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-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/Changes15
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/Makefile.doc (renamed from Master/texmf-dist/doc/latex/pst2pdf/Makefile)0
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/README24
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.bib8
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.pdfbin57818 -> 72601 bytes
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.tex238
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/test.pdfbin68528 -> 0 bytes
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/test.tex408
-rw-r--r--Master/texmf-dist/doc/latex/pst2pdf/test2.pdfbin20917 -> 0 bytes
9 files changed, 153 insertions, 540 deletions
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/Changes b/Master/texmf-dist/doc/latex/pst2pdf/Changes
index c5cdd174931..cea7a71ded3 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/Changes
+++ b/Master/texmf-dist/doc/latex/pst2pdf/Changes
@@ -1,4 +1,5 @@
pst2pdf.pl --------
+0.14 2013-02-27 - suport xelatex and -help from command line
0.13 2011-12-12 - some more improvements to the code
0.12 2011-01-19 - new optional arguments for running
bibtex or biber
@@ -6,9 +7,9 @@ pst2pdf.pl --------
allow working with Windows
- test for pst-exa to write \psset in the
pdf file
-0.10 2010-01-04 allow using the package pst-exa
-0.09 2009-10-01 allow pspicture*
-0.08 2009-08-28 test for png files (only for Linux)
+0.10 2010-01-04 - allow using the package pst-exa
+0.09 2009-10-01 - allow pspicture*
+0.08 2009-08-28 - test for png files (only for Linux)
0.07 2009-07-24 - fix bug with \begin{postscript} and following
pspicture environment
- add some more documentation
@@ -17,7 +18,7 @@ pst2pdf.pl --------
e.g. tex, ltx
- ignore verbatim environment
- better log file support
-0.04 2007-07-04 allow all \begin ..\end sequences anywhere
- in a line, see testcase
-0.03 2007-06-21 fix nested environments
-0.02 2007-06-20 first (public) version
+0.04 2007-07-04 - allow all \begin ..\end sequences anywhere
+ in a line, see testcase
+0.03 2007-06-21 - fix nested environments
+0.02 2007-06-20 - first (public) version
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/Makefile b/Master/texmf-dist/doc/latex/pst2pdf/Makefile.doc
index 442e4f0040d..442e4f0040d 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/Makefile
+++ b/Master/texmf-dist/doc/latex/pst2pdf/Makefile.doc
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/README b/Master/texmf-dist/doc/latex/pst2pdf/README
index 37db62ada72..1b488d664b0 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/README
+++ b/Master/texmf-dist/doc/latex/pst2pdf/README
@@ -6,9 +6,9 @@ The pdf ones are then imported in a last pdflatex run
for the pdf output of the main document. The eps and
pdf files are saved in a subdirectory images.
-Syntax: pst2pdf.pl file[.tex] [options]
+Syntax: pst2pdf.pl file[.tex] [-options]
-alternative: perl pst2pdf.pl file[.tex] [options]
+alternative: perl pst2pdf.pl file[.tex] [-options]
Some restrictions:
@@ -30,22 +30,10 @@ a pspicture environment, e.g. nodes inside normal text.
pst2pdf creates a document file-pdf.tex for use with
pdflatex, which then creates file-pdf.pdf. The created
-images are named file-tmp-<No>.pdf
-
-Options:
---imageDir=<path>
---Iext=<.ext>
---DPI=<int>
---Iscale=<real>
---tempDir=<dir>
---verbose
---clear
---noImages
---runBibtex
---runBiber
-
-for more documentation => perldoc pst2pdf or read the documentation
+images are named file-pst-<No>.pdf
+
+for more documentation => pst2pdf --help or read the documentation
--
Herbert Voss 2010-01-04
-</pre> \ No newline at end of file
+</pre>
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.bib b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.bib
index 75da5a14ec5..b42b1c01a15 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.bib
+++ b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.bib
@@ -125,10 +125,10 @@
@Book{PSTricks2,
author = {Herbert Vo\ss},
- title = {\texttt{PSTricks} -- {G}rafik f\"ur \TeX{} und \LaTeX},
- edition = {6.},
- publisher = {DANTE -- Lehmanns},
+ title = {\texttt{PSTricks} -- {G}rafics for \TeX{} and \LaTeX},
+ edition = {1.},
+ publisher = {UIT},
year = {2011},
- address = {Heidelberg/Hamburg}
+ address = {Cambridge}
}
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.pdf b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.pdf
index be11194109e..7ecd33bfc39 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.pdf
+++ b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.pdf
Binary files differ
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.tex b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.tex
index c0b893bc843..238bf937673 100644
--- a/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.tex
+++ b/Master/texmf-dist/doc/latex/pst2pdf/pst2pdf-doc.tex
@@ -1,8 +1,8 @@
-%% $Id: pst-func-doc.tex 245 2010-01-04 17:07:30Z herbert $
-\documentclass[11pt,english,BCOR10mm,DIV12,bibliography=totoc,parskip=false,
- smallheadings, headexclude,footexclude,oneside]{pst-doc}
+\documentclass[10pt,english,BCOR10mm,DIV12,bibliography=totoc,parskip=false,smallheadings
+ headexclude,footexclude,oneside]{pst-doc}
\usepackage[utf8]{inputenc}
-\usepackage{pst-text,pst-grad,pst-exa}
+\RequirePackage{xspace}
+\usepackage{pst-text,pst-grad}
\let\pstFV\fileversion
\DeclareFixedFont{\RM}{T1}{ptm}{b}{n}{4cm}
\renewcommand\bgImage{\pscharpath[fillstyle=gradient,
@@ -16,8 +16,8 @@
\begin{document}
\title{\texttt{pst2pdf}}
-\subtitle{Running a PSTricks document with pdflatex;\\ \small v. 0.13}
-\author{Herbert Vo\ss \\ Pablo Gonzales Luengo}
+\subtitle{Running a PSTricks document with pdflatex;\\ \small v. 0.14}
+\author{Herbert Vo\ss \\ Pablo Gonz\'{a}lez Luengo}
\docauthor{}
\date{\today}
\maketitle
@@ -26,131 +26,163 @@
\clearpage
-\begin{abstract}
-\noindent
-\Lprog{pst2pdf} is a Perl script for running a PSTricks document in a last run
-with pdflatex.
-%\LPack{pst-exa} is a package that supports the printing of
-%code and output of PSTricks examples when running in pdf mode.
+%\begin{abstract}
+%\noindent
+%\Lprog{pst2pdf} is a \Lprog{perl} \emph{script} for running a PSTricks document in a last run
+%with pdflatex.
-\vfill\noindent
-Thanks to:
-Rolf Niepraschk
+%\vfill\noindent
+%Thanks to:
+%Rolf Niepraschk
-\end{abstract}
+%\end{abstract}
+
+%\clearpage
-\clearpage
\section{Introduction}
-\PST as \PS-related package uses the programming language \PS for internal
-calculations. This is an important adavantage, because floating point arithmetic is no
+\PST\ as \PS\ related package uses the programming language \PS\ for internal
+calculations. This is an important advantage, because floating point arithmetic is no
problem. Nearly all mathematical calculation can be done when running the \DVI-file
-with \gs. However, creating a \PDF file in a direct way with \Lprog{pdflatex} is
-not possible. \Lprog{pdflatex} cannot understand the \PS related stuff. Instead
-of running \Lprog{pdflatex} one can use the Perl script \Lprog{pdf2eps}, it extracts
-all \PST-related code into single documents with the same preamble as the original
-main document. Then the script runs this document, clips all whitespace arounf the
-image and creates a \Lext{pdf}, \Lext{eps}, and \Lext{png} image of the \PST
-related code. In a last run which is the \Lprog{pdflatex} the \PST code in the
-main dcouemnt is replaced by the created images.
-
-\section{Running the Perl script}
-The genral syntax for the Perl script is simple
-
-\begin{BDef}
-\Lprog{pst2pdf} \Larg{file}\OptArg*{\Lext{tex}} \OptArg*{options}
-\end{BDef}
+with \gs. However, creating a \PDF\ file in a direct way with \Lprog{pdflatex} is
+not possible. \Lprog{pdflatex} cannot understand the \PS\ related stuff.
-The options listed in Table~\ref{perloptions} refer only to the script and not the \LaTeX\ file.
+Instead of running \Lprog{pdflatex} one can use the \Lprog{perl} \emph{script} \Lprog{pst2pdf}, it extracts
+all \PST\ related code into single documents with the same preamble as the original
+main document.
-\begin{table}
-\caption{Possible optional arguments for the Perl script \nxLprog{pst2pdf}}\label{perloptions}
-\begin{tabularx}{\linewidth}{@{} l l >{\ttfamily}l X @{}}\\\toprule
-\emph{name} & \emph{values} & \textrm{\emph{default}} & \emph{description}\\\midrule
-\Loption{--imageDir} & literal & imgages/ & the directory for the created images\\
-\Loption{--Iext} & literal & .pdf & the extension for \Lcs{includegraphics}, can be empty, then
- \Lcs{includegraphics} decides which image is used.\\
-\Loption{--DPI} & integer & 75 & the dots per inch for a created png file, if possible\\
-\Loption{--Iscale} & real & 1 & the value for the option \Loption{scale} in \Lcs{includegraphics}.
- Important when using a greater dpi value.\\
-\Loption{--tempDir} & literal & . & the temporary directory for the temp files\\
-\Loption{--verbose} & boolean & 1 & for a long \Lprog{pst2pdf} log\\
-\Loption{--clear} & boolean & 0 & delete all temporary files\\
-\Loption{--noImages} & boolean & 0 & create no images, build only the pdf with the alread existing images\\
-\Loption{--runBibTeX} & boolean & 0 & runs \Lprog{bibtex} \\
-\Loption{--runBiber} & boolean & 0 & runs \Lprog{biber} if a file with extension \Lext{bcf} exists \\\bottomrule
-\end{tabularx}
-\end{table}
+The \nxLprog{pst2pdf} \emph{script} runs document, clips all whitespace around the
+image and creates a \Lext{pdf} (and \Lext{eps},\Lext{ppm}) image of the \PST\
+related code. In a last run which is the \Lprog{pdflatex} the \PST\ code in the
+main document is replaced by the created images.
-After the \Lprog{pst2pdf} run there exists a pdf file called \texttt{\Lcs{jobname}-pdf.pdf}. And when not using
-the \Loption{--clear} option also the corresponding \TeX{} file \texttt{\Lcs{jobname}-pdf.tex}.
-The preamble of the document should contain all code which is important to the \PST code.
+\section{Requirements}
+\subsection{Programs needed}
+\nxLprog{pst2pdf} needs \Lprog{pdftk}, \Lprog{ImageMagick} and \Lprog{poppler-utils} (or \Lprog{xpdf-utils}) for the process file in usual way. If you need a create .pdf image files (whitout related software) use single mode (see \ref{single}).
-\section{\PST\ code}
-The per scripts scans the files for \Lenv{pspicture} and \Lenv{postscript} environments,
+\subsection{Preparating file}
+The script scan the file for \Lenv{pspicture} and \Lenv{postscript} environments,
which are then taken with its contents from the main file to create stand alone documents
with the same preamble as the main document. The \Lenv{pspicture} environment can be nested,
the \Lenv{postscript} one not! But it can contain an environment \Lenv{pspicture}, but not vice versa.
The \Lenv{postscript} environment should always be used, when there is some code before a \Lenv{pspicture}
environment or for some code which is not inside of a \Lenv{pspicture} environment.
+Put all related \PST\ package in separate lines in your preamble, \nxLprog{pst2pdf} delete al lines contains \PST\ package before last run.
+
+This is an example of environments that support for \nxLprog{pst2pdf}:
+
+\vspace{10pt}
+\begin{minipage}[c]{0.25\textwidth}
+\begin{verbatim}
+\pspicture*
+\psset{...}
+pstricks code
+\endpspicture
+\end{verbatim}
+\end{minipage}
+\begin{minipage}[c]{0.25\textwidth}
+\begin{verbatim}
+\begin{pspicture}
+\psset{...}
+pstricks code
+\end{pspicture}
+\end{verbatim}
+\end{minipage}
+\begin{minipage}[c]{0.25\textwidth}
+\begin{verbatim}
+\begin{pspicture*}
+\psset{...}
+pstricks code
+\end{pspicture*}
+\end{verbatim}
+\end{minipage}
+\begin{minipage}[c]{0.25\textwidth}
+\begin{verbatim}
+\begin{postscript}
+\psset{...}
+pstricks code
+\end{postscript}
+\end{verbatim}
+\end{minipage}
+
+\section{Running the script}
+\subsection{Default mode}
+The general syntax for the \Lprog{perl} \emph{script} is simple:
-\bgroup
-\raggedright
-\nocite{*}
-\bibliographystyle{plain}
-\bibliography{pst2pdf-doc}
-\egroup
-
-\printindex
+\begin{BDef}
+\nxLprog{perl} \nxLprog{pst2pdf} \Larg{file.tex} \OptArg*{--options}
+\end{BDef}
+For \TeX Live users:
-\end{document}
+\begin{BDef}
+\nxLprog{pst2pdf} \Larg{file.tex} \OptArg*{--options}
+\end{BDef}
+\subsection{Single mode}
+\label{single}
+If \nxLprog{pst2pdf} can not process a file, used the option \Loption{--single} this process will create the file, whiout pdftk
+(take a more time to create images files) by default create PDF files. For exampple:
+\begin{BDef}
+\nxLprog{pst2pdf} \Larg{file.tex} \OptArg*{--pdf} \OptArg*{--single}
+\end{BDef}
-\section{The package \nxLPack{pst-exa}}
-The package \LPack{pst-exa} was created to realize examples with printed code and output
-side by side or on top of each other. The package looks in the image directory for the source
-code of the examples and inserts only the code between the environment \Lenv{document},
-which is the sequence \LBEG{document} \ldots\ \LEND{document}.
+create file-pdf.pdf and file-pst-1.pdf, file-pst-2.pdf, file-pst-\dots.pdf for all \Lenv{pspicture} and \Lenv{postscript} environments in the directory for the created images (see \ref{options}).
-The package provides the environment \Lenv{PSTexample} with the optional
-arguments listed in Table~\ref{pst-exaoptions}.
+\section{Options}
+\label{options}
+The options listed in Table~\ref{perloptions} refer only to the \emph{script} and not the \LaTeX\ file.
-\begin{table}
-\caption{Possible optional arguments for the package \LPack{pst-exa}}\label{pst-exaoptions}
-\begin{tabularx}{\linewidth}{@{} l l l X @{}}\\\toprule
+\begin{table}[htp]
+\caption{Optional arguments for \nxLprog{pst2pdf}}\label{perloptions}
+\begin{tabularx}{\linewidth}{@{} l l >{\ttfamily}l X @{}}\\\toprule
\emph{name} & \emph{values} & \textrm{\emph{default}} & \emph{description}\\\midrule
-\Lkeyword{pos} & \Lkeyval{l},\Lkeyval{r},\Lkeyval{b},\Lkeyval{t} & \Lkeyval{l} & position of the image, maybe left, right, bottom ot top of the code.\\
-\Lkeyword{halign} & \Lkeyval{l},\Lkeyval{r},\Lkeyval{c} & \Lkeyval{c} & the horizontal alignment of the image.\\
-\Lkeyword{valign} & \Lkeyval{l},\Lkeyval{r},\Lkeyval{c} & \Lkeyval{c} & the vertical alignment of the image.\\
-\Lkeyword{frame} & see lst & & option is passed to \Lcs{lstinputlisting} from the package \LPack{listings}.\\
-\Lkeyword{width} & length &0.5\Ldim{linewidth} & the width of the example box.\\
-\Lkeyword{sep} & length &1em & separation between image and code.\\
-\Lkeyword{imageDir} & literal &images/ & directory for the created images and tex files.\\\bottomrule
+\Loption{--imageDir} & literal & images/ & the directory for the created images.\\
+\Loption{--Iext} & literal & .pdf & the extension for \Loption{PrependGraphicsExtensions}.\\
+\Loption{--DPI} & integer & 75 & the dots per inch for a created \Lext{ppm} file.\\
+\Loption{--Iscale} & real & 1 & the value for the option \Loption{scale} in \Lcs{includegraphics}.\\
+\Loption{--eps} & boolean & 0 & creates \Lext{eps} images files (need pdftops).\\
+\Loption{--ppm} & boolean & 0 & creates \Lext{ppm} images files (need pdftoppm).\\
+\Loption{--files} & boolean & 0 & creates \Lext{tex} for all images.\\
+\Loption{--verbose} & boolean & 1 & for a long \nxLprog{pst2pdf} log.\\
+\Loption{--norun} & boolean & 0 & create files, but no compile.\\
+\Loption{--clear} & boolean & 0 & delete all temporary files.\\
+\Loption{--help} & boolean & 1 & print help and exit.\\
+\Loption{--single} & boolean & 0 & create images type (whitout pdftk).\\
+\Loption{--all} & boolean & 0 & generte all image type (.pdf, .eps, .tex).\\
+\Loption{--version} & boolean & 0 & print version and exit.\\
+\Loption{--license} & boolean & 0 & print license and exit.\\
+\Loption{--xetex} & boolean & 0 & using \Lprog{xelatex} instead of \Lprog{latex} for the process.\\
+\Loption{--noImages} & boolean & 0 & generate files but no images (need \Loption{--norun}).\\
+\Loption{--runBibTeX}& boolean & 0 & runs \Lprog{bibtex} \\
+\Loption{--runBiber} & boolean & 0 & runs \Lprog{biber} if a file with extension \Lext{bcf} exists \\\bottomrule
\end{tabularx}
\end{table}
+For Help in command line use:
+\begin{BDef}
+\nxLprog{pst2pdf} \OptArg*{--help}
+\end{BDef}
+\section{Other image format}
+If your need \Lext{png}, \Lext{jpg} or other image type use \nxLprog{pst2pdf} \Larg{file.tex} \OptArg*{--ppm} , than move to images dir and use \nxLprog{mogrify} command (from \Lprog{ImageMagick}), for examples:\\
-
-
-
-\section{Examples}
-The package contains some example files for running the script without and
-with the package \LPack{pst-exa}.
-
-\begin{compactdesc}
-\item[test1.tex] running \verb=pst2pdf test1=. The test file contains a jpg-image, which is only possible with pdflatex.
-\item[test2.tex] same as \LFile{test1}, but with using \LPack{pst-exa} and example--code combination.
-\item[test3.tex] another example
-\end{compactdesc}
-
-%\section{List of all optional arguments for \texttt{pst-exa}}
-%
-%\xkvview{family=pst-exa,columns={key,type,default}}
-
-
-
+\begin{BDef}
+\nxLprog{mogrify} -format \OptArg*{png *.ppm}
+\end{BDef}
+generate PNG images files and \\
+\begin{BDef}
+\nxLprog{mogrify} -format \OptArg*{jpg *.ppm}
+\end{BDef}
+generate JPG images files.
+\bgroup
+\raggedright
+\nocite{*}
+\bibliographystyle{plain}
+\bibliography{pst2pdf-doc}
+\egroup
+\printindex
+\end{document}
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/test.pdf b/Master/texmf-dist/doc/latex/pst2pdf/test.pdf
deleted file mode 100644
index 8ffafa7a152..00000000000
--- a/Master/texmf-dist/doc/latex/pst2pdf/test.pdf
+++ /dev/null
Binary files differ
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/test.tex b/Master/texmf-dist/doc/latex/pst2pdf/test.tex
deleted file mode 100644
index c664fb0a0d7..00000000000
--- a/Master/texmf-dist/doc/latex/pst2pdf/test.tex
+++ /dev/null
@@ -1,408 +0,0 @@
-\documentclass{article}
-\usepackage[utf8]{inputenc}
-\usepackage[T1]{fontenc}
-\usepackage{textcomp}
-\usepackage{lmodern}
-\usepackage[dvipsnames]{xcolor}
-\usepackage{pst-solides3d}
-\usepackage{psgo}
-\usepackage{pst-text}
-\usepackage{pst-blur}
-\usepackage[tiling]{pst-fill}
-\usepackage{pst-calendar}
-\usepackage{pst-eucl}
-\usepackage{pst-labo}
-\usepackage{pst-3d}
-\usepackage{psfrag}
-\usepackage{pst-bar}
-\usepackage{pst-barcode}
-\usepackage{pst-gr3d}
-\usepackage{pst-ob3d}
-\usepackage{pst-3dplot}
-\usepackage{pst-tree}
-\usepackage{pst-coil}
-\usepackage{pst-bezier}
-\usepackage{pst-coxeterp}
-\usepackage{pst-circ}
-\usepackage{pst-func}
-\usepackage{pstricks-add}
-\usepackage{pst-plot,pst-math}
-\usepackage{pst-slpe}
-\usepackage{pst-fr3d}
-\usepackage{vaucanson-g}
-\usepackage{blindtext}
-\usepackage{multido}
-\usepackage{pst-grad}
-\usepackage{pstricks-add}
-%\usepackage[pspdf={-dPDFSETTINGS=/prepress}]{auto-pst-pdf}
-\begin{document}
-A test for pst2pdf ...
-\texttt{blindtext,pst-node}
-\begin{postscript}
-\SpecialCoor
-\rnode{A}{The beginning of it all:}
-\blindtext
-\rnode{E}{And this is the end my friend.}
-\nccurve[linewidth=5pt,strokeopacity=0 .4,ncurvB=0.9,arrowscale=1.5,arrows=->]{A}{E}
-\end{postscript}
-
-\texttt{pstricks-add}
-\begin{pspicture}(-0.04,-0.04)(1,1)
-\psset{unit=5}
-\psgrid[subgriddiv=5,subgridcolor=lightgray]
-\psplotDiffEqn[whichabs=0,whichord=1,linecolor=red,
-method=rk4,algebraic,plotpoints=400,
-showpoints=true]{0}{10}{0 0}%
-{cos(Pi*x^2/2)|sin(Pi*x^2/2)}
-\end{pspicture}
-
-\texttt{pst-solides3d}
-\begin{pspicture}[solidmemory](-4,-5)(7,4)
-\psset{viewpoint=50 -40 10 rtp2xyz,Decran=50,
-linecolor=darkgray,lightsrc=viewpoint}
-\psSolid[object=grille,action=draw,base=-3 5 -3 5,
-linecolor=Salmon!40](0,0,-3)
-\psSolid[object=cylindre,r=2,h=6,ngrid=6 24,
-plansepare={[0.707 0 0.707 0]},name=Zylinder,
-action=none](0,0,-3)
-\psSolid[object=load,load=Zylinder1,
-fillcolor=black!5,fcol=0 (Goldenrod)]
-\psSolid[object=load,load=Zylinder0,RotZ=90,
-fillcolor=black!5,rm=0,hollow,incolor=Goldenrod](0,4,0)
-\psSolid[object=plan,action=draw,definition=equation,
-args={[0.707 0 0.707 0] 90},base=-2 2 -3 3,planmarks]
-\psSolid[object=line,args=0 0 0 0 5.5 0,
-linecolor=blue]% first half of y axis
-\color{white}\axesIIID[showOrigin=false,
-linecolor=blue](0,6.8,0)(3.5,8,3.5)
-\end{pspicture}
-
-\texttt{pstricks}
-\begin{postscript}
-\psset{unit=0.05mm}% 1:20,or=0.1mm for 1:10
-\begin{pspicture}(-100,-100)(1000,650)
-\pspolygon[linewidth=2pt,fillcolor=gray!10,
-fillstyle=solid](0,0)(0,470)(860,625)(860,0)
-\psset{linewidth=0.2pt,arrowscale=2,tbarsize=10pt}
-\psline{|<->|}(0,-100)(860,-100)
-\rput*(430,-100){430mm}
-\psline{|<->|}(960,0)(960,625)
-\rput*{90}(960,312.5){625mm}
-\psline{|<->|}(-100,0)(-100,470)
-\rput*{90}(-100,235){470mm}
-\end{pspicture}
-\end{postscript}
-
-\texttt{pstricks, pst-node, and pst-plot}
-\begin{pspicture}(-1,-3)(4.75,3)
-\psscalebox{0.75}{
-\psaxes{->}(0,0)(-1,-3)(5,3)
-\psplot[polarplot,linewidth=2pt,algebraic,
-plotpoints=500]{0}{6.289}{2*(1+cos(x))}
-\multido{\r=0.000+0.314}{21}{ %
-\psplotTangent[polarplot,Derive=-2*sin(x),
-algebraic,arrows=<->]{\r}{1.5}{2*(1+cos(x))}}
-}
-\end{pspicture}
-
-\texttt{pst-plot}
-\begin{pspicture}[showgrid=true](-1.1,-1.1)(1.1,1.1)
-\psset{xunit=1.5cm,yunit=1.5cm}
-\psparametricplot[plotstyle=curve,linewidth=1.5pt,
-plotpoints=200]{-360}{360}%
-{t 1.5 mul sin t 2 mul 60 add sin}
-\end{pspicture}
-
-\texttt{pst-tree}
-\begin{postscript}
-\pstree[levelsep=1cm,radius=3pt]{\Toval{Wurzel}}{%
-\pstree{\TC}{%
-\TC
-\pstree{\TC*}{\TC\TC\TC\TC}%
-\TC\TC}}
-\end{postscript}
-
-\texttt{pst-bezier}
-\begin{pspicture}[showgrid=true](5,3)
-\psset{showpoints=true}
-\psbcurve[linecolor=blue,linewidth=0.01](1,1)%
-(2,2)(3,1)(4,2)
-\psbcurve(1,1)(2,2)l(2,1)(3,1)(4,2)
-\uput[-90](2,1){$\vec{l}_{2}$}
-\end{pspicture}
-
-\texttt{pst-text}
-\begin{pspicture}(0,0)(.25\linewidth,8)
-\DeclareFixedFont{\ps}{U}{psy}{m}{n}{8cm}
-\psboxfill{\footnotesize$\pi$}
-\pscharpath[fillstyle=solid,
-fillcolor=cyan!20,
-addfillstyle=boxfill,fillangle=30,
-fillsep=0.6mm]{%
-\rput[b](-0.5,0){\ps\char112}}
-\end{pspicture}
-
-\texttt{pst-fill}
-\begin{postscript}
-\psset{unit=1.5,dimen=middle}
-\begin{pspicture*}(3,3)
-\psboxfill{\begin{pspicture}(1,1)
-\psframe(1,1)\end{pspicture}}
-\psframe[fillstyle=boxfill](3,3)
-\psboxfill{\begin{pspicture}(1,1)
-\rput{-37}{\psframe[linecolor=red](0.8,0.8)}
-\end{pspicture}}
-\psframe[fillstyle=boxfill](3,4)
-\pspolygon[fillstyle=hlines,hatchangle=90](1,2)(1.64,1.53)(2,2)
-\end{pspicture*}
-\end{postscript}
-
-
-\texttt{pst-coils}
-\begin{pspicture}(4,3)
-\cnode*(0.5,0.5){0.5}{A}
-\cnode*(3.5,2.5){0.5}{B}
-\pccoil[coilwidth=0.4,coilaspect=35,coilheight=0.5,linecolor=white]{<->}(A)(B)
-\nccoil[coilwidth=0.4,coilaspect=35,coilheight=0.5]{A}{B}
-\end{pspicture}
-
-
-\texttt{pst-grad}
-\begin{pspicture}(5,3.5)
-\psframe[fillstyle=gradient,gradbegin=white](5,1.5)
-\newrgbcolor{gradbegin}{0 1 1}
-\psframe[fillstyle=gradient](0,2)(5,3.5)
-\end{pspicture}
-
-\texttt{pst-slpe}
-\begin{pspicture}(2.5,2.5)
-\def\st#1{\makebox[2.75cm]{$\vcenter to 55pt{}#1$}}
-\psset{fading,endfading=0.75,linecolor=black!40}
-\psframe*(-0.3,-0.25)(3.5,20pt)
-\psframebox[fillstyle=slope]{\LARGE\st{slope}}
-\end{pspicture}
-
-\texttt{pst-blur}
-\begin{postscript}
-\DeclareFixedFont{\RM}{T1}{ptm}{b}{n}{1.75cm}
-\psset{shadow=true,blur=true,shadowsize=10pt,blurradius=5pt}
-\pscharpath{\RM PSTricks}
-\end{postscript}
-
-\texttt{pst-3d}
-
-\begin{pspicture}(-4.5,-3)(3,4.75)
-\psset{viewpoint=1 1.5 0.8}
-{\psset{gridlabels=0pt,subgriddiv=0,gridcolor=black!50}
-\ThreeDput[normal=0 0 1]{\psgrid(5,5)}
-\ThreeDput[normal=0 -1 0] {\ psgrid(5,5)}
-\ThreeDput[normal=1 0 0]{\psgrid(5,5)}}
-\ThreeDput[normal=0 0 1] {%
-\psline[linewidth=3pt,linecolor=blue]{->}(4,4)(4,5.5)
-\uput[90](4,5.5){%
-\psrotateleft{\textcolor{blue}{$\vec{n}_A$}}}}%$%xy
-\ThreeDput[normal=0 -1 0]{%
-\psline[linewidth=3pt,linecolor=green]{->}(4,0)(5.5,0)
-\uput[90](5.5,0){ \ psscalebox{-1 1}{%
-\textcolor{green}{$\vec{n}_B$}}}}%$%xz
-\ThreeDput[normal=1 0 0]{%
-\psline[linewidth=3pt,linecolor=red]{->}(0,4)(0,5.5)
-\uput[0](0,5.5){$\vec{n}_{top}$}} %yz
-\ThreeDput[normal=0 0 1] (0,0,4){%
-\psframe*[linecolor=gray!25] (4,4)
-\rput(2,2){\Huge\textbf{TOP}}}
-\ThreeDput[normal=0 1 0](4,4,0){%
-\psframe*[linecolor=gray!5](4,4)
-\rput(2,2){\Huge\textbf{side A}}}
-\ThreeDput[normal=1 0 0] (4,0,0){%
-\psframe*[linecolor=gray!15](4,4)
-\rput(2,2){\Huge\textbf{side B}}}
-% Die kleinen Achsen
-\ThreeDput[normal=0 0 1](0,0,4){%
-\psline(4,0)\uput[90](3,0){X$_{top}$}
-\psline(0,4)\uput[0] (0,3){Y$_{top}$}}
-\ThreeDput[normal=0 1 0](4,4,0){%
-\psline(4,0)\uput[90](3,0){X$_{A}$}
-\psline(0,4)\uput[0] (0,3){Y$_{A}$}}
-\ThreeDput[normal=1 0 0] (4,0,0){%
-\psline(4,0)\uput[90](3,0){X$_{B}$}
-\psline(0,4)\uput[0](0,3){Y$_{B}$}}
-\end{pspicture}
-
-\texttt{pst-ob3d}
-\begin{pspicture}(-1,-0.5)(3,1.7)
-\psset{fillstyle=solid,fillcolor=yellow,RandomFaces=true}
-\PstDie[viewpoint=1 -3 1]
-\rput(1.5,0){\PstCube[Corners=true,CornersColor=blue,
-fillstyle=solid,fillcolor=cyan,viewpoint=1 2 1]
-{1}{1}{1}}
-\end{pspicture}
-
-\texttt{pst-gr3d}
-\begin{postscript}
-\psscalebox{0.5}{\footnotesize
-\PstGridThreeD[GridThreeDNodes,unit=2.5](2,3,2)
-\multido{\ix=0+1}{3}{%
-\multido{\iy=0+1}{4}{%
-\multido{\iz=0+1}{3}{%
-\rput*(Gr3dNode\ix\iy\iz){$\ix\iy\iz$}}}}
-\psset{linecolor=blue,linestyle=dashed,
-linewidth=0.3pt,arrowscale=2,nodesep=8pt}
-\pcline{->}(Gr3dNode000)(Gr3dNode202)
-\pccurve{->}(Gr3dNode000)(Gr3dNode232)}
-\end{postscript}
-
-\texttt{pst-fr3d}
-\begin{postscript}
-\PstFrameBoxThreeD[FrameBoxThreeDOn=false]
-{\Large Off}
-\quad
-\PstFrameBoxThreeD{\Large On}% default
-\end{postscript}
-
-\texttt{pst-3dplot}
-\begin{pspicture}(-4.8,-1.75)(4.8,3.75)
-\psset{unit=4cm,drawCoor,beginAngle=90,endAngle=180,linestyle=dotted}
-\def\oA{\pstThreeDLine[linecolor=blue,linewidth=3pt,
-arrows=c-> ](0,0,0)(1,60,70)}
-\def\oB{\pstThreeDLine[linecolor=red,linewidth=3pt,
-arrows=c->](0,0,0)(1,10,50)}
-\def\oAB{\pstThreeDEllipse[beginAngle=58,
-endAngle=90](0,0,0)(1,140,40)(1,10,50)}
-
-\pstThreeDCoor[drawing,linewidth=1pt,linecolor=black,
-linestyle=solid,xMin=0,xMax=1.1,yMin=0,yMax=1.1,
-zMin=0,zMax=1.1]
-\pstThreeDEllipse(0,0,0)(-1,0,0)(0,1,0)
-\pstThreeDEllipse(0,0,0)(-1,0,0)(0,0,1)
-\pstThreeDEllipse[beginAngle=0,
-endAngle=90](0,0,0)(0,0,1)(0,1,0)
-\psset{SphericalCoor,linestyle=solid}
-\pstThreeDDot[dotstyle=none](1,10,50)
-\pstThreeDDot[dotstyle=none](1,60,70)
-\pscustom[fillstyle=solid,fillcolor=black!20,
-linestyle=none]{\oB\oAB\oA} \oA\oB\oAB
-\pstThreeDPut[origin=lb](1.1,60,70){$\vec\Omega_1$}
-\pstThreeDPut[origin=rb](1.2,10,50){$\vec\Omega_2$}
-\pstThreeDPut[origin=lb](1,10,65){$\gamma_{12}$}
-\end{pspicture}
-
-\texttt{pst-solides3d}
-\begin{pspicture}(-2,-2)(2,2)
-\psset{viewpoint=100 50 20 rtp2xyz,
-Decran=60,lightsrc=10 15 10}
-\defFunction[algebraic]{corne}(u,v)%
-{(2 + u*cos(v))*sin(2*pi*u)}%
-{(2 + u*cos(v))*cos(2*pi*u)+2*u}%
-{u *sin(v)}
-\psSolid[object=surfaceparametree,base=0 1 0 2 pi mul,function=corne,ngrid=20]
-\end{pspicture}
-
-\texttt{pst-circ}
-\begin{pspicture}(4,3.5)
-\pnode(0,3){A}\pnode(0,0){B}
-\pnode(4,1.5){C}
-\OA[OAperfect=false,OAiplus,
-OAiminus,OAiout,
-OAipluslabel=$i_P$,
-OAiminuslabel=$i_M$,
-OAioutlabel=$i_A$,
-intensitycolor=red,
-intensitylabelcolor=red](A)(B)(C)
-\end{pspicture}
-
-
-
-\texttt{pst-barcode}
-\begin{postscript}
-\psframebox{\begin{pspicture}(2.5,1in)
-\psbarcode{12345678}{includetext}{ean8}
-\end{pspicture}}
-\end{postscript}
-
-\texttt{pst-bar}
-\begin{postscript}
-\psset{unit=0.5in}%
-\begin{pspicture}(0,-0.5)(3,4.5)%
-\psgrid[xunit=1.5in,gridlabels=0,%
-subgriddiv=0,griddots=30](0,0)(1,4)%
-\psaxes[axesstyle=frame,Ox=0,Dx=1,labels=y,%
-ticks=y](0,0)(3,4)%
-\readpsbardata{\data}{example2.csv}%
-\psbarchart[barstyle={red,blue}]{\data}%
-\end{pspicture}
-\end{postscript}
-
-\texttt{pst-math}
-\begin{pspicture*}(-0.75,-.75)(6,5)
-\psaxes{->}(6,5)
-\psset{linewidth=1.5pt,plotpoints=200}
-\psplot{.1}{6}{x GAMMA}
-\psplot{.1}{6}{x GAMMALN}
-\end{pspicture*}
-
-\texttt{pst-func}
-\begin{pspicture*}(-3,-2.2)(3.6,2.5)
-\psaxes{->}(0,0)(-3,-2)(3.2,2)[$x$,0][$y$,90]
-\psplotImp[linewidth=2pt,algebraic](-5,-2.2)(5,2.4){%
-(x^2+y^2)^2-8*(x^2-y^2)}
-\rput*(2,1.5){$\left(x^2+y^2\right)^2-8(x^2-y^2)=0$}
-\psplotImp[linewidth=1pt,linecolor=red,
-algebraic](-5,-2.2)(5,2.4){(x^2+y^2)^2-4*(x^2-y^2)}
-\end{pspicture*}
-
-\texttt{pst-eucl}
-\begin{postscript}
-\pstGeonode[PosAngle={0,90}](2,2){A_0}(-2,2){B_0}%
-\psset{RotAngle=90}
-\pstRotation[PosAngle=270]{A_0}{B_0}[D_0]
-\pstRotation[PosAngle=180]{D_0}{A_0}[C_0]
-\pspolygon(A_0)(B_0)(C_0)(D_0)%
-\psset{PointSymbol=none, PointName=none, HomCoef=.2}
-\multido{\n=1+1,\i=0+1}{20}{%
-\pstHomO[PosAngle=0]{B_\i}{A_\i}[A_\n]
-\pstHomO[PosAngle=90]{C_\i}{B_\i}[B_\n]
-\pstHomO[PosAngle=180]{D_\i}{C_\i}[C_\n]
-\pstHomO[PosAngle=270]{A_\i}{D_\i}[D_\n]
-\pspolygon(A_\n)(B_\n)(C_\n)(D_\n)}% fin multido
-\end{postscript}
-
-\texttt{pst-labo}
-\begin{postscript}
-\psset{unit=0.5cm,
-glassType=becher,
-burette=false}
-\pstDosage[phmetre]
-\end{postscript}
-
-\texttt{psgo}
-\begin{postscript}
-\psscalebox{0.7}{%
-\begin{psgopartialboard}[9]{(4,1)(9,6)}
-\stone{white}{c}{3} \stone{white}{e}{3}
-\stone{white}{d}{2} \stone{white}{d}{4}
-\stone{black}{f}{3} \stone{black}{e}{2}
-\stone{black}{e}{4}
-\end{psgopartialboard}}
-\end{postscript}
-
-\texttt{vaucanson-g}
-\begin{postscript}
-\begin{VCPicture}{(0,-2)(5.5,2)}
-\State[p]{(0,0)}{A} \State{(2.5,0)}{B}
-\State[r]{(5.5,0)}{C}\Initial{A} \Final{C}
-\EdgeL{A}{B}{a} \ArcL{B}{C}{b}
-\ArcL{C}{B}{b} \LoopN{A}{a} \LoopS{C}{d}
-\end{VCPicture}
-\end{postscript}
-
-Example for PSFRAG (from auto-pst-pdf)
-psfrag example with replacements defined in example-psfrag.tex:\par
-\begin{postscript}
-\psfragfig{example}
-\end{postscript}
-The same example with a psfrag override (bottom left):
-\begin{postscript}
-\psfragfig{example}[\psfrag{[Mp]}{$N_Q*$}]
-\end{postscript}
-\end{document}
diff --git a/Master/texmf-dist/doc/latex/pst2pdf/test2.pdf b/Master/texmf-dist/doc/latex/pst2pdf/test2.pdf
deleted file mode 100644
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--- a/Master/texmf-dist/doc/latex/pst2pdf/test2.pdf
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