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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{Transparency}
\label{section-transparency}
For an introduction to the notion of transparency, fadings, and transparency
groups, please consult Section~\ref{section-tikz-transparency}.
\subsection{Specifying a Uniform Opacity}
Specifying a stroke and/or fill opacity is quite easy.
\begin{command}{\pgfsetstrokeopacity\marg{value}}
Sets the opacity of stroking operations. The \meta{value} should be a
number between |0| and |1|, where |1| means ``fully opaque'' and |0| means
``fully transparent''. A value like |0.5| will cause paths to be stroked in
a semitransparent way.
%
\begin{codeexample}[]
\begin{pgfpicture}
\pgfsetlinewidth{5mm}
\color{red}
\pgfpathcircle{\pgfpoint{0cm}{0cm}}{10mm} \pgfusepath{stroke}
\color{black}
\pgfsetstrokeopacity{0.5}
\pgfpathcircle{\pgfpoint{1cm}{0cm}}{10mm} \pgfusepath{stroke}
\end{pgfpicture}
\end{codeexample}
%
\end{command}
\begin{command}{\pgfsetfillopacity\marg{value}}
Sets the opacity of filling operations. As for stroking, the \meta{value}
should be a number between |0| and~|1|.
The ``filling transparency'' will also be used for text and images.
%
\begin{codeexample}[]
\begin{tikzpicture}
\pgfsetfillopacity{0.5}
\fill[red] (90:1cm) circle (11mm);
\fill[green] (210:1cm) circle (11mm);
\fill[blue] (-30:1cm) circle (11mm);
\end{tikzpicture}
\end{codeexample}
%
\end{command}
Note the following effect: If you set up a certain opacity for stroking or
filling and you stroke or fill the same area twice, the effect accumulates:
%
\begin{codeexample}[]
\begin{tikzpicture}
\pgfsetfillopacity{0.5}
\fill[red] (0,0) circle (1);
\fill[red] (1,0) circle (1);
\end{tikzpicture}
\end{codeexample}
Often, this is exactly what you intend, but not always. You can use
transparency groups, see the end of this section, to change this.
\subsection{Specifying a Blend Mode}
To set the blend mode, use the following command:
\begin{command}{\pgfsetblendmode\marg{mode}}
Sets the blend mode to one of the values described in
Section~\ref{section-blend-modes}. As described there, blend modes are an
advanced feature of \textsc{pdf} and not always rendered correctly.
%
\begin{codeexample}[]
\tikz [transparency group] {
\pgfsetblendmode{screen}
\fill[red!90!black] ( 90:.6) circle (1);
\fill[green!80!black] (210:.6) circle (1);
\fill[blue!90!black] (330:.6) circle (1);
}
\end{codeexample}
%
\end{command}
\subsection{Specifying a Fading}
The method used by \pgfname\ for specifying fadings is quite general: You
``paint'' the fading using any of the standard graphics commands. In more
detail: You create a normal picture, which may even contain text, image, and
shadings. Then, you create a fading based on this picture. For this, the
\emph{luminosity} of each pixel of the picture is analyzed (the brighter the
pixel, the higher the luminosity -- a black pixel has luminosity $0$, a white
pixel has luminosity $1$, a gray pixel has some intermediate value as does a
red pixel). Then, when the fading is used, the luminosity of the pixel
determines the opacity of the fading at that position. Positions in the fading
where the picture was black will be completely transparent, positions where the
picture was white will be completely opaque. Positions that have not been
painted at all in the picture are always completely transparent.
\begin{command}{\pgfdeclarefading\marg{name}\marg{contents}}
This command declares a fading named \meta{name} for later use. The
``picture'' on which the fading is based is given by the \meta{contents}.
The \meta{contents} are normally typeset in a \TeX\ box. The resulting box
is then used as the ``picture''. In particular, inside the \meta{contents}
you must explicitly open a |{pgfpicture}| environment if you wish to use
\pgfname\ commands.
Let's start with an easy example. Our first fading picture is just some
text:
%
\begin{codeexample}[]
\pgfdeclarefading{fading1}{\color{white}Ti\emph{k}Z}
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfsetfading{fading1}{\pgftransformshift{\pgfpoint{1cm}{1cm}}}
\fill [red] (0,0) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
%
What's happening here? The ``fading picture'' is mostly transparent, except
for the pixels that are part of the word Ti\emph{k}Z. Now, these pixels are
\emph{white} and, thus, have a high luminosity. This in turn means that
these pixels of the fading will be highly opaque. For this reason, only
those pixels of the big red rectangle ``shine through'' that are at the
positions of these opaque pixels.
It is somewhat counter-intuitive that the white pixels in a fading picture
are opaque in a fading. For this reason, the color |pgftransparent| is
defined to be the same as |black|. This allows one to write
|pgftransparent| for completely transparent parts of a fading picture and
|pgftransparent!0| for the opaque parts and things like |pgftransparent!20|
for parts that are 20\% transparent.
Furthermore, the color |pgftransparent!0| (which is the same as white and
which corresponds to completely opaque) is installed at the beginning of a
fading picture. Thus, in the above example the |\color{white}| was not
really necessary.
Next, let us create a fading that gets more and more transparent as we go
from left to right. For this, we put a shading inside the fading picture
that has the color |pgftransparent!0| at the left-hand side and the color
|pgftransparent!100| at the right-hand side.
%
\begin{codeexample}[]
\pgfdeclarefading{fading2}
{\tikz \shade[left color=pgftransparent!0,
right color=pgftransparent!100] (0,0) rectangle (2,2);}
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfsetfading{fading2}{\pgftransformshift{\pgfpoint{1cm}{1cm}}}
\fill [red] (0,0) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
In our final example, we create a fading that is based on a radial shading.
%
\begin{codeexample}[]
\pgfdeclareradialshading{myshading}{\pgfpointorigin}
{
color(0mm)=(pgftransparent!0);
color(5mm)=(pgftransparent!0);
color(8mm)=(pgftransparent!100);
color(15mm)=(pgftransparent!100)
}
\pgfdeclarefading{fading3}{\pgfuseshading{myshading}}
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfsetfading{fading3}{\pgftransformshift{\pgfpoint{1cm}{1cm}}}
\fill [red] (0,0) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
%
\end{command}
After having declared a fading, we can use it. As for shadings, there are
different commands for using fadings:
\begin{command}{\pgfsetfading\marg{name}\marg{transformations}}
This command sets the graphic state parameter ``fading'' to a previously
defined fading \meta{name}. This graphic state works like other graphic
states, that is, is persists till the end of the current scope or until a
different transparency setting is chosen.
When the fading is installed, it will be centered on the origin with its
natural size. Anything outside the fading picture's original bounding box
will be transparent and, thus, the fading effectively clips against this
bounding box.
The \meta{transformations} are applied to the fading before it is used.
They contain normal \pgfname\ transformation commands like
|\pgftransformshift|. You can also scale the fading using this command.
Note, however, that the transformation needs to be inverted internally,
which may result in inaccuracies and the following graphics may be slightly
distorted if you use a strong \meta{transformation}.
%
\begin{codeexample}[]
\pgfdeclarefading{fading2}
{\tikz \shade[left color=pgftransparent!0,
right color=pgftransparent!100] (0,0) rectangle (2,2);}
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfsetfading{fading2}{}
\fill [red] (0,0) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
%
\begin{codeexample}[]
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfsetfading{fading2}{\pgftransformshift{\pgfpoint{1cm}{1cm}}
\pgftransformrotate{20}}
\fill [red] (0,0) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
%
\end{command}
\begin{command}{\pgfsetfadingforcurrentpath\marg{name}\marg{transformations}}
This command works like |\pgfsetfading|, but the fading is scaled and
transformed according to the following rules:
%
\begin{enumerate}
\item If the current path is empty, the command has the same effect as
|\pgfsetfading|.
\item Otherwise it is assumed that the fading has a size of 100bp times
100bp.
\item The fading is resized and shifted (using appropriate
transformations) such that the position
$(25\mathrm{bp},25\mathrm{bp})$ lies at the lower-left corner of
the current path and the position $(75\mathrm{bp},75\mathrm{bp})$
lies at the upper-right corner of the current path.
\end{enumerate}
%
Note that these rules are the same as the ones used in |\pgfshadepath| for
shadings. After these transformations, the \meta{transformations} are
executed (typically a rotation).
%
\begin{codeexample}[]
\pgfdeclarehorizontalshading{shading}{100bp}
{ color(0pt)=(transparent!0); color(25bp)=(transparent!0);
color(75bp)=(transparent!100); color(100bp)=(transparent!100)}
\pgfdeclarefading{fading}{\pgfuseshading{shading}}
\begin{tikzpicture}
\fill [black!20] (0,0) rectangle (2,2);
\fill [black!30] (0,0) arc (180:0:1);
\pgfpathrectangle{\pgfpointorigin}{\pgfpoint{2cm}{1cm}}
\pgfsetfadingforcurrentpath{fading}{}
\pgfusepath{discard}
\fill [red] (0,0) rectangle (2,1);
\pgfpathrectangle{\pgfpoint{0cm}{1cm}}{\pgfpoint{2cm}{1cm}}
\pgfsetfadingforcurrentpath{fading}{\pgftransformrotate{90}}
\pgfusepath{discard}
\fill [red] (0,1) rectangle (2,2);
\end{tikzpicture}
\end{codeexample}
%
\end{command}
\begin{command}{\pgfsetfadingforcurrentpathstroked\marg{name}\marg{transformations}}
This command works line |\pgfsetfadingforcurrentpath|, only the current
path is enlarged by the line width in both $x$- and $y$-direction. This is
exactly the enlargement necessary to compensate for the fact that if the
current path will be stroked, this much needs to be added around the path's
bounding box to actually contain the path.
%
\begin{codeexample}[]
\begin{tikzpicture}
\pgfsetlinewidth{2mm}
\pgfpathmoveto{\pgfpointorigin}
\pgfpathlineto{\pgfpoint{2cm}{0cm}}
\pgfsetfadingforcurrentpathstroked{fading}{}
\pgfusepath{stroke}
\end{tikzpicture}
\end{codeexample}
%
\end{command}
\subsection{Transparency Groups}
Transparency groups are declared using the following commands.
\begin{environment}{{pgftransparencygroup}\opt{\oarg{options}}}
This environment should only be used inside a |{pgfpicture}|. It has the
following effect:
%
\begin{enumerate}
\item The \meta{environment contents} are stroked/filled ``ignoring any
outside transparency''. This means, all previous transparency
settings are ignored (you can still set transparency inside the
group, but never mind). This means that if in the \meta{environment
contents} you stroke a pixel three times in black, it is just
black. Stroking it white afterwards yields a white pixel, and so
on.
\item When the group is finished, it is painted as a whole. The
\emph{fill} transparency settings are now applied to the resulting
picture. For instance, the pixel that has been painted three times
in black and once in white is just white at the end, so this white
color will be blended with whatever is ``behind'' the group on the
page.
\end{enumerate}
The optional \meta{options} are keys that configure the transparency group
further. Two keys are currently defined:
%
\begin{itemize}
\item \declare{|knockout|\opt{|=|\meta{true or false}}} Configures
whether the group is a knockout group (if no argument is given,
|true| is assumed; initially the key is always false, even when the
command is used in a nested manner.) See
Section~\ref{section-transparency-groups} for details on knockout
groups.
\item \declare{|isolated|\opt{|=|\meta{true or false}}} Similar, but
configures whether the group is an isolated group. Also see
Section~\ref{section-transparency-groups} for details on isolated
groups.
\end{itemize}
Note that, depending on the driver, \pgfname\ may have to guess the size of
the contents of the transparency group (because such a group is put in an
XForm in \textsc{pdf} and a bounding box must be supplied). \pgfname\ will
use normally use the size of the picture's bounding box at the end of the
transparency group plus a safety margin of 1cm. Under normal circumstances,
this will work nicely since the picture's bounding box contains everything
anyway. However, if you have switched off the picture size tracking or if
you are using canvas transformations, you may have to make sure that the
bounding box is big enough. The trick is to locally create a picture that
is ``large enough'' and then insert this picture into the main picture
while ignoring the size. The following example shows how this is done:
% TODO: Nesting tikzpictures is NOT supported
{\tikzexternaldisable
\begin{codeexample}[]
\begin{tikzpicture}
\draw [help lines] (0,0) grid (2,2);
% Stuff outside the picture, but still in a transparency group.
\node [left,overlay] at (0,1) {
\begin{tikzpicture}
\pgfsetfillopacity{0.5}
\pgftransparencygroup
\node at (2,0) [forbidden sign,line width=2ex,draw=red,fill=white]
{Smoking};
\endpgftransparencygroup
\end{tikzpicture}
};
\end{tikzpicture}
\end{codeexample}
}%
\begin{plainenvironment}{{pgftransparencygroup}}
Plain \TeX\ version of the |{pgftransparencygroup}| environment.
\end{plainenvironment}
\begin{contextenvironment}{{pgftransparencygroup}}
This is the Con\TeX t version of the environment.
\end{contextenvironment}
\end{environment}
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