% Copyright 2006 by Till Tantau % % This file may be distributed and/or modified % % 1. under the LaTeX Project Public License and/or % 2. under the GNU Free Documentation License. % % See the file doc/generic/pgf/licenses/LICENSE for more details. \section{Design Principles} This section describes the design principles behind the \tikzname\ frontend, where \tikzname\ means ``\tikzname\ ist \emph{kein} Zeichenprogramm.'' To use \tikzname, as a \LaTeX\ user say |\usepackage{tikz}| somewhere in the preamble, as a plain \TeX\ user say |\input tikz.tex|. \tikzname's job is to make your life easier by providing an easy-to-learn and easy-to-use syntax for describing graphics. The commands and syntax of \tikzname\ were influenced by several sources. The basic command names and the notion of path operations is taken from \textsc{metafont}, the option mechanism comes from \textsc{pstricks}, the notion of styles is reminiscent of \textsc{svg}. To make it all work together, some compromises were necessary. I also added some ideas of my own, like meta-arrows and coordinate transformations. The following basic design principles underlie \tikzname: \begin{enumerate} \item Special syntax for specifying points. \item Special syntax for path specifications. \item Actions on paths. \item Key-value syntax for graphic parameters. \item Special syntax for nodes. \item Special syntax for trees. \item Grouping of graphic parameters. \item Coordinate transformation system. \end{enumerate} \subsection{Special Syntax For Specifying Points} \tikzname\ provides a special syntax for specifying points and coordinates. In the simplest case, you provide two \TeX\ dimensions, separated by commas, in round brackets as in |(1cm,2pt)|. You can also specify a point in polar coordinates by using a colon instead of a comma as in |(30:1cm)|, which means ``1cm in a 30 degrees direction.'' If you do not provide a unit, as in |(2,1)|, you specify a point in \pgfname's $xy$-coordinate system. By default, the unit $x$-vector goes 1cm to the right and the unit $y$-vector goes 1cm upward. By specifying three numbers as in |(1,1,1)| you specify a point in \pgfname's $xyz$-coordinate system. It is also possible to use an anchor of a previously defined shape as in |(first node.south)|. You can add two plus signs before a coordinate as in |++(1cm,0pt)|. This means ``1cm to the right of the last point used.'' This allows you to easily specify relative movements. For example, |(1,0) ++(1,0) ++(0,1)| specifies the three coordinates |(1,0)|, then |(2,0)|, and |(2,1)|. Finally, instead of two plus signs, you can also add a single one. This also specifies a point in a relative manner, but it does not ``change'' the current point used in subsequent relative commands. For example, |(1,0) +(1,0) +(0,1)| specifies the three coordinates |(1,0)|, then |(2,0)|, and |(1,1)|. \subsection{Special Syntax For Path Specifications} When creating a picture using \tikzname, your main job is the specification of \emph{paths}. A path is a series of straight or curved lines, which need not be connected. \tikzname\ makes it easy to specify paths, partly using the syntax of \textsc{metapost}. For example, to specify a triangular path you use \begin{codeexample}[code only] (5pt,0pt) -- (0pt,0pt) -- (0pt,5pt) -- cycle \end{codeexample} and you get \tikz \draw (5pt,0pt) -- (0pt,0pt) -- (0pt,5pt) -- cycle; when you draw this path. \subsection{Actions on Paths} A path is just a series of straight and curved lines, but it is not yet specified what should happen with it. One can \emph{draw} a path, \emph{fill} a path, \emph{shade} it, \emph{clip} it, or do any combination of these. Drawing (also known as \emph{stroking}) can be thought of as taking a pen of a certain thickness and moving it along the path, thereby drawing on the canvas. Filling means that the interior of the path is filled with a uniform color. Obviously, filling makes sense only for \emph{closed} paths and a path is automatically closed prior to filling, if necessary. Given a path as in |\path (0,0) rectangle (2ex,1ex);|, you can draw it by adding the |draw| option as in |\path[draw] (0,0) rectangle (2ex,1ex);|, which yields \tikz \path[draw] (0,0) rectangle (2ex,1ex);. The |\draw| command is just an abbreviation for |\path[draw]|. To fill a path, use the |fill| option or the |\fill| command, which is an abbreviation for |\path[fill]|. The |\filldraw| command is an abbreviation for |\path[fill,draw]|. Shading is caused by the |shade| option (there are |\shade| and |\shadedraw| abbreviations) and clipping by the |clip| option. There is is also a |\clip| command, which does the same as |\path[clip]|, but not commands like |\drawclip|. Use, say, |\draw[clip]| or |\path[draw,clip]| instead. All of these commands can only be used inside |{tikzpicture}| environments. \tikzname\ allows you to use different colors for filling and stroking. \subsection{Key-Value Syntax for Graphic Parameters} Whenever \tikzname\ draws or fills a path, a large number of graphic parameters influenced the rendering. Examples include the colors used, the dashing pattern, the clipping area, the line width, and many others. In \tikzname, all these options are specified as lists of so called key-value pairs, as in |color=red|, that are passed as optional parameters to the path drawing and filling commands. This usage is similar to \textsc{pstricks}. For example, the following will draw a thick, red triangle; \begin{codeexample}[] \tikz \draw[line width=2pt,color=red] (1,0) -- (0,0) -- (1,0) -- cycle; \end{codeexample} \subsection{Special Syntax for Specifying Nodes} \tikzname\ introduces a special syntax for adding text or, more generally, nodes to a graphic. When you specify a path, add nodes as in the following example: \begin{codeexample}[] \tikz \draw (1,1) node {text} -- (2,2); \end{codeexample} Nodes are inserted at the current position of the path, but only \emph{after} the path has been rendered. When special options are given, as in |\draw (1,1) node[circle,draw] {text};|, the text is not just put at the current position. Rather, it is surrounded by a circle and this circle is ``drawn.'' You can add a name to a node for later reference either by using the option |name=|\meta{node name} or by stating the node name in parentheses outside the text as in |node[circle](name){text}|. Predefined shapes include |rectangle|, |circle|, and |ellipse|, but it is possible (though a bit challenging) to define new shapes. \subsection{Special Syntax for Specifying Trees} In addition to the ``node syntax,'' \tikzname\ also introduces a special syntax for drawing trees. The syntax is intergrated with the special node syntax and only few new commands need to be remebered. In essence, a |node| can be followed by any number of children, each introduced by the keyword |child|. The children are nodes themselves, each of which may have children in turn. \begin{codeexample}[] \begin{tikzpicture} \node {root} child {node {left}} child {node {right} child {node {child}} child {node {child}} }; \end{tikzpicture} \end{codeexample} Since trees are made up from nodes, it is possible to use options to modify the way trees are drawn. Here are two examples of the above tree, redrawn with different options: \begin{codeexample}[] \begin{tikzpicture}[edge from parent fork down] \tikzstyle{every node}=[fill=red!30,rounded corners] \tikzstyle{edge from parent}=[red,-o,thick,draw] \node {root} child {node {left}} child {node {right} child {node {child}} child {node {child}} }; \end{tikzpicture} \end{codeexample} \begin{codeexample}[] \begin{tikzpicture} [parent anchor=east,child anchor=west,grow=east] \tikzstyle{every node}=[ball color=red,circle,text=white] \tikzstyle{edge from parent}=[draw,dashed,thick,red] \node {root} child {node {left}} child {node {right} child {node {child}} child {node {child}} }; \end{tikzpicture} \end{codeexample} \subsection{Grouping of Graphic Parameters} Graphic parameters should often apply to several path drawing or filling commands. For example, we may wish to draw numerous lines all with the same line width of 1pt. For this, we put these commands in a |{scope}| environment that takes the desired graphic options as an optional parameter. Naturally, the specified graphic parameters apply only to the drawing and filling commands inside the environment. Furthermore, nested |{scope}| environments or individual drawing commands can override the graphic parameters of outer |{scope}| environments. In the following example, three red lines, two green lines, and one blue line are drawn: \begin{codeexample}[] \begin{tikzpicture} \begin{scope}[color=red] \draw (0mm,10mm) -- (10mm,10mm); \draw (0mm, 8mm) -- (10mm, 8mm); \draw (0mm, 6mm) -- (10mm, 6mm); \end{scope} \begin{scope}[color=green] \draw (0mm, 4mm) -- (10mm, 4mm); \draw (0mm, 2mm) -- (10mm, 2mm); \draw[color=blue] (0mm, 0mm) -- (10mm, 0mm); \end{scope} \end{tikzpicture} \end{codeexample} The |{tikzpicture}| environment itself also behaves like a |{scope}| environment, that is, you can specify graphic parameters using an optional argument. These optional apply to all commands in the picture. \subsection{Coordinate Transformation System} \tikzname\ relies entirely on \pgfname's \emph{coordinate} transformation system to perform transformations. \pgfname\ also supports \emph{canvas} transformations, a more low-level transformation system, but this system is not accessible from \tikzname. There are two reasons for this: First, the canvas transformation must be used with great care and often results in ``bad'' graphics with changing line width and text in wrong sizes. Second, \pgfname\ looses track of where nodes and shapes are positioned when canvas transformations are used. For more details on the difference between coordinate transformations and canvas transformations see Section~\ref{section-design-transformations}.