClassName, geometry/.get=\tikzumlAssocClassGeometry,% + weight/.get=\tikzumlAssocClassWeight, arm/.get=\tikzumlAssocClassArm,% + anchor1/.get=\tikzumlAssocClassSrcAnchor,% + anchor2/.get=\tikzumlAssocClassDestAnchor,% + draw/.get=\tikzumlAssocClassDrawColor, fill/.get=\tikzumlAssocClassFillColor,% + text/.get=\tikzumlAssocClassTextColor, fill template/.get=\tikzumlAssocClassTemplateFillColor% + }% + % + \ifthenelse{\equal{\tikzumlAssocClassTypeTmp}{class}\OR\equal{\tikzumlAssocClassTypeTmp}{abstract}}{% + \def\tikzumlAssocClassType{}% + }{% + \def\tikzumlAssocClassType{$\ll$\tikzumlAssocClassTypeTmp$\gg$ \\}% + }% + % + \ifthenelse{\equal{\tikzumlAssocClassTemplateParam}{}}{% + \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{\tikzumlAssocClassName}{tikzumlEmpty}}{}{% + \def\tikzumlAssocClassNodeName{\tikzumlAssocClassName}% + }% + % + \StrSubstitute{\tikzumlAssocClassNodeName}{:}{@COLON@}[\tikzumlAssocClassNodeName]% + \StrSubstitute{\tikzumlAssocClassNodeName}{\_}{@UNDERSCORE@}[\tikzumlAssocClassNodeName]% + % + \ifthenelse{\equal{\tikzumlAssocClassTypeTmp}{abstract}}{% + \let\tikzumlAssocClassNameOld\tikzumlAssocClassName% + \def\tikzumlAssocClassName{{\it \tikzumlAssocClassNameOld}}% + }{}% + % + \def\tikzumlAssocClassPos{\tikzumlAssocClassX,\tikzumlAssocClassY}% + \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}% + }% + % + \iftikzumlassocclassWithoutCoords% + \node[tikzuml class style, draw=\tikzumlAssocClassDrawColor, fill=\tikzumlAssocClassFillColor, text=\tikzumlAssocClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlAssocClassMinimumWidth, /tikzuml/assocclass/style] (\tikzumlAssocClassNodeName) {\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}% + };% + \else% + \node[tikzuml class style, draw=\tikzumlAssocClassDrawColor, fill=\tikzumlAssocClassFillColor, text=\tikzumlAssocClassTextColor, font=\tikzumlDefaultFont, minimum width=\tikzumlAssocClassMinimumWidth, /tikzuml/assocclass/style] (\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}% + };% + \fi% + % + \ifthenelse{\equal{\tikzumlAssocClassTemplateParam}{}}{}{% + \draw (\tikzumlAssocClassNodeName.north east) node[tikzuml template style, name=\tikzumlAssocClassNodeName-template, draw=\tikzumlAssocClassDrawColor, fill=\tikzumlAssocClassTemplateFillColor, text=\tikzumlAssocClassTextColor, font=\tikzumlDefaultFont] {\tikzumlAssocClassTemplateParam};% + }% + % + \pgfmathsetmacro{\tikzumlAssocClassWeightT}{1.0-\tikzumlAssocClassWeight} + \node (\tikzumlAssocClassNodeName-middle) at (barycentric cs:\tikzumlAssocClassNodeName=\tikzumlAssocClassWeight,\tikzumlAssocClassRelationNodeName=\tikzumlAssocClassWeightT) {};% + % + \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{\tikzumlAssocClassTemplateParam}{}}{% + \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}% +% +\newif\iftikzumlusecaseWithoutCoords% +\newif\iftikzumlactorWithoutCoords% +% +% 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=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlSystemDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in umlsystem, invalid option \keyname}% + }% + }% + % + \pgfkeys{/tikzuml/system/.cd, #1}% + \pgfkeys{/tikzuml/system/.cd, x/.get=\tikzumlSystemXShift, y/.get=\tikzumlSystemYShift,% + draw/.get=\tikzumlSystemDrawColor, fill/.get=\tikzumlSystemFillColor,% + text/.get=\tikzumlSystemTextColor}% + % + \stepcounter{tikzumlSystemLevel}% + % + \begin{scope}[xshift=\tikzumlSystemXShift cm, yshift=\tikzumlSystemYShift 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=\tikzumlSystemTextColor, font=\tikzumlDefaultFont] (\tikzumlSystemName-caption-tmp) at (\tikzumlSystemName-tmp.north) {\tikzumlSystemName};% + \node[draw=\tikzumlSystemDrawColor, fill=\tikzumlSystemFillColor, text=\tikzumlSystemTextColor, font=\tikzumlDefaultFont, inner ysep=1em, inner xsep=2ex, fit = (\tikzumlSystemName-tmp) (\tikzumlSystemName-caption-tmp)] (\tikzumlSystemName) {};% + \node[text=\tikzumlSystemTextColor, font=\tikzumlDefaultFont] (\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: name of the node +% width: node width +% draw, fill, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the use case position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlusecase}[2][]{% + \stepcounter{tikzumlUseCaseNum}% + \pgfkeys{/tikzuml/usecase/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=auto,% + name/.initial=usecase-\thetikzumlUseCaseNum,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlUseCaseDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor, style/.style={},% + no coords/.is if=tikzumlusecaseWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/usecase/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/usecase/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/usecase/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlusecase, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/usecase/.cd, #1}% + \pgfkeys{/tikzuml/usecase/.cd, x/.get=\tikzumlUseCaseX, y/.get=\tikzumlUseCaseY, width/.get=\tikzumlUseCaseTextWidth,% + name/.get=\tikzumlUseCaseName,% + draw/.get=\tikzumlUseCaseDrawColor, fill/.get=\tikzumlUseCaseFillColor,% + text/.get=\tikzumlUseCaseTextColor% + }% + % + \def\tikzumlUseCaseText{#2}% + % + \def\tikzumlUseCasePos{\tikzumlUseCaseX,\tikzumlUseCaseY}% + % + \ifthenelse{\equal{\tikzumlUseCaseTextWidth}{auto}}{% + \iftikzumlusecaseWithoutCoords% + \node[tikzuml usecase style, draw=\tikzumlUseCaseDrawColor, fill=\tikzumlUseCaseFillColor, text=\tikzumlUseCaseTextColor, font=\tikzumlDefaultFont, /tikzuml/usecase/style] (\tikzumlUseCaseName) {\tikzumlUseCaseText};% + \else% + \node[tikzuml usecase style, draw=\tikzumlUseCaseDrawColor, fill=\tikzumlUseCaseFillColor, text=\tikzumlUseCaseTextColor, font=\tikzumlDefaultFont, /tikzuml/usecase/style] (\tikzumlUseCaseName) at (\tikzumlUseCasePos) {\tikzumlUseCaseText};% + \fi% + }{% + \iftikzumlusecaseWithoutCoords% + \node[tikzuml usecase style, draw=\tikzumlUseCaseDrawColor, fill=\tikzumlUseCaseFillColor, text=\tikzumlUseCaseTextColor, font=\tikzumlDefaultFont, text width=\tikzumlUseCaseTextWidth, /tikzuml/usecase/style] (\tikzumlUseCaseName) {\tikzumlUseCaseText};% + \else% + \node[tikzuml usecase style, draw=\tikzumlUseCaseDrawColor, fill=\tikzumlUseCaseFillColor, text=\tikzumlUseCaseTextColor, font=\tikzumlDefaultFont, text width=\tikzumlUseCaseTextWidth, /tikzuml/usecase/style] (\tikzumlUseCaseName) at (\tikzumlUseCasePos) {\tikzumlUseCaseText};% + \fi% + }% + % + % add to fit + \ifnum\c@tikzumlSystemLevel>0% + \let\tikzumlSystemFitOld\tikzumlSystemFit% + \xdef\tikzumlSystemFit{\tikzumlSystemFitOld (\tikzumlUseCaseName)}% + \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=\tikzumlPicturedActorScale}% + % + \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=\tikzumlPicturedActorScale*0.3333ex, minimum size=\tikzumlPicturedActorScale*2ex, anchor=base] at (head) {};% + \end{tikzpicture}% +}% +% +% define an actor +% arg : var name +% optional : x, y: coordinates of the actor +% scale: scale factor of the actor symbol +% below: distance between the actor symbol and its name below +% draw, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the actor position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlactor}[2][]{% + \stepcounter{tikzumlActorNum}% + \pgfkeys{/tikzuml/actor/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, scale/.initial=1, below/.initial=\tikzumlActorDefaultBelow,% + draw/.initial=\tikzumlDefaultDrawColor, text/.initial=\tikzumlDefaultTextColor,% + style/.style={},% + no coords/.is if=tikzumlactorWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/actor/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/actor/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/actor/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlactor, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/actor/.cd, #1}% + \pgfkeys{/tikzuml/actor/.cd,% + x/.get=\tikzumlActorX, y/.get=\tikzumlActorY, scale/.get=\tikzumlActorScale,% + below/.get=\tikzumlActorBelow,% + draw/.get=\tikzumlActorDrawColor, text/.get=\tikzumlActorTextColor}% + % + \def\tikzumlActorName{#2}% + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlActorNodeName{\tikzumlActorName}}\x% + % + \def\tikzumlActorPos{\tikzumlActorX,\tikzumlActorY}% + % + \iftikzumlactorWithoutCoords% + \node[tikzuml actor style, text=\tikzumlActorTextColor, font=\tikzumlDefaultFont, /tikzuml/actor/style] (\tikzumlActorNodeName) {\picturedactor{scale=\tikzumlActorScale, fill=white, draw=\tikzumlActorDrawColor, thick}};% + \else% + \node[tikzuml actor style, text=\tikzumlActorTextColor, font=\tikzumlDefaultFont, /tikzuml/actor/style] (\tikzumlActorNodeName) at (\tikzumlActorPos) {\picturedactor{scale=\tikzumlActorScale, fill=white, draw=\tikzumlActorDrawColor, thick}};% + \fi% + \node[text=\tikzumlActorTextColor, font=\tikzumlDefaultFont, below=\tikzumlActorScale*\tikzumlActorBelow] at (\tikzumlActorNodeName) {\tikzumlActorName};% + % +}% + +% shortcuts for include and extend relation +\newcommand{\umlinclude}[3][]{% + \pgfkeys{/tikzuml/includerelation/.cd,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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=\tikzumlDefaultDrawColor, 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}% +% +\newif\iftikzumlstatejoinWithoutCoords% +\newif\iftikzumlstatedecisionWithoutCoords% +\newif\iftikzumlstateinitialWithoutCoords% +\newif\iftikzumlstatefinalWithoutCoords% +\newif\iftikzumlstateenterWithoutCoords% +\newif\iftikzumlstateexitWithoutCoords% +\newif\iftikzumlstateendWithoutCoords% +\newif\iftikzumlstatehistoryWithoutCoords% +\newif\iftikzumlstatedeephistoryWithoutCoords% +\newif\iftikzumlstateWithoutCoords% +% +% define a uml join state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstatejoin}[1][]{% + \pgfkeys{/tikzuml/statejoin/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateJoinDefaultWidth,% + name/.initial=statejoin-\thetikzumlStateJoinNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstatejoinWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/statejoin/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/statejoin/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/statejoin/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstatejoin, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/statejoin/.cd, #1}% + \pgfkeys{/tikzuml/statejoin/.cd, x/.get=\tikzumlStateJoinX, y/.get=\tikzumlStateJoinY, width/.get=\tikzumlStateJoinMinimumWidth,% + name/.get=\tikzumlStateJoinName, color/.get=\tikzumlStateJoinColor% + }% + % + \def\tikzumlStateJoinPos{\tikzumlStateJoinX,\tikzumlStateJoinY}% + % + \iftikzumlstatejoinWithoutCoords% + \node[circle, minimum size=\tikzumlStateJoinMinimumWidth, draw=\tikzumlStateJoinColor, fill=\tikzumlStateJoinColor, /tikzuml/statejoin/style] (\tikzumlStateJoinName) {};% + \else% + \node[circle, minimum size=\tikzumlStateJoinMinimumWidth, draw=\tikzumlStateJoinColor, fill=\tikzumlStateJoinColor, /tikzuml/statejoin/style] (\tikzumlStateJoinName) at (\tikzumlStateJoinPos) {};% + \fi% + % + % 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}% +}% +% +% define a uml decision state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstatedecision}[1][]{% + \pgfkeys{/tikzuml/statedecision/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateDecisionDefaultWidth,% + name/.initial=statedecision-\thetikzumlStateDecisionNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstatedecisionWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/statedecision/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/statedecision/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/statedecision/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstatedecision, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/statedecision/.cd, #1}% + \pgfkeys{/tikzuml/statedecision/.cd, x/.get=\tikzumlStateDecisionX, y/.get=\tikzumlStateDecisionY, width/.get=\tikzumlStateDecisionMinimumWidth,% + name/.get=\tikzumlStateDecisionName, color/.get=\tikzumlStateDecisionColor% + }% + % + \def\tikzumlStateDecisionPos{\tikzumlStateDecisionX,\tikzumlStateDecisionY}% + % + \iftikzumlstatedecisionWithoutCoords% + \node[rectangle, rotate=45, minimum size=\tikzumlStateDecisionMinimumWidth, draw=\tikzumlStateDecisionColor, /tikzuml/statedecision/style] (\tikzumlStateDecisionName) {};% + \else% + \node[rectangle, rotate=45, minimum size=\tikzumlStateDecisionMinimumWidth, draw=\tikzumlStateDecisionColor, /tikzuml/statedecision/style] (\tikzumlStateDecisionName) at (\tikzumlStateDecisionPos) {};% + \fi% + % + % 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}% +}% +% +% define a uml initial state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% entry, do, exit: entry/do/exit action of the state +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstateinitial}[1][]{% + \pgfkeys{/tikzuml/stateinitial/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateInitialDefaultWidth,% + name/.initial=stateinitial-\thetikzumlStateInitialNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstateinitialWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/stateinitial/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/stateinitial/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/stateinitial/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstateinitial, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/stateinitial/.cd, #1}% + \pgfkeys{/tikzuml/stateinitial/.cd, x/.get=\tikzumlStateInitialX, y/.get=\tikzumlStateInitialY, width/.get=\tikzumlStateInitialMinimumWidth,% + name/.get=\tikzumlStateInitialName, color/.get=\tikzumlStateInitialColor% + }% + % + \def\tikzumlStateInitialPos{\tikzumlStateInitialX,\tikzumlStateInitialY}% + % + \iftikzumlstateinitialWithoutCoords% + \node[circle, minimum size=\tikzumlStateInitialMinimumWidth, fill=\tikzumlStateInitialColor, /tikzuml/stateinitial/style] (\tikzumlStateInitialName) {};% + \else% + \node[circle, minimum size=\tikzumlStateInitialMinimumWidth, fill=\tikzumlStateInitialColor, /tikzuml/stateinitial/style] (\tikzumlStateInitialName) at (\tikzumlStateInitialPos) {};% + \fi% + % + % 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}% +}% +% +% define a uml final state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstatefinal}[1][]{% + \pgfkeys{/tikzuml/statefinal/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateFinalDefaultWidth,% + name/.initial=statefinal-\thetikzumlStateFinalNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstatefinalWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/statefinal/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/statefinal/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/statefinal/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstatefinal, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/statefinal/.cd, #1}% + \pgfkeys{/tikzuml/statefinal/.cd, x/.get=\tikzumlStateFinalX, y/.get=\tikzumlStateFinalY, width/.get=\tikzumlStateFinalMinimumWidth,% + name/.get=\tikzumlStateFinalName, color/.get=\tikzumlStateFinalColor% + }% + % + \def\tikzumlStateFinalPos{\tikzumlStateFinalX,\tikzumlStateFinalY}% + % + \iftikzumlstatefinalWithoutCoords% + \node[circle, minimum size=\tikzumlStateFinalMinimumWidth, draw=\tikzumlStateFinalColor, fill=\tikzumlStateFinalColor, double, double distance=0.1cm, /tikzuml/statefinal/style] (\tikzumlStateFinalName) {};% + \else% + \node[circle, minimum size=\tikzumlStateFinalMinimumWidth, draw=\tikzumlStateFinalColor, fill=\tikzumlStateFinalColor, double, double distance=0.1cm, /tikzuml/statefinal/style] (\tikzumlStateFinalName) at (\tikzumlStateFinalPos) {};% + \fi% + % + % 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}% +}% +% +% define a uml enter state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstateenter}[1][]{% + \pgfkeys{/tikzuml/stateenter/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateEnterDefaultWidth,% + name/.initial=stateenter-\thetikzumlStateEnterNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstateenterWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/stateenter/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/stateenter/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/stateenter/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstateenter, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/stateenter/.cd, #1}% + \pgfkeys{/tikzuml/stateenter/.cd, x/.get=\tikzumlStateEnterX, y/.get=\tikzumlStateEnterY, width/.get=\tikzumlStateEnterMinimumWidth,% + name/.get=\tikzumlStateEnterName, color/.get=\tikzumlStateEnterColor% + }% + % + \def\tikzumlStateEnterPos{\tikzumlStateEnterX,\tikzumlStateEnterY}% + % + \iftikzumlstateenterWithoutCoords% + \node[circle, minimum size=\tikzumlStateEnterMinimumWidth, draw=\tikzumlStateEnterColor, /tikzuml/stateenter/style] (\tikzumlStateEnterName) {};% + \else% + \node[circle, minimum size=\tikzumlStateEnterMinimumWidth, draw=\tikzumlStateEnterColor, /tikzuml/stateenter/style] (\tikzumlStateEnterName) at (\tikzumlStateEnterPos) {};% + \fi% + % + % 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}% +}% +% +% define a uml exit state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstateexit}[1][]{% + \pgfkeys{/tikzuml/stateexit/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateExitDefaultWidth,% + name/.initial=stateexit-\thetikzumlStateExitNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstateexitWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/stateexit/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/stateexit/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/stateexit/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstateexit, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/stateexit/.cd, #1}% + \pgfkeys{/tikzuml/stateexit/.cd, x/.get=\tikzumlStateExitX, y/.get=\tikzumlStateExitY, width/.get=\tikzumlStateExitMinimumWidth,% + name/.get=\tikzumlStateExitName, color/.get=\tikzumlStateExitColor% + }% + % + \def\tikzumlStateExitPos{\tikzumlStateExitX,\tikzumlStateExitY}% + % + \iftikzumlstateexitWithoutCoords% + \node[circle, minimum size=\tikzumlStateExitMinimumWidth, draw=\tikzumlStateExitColor, /tikzuml/stateexit/style] (\tikzumlStateExitName) {};% + \else% + \node[circle, minimum size=\tikzumlStateExitMinimumWidth, draw=\tikzumlStateExitColor, /tikzuml/stateexit/style] (\tikzumlStateExitName) at (\tikzumlStateExitPos) {};% + \fi% + \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}% +}% +% +% define a uml end state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstateend}[1][]{% + \pgfkeys{/tikzuml/stateend/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateEndDefaultWidth,% + name/.initial=stateend-\thetikzumlStateEndNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstateendWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/stateend/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/stateend/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/stateend/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstateend, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/stateend/.cd, #1}% + \pgfkeys{/tikzuml/stateend/.cd, x/.get=\tikzumlStateEndX, y/.get=\tikzumlStateEndY, width/.get=\tikzumlStateEndMinimumWidth,% + name/.get=\tikzumlStateEndName, color/.get=\tikzumlStateEndColor% + }% + % + \def\tikzumlStateEndPos{\tikzumlStateEndX,\tikzumlStateEndY}% + % + \iftikzumlstateendWithoutCoords% + \node[circle, minimum size=\tikzumlStateEndMinimumWidth, /tikzuml/stateend/style] (\tikzumlStateEndName) {};% + \else% + \node[circle, minimum size=\tikzumlStateEndMinimumWidth, /tikzuml/stateend/style] (\tikzumlStateEndName) at (\tikzumlStateEndPos) {};% + \fi% + \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}% +}% +% +% define a uml history state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstatehistory}[1][]{% + \pgfkeys{/tikzuml/statehistory/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateHistoryDefaultWidth,% + name/.initial=statehistory-\thetikzumlStateHistoryNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstatehistoryWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/statehistory/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/statehistory/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/statehistory/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstatehistory, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/statehistory/.cd, #1}% + \pgfkeys{/tikzuml/statehistory/.cd, x/.get=\tikzumlStateHistoryX, y/.get=\tikzumlStateHistoryY, width/.get=\tikzumlStateHistoryMinimumWidth,% + name/.get=\tikzumlStateHistoryName, color/.get=\tikzumlStateHistoryColor% + }% + % + \def\tikzumlStateHistoryPos{\tikzumlStateHistoryX,\tikzumlStateHistoryY}% + % + \iftikzumlstatehistoryWithoutCoords% + \node[circle, minimum size=\tikzumlStateHistoryMinimumWidth, draw=\tikzumlStateHistoryColor, /tikzuml/statehistory/style] (\tikzumlStateHistoryName) {\picturedhistory{draw=\tikzumlStateHistoryColor}};% + \else% + \node[circle, minimum size=\tikzumlStateHistoryMinimumWidth, draw=\tikzumlStateHistoryColor, /tikzuml/statehistory/style] (\tikzumlStateHistoryName) at (\tikzumlStateHistoryPos) {\picturedhistory{draw=\tikzumlStateHistoryColor}};% + \fi% + % + % 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}% +}% +% +% define a uml deep-history state +% args : name of the state +% optional : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% color: color of the join symbol +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\newcommand{\umlstatedeephistory}[1][]{% + \pgfkeys{/tikzuml/statedeephistory/.cd, x/.initial=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateDeepHistoryDefaultWidth,% + name/.initial=statedeephistory-\thetikzumlStateDeepHistoryNum,% + color/.initial=\tikzumlDefaultDrawColor, style/.style={},% + no coords/.is if=tikzumlstatedeephistoryWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/statedeephistory/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/statedeephistory/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/statedeephistory/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlstatedeephistory, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/statedeephistory/.cd, #1}% + \pgfkeys{/tikzuml/statedeephistory/.cd, x/.get=\tikzumlStateDeepHistoryX, y/.get=\tikzumlStateDeepHistoryY, width/.get=\tikzumlStateDeepHistoryMinimumWidth,% + name/.get=\tikzumlStateDeepHistoryName, color/.get=\tikzumlStateDeepHistoryColor% + }% + % + \def\tikzumlStateDeepHistoryPos{\tikzumlStateDeepHistoryX,\tikzumlStateDeepHistoryY}% + % + \iftikzumlstatedeephistoryWithoutCoords% + \node[circle, minimum size=\tikzumlStateDeepHistoryMinimumWidth, draw=\tikzumlStateDeepHistoryColor, /tikzuml/statedeephistory/style] (\tikzumlStateDeepHistoryName) {\pictureddeephistory{draw=\tikzumlStateDeepHistoryColor}};% + \else% + \node[circle, minimum size=\tikzumlStateDeepHistoryMinimumWidth, draw=\tikzumlStateDeepHistoryColor, /tikzuml/statedeephistory/style] (\tikzumlStateDeepHistoryName) at (\tikzumlStateDeepHistoryPos) {\pictureddeephistory{draw=\tikzumlStateDeepHistoryColor}};% + \fi% + % + % 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 : x,y: coordinates of the state +% width: width of the state node +% name: name of the state node +% entry, do, exit: entry/do/exit action of the state +% draw, fill, text: colors +% style: to manage every default TikZ option +% no coords: to tell that the state position is defined relatively +% to another node (automatically used with TikZ options above, below, left, right, below left, ...) +\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=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlStateDefaultWidth,% + name/.initial={},% + entry/.initial={}, do/.initial={}, exit/.initial={},% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlStateDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor, style/.style={},% + no coords/.is if=tikzumlstateWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/state/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/state/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/state/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + % \errmessage{TIKZUML ERROR : in umlstate, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/state/.cd, #1}% + \pgfkeys{/tikzuml/state/.cd, x/.get=\tikzumlStateXShift, y/.get=\tikzumlStateYShift, width/.get=\tikzumlStateMinimumWidth, name/.get=\tikzumlStateName,% + entry/.get=\tikzumlStateEntry, do/.get=\tikzumlStateDo, exit/.get=\tikzumlStateExit,% + draw/.get=\tikzumlStateDrawColor, fill/.get=\tikzumlStateFillColor,% + text/.get=\tikzumlStateTextColor% + }% + % + \ifthenelse{\equal{\tikzumlStateName}{}}{% + \edef\tikzumlState@name{#2}% + }{% + \edef\tikzumlState@name{\tikzumlStateName}% + }% + % + \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=\tikzumlStateXShift cm, yshift=\tikzumlStateYShift cm]% +}{% + % + \def\tikzumlstaterootlabel{\phantom{\tikzumlState@nodeName}}% + % + \def\tikzumlstaterootinnerysep{0.5ex}% + \def\tikzumlstatebodyinnerysep{2ex}% + % + \ifthenelse{\equal{\tikzumlStateEntry}{}}{}{% + \ifnum\c@tikzumlStateText=0% + \def\tikzumlStateText{entry/\tikzumlStateEntry}% + \else% + \let\tikzumlStateTextOld\tikzumlStateText% + \ifthenelse{\equal{\tikzumlStateText}{tikzumlEmpty}}{% + \def\tikzumlStateText{entry/\tikzumlStateEntry}% + }{% + \expandafter\def\expandafter\tikzumlStateText\expandafter{\tikzumlStateTextOld \\ entry/\tikzumlStateEntry}% + }% + \fi% + \setcounter{tikzumlStateText}{1}% + \ifnum\c@tikzumlStateSubStateNum=0% + \def\tikzumlstatebodyinnerysep{0}% + \def\tikzumlstaterootinnerysep{0}% + \fi% + }% + \ifthenelse{\equal{\tikzumlStateDo}{}}{}{% + \ifnum\c@tikzumlStateText=0% + \def\tikzumlStateText{do/\tikzumlStateDo}% + \else% + \let\tikzumlStateTextOld\tikzumlStateText% + \ifthenelse{\equal{\tikzumlStateText}{tikzumlEmpty}}{% + \def\tikzumlStateText{do/\tikzumlStateDo}% + }{% + \expandafter\def\expandafter\tikzumlStateText\expandafter{\tikzumlStateTextOld \\ do/\tikzumlStateDo}% + }% + \fi% + \setcounter{tikzumlStateText}{1}% + \ifnum\c@tikzumlStateSubStateNum=0% + \def\tikzumlstatebodyinnerysep{0}% + \def\tikzumlstaterootinnerysep{0}% + \fi% + }% + \ifthenelse{\equal{\tikzumlStateExit}{}}{}{% + \ifnum\c@tikzumlStateText=0% + \def\tikzumlStateText{exit/\tikzumlStateExit}% + \else% + \let\tikzumlStateTextOld\tikzumlStateText% + \ifthenelse{\equal{\tikzumlStateText}{tikzumlEmpty}}{% + \def\tikzumlStateText{exit/\tikzumlStateExit}% + }{% + \expandafter\def\expandafter\tikzumlStateText\expandafter{\tikzumlStateTextOld \\ exit/\tikzumlStateExit}% + }% + \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% + \iftikzumlstateWithoutCoords% + \node[inner ysep=\tikzumlstaterootinnerysep, minimum width=\tikzumlStateMinimumWidth, /tikzuml/state/style] (\tikzumlState@nodeName-root) {\tikzumlstaterootlabel};% + \else% + \node[inner ysep=\tikzumlstaterootinnerysep, minimum width=\tikzumlStateMinimumWidth, /tikzuml/state/style] (\tikzumlState@nodeName-root) at (0,0) {\tikzumlstaterootlabel};% + \fi% + \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, /tikzuml/state/style ] (\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};% + \ifnum\c@tikzumlStateText=1% + \node[rounded corners, draw=\tikzumlStateDrawColor, fill=\tikzumlStateFillColor, name=\tikzumlState@nodeName, fit=(\tikzumlState@nodeName-body) (\tikzumlState@nodeName-texttmp) (\tikzumlState@nodeName-captiontmp)] {};% + \else% + \node[rounded corners, draw=\tikzumlStateDrawColor, fill=\tikzumlStateFillColor, name=\tikzumlState@nodeName, fit=(\tikzumlState@nodeName-body) (\tikzumlState@nodeName-captiontmp)] {};% + \fi% + \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, to be used inside umlstate environment +\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=\tikzumlDefaultDrawColor, -triangle 45]% +\tikzstyle{tikzuml asynchron-msg style}=[color=\tikzumlDefaultDrawColor, -angle 45]% +\tikzstyle{tikzuml return-msg style}=[color=\tikzumlDefaultDrawColor, dashed, -angle 45]% +\tikzstyle{tikzuml call return style}=[color=\tikzumlDefaultDrawColor, 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}% +% +\newif\iftikzumlobjectNoDDots% +\newif\iftikzumlcreatecallNoDDots% +% +% 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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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=\tikzumlDefaultFont]% +}{% + % 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 database 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 entity 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 boundary 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 control 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 +% stereo: stereotype of the object (object, actor, database, boundary, control, entity, multiobject) +% class: class of the object +% scale: scale factor of the object symbol +% draw, fill, text; colors +% no ddots: when used, disable printing of double dots +\newcommand{\umlobject}[2][]{ + \stepcounter{tikzumlObjectNum}% + % + \edef\tikzumlobject@ddot{:}% + \pgfkeys{/tikzuml/obj/.cd, x/.initial=tikzumlEmpty, y/.initial=\tikzumlDefaultX, stereo/.initial=\tikzumlObjectDefaultStereo,% + class/.initial={}, scale/.initial=1,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlObjectDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + no ddots/.is if=tikzumlobjectNoDDots,% + no ddots=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in umlobject, 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=\tikzumlObjectDrawColor, fill/.get=\tikzumlObjectFillColor,% + text/.get=\tikzumlObjectTextColor% + }% + % + \iftikzumlobjectNoDDots% + \edef\tikzumlobject@ddot{}% + \fi% + % + \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% + \expandafter\xdef\expandafter\tikzumlIdList\expandafter{\tikzumlIdListOld,\tikzumlObjectName}% + \fi% + % + \tikzstyle{tikzuml object box style}=[rectangle, text=\tikzumlObjectTextColor, font=\tikzumlDefaultFont]% + % + \ifthenelse{\equal{\tikzumlObjectStereo}{object}}{% + \tikzstyle{tikzuml object box style}+=[draw=\tikzumlObjectDrawColor, fill=\tikzumlObjectFillColor]% + }{% + \ifthenelse{\equal{\tikzumlObjectStereo}{multi}}{% + \tikzstyle{tikzuml object box style}+=[fill=\tikzumlObjectFillColor]% + }{}% + }% + % + \ifnum\tikzumlInCreateCall=1% + \draw (\tikzumlCreateCallObjectSrc -| \tikzumlObjectX,0) node[tikzuml object box style] (\tikzumlObjectName) {\tikzumlObjectName\tikzumlobject@ddot\tikzumlObjectClass};% + \else% + \node[tikzuml object box style] (\tikzumlObjectName) at (\tikzumlObjectX,\tikzumlObjectY) {\tikzumlObjectName\tikzumlobject@ddot\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=\tikzumlObjectFillColor] (\tikzumlObjectName-ttl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-ttl) -- (\tikzumlObjectName-ttr) -- (\tikzumlObjectName-tbr) -- (\tikzumlObjectName-tbr -| \tikzumlObjectName.east) -- (\tikzumlObjectName.north east) -- (\tikzumlObjectName-ttl |- \tikzumlObjectName.north); + \draw[draw=\tikzumlObjectDrawColor] (\tikzumlObjectName-ttl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-ttl) -- (\tikzumlObjectName-ttr) -- (\tikzumlObjectName-tbr) -- (\tikzumlObjectName-tbr -| \tikzumlObjectName.east); + \fill[fill=\tikzumlObjectFillColor] (\tikzumlObjectName-tl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-tl) -- (\tikzumlObjectName-tr) -- (\tikzumlObjectName-br) -- (\tikzumlObjectName-br -| \tikzumlObjectName.east) -- (\tikzumlObjectName.north east) -- (\tikzumlObjectName-tl |- \tikzumlObjectName.north); + \draw[draw=\tikzumlObjectDrawColor] (\tikzumlObjectName-tl |- \tikzumlObjectName.north) -- (\tikzumlObjectName-tl) -- (\tikzumlObjectName-tr) -- (\tikzumlObjectName-br) -- (\tikzumlObjectName-br -| \tikzumlObjectName.east); + \draw[draw=\tikzumlObjectDrawColor] (\tikzumlObjectName.north west) rectangle (\tikzumlObjectName.south east); + }{% + \ifthenelse{\equal{\tikzumlObjectStereo}{object}}{}{% + \node[above=1ex, name=\tikzumlObjectName-picture] at (\tikzumlObjectName) {\csname pictured\tikzumlObjectStereo \endcsname{draw=\tikzumlObjectDrawColor, fill=\tikzumlObjectFillColor, scale=\tikzumlObjectScale}}; + }% + }% +}% +% +% shortcuts for objects +\newcommand{\umlbasicobject}[2][]{% + \pgfkeys{/tikzuml/basicobj/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{no ddots}}{% + \errmessage{TIKZUML ERROR : in umlbasicobject, forbidden option no ddots}% + }{}% + }% + }% + \pgfkeys{/tikzuml/basicobj/.cd, #1}% + \umlobject[no ddots, #1]{#2}% +}% +% +\newcommand{\umldatabase}[2][]{% + \pgfkeys{/tikzuml/databaseobj/.cd, .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{stereo}}{% + \errmessage{TIKZUML ERROR : in umlmulti, forbidden option stereo}% + }{}% + }% + }% + \pgfkeys{/tikzuml/multiobj/.cd, #1}% + \umlobject[stereo=multi, #1]{#2}% +}% +% +\newcounter{tikzumlSDNodeNum}% +% +% define a hidden node to lengthen lifeline of a object +% args : object node +% optional : dt: distance between the sdnode and the last call defined on the lifeline of the object +% name: name of the sdnode +\newcommand{\umlsdnode}[2][]{% + \pgfkeys{/tikzuml/sdnode/.cd, dt/.initial=0, name/.initial=tikzumlEmpty}% + \pgfkeys{/tikzuml/sdnode/.cd, #1}% + \pgfkeys{/tikzuml/sdnode/.cd, dt/.get=\tikzumlSDNodeDT, name/.get=\tikzumlSDNodeName}% + % + \ifthenelse{\equal{\tikzumlSDNodeName}{tikzumlEmpty}}{% + \expandafter\def\expandafter\tikzumlSDNode@nodeName{sdnode-\thetikzumlSDNodeNum}% + }{% + \expandafter\def\expandafter\tikzumlSDNode@nodeName{\tikzumlSDNodeName}% + }% + % + \stepcounter{tikzumlSDNodeNum}% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlSDNode@objnodeName{#2}}\x% + % + \draw (\expandafter\csname tikzumlLastChild@\tikzumlSDNode@objnodeName \endcsname)+(0,-\tikzumlSDNodeDT ex) node[name=\tikzumlSDNode@nodeName,coordinate] {};% + % + % update last node drawn on sender lifeline + \expandafter\xdef\csname tikzumlLastChild@\tikzumlSDNode@objnodeName \endcsname{\tikzumlSDNode@nodeName}% +}% +% +\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: name of the call +% op: operation name and input args +% return: return value +% type: type of the call (synchron, asynchron) +% draw, fill, text: colors +% padding: time padding from call start and to call end +\newenvironment{umlcall}[3][]{% + \stepcounter{tikzumlCallNum}% + \def\tikzumlCallWithReturn{tikzumlFalse}% + \edef\tikzumlCall@lastchildNum{\thetikzumlCallNum}% for testing presence of sub-calls + \gdef\tikzumlCallBottom{0}% + % + \pgfkeys{/tikzuml/call/.cd, dt/.initial=\tikzumlCallDefaultDT, name/.initial={call-\thetikzumlCallNum},% + op/.initial={}, return/.initial={}, type/.initial=\tikzumlCallDefaultType,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlCallDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + padding/.initial=\tikzumlCallDefaultPadding,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{with return}}{% + \def\tikzumlCallWithReturn{tikzumlTrue}% + }{% + \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=\tikzumlCallDrawColor, fill/.get=\tikzumlCallFillColor,% + text/.get=\tikzumlCallTextColor% + }% + % + \edef\tikzumlfillcall{\tikzumlCallFillColor}% + \edef\tikzumldrawcall{\tikzumlCallDrawColor}% + \edef\tikzumltextcall{\tikzumlCallTextColor}% + \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{\tikzumlCallDefaultFillColor}{\tikzumlCallFillColor}}{}{% + \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=\tikzumlDefaultFont, 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}{tikzumlTrue}}{% + \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=\tikzumlDefaultFont, 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=\tikzumlDefaultFont, text=\tikzumltextcall, midway, above=-0.4ex, name=\tikzumlCall@nodeName-op] {\tikzumlCallOp};% + }{% + \draw[\tikzumlcallstyle, \tikzumldrawcall] (st-\tikzumlCall@nodeName.west) -- (et-\tikzumlCall@nodeName.east) % + node[font=\tikzumlDefaultFont, 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}{tikzumlTrue}}{% + \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=\tikzumlDefaultFont, 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=\tikzumlDefaultFont, 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: name of fragment +% type: type of fragment (opt, alt, break, loop, par, critical, ignore, consider, assert, neg, weak, strict, ref) +% label: label of fragment (ex : condition for opt, iterator for loop, ...) +% inner xsep, inner 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=\tikzumlFragmentDefaultType,% + label/.initial=tikzumlEmpty,% + inner xsep/.initial=\tikzumlFragmentDefaultXSep, inner ysep/.initial=\tikzumlFragmentDefaultYSep,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlFragmentDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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=\tikzumlFragmentDrawColor, fill/.get=\tikzumlFragmentFillColor,% + text/.get=\tikzumlFragmentTextColor% + }% + % + \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=\tikzumlFragmentTextColor, font=\tikzumlDefaultFont, anchor=north east, name=\tikzumlFragment@name-type] % + at (\tikzumlFragment@name-back.north west) {\tikzumlFragmentType};% + \node[text=\tikzumlFragmentTextColor, font=\tikzumlDefaultFont, anchor=north west, name=\tikzumlFragment@name-label] % + at (\tikzumlFragment@name-type.south west) {\tikzumlFragmentLabel};% + % + % draw final fragment box + \begin{pgfonlayer}{fragment\thetikzumlFragmentLevel}% + \node[draw=\tikzumlFragmentDrawColor, fill=\tikzumlFragmentFillColor, outer sep=0, inner sep=0, font=\tikzumlDefaultFont, fit=(\tikzumlFragment@name-back) (\tikzumlFragment@name-type) (\tikzumlFragment@name-label), name=\tikzumlFragment@name] {};% + \end{pgfonlayer}% + % + \draw[draw=\tikzumlFragmentDrawColor] (\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 +% stereo: stereotype of the new object +% class: class type of the new object +% dt: time delay from last event +% name: name of the call +% draw, fill, text: colors +% no ddots: when used, disable printing of double dots +\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=\tikzumlObjectDefaultStereo, class/.initial={},% + dt/.initial=\tikzumlCreateCallDefaultDT, name/.initial=call-\thetikzumlCallNum,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlCallDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor,% + draw obj/.initial=\tikzumlDefaultDrawColor, fill obj/.initial=\tikzumlObjectDefaultFillColor,% + text obj/.initial=\tikzumlDefaultTextColor,% + no ddots/.is if=tikzumlcreatecallNoDDots,% + no ddots=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in umlcreatecall, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/createcall/.cd, #1}% + \pgfkeys{/tikzuml/createcall/.cd, x/.get=\tikzumlCreateCallX, stereo/.get=\tikzumlCreateCallStereo,% + class/.get=\tikzumlCreateCallClass,% + dt/.get=\tikzumlCreateCallDT, name/.get=\tikzumlCreateCallName,% + draw/.get=\tikzumlCreateCallDrawColor, fill/.get=\tikzumlCreateCallFillColor,% + text/.get=\tikzumlCreateCallTextColor,% + draw obj/.get=\tikzumlCreateCallObjectDrawColor, fill obj/.get=\tikzumlCreateCallObjectFillColor,% + text obj/.get=\tikzumlCreateCallObjectTextColor% + }% + % + \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\tikzumlCreateCallDTold\tikzumlCreateCallDT% + \pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlCreateCallDTold}% + \edef\tikzumlCreateCallDT{\pgfmathresult}% + \addtocounter{tikzumlCallStartFragmentNum}{-1} + \fi% + \ifnum\thetikzumlCallEndFragmentNum>0% + \let\tikzumlCreateCallDTold\tikzumlCreateCallDT% + \pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlCreateCallDTold}% + \edef\tikzumlCreateCallDT{\pgfmathresult}% + \addtocounter{tikzumlCallEndFragmentNum}{-1} + \fi% + \ifnum\thetikzumlFragmentPartNum>0% + \let\tikzumlCreateCallDTold\tikzumlCreateCallDT% + \pgfmathparse{0.5*\tikzumlFragment@paddingy+\tikzumlCreateCallDTold}% + \edef\tikzumlCreateCallDT{\pgfmathresult}% + \fi% + % + % managing parent-child structure + \ifnum\thetikzumlCallLevel>0% + \let\tikzumlCall@nameold\tikzumlCall@name% + \def\tikzumlCall@name{\tikzumlCreateCallName}% + \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{\tikzumlCreateCallName}% + \fi% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlCreateCall@nodeName{\tikzumlCall@name}}\x% + % + \draw (\csname tikzumlLastChild@\tikzumlCreateCallSrc@nodeName \endcsname)+(0,-\tikzumlCreateCallDT ex) node[name=st-\tikzumlCreateCall@nodeName, tikzuml activity style] {};% + % + \xdef\tikzumlCreateCallObjectSrc{st-\tikzumlCreateCall@nodeName}% + % + \iftikzumlcreatecallNoDDots% + \umlobject[x=\tikzumlCreateCallX, stereo=\tikzumlCreateCallStereo, class=\tikzumlCreateCallClass, draw=\tikzumlCreateCallObjectDrawColor, fill=\tikzumlCreateCallObjectFillColor, text=\tikzumlCreateCallObjectTextColor, no ddots]{#3}% + \else + \umlobject[x=\tikzumlCreateCallX, stereo=\tikzumlCreateCallStereo, class=\tikzumlCreateCallClass, draw=\tikzumlCreateCallObjectDrawColor, fill=\tikzumlCreateCallObjectFillColor, text=\tikzumlCreateCallObjectTextColor]{#3}% + \fi + % + \draw (\csname tikzumlLastChild@\tikzumlCreateCallSrc@nodeName \endcsname |- #3)+(0,-0.5*\tikzumlCreateCallDT 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, \tikzumlCreateCallDrawColor] (st-\tikzumlCreateCall@nodeName) -- (#3) node[midway, above, font=\tikzumlDefaultFont, text=\tikzumlCreateCallTextColor, name=\tikzumlCreateCall@nodeName-op] {create};% + \end{pgfonlayer}% + % + \ifnum\thetikzumlCallLevel=0% + \begin{pgfonlayer}{activity}% + \draw[draw=\tikzumlCreateCallDrawColor, fill=\tikzumlCreateCallFillColor] (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=\tikzumlDefaultDrawColor, -]% +% +\newcounter{tikzumlComponentLevel}% +\newcounter{tikzumlComponentSubComponentNum}% +\newcounter{tikzumlConnectorNum}% +\setcounter{tikzumlConnectorNum}{1}% +% +\newif\iftikzumlcomponentWithoutCoords% +% +\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=\tikzumlDefaultX, y/.initial=\tikzumlDefaultX, width/.initial=\tikzumlComponentDefaultWidth, name/.initial={},% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlComponentDefaultFillColor,% + text/.initial=\tikzumlDefaultTextColor, style/.style={},% + no coords/.is if=tikzumlcomponentWithoutCoords,% + no coords=false,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{above}\OR% + \equal{\keyname}{left}\OR% + \equal{\keyname}{below}\OR% + \equal{\keyname}{right}\OR% + \equal{\keyname}{above left}\OR% + \equal{\keyname}{above right}\OR% + \equal{\keyname}{below left}\OR% + \equal{\keyname}{below right}}{% + \IfSubStr{\keyvalue}{ of }{% + \pgfkeys{/tikzuml/component/.cd, no coords}% + }{}% + }{}% + \ifx\keyvalue\pgfkeysnovalue% + \pgfkeys{/tikzuml/component/.cd, style/.append style/.expand once={\keyname}}% + \else% + \pgfkeys{/tikzuml/component/.cd, style/.append style/.expand twice={\expandafter\keyname\expandafter=\keyvalue}}% + \fi% + %\errmessage{TIKZUML ERROR : in umlcomponent, invalid option \keyname}% + }% + }% + \pgfkeys{/tikzuml/component/.cd, #1}% + \pgfkeys{/tikzuml/component/.cd, x/.get=\tikzumlComponentXShift, y/.get=\tikzumlComponentYShift,% + width/.get=\tikzumlComponentMinimumWidth, name/.get=\tikzumlComponentName,% + draw/.get=\tikzumlComponentDrawColor, fill/.get=\tikzumlComponentFillColor,% + text/.get=\tikzumlComponentTextColor% + }% + % + \ifthenelse{\equal{\tikzumlComponentName}{}}{% + \edef\tikzumlComponent@name{#2}% + }{% + \edef\tikzumlComponent@name{\tikzumlComponentName}% + }% + % + \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=\tikzumlComponentXShift cm, yshift=\tikzumlComponentYShift 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% + \iftikzumlcomponentWithoutCoords% + \node[inner ysep=0.5ex, minimum width=\tikzumlComponentMinimumWidth, font=\tikzumlDefaultFont, /tikzuml/component/style] (\tikzumlComponent@nodeName-root) {\phantom{\tikzumlComponent@nodeName}};% + \else% + \node[inner ysep=0.5ex, minimum width=\tikzumlComponentMinimumWidth, font=\tikzumlDefaultFont, /tikzuml/component/style] (\tikzumlComponent@nodeName-root) at (0,0) {\phantom{\tikzumlComponent@nodeName}};% + \fi% + \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=\tikzumlDefaultFont, fit = \csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname] (\tikzumlComponent@nodeName-body) {};% + \node[above, font=\tikzumlDefaultFont] (\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=\tikzumlComponentDrawColor, fill=\tikzumlComponentFillColor, font=\tikzumlDefaultFont} };% + \node[draw=\tikzumlComponentDrawColor, fill=\tikzumlComponentFillColor, name=\tikzumlComponent@nodeName, /tikzuml/component/style, fit=(\tikzumlComponent@nodeName-body) (\tikzumlComponent@nodeName-captiontmp)] {};% + \node[font=\tikzumlDefaultFont] (\tikzumlComponent@nodeName-caption) at (\tikzumlComponent@nodeName-captiontmp) {\tikzumlComponent@caption};% + \draw (\tikzumlComponent@nodeName-caption.north -| \tikzumlComponent@nodeName.east) node[font=\tikzumlDefaultFont, xshift=-1ex, below=-1ex, name=\tikzumlComponent@nodeName-logo] {\picturedcomponent{draw=\tikzumlComponentDrawColor, fill=\tikzumlComponentFillColor, font=\tikzumlDefaultFont} };% + \draw (\tikzumlComponent@nodeName-caption.south -| \tikzumlComponent@nodeName.north west) -- (\tikzumlComponent@nodeName-caption.south -| \tikzumlComponent@nodeName.north east);% + \coordinate (\tikzumlComponent@nodeName-west-port) at (\tikzumlComponent@nodeName.west); + \coordinate (\tikzumlComponent@nodeName-east-port) at (\tikzumlComponent@nodeName.east); + \coordinate (\tikzumlComponent@nodeName-south-port) at (\tikzumlComponent@nodeName.south); + \coordinate (\tikzumlComponent@nodeName-north-port) at (\tikzumlComponent@nodeName.north); + \end{pgfonlayer}% + \end{scope}% + % + % 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 (\tikzumlComponent@nodeName)}% + \stepcounter{tikzumlPackageClassNum}% + \fi% +}% +% +% shortcut for empty component +\newcommand{\umlbasiccomponent}[2][]{\begin{umlcomponent}[#1]{#2} \end{umlcomponent}}% +% +\newcommand{\umlrequiredinterface}[2][]{% + \def\tikzumlInterfaceWithPort{tikzumlFalse}% + \pgfkeys{/tikzuml/requiredinterfacerelation/.cd, interface/.initial={}, distance/.initial=\tikzumlRequiredInterfaceDefaultDistance,% + name/.initial=tikzumlEmpty, width/.initial=\tikzumlRequiredInterfaceDefaultWidth,% + padding/.initial=\tikzumlRequiredInterfaceDefaultPadding,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlComponentDefaultFillColor,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{with port}}{% + \def\tikzumlInterfaceWithPort{tikzumlTrue}% + }{}% + }% + }% + \pgfkeys{/tikzuml/requiredinterfacerelation/.cd, #1}% + \pgfkeys{/tikzuml/requiredinterfacerelation/.cd, interface/.get=\tikzumlRequiredInterfaceLabel,% + distance/.get=\tikzumlRequiredInterfaceDistance,% + name/.get=\tikzumlRequiredInterfaceName,% + width/.get=\tikzumlRequiredInterfaceWidth,% + padding/.get=\tikzumlRequiredInterfacePadding,% + draw/.get=\tikzumlRequiredInterfaceDrawColor,% + fill/.get=\tikzumlRequiredInterfaceFillColor% + }% + % + \ifthenelse{\equal{\tikzumlRequiredInterfaceName}{tikzumlEmpty}}{% + \edef\tikzumlRequiredInterface@interfacename{#2-east-interface}% + \edef\tikzumlRequiredInterface@portname{#2-east-port}% + \edef\tikzumlRequiredInterface@paddingname{#2-east-padding}% + }{% + \edef\tikzumlRequiredInterface@interfacename{\tikzumlRequiredInterfaceName}% + \edef\tikzumlRequiredInterface@portname{\tikzumlRequiredInterfaceName-port}% + \edef\tikzumlRequiredInterface@paddingname{\tikzumlRequiredInterfaceName-padding}% + }% + % + \edef\tikzumlRequiredInterface@name{#2}% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlRequiredInterface@nodeName{\tikzumlRequiredInterface@name}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlRequiredInterface@interfacenodeName{\tikzumlRequiredInterface@interfacename}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlRequiredInterface@portnodeName{\tikzumlRequiredInterface@portname}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlRequiredInterface@paddingnodeName{\tikzumlRequiredInterface@paddingname}}\x% + % + \ifthenelse{\equal{\tikzumlInterfaceWithPort}{tikzumlTrue}}{% + \node[inner sep=0.5*\tikzumlRequiredInterfaceWidth, rectangle, draw=\tikzumlRequiredInterfaceDrawColor, fill=\tikzumlRequiredInterfaceFillColor] (\tikzumlRequiredInterface@portnodeName) at (\tikzumlRequiredInterface@nodeName.east) {};% + }{% + \node[inner sep=0] (\tikzumlRequiredInterface@nodeName-east-port) at (\tikzumlRequiredInterface@nodeName.east) {};% + }% + \begin{scope}% + \draw (\tikzumlRequiredInterface@nodeName)+(\tikzumlRequiredInterfaceDistance,0) node[inner sep=0, text width=\tikzumlRequiredInterfaceWidth, circle, name=\tikzumlRequiredInterface@interfacenodeName-tmp] {};% + \clip (\tikzumlRequiredInterface@interfacenodeName-tmp.north) rectangle (\tikzumlRequiredInterface@interfacenodeName-tmp.south -| \tikzumlRequiredInterface@interfacenodeName-tmp.west);% + \node[inner sep=0, text width=\tikzumlRequiredInterfaceWidth, circle, draw=\tikzumlRequiredInterfaceDrawColor] (\tikzumlRequiredInterface@interfacenodeName) at (\tikzumlRequiredInterface@interfacenodeName-tmp) {};% + \end{scope}% + \node[above] at (\tikzumlRequiredInterface@interfacenodeName.north) {\tikzumlRequiredInterfaceLabel};% + % + \umlrelation[style={tikzuml connector style}, #1]{\tikzumlRequiredInterface@portnodeName}{\tikzumlRequiredInterface@interfacenodeName}% + % + \draw (\tikzumlRequiredInterface@interfacenodeName)+(\tikzumlRequiredInterfacePadding,0) node[name=\tikzumlRequiredInterface@paddingnodeName] {};% + % + % add to fit + \ifnum\c@tikzumlComponentLevel>0% + \def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname}% + \expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlRequiredInterface@paddingnodeName) (\tikzumlRequiredInterface@portnodeName) }% + \fi% +}% +% +\newcommand{\umlprovidedinterface}[2][]{% + \def\tikzumlInterfaceWithPort{tikzumlFalse}% + \pgfkeys{/tikzuml/providedinterfacerelation/.cd, interface/.initial={}, distance/.initial=\tikzumlProvidedInterfaceDefaultDistance,% + name/.initial=tikzumlEmpty, width/.initial=\tikzumlProvidedInterfaceDefaultWidth,% + padding/.initial=\tikzumlProvidedInterfaceDefaultPadding,% + draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlComponentDefaultFillColor,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{with port}}{% + \def\tikzumlInterfaceWithPort{tikzumlTrue}% + }{}% + }% + }% + \pgfkeys{/tikzuml/providedinterfacerelation/.cd, #1}% + \pgfkeys{/tikzuml/providedinterfacerelation/.cd, interface/.get=\tikzumlProvidedInterfaceLabel,% + distance/.get=\tikzumlProvidedInterfaceDistance,% + name/.get=\tikzumlProvidedInterfaceName,% + width/.get=\tikzumlProvidedInterfaceWidth,% + padding/.get=\tikzumlProvidedInterfacePadding,% + draw/.get=\tikzumlProvidedInterfaceDrawColor,% + fill/.get=\tikzumlProvidedInterfaceFillColor% + }% + % + \ifthenelse{\equal{\tikzumlProvidedInterfaceName}{tikzumlEmpty}}{% + \edef\tikzumlProvidedInterface@interfacename{#2-west-interface}% + \edef\tikzumlProvidedInterface@portname{#2-west-port}% + \edef\tikzumlProvidedInterface@paddingname{#2-west-padding}% + }{% + \edef\tikzumlProvidedInterface@interfacename{\tikzumlProvidedInterfaceName}% + \edef\tikzumlProvidedInterface@portname{\tikzumlProvidedInterfaceName-port}% + \edef\tikzumlProvidedInterface@paddingname{\tikzumlProvidedInterfaceName-padding}% + }% + % + \edef\tikzumlProvidedInterface@name{#2}% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlProvidedInterface@nodeName{\tikzumlProvidedInterface@name}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlProvidedInterface@interfacenodeName{\tikzumlProvidedInterface@interfacename}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlProvidedInterface@portnodeName{\tikzumlProvidedInterface@portname}}\x% + % + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlProvidedInterface@paddingnodeName{\tikzumlProvidedInterface@paddingname}}\x% + % + \ifthenelse{\equal{\tikzumlInterfaceWithPort}{tikzumlTrue}}{% + \node[inner sep=0.5*\tikzumlProvidedInterfaceWidth, rectangle, draw=\tikzumlProvidedInterfaceDrawColor, fill=\tikzumlProvidedInterfaceFillColor] (\tikzumlProvidedInterface@portnodeName) at (\tikzumlProvidedInterface@nodeName.west) {};% + }{% + \node[inner sep=0] (\tikzumlProvidedInterface@portnodeName) at (\tikzumlProvidedInterface@nodeName.west) {};% + }% + \draw (\tikzumlProvidedInterface@nodeName)+(-\tikzumlProvidedInterfaceDistance,0) node[inner sep=0, text width=\tikzumlProvidedInterfaceWidth, circle, draw=\tikzumlProvidedInterfaceDrawColor, fill=\tikzumlProvidedInterfaceFillColor, name=\tikzumlProvidedInterface@interfacenodeName] {};% + \node[above] at (\tikzumlProvidedInterface@interfacenodeName.north) + {\tikzumlProvidedInterfaceLabel};% + % + \umlrelation[style={tikzuml connector style}, #1]{\tikzumlProvidedInterface@portnodeName}{\tikzumlProvidedInterface@interfacenodeName}% + % + \draw (\tikzumlProvidedInterface@interfacenodeName)+(-\tikzumlProvidedInterfacePadding,0) node[name=\tikzumlProvidedInterface@paddingnodeName] {};% + % + % add to fit + \ifnum\thetikzumlComponentLevel>0% + \def\tikzumlComponentFitTmp{\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname}% + \expandafter\xdef\csname tikzumlComponentFit\tikzumlComponent@parent @@\tikzumlComponent@fitname\endcsname{\tikzumlComponentFitTmp (\tikzumlProvidedInterface@paddingnodeName) (\tikzumlProvidedInterface@portnodeName) }% + \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=\tikzumlAssemblyConnectorDrawColor, fill=\tikzumlAssemblyConnectorFillColor] (\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=\tikzumlAssemblyConnectorDrawColor, fill=\tikzumlAssemblyConnectorFillColor] (\tikzuml@ACInterface@nodeName-ic) at (\tikzuml@AC@xic,\tikzuml@AC@yic) {};% + \end{scope}% + \node[above, font=\tikzumlDefaultFont] 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=\tikzumlDefaultDrawColor,% + fill assembly connector/.initial=\tikzumlAssemblyConnectorDefaultFillColor,% + fill port/.initial=\tikzumlPortDefaultFillColor,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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=\tikzumlAssemblyConnectorStartAnchorTmp,% + anchor2/.get=\tikzumlAssemblyConnectorEndAnchorTmp,% + draw/.get=\tikzumlAssemblyConnectorDrawColor,% + fill assembly connector/.get=\tikzumlAssemblyConnectorFillColor,% + fill port/.get=\tikzumlAssemblyConnectorPortFillColor% + }% + % + \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{\tikzumlAssemblyConnectorStartAnchorTmp}{}}{% + }{% + \def\tikzumlAssemblyConnectorStartAnchor{\tikzumlAssemblyConnectorStartAnchorTmp}% + }% + \ifthenelse{\equal{\tikzumlAssemblyConnectorEndAnchorTmp}{}}{% + }{% + \def\tikzumlAssemblyConnectorEndAnchor{\tikzumlAssemblyConnectorEndAnchorTmp}% + }% + % + \node[inner sep=0] (\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp) at (\tikzumlAssemblyConnectorStart@nodeName.\tikzumlAssemblyConnectorStartAnchor) {};% + \node[inner sep=0] (\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp) at (\tikzumlAssemblyConnectorEnd@nodeName.\tikzumlAssemblyConnectorEndAnchor) {};% + % + \umlrelation[style={tikzuml connector style}, #1]{\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp}{\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp}% + % + \ifthenelse{\equal{\tikzumlAssemblyConnectorWithPort}{tikzumlTrue}}{% + \node[inner sep=0.5*\tikzumlAssemblyConnectorWidth, rectangle, draw=\tikzumlAssemblyConnectorDrawColor, fill=\tikzumlAssemblyConnectorPortFillColor] (\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorStart@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp) {};% + \node[inner sep=0.5*\tikzumlAssemblyConnectorWidth, rectangle, draw=\tikzumlAssemblyConnectorDrawColor, fill=\tikzumlAssemblyConnectorPortFillColor] (\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port) at (\tikzumlAssemblyConnectorEnd@nodeName-\tikzumlAssemblyConnectorLabel@nodeName-port-tmp) {};% + }{% + \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) {};% + }% + % + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{geometry}}{% + \errmessage{TIKZUML ERROR : in umlVHVassemblyconnector, forbidden option geometry}% + }{}% + }}% + \pgfkeys{/tikzuml/VHVassemblyconnector/.cd, #1}% + \umlassemblyconnector[geometry=|-|, #1]{#2}{#3}% +}% +% +\newcommand{\umlport}[3][]{% + \pgfkeys{/tikzuml/port/.cd, draw/.initial=\tikzumlDefaultDrawColor, fill/.initial=\tikzumlPortDefaultFillColor,% + width/.initial=\tikzumlPortDefaultWidth,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \errmessage{TIKZUML ERROR : in umlport forbidden option \keyname}% + }% + }% + \pgfkeys{/tikzuml/port/.cd, #1}% + \pgfkeys{/tikzuml/port/.cd, width/.get=\tikzumlPortWidth,% + draw/.get=\tikzumlPortDrawColor, fill/.get=\tikzumlPortFillColor}% + \edef\tikzumlPort@name{#2}% + \edef\tikzumlPort@anchor{#3}% + \begingroup% + \def\_{_}\edef\x{\endgroup% + \def\noexpand\tikzumlPort@nodeName{\tikzumlPort@name}}\x% + % + \node[inner sep=0.5*\tikzumlPortWidth, rectangle, draw=\tikzumlPortDrawColor, fill=\tikzumlPortFillColor] (\tikzumlPort@nodeName-\tikzumlPort@anchor-port) at (\tikzumlPort@nodeName.\tikzumlPort@anchor) {};% +}% +% +\newcommand{\umldelegateconnector}[3][]{% + \def\tikzumlDelegateConnectorWithStartPort{tikzumlFalse}% + \def\tikzumlDelegateConnectorWithEndPort{tikzumlFalse}% + \pgfkeys{/tikzuml/delegateconnector/.cd, + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \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% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{% + \errmessage{TIKZUML ERROR : in umlHVdelegateconnector, forbidden option \keyname}% + }{}% + }}% + \pgfkeys{/tikzuml/HVdelegateconnector/.cd, #1}% + \umldelegateconnector[geometry=-|, #1]{#2}{#3}% +}% +% +\newcommand{\umlVHdelegateconnector}[3][]{% + \pgfkeys{/tikzuml/VHdelegateconnector/.cd,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{% + \errmessage{TIKZUML ERROR : in umlVHdelegateconnector, forbidden option \keyname}% + }{}% + }}% + \pgfkeys{/tikzuml/VHdelegateconnector/.cd, #1}% + \umldelegateconnector[geometry=|-, #1]{#2}{#3}% +}% +% +\newcommand{\umlHVHdelegateconnector}[3][]{% + \pgfkeys{/tikzuml/HVHdelegateconnector/.cd,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{% + \errmessage{TIKZUML ERROR : in umlHVHdelegateconnector, forbidden option \keyname}% + }{}% + }}% + \pgfkeys{/tikzuml/HVHdelegateconnector/.cd, #1}% + \umldelegateconnector[geometry=-|-, #1]{#2}{#3}% +}% +% +\newcommand{\umlVHVdelegateconnector}[3][]{% + \pgfkeys{/tikzuml/VHVdelegateconnector/.cd,% + .unknown/.code={% + \let\keyname=\pgfkeyscurrentname% + \let\keyvalue=\pgfkeyscurrentvalue% + \ifthenelse{\equal{\keyname}{geometry}\OR\equal{\keyname}{stereo}}{% + \errmessage{TIKZUML ERROR : in umlVHVdelegateconnector, forbidden option \keyname}% + }{}% + }}% + \pgfkeys{/tikzuml/VHVdelegateconnector/.cd, #1}% + \umldelegateconnector[geometry=|-|, #1]{#2}{#3}% +}% +%%% End of tikz-uml.sty +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \ No newline at end of file