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% 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{Creating Plots}

\label{section-plots}

This section describes the |plot| module.

\begin{pgfmodule}{plot}
  This module provides a set of commands that are intended to make it
  reasonably easy to plot functions using \pgfname. It is loaded
  automatically by |pgf|, but you can load it manually if you have
  only included |pgfcore|.
\end{pgfmodule}


\subsection{Overview}

There are different reasons for using \pgfname\ for creating plots
rather than some more powerful program such as \textsc{gnuplot} or
\textsc{mathematica}, as discussed in
Section~\ref{section-why-pgname-for-plots}. So, let us assume that --
for whatever reason -- you wish to use \pgfname\ for generating a plot.

\pgfname\ (conceptually) uses a two-stage process for generating
plots. First, a \emph{plot stream} must be produced. This stream
consists (more or less) of a large number of coordinates. Second a
\emph{plot handler} is applied to the stream. A plot handler ``does
something'' with the stream. The standard handler will issue
line-to operations to the coordinates in the stream. However, a
handler might also try to issue appropriate curve-to operations in
order to smooth the curve. A handler may even do something else
entirely, like writing each coordinate to another stream, thereby
duplicating the original stream.

Both for the creation of streams and the handling of streams different
sets of commands exist. The commands for creating streams start with
|\pgfplotstream|, the commands for setting the handler start with
|\pgfplothandler|.



\subsection{Generating Plot Streams}

\subsubsection{Basic Building Blocks of Plot Streams}

A \emph{plot stream} is a (long) sequence of the following 
commands:
\begin{enumerate}
\item
  |\pgfplotstreamstart|,
\item
  |\pgfplotstreampoint|, 
\item
  |\pgfplotstreampointoutlier|, 
\item
  |\pgfplotstreampointundefined|,
\item
  |\pgfplotstreamnewdataset|,
\item
  |\pgfplotstreamspecial|, and
\item
  |\pgfplotstreamend|.
\end{enumerate}
Between calls of these commands arbitrary other code may be
called. Obviously, the stream should start with the first command and
end with the last command. Here is an example of a plot stream:
\begin{codeexample}[code only]
\pgfplotstreamstart
\pgfplotstreampoint{\pgfpoint{1cm}{1cm}}
\newdimen\mydim
\mydim=2cm
\pgfplotstreampoint{\pgfpoint{\mydim}{2cm}}
\advance \mydim by 3cm
\pgfplotstreampoint{\pgfpoint{\mydim}{2cm}}
\pgfplotstreamend
\end{codeexample}

Streams are \emph{global}, meaning that they are not influenced by
\TeX\ groups.

\begin{command}{\pgfplotstreamstart}
  This command signals that a plot stream starts. The effect of this
  command is to call the internal command |\pgf@plotstreamstart|,
  which is set by the current plot handler to do whatever needs to be
  done at the beginning of the plot. It will also reset the
  meaning of the internal commands like |\pgf@plotstreampoint| to the
  initial setting for the plot handler (what this means will be
  explained in a moment).
\end{command}

\begin{command}{\pgfplotstreampoint\marg{point}}
  This command adds a \meta{point} to the current plot stream. The
  effect of this command is to call the internal command |\pgf@plotstreampoint|,
  which is also set by the current plot handler. This command should
  now ``handle'' the point in some sensible way. For example, a
  line-to command might be issued for the point.
  
  When a plot handler is installed, it will setup the internal command
  |\pgf@plotstreampoint| in some way. It is permissible to change the
  meaning of this internal command during a stream. For instance, a
  handler might setup |\pgf@plotstreampoint| in some sensible way for
  the first point and then redefine it so that subsequent points are
  handled in some other way.

  As mentioned earlier, the |\pgfplotstreamstart| will always reset
  the definition of the internal command to the initial meaning it had
  when the handler was installed. This is true for the other commands
  mentioned in the following.
\end{command}

\begin{command}{\pgfplotstreampointoutlier\marg{point}}
  An \emph{outlier} is a point that is ``out of bounds'' in some
  way. For instance, it might have very large coordinates or the
  coordinates might just be outside some specified
  range. Nevertheless, an outlier is still a well-defined point. This
  command is issued, for instance, by \textsc{gnuplot} when a value is
  outside the specified range.

  You can configure how outliers are treated using the following key:
  \begin{key}{/pgf/handle outlier points in plots=\meta{how}
      (initially jump)}
    \keyalias{tikz}
    You can set \meta{how} to one of the following values:
    \begin{itemize}
    \item |plot| This will cause the outlier to be drawn normally,
      just as if |\pgfplotstreampoint| had been used rather than this
      command.
    \item |ignore| The outlier will be completely ignored, just as if
      the command had not been used at all.
    \item |jump| This causes the internal macro |\pgf@plotstreamjump|
      to be called. A ``jump'' in a stream is a position where a
      ``gap'' is introduced. For instance, a simple line-to plot
      handler will stop the current subpath at a jump position and
      begin with a move-to operation at the next normal point of the
      stream.

      The net effect of this setting is that at outlier points plots
      get interrupted and ``restarted'' when the points are no longer
      outliers. This is usually the behaviour you will be looking for.
    \end{itemize}
  \end{key}
\end{command}

\begin{command}{\pgfplotstreampointundefined}
  This command indicated that the stream contains an ``undefined''
  point like a point where some coordinate results for a division by
  zero. Such a point cannot be plotted, which is why it is not given
  as a parameter. However, such a point \emph{can} result in a jump in
  the plot, depending on the setting of the following key:
  \begin{key}{/pgf/handle undefined points in plots=\meta{how}
      (initially jump)}
    \keyalias{tikz}
    You can set \meta{how} to one of the following values:
    \begin{itemize}
    \item |ignore| The undefined point will be completely ignored, just as if
      the command had not been used at all.
    \item |jump| This causes the internal macro |\pgf@plotstreamjump|
      to be called. 
    \end{itemize}
  \end{key}
\end{command}

\begin{command}{\pgfplotstreamnewdataset}
  This command indicated that in the stream a ``new data set'' starts.
  So, the stream does not end, but there is a logical break in the
  data. For example, when a table is read from a file, empty lines are
  interpreted as indicating new data sets. What happens when a new
  data set is encountered is governed by the following key:
  \begin{key}{/pgf/handle new data sets in plots=\meta{how}
      (initially jump)}
    \keyalias{tikz}
    You can set \meta{how} to one of the following values:
    \begin{itemize}
    \item |ignore| The command will be completely ignored, just as if
      the command had not been used at all.
    \item |jump| This causes the internal macro |\pgf@plotstreamjump|
      to be called. 
    \end{itemize}
  \end{key}
\end{command}

\begin{command}{\pgfplotstreamspecial\marg{text}}
  This command causes |\pgf@plotstreamspecial| to be called with
  \meta{text} as its parameter. This allows handler-specific
  information to be passed to the handler. All normal handlers ignore
  this command.
\end{command}

\begin{command}{\pgfplotstreamend}
  This command signals that a plot stream ends. It calls
  |\pgf@plotstreamend|, which should now do any necessary ``cleanup.'' 
\end{command}

Note that plot streams are not buffered, that is, the different points
are handled immediately. However, using the recording handler, it is
possible to record a stream.


\subsubsection{Commands That Generate Plot Streams}
\label{section-plot-jumps}

Plot streams can be created ``by hand'' as in the earlier
example. However, most of the time the coordinates will be produced
internally by some command. For example, the |\pgfplotxyfile| reads a
file and converts it into a plot stream.

\begin{command}{\pgfplotxyfile\marg{filename}}
  This command will try to open the file \meta{filename}. If this
  succeeds, it will convert the file contents into a plot stream as
  follows: A |\pgfplotstreamstart| is issued. Then, for each nonempty
  line a |\pgfplotstreamnewdataset| is produced. Other lines in the
  file should start with two numbers separated by a space, such as
  |0.1 1| or |100 -.3|. The numbers may be followed by some text,
  which will be ignore \emph{except} if it is exactly ``|u|'' or
  ``|o|''. For ``|u|'', the point is considered to be undefined and
  |\pgfplotstreampointundefined| is called. For ``|o|'', the point is
  considered to be an outlier and |\pgfplotstreampointoutlier| is
  called. Otherwise, each pair \meta{x} and \meta{y} of numbers is
  converted into one  plot stream point in the xy-coordinate
  system. Thus, a line like 
\begin{codeexample}[code only, tikz syntax=false]
0 Nan u  
1 1 some text
2 4
3 9

4 16 o
5 25 oo
\end{codeexample}
  is turned into
\begin{codeexample}[code only]
\pgfplotstreamstart
\pgfplotstreampointundefined
\pgfplotstreampoint{\pgfpointxy{1}{1}}
\pgfplotstreampoint{\pgfpointxy{2}{4}}
\pgfplotstreampoint{\pgfpointxy{3}{9}}
\pgfplotstreamnewdataset
\pgfplotstreampointoutlier{\pgfpointxy{4}{16}}
\pgfplotstreampoint{\pgfpointxy{5}{25}}
\pgfplotstreamend
\end{codeexample}
  (Note that the last line is not an outlier because |oo| is not the
  same as |o|).

  The two characters |%| and |#| are also allowed in a file and they
  are both treated as comment characters. Thus, a line starting with
  either of them is treated as empty.

  When the file has been read completely, |\pgfplotstreamend| is
  called.
\end{command}


\begin{command}{\pgfplotxyzfile\marg{filename}}
  This command works like |\pgfplotxyfile|, only \emph{three} numbers
  are expected on each non-empty line. They are converted into points
  in the xyz-coordinate system. Consider, the following file:
\begin{codeexample}[code only, tikz syntax=false]
% Some comments
# more comments
2 -5  1 first entry
2 -.2 2 o
2 -5  2 third entry
\end{codeexample}
  It is turned into the following stream:
\begin{codeexample}[code only]
\pgfplotstreamstart
\pgfplotstreamnewdataset
\pgfplotstreamnewdataset
\pgfplotstreampoint{\pgfpointxyz{2}{-5}{1}}
\pgfplotstreampointoutlier{\pgfpointxyz{2}{-.2}{2}}
\pgfplotstreampoint{\pgfpointxyz{2}{-5}{2}}
\pgfplotstreamend
\end{codeexample}
\end{command}

Currently, there is no command that can decide automatically whether
the xy-coordinate system should be used or whether the xyz-system
should be used. However, it would not be terribly difficult to write a
``smart file reader'' that parses coordinate files a bit more
intelligently.


\begin{command}{\pgfplotfunction\marg{variable}\marg{sample list}\marg{point}}
  This command will produce coordinates by iterating the
  \meta{variable} over all values in \meta{sample list}, which should
  be a list in the |\foreach| syntax. For each value of
  \meta{variable}, the \meta{point} is evaluated and the resulting
  coordinate is inserted into the plot stream.

\begin{codeexample}[]
\begin{tikzpicture}[x=3.8cm/360]
  \pgfplothandlerlineto
  \pgfplotfunction{\x}{0,5,...,360}{\pgfpointxy{\x}{sin(\x)+sin(3*\x)}}
  \pgfusepath{stroke}
\end{tikzpicture}
\end{codeexample}

\begin{codeexample}[]
\begin{tikzpicture}[y=3cm/360]
  \pgfplothandlerlineto
  \pgfplotfunction{\y}{0,5,...,360}{\pgfpointxyz{sin(2*\y)}{\y}{cos(2*\y)}}
  \pgfusepath{stroke}
\end{tikzpicture}
\end{codeexample}

  Be warned that if the expressions that need to evaluated for each
  point are complex, then this command can be very slow.
\end{command}



\begin{command}{\pgfplotgnuplot\oarg{prefix}\marg{function}}
  This command will ``try'' to call the \textsc{gnuplot} program to
  generate the coordinates of the \meta{function}. In detail, the
  following happens:

  This command works with two files: \meta{prefix}|.gnuplot| and
  \meta{prefix}|.table|.  If the optional argument \meta{prefix} is
  not given, it is set to |\jobname|.

  Let us start with the situation where none of these files
  exists. Then \pgfname\ will first generate the file
  \meta{prefix}|.gnuplot|. In this file it writes
\begin{codeexample}[code only, tikz syntax=false]
set terminal table; set output "#1.table"; set format "%.5f"
\end{codeexample}
  where |#1| is replaced by \meta{prefix}. Then, in a second line, it
  writes the text \meta{function}.

  Next, \pgfname\ will try to invoke the program |gnuplot| with the
  argument \meta{prefix}|.gnuplot|. This call may or may not succeed,
  depending on whether the |\write18| mechanism (also known as
  shell escape) is switched on and whether the |gnuplot| program is
  available.

  Assuming that the call succeeded, the next step is to invoke
  |\pgfplotxyfile| on the file \meta{prefix}|.table|; which is exactly
  the file that has just been created by |gnuplot|.

\begin{codeexample}[]
\begin{tikzpicture}
  \draw[help lines] (0,-1) grid (4,1);
  \pgfplothandlerlineto
  \pgfplotgnuplot[plots/pgfplotgnuplot-example]{plot [x=0:3.5] x*sin(x)}
  \pgfusepath{stroke}
\end{tikzpicture}
\end{codeexample}

  The more difficult situation arises when the |.gnuplot| file exists,
  which will be the case on the second run of \TeX\ on the \TeX\
  file. In this case \pgfname\ will read this file and check whether
  it contains exactly what \pgfname\ ``would have written'' into
  this file. If this is not the case, the file contents is overwritten
  with what ``should be there'' and, as above, |gnuplot| is invoked to
  generate a new |.table| file. However, if the file contents is ``as
  expected,'' the external |gnuplot| program is \emph{not}
  called. Instead, the \meta{prefix}|.table| file is immediately
  read.

  As explained in Section~\ref{section-tikz-gnuplot}, the net effect
  of the above mechanism is that |gnuplot| is called as seldom as
  possible and that when you pass along the |.gnuplot| and |.table|
  files with your |.tex| file to someone else, that person can
  \TeX\ the |.tex| file without having |gnuplot| installed and without
  having the |\write18| mechanism switched on.

  \begin{key}{/pgf/plot/gnuplot call=\meta{gnuplot invocation} (initially gnuplot)}
    This key can be used to change the way gnuplot is called.

    Some portable Mik\TeX{} distribution needs something like the
    following.

\begin{codeexample}[code only]
  \pgfkeys{/pgf/plot/gnuplot call="/Programs/gnuplot/binary/gnuplot"}
\end{codeexample}

  \end{key}
\end{command}



\subsection{Plot Handlers}

\label{section-plot-handlers}

A \emph{plot handler}  determines what ``should be done'' with a
plot stream. You must set the plot handler before the stream starts.
The following commands install the most basic plot handlers; more plot
handlers are defined in the file |pgflibraryplothandlers|, which is
documented in Section~\ref{section-library-plothandlers}.

All plot handlers work by setting or redefining the following three
macros: |\pgf@plotstreamstart|, |\pgf@plotstreampoint|, and
|\pgf@plotstreamend|.

\begin{command}{\pgfplothandlerlineto}
  This handler will issue a |\pgfpathlineto| command for each point of
  the plot, \emph{except} possibly for the first. What happens with
  the first point can be specified using the two commands described
  below.

\begin{codeexample}[]
\begin{pgfpicture}
  \pgfpathmoveto{\pgfpointorigin}
  \pgfplothandlerlineto
  \pgfplotstreamstart
  \pgfplotstreampoint{\pgfpoint{1cm}{0cm}}
  \pgfplotstreampoint{\pgfpoint{2cm}{1cm}}
  \pgfplotstreampoint{\pgfpoint{3cm}{2cm}}
  \pgfplotstreampoint{\pgfpoint{1cm}{2cm}}
  \pgfplotstreamend
  \pgfusepath{stroke}
\end{pgfpicture}
\end{codeexample}
\end{command}

\begin{command}{\pgfsetmovetofirstplotpoint}
  Specifies that the line-to plot handler (and also some other plot
  handlers) should issue a move-to command for the
  first point of the plot instead of a line-to. This will start a new
  part of the current path, which is not always, but often,
  desirable. This is the default.
\end{command}

\begin{command}{\pgfsetlinetofirstplotpoint}
  Specifies that  plot handlers should issue a line-to command for the
  first point of the plot.

\begin{codeexample}[]
\begin{pgfpicture}
  \pgfpathmoveto{\pgfpointorigin}
  \pgfsetlinetofirstplotpoint
  \pgfplothandlerlineto
  \pgfplotstreamstart
  \pgfplotstreampoint{\pgfpoint{1cm}{0cm}}
  \pgfplotstreampoint{\pgfpoint{2cm}{1cm}}
  \pgfplotstreampoint{\pgfpoint{3cm}{2cm}}
  \pgfplotstreampoint{\pgfpoint{1cm}{2cm}}
  \pgfplotstreamend
  \pgfusepath{stroke}
\end{pgfpicture}
\end{codeexample}
\end{command}

\begin{command}{\pgfplothandlerpolygon}
  This handler works like the line-to plot handler, only the line is
  closed at the end using |\pgfpathclose|, resulting in a polygon.
\end{command}

\begin{command}{\pgfplothandlerdiscard}
  This handler will simply throw away the stream.
\end{command}

\begin{command}{\pgfplothandlerrecord\marg{macro}}
  When this handler is installed, each time a plot stream command is
  called, this command will be appended to \meta{macro}. Thus, at
  the end of the stream, \meta{macro} will contain all the
  commands that were issued on the stream. You can then install
  another handler and invoke \meta{macro} to ``replay'' the stream
  (possibly many times).

\begin{codeexample}[]
\begin{pgfpicture}
  \pgfplothandlerrecord{\mystream}
  \pgfplotstreamstart
  \pgfplotstreampoint{\pgfpoint{1cm}{0cm}}
  \pgfplotstreampoint{\pgfpoint{2cm}{1cm}}
  \pgfplotstreampoint{\pgfpoint{3cm}{1cm}}
  \pgfplotstreampoint{\pgfpoint{1cm}{2cm}}
  \pgfplotstreamend
  \pgfplothandlerlineto
  \mystream
  \pgfplothandlerclosedcurve
  \mystream
  \pgfusepath{stroke}
\end{pgfpicture}
\end{codeexample}
\end{command}



\subsection{Defining New Plot Handlers}

You can define new plot handlers using the following command:

\begin{command}{\pgfdeclareplothandler\marg{macro}\marg{arguments}\marg{configuration}}
  This command creates a new plot handler that can subsequently be
  called using the macro \meta{macro}. This macro take the arguments
  given in \meta{arguments}, which can be a list like |#1#2| if
  \meta{macro} should be invoked with two arguments. Here is a typical example:
\begin{codeexample}[code only]
\pgfdeclareplothandler{\myhandler}{#1}{...}
...
\myhandler{foo}
\pgfplotstreamstart
...
\pgfplotstreamend
\end{codeexample}

  The \meta{configuration} is used to define the behaviour of the
  handler. It is a list of key--value pairs, where the following keys
  are allowed:
  \begin{itemize}
  \item |start=|\meta{code}. The \meta{code} will be executed whenever
    |\pgfplotstreamstart| is used while the handler \meta{macro} is
    selected. Inside the \meta{code}, you can use |#1|, |#2|, and so
    on to refer to the parameters that were given to \meta{macro}:
\begin{codeexample}[width=6cm]
\pgfdeclareplothandler{\myhandler}{#1}{
  start = Hi #1.,
  end   = Bye #1.,
}
\myhandler{foo}
\pgfplotstreamstart 
\pgfplotstreamend
\myhandler{bar}
\pgfplotstreamstart 
\pgfplotstreamend
\end{codeexample}
  \item |end=|\meta{code} Works just like |start|.
  \item |point=|\meta{code}. The \meta{code} will be executed whenever
    |\pgfplotstreampoint| is used while the handler \meta{macro} is in
    force. Inside the \meta{code}, you can use |#1|, |#2|, and so on
    to refer to the arguments give to \meta{macro}, while you can use
    |##1| to refer to the argument given to |\pgfplotstreampoint|
    itself (this will be the coordinate).
\begin{codeexample}[]
\pgfdeclareplothandler{\myhandler}{#1}{
  point=\pgfpathcircle{##1}{#1} % ##1 is the coordinate,
                                % #1 the parameter for \myhandler
}
\begin{pgfpicture}
  \myhandler{1pt}
  \pgfplotstreamstart
  \pgfplotstreampoint{\pgfpoint{0pt}{0pt}}
  \pgfplotstreampoint{\pgfpoint{3pt}{3pt}}
  \pgfplotstreampoint{\pgfpoint{6pt}{3pt}}
  \pgfplotstreampoint{\pgfpoint{9pt}{0pt}}
  \pgfplotstreamend
  \pgfusepath{stroke}
  \myhandler{3pt}
  \pgfplotstreamstart
  \pgfplotstreampoint{\pgfpoint{0pt}{0pt}}
  \pgfplotstreampoint{\pgfpoint{9pt}{0pt}}
  \pgfplotstreamend
  \pgfusepath{stroke}
\end{pgfpicture}
\end{codeexample}
    The \meta{code} will also be called for
    |\pgfplotstreampointoutlier| when this command has been configured
    to |plot| the outliers.
  \item |jump=|\meta{code} The \meta{code} will be called whenever a
    jump has been requested indirectly via an outlier point, and
    undefined point, or a new data set (for each of which the command
    needs to be configured to |jump|). As always, inside the
    \meta{code} you can access |#1| and so on.
  \item |special=|\meta{code} Causes \meta{code} to be executed
    whenever |\pgfplotstreamspecial|\marg{something} is used. Inside
    the \meta{code}, you can access \meta{something} via |##1| and the
    parameters of \meta{macro} as |#1|, |#2|, and so on.
  \end{itemize}
  
  In addition to the above keys, there exist also ``code macro
  versions'' of them:
  \begin{itemize}
  \item |point macro=|\meta{some macro}. Causes |\pgfplotstreampoint|
    to call \meta{some macro} directly (actually,
    |\pgf@plotstreampoint| is set to be equal to \meta{some
      macro}). Inside the \meta{some macro} you can use |#1| to access
    the coordinate passed to |\pgfplotstreampoint| and you can no
    longer access the parameters passed to the original call to
    \meta{macro} that installed the handler. So, \meta{some macro}
    must take exactly one argument, namely |#1|.
  \item |special macro=|\meta{some macro}. As |point macro|, only for
    specials.
  \item |start macro=|\meta{some macro}. Causes \meta{some macro} to
    be executed at the start. This macro, like the below ones, may not
    take any parameters and will not have access to the parameters
    passed to the original \meta{macro}.
  \item |end macro=|\meta{some macro}. As above.
  \item |jump macro=|\meta{some macro}. As above.
  \end{itemize}
\end{command}


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