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author | Karl Berry <karl@freefriends.org> | 2014-02-27 00:01:50 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2014-02-27 00:01:50 +0000 |
commit | 90ae413a94da014dbf7a6a8ab584f7c668483a5a (patch) | |
tree | 4e0528a2b2fb2004988e7fc804ea2f1354f1f5d5 /Master/texmf-dist/doc/generic/pgf/text-en/pgfmanual-en-tikz-arrows.tex | |
parent | 800cc56380d1edfe567a6a66bef13e8950eb2b0c (diff) |
pgf 3.0.0
git-svn-id: svn://tug.org/texlive/trunk@33057 c570f23f-e606-0410-a88d-b1316a301751
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diff --git a/Master/texmf-dist/doc/generic/pgf/text-en/pgfmanual-en-tikz-arrows.tex b/Master/texmf-dist/doc/generic/pgf/text-en/pgfmanual-en-tikz-arrows.tex new file mode 100644 index 00000000000..6e6f87da9c8 --- /dev/null +++ b/Master/texmf-dist/doc/generic/pgf/text-en/pgfmanual-en-tikz-arrows.tex @@ -0,0 +1,2585 @@ +% 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{Arrows} +\label{section-tikz-arrows} + + +\subsection{Overview} + +\tikzname\ allows you to add (multiple) arrow tips to the end of +lines as in \tikz [baseline] \draw [->>]%<< +(0,.5ex) -- (3ex,.5ex); or in \tikz [baseline] \draw [-{Latex[]}] +(0,.5ex) -- (3ex,.5ex);. It is possible to change which arrow tips are +used ``on-the-fly,'' you can have several arrow tips in a row, and you +can change the appearance of each of them individually using a special +syntax. The following example is a perhaps slightly ``excessive'' +demonstration of what you can do (you need to load the |arrows.meta| +library for it to work): +\begin{codeexample}[] +\tikz { + \node [circle,draw] (A) {A}; + \node [circle,draw] (B) [right=of A] {B}; + + \draw [draw = blue, thick, + arrows={ + Computer Modern Rightarrow [sep] + - Latex[blue!50,length=8pt,bend,line width=0pt] + Stealth[length=8pt,open,bend,sep]}] + (A) edge [bend left=45] (B) + (B) edge [in=-110, out=-70,looseness=8] (B); +} +\end{codeexample} + +There are a number of predefined generic arrow tip kinds whose +appearance you can modify in many ways using various options. It is +also possible to define completely new arrow tip kinds, see +Section~\ref{section-arrows}, but doing this is somewhat harder than +configuring an existing kind (it is like the difference between using +a font at different sizes or faces like italics, compared to +designing a new font yourself). + +In the present section, we go over the various ways in which you can +configure which particular arrow tips are \emph{used.} The glorious +details of how new arrow tips can be defined are explained in +Section~\ref{section-arrows}. + +At the end of the present section, Section~\ref{section-arrows-meta}, +you will find a description of the different predefined arrow tips +from the |arrows.meta| library. + +\emph{Remark:} Almost all of the features described in the following +were introduced in version 3.0 of \tikzname. For compatibility +reasons, the old arrow tips are still available. To differentiate +between the old and new arrow tips, the following rule is used: The +new, more powerful arrow tips start with an uppercase letter as in +|Latex|, compared to the old arrow tip |latex|. + +\emph{Remark:} The libraries |arrows| and |arrows.spaced| are +deprecated. Use |arrows.meta| instead/additionally, which allows you +to do all that the old libraries offered, plus much more. However, the +old libraries still work and you can even mix old and new arrow tips +(only, the old arrow tips cannot be configured in the ways described +in the rest of this section; saying |scale=2| for a |latex| arrow has +no effect for instance, while for |Latex| arrows it doubles their size +as one would expect.) + + +\subsection{Where and When Arrow Tips Are Placed} +\label{section-arrow-tips-where} + +In order to add arrow tips to the lines you draw, the following +conditions must be met: + +\begin{enumerate} +\item You have specified that arrow tips should be added to + lines, using the |arrows| key or its short form. +\item You set the |tips| key to some value that causes tips to be + drawn (to be explained later). +\item You do not use the |clip| key (directly or indirectly) with the + current path. +\item The path actually has two ``end points'' (it is not + ``closed''). +\end{enumerate} + +Let us start with an introduction to the basics of the |arrows| key: + +\begin{key}{/tikz/arrows=\meta{start arrow specification}|-|\meta{end + arrow specification}} + This option sets the arrow tip(s) to be used at the start and end of + lines. An empty value as in |->| for the start indicates that no + arrow tip should be drawn at the start.% + \indexoption{arrows} + + \emph{Note: Since the arrow option is so often used, you can leave + out the text |arrows=|.} What happens is that every (otherwise + unknown) option that contains a |-| is interpreted as an arrow specification. + +\begin{codeexample}[] +\begin{tikzpicture} + \draw[->] (0,0) -- (1,0); + \draw[>-Stealth] (0,0.3) -- (1,0.3); +\end{tikzpicture} +\end{codeexample} + + In the above example, the first start specification is empty and the + second is |>|. The end specifications are |>| for the first line and + |Stealth| for the second line. Note that it makes a difference + whether |>| is used in a start specification or in an end + specification: In an end specification it creates, as one would + expect, a pointed tip at the end of the line. In the start + specification, however, it creates a ``reversed'' version if this + arrow -- which happens to be what one would expect here. + + The above specifications are very simple and only select a single + arrow tip without any special configuration options, resulting in + the ``natural'' versions of these arrow tips. It is also possible to + ``configure'' arrow tips in many different ways, as explained in + detail in Section~\ref{section-arrow-config} below by adding options + in square brackets following the arrow tip kind: + +\begin{codeexample}[] +\begin{tikzpicture} + \draw[-{Stealth[red]}] (0,0) -- (1,0); +\end{tikzpicture} +\end{codeexample} + + Note that in the example I had to surround the end specification by + braces. This is necessary so that \tikzname\ does not mistake the + closing square bracket of the |Stealth| arrow tip's options for the + end of the options of the |\draw| command. In general, you often + need to add braces when specifying arrow tips except for simple case + like |->| or |<<->|, which are pretty frequent, though. When in + doubt, say |arrows={|\meta{start spec}|-|\meta{end spec}|}|, that + will always work. + + It is also possible to specify multiple (different) arrow tips in a + row inside a specification, see Section~\ref{section-arrow-spec} + below for details. +\end{key} + +As was pointed out earlier, to add arrow tips to a path, the path must +have ``end points'' and not be ``closed'' -- otherwise adding arrow +tips makes little sense, after all. However, a path can actually +consist of several subpath, which may be open or not and may even +consist of only a single point (a single move-to). In this case, it is +not immediately obvious, where arrow heads should be placed. The +actual rules that \tikzname\ uses are goverened by the setting of the +key |tips|: + +\begin{key}{/pgf/tips=\meta{value} (default true, initially on draw)} + \keyalias{tikz} + + This key governs in what situations arrow tips are added to a + path. The following \meta{values} are permissible: + \begin{itemize} + \item |true| (the value used when no \meta{value} is specified) + \item |proper| + \item |on draw| (the initial value, if the key has not yet been used + at all) + \item |on proper draw| + \item |never| or |false| (same effect) + \end{itemize} + + Firstly, there are a whole bunch of situations where the setting of + these (or other) options causes no arrow tips to be shown: + \begin{itemize} + \item If no arrow tips have been specified (for instance, by having + said |arrows=-|), no arrow tips are drawn. + \item If the |clip| option is set, no arrow tips are drawn. + \item If |tips| has been set to |never| or |false|, no arrow tips are drawn. + \item If |tips| has been set to |on draw| or |on proper draw|, but + the |draw| option is not set, no arrow tips are drawn. + \item If the path is empty (as in |\path ;|), no arrow tips are drawn. + \item If at least one of the subpaths of a path is closed (|cycle| is + used somewhere or something like |circle| or |rectangle|), arrow + tips are never drawn anywhere -- even if there are open subpaths. + \end{itemize} + + Now, if we pass all of the above tests, we must have a closer look + at the path. All its subpaths must now be open and there must be at + least one subpath. We conside the last one. Arrow tips will only be + added to this last subpath. + + \begin{enumerate} + \item If this last subpath not degenerate (all coordinates on the + subpath are the same as in a single ``move-to'' |\path (0,0);| or + in a ``move-to'' followed by a ``line-to'' to the same position as + in |\path (1,2) -- (1,2)|), arrow tips are added to this last + subpath now. + \item If the last subpath is degenerate, we add arrow tips pointing + upward at the single coordinate mentioned in the path, but only + for |tips| begin set to |true| or to |on draw| -- and not for + |proper| nor for |on proper draw|. In other words, ``proper'' + suppresses arrow tips on degenerate paths. + \end{enumerate} + +\begin{codeexample}[] +% No path, no arrow tips: +\tikz [<->] \draw; +\end{codeexample} +\begin{codeexample}[] +% Degenerate path, draw arrow tips (but no path, it is degenerate...) +\tikz [<->] \draw (0,0); +\end{codeexample} +\begin{codeexample}[] +% Degenerate path, tips=proper suppresses arrows +\tikz [<->] \draw [tips=proper] (0,0); +\end{codeexample} +\begin{codeexample}[] +% Normal case: +\tikz [<->] \draw (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +% Two subpaths, only second gets tips +\tikz [<->] \draw (0,0) -- (1,0) (2,0) -- (3,0); +\end{codeexample} +\begin{codeexample}[] +% Two subpaths, second degenerate, but still gets tips +\tikz [<->] \draw (0,0) -- (1,0) (2,0); +\end{codeexample} +\begin{codeexample}[] +% Two subpaths, second degenerate, proper suppresses them +\tikz [<->] \draw [tips=on proper draw] (0,0) -- (1,0) (2,0); +\end{codeexample} +\begin{codeexample}[] +% Two subpaths, but one is closed: No tips, even though last subpath is open +\tikz [<->] \draw (0,0) circle[radius=2pt] (2,0) -- (3,0); +\end{codeexample} +\end{key} + +One common pitfall when arrow tips are added to a path should be +addressed right here at the beginning: When \tikzname\ positions an +arrow tip at the start, for all its computations it only takes into +account the first segment of the subpath to which the arrow tip is +added. This ``first segment'' is the first line-to or curve-to operation (or arc +or parabola or a similar operation) of the path; but note that +decorations like |snake| will add many small line segments to +paths. The important point +is that if this first segment is very small, namely smaller that the +arrow tip itself, strange things may result. As will be explained in +Section~\ref{section-arrow-flex}, \tikzname\ will modify the path by +shortening the first segment and shortening a segment below its length +may result in strange effects. Similarly, for tips at the end of a +subpath, only the last segment is considered. + +The bottom line is that wherever an arrow tip is added to a path, the +line segment where it is added should be ``long enough.'' + + + + +\subsection{Arrow Keys: Configuring the Appearance of a Single Arrow Tip} +\label{section-arrow-config} + +For standard arrow tip kinds, like |Stealth| or |Latex| or |Bar|, +you can easily change their size, aspect ratio, color, and other +parameters. This is similar to selecting a font face from a font +family: \emph{``This text''} is not just typeset in the font +``Computer Modern,'' but rather in ``Computer Modern, italic face, +11pt size, medium weight, black color, no underline, \dots'' +Similarly, an arrow tip is not just a ``Stealth'' arrow tip, but +rather a ``Stealth arrow tip at its natural size, flexing, but not +bending along the path, miter line caps, draw and fill colors +identical to the path draw color, \dots'' + +Just as most programs make it easy to ``configure'' which font should +be used at a certain point in a text, \tikzname\ tries to make it easy +to specify which configuration of an arrow tip should be used. You use +\emph{arrow keys}, where a certain parameter like the |length| of an +arrow is set to a given value using the standard key--value +syntax. You can provide several arrow keys following an arrow tip kind +in an arrow tip specification as in +|Stealth[length=4pt,width=2pt]|. + +While selecting a font may be easy, \emph{designing} a new font is a +highly creative and difficult process and more often than not, not all +faces of a font are available on any given system. The difficulties +involved in designing a new arrow tip are somewhat similar to designing a new +letter for a font and, thus, it may also happen that not all +configuration options are actually implemented for a given arrow +tip. Naturally, for the standard arrow tips, all configuration options +are available -- but for special-purpose arrow tips it may well happen +that an arrow tip kind simply ``ignores'' some of the configurations +given by you. + +Some of the keys explained in the following are defined in the library +|arrows.meta|, others are always available. This has to do with the +question of whether the arrow key needs to be supported directly in the +\pgfname\ core or not. In general, the following explanations assume +that |arrows.meta| has been loaded. + + +\subsubsection{Size} + +The most important configuration parameter of an arrow tip is +undoubtedly its size. The following two keys are the main keys that +are important in this context: + +\begin{key}{/pgf/arrow keys/length=\meta{dimension}| |\opt{\meta{line width factor}}% + | |\opt{\meta{outer factor}}} + \label{length-arrow-key}% + This parameter is usually the most important parameter that governs + the size of an arrow tip: The \meta{dimension} that you provide + dictates the distance from the ``very tip'' of the arrow to its + ``back end'' along the line: +\begin{codeexample}[] +\tikz{ + \draw [-{Stealth[length=5mm]}] (0,0) -- (2,0); + \draw [|<->|] (1.5,.4) -- node[above=1mm] {5mm} (2,.4); +} +\end{codeexample} +\begin{codeexample}[] +\tikz{ + \draw [-{Latex[length=5mm]}] (0,0) -- (2,0); + \draw [|<->|] (1.5,.4) -- node[above=1mm] {5mm} (2,.4); +} +\end{codeexample} +\begin{codeexample}[] +\tikz{ + \draw [-{Classical TikZ Rightarrow[length=5mm]}] (0,0) -- (2,0); + \draw [|<->|] (1.5,.6) -- node[above=1mm] {5mm} (2,.6); +} +\end{codeexample} + + \medskip + \noindent \textbf{The Line Width Factors.} + Following the \meta{dimension}, you may put a space followed by a + \meta{line width factor}, which must be a plain number (no |pt| or + |cm| following). When you provide such a number, the size of the + arrow tip is not just \meta{dimension}, but rather $\meta{dimension} + + \meta{line width factor}\cdot w$ where + $w$ is the width of the to-be-drawn path. This + makes it easy to vary the size of an arrow tip in accordance with + the line width -- usually a very good idea since thicker lines will + need thicker arrow tips. + + As an example, when you write |length=0pt 5|, the length of the + arrow will be exactly five times the current line width. As another + example, the default length of a |Latex| arrow is + |length=3pt 4.5 0.8|. Let us ignore the 0.8 for a moment; the + |4pt 4.5| then means that for the standard line width of + |0.4pt|, the length of a |Latex| arrow will be exactly 4.8pt (3pt + plus 4.5 times |0.4pt|). + + Following the line width factor, you can additionally provide an + \meta{outer factor}, again preceded by a space (the |0.8| in the + above example). This factor is + taken into consideration only when the |double| option is used, that + is, when a so-called ``inner line width''. For a double line, we can + identify three different ``line widths'', namely the inner line + width $w_i$, the line width $w_o$ of the two outer lines, and the + ``total line width'' $w_t = w_i + 2w_o$. In the below examples, we + have $w_i = 3\mathrm{pt}$, $w_o=1\mathrm{pt}$, and $w_t = + 5\mathrm{pt}$. It is not immediately clear + which of these line widths should be considered as $w$ in the above + formula $\meta{dimension} + \meta{line width factor}\cdot w$ for the + computation of the length. One can argue both for $w_t$ and also for + $w_o$. Because of this, you use the \meta{outer factor} to + decide on one of them or even + mix them: \tikzname\ sets $w = \meta{outer factor} w_o + + (1-\meta{outer factor})w_t$. Thus, when the outer factor is $0$, as + in the first of the following examples and as is the default when it + is not specified, the computed $w$ will be the total + line width $w_t = 5\mathrm{pt}$. Since + $w=5\mathrm{pt}$, we get a total length of $15pt$ in the first + example (because of the factor |3|). In contrast, in the last + example, the outer factor is 1 and, thus, $w = w_o = \mathrm{1pt}$ and the + resulting length is 3pt. Finally, for the middle case, the ``middle'' between 5pt and + 1pt is 3pt, so the length is 9pt. +\begin{codeexample}[] +\tikz \draw [line width=1pt, double distance=3pt, + arrows = {-Latex[length=0pt 3 0]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [line width=1pt, double distance=3pt, + arrows = {-Latex[length=0pt 3 .5]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [line width=1pt, double distance=3pt, + arrows = {-Latex[length=0pt 3 1]} ] (0,0) -- (1,0); +\end{codeexample} + + \medskip + \noindent \textbf{The Exact Length.} + For an arrow tip kind that is just an outline that is filled with a + color, the specified length should \emph{exactly} equal the distance + from the tip to the back end. However, when the arrow tip is drawn + by stroking a line, it is no longer obvious whether the |length| + should refer to the extend of the stroked lines' path or of the + resulting pixels (which will be wider because of the thickness of + the stroking pen). The rules are as follows: + \begin{enumerate} + \item If the arrow tip consists of a closed path (like |Stealth| or + |Latex|), imagine the arrow tip drawn from left to right using a + miter line cap. Then the |length| should be the horizontal + distance from the first drawn ``pixel'' to the last drawn + ``pixel''. Thus, the thickness of the stroked line and also the + miter ends should be taken into account: +\begin{codeexample}[] +\tikz{ + \draw [line width=1mm, -{Stealth[length=10mm, open]}] + (0,0) -- (2,0); + \draw [|<->|] (2,.6) -- node[above=1mm] {10mm} ++(-10mm,0); +} +\end{codeexample} + \item If, in the above case, the arrow is drawn using a round line + join (see Section~\ref{section-arrow-key-caps} for details on how + to select this), the size of the arrow should still be the same as + in the first case (that is, as if a miter join were used). This + creates some ``visual consistency'' if the two modes are mixed or + if you later one change the mode. +\begin{codeexample}[] +\tikz{ + \draw [line width=1mm, -{Stealth[length=10mm, open, round]}] + (0,0) -- (2,0); + \draw [|<->|] (2,.6) -- node[above=1mm] {10mm} ++(-10mm,0); +} +\end{codeexample} + As the above example shows, however, a rounded arrow will still + exactly ``tip'' the point where the line should end (the point + |(2,0)| in the above case). It is only the scaling of the arrow + that is not affected. + \end{enumerate} +\end{key} + +\begin{key}{/pgf/arrow keys/width=\meta{dimension}| |\opt{\meta{line width factor}}% + | |\opt{\meta{outer factor}}} + This key works line the |length| key, only it specifies the + ``width'' of the arrow tip; so if width and length are identical, the + arrow will just touch the borders of a square. (An exception to this + rule are ``halved'' arrow tips, see + Section~\ref{section-arrow-key-harpoon}.) The meaning of the two + optional factor numbers following the \meta{dimension} is the same + as for the |length| key. +\begin{codeexample}[] +\tikz \draw [arrows = {-Latex[width=10pt, length=10pt]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [arrows = {-Latex[width=0pt 10, length=10pt]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + +\begin{key}{/pgf/arrow keys/width'=\meta{dimension}| |\opt{\meta{length + factor}| |\opt{\meta{line width factor}}}} + The key (note the prime) has a similar effect as the |width| + key. The difference is that the second, still optional paraemter + \meta{length factor} specifies the width of the key not as a + multiple of the line width, but as a multiple of the arrow length. + + The idea is that if you write, say, |width'=0pt 0.5|, the width of + the arrow will be half its length. Indeed, for standard arrow tips + like |Stealth| the default width is specified in this way so that if + you change the length of an arrow tip, you also change the width in + such a way that the aspect ratio of the arrow tip is kept. The other + way round, if you modify the factor in |width'| without changing the + length, you change the aspect ratio of the arrow tip. + + Note that later changes of the length are taken into account for the + computation. For instance, if you write +\begin{codeexample}[code only] +length = 10pt, width'=5pt 2, length=7pt +\end{codeexample} + the resulting width will be $19\mathrm{pt} = 5\mathrm{pt} + 2\cdot + 7\mathrm{pt}$. + +\begin{codeexample}[] +\tikz \draw [arrows = {-Latex[width'=0pt .5, length=10pt]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [arrows = {-Latex[width'=0pt .5, length=15pt]}] (0,0) -- (1,0); +\end{codeexample} + The third, also optional, parameter allows you to add a multiple of + the line width to the value computed in terms of the length. +\end{key} + + +\begin{key}{/pgf/arrow keys/inset=\meta{dimension}| |\opt{\meta{line width factor}}% + | |\opt{\meta{outer factor}}} + The key is relevant only for some arrow tips such as the |Stealth| + arrow tip. It specifies a distance by which something inside the + arrow tip is set inwards; for the |Stealth| arrow tip it is the + distance by which the back angle is moved inwards. + + The computation of the distance works in the same way as for + |length| and |width|: To the \meta{dimension} we add \meta{line + width factor} times that line width, where the line width is + computed based on the \meta{outer factor} as described for the + |length| key. +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[length=10pt, inset=5pt]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[length=10pt, inset=2pt]}] (0,0) -- (1,0); +\end{codeexample} + + For most arrows for which there is no ``natural inset'' like, say, + |Latex|, this key has no effect. +\end{key} + + +\begin{key}{/pgf/arrow keys/inset'=\meta{dimension}| |\opt{\meta{length factor}}| |\opt{\meta{line width factor}}} + This key works like |inset|, only like |width'| the second parameter + is a factor of the arrow length rather than of the line width. For + instance, the |Stealth| arrow sets |inset'| to |0pt 0.325| to ensure + that the inset is always at $13/40$th of the arrow length if nothing + else is specified. +\end{key} + + + +\begin{key}{/pgf/arrow keys/angle=\meta{angle}|:|\meta{dimension}% + | |\opt{\meta{line width factor}}% + | |\opt{\meta{outer factor}}} + This key sets the |length| and the |width| of an arrow tip at the + same time. The lenght will be the cosine of \meta{angle}, while the + width will be twice the sine of half the \meta{angle} (this slightly + awkward rule ensures that a |Stealth| arrow will have an opening + angle of \meta{angle} at its tip if this option is used). As for the + |length| key, if the optional factors are given, they add a certain + multiple of the line width to the \meta{dimension} before the sine + and cosines are computed. +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[inset=0pt, angle=90:10pt]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[inset=0pt, angle=30:10pt]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + + +\begin{key}{/pgf/arrow keys/angle'=\meta{angle}} + Sets the width of the arrow to twice the tangent of $\meta{angle}/2$ + times the arrow length. This results in an arrow tip with an opening + angle of \meta{angle} at its tip and with the specified |length| + unchanged. +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[inset=0pt, length=10pt, angle'=90]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [arrows = {-Stealth[inset=0pt, length=10pt, angle'=30]}] + (0,0) -- (1,0); +\end{codeexample} +\end{key} + + +\subsubsection{Scaling} + +In the previous section we saw that there are many options for getting +``fine control'' overt the length and width of arrow tips. However, in +some cases, you do not really care whether the arrow tip is 4pt long +or 4.2pt long, you ``just want it to be a little bit larger than +usual.'' In such cases, the following keys are useful: + +\begin{key}{/pgf/arrows keys/scale=\meta{factor} (initially 1)} + After all the other options listed in the previous (and also the + following sections) have been processed, \tikzname\ applies a + \emph{scaling} to the computed length, inset, and width of the arrow + tip (and, possibly, to other size parameters defined by + special-purpose arrow tip kinds). Everything is simply scaled by the + given \meta{factor}. +\begin{codeexample}[] +\tikz { + \draw [arrows = {-Stealth[]}] (0,1) -- (1,1); + \draw [arrows = {-Stealth[scale=1.5]}] (0,0.5) -- (1,0.5); + \draw [arrows = {-Stealth[scale=2]}] (0,0) -- (1,0); +} +\end{codeexample} + Note that scaling has \emph{no} effect on the line width (as usual) + and also not on the arrow padding (the |sep|). +\end{key} + +You can get even more fine-grained control over scaling using the +following keys (the |scale| key is just a shorthand for setting both +of the following keys simultaneously): + +\begin{key}{/pgf/arrows keys/scale length=\meta{factor} (initially 1)} + This factor works like |scale|, only it is applied only to + dimensions ``along the axis of the arrow,'' that is, to the length + and to the inset, but not to the width. +\begin{codeexample}[] +\tikz { + \draw [arrows = {-Stealth[]}] (0,1) -- (1,1); + \draw [arrows = {-Stealth[scale length=1.5]}] (0,0.5) -- (1,0.5); + \draw [arrows = {-Stealth[scale length=2]}] (0,0) -- (1,0); +} +\end{codeexample} +\end{key} + +\begin{key}{/pgf/arrows keys/scale width=\meta{factor} (initially 1)} + Like |scale length|, but for dimensions related to the width. +\begin{codeexample}[] +\tikz { + \draw [arrows = {-Stealth[]}] (0,1) -- (1,1); + \draw [arrows = {-Stealth[scale width=1.5]}] (0,0.5) -- (1,0.5); + \draw [arrows = {-Stealth[scale width=2]}] (0,0) -- (1,0); +} +\end{codeexample} +\end{key} + + +\subsubsection{Arc Angles} + +A few arrow tips consist mainly of arcs, whose length can be +specified. For these arrow tips, you use the following key: + +\begin{key}{/pgf/arrow keys/arc=\meta{degrees} (initially 180)} + Sets the angle of arcs in arrows to \meta{degrees}. Note that this key + is quite different from the |angle| key, which is ``just a + fancy way of setting the length and width.'' In contrast, the |arc| + key is used to set the degrees of arcs that are part of an arrow + tip: +\begin{codeexample}[] +\tikz [ultra thick] { + \draw [arrows = {-Hooks[]}] (0,1) -- (1,1); + \draw [arrows = {-Hooks[arc=90]}] (0,0.5) -- (1,0.5); + \draw [arrows = {-Hooks[arc=270]}] (0,0) -- (1,0); +} +\end{codeexample} +\end{key} + + +\subsubsection{Slanting} + +You can ``slant'' arrow tips using the following key: + +\begin{key}{/pgf/arrow keys/slant=\meta{factor} (initially 0)} + Slanting is used to create an ``italics'' effect for arrow tips: All + arrow tips get ``slanted'' a little bit relative to the axis of the + arrow: +\begin{codeexample}[] +\tikz { + \draw [arrows = {->[]}] (0,1) -- (1,1); + \draw [arrows = {->[slant=.5]}] (0,0.5) -- (1,0.5); + \draw [arrows = {->[slant=1]}] (0,0) -- (1,0); +} +\end{codeexample} + There is one thing to note about slanting: Slanting is done using a + so-called ``canvas transformation'' and has no effect on + positioning of the arrow tip. In particular, if an arrow tip gets + slanted so strongly that it starts to protrude over the arrow tip + end, this does not change the positioning of the arrow tip. + + Here is another example where slanting is used to match italic text: +\begin{codeexample}[] +\tikz [>={[slant=.3] To[] To[]}] + \graph [math nodes] { A -> B <-> C }; +\end{codeexample} +\end{key} + + + +\subsubsection{Reversing, Halving, Swapping} +\label{section-arrow-key-harpoon} + +\begin{key}{/pgf/arrow keys/reverse} + Adding this key to an arrow tip will ``reverse its direction'' so + that is points in the opposite direction (but is still at that end of the + line where the non-reversed arrow tip would have been drawn; so only + the tip is reversed). For most arrow tips, this just results in an + internal flip of a coordinate system, but some arrow tips actually + use a slightly different version of the tip for reversed arrow tips + (namely when the joining of the tip with the line would look + strange). All of this happens automatically, so you do not need to + worry about this. + + If you apply this key twice, the effect cancels, which is useful for + the definition of shorthands (which will be discussed later). +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[reversed]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[reversed, reversed]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + +\begin{key}{/pgf/arrow keys/harpoon} + The key requests that only the ``left half'' of the arrow tip should + drawn: +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[harpoon]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {->[harpoon]}] (0,0) -- (1,0); +\end{codeexample} + Unlike the |reverse| key, which all arrows tip kinds support at + least in a basic way, designers of arrow tips really need to take + this key into account in their arrow tip code and often a lot of + special attention needs to do be paid to this key in the + implementation. For this reason, only some arrow tips will support + it. +\end{key} + +\begin{key}{/pgf/arrow keys/swap} + This key flips that arrow tip along the axis of the line. It makes + sense only for asymmetric arrow tips like the harpoons created using + the |harpoon| option. +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[harpoon]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[harpoon,swap]}] (0,0) -- (1,0); +\end{codeexample} + Swapping is always possible, no special code is needed on behalf of + an arrow tip implementer. +\end{key} + +\begin{key}{/pgf/arrow keys/left} + A shorthand for |harpoon|. +\end{key} + +\begin{key}{/pgf/arrow keys/right} + A shorthand for |harpoon, swap|. +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[left]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [arrows = {-Stealth[right]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + + +\subsubsection{Coloring} + +Arrow tips are drawn using the same basic mechanisms as normal paths, +so arrow tips can be stroked (drawn) and/or filled. However, we +usually want the color of arrow tips to be identical to the color used +to draw the path, even if a different color is used for filling the +path. On the other hand, we may also sometimes wish to use a special +color for the arrow tips that is different from both the line and fill +colors of the main path. + +The following options allow you to configure how arrow tips are +colored: + +\begin{key}{/pgf/arrow keys/color=\meta{color or empty} (initially + \normalfont empty)} + Normally, an arrow tip gets the same color as the path to which it + is attached. More precisely, it will get the current ``draw color'', + also known as ``stroke color,'' which you can set using + |draw=|\meta{some color}. By adding the option |color=| to an arrow + tip (note that an ``empty'' color is specified in this way), you ask + that the arrow tip gets this default draw color of the path. Since + this is the default behaviour, you usually do not need to specify + anything: +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [red, arrows = {-Stealth}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [blue, arrows = {-Stealth}] (0,0) -- (1,0); +\end{codeexample} + + Now, when you provide a \meta{color} with this option, you request + that the arrow tip should get this color \emph{instead} of the color + of the main path: +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [red, arrows = {-Stealth[color=blue]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [red, arrows = {-Stealth[color=black]}] (0,0) -- (1,0); +\end{codeexample} + + Similar to the |color| option used in normal \tikzname\ options, you + may omit the |color=| part of the option. Whenever an \meta{arrow key} + is encountered that \tikzname\ does not recognize, it will test whether + the key is the name of a color and, if so, execute + |color=|\meta{arrow key}. So, the first of the above examples can be + rewritten as follows: +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [red, arrows = {-Stealth[blue]}] (0,0) -- (1,0); +\end{codeexample} + + The \meta{color} will apply both to any drawing and filling + operations used to construct the path. For instance, even though the + |Stealth| arrow tips looks like a filled quadrilateral, it is + actually constructed by drawing a quadrilateral and then filling it + in the same color as the drawing (see the |fill| option below to + see the difference). + + When |color| is set to an empty text, the drawing color is + always used to fill the arrow tips, even if a different color is + specified for filling the path: +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [draw=red, fill=red!50, arrows = {-Stealth[length=10pt]}] + (0,0) -- (1,1) -- (2,0); +\end{codeexample} + As you can see in the above example, the filled area is not quite + what you might have expected. The reason is that the path was + actually internally shortened a bit so that the end of the ``fat + line'' as inside the arrow tip and we get a ``clear'' arrow tip. + + In general, it is a good idea not to add arrow tips to paths that + are filled. +\end{key} + +\begin{key}{/pgf/arrow keys/fill=\meta{color or |none|}} + Use this key to explicitly set the color used for filling the arrow + tips. This color can be different from the color used to draw + (stroke) the arrow tip: +\begin{codeexample}[width=3cm] +\tikz { + \draw [help lines] (0,-.5) grid [step=1mm] (1,.5); + \draw [thick, red, arrows = {-Stealth[fill=white,length=15pt]}] (0,0) -- (1,0); +} +\end{codeexample} + You can also specify the special ``color'' |none|. In this case, the + arrow tip is not filled at all (not even with white): +\begin{codeexample}[width=3cm] +\tikz { + \draw [help lines] (0,-.5) grid [step=1mm] (1,.5); + \draw [thick, red, arrows = {-Stealth[fill=none,length=15pt]}] (0,0) -- (1,0); +} +\end{codeexample} + Note that such ``open'' arrow tips are a bit difficult to draw in + some case: The problem is that the line must be shortened by just + the right amount so that it ends exactly on the back end of the + arrow tip. In some cases, especially when double lines are used, + this will not be possible. + + \begin{key}{/pgf/arrow keys/open} + A shorthand for |fill=none|. + \end{key} + + When you use both the |color| and |fill| option, the |color| option + must come first since it will reset the filling to the color + specified for drawing. +\begin{codeexample}[width=3cm] +\tikz { + \draw [help lines] (0,-.5) grid [step=1mm] (1,.5); + \draw [thick, red, arrows = {-Stealth[color=blue, fill=white, length=15pt]}] + (0,0) -- (1,0); +} +\end{codeexample} + + Note that by setting |fill| to the special color |pgffillcolor|, you + can cause the arrow tips to be filled using the color used to fill + the main path. (This special color is always available and always + set to the current filling color of the graphic state.): +\begin{codeexample}[width=3cm] +\tikz [ultra thick] \draw [draw=red, fill=red!50, + arrows = {-Stealth[length=15pt, fill=pgffillcolor]}] + (0,0) -- (1,1) -- (2,0); +\end{codeexample} +\end{key} + + +\subsubsection{Line Styling} +\label{section-arrow-key-caps} + +Arrow tips are created by drawing and possibly filling a path that +makes up the arrow tip. When \tikzname\ draws a path, there are +different ways in which such a path can be drawn (such as +dashing). Three particularly important parameters are the line join, +the line cap, see Section~\ref{section-line-cap} for an introduction, +and the line width (thickness) + +\tikzname\ resets the line cap and line join each time it draws an +arrow tip since you usually do not want their settings to ``spill +over'' to the way the arrow tips are drawn. You can, however, change +there values explicitly for an arrow tip: + +\begin{key}{/pgf/arrow keys/line cap=\meta{|round| or |butt|}} + Sets the line cap of all lines that are drawn in the arrow to a + round cap or a butt cap. (Unlike for normal lines, the |rect| cap is + not allowed.) Naturally, this key has no effect for arrows whose + paths are closed. + + Each arrow tip has a default value for the line cap, which can + be overruled using this option. + + Changing the cap should have no effect on the size of the + arrow. However, it will have an effect on where the exact ``tip'' of + the arrow is since this will always be exactly at the end of the + arrow: +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[line cap=butt]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[line cap=round]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,line cap=butt]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,line cap=round]}] + (0,0) -- (1,0); +\end{codeexample} +\end{key} + +\begin{key}{/pgf/arrow keys/line join=\meta{|round| or |miter|}} + Sets the line join to round or miter (|bevel| is not allowed). This + time, the key only has an effect on paths that have ``corners'' in + them. The same rules as for |line cap| apply: the size is not + affects, but the tip end is: + \begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[line join=miter]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[line join=round]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,line join=miter]}] + (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,line join=round]}] + (0,0) -- (1,0); +\end{codeexample} +\end{key} + +The following keys set both of the above: +\begin{key}{/pgf/arrow keys/round} + A shorthand for |line cap=round, line join=round|, resulting in + ``rounded'' arrow heads. + \begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[round]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,round]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + +\begin{key}{/pgf/arrow keys/sharp} + A shorthand for |line cap=butt, line join=miter|, resulting in + ``sharp'' or ``pointed'' arrow heads. + \begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Computer Modern Rightarrow[sharp]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=3cm] +\tikz [line width=2mm] + \draw [arrows = {-Bracket[reversed,sharp]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + + +You can also set the width of lines used inside arrow tips: + +\begin{key}{/pgf/arrow keys/line width=\meta{dimension}| |\opt{\meta{line width factor}}% + | |\opt{\meta{outer factor}}} + This key sets the line width inside an arrow tip for drawing + (out)lines of the arrow tip. When you set this width to |0pt|, which + makes sense only for closed tips, the arrow tip is only filled. This + can result in better rendering of some small arrow tips and in case + of bend arrow tips (because the line joins will also be bend and not + ``mitered''.) + + The meaning of the factors is as usual the same as for |length| or |width|. + +\begin{codeexample}[width=2cm] +\tikz \draw [arrows = {-Latex[line width=0.1pt, fill=white, length=10pt]}] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[width=2cm] +\tikz \draw [arrows = {-Latex[line width=1pt, fill=white, length=10pt]}] (0,0) -- (1,0); +\end{codeexample} +\end{key} + + +\begin{key}{/pgf/arrow keys/line width'=\meta{dimension}| |\opt{\meta{length factor}}} + Works like |line width| only the factor is with respect to the |length|. +\end{key} + +\subsubsection{Bending and Flexing} + +\label{section-arrow-flex} + +Up to now, we have only added arrow tip to the end of straight lines, +which is in some sense ``easy.'' Things get far more difficult, if the +line to which we wish to end an arrow tip is curved. In the following, +we have a look at the different actions that can be taken and how they +can be configured. + +To get a feeling for the difficulties involved, consider the following +situation: We have a ``gray wall'' at the $x$-coordinate of and a +red line that ends in its middle. + +\begin{codeexample}[] +\def\wall{ \fill [fill=black!50] (1,-.5) rectangle (2,.5); + \pattern [pattern=bricks] (1,-.5) rectangle (2,.5); + \draw [line width=1pt] (1cm+.5pt,-.5) -- ++(0,1); } +\begin{tikzpicture} + \wall + % The "line" + \draw [red,line width=1mm] (-1,0) -- (1,0); +\end{tikzpicture} +\end{codeexample} + +Now we wish to add a blue open arrow tip the red line like, say, +|Stealth[length=1cm,open,blue]|: + +\def\wall{ \fill [fill=black!50] (1,-.5) rectangle (2,.5); + \pattern [pattern=bricks] (1,-.5) rectangle (2,.5); + \draw [line width=1pt] (1cm+.5pt,-.5) -- ++(0,1); } +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue]}] + (-1,0) -- (1,0); +\end{tikzpicture} +\end{codeexample} + +There are several noteworthy things about the blue arrow tip: +\begin{enumerate} +\item Notice that the red line no longer goes all the way to the + wall. Indeed, the red line ends more or less exactly where it meets + the blue line, leaving the arrow tip empty. Now, recall that the red + line was supposed to be the path |(-2,0)--(1,0)|; however, this path + has obviously become much shorter (by 6.25mm to be precise). This + effect is called \emph{path shortening} in \tikzname. +\item The very tip of the arrow just ``touches'' the wall, even we + zoom out a lot. This point, where the original path ended and where + the arrow tip should now lie, is called the \emph{tip end} in + \tikzname. +\item Finally, the point where the red line touches the blue line is + the point where the original path ``visually ends.'' Notice that + this is not the same as the point that lies at a distance of the + arrow's |length| from the wall -- rather it lies at a distance of + |length| minus the |inset|. Let us call this point the \emph{visual + end} of the arrow. +\end{enumerate} + +As pointed out earlier, for straight lines, shortening the path and +rotating and shifting the arrow tip so that it ends precisely at the +tip end and the visual end lies on a line from the tip end to the +start of the line is relatively easy. + +For curved lines, things are much more difficult and \tikzname\ copes +with the difficulties in different ways, depending on which options +you add to arrows. Here is now a curved red line to which we wish to +add our arrow tip (the original straight red line is shown in light red): + +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm] (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + +The first way of dealing with curved lines is dubbed the ``quick +and dirty'' way (although the option for selecting this option is +politely just called ``|quick|'' \dots): + +\begin{key}{/pgf/arrow keys/quick} + Recall that curves in \tikzname\ are actually B\'ezier curves, which + means that they start and end at certain points and we specify two + vectors, one for the start and one for the end, that provide + tangents to the curve at these points. In particular, for the end of + the curve, there is a point called the \emph{second support point} + of the curve such that a tangent to the curve at the end goes + through this point. In our above example, the second support point + is at the middle of the light red line and, indeed, a tangent to the + red line at the point touching the wall is perfectly horizontal. + + In order to add our arrow tip to the curved path, our first + objective is to ``shorten'' the path by 6.25mm. Unfortunately, this + is now much more difficult than for a straight path. When the + |quick| option is added to an arrow tip (it is also + the default if no special libraries are loaded), we cheat somewhat: + Instead of really moving along 6.25mm along the path, we simply + shift the end of the curve by 6.25mm \emph{along the tangent} (which + is easy to compute). We also have to shift the second support point + by the same amount to ensure that the line still has the same + tangent at the end. This will result in the following: + +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue,quick]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + + They main problem with the above picture is that the red line is no + longer equal to the original red line (notice much sharper curvature + near its end). In our example this is not such a bad thing, but it + certainly ``not a nice thing'' that adding arrow tips to a curve + changes the overall shape of the curves. This is especially + bothersome if there are several similar curves that have different + arrow heads. In this case, the similar curves now suddenly look + different. + + Another big problem with the above approach is that it works only + well if there is only a single arrow tip. When there are multiple + ones, simply shifting them along the tangent as the |quick| option + does produces less-than-satisfactory results: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{[quick,sep]>>>}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + Note that the third arrow tip does not really lie on the curve any + more. +\end{key} + +Because of the shortcomings of the |quick| key, more powerful +mechanisms for shortening lines and rotating arrows tips have been +implemented. To use them, you need to load the following library: + +\begin{tikzlibrary}{bending} + Load this library to use the |flex|, |flex'|, or |bending| arrow + keys. When this library is loaded, |flex| becomes the default mode + that is used with all paths, unless |quick| is explicitly selected + for the arrow tip. +\end{tikzlibrary} + +\begin{key}{/pgf/arrow keys/flex=\opt{\meta{factor}} (default 1)} + When the |bending| library is loaded, this key is applied + to all arrow tips by default. It has the following effect: + \begin{enumerate} + \item Instead of simply shifting the visual end of the arrow along + the tangent of the curve's end, we really move it along the curve + by the necessary distance. This operation is more expensive than + the |quick| operation -- but not \emph{that} expensive, only + expensive enough so that it is not selected by default for all + arrow tips. Indeed, some compromises are made in the + implementation where accuracy was traded for speed, so the + distance by which the line end is shifted is not necessarily + \emph{exactly} 6.25mm; only something reasonably close. + \item The supports of the line are updated accordingly so that the + shortened line will still follow \emph{exactly} the original + line. This means that the curve deformation effect caused by the + |quick| command does not happen here. + \item Next, the arrow tip is rotated and shifted as follows: First, + we shift it so that its tip is exactly at the tip end, where the + original line ended. Then, the arrow is rotated so the \emph{the + visual end lies on the line}: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue,flex]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + \end{enumerate} + + As can be seen in the example, the |flex| option gives a result that + is visually pleasing and does not deform the path. + + There is, however, one possible problem with the |flex| option: The + arrow tip no longer points along the tangent of the end of the + path. This may or may not be a problem, put especially for larger + arrow tips readers will use the orientation of the arrow head to + gauge the direction of the tangent of the line. If this tangent is + important (for example, if it should be horizontal), then it may be + necessary to enforce that the arrow tip ``really points in the + direction of the tangent. + + To achieve this, the |flex| option takes an optional \meta{factor} + parameter, which defaults to |1|. This factor specifies how much the + arrow tip should be rotated: If set to |0|, the arrow points exactly + along a tangent to curve at its tip. If set to |1|, the arrow point + exactly along a line from the visual end point on the curve to the + tip. For values in the middle, we interpolate the rotation between + these two extremes; so |flex=.5| will rotate the arrow's visual end + ``halfway away from the tangent towards the actual position on the + line.'' +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue,flex=0]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue,flex=.5]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + Note how in the above examples the red line is visible inside the + open arrow tip. Open arrow tips do not go well with a flex value + other than~|1|. Here is a more realistic use of the |flex=0| key: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,flex=0]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + If there are several arrow tips on a path, the |flex| option + positions them independently, so that each of them lies optimally on + the path: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{[flex,sep]>>>}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} +\end{key} + + +\begin{key}{/pgf/arrow keys/flex'=\opt{\meta{factor}} (default 1)} + The |flex'| key is almost identical to the |flex| key. The only + difference is that a factor of |1| corresponds to rotating the arrow + tip so that the instead of the visual end, the ``ultimate back end'' + of the arrow tip lies on the red path. In the example instead of + having the arrow tip at a distance of |6.25mm| from the tip lie on + the path, we have the point at a distance of |1cm| from the tip lie + on the path: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=1cm,open,blue,flex']}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + Otherwise, the factor works as for |flex| and, indeed |flex=0| and + |flex'=0| have the same effect. + + The main use of this option is not so much with an arrow tip like + |Stealth| but rather with tips like the standard |>| in the context + of a strongly curved line: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Computer Modern Rightarrow[flex]}] + (0,-.5) .. controls (1,-.5) and (0.5,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + In the example, the |flex| option does not really flex the arrow + since for a tip like the Computer Modern arrow, the visual end is + the same as the arrow tip -- after all, the red line does, indeed, end + almost exactly where it used to end. + + Nevertheless, you may feel that the arrow tip looks ``wrong'' in the sense that it + should be rotated. This is exactly what the |flex'| option does + since it allows us to align the ``back end'' of the tip with the red line: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Computer Modern Rightarrow[flex'=.75]}] + (0,-.5) .. controls (1,-.5) and (0.5,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} + In the example, I used |flex'=.75| so as not to overpronounce the + effect. Usually, you will have to fiddle with it sometime to get the + ``perfectly aligned arrow tip,'' but a value of |.75| is usually a + good start. +\end{key} + + + +\begin{key}{/pgf/arrow keys/bend} + \emph{Bending} an arrow tip is a radical solution to the problem of + positioning arrow tips on a curved line: The arrow tip is no longer + ``rigid'' but the drawing itself will now bend along the curve. This + has the advantage that all the problems of flexing with wrong + tangents and overflexing disappear. The downsides are longer + computation times (bending an arrow is \emph{much} more expensive + that flexing it, let alone than quick mode) and also the fact that + excessive bending can lead to ugly arrow tips. On the other hand, + for most arrow tips their bend version are visually quite pleasing + and create a sophisticated look: +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[length=20pt,bend]}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{[bend,sep]>>>}] + (-1,-.5) .. controls (0,-.5) and (0,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} +\begin{codeexample}[] +\begin{tikzpicture} + \wall + \draw [red!25,line width=1mm] (-1,0) -- (1,0); + \draw [red,line width=1mm,-{Stealth[bend,round,length=20pt]}] + (0,-.5) .. controls (1,-.5) and (0.25,0) .. (1,0); +\end{tikzpicture} +\end{codeexample} +\end{key} + + + + + + +\subsection{Arrow Tip Specifications} +\label{section-arrow-spec} + +\subsubsection{Syntax} + +When you select the arrow tips for the start and the end of a path, +you can specify a whole sequence of arrow tips, each having its own +local options. At the beginning of this section, it was pointed out +that the syntax for selecting the start and end arrow tips is the +following: + +\begin{quote} + \meta{start specification}|-|\meta{end specification} +\end{quote} + +We now have a closer look at what these specifications may look +like. The general syntax of the \meta{start specification} is as +follows: +\begin{quote} + \opt{|[|\meta{options for all tips}|]|} \meta{first arrow tip spec} + \meta{second arrow tip spec} \meta{third arrow tip spec} \dots +\end{quote} +As can be seen, an arrow tip specification may start with some options +in brackets. If this is the case, the \meta{options for all tips} +will, indeed, be applied to all arrow tips that follow. (We will see, +in a moment, that there are even more places where options may be +specified and a list of the ordering in which the options are applied +will be given later.) + +The main part of a specification is taken up by a sequence of +individual arrow tip specifications. Such a specification can be of +three kinds: + +\begin{enumerate} +\item It can be of the form \meta{arrow tip kind name}|[|\meta{options}|]|. +\item It can be of the form \meta{shorthand}|[|\meta{options}|]|. +\item It can be of the form \meta{single char shorthand}\opt{|[|\meta{options}|]|}. Note that only for this form the + brackets are optional. +\end{enumerate} + +The easiest kind is the first one: This adds an arrow tip of the kind +\meta{arrow tip kind name} to the sequence of arrow tips with the +\meta{options} applied to it at the start (for the \meta{start + specification}) or at the end (for the \meta{end + specification}). Note that for the \meta{start specification} the +first arrow tip specified in this way will be at the very start of the +curve, while for the \meta{end specification} the ordering is +reversed: The last arrow tip specified will be at the very end of the +curve. This implies that a specification like +\begin{quote} +|Stealth[] Latex[] - Latex[] Stealth[]| +\end{quote} +will give perfectly symmetric arrow tips on a line (as one would +expect). + +It is important that even if there are no \meta{options} for an arrow +tip, the square brackets still need to be written to indicate the end +of the arrow tip's name. Indeed, the opening brackets are used to +divide the arrow tip specification into names. + +Instead of a \meta{arrow tip kind name}, you may also provide the name +of a so-called \emph{shorthand}. Shorthands look like normal arrow tip +kind names and, indeed, you will often be using shorthands without +noticing that you do. The idea is that instead of, say, +|Computer Modern Rightarrow| you might wish to just write |Rightarrow| +or perhaps just |To| or even just |>|. For this, you can create a +shorthand that tells \tikzname\ that whenever this shorthand is used, +another arrow tip kind is meant. (Actually, shorthands are somewhat +more powerful, we have a detailed look at them in +Section~\ref{section-arrow-tip-macro}.) For shorthands, the same rules +apply as for normal arrow tip kinds: You \emph{need} to provide +brackets so that \tikzname\ can find the end of the name inside a +longer specification. + +The third kind of arrow tip specifications consist of just a single +letter like |>| or |)| or |*| or even |o| or |x| (but you may not use +|[|, |]|, or |-| since they will confuse the parser). These single +letter arrow specifications will invariably be shorthands that select +some ``real'' arrow tip instead. An important feature of single letter +arrow tips is that they do \emph{not} need to be followed by options +(but they may). + +Now, since we can use any letter for single letter shorthands, how can +\tikzname\ tell whether by |foo[]| we mean an arrow tip kind |foo| +without any options or whether we mean an arrow tip called |f|, +followed by two arrow tips called |o|? Or perhaps an arrow tip called +|f| followed by an arrow tip called |oo|? To solve this problem, the +following rule is used to determine which of the three possible +specifications listed above applies: First, we check whether +everything from the current position up to the next opening bracket +(or up to the end) is the name of an arrow tip or of a shorthand. In +our case, |foo| would first be tested under this rule. Only if |foo| +is neither the name of an arrow tip kind nor of a shorthand does +\tikzname\ consider the first letter of the specification, |f| in our +case. If this is not the name of a shorthand, an error is +raised. Otherwise the arrow tip corresponding to |f| is added to the +list of arrow tips and the process restarts with the rest. Thus, we +would next text whether |oo| is the name of an arrow tip or shorthand +and, if not, whether |o| is such a name. + +All of the above rules mean that you can rather easily specify arrow +tip sequences if they either mostly consist of single letter names or +of longer names. Here are some examples: + +\begin{itemize} +\item |->>>| is interpreted as three times the |>| shorthand since + |>>>| is not the name of any arrow tip kind (and neither is |>>|). +\item |->[]>>| has the same effect as the above. +\item |-[]>>>| also has the same effect.%>> +\item |->[]>[]>[]| so does this. +\item |->Stealth| yields an arrow tip |>| followed by a |Stealth| + arrow at the end. +\item |-Stealth>| is illegal since there is no arrow tip |Stealth>| + and since |S| is also not the name of any arrow tip. +\item |-Stealth[] >| is legal and does what was presumably meant in the previous item. +\item |< Stealth-| is legal and is the counterpart to |-Stealth[] >|. +\item |-Stealth[length=5pt] Stealth[length=6pt]| selects two stealth + arrow tips, but at slightly different sizes for the end of lines. +\end{itemize} + + +An interesting question concerns how flexing and bending interact with +multiple arrow tips: After all, flexing and quick mode use different +ways of shortening the path so we cannot really mix them. The +following rule is used: We check, independently for the start and the +end specifications, whether at least one arrow tip in them uses one of +the options |flex|, |flex'|, or |bend|. If so, all |quick| settings in +the other arrow tips are ignored and treated as if |flex| had been +selected for them, too. + + +\subsubsection{Specifying Paddings} + +When you provide several arrow tips in a row, all of them are added to +the start or end of the line: +\begin{codeexample}[] +\tikz \draw [<<<->>>>] (0,0) -- (2,0); +\end{codeexample} +The question is now what will be distance between them? For this, the +following arrow key is important: +\begin{key}{/pgf/arrow keys/sep=\meta{dimension}| |\opt{\meta{line + width factor}}| |\opt{\meta{outer factor}} (default 0.88pt .3 1)} + When a sequence of arrow tips is specified in an arrow tip + specification for the end of the line, the arrow tips are normally + arranged in such a way that the tip of each arrow ends exactly at + the ``back end'' of the next arrow tip (for start specifications, + the ordering is inverted, of course). Now, when the |sep| option is + set, instead of exactly touching the back end of the next arrow, the + specified \meta{dimension} is added as additional space (the + distance may also be negative, resulting in an overlap of the arrow + tips). The optional factors have the same meaning as for the + |length| key, see that key for details. + + Let us now have a look at some examples. First, we use two arrow + tips with different separations between them: +\begin{codeexample}[] +\tikz { + \draw [-{>[sep=1pt]>[sep= 2pt]>}] (0,1.0) -- (1,1.0); + \draw [-{>[sep=1pt]>[sep=-2pt]>}] (0,0.5) -- (1,0.5); + \draw [-{> >[sep] >}] (0,0.0) -- (1,0.0); +} +\end{codeexample} + + You can also specify a |sep| for the last arrow tip in the sequence + (for end specifications, otherwise for the first arrow tip). In this + case, this first arrow tip will not exactly ``touch'' the point + where the path ends, but will rather leave the specified amount of + space. This is usually quite desirable. +\begin{codeexample}[] +\tikz { + \node [draw] (A) {A}; + \node [draw] (B) [right=of A] {B}; + + \draw [-{>>[sep=2pt]}] (A) to [bend left=45] (B); + \draw [- >> ] (A) to [bend right=45] (B); +} +\end{codeexample} + Indeed, adding a |sep| to an arrow tip is \emph{very} desirable, so + you will usually write something like |>={To[sep]}| somewhere near + the start of your files. + + One arrow tip kind can be quite useful in this context: The arrow + tip kind |_|. It draws nothing and has zero length, \emph{but} + it has |sep| set as a default option. Since it is a single letter + shorthand, you can write short and clean ``code'' in this way: +\begin{codeexample}[] +\tikz \draw [->_>] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [->__>] (0,0) -- (1,0); +\end{codeexample} + However, using the |sep| option will be faster than using the |_| + arrow tip and it also allows you to specify the desired length + directly. +\end{key} + + + +\subsubsection{Specifying the Line End} + +In the previous examples of sequences of arrow tips, the line of the +path always ended at the last of the arrow tips (for end +specifications) or at the first of the arrow tips (for start +specifications). Often, this is what you may want, but not +always. Fortunately, it is quite easy to specify the desired end of +the line: The special single char shorthand |.| is reserved to +indicate that last arrow that is still part of the line; in other +words, the line will stop at the last arrow before |.| is encountered +(for end specifications) are at the first arrow following |.| (for +start specifications). +%>> +\begin{codeexample}[] +\tikz [very thick] \draw [<<<->>>] (0,0) -- (2,0); +\end{codeexample} +\begin{codeexample}[] +\tikz [very thick] \draw [<.<<->.>>] (0,0) -- (2,0); +\end{codeexample} +\begin{codeexample}[] +\tikz [very thick] \draw [<<.<-.>>>] (0,0) -- (2,0); +\end{codeexample} +\begin{codeexample}[] +\tikz [very thick] \draw [<<.<->.>>] (0,0) to [bend left] (2,0); +\end{codeexample} + +It is permissible that there are several dots in a specification, in +this case the first one ``wins'' (for end specifications, otherwise +the last one). + +Note that |.| is parsed as any other shorthand. In particular, if you +wish to add a dot after a normal arrow tip kind name, you need to add +brackets: +\begin{codeexample}[] +\tikz [very thick] \draw [-{Stealth[] . Stealth[] Stealth[]}] (0,0) -- (2,0); +\end{codeexample} +Adding options to |.| is permissible, but they have no effect. In +particular, |sep| has no effect since a dot is not an arrow. + + + + +\subsubsection{Defining Shorthands} +\label{section-arrow-tip-macro} + +It is often desirable to create ``shorthands'' for the names of arrow +tips that you are going to use very often. Indeed, in most documents +you will only need a single arrow tip kind and it would be useful that +you could refer to it just as |>| in your arrow tip specifications. As +another example, you might constantly wish to switch between a filled +and a non-filled circle as arrow tips and would like to use |*| and +|o| are shorthands for these case. Finally, you might just like to +shorten a long name like |Computer Modern Rightarrow| down to just, +say |To| or something similar. + +All of these case can be addressed by defining appropriate +shorthands. This is done using the following handler: + +\begin{handler}{{.tip}{=\meta{end specification}}} + Defined the \meta{key} as a name that can be used inside arrow tip + specifications. If the \meta{key} has a path before it, this path is + ignored (so there is only one ``namespace'' for arrow + tips). Whenever it is used, it will be replaced by the \meta{end + specification}. Note that you must \emph{always} provide + (only) an end specification; when the \meta{key} is used inside a + start specification, the ordering and the meaning of the keys inside + the \meta{end specification} are translated automatically. + +\begin{codeexample}[] +\tikz [foo /.tip = {Stealth[sep]. >>}] + \draw [-foo] (0,0) -- (2,0); +\end{codeexample} +\begin{codeexample}[] +\tikz [foo /.tip = {Stealth[sep] Latex[sep]}, + bar /.tip = {Stealth[length=10pt,open]}] + \draw [-{foo[red] . bar}] (0,0) -- (2,0); +\end{codeexample} + + In the last of the examples, we used |foo[red]| to make the arrows + red. Any options given to a shorthand upon use will be passed on to + the actual arrows tip for which the shorthand stands. Thus, we could + also have written |Stealth[sep,red]| |Latex[sep,red]| instead of + |foo[red]|. In other words, the ``replacement'' of a shorthand by + its ``meaning'' is a semantic replacement rather than a syntactic + replacement. In particular, the \meta{end specification} will be + parsed immediately when the shorthand is being defined. However, + this applies only to the options inside the specification, whose + values are evaluated immediately. In contrast, which actual arrow + tip kind is meant by a given shorthand used inside the \meta{end + specification} is resolved only up each use of the shorthand. This + means that when you write + \begin{quote} + |dup /.tip = >>| + \end{quote} + and then later write + \begin{quote} + |> /.tip = whatever| + \end{quote} + then |dup| will have the effect as if you had written + |whatever[]whatever[]|. You will find that this behaviour is + what one would expect. + + There is one problem we have not yet addressed: The asymmetry of + single letter arrow tips like |>| or |)|. When someone writes +\begin{codeexample}[] +\tikz \draw [<->] (0,0) -- (1,0); +\end{codeexample} + we rightfully expect one arrow tip pointing left at the left end and + an arrow tip pointing right at the right end. However, compare +\begin{codeexample}[] +\tikz \draw [>->] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz \draw [Stealth-Stealth] (0,0) -- (1,0); +\end{codeexample} + In both cases, we have \emph{identical} text in the start and end + specifications, but in the first case we rightfully expect the left + arrow to be flipped. + + The solution to this problem is that it is possible to define + two names for the same arrow tip, namely one that is used inside + start specifications and one for end specifications. Now, we can + decree that the ``name of |>|'' inside start specifications is + simply |<| and the above problems disappear. + + To specify different names for a shorthand in start and end + specifications, use the following syntax: Instead of \meta{key}, you + use \meta{name in start specifications}|-|\meta{name in end + specifications}. Thus, to set the |>| key correctly, you actually + need to write +\begin{codeexample}[] +\tikz [<-> /.tip = Stealth] \draw [<->>] (0,0) -- (1,0); +\end{codeexample} +\begin{codeexample}[] +\tikz [<-> /.tip = Latex] \draw [>-<] (0,0) -- (1,0); +\end{codeexample} + + Note that the above also works even though we have not set |<| as an + arrow tip name for end specifications! The reason this works is that + the \tikzname\ (more precisely, \pgfname) actually uses the + following definition internally: + \begin{quote} + |>-< /.tip = >[reversed]| + \end{quote} + Translation: ``When |<| is used in an end specification, please + replace it by |>|, but reversed. Also, when |>| is used in a start + specification, we also mean this inverted |>|.'' + + By default, |>| is a shorthand for |To| and |To| is a shorthand for + |to| (an arrow from the old libraries) when |arrows.meta| is not + loaded library. When |arrow.meta| is loaded, |To| is redefined to + mean the same as + |Computer Modern Rightarrow|. +\end{handler} + +\begin{key}{/tikz/>=\meta{end arrow specification}} + This is a short way of saying |<->/.tip=|\meta{end arrow specification}. +\begin{codeexample}[] +\begin{tikzpicture}[scale=2,ultra thick] + \begin{scope}[>=Latex] + \draw[>->] (0pt,3ex) -- (1cm,3ex); + \draw[|<->>|] (0pt,2ex) -- (1cm,2ex); + \end{scope} + \begin{scope}[>=Stealth] + \draw[>->] (0pt,1ex) -- (1cm,1ex); + \draw[|<<.<->|] (0pt,0ex) -- (1cm,0ex); + \end{scope} +\end{tikzpicture} +\end{codeexample} + +\end{key} + + + +\subsubsection{Scoping of Arrow Keys} +\label{section-arrow-scopes} + +There are numerous places where you can specify keys for an arrow +tip. There is, however, one final place that we have not yet +mentioned: + +\begin{key}{/tikz/arrows=|[|\meta{arrow keys}|]|} + The |arrows| key, which is normally used to set the arrow tips for + the current scope, can also be used to set some arrow keys for the + current scope. When the argument to |arrows| starts with an opening + bracket and only otherwise contains one further closing bracket at + the very end, this semantic of the |arrow| key is assumed. + + The \meta{arrow keys} will be set for the rest of current + scope. This is useful for generally setting some design parameters + or for generally switching on, say, bending as in: +\begin{codeexample}[code only] +\tikz [arrows={[bend]}] ... % Bend all arrows +\end{codeexample} +\end{key} + +We can now summarize which arrow keys are applied in what order when +an arrow tip is used: +\begin{enumerate} +\item First, the so-called \emph{defaults} are applied, which are + values for the different parameters of a key. They are fixed in the + definition of the key and cannot be changed. Since they are executed + first, they are only the ultimate fallback. +\item The \meta{keys} from the use of |arrows=[|\meta{keys}|]| in all + enclosing scopes. +\item Recursively, the \meta{keys} provided with the arrow + tip inside shorthands. +\item The keys provided at the beginning of an arrow tip specification + in brackets. +\item The keys provided directly next to the arrow tip inside the + specification. +\end{enumerate} + + + + +\subsection{Reference: Arrow Tips} +\label{section-arrows-meta} + +\begin{pgflibrary}{arrows.meta} + This library defines a large number of standard ``meta'' arrow + tips. ``Meta'' means that you can configure these arrow tips in many + different ways like changing their size or their line caps and joins + and many other details. + + The only reason this library is not loaded by default is for + compatibility with older versions of \tikzname. You can, however, + safely load and use this library alongside the older libraries + |arrows| and |arrows.spaced|. +\end{pgflibrary} + + +The different arrow tip kinds defined in the |arrows.meta| library can +be classified in different groups: +\begin{itemize} +\item \emph{Barbed} arrow tips consist mainly of lines that ``point + backward'' from the tip of the arrow and which are not filled. For + them, filling has no effect. A typical example is \tikz [baseline] + \draw (0,.5ex) -- (1.5em,.5ex) [-Straight Barb];. Here is the list + of defined arrow tips: + + \begin{arrowexamples} + \arrowexample Arc Barb[] + \arrowexample Bar[] + \arrowexample Bracket[] + \arrowexample Hooks[] + \arrowexample Parenthesis[] + \arrowexample Straight Barb[] + \arrowexample Tee Barb[] + \end{arrowexamples} + + All of these arrow tips can be configured and resized in many + different ways as described in the following. Above, they are shown at + their ``natural'' sizes, which are chosen in such a way that for a + line width of 0.4pt their width matches the height + of a letter ``x'' in Computer Modern at 11pt (with some + ``overshooting'' to create visual consistency). +\item \emph{Mathematical} arrow tips are actually a subclass of the + barbed arrow tips, but we list them separately. They contain arrow + tips that look exactly like the tips of arrows used in mathematical + fonts such as the |\to|-symbol $\to$ from standard \TeX. + \begin{arrowexamples} + \arrowexample Classical TikZ Rightarrow[] + \arrowexample Computer Modern Rightarrow[] + \arrowexampledouble Implies[] + \arrowexample To[] + \end{arrowexamples} + The |To| arrow tip is a shorthand for |Computer Modern Rightarrow| + when |arrows.meta| is loaded. +\item \emph{Geometric} arrow tips consist of a filled shape like a + kite or a circle or a ``stealth-fighter-like'' shape. A typical + example is \tikz [baseline] \draw (0,.5ex) -- (1.5em,.5ex) + [-Stealth];. These arrow tips can also be used in an ``open'' + variant as in \tikz [baseline] \draw (0,.5ex) -- (1.5em,.5ex) + [-{Stealth[open]}];. + + \begin{arrowexamples} + \arrowexample Circle[] + \arrowexample Diamond[] + \arrowexample Ellipse[] + \arrowexample Kite[] + \arrowexample Latex[] + \arrowexample Latex[round] + \arrowexample Rectangle[] + \arrowexample Square[] + \arrowexample Stealth[] + \arrowexample Stealth[round] + \arrowexample Triangle[] + \arrowexample Turned Square[] + \end{arrowexamples} + + Here are the ``open'' variants: + + \begin{arrowexamples} + \arrowexample Circle[open] + \arrowexample Diamond[open] + \arrowexample Ellipse[open] + \arrowexample Kite[open] + \arrowexample Latex[open] + \arrowexample Latex[round,open] + \arrowexample Rectangle[open] + \arrowexample Square[open] + \arrowexample Stealth[open] + \arrowexample Stealth[round,open] + \arrowexample Triangle[open] + \arrowexample Turned Square[open] + \end{arrowexamples} + + Note that ``open'' arrow tips are not the same as ``filled with + white,'' which is also available (just say |fill=white|). The + difference is that the background will ``shine through'' an open + arrow, while a filled arrow always obscures the background: + +\begin{codeexample}[] +\tikz { + \shade [left color=white, right color=red!50] (0,0) rectangle (4,1); + + \draw [ultra thick,-{Triangle[open]}] (0,2/3) -- ++ (3,0); + \draw [ultra thick,-{Triangle[fill=white]}] (0,1/3) -- ++ (3,0); +} +\end{codeexample} + +\item \emph{Cap} arrow tips are used to add a ``cap'' to the end of a + line. The graphic languages underlying \tikzname\ (\textsc{pdf}, + \textsc{postscript} or \textsc{svg}) all support three basic types + of line caps on a very low level: round, rectangular, and ``butt.'' + Using cap arrow tips, you can add new caps to lines and use + different caps for the end and the start. An example is the line + \tikz [baseline] \draw [line width=1ex, {Round + Cap[reversed]}-{Triangle Cap[] . Fast Triangle[] Fast Triangle[]}] + (0,0.5ex) -- (2em,0.5ex);. + \begin{arrowcapexamples} + \arrowcapexample Butt Cap[] + \arrowcapexample Fast Round[] + \arrowcapexample Fast Triangle[] + \arrowcapexample Round Cap[] + \arrowcapexample Triangle Cap[] + \end{arrowcapexamples} +\item \emph{Special} arrow tips are used for some specific purpose and + do not fit into the above categories. + \begin{arrowexamples} + \arrowexample Rays[] + \arrowexample Rays[n=8] + \end{arrowexamples} +\end{itemize} + +\subsubsection{Barbed Arrow Tips} + +\begin{arrowtip}{Arc Barb} + { + This arrow tip attaches an arc to the end of the line whose angle + is given by the |arc| option. The + |length| and |width| parameters refer to the size of the arrow tip + for |arc| set to 180 degrees, which is why in the example for + |arc=210| the actual length is larger than the specified + |length|. The line width is taken into account + for the computation of the length and width. Use the |round| + option to add round caps to the end of the arcs. + } + {length=1.5cm,arc=210} + {length=1.5cm,width=3cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[arc=120] + \arrowexample[arc=270] + \arrowexample[length=2pt] + \arrowexample[length=2pt,width=5pt] + \arrowexample[line width=2pt] + \arrowexample[reversed] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + + +\begin{arrowtipsimple}{Bar} + A simple bar. This is a simple instance of |Tee Barb| for length zero. +\end{arrowtipsimple} + +\begin{arrowtip}{Bracket} + { + This is an instance of the |Tee Barb| arrow tip that results in + something resembling a bracket. Just like the |Parenthesis| arrow + tip, a |Bracket| is not modelled from a text square bracket, but + rather its size has been chosen so that it fits with the other + arrow tips. + } + {} + {} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[reversed] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + +\begin{arrowtip}{Hooks} + { + This arrow tip attaches two ``hooks'' to the end of the line. The + |length| and |width| parameters refer to the size of the arrow tip + if both arcs are 180 degrees; in the example the arc is 210 + degrees and, thus, the arrow is actually longer that the |length| + dictates. The line width is taken into account for the computation + of the length and width. The |arc| option is used to specify the + angle of the arcs. Use the |round| option to add round caps to the + end of the arcs. + } + {length=1cm,width=3.5cm,arc=210} + {length=1cm,width=3.5cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[arc=120] + \arrowexample[arc=270] + \arrowexample[length=2pt] + \arrowexample[length=2pt,width=5pt] + \arrowexample[line width=2pt] + \arrowexample[reversed] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + + +\begin{arrowtip}{Parenthesis} + { + This arrow tip is an instantiation of the |Arc Barb| so that it + resembles a parenthesis. However, the idea is not to recreate a + ``real'' parenthesis as it is used in text, but rather a ``bow'' + at a size that harmonizes with the other arrow tips at their + default sizes. + } + {} + {} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[reversed] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + +\begin{arrowtip}{Straight Barb} + { + This is the ``archetypal'' arrow head, consisting of just two + straight lines. The |length| and |width| parameters refer to the + horizontal and vertical distances between the points on the path + making up the arrow tip. As can be seen, the line width of the + arrow tip's path is not taken into account. + The |angle| option is particularly useful to set + the opening angle at the tip of the arrow head. The |round| option + gives a ``softer'' or ``rounder'' version of the arrow tip. + } + {length=2cm,width=3cm} + {length=2cm/-4mm,width=3cm} + + \begin{arrowexamples} + \arrowexample[] +% \arrowexampledouble[] + \arrowexampledup[] + \arrowexampledupdot[] + \arrowexample[length=5pt] + \arrowexample[length=5pt,width=5pt] + \arrowexample[line width=2pt] + \arrowexample[reversed] + \arrowexample[angle=60:2pt 3] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + + +\begin{arrowtip}{Tee Barb} + { + This arrow tip attaches a little ``T'' on both sides of the + tip. The arrow |inset| dictates the distance from the back end to + the middle of the stem of the T. When the inset is equal to the + length, the arrow tip is drawn as a single line, not as three + lines (this is important for the ``round'' version since, then, + the corners get rounded). + } + {length=1.5cm,width=3cm,inset=1cm} + {length=1.5cm,width=3cm,inset=1cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[inset=0pt] + \arrowexample[inset'=0pt 1] + \arrowexample[line width=2pt] + \arrowexample[round] + \arrowexample[round,inset'=0pt 1] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + + + +\subsubsection{Mathematical Barbed Arrow Tips} + + +\begin{arrowtip}{Classical TikZ Rightarrow} + { + This arrow tip is the ``old'' or ``classical'' arrow tip that used + to be the standard in \tikzname\ in earlier versions. It was + modelled on an old version of the tip of \texttt{\string\rightarrow} + ($\rightarrow$) of the Computer Modern fonts. However, this ``old + version'' was really old, Donald + Knuth (the designer of both \TeX\ and of the Computer Modern + fonts) replaced the arrow tip of the mathematical fonts + in~1992. + } + {length=1cm,width=2cm} + {length=1cm,width=2cm} + The main problem with this arrow tip is that it is ``too small'' + at its natural size. I recommend using the new \texttt{Computer Modern + Rightarrow} arrow tip instead, which matches the current + $\to$. This new version is also the default used as |>| and as + |To|, now. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[length=3pt] + \arrowexample[sharp] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + +\begin{arrowtip}{Computer Modern Rightarrow} + { + For a line width of 0.4pt (the default), this arrow tip looks very + much like \texttt{\string\rightarrow} ($\to$) of the Computer Modern math + fonts. However, it is not a ``perfect'' match: the line caps and + joins of the ``real'' $\to$ are rounded differently from this + arrow tip; but it takes a keen eye to notice the difference. When + the |arrow.meta| library is loaded, this arrow tip becomes the + default of |To| and, thus, is used whenever |>| is used (unless, + of course, you redefined |>|). + } + {length=1cm,width=2cm} + {length=1cm,width=2cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[length=3pt] + \arrowexample[sharp] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[harpoon,reversed] + \arrowexample[red] + \end{arrowexamples} + The following options have no effect: |open|, |fill|. + + On |double| lines, the arrow tip will not look correct. +\end{arrowtip} + + + +\begin{arrowtipsimple}{Implies} + This arrow tip makes only sense in conjunction with the |double| + option. The idea is that you attach it to a double line to get + something that looks like \TeX's \texttt{\string\implies} arrow + ($\implies$). A typical use of this arrow tip is +\begin{codeexample}[] +\tikz \graph [clockwise=3, math nodes, + edges = {double equal sign distance, -Implies}] { + "\alpha", "\beta", "\gamma"; + "\alpha" -> "\beta" -> "\gamma" -> "\alpha" +}; +\end{codeexample} + \begin{arrowexamples} + \arrowexampledouble[] + \arrowexampledouble[red] + \end{arrowexamples} +\end{arrowtipsimple} + +\begin{arrowtipsimple}{To} + This is a shorthand for |Computer Modern Rightarrow| when the + |arrow.meta| library is loaded. Otherwise, it is a shorthand for the + classical \tikzname\ rightarrow. +\end{arrowtipsimple} + + + + +\subsubsection{Geometric Arrow Tips} + + + +\begin{arrowtip}{Circle} + { + Although this tip is called ``circle,'' you can also use it to + draw ellipses if you set the length and width to different + values. Neither |round| nor |reversed| has any effect on this + arrow tip. + } + {length=2cm,width=2cm} + {length=2cm,width=2cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=3pt] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} + +\begin{arrowtipsimple}{Diamond} + This is an instance of |Kite| where the length is larger than the + width. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[] + \arrowexampledupdot[] + \arrowexample[open] + \arrowexample[length=10pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \arrowexample[fill=red!50] + \end{arrowexamples} +\end{arrowtipsimple} + +\begin{arrowtipsimple}{Ellipse} + This is a shorthand for a ``circle'' that is twice as wide as high. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=10pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \arrowexample[fill=red!50] + \end{arrowexamples} +\end{arrowtipsimple} + + +\begin{arrowtip}{Kite} + { + This arrow tip consists of four lines that form a ``kite.'' The + |inset| prescribed how far the width-axis of the kite is removed + from the back end. Note that the inset cannot be negative, use a + |Stealth| arrow tip for this. + } + {length=3cm,width=2cm,inset=1cm} + {length=3cm,width=2cm,inset=1cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=6pt,width=4pt] + \arrowexample[length=6pt,width=4pt,inset=1.5pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} + + +\begin{arrowtip}{Latex} + { + This arrow tip is the same as the arrow tip used in \LaTeX's + standard pictures (via the \texttt{\string\vec} command), if you + set the length to 4pt. The default size for this arrow tip was set + slightly larger so that it fits better with the other geometric + arrow tips. + } + {length=3cm,width=2cm} + {length=3cm,width=2cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=4pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} + +\begin{arrowtipsimple}{LaTeX} + Another spelling for the |Latex| arrow tip. +\end{arrowtipsimple} + + + +\begin{arrowtip}{Rectangle} + { + A rectangular arrow tip. By default, it is twice as long as high. + } + {length=3cm,width=2cm} + {length=3cm,width=2cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=4pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} + + +\begin{arrowtipsimple}{Square} + An instance of the |Rectangle| whose width is identical to the length. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=4pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtipsimple} + + + +\begin{arrowtip}{Stealth} + { + This arrow tip is similar to a |Kite|, only the |inset| now counts + ``inwards.'' Because of that sharp angles, for this arrow tip is + makes quite a difference, visually, if use the |round| + option. Also, using the |harpoon| option (or |left| or |right|) + will \emph{lengthen} the arrow tip because of the even sharper + corner at the tip. + } + {length=3cm,width=2cm,inset=1cm} + {length=3cm,width=2cm,inset=1cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=6pt,width=4pt] + \arrowexample[length=6pt,width=4pt,inset=1.5pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} + + +\begin{arrowtipsimple}{Triangle} + An instance of a |Kite| with zero inset. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=4pt] + \arrowexample[angle=45:1pt 3] + \arrowexample[angle=60:1pt 3] + \arrowexample[angle=90:1pt 3] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtipsimple} + +\begin{arrowtipsimple}{Turned Square} + An instance of a |Kite| with identical width and height and mid-inset. + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[open] + \arrowexample[length=4pt] + \arrowexample[round] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtipsimple} + + + +\subsubsection{Caps} + +Recall that a \emph{cap} is a way of ending a line. The graphic +languages underlying \tikzname\ (\textsc{pdf}, \textsc{postscript} or +\textsc{svg}) all support three basic types of line caps on a very low +level: round, rectangular, and ``butt.'' Using cap arrow tips, you can +add new caps to lines and use different caps for the end and the +start. + + +\begin{arrowtipsimple}{Butt Cap} + This arrow tip ends the line ``in the normal way'' with a straight + end. This arrow tip is only need to ``cover up'' the actual line + cap, if this happens to differ from the normal cap. In the following + example, the line cap is ``round'', but, nevertheless, the right end + is a ``butt'' cap: + +\begin{codeexample}[] +\tikz \draw [line width=1ex, line cap=round, -Butt Cap] (0,0) -- (1,0); +\end{codeexample} +\end{arrowtipsimple} + + +\begin{arrowcap}{Fast Round} + { + This arrow tip is not really a cap, you use it in conjunction with + (typically) the |Round Cap|. The idea is that you end your line + using the round cap and then add several \texttt{Fast + Round}s. As for |Round Cap|, the |length| parameter + dictates the length is the length of the ``main part,'' the + inset sets the length of a line that comes before this tip. + } + {length=5mm,inset=1cm} + {length=5mm,inset=-1cm} + {-15mm} + +\begin{codeexample}[] +\tikz \draw [line width=1ex, + -{Round Cap []. Fast Round[] Fast Round[]}] + (0,0) -- (1,0); +\end{codeexample} + Note that in conjunction with the |bend| option, this works even + quite well for curves: +\begin{codeexample}[] +\tikz [f/.tip = Fast Round] % shorthand + \draw [line width=1ex, -{[bend] Round Cap[] . f f f}] + (0,0) to [bend left] (1,0); +\end{codeexample} + + \begin{arrowcapexamples} + \arrowcapexample[] + \arrowcapexample[reversed] + \arrowcapexample[cap angle=60] + \arrowcapexample[cap angle=60,inset=5pt] + \arrowcapexample[length=.5ex] + \arrowcapexample[slant=.3] + \end{arrowcapexamples} +\end{arrowcap} + + +\begin{arrowcap}{Fast Triangle} + { + This arrow tip works like |Fast Round|, only for triangular caps. + } + {length=5mm,inset=1cm} + {length=5mm,inset=-1cm} + {-15mm} + +\begin{codeexample}[] +\tikz \draw [line width=1ex, + -{Triangle Cap []. Fast Triangle[] Fast Triangle[]}] + (0,0) -- (1,0); +\end{codeexample} + Again, this tip works well for curves: +\begin{codeexample}[] +\tikz [f/.tip = Fast Triangle] % shorthand + \draw [line width=1ex, -{[bend] Triangle Cap[] . f f f}] + (0,0) to [bend left] (1,0); +\end{codeexample} + + \begin{arrowcapexamples} + \arrowcapexample[] + \arrowcapexample[reversed] + \arrowcapexample[cap angle=60] + \arrowcapexample[cap angle=60,inset=5pt] + \arrowcapexample[length=.5ex] + \arrowcapexample[slant=.3] + \end{arrowcapexamples} +\end{arrowcap} + + + +\begin{arrowcap}{Round Cap} + { + This arrow tip ends the line using a half circle or, if the length + has been modified, a half-ellipse. + } + {length=5mm} + {length=5mm} + {-5mm} + \begin{arrowcapexamples} + \arrowcapexample[] + \arrowcapexample[reversed] + \arrowcapexample[length=.5ex] + \arrowcapexample[slant=.3] + \end{arrowcapexamples} +\end{arrowcap} + + + +\begin{arrowcap}{Triangle Cap} + { + This arrow tip ends the line using a triangle whose length is + given by the |length| option. + } + {length=5mm} + {length=5mm} + {-5mm} + + You can get any angle you want at the tip by specifying a length + that is an appropriate multiple of the line width. The following + options does this computation for you: + \begin{key}{/pgf/arrow keys/cap angle=\meta{angle}} + Sets |length| to an appropriate multiple of the line width so that + the angle of a |Triangle Cap| is exactly \meta{angle} at the tip. + \end{key} + + \begin{arrowcapexamples} + \arrowcapexample[] + \arrowcapexample[reversed] + \arrowcapexample[cap angle=60] + \arrowcapexample[cap angle=60,reversed] + \arrowcapexample[length=.5ex] + \arrowcapexample[slant=.3] + \end{arrowcapexamples} +\end{arrowcap} + + +\subsubsection{Special Arrow Tips} + +\begin{arrowtip}{Rays} + { + This arrow tip attaches a ``bundle of rays'' to the tip. The + number of evenly spaced rays is given by the |n| arrow key (see + below). When the number is even, the rays will lie to the left and + to the right of the direction of the arrow; when the number is + odd, the rays are rotated in such a way that one of them points + perpendicular to the direction of the arrow (this is to ensure + that no ray points in the direction of the line, which would look + strange). The |length| and |width| describe the length and width + of an ellipse into which the rays fit. + } + {length=3cm,width=3cm,n=6} + {length=3cm,width=3cm} + + \begin{arrowexamples} + \arrowexample[] + \arrowexampledup[sep] + \arrowexampledupdot[sep] + \arrowexample[width'=0pt 2] + \arrowexample[round] + \arrowexample[n=2] + \arrowexample[n=3] + \arrowexample[n=4] + \arrowexample[n=5] + \arrowexample[n=6] + \arrowexample[n=7] + \arrowexample[n=8] + \arrowexample[n=9] + \arrowexample[slant=.3] + \arrowexample[left] + \arrowexample[right] + \arrowexample[left,n=5] + \arrowexample[right,n=5] + \arrowexample[red] + \end{arrowexamples} +\end{arrowtip} +\begin{key}{/pgf/arrow keys/n=\meta{number} (initially 4)} + Sets the number of rays in a |Rays| arrow tip. +\end{key} + + +\endinput + + |