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|
% Copyright 2011, 2012, 2014 by Florêncio Neves
%
% This program is free software: you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation, either version 3 of the License, or
% (at your option) any later version.
%
% This program is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details.
%
% You should have received a copy of the GNU General Public License
% along with this program. If not, see <http://www.gnu.org/licenses/>.
%
% ------------------------------------------------------------------------
%
% This document requires the file pgfmanual-en-macros.tex (distributed
% with pgf) to compile. To get cross-references to the pgf manual,
% compile it and copy all resulting .aux files to the directory of
% tikz-cd-doc.tex.
\def\pgfautoxrefs{1}
\documentclass[a4paper]{ltxdoc}
\def\xcolorversion{2.00}
\usepackage[version=latest]{pgf}
\usepackage{xkeyval,calc,listings,tikz,fp}
\usepackage{hyperref}
\hypersetup{%
colorlinks=true, % use true to enable colors below:
linkcolor=blue,%red,
filecolor=blue,%magenta,
pagecolor=blue,%red,
urlcolor=blue,%cyan,
citecolor=blue,
pdfborder=0 0 0,
}
% We need lots of libraries...
\usetikzlibrary{
arrows,
arrows.meta,
calc,
fit,
patterns,
plotmarks,
shapes.geometric,
shapes.misc,
shapes.symbols,
shapes.arrows,
shapes.callouts,
shapes.multipart,
shapes.gates.logic.US,
shapes.gates.logic.IEC,
circuits.logic.US,
circuits.logic.IEC,
circuits.logic.CDH,
circuits.ee.IEC,
datavisualization,
datavisualization.formats.functions,
er,
automata,
backgrounds,
chains,
topaths,
trees,
petri,
mindmap,
matrix,
calendar,
folding,
fadings,
shadings,
spy,
through,
turtle,
positioning,
scopes,
decorations.fractals,
decorations.shapes,
decorations.text,
decorations.pathmorphing,
decorations.pathreplacing,
decorations.footprints,
decorations.markings,
shadows,
lindenmayersystems,
intersections,
fixedpointarithmetic,
fpu,
svg.path,
external,
}
\usepackage[a4paper,left=2.25cm,right=2.25cm,top=2.5cm,bottom=2.5cm,nohead]{geometry}
\usepackage{amsmath,amssymb}
\usepackage{xxcolor}
\usepackage{pifont}
\usepackage{makeidx}
\usepackage{amsmath}
\graphicspath{{../../images/}} % TODOsp: under windows this would go up 2 directories, but the file is only one directory up
\input{pgfmanual-en-macros} % TODOsp: same here
\makeindex
\makeatletter
\renewcommand*\l@subsection{\@dottedtocline{2}{1.5em}{2.8em}}
\renewcommand*\l@subsubsection{\@dottedtocline{3}{4.3em}{3.2em}}
\makeatother
% Global styles:
\tikzset{
every plot/.style={prefix=plots/pgf-},
shape example/.style={
color=black!30,
draw,
fill=yellow!30,
line width=.5cm,
inner xsep=2.5cm,
inner ysep=0.5cm}
}
\usepackage{iftex,tikz-cd,xr}
\ifLuaTeX
\usepackage{fontspec}
\else
\usepackage[utf8]{inputenc}
\fi
\hypersetup{unicode,
pdftitle={The tikz-cd package},
pdfauthor={Florêncio Neves},
pdfkeywords={commutative diagrams, latex, tikz, pgf},
}
\externaldocument[pgfman-]{pgfmanual}
\pgfkeys{
/pdflinks/search key prefixes in=
{/tikz/commutative diagrams/},%,/tikz/,/pgf/} % This really needs to be commented out!
/pdflinks/internal link prefix=tikzcd,
%
/pdflinks/warnings=false,
% for debugging:
/pdflinks/show labels=false,
}
\title{The \texttt{tikz-cd} package}
\author{Florêncio Neves}
\date{Version 0.9, of February 28, 2014}
\tikzset{/codeexample/every codeexample/.append style={/tikz/commutative diagrams/background color=graphicbackground}}
\pgfarrowsdeclare{gray x}{gray x}
{
\pgfarrowsrightextend{4\pgflinewidth}
}
{
\pgfsetdash{}{0pt}
\pgfsetlinewidth{0.8\pgflinewidth}
\pgfsetstrokecolor{gray}
\pgfpathmoveto{\pgfpoint{5\pgflinewidth}{5\pgflinewidth}}
\pgfpathlineto{\pgfpoint{-5\pgflinewidth}{-5\pgflinewidth}}
\pgfusepathqstroke
\pgfpathmoveto{\pgfpoint{-5\pgflinewidth}{5\pgflinewidth}}
\pgfpathlineto{\pgfpoint{5\pgflinewidth}{-5\pgflinewidth}}
\pgfusepathqstroke
}
\newcommand{\displayarrow}[2][]{%
\index{#2@\protect\texttt{#2} arrow tip}%
\index{Arrow tips!#2@\protect\texttt{#2}}%
\texttt{#2} & yields \tikz[baseline=-axis_height] \draw[{#2}-{#2}, line width=rule_thickness, #1] (0,0) -- (1,0);}
\newcommand{\displayarrowstyle}[1]{
\def\mykey{/tikz/commutative diagrams/#1}%
\def\mypath{}%
\def\myname{}%
\firsttimetrue%
%\pgfmanualdecomposecount=0\relax%
\decompose/tikz/commutative diagrams/#1/\nil%
\texttt{#1} & yields
\tikz[baseline=-axis_height, line width=rule_thickness] \draw[arrows=gray
x-gray x,commutative diagrams/.cd, #1] (0,0) -- (0.6,0);}
\usepackage{multicol,microtype,ellipsis}
\begin{document}
\maketitle
The general-purpose drawing package Ti\emph{k}Z can be used to typeset
commutative diagrams and other kinds of mathematical pictures,
generating high-quality results. The present package facilitates the
creation of such diagrams by providing a convenient set of macros and
reasonable default settings. Familiarity with Ti\emph{k}Z is helpful
but not necessary, since the examples contained here cover the most
common situations.
This software is distributed under the GNU General Public License,
version 3 or later.
\tableofcontents
\setcounter{section}{-1}
\section{Disclaimer}
\label{sec:disclaimer}
Before version 1.0 of this package is released, minor modifications and
bug fixes may be performed. All documents making an orthodox use of
this package will continue to compile and generate essentially the
same output. However, if you have strict stability requirements (for
instance, if you want to assure no page break changes will happen in
your documents), keep a copy of the current version of the file
\texttt{tikzlibrarycd.code.tex} in your document's directory.
\section{Getting started}
\label{sec:basic-usage}
To invoke this package in \LaTeX, type
\begin{quote}
\index{tikz-cd@\protect\texttt{tikz-cd} package}%
\index{Packages and files!tikz-cd@\protect\texttt{tikz-cd}}%
{{\ttfamily\char`\\usepackage\char`\{\declare{tikz-cd}\char`\}}}
\end{quote}
or load \tikzname{} and then type
\begin{quote}%
\index{cd@\protect\texttt{cd} library}%
\index{Libraries!cd@\protect\texttt{cd}}%
{{\ttfamily\char`\\usetikzlibrary\char`\{\declare{cd}\char`\}}}\pgfmanualpdflabel{cd}{}%
\end{quote}
\subsection{Creating a diagram}
\label{sec:creating-diagrams}
The basic tool to create a commutative diagram is the following
environment.
\begin{environment}{{tikzcd}\opt{\oarg{options}}}
\end{environment}
The environment contents should describe a matrix, as in \LaTeX's
familiar |{tabular}| environment. The optional argument
\meta{options} may be used to modify the appearance of the diagram.
Any of the customization keys described in this manual, as well as
those originally provided by \tikzname{}, can be used here. Arrows
between matrix entries can be created with the |\arrow| command
described below.
Everything inside |{tikzcd}| is typeset in math mode, but you will
probably want use it inside an |{equation}| environment or |\[| \dots\
|\]|, so that the diagram is placed on a new line and centered.
It is important to note that \textsc{dvi} viewers will not display
diagrams correctly. It is necessary to convert the \textsc{dvi} file
to the \textsc{pdf} or \textsc{ps} format---or, even better, use
\texttt{pdflatex} to obtain a \textsc{pdf} file directly.
\subsection{Inserting arrows}
\label{sec:inserting-arrows}
Inside the |{tikzcd}| environment, the following synonymous commands
are provided to produce arrows.
\begin{pgfmanualentry}
\extractcommand\arrow|[|\meta{options}|]|\@@
\extractcommand\ar|[|\meta{options}|]|\@@
\pgfmanualbody
\end{pgfmanualentry}
Here, \meta{options} is a comma-separated list of options which can be
used to specify the arrow target, add labels, change arrow tips, and
perform additional modifications.
The arrow target is determined by a direction parameter, which
consists of a string of characters |r|, |l|, |d|, |u| (standing for
right, left, down and up). Labels can be placed on an arrow by means
of the quotes syntax, described in detail in the \pgfname{} manual
\cite[\S\ref*{pgfman-section-label-quotes}]{pgfman}. Notice the use of
|"\phi"| in the example below.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[rd] \arrow[r, "\phi"] & B \\
& C
\end{tikzcd}
\end{codeexample}
To further modify the appearance of an arrow, note that \meta{options}
may contain any key that can be passed to \tikzname's |\path| command.
Similarly, a label can receive additional options via the syntax
\begin{quote}
|"|\meta{label text}|"|\opt{\meta{label options}}.
\end{quote}
Both \meta{label text} and \meta{label options} need to be enclosed in
curly braces if they contain commas.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, "\phi"] \arrow[d, red]
& B \arrow[d, "\psi" red] \\
C \arrow[r, red, "\eta" blue]
& D
\end{tikzcd}
\end{codeexample}
Arrows can have an arbitrary number of labels, by repeated use of
arguments in quotes. The example below shows how to control the
positioning of labels. Notice in particular that an apostrophe as
\meta{label option} causes the label to be placed on the opposite side
of the arrow.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, "\phi" near start, "\psi"', "\eta" near end] & B
\end{tikzcd}
\end{codeexample}
We provide one more example, reproduced from the
X\raisebox{-0.3ex}{Y}-pic user's guide.
\begin{codeexample}[]
\begin{tikzcd}
T
\arrow[drr, bend left, "x"]
\arrow[ddr, bend right, "y"]
\arrow[dr, dotted, "{(x,y)}" description] & & \\
& X \times_Z Y \arrow[r, "p"] \arrow[d, "q"]
& X \arrow[d, "f"] \\
& Y \arrow[r, "g"]
& Z
\end{tikzcd}
\end{codeexample}
\subsection{Changing arrow tips}
\label{sec:changing-arrow-tips}
A set of |\arrow| options is provided to create different kinds of
arrows. Some of these options have a short descriptive name, such as
|hook|, and others are named after \TeX{} arrow-producing commands
(without a ``|\|''), like |dashrightarrow|.%|
\begin{codeexample}[]
\begin{tikzcd}
X \arrow[r, hook] \arrow[dr, dashrightarrow]
& \bar{X} \arrow[d]\\
& Y
\end{tikzcd}
\end{codeexample}
The following list shows all available arrow types (each of them is a
style key located in |/tikz/commutative diagrams|).
\begin{multicols}{2}\raggedcolumns
\subsubsection*{Basic arrows}
\begin{tabular}{ll}
\displayarrowstyle{to head}\\
\displayarrowstyle{rightarrow}\\
\displayarrowstyle{leftarrow}\\
\displayarrowstyle{leftrightarrow}\\
\displayarrowstyle{Rightarrow}\\
\displayarrowstyle{Leftarrow}\\
\displayarrowstyle{Leftrightarrow}
\end{tabular}
\subsubsection*{Arrows from bar}
\begin{tabular}{ll}
\displayarrowstyle{maps to}\\
\displayarrowstyle{mapsto}\\
\displayarrowstyle{mapsfrom}\\
\end{tabular}
\subsubsection*{Arrows with hook}
\begin{tabular}{ll}
\displayarrowstyle{hook}\\
\displayarrowstyle{hook'}\\
\displayarrowstyle{hookrightarrow}\\
\displayarrowstyle{hookleftarrow}\\
\end{tabular}
\subsubsection*{Arrows with tail}
\begin{tabular}{ll}
\displayarrowstyle{tail}\\
\displayarrowstyle{rightarrowtail}\\
\displayarrowstyle{leftarrowtail}\\
\end{tabular}
\subsubsection*{Two-headed arrows}
\begin{tabular}{ll}
\displayarrowstyle{two heads}\\
\displayarrowstyle{twoheadrightarrow}\\
\displayarrowstyle{twoheadleftarrow}\\
\end{tabular}
\subsubsection*{Harpoons}
\begin{tabular}{ll}
\displayarrowstyle{harpoon}\\
\displayarrowstyle{harpoon'}\\
\displayarrowstyle{rightharpoonup}\\
\displayarrowstyle{rightharpoondown}\\
\displayarrowstyle{leftharpoonup}\\
\displayarrowstyle{leftharpoondown}\\
\end{tabular}
\subsubsection*{Dashed arrows}
\begin{tabular}{ll}
\displayarrowstyle{dashed}\\
\displayarrowstyle{dashrightarrow}\\
\displayarrowstyle{dashleftarrow}\\
\end{tabular}
\subsubsection*{Squiggly arrows}
\begin{tabular}{ll}
\displayarrowstyle{squiggly}\\
\displayarrowstyle{rightsquigarrow}\\
\displayarrowstyle{leftsquigarrow}\\
\displayarrowstyle{leftrightsquigarrow}
\end{tabular}
\subsubsection*{Non-arrows}
\begin{tabular}{ll}
\displayarrowstyle{no head}\\
\displayarrowstyle{no tail}\\
\displayarrowstyle{dash}\\
\displayarrowstyle{equal}\\
\end{tabular}
\end{multicols}
A gray cross
(\begin{tikzpicture}[baseline=0pt, yshift=axis_height]
\pgfsetdash{}{0pt} \pgfsetlinewidth{0.8\pgflinewidth}
\pgfsetstrokecolor{gray}
\pgfpathmoveto{\pgfpoint{5\pgflinewidth}{5\pgflinewidth}}
\pgfpathlineto{\pgfpoint{-5\pgflinewidth}{-5\pgflinewidth}}
\pgfusepathqstroke
\pgfpathmoveto{\pgfpoint{-5\pgflinewidth}{5\pgflinewidth}}
\pgfpathlineto{\pgfpoint{5\pgflinewidth}{-5\pgflinewidth}}
\pgfusepathqstroke
\end{tikzpicture}) in the samples above indicates that the corresponding tip
is kept unchanged. This allows several arrow styles to be superimposed.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, tail, two heads, dashed] & B
\end{tikzcd}
\end{codeexample}
% It is also possible to select arrow tips using \tikzname{}'s |arrow|
% option directly (e.g., by saying |right hook->|). However, the method
% described here above is more appropriate, as it abstracts the choice
% of an actual arrow tip design (see also the |arrow style| key below),
% and is arguably better from the mnemonic standpoint.
\subsection{Alternative syntax for arrows}
\label{sec:altern-synt-arrows}
The following forms of the arrow command were used before the
appearance of the quotes syntax for labels, and now may seem somewhat
convoluted. They are nonetheless still available for backwards
compatibility.
\begin{command}{\arrow\opt{\oarg{options}}\marg{direction}\meta{labels}}
\end{command}
Here, \meta{direction} is a string containing the characters |r|, |l|,
|d|, |u| determining the arrow target, and \meta{labels} can be the
empty string or of the form
\begin{quote}
\opt{\oarg{label options}}\marg{label text}\meta{more labels}.
\end{quote}
The equivalent command |\ar| can also be used in this form. Here is
an example.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow{d} \arrow{r}[near start]{\phi}[near end]{\psi}
& B \arrow[red]{d}{\xi} \\
C \arrow[red]{r}[blue]{\eta}
& D
\end{tikzcd}
\end{codeexample}
There are further shortened forms:
\begin{pgfmanualentry}
\extractcommand\rar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\lar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\dar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\uar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\drar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\urar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\dlar\opt{\oarg{options}}\meta{labels}\@@
\extractcommand\ular\opt{\oarg{options}}\meta{labels}\@@
\pgfmanualbody
\end{pgfmanualentry}
The first one is equivalent to
\begin{quote}
|\arrow|{\oarg{options}}|{r}|\meta{labels}
\end{quote}
and the other ones work analogously.
\subsection{Usage in plain \TeX{}}
\label{sec:usage-plain-tex}
To use this software in plain \TeX{}, load \tikzname{} and the
\texttt{cd} library by saying
\begin{quote}
\ttfamily\char`\\input \declare{tikz}.tex\\
\index{cd@\protect\texttt{cd} library}%
\index{Libraries!cd@\protect\texttt{cd}}%
\ttfamily\char`\\usetikzlibrary\char`\{\declare{cd}\char`\}
\end{quote}
The |{tikzcd}| environment should then be replaced by the following:
\begin{plainenvironment}{{tikzcd}\opt{\oarg{options}}}
\end{plainenvironment}
All other functions of this library work as described in this manual
without change.
\subsection{Usage in Con\TeX t}
\label{sec:usage-plain-context}
To use this software in Con\TeX t, load \tikzname{} and then the
\texttt{cd} library by saying
\begin{quote}
\ttfamily\char`\\usemodule[\declare{tikz}]\\
\index{cd@\protect\texttt{cd} library}%
\index{Libraries!cd@\protect\texttt{cd}}%
\ttfamily\char`\\usetikzlibrary[\declare{cd}]
\end{quote}
The |{tikzcd}| environment should then be replaced by the following:
\begin{contextenvironment}{{tikzcd}\opt{\oarg{options}}}
\end{contextenvironment}
All other functions of this library work as described in this manual
without change.
\section{Controlling the appearance of diagrams}
\label{sec:chang-appe-diagr}
This section describes a number of customization keys defined by this
package. All keys are located in the path |/tikz/commutative diagrams|.
Options passed to |{tikzcd}| or |\arrow| are searched for
in that path, and, if not found there, in |/tikz|. To set options
globally, it is convenient to use the following command.
\begin{command}{\tikzcdset\marg{options}}
Executes \meta{options} in the path |/tikz/commutative diagrams|.
\end{command}
Besides the keys described in this manual, numerous \tikzname\
parameters can affect the appearance of a diagram. However, only a
few of them (namely those appearing in |every diagram|, |every cell|,
|every arrow|, and |every label| below) are reinitialized when
|{tikzcd}| is called. This means that modifying a certain \tikzname\
parameter globally may or may not affect the output of |{tikzcd}|.
We also point out that besides the options and styles provided by this
package, several keys defined by \tikzname{} are useful for arrows.
Some examples are \texttt{dashed}, |dotted|, and its relatives,
|line width=|\meta{dimension}, |color=|\meta{color}, |bend right|, |bend left|,
|in=|\meta{angle}, |out=|\meta{angle}, |loop|, etc. See the
\pgfname{} manual~\cite[\S\ref*{pgfman-section-cap-joins} and
\S\ref*{pgfman-library-to-paths}]{pgfman}. Likewise, \tikzname{}
provides several keys that are useful for labels, such as |above|,
|below|, |left|, |right|, |swap| (which makes the label be placed on
the right side of the arrow, relative to its direction), |sloped|,
|pos=|\meta{fraction}, |near start|, |near end|, |inner sep=|\meta{dimension},
|font=|\meta{font command}, |text width=|\meta{dimension}, etc. See the \pgfname{}
manual~\cite[\S\ref*{pgfman-section-nodes}, esp.\
\S\ref*{pgfman-section-pos-option}]{pgfman}.
\subsection{General options}
\label{sec:general-options}
\begin{stylekey}{/tikz/commutative diagrams/every diagram}
This style is applied to every |{tikzcd}| environment. Initially, it
contains the following:
\begin{quote}
|row sep=normal||,|\\
|column sep=normal||,|\\
|/tikz/baseline=0pt|
\end{quote}
\end{stylekey}
The |baseline=0pt| setting is used to make equation numbers be placed
correctly (as an exception, one-row diagrams are anchored at their
matrix base, which is exactly what you want).
\begin{key}{/tikz/commutative diagrams/diagrams=\meta{options}}
This key appends \meta{options} to the style |every diagram|.
\end{key}
\begin{stylekey}{/tikz/commutative diagrams/every matrix}
This style is applied to the \tikzname{} matrix created internally
by |{tikzcd}|. Initially, it contains the following:
\begin{quote}
|/tikz/inner sep=0pt|
\end{quote}
\end{stylekey}
\begin{stylekey}{/tikz/commutative diagrams/every cell}
This style is applied to every \tikzname{} matrix cell created by
|{tikzcd}|. Initially, it contains the following:
\begin{quote}
|/tikz/shape=asymmetrical rectangle||,|\\
|/tikz/inner xsep=1ex||,|\\
|/tikz/inner ysep=0.85ex|
\end{quote}
\end{stylekey}
The |asymmetrical rectangle| shape is described in
\S\ref{sec:asymm-rect-shape}. The |inner xsep|, |inner ysep| options
determine the spacing between a diagram entry and any arrows reaching
it.
\begin{key}{/tikz/commutative diagrams/cells=\meta{options}}
This key appends \meta{options} to the style |every cell|.
\end{key}
\def\printsepaux+#1em{#1\,em}
\def\printsep#1#2{\edef\temp{\pgfkeysvalueof{/tikz/commutative diagrams/#1 sep/#2}}\expandafter\printsepaux\temp}
\begin{key}{/tikz/commutative diagrams/row sep=\meta{size}}
This key acts as a ``frontend'' to \tikzname's |/tikz/row sep| key. If
the key
\begin{quote}
|/tikz/commutative diagrams/row sep/|\meta{size}
\end{quote}
stores a
\meta{value}, then it is read and |/tikz/row sep|=\meta{value} is
set. If the key above is not initialized, then \meta{size} is
presumably a dimension, and |/tikz/row sep|=\meta{size} is set.
The initially available sizes, and their values, are
the following:
\begin{center}
\begin{tabular}{cccccc}
|tiny| & |small| & |scriptsize| & |normal| & |large| & |huge| \\
\printsep{row}{tiny} & \printsep{row}{small} & \printsep{row}{scriptsize} & \printsep{row}{normal} & \printsep{row}{large} & \printsep{row}{huge}
\end{tabular}
\end{center}
\end{key}
Notice that setting, say, |row sep=1cm| globally with |\tikzcdset| will
have no effect, since the |row sep| option is re-set at the beginning
of each diagram. To make all diagrams have |row sep| equal to 1\,cm,
you can modify the meaning of |normal| by saying
\begin{quote}
|\tikzcdset{row sep/normal=1cm}|.
\end{quote}
You can also create new sizes, but note that \pgfname\ requires new keys to be
initialized explicitly. For example, to create a size |my size|,
meaning 1\,ex, you should use
\begin{quote}
|\tikzcdset{row sep/my size/.initial=1ex}|.
\end{quote}
\begin{key}{/tikz/commutative diagrams/column sep=\meta{size}}
This works analogously to the |row sep| key above. The sizes available
initially are the following:
\begin{center}
\begin{tabular}{cccccc}
|tiny| & |small| & |scriptsize| & |normal| & |large| & |huge| \\
\printsep{column}{tiny} & \printsep{column}{small} & \printsep{column}{scriptsize} & \printsep{column}{normal} & \printsep{column}{large} & \printsep{column}{huge}
\end{tabular}
\end{center}
\end{key}
In the examples below, the triangular diagrams would look too wide or
too tall if the column or row separation were not set appropriately.
\begin{codeexample}[]
\begin{tikzcd}[column sep=small]
& A \arrow[dl] \arrow[dr] & \\
B \arrow{rr} & & C
\end{tikzcd}
\end{codeexample}
\begin{codeexample}[]
\begin{tikzcd}[row sep=tiny]
& B \arrow[dd] \\
A \arrow[ur] \arrow[dr] & \\
& C
\end{tikzcd}
\end{codeexample}
Section \ref*{pgfman-section-matrices}.3.2 of the \pgfname{} manual
\cite{pgfman} contains further details on the spacing of matrix cells.
\begin{key}{/tikz/commutative diagrams/math mode=\meta{boolean}
(default true)}
This keys determines whether or not the contents of a diagram are
typeset in math mode. If set globally or diagram-wise, it affects
both the diagram entries and arrow labels. If used with |\arrow|,
it affects only its labels.
\end{key}
\begin{key}{/tikz/commutative diagrams/background color=\meta{color} (initially white)}
This key stores the name of a color, and is read by
styles that fill the background, such as |description| and |crossing over|.
It does not cause the background of diagrams to be filled.
\end{key}
\subsection{Global options for arrows}
\label{sec:options-arrows}
\begin{stylekey}{/tikz/commutative diagrams/every arrow}
This style is applied to every |\arrow|. Initially, it contains the
following:
\begin{quote}
|/tikz/draw,|\\
|/tikz/line width=rule_thickness||,|\\
|rightarrow|
\end{quote}
\end{stylekey}
\begin{key}{/tikz/commutative diagrams/arrows=\meta{options}}
This key appends \meta{options} to the style |every arrow|.
\end{key}
\begin{key}{/tikz/commutative diagrams/arrow style=\meta{style} (initially Computer Modern)}
This key determines which collection of arrow tips is used by the
arrow tip selection styles listed in
\S\ref{sec:changing-arrow-tips}. Currently, \meta{style} can be one
of the following:
\begin{description}
\item[\texttt{Computer Modern}] This is the initial setting and is suitable
for documents using the Computer Modern font.
\item[\texttt{Latin Modern}] A small variant of the above, intended
for documents using the Latin Modern font.
\item[\texttt{math font}] This setting uses the |Glyph| meta arrow
tip described in \S\ref{sec:font-arrow-tips}.
\item[\texttt{arrows.meta}] This setting uses the arrow tips defined
in \tikzname's |arrows.meta| library (which has to be loaded
manually before setting this option). It honors the option
|/tikz/>|.
\item[\texttt{tikz}] This setting uses the arrow tips defined in
\tikzname's older \texttt{arrows} library (which has to be loaded
manually before setting this option). It honors the option
|/tikz/>|. Unless you have backwards compatibility requirements,
you should use the \texttt{arrows.meta} option and library
instead.
\end{description}
\end{key}
If you are using a font different from Computer Modern or Latin
Modern, you may find the best results by selecting the |math font|
style. As detailed in \S\ref{sec:font-arrow-tips}, this is not
guaranteed to work perfectly with all fonts, but gives good results in
many cases. If the \texttt{math font} style gives unsatisfactory
results, you can try selecting the \texttt{arrows.meta} style, and
setting |/tikz/>| to the value that best matches your font (among
those shown in \cite[\S\ref*{pgfman-section-arrows-meta}]{pgfman}).
\begin{codeexample}[]
\usetikzlibrary{arrows.meta}
\tikzcdset{
arrow style=arrows.meta,
diagrams={>={Straight Barb[scale=0.8]}}
}
\begin{tikzcd}
A \arrow[r, tail] \arrow[rd] & B \arrow[d, two heads]\\
& D
\end{tikzcd}
\end{codeexample}
\subsection{Absolute placement of arrows}
\label{sec:absol-positioning}
The usual behavior of |\arrow| is to produce an arrow starting at the
diagram entry where the command appears, and ending at an entry whose
location is specified relative to that. The following keys override
this behavior, allowing source and target to be selected explicitly.
\begin{key}{/tikz/commutative diagrams/from=\meta{node}}
Sets the arrow source to \meta{node}. When called with an argument
of the form \meta{row number}\texttt{-}\meta{column number}, sets
the arrow source to be the corresponding entry of the diagram's
matrix.
\end{key}
\begin{key}{/tikz/commutative diagrams/to=\meta{node}}
Similar to |from|, but refers to the arrow target.
\end{key}
Recall that it is possible to give a specific entry of a \tikzname{}
matrix a name by using the \verb!|[!\meta{options}\verb!]|! syntax, as
done for entry $C$ in the example below.
{\catcode`\|=12
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[to=c, red] \arrow[to=2-2, blue]
& B \\
|[alias=c]| C
& D
\arrow[from=1-1, to=1-2, purple]
\end{tikzcd}
\end{codeexample}
}
In the next examples, empty labels are used to create nodes for later
reference. The |draw=red| option is used to show where these empty
nodes are located, but of course you want to remove that when using
this technique.
\begin{codeexample}[]
\begin{tikzcd}[column sep=scriptsize]
A \arrow[dr] \arrow[rr, ""{name=U, below, draw=red}]{}
& & B \arrow[dl] \\
& C \arrow[Rightarrow, from=U, "\psi"]
\end{tikzcd}
\end{codeexample}
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, bend left=50, ""{name=U, below, draw=red}]
\arrow[r, bend right=50, ""{name=D, draw=red}]
& B
\arrow[Rightarrow, from=U, to=D]
\end{tikzcd}
\end{codeexample}
\subsection{Phantom arrows}
\label{sec:phantom-arrows}
Sometimes it is necessary to insert a symbol outside the grid
subjacent to the diagram. The easiest way to achieve this is as a
label to an invisible arrow.
\begin{stylekey}{/tikz/commutative diagrams/phantom}
Creates an invisible arrow. Labels to this arrow are not invisible.
They will be anchored at their center and typeset in full size
(i.e., with |\textstyle|). To get smaller labels, as in ordinary
arrows, use the |\scriptstyle| command.
\end{stylekey}
In the picture below, the arrow containing the |phantom| option goes from
$A$ to $D$, and the |\ulcorner| symbol ($\ulcorner$) is inserted
closer to the starting point $A$.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r] \arrow[d] \arrow[dr, phantom, "\ulcorner", very near start]
& B \arrow[d] \\
C \arrow[r]
& D
\end{tikzcd}
\end{codeexample}
\subsection{Fine-tuning the placement of arrows}
\label{sec:fine-tuning-arrows}
\begin{key}{/tikz/commutative diagrams/shift left=\meta{dimension}
(default 0.56ex)}
Shifts arrows by \meta{dimension} to the left, relative to the arrow
direction. A dimensionless argument causes that multiple of the
default value to be used.
\end{key}
\begin{key}{/tikz/commutative diagrams/shift right=\meta{dimension}
(default 1)}
A shortcut to |shift left=-|\meta{dimension}.
\end{key}
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, red, shift left=1.5ex] \arrow[r]
\arrow[dr, blue, shift right=1.5ex] \arrow[dr]
& B \arrow[d, purple, shift left=1.5ex] \arrow[d]\\
& C
\end{tikzcd}
\end{codeexample}
The default values of |shift left| and |shift right| are appropriate
for a pair of parallel arrows, and dimensionless arguments are useful
to create sets of multiple parallel arrows.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r]
& B \arrow[r, shift left]
\arrow[r, shift right]
& C \arrow[r]
\arrow[r, shift left=2]
\arrow[r, shift right=2]
& \cdots
\end{tikzcd}
\end{codeexample}
\begin{key}{/tikz/commutative diagrams/shift=\marg{coordinate}}
Shifts arrows by \meta{coordinate}.
\end{key}
\begin{key}{/tikz/commutative diagrams/xshift=\meta{dimension}}
Shifts arrows right by \meta{dimension}.
\end{key}
\begin{key}{/tikz/commutative diagrams/yshift=\meta{dimension}}
Shifts arrows up by \meta{dimension}.
\end{key}
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, yshift=0.7ex] \arrow[r, yshift=-0.7ex]
& B \arrow[d, xshift=0.7ex] \arrow[d, xshift=-0.7ex] \\
& C
\end{tikzcd}
\end{codeexample}
\begin{key}{/tikz/commutative diagrams/start anchor=\opt{{\ttfamily\char`\{}\ooarg{coordinate transformations}}\meta{anchor}\opt{\ttfamily\char`\}}}
This key specifies at which anchor of the source node the arrow
should start. Optionally, additional coordinate transformations can
be supplied. An empty \meta{anchor} argument causes no anchor to be
specified, which is the usual behavior.
\end{key}
\begin{key}{/tikz/commutative diagrams/end anchor=\opt{{\ttfamily\char`\{}\ooarg{coordinate transformations}}\meta{anchor}\opt{\ttfamily\char`\}}}
This key works analogously, but refers to the target node of the arrow.
\end{key}
See the picture on \S\ref{sec:asymm-rect-shape} for some of the
possible values for \meta{anchor}.
\begin{codeexample}[]
\begin{tikzcd}[cells={nodes={draw=gray}}]
A \arrow[r, black]
\arrow[r, blue, end anchor=north east]
\arrow[r,
red,
start anchor={[xshift=-1ex]},
end anchor={[yshift=2ex]north east}]
& B
\end{tikzcd}
\end{codeexample}
\subsection{Three-dimensional diagrams}
\label{sec:crossing-over}
\begin{stylekey}{/tikz/commutative diagrams/crossing over}
This style makes a thicker line, with color |background color|, to
be drawn under the current arrow, simulating the effect of its
passing over other arrows.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[dr] & B \arrow[dl, crossing over] \\
C & D
\end{tikzcd}
\end{codeexample}
\end{stylekey}
Note that, since arrows are drawn in the order they are read, some
arrows may need to run ``backwards'' to achieve the desired result.
%The option \texttt{on background layer}
%\cite[\S\ref*{pgfman-section-tikz-backgrounds}]{pgfman} may also
%be useful in this context.
The following picture illustrates this.
\begin{codeexample}[]
\begin{tikzcd}[row sep=scriptsize, column sep=scriptsize]
& f^* E_V \arrow[dl] \arrow[rr] \arrow[dd] & & E_V \arrow[dl] \arrow[dd] \\
f^* E \arrow[rr, crossing over] \arrow[dd] & & E \\
& U \arrow[dl] \arrow[rr] & & V \arrow[dl] \\
M \arrow[rr] & & N \arrow[uu, crossing over, leftarrow]\\
\end{tikzcd}
\end{codeexample}
\begin{key}{/tikz/commutative diagrams/crossing over clearance=\meta{dimension}
(initially 1.5ex)}
This key specifies the width of the background-colored line drawn
under a |crossing over| arrow.
\end{key}
\subsection{Options for labels}
\label{sec:options-labels}
\begin{stylekey}{/tikz/commutative diagrams/every label}
This style is applied to every label produced with |\arrow|. It is initially set
to
\begin{quote}
|/tikz/auto,|\\
|/tikz/font=|\meta{something}|,|\\
|/tikz/inner sep=0.5ex|
\end{quote}
where \meta{something} is something that makes |\scriptstyle| be
applied to labels in math mode.
\end{stylekey}
The key |/tikz/auto| makes the label be placed on the left side of the
arrow, relative to its direction. The key |/tikz/inner sep| controls
the distance between a label and the corresponding arrow.
\begin{key}{/tikz/commutative diagrams/labels=\meta{options}}
This key appends \meta{options} to |every label|.
\end{key}
\begin{stylekey}{/tikz/commutative diagrams/description}
This style causes the label to be placed over the arrow, with the
background filled. The clearance around the label is determined by
\texttt{/tikz/inner sep}.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r, "\phi" description] & B
\end{tikzcd}
\end{codeexample}
\end{stylekey}
\section{Advanced usage}
\label{sec:advanced-usage}
This section provides further details on the functioning of this
package, with the aim of allowing the advanced user to make a more or
less arbitrary use of other \tikzname{} features within |{tikzcd}|.
\subsection{Internals of \texttt{tikzcd} and the arrow commands}
\label{sec:intern-arrow-comm}
The |{tikzcd}| environment works by substituting code of the form
\begin{quote}
|\begin{tikzcd}[|\meta{options}|]|\\
\hspace*{1.5ex} \meta{contents}\\
|\end{tikzcd}|
\end{quote}
with roughly the following:
\begin{quote}
|\begin{tikzpicture} [|\meta{options}|]|\\
\hspace*{1.5ex}| \matrix [matrix of nodes] {|\\
\hspace*{3ex}| |\meta{contents} |\\|\\
\hspace*{1.5ex}| };|\\
\hspace*{1.5ex}| |\meta{paths}\\
|\end{tikzpicture}|
\end{quote}
Not shown above are a number of initialization procedures, such as
defining |\arrow| and its relatives, as well as applying the default
settings specified by |every diagram| and its relatives. Note that
the next-row command |\\| for the last row is inserted by |{tikzcd}|,
and therefore should not be present in \meta{contents}. Notice also
that you can use the key |execute at end picuture| in \meta{options}
to have arbitrary \tikzname{} code executed after a diagram is drawn.
Initially, \meta{paths} is the empty string. A command
|\arrow[|\meta{options}|]| does nothing at the point it is inserted,
and causes the following code to be appended to \meta{paths}:
\begin{quote}
|\path[|\meta{options}|] (|\meta{current node}|) to (|\meta{target~node}|);|
\end{quote}
Here, \meta{current node} is the node corresponding to the matrix cell
where the command |\arrow| is present. A special |.unknown| key
handler is set up to parse direction arguments in \meta{options} and
set \meta{target node} accordingly.
\subsection{Tweaking \texttt{to} paths}
\label{sec:tweaking-to-paths}
Recall that the \texttt{to} path operation used in the paths created by
|\arrow| can take a number of options, as described in
\S\ref*{pgfman-library-to-paths} of the \pgfname{} manual~\cite{pgfman}. In particular, the
key |/tikz/to path| determines the path that is actually drawn, and
can be used to do all sorts of fiddling.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[dr, controls={+(1.5,0.5) and +(-1,0.8)}]
\arrow[dr, dashed, to path=|- (\tikztotarget)]
& \\
& B \arrow[loop right]
\end{tikzcd}
\end{codeexample}%|
The following example shows how to produce a ``snake'' map. The arrow
with the |phantom| option (going from $B$ to $E$) has the sole purpose
of creating a coordinate, named |Z|, lying halfway between these two
cells. The arrow starting at $C$ has target $D$, so the macros
|\tikztostart| and |\tikztotarget| will expand to the nodes
corresponding to these two cells in the argument of |to path|. Notice
also the use of |\tikztonodes| at the point where we want the label to
be inserted.
\begin{codeexample}[]
\begin{tikzcd}
A \arrow[r]
& B \arrow[r]
\arrow[d, phantom, ""{coordinate, name=Z}]
& C \arrow[dll,
"\delta",
rounded corners,
to path={ -- ([xshift=2ex]\tikztostart.east)
|- (Z) [near end]\tikztonodes
-| ([xshift=-2ex]\tikztotarget.west)
-- (\tikztotarget)}] \\
D \arrow[r]
& E \arrow[r]
& F
\end{tikzcd}
\end{codeexample}
\subsection{Drawing diagrams directly with Ti\emph{k}Z}
\label{sec:draw-diagr-directly}
If you find that this package is not flexible enough for some
particular application, you can use the methods described in
\cite{lenders}, \cite{milne} and draw diagrams directly with
\tikzname. In this case, you can still use the styles provided here
to obtain pictures with a uniform appearance throughout your document.
The pictures below show how this can be done (the second one is
adapted from \cite{milne}).
\begin{codeexample}[]
\begin{tikzpicture}[commutative diagrams/every diagram]
\matrix[matrix of math nodes, name=m, commutative diagrams/every cell] {
X & \bar X \\
& Y \\};
\path[commutative diagrams/.cd, every arrow, every label]
(m-1-1) edge[commutative diagrams/hook] (m-1-2)
edge[commutative diagrams/dashed] (m-2-2)
(m-1-2) edge (m-2-2);
\end{tikzpicture}
\end{codeexample}
\begin{codeexample}[]
\begin{tikzpicture}[commutative diagrams/every diagram]
\node (P0) at (90:2.3cm) {$X\otimes (Y\otimes (Z\otimes T))$};
\node (P1) at (90+72:2cm) {$X\otimes ((Y\otimes Z)\otimes T))$} ;
\node (P2) at (90+2*72:2cm) {\makebox[5ex][r]{$(X\otimes (Y\otimes Z))\otimes T$}};
\node (P3) at (90+3*72:2cm) {\makebox[5ex][l]{$((X\otimes Y)\otimes Z)\otimes T$}};
\node (P4) at (90+4*72:2cm) {$(X\otimes Y)\otimes (Z\otimes T)$};
\path[commutative diagrams/.cd, every arrow, every label]
(P0) edge node[swap] {$1\otimes\phi$} (P1)
(P1) edge node[swap] {$\phi$} (P2)
(P2) edge node {$\phi\otimes 1$} (P3)
(P4) edge node {$\phi$} (P3)
(P0) edge node {$\phi$} (P4);
\end{tikzpicture}
\end{codeexample}
\subsection{Issues with active ampersand}
\label{sec:issues-with-active-ampersand}
By default, \tikzname{} makes the character |&| active inside
matrices, and this causes the error message
\begin{quote}
|! Package pgfbasematrix Error: Single ampersand used with wrong catcode.|
\end{quote}
when |{tikzcd}| is used inside the argument to a macro such as a Beamer
frame or a footnote. One solution to this problem is to call |{tikzcd}|
with the option |ampersand replacement=\&|, and replace all
occurrences of |&| with |\&| in the diagram. This procedure is also
needed if you want to use matrices in a diagram cell or label.
\begin{codeexample}[/tikz/commutative diagrams/diagrams={column sep=large}]
\begin{tikzcd}[ampersand replacement=\&]
A \oplus B \ar[r, "{\begin{pmatrix} e & f \\ g & h \end{pmatrix}}"]
\& C \oplus D
\end{tikzcd}
\end{codeexample}
An alternative fix to this issue that does not require replacing |&|
with a different column separator consists in adding the following
line to your document after all packages have been loaded:
\begin{quote}
|\def\temp{&} \catcode`&=\active \let&=\temp|
\end{quote}
However, this may interfere in unexpected ways with other
packages. Use it at your own risk.
\section{Additional goodies}
\label{sec:general-infra}
This package provides some general \pgfname\ infrastructure to achieve
its goals. These additional goodies are documented in this section.
\subsection{The \texttt{asymmetrical rectangle} shape}
\label{sec:asymm-rect-shape}
The following shape is used inside |{tikzcd}| to ensure that arrows
between nodes in the same row are horizontal.
\begin{shape}{asymmetrical rectangle}
This shape is similar to the |rectangle| shape, but its |center| is
located at a fixed distance of the |base|, as determined by the
|center yshift| key, rather than lying at the shape's geometric
center. The numerical anchors, as well as |east| and |west|, are
modified accordingly, and there are anchors called |real center|,
|real east|, and |real west| matching |rectangle|'s original
definitions. All other anchors provided by |rectangle| are
available and remain unmodified.
\end{shape}
\begin{key}{/tikz/commutative diagrams/center yshift=\meta{dimension}
(initially axis\_height)}
Determines the distance between |asymmetrical rectangle|'s |base|
and |center| anchors.
\end{key}
The picture below shows some of the available anchors.
\begin{center}\Huge
\begin{tikzpicture}
\node[name=s,shape=asymmetrical rectangle,shape example]
{Asymmetrical rectangle\vrule width 1pt height 2cm}; \foreach
\anchor/\placement in {north west/above left, north/above, north
east/above right, west/left, center/right, east/right, real
west/left, real center/right, real east/right, base west/left,
base/right, base east/right, south west/below left, south/below,
south east/below right, text/left, 10/right, 130/above,
230/below, -10/below} \draw[shift=(s.\anchor)] plot[mark=x]
coordinates{(0,0)} node[\placement] {\scriptsize\texttt{\anchor}};
\end{tikzpicture}
\end{center}
% This shape is used for |{tikzcd}|'s matrix cells to ensure arrows
% between nodes in the same row are drawn horizontally. When
% \tikzname{} draws a path between two nodes, it chooses endpoints lying
% on their borders in such a way that the path points towards the
% \texttt{center} of the nodes. With the \texttt{rectangle} shape, the
% anchor \texttt{center} lies halfway between two nonadjacent vertices
% and therefore its position depends on the height and depth of the
% text, potentially causing slanted lines to be draw. The picture
% above, for instance, has a humongous ascender (namely, the rule after
% the word ``rectangle''), so its \texttt{real center} lies well above
% its \texttt{center}.
\subsection{Reading font parameters}
\label{sec:read-font-param}
The following are |pgfmath| functions used to access relevant math
font parameters. They take no arguments, but the result depends of
the currently selected font size.
\begin{math-function}{axis\_height}
Returns the axis height parameter (a.k.a.\ $\sigma_{22}$) of the document's math font.
\end{math-function}
\begin{math-function}{rule\_thickness}
Returns the fraction rule thickness (a.k.a.\ $\xi_8$) of the document's math font.
\end{math-function}
\subsection{Computer Modern arrow tips}
\label{sec:comp-modern-arrow}
The following arrow tips mimic the Computer Modern designs. It is
useful to know that at size 10\,pt, the Computer Modern arrow stems
are 0.4\,pt thick; for larger font sizes, this parameter should be
scaled accordingly, or replaced by the equivalent figure 0.0928\,ex.
Two tips that look significantly different in the Latin Modern font
are also supplied.
Notice that by using the mechanism explained in
\S\ref{sec:changing-arrow-tips}, it is not necessary, and in fact not
advisable, to directly refer to the arrow tips listed in this section
inside a |{tikzcd}|.
\begin{multicols}{2}\raggedcolumns
\begin{tabular}{ll}
\displayarrow{cm to}\\
\displayarrow[/tikz/commutative diagrams/double line]{cm implies}\\
\displayarrow[line width=1.5*rule_thickness]{cm bold to}\\
\displayarrow{cm double to}\\
\displayarrow{cm left hook}\\
\displayarrow{cm right hook}\\
\end{tabular}
\begin{tabular}{ll}
\displayarrow{cm bar}\\
% \displayarrow{cm o}\\
% \displayarrow{cm *}\\
\displayarrow{cm left to}\\
\displayarrow{cm right to}\\
\displayarrow{cm to reversed}\\
\displayarrow{lm left hook}\\
\displayarrow{lm bar}\\
\end{tabular}
\end{multicols}
Incidentally, \tikzname's original \texttt{to} arrow tip seems to be
based on the pre-1992 version of Computer Modern, which, in spite of
its author's wish \cite{knuth}, can still be found in many systems.
\TeX{}Live, for instance, distributed the old version up until 2007 or
2008. Therefore, an up-to-date \TeX{} distribution may be necessary
to get matching arrows in formulas and diagrams.
\subsection{Glyph arrow tips}
\label{sec:font-arrow-tips}
As an attempt to provide a general solution to the problem of having
matching arrow tips in text and pictures, this feature produces arrow
tips that consist of (pieces of) font glyphs carefully placed at the
endpoints of the path. To activate it in |{tikzcd}| diagrams, refer
to the |arrow style| key.
\begin{arrowtipsimple}{Glyph}
An arrow tip made from a piece of text. It accepts the following
parameters.
\begin{key}{/pgf/arrow keys/glyph math command=\meta{name}}
The name of a command (to be used inside |$\csname| \dots
|\endcsname$|) producing the desired glyph.
\end{key}
\begin{key}{/pgf/arrow keys/glyph length=\meta{dimension} (initially 1ex)}
The length of the portion of the glyph not clipped away. Also used
to set the `tip end' parameter.
\end{key}
\begin{key}{/pgf/arrow keys/glyph axis=\meta{dimension} (initially axis\_height)}
A vertical displacement applied to the glyph in order to make the
glyph's central axis (typically an arrow stem) aligned with the
path.
\end{key}
\begin{key}{/pgf/arrow keys/glyph shorten=\meta{dimension} (initially -0.1ex)}
An additional amount by which the end of the path is shortened.
This is used to compensate for the gap that usually exists between
the tip end and the glyph's bounding box.
\end{key}
\end{arrowtipsimple}
Below are some usage examples. Notice that glyph arrow tips do not
scale with \pgfname{} line width but their size depends on the current
font size, so you will probably want to set \texttt{line
width=rule\_thickness} when using them. Also, contrarily to the arrow
parameters defined by the \texttt{arrows.meta} library, the parameters
described above are evaluated only at the time the arrow tip is drawn,
so they can (and should) be given in the units em or ex.
\begin{codeexample}[]
\tikzset{
math to/.tip={Glyph[glyph math command=rightarrow]},
loop/.tip={Glyph[glyph math command=looparrowleft, swap]},
weird/.tip={Glyph[glyph math command=Rrightarrow, glyph length=1.5ex]},
pi/.tip={Glyph[glyph math command=pi, glyph length=1.5ex, glyph axis=0pt]},
}
\begin{tikzpicture}[line width=rule_thickness]
\draw[loop-math to, bend left] (0,2) to (1,2);
\draw[math to-weird] (0,1) to (1,1);
\draw[pi-pi] (0,0) to (1,0);
\end{tikzpicture}
\end{codeexample}
It is important to be aware of some drawbacks of this feature. First,
the transition between a line and the arrow tip may become visible
with some printers (especially in low resolutions or draft mode) and
document viewers, as you may be able to see in the samples above.
Second, these rather long tips may
(\tikz[baseline=-axis_height]\draw[dash pattern=on 0.8ex off
0.4ex,-{Glyph[glyph math command=rightarrow]}] (0,0) -- (3.4ex,0);) or may
not (\tikz[baseline=-axis_height]\draw[dash pattern=on 0.8ex off
0.4ex,-{Glyph[glyph math command=rightarrow]}] (0,0) -- (4ex,0);) fit
nicely with dashed or curved lines. Finally, the method used to place
the arrow tip at the end of a stroked path and clip away the arrow
stem makes certain assumptions about the font design and could fail in
cases where unusual design choices are made.
\begin{thebibliography}{9}
\bibitem{knuth}
Donald Knuth,
\emph{Important message to all users of \TeX}.
Available at \url{http://www-cs-staff.stanford.edu/~uno/cm.html}
\bibitem{lenders}
Felix Lenders,
\emph{Commutative diagrams using \tikzname}.
Available at \url{http://www.felixl.de/commu.pdf}.
\bibitem{milne}
James Milne,
\emph{Guide to commutative diagrams}.
Available at \url{http://www.jmilne.org/not/CDGuide.html}.
\bibitem{pgfman}
Till Tantau,
\emph{The \tikzname{} and \pgfname{} packages: Manual for version 3.0.0}.
Available at \url{http://www.ctan.org/tex-archive/graphics/pgf/base/doc/generic/pgf/pgfmanual.pdf}.
\end{thebibliography}
\printindex
\end{document}
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