% % \iffalse % %% graphics.dtx Copyright (C) 1994 David Carlisle Sebastian Rahtz %% Copyright (C) 1995--1999 2001 David Carlisle %% Copyright (C) 2005--2006 David Carlisle, LaTeX3 Project %% %% This file is part of the Standard LaTeX `Graphics Bundle'. %% It may be distributed under the terms of the LaTeX Project Public %% License, as described in lppl.txt in the base LaTeX distribution. %% Either version 1.3c or, at your option, any later version. %% %% This file has the LPPL maintenance status "maintained". %% %<*dtx> \ProvidesFile{graphics.dtx} % %\NeedsTeXFormat{LaTeX2e}[1995/12/01] %\ProvidesPackage{graphics} % \ProvidesFile{graphics.drv} % \fi % \ProvidesFile{graphics.dtx} [2006/02/20 v1.0o Standard LaTeX Graphics (DPC,SPQR)] % % \iffalse %<*driver> \documentclass{ltxdoc} \newenvironment{option}[1]{\expandafter\macro\expandafter{% \csname ds@#1\endcsname}}{\endmacro} \begin{document} \DocInput{graphics.dtx} \end{document} % % \fi % % \GetFileInfo{graphics.dtx} % % \title{The \textsf{graphics} package\thanks{This file % has version number \fileversion, last % revised \filedate.}} % \author{D. P. Carlisle\and S. P. Q. Rahtz} % \date{\filedate} % \maketitle % % \CheckSum{1173} % % \changes{v0.3a}{1994/02/24} % {First DPC version (after prototype by SPQR).} % \changes{v0.4e}{1994/05/30} % {Rename egraphics to graphicx} % \changes{v1.0}{1996/05/29} % {Version 1 at last} % % % \def\star{{\ttfamily*}} % \makeatletter % \def\Describe@Macro#1{\endgroup % \setbox0=\lastbox\llap{\PrintDescribeMacro{#1}}}% % \makeatother % \marginparsep0pt % % \section{Introduction} % % This package implements various `graphics' functions. The main % features are a) inclusion of `graphics' files. b) Rotation of sections % of the page, c) Scaling of sections of the page. % % The design is split into three `levels'. % \begin{itemize} % \item The user interface. This is the collection of commands designed % to appear in a document text. Actually two separate user interface % have been implemented. The `standard' interface, described here, and a % more powerful, and more `user-friendly' interface provided by the % |graphicx| package. % \item The core functions. These functions, which are also implemented % in this file do all the `main work'. The `user-interface functions % just collect together the information from any optional-arguments or % star-forms, and then call one of these functions. % \item The driver files. It is not possible to achieve the % functionality of this package just using \TeX. The |dvi| driver used % must be given additional instructions. (Using the |\special| command % of \TeX.) Unfortunately, the capabilities of various drivers differ, % and the syntax required to pass instructions to the drivers is also % not standardised. So the `core functions' never access |\special| % directly, but rather call a series of commands that must be defined in % a special file customised for each driver. The accompanying file, % |drivers.dtx| has suitable files for a range of popular drivers. % \end{itemize} % % \section{Package Options} % Most of the options, such as |dvips|, |textures| etc., specify the % driver that is to be used to print the document. You may wish to set % up a configuration file so that this option always takes effect, even % if not specified in the document. To do this, produce a file % |graphics.cfg| containing the line:\\ % |\ExecuteOptions{dvips}|\\ % (or whichever other driver you wish.) % % Apart from the driver options there are a few other options to control % the behaviour of the package. % \begin{description} % \item[draft] % Do not include graphics files, but instead print a box of the size % the graphic would take up, and the file name. This greatly speeds up % previewing on most systems. % \item[final] % Turns off the |draft| option. % \item[debugshow] % Show a lot of tracing information on the terminal. If you are not me % you probably do not want to use this option. % \item[hiderotate] % Do not show rotated text. Sometimes useful if your previewer can not % rotate text. % \item[hidescale] % Do not show scaled text. % \item[hiresbb] % Look for Bounding Box lines of the form |%%HiResBoundingBox| instead % of the standard |%%BoundingBox|. These are used by some applications % to get round the restriction that BoundingBox comments should only % have integer values. % \item[demo] Instead of including a graphics file, make % |\includegraphics| insert a black rectangle of size 150\,pt by % 100\,pt unless either dimension was already specified by another % option. % \end{description} % % \section{Standard Interface} % % \subsection{Graphics Inclusion} % % \DescribeMacro % \includegraphics\star\oarg{llx,lly}\oarg{urx,ury}\marg{file}\\ % Include a graphics file. % % If \star\ is present, then the graphic is `clipped' to the size % specified. If \star\ is omitted, then any part of the graphic that is % outside the specified `bounding box' will over-print the surrounding % text. % % If the optional arguments are omitted, then the size of the graphic % will be determined by reading an external file as described below. % If \oarg{urx,ury} is present, then it should specify the coordinates % of the top right corner of the image, as a pair of \TeX\ dimensions. % If the units are ommited they default to |bp|. So |[1in,1in]| and % |[72,72]| are equivalent. If only one optional argument appears, the % lower left corner of the image is assumed to be at |[0,0]|. Otherwise % \oarg{llx,lly} may be used to specify the cordinates of this point. % % \DescribeMacro % \graphicspath\marg{dir-list}\\ % This optional declaration may be used to specify a list of directories % in which to search for graphics files. The format is as for the % \LaTeXe\ primitive |\input@path|, a list of directories, each in a % |{}| group (even if there is only one in the list). For example: % |\graphicspath{{eps/}{tiff/}}| % would cause the system to look in the subdirectories |eps| and |tiff| % of the current directory. The default setting of this path is % |\input@path| that is: graphics files will be found wherever \TeX\ % files are found. % % \DescribeMacro % \DeclareGraphicsExtensions\marg{ext-list}\\ % This specifies the behaviour of the system when the argument to % |\includegraphics| does not have an extension specified. % Here \marg{ext-list} should be a comma-separated list of file % extensions, each with a leading period (\texttt{.}). % A file name is produced by appending \emph{sep} and one extension. % If a file is found, the system acts as if that extension had been % specified. If not, the next extension in \emph{ext-list} is tried. % \changes{v1.0m}{2001/06/07}{Extended documentation (CAR) graphics/3228} % % Each use of |\DeclareGraphicsExtensions| overwrites all previous % definitions. It is not possible to add an extension to an % existing list. % % Early versions of this package defined a default argument for this % command. This has been removed. % % \DescribeMacro % \DeclareGraphicsRule % \marg{ext}\marg{type}\marg{read-file}\marg{command}\\ % Any number of these declarations can be made. They determine how the % system behaves when a file with extension \emph{ext} is specified. % (The extension may be specified explicitly or, if the argument to % |\includegraphics| does not have an extension, it may be a default % extension from the \emph{ext-list} specified with % |\DeclareGraphicsExtensions|.) % % \emph{ext} is the \emph{extension} of the file. Any file with this % extension will be processed by this graphics rule. Normally a file % with an extension for which no rule has been declared will generate an % error, however you may use |*| as the extension to define a % \emph{default rule}. For instance the |dvips| driver file declares all % files to be of type |eps| unless a more specific rule is declared. % % Since Version v0.6, extensions should be specified including the |.| % that is, |.eps| not |eps|. % % \emph{type} is the `type' of file involved. All files of the same type % will be input with the same internal command (which must be defined in % a `driver file'). For example files with extensions |ps|, |eps|, % |ps.gz| may all be classed as type |eps|. % % \emph{read-file} determines the extension of the file that should be % read to determine size information. It may be the same as \emph{ext} % but it may be different, for example |.ps.gz| files are not readable % easily by \TeX, so you may want to put the bounding box information in % a separate file with extension |.ps.bb|. If \emph{read-file} is empty, % |{}|, then the system will not try to locate an external file for size % info, and the size must be specified in the arguments of % |\includegraphics|. As a special case |*| may be used to denote the % same extension as the graphic file. This is mainly of use in % conjuction with using |*| as the extension, as in that case the % particular graphic extension is not known. For example %\begin{verbatim} % \DeclareGraphicsRule{*}{eps}{*}{} %\end{verbatim} % This would declare a default rule, such that all unknown extensions % would be treated as EPS files, and the graphic file would be read for % a BoundingBox comment. % % If the driver file specifies a procedure for % reading size files for \emph{type}, that will be used, otherwise the % procedure for reading |eps| files will be used. Thus the size of % bitmap files may be specified in a file with a PostScript style % |%%BoundingBox| line, if no other specific format is available. % % \emph{command} is usually empty, but if non empty it is used in place % of the filename in the |\special|. Within this argument, |#1| may be % used to denote the filename. Thus using the dvips driver, one may % use\\ % |\DeclareGrahicsRule{.ps.gz}{eps}{.ps.bb}{`zcat #1}|\\ % the final argument causes dvips to use the |zcat| command to unzip the % file before inserting it into the PostScript output. % % \subsection{Rotation} % % \DescribeMacro % \rotatebox\marg{angle}\marg{text}\\ % Rotate \emph{text} \emph{angle} degrees anti-clockwise. Normally % the rotation is about the left-hand end of the baseline of % \emph{text}. % % \subsection{Scaling} % % \DescribeMacro % \scalebox\marg{h-scale}\oarg{v-scale}\marg{text}\\ % Scale \emph{text} by the specified amounts. If \emph{v-scale} is % omitted, the vertical scale factor is the same as the horizontal one. % % \DescribeMacro % \resizebox\star\marg{h-length}\marg{v-length}\marg{text}\\ % Scale \emph{text} so that the width is \emph{h-length}. % If |!| is used as either length argument, the other argument is used % to determine a scale factor that is used in both directions. % Normally \emph{v-length} refers to the height of the box, but in the % star form, it refers to the `height + depth'. % As normal for \LaTeXe\ box length arguments, |\height|, % |\width|, |\totalheight| and |\depth| may be used to refer to the % original size of the box. % % \section{The Key=Value Interface} % As mentioned in the introduction, apart from the above `standard % interface', there is an alternative syntax to the |\includegraphics| % and |\rotatebox| commands that some people may prefer. It is provided % by the accompanying |graphicx| package. % % \StopEventually{} % % \section{The Graphics Kernel Functions} % % \subsection{Graphics Inclusion} % % \DescribeMacro % {\Ginclude@graphics}\marg{file}\\ % Insert the contents of the file \emph{file} at the current point. % |\Ginclude@graphics| may use the four macros |\Gin@llx|, |\Gin@lly|, % |\Gin@urx|, |\Gin@ury| to determine the `bounding box' of the graphic. % The result will be a \TeX\ box of width $\mathit{urx}-\mathit{llx}$ % and height $\mathit{ury}-\mathit{lly}$. If |\Gin@clip| is \meta{true} % then part of the graphic that is outside this box should not be % displayed. (Not all drivers can support this `clipping'.) Normally all % these parameters are set by the `user interface level'. % % % \DescribeMacro % {\Gread@eps}\marg{file}\\ % For each \emph{type} of graphics file supported, the driver file must % define |\Ginclude@|\emph{type} and, optionally |\Gread@|\emph{type}. % The read command is responsible for obtaining size information from % the file specified in the |\DeclareGraphicsRule| command. However the % kernel defines a function, |\Gread@eps|, which can read PostScript % files to find the % |%%BoundingBox| comment. This function will be used for any type for % which a specific function has not been declared. |\Gread@eps| accepts % a generalised version of the bounding box comment. \TeX\ units may be % used (but there must be no space before the unit). If the unit is % omitted |bp| is assumed. So\\ % |%%BoundingBox 0 0 2in 3in|\\ % Would be accepted by this function, to produce a 2in wide, by 3in high % graphic. % % \subsection{Rotation} % % \DescribeMacro % {\Grot@box}\\ % Rotate the contents of |\box0| through |\Grot@angle| degrees % (anti-clockwise). The user-interface is responsible for setting the % macro |\Grot@angle|, and putting the appropriate text in |\Grot@box|. % % \subsection{Scaling} % % \DescribeMacro % {\Gscale@box}\marg{xscale}\oarg{yscale}\marg{text}\\ % (The second argument is not optional.) % Scale \emph{text} by the appropriate scale factors. % % \DescribeMacro % {\Gscale@box@dd}\marg{dima}\marg{dimb}\marg{text}\\ % Scale \emph{text} in both directions by a factor % \emph{dima}/\emph{dimb}. % % \DescribeMacro % {\Gscale@box@dddd} % \marg{dima}\marg{dimb}\marg{dimc}\marg{dimd}\marg{text}\\ % Scale \emph{text} in horizontally by a factor \emph{dima}/\emph{dimb}, % and vertically by a factor of \emph{dimc}/\emph{dimd}. % % \DescribeMacro % {\Gscale@div}\marg{cmd}\marg{dima}\marg{dimb}\\ % Define the macro \emph{cmd} to be the ratio of the lengths % \emph{dima}/\emph{dimb}. % % % \section{Interface to the Driver Files} % % \subsection{Graphics Inclusion} % % Each driver file must declare that its driver can include graphics of % certain \emph{types}. It does this by declaring for each type a % command of the form:\\ % |\Ginclude@|\emph{type}\\ % The Graphics kernel function will call this driver-defined function % with the filename as argument, and certain additional information will % be provided as follows.: % % \noindent\begin{tabular}{p{.4\textwidth}p{.5\textwidth}} % |\Gin@llx|, |\Gin@lly|,\newline % |\Gin@urx|, |\Gin@ury| &Macros storing the `bounding box'\\ % |\Gin@nat@width|\newline |\Gin@nat@height| & % Registers storing the natural size.\\ % |\Gin@req@width|\newline |\Gin@req@height| & % Registers storing the required size, after scaling.\\ % |\Gin@scalex|, |\Gin@scaley| & macros with the scale factors. A value % of |!| means: Scale by the same amount as the other direction.\\ % |\ifGin@clip| & |\newif| token, true if the graphic should be % `clipped' to the bounding box. % \end{tabular} % % Optionally the driver may define a command of the form:\\ % |\Gread@|\emph{type}\\ % This is responsible for reading an external file to find the bounding % box information. If such a command is not declared, but a read-file is % specified the command |\Gread@eps|, which is defined in the Graphics % Kernel will be used. % % \subsection{Literal Postscript} % Drivers that are producing PostScript output may want to define % the following macros. They each take one argument which should be % passed to an appropriate special. They are not used directly by this % package but allow other packages to use the standard configuration % file and package options to customise to various drivers:\\ % |\Gin@PS@raw|, Literal PostScript special.\\ % |\Gin@PS@restored|, Literal PostScript special, the driver will % surround this with a save-restore pair.\\ % |\Gin@PS@literal@header|, Postscript to be inserted in the header % section of the PostScript file.\\ % |\Gin@PS@file@header|, external file to be inserted in the header % section of the PostScript file. % % % \subsection{Rotation} % % |\Grot@start|, |\Grot@end| These macros must be defined to insert the % appropriate |\special| to rotate the text between them by % |\Grot@angle| degrees. The kernel function will make sure that the % correct \TeX\ spacing is produced, these functions only need insert % the |\special|. % % \subsection{Scaling} % % |\Gscale@start|, |\Gscale@end|, as for rotation, but here scale the % text by |\Gscale@x| and |\Gscale@y|. % % % \section{Implementation} % % \begin{macrocode} %<*package> % \end{macrocode} % % \subsection{Initialisation} % % \begin{macro}{\Gin@codes} % First we save the catcodes of some characters, and set them to % fixed values whilst this file is being read. % \changes{v0.5a}{1994/07/20} % {Save and restore catcodes} % \begin{macrocode} \edef\Gin@codes{% \catcode`\noexpand\^^A\the\catcode`\^^A\relax \catcode`\noexpand\"\the\catcode`\"\relax \catcode`\noexpand\*\the\catcode`\*\relax \catcode`\noexpand\!\the\catcode`\!\relax \catcode`\noexpand\:\the\catcode`\:\relax} % \end{macrocode} % % \begin{macrocode} \catcode`\^^A=\catcode`\% \@makeother\"% \catcode`\*=11 \@makeother\!% \@makeother\:% % \end{macrocode} % \end{macro} % % We will need to have an implementation of the trigonometric % functions for the rotation feature. May as well load it now. % \begin{macrocode} \RequirePackage{trig} % \end{macrocode} % % \begin{macro}{\Grot@start} % \begin{macro}{\Grot@end} % Initialise the rotation primitives. % \begin{macrocode} \providecommand\Grot@start{\@latex@error{Rotation not supported}\@ehc \global\let\Grot@start\relax} \providecommand\Grot@end{} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gscale@start} % \begin{macro}{\Gscale@end} % Initialise the scaling primitives. % \begin{macrocode} \providecommand\Gscale@start{\@latex@error{Scaling not supported}\@ehc \global\let\Gscale@start\relax} \providecommand\Gscale@end{} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gread@BBox} % \changes{v1.0b}{1996/10/29} % {Moved to initial section, for hiresbb option} % |%%BoundingBox| as a macro for testing with |\ifx|. % This may be redefined by the hiresbb option. % \begin{macrocode} \edef\Gread@BBox{\@percentchar\@percentchar BoundingBox} % \end{macrocode} % \end{macro} % % \subsection{Options} % % \begin{option}{draft} % \begin{option}{final} % \changes{v0.3i}{1994/03/23} % {notdraft option added} % \changes{v0.4a}{1994/04/13} % {Rename option to nodraft} % \changes{v0.4d}{1994/05/06} % {Rename option to final} % \begin{macrocode} \DeclareOption{draft}{\Gin@drafttrue} \DeclareOption{final}{\Gin@draftfalse} % \end{macrocode} % \end{option} % \end{option} % % \begin{macro}{\ifGin@draft} % True in draft mode. % \begin{macrocode} \newif\ifGin@draft % \end{macrocode} % \end{macro} % % \begin{option}{hiresbb} % \changes{v1.0b}{1996/10/29} % {hiresbb option added} % If given this option the package will look for bounding box comments % of the form |%%HiResBoundingBox| (which typically have real values) % instead of the standard |%%BoundingBox| (which should have integer % values). % \begin{macrocode} \DeclareOption{hiresbb}{% \edef\Gread@BBox{\@percentchar\@percentchar HiResBoundingBox}} % \end{macrocode} % \end{option} % % \begin{option}{demo} % \changes{v1.0o}{2006/02/20}{demo option added} % If given this option the package will disregard the actual % graphics file and insert a black box unless width or height are % already specified. % \begin{macrocode} \DeclareOption{demo}{% \AtBeginDocument{% \def\Ginclude@graphics#1{% \rule{\@ifundefined{Gin@@ewidth}{150pt}{\Gin@@ewidth}}% {\@ifundefined{Gin@@eheight}{100pt}{\Gin@@eheight}}}}} % \end{macrocode} % \end{option} % % \begin{macro}{\Gin@driver} % Driver in use. % \begin{macrocode} \providecommand\Gin@driver{} % \end{macrocode} % \end{macro} % % \begin{option}{dvips} % \changes{v0.3g}{1994/03/15} % {Use dvips def file not development version} % \begin{option}{xdvi} % Tomas Rockiki's PostScript driver (unix, MSDOS, VMS\ldots). % The |X11| previewer |xdvi| supports basically the same set of % |\specials|. % \begin{macrocode} \DeclareOption{dvips}{\def\Gin@driver{dvips.def}} \DeclareOption{xdvi}{\ExecuteOptions{dvips}} % \end{macrocode} % \end{option} % \end{option} % % \begin{option}{dvipdf} % \changes{v1.0c}{1996/10/31} % {dvipdf added} % Sergey Lesenko's dvipdf driver. % \begin{macrocode} \DeclareOption{dvipdf}{\def\Gin@driver{dvipdf.def}} % \end{macrocode} % \end{option} % % \begin{option}{dvipdfm} % \changes{v1.0k}{1999/01/13} % {dvipdfm added} % Mark Wick's dvipdfm driver. % \begin{macrocode} \DeclareOption{dvipdfm}{\def\Gin@driver{dvipdfm.def}} % \end{macrocode} % \end{option} % % \begin{option}{dvipdfmx} % \changes{v1.0m}{2005/11/14} % {dvipdfmx added} % The driver for the dvipdfmx project. % \begin{macrocode} \DeclareOption{dvipdfmx}{\def\Gin@driver{dvipdfmx.def}} % \end{macrocode} % \end{option} % % \begin{option}{xetex} % \changes{v1.0m}{2005/11/14} % {xetex added} % Jonathan Kew's \TeX\ variant. % \begin{macrocode} \DeclareOption{xetex}{\def\Gin@driver{xetex.def}} % \end{macrocode} % \end{option} % % \begin{option}{pdftex} % \changes{v1.0d}{1997/06/07} % {pdftex added} % Han The Thanh's \TeX\ variant. % \begin{macrocode} \DeclareOption{pdftex}{\def\Gin@driver{pdftex.def}} % \end{macrocode} % \end{option} % % \begin{option}{dvipsone} % \begin{option}{dviwindo} % \changes{v0.3c}{1994/03/04} % {dviwindo support.} % \changes{v0.7c}{1995/09/07} % {Merge dviwindo option with dvipsone} % The drivers for the Y\&Y \TeX\ system. % \begin{macrocode} \DeclareOption{dvipsone}{\def\Gin@driver{dvipsone.def}} \DeclareOption{dviwindo}{\ExecuteOptions{dvipsone}} % \end{macrocode} % \end{option} % \end{option} % % \begin{option}{emtex} % \begin{option}{dviwin} % Two freely available sets of drivers for MSDOS, OS/2 and Windows. % \begin{macrocode} \DeclareOption{emtex}{\def\Gin@driver{emtex.def}} \DeclareOption{dviwin}{\def\Gin@driver{dviwin.def}} % \end{macrocode} % \end{option} % \end{option} % % \begin{option}{oztex} % \changes{v1.0f}{1997/09/09} % {Merge dvips and oztex options} % Oz\TeX\ (Macintosh). % Since release 3 of Oz\TeX, merge with dvips back end. % \begin{macrocode} \DeclareOption{oztex}{\ExecuteOptions{dvips}} % \end{macrocode} % \end{option} % % \begin{option}{textures} % Textures (Macintosh). % \begin{macrocode} \DeclareOption{textures}{\def\Gin@driver{textures.def}} % \end{macrocode} % \end{option} % % \begin{option}{pctexps} % \begin{option}{pctexwin} % \begin{option}{pctexhp} % \begin{option}{pctex32} % \changes{v1.0b}{1996/10/29} % {pctex32 option added} % PC\TeX\ (MSDOS/Windows) . % \begin{macrocode} \DeclareOption{pctexps}{\def\Gin@driver{pctexps.def}} \DeclareOption{pctexwin}{\def\Gin@driver{pctexwin.def}} \DeclareOption{pctexhp}{\def\Gin@driver{pctexhp.def}} \DeclareOption{pctex32}{\def\Gin@driver{pctex32.def}} % \end{macrocode} % \end{option} % \end{option} % \end{option} % \end{option} % % \begin{option}{truetex} % \changes{v1.0b}{1996/10/29} % {truetex and tcidef options added} % \begin{option}{tcidvi} % Kinch TrueTeX, and its version with extended special support as % shipped by Scientific Word. % \begin{macrocode} \DeclareOption{truetex}{\def\Gin@driver{truetex.def}} \DeclareOption{tcidvi}{\def\Gin@driver{tcidvi.def}} % \end{macrocode} % \end{option} % \end{option} % % \begin{option}{vtex} % \changes{v1.0h}{1998/05/27} % {vtex option added} % V\TeX\ driver. % \begin{macrocode} \DeclareOption{vtex}{\def\Gin@driver{vtex.def}} % \end{macrocode} % \end{option} % % \begin{option}{dvi2ps} % \begin{option}{dvialw} % \begin{option}{dvilaser} % \begin{option}{dvitops} % \begin{option}{psprint} % \begin{option}{pubps} % \begin{option}{ln} % \changes{v0.6b}{1994/12/12} % {ln support (untested)} % \changes{v1.0b}{1996/10/29} % {options for historic drivers depreciated} % If \emph{anyone} is using any of these driver options % would they let me know. All these are essentially untried % and untested as far as I know. % \begin{macrocode} %\DeclareOption{dvi2ps}{\def\Gin@driver{dvi2ps.def}} %\DeclareOption{dvialw}{\def\Gin@driver{dvialw.def}} %\DeclareOption{dvilaser}{\def\Gin@driver{dvilaser.def}} %\DeclareOption{dvitops}{\def\Gin@driver{dvitops.def}} %\DeclareOption{psprint}{\def\Gin@driver{psprint.def}} %\DeclareOption{pubps}{\def\Gin@driver{pubps.def}} %\DeclareOption{ln}{\def\Gin@driver{ln.def}} % \end{macrocode} % \end{option} % \end{option} % \end{option} % \end{option} % \end{option} % \end{option} % \end{option} % % \begin{option}{debugshow} % You probably don't want to use this\ldots % \begin{macrocode} \DeclareOption{debugshow}{\catcode`\^^A=9 \let\GDebug\typeout} % \end{macrocode} % \end{option} % % A local configuration file may define more options. % It should also make one driver option the default, by calling % |\ExecuteOptions| with the appropriate option. % \changes{v0.4f}{1994/07/27} % {Add missing 3rd argument to \cs{InputIfFileExists}} % \begin{macrocode} \InputIfFileExists{graphics.cfg}{}{} % \end{macrocode} % % \begin{option}{hiderotate} % \changes{v0.4a}{1994/04/13} % {Rename option to hiderotate} % \begin{macrocode} \DeclareOption{hiderotate}{% \def\Grot@start{\begingroup\setbox\z@\hbox\bgroup} \def\Grot@end{\egroup\endgroup}} % \end{macrocode} % \end{option} % % \begin{option}{hidescale} % \changes{v0.4a}{1994/04/13} % {Rename option to hidescale} % \begin{macrocode} \DeclareOption{hidescale}{% \def\Gscale@start{\begingroup\setbox\z@\hbox\bgroup} \def\Gscale@end{\egroup\endgroup}} % \end{macrocode} % \end{option} % % After the options are processed, load the appropriate driver file. % If a site wants a default driver (eg |textures|) it just needs to put % |\ExecuteOptions{textures}| in a |graphics.cfg| file. % \begin{macrocode} \ProcessOptions % \end{macrocode} % % Check that a driver has been specified (either as an option, or as a % default option in the configuration file). Then load the `def' file % for that option, if it has not already been loaded by some other % package (for instance the \textsf{color} package). % \changes{v0.5c}{1994/10/03} % {Error if no driver specified} % \begin{macrocode} \if!\Gin@driver! \PackageError{graphics} {No driver specified} {You should make a default driver option in a file \MessageBreak graphics.cfg\MessageBreak eg: \protect\ExecuteOptions{textures}% } \else \PackageInfo{graphics}{Driver file: \Gin@driver} \@ifundefined{ver@\Gin@driver}{\input{\Gin@driver}}{} \fi % \end{macrocode} % % % \subsection{Graphics Inclusion} % % This Graphics package uses a lot of dimension registers. \TeX\ only % has a limited number of registers, so rather than allocate new ones, % re-use some existing \LaTeX\ registers. This is safe as long as all % uses of the registers are \emph{local}, and that you can be sure % that you \emph{never} need to have access to both uses within the % same scope. % % \begin{macro}{\Gin@llx} % \begin{macro}{\Gin@lly} % \begin{macro}{\Gin@urx} % \begin{macro}{\Gin@ury} % In fact these four lengths are now stored as macros not as dimen % registers, mainly so that integer |bp| lengths may be passed exactly. % \changes{v0.7a}{1995/04/11} % {Bounding box coords no longer in registers} % \begin{macrocode} \def\Gin@llx{0} \let\Gin@lly\Gin@llx \let\Gin@urx\Gin@llx \let\Gin@ury\Gin@llx % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@nat@width} % \begin{macro}{\Gin@nat@height} % The `natural' size of the graphic, before any scaling. % \begin{macrocode} \let\Gin@nat@width\leftmarginv \let\Gin@nat@height\leftmarginvi % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\ifGin@clip} % This switch is \meta{true} if any graphics outside the specified % bounding box (really viewport) should not be printed. % \begin{macrocode} \newif\ifGin@clip % \end{macrocode} % \end{macro} % % \begin{macro}{\DeclareGraphicsExtensions} % \changes{v0.6a}{1994/11/29} % {Remove optional argument, ignore spaces in main argument.} % Declare a comma separated list of default extensions to be used % if the file is specified with no extension. % \begin{macrocode} \newcommand\DeclareGraphicsExtensions[1]{% \edef\Gin@extensions{\zap@space#1 \@empty}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@extensions} % Initialise the list of possible extensions. % \changes{v0.4b}{1994/04/20} % {Use \cmd{\providecommand} in case a previous def file has % already defined it} % \begin{macrocode} \providecommand\Gin@extensions{} % \end{macrocode} % \end{macro} % % \begin{macro}{\includegraphics} % Top level command for the standard interface, just look for a |*|. % \begin{macrocode} \def\includegraphics{% \@ifstar {\Gin@cliptrue\Gin@i}% {\Gin@clipfalse\Gin@i}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@i} % If an optional argument is present, call |\Gin@ii| to process it, % otherwise call |\Ginclude@graphics|. % \changes{v0.3e}{1994/03/09} % {Now specify ll before ur coordinate} % \begin{macrocode} \def\Gin@i{% \@ifnextchar[%] \Gin@ii {\Gin@bboxfalse\Ginclude@graphics}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@ii} % Look for a second optional argument. % \begin{macrocode} \def\Gin@ii[#1]{% \@ifnextchar[%] {\Gin@iii[#1]} {\Gin@iii[0,0][#1]}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@iii} % Set the cordinates of the {\bfseries l}lower {\bfseries l}eft corner, % and the cordinates of the {\bfseries u}pper {\bfseries r}ight % corner. The cordinates may be any \TeX\ dimension, defaulting to |bp|. % \changes{v0.6c}{1994/12/15} % {(Denis Roegel) Extra group to keep bb settings local} % \begin{macrocode} \def\Gin@iii[#1,#2][#3,#4]#5{% \begingroup \Gin@bboxtrue \Gin@defaultbp\Gin@llx{#1}% \Gin@defaultbp\Gin@lly{#2}% \Gin@defaultbp\Gin@urx{#3}% \Gin@defaultbp\Gin@ury{#4}% \Ginclude@graphics{#5}% \endgroup} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@defaultbp} % \changes{v0.7a}{1995/04/11}{Macro added} % \begin{macro}{\Gin@def@bp} % \changes{v0.7a}{1995/04/11}{Macro added} % This macro grabs a length, |#2|, which may or may not have a unit, % and if a unit is supplied, converts to `bp' and stores the value in % |#1|. If a unit is not supplied `bp' is assumed, and |#2| is directly % stored in |#1|. Note that supplying `bp' is not quite the same as % supplying no units, as in the former case a convertion via `pt' and % back to `bp' takes place which can introduce rounding error. The error % is invisibly small but files conforming to Adobe DSC should have % \emph{integer} Bounding Box Coordinates, and conceivably some drivers % might demand integer values. % (Although most seem to accept real values (if they accept bounding box % coordinates at all) in the |\special|. This is the reason why the % mechanism uses |\def| and not \TeX\ lengths, as in earlier releases of % the package. % \begin{macrocode} \def\Gin@defaultbp#1#2{% \afterassignment\Gin@def@bp\dimen@#2bp\relax{#1}{#2}} % \end{macrocode} % % \begin{macrocode} \def\Gin@def@bp#1\relax#2#3{% \if!#1!% \def#2{#3}% \else \dimen@.99626\dimen@ \edef#2{\strip@pt\dimen@}% \fi} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\DeclareGraphicsRule} % Declare what actions should be taken for a particular file % extension. % % |#1| extension, |#2| type, |#3| read-file, |#4| command, % \changes{v0.5d}{1994/10/24} % {(Arthur Ogawa) Check arg3 is *, not arg2.} % \begin{macrocode} \def\DeclareGraphicsRule#1#2#3#4{% \edef\@tempa{\string *}\def\@tempb{#3}% \expandafter\edef\csname Gin@rule@#1\endcsname##1% {{#2}% {\ifx\@tempa\@tempb\noexpand\Gin@ext\else#3\fi}% {\ifx\indent#4\indent##1\else#4\fi}}} % \end{macrocode} % \end{macro} % % An example rule base. %\begin{verbatim} % ext type read command % \DeclareGrahicsRule{.ps} {eps} {.ps} {} % \DeclareGrahicsRule{.eps} {eps} {.eps} {} % \DeclareGrahicsRule{.ps.gz}{eps} {.ps.bb} {`zcat #1} % \DeclareGrahicsRule{.pcx} {bmp} {} {} %\end{verbatim} % % \begin{macro}{\graphicspath} % User level command to set the input path for graphics files. % A list of directories, each in a |{}| group. % \begin{macrocode} \def\graphicspath#1{\def\Ginput@path{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Ginput@path} % The default graphic path is |\input@path|. % \begin{macrocode} \ifx\Ginput@path\@undefined \let\Ginput@path\input@path \fi % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@getbase} % \changes{v0.6a}{1994/11/29} % {remove \cs{Gin@sep}} % Given a possible extension, |#1|, check whether the file exists. If % it does set |\Gin@base| and |\Gin@ext| to the filename stripped of % the extension, and the extension, respectively. % \begin{macrocode} \def\Gin@getbase#1{% \edef\Gin@tempa{% \def\noexpand\@tempa####1#1\space{% \def\noexpand\Gin@base{####1}}}% \IfFileExists{\filename@area\filename@base#1}% {\Gin@tempa \expandafter\@tempa\@filef@und \edef\Gin@ext{#1}}{}}% % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@ext} % Initialise the macro to hold the extension. % \begin{macrocode} \let\Gin@ext\relax % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@sepdefault} % \changes{v0.6a}{1994/11/29} % {remove \cs{Gin@sep}} % This must match the token used by |\filename@parse| to delimit the % extension. % \begin{macrocode} \def\Gin@sepdefault{.} % \end{macrocode} % \end{macro} % % \begin{macro}{\Ginclude@graphics} % The main internal function implementing graphics file inclusion. % |#1| is the file name. % \changes{v0.4c}{1994/04/28} % {Improve the wording of error messages} % \changes{v0.5a}{1994/07/20} % {Add default (*) rule possibility} % \changes{v0.6a}{1994/11/29} % {remove \cs{Gin@sepdefault}} % \begin{macrocode} \def\Ginclude@graphics#1{% \begingroup \let\input@path\Ginput@path \filename@parse{#1}% \ifx\filename@ext\relax \@for\Gin@temp:=\Gin@extensions\do{% \ifx\Gin@ext\relax \Gin@getbase\Gin@temp \fi}% \else \Gin@getbase{\Gin@sepdefault\filename@ext}% % \end{macrocode} % \changes{v0.4d}{1994/05/06} % {Make file not found a warning not an error} % \changes{v0.6a}{1994/11/29} % {remove \cs{Gin@sep}} % If the user supplied an explicit extension, just give a warning if the % file does not exist. (It may be created later.) % \begin{macrocode} \ifx\Gin@ext\relax \@warning{File `#1' not found}% \def\Gin@base{\filename@area\filename@base}% % \end{macrocode} % \changes{v0.6c}{1994/12/15} % {(Piet van Oostrum) include `.' in \cs{Gin@ext}}% % \begin{macrocode} \edef\Gin@ext{\Gin@sepdefault\filename@ext}% \fi \fi % \end{macrocode} % If no extension is supplied, it is an error if the file does not % exist, as there is no way for the system to know which extension to % supply. % \begin{macrocode} \ifx\Gin@ext\relax \@latex@error{File `#1' not found}% {I could not locate the file with any of these extensions:^^J% \Gin@extensions^^J\@ehc}% \else \@ifundefined{Gin@rule@\Gin@ext}% % \end{macrocode} % \changes{v0.5a}{1994/07/20} % {Add default (*) rule possibility} % Handle default rule. % \begin{macrocode} {\ifx\Gin@rule@*\@undefined \@latex@error{Unknown graphics extension: \Gin@ext}\@ehc \else \expandafter\Gin@setfile\Gin@rule@*{\Gin@base\Gin@ext}% \fi}% {\expandafter\expandafter\expandafter\Gin@setfile \csname Gin@rule@\Gin@ext\endcsname{\Gin@base\Gin@ext}}% \fi \endgroup} % \end{macrocode} % \end{macro} % % \begin{macro}{\ifGread@} % True if a file should be read to obtain the natural size. % \begin{macrocode} \newif\ifGread@\Gread@true % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@setfile} % Set a file to the size specified in arguments, or in a `read file'. % \changes{v0.5d}{1994/10/24} % {(Arthur Ogawa) Add missing \cs{expandafter}} % \begin{macrocode} \def\Gin@setfile#1#2#3{% \ifx\\#2\\\Gread@false\fi \ifGin@bbox\else \ifGread@ \csname Gread@% \expandafter\ifx\csname Gread@#1\endcsname\relax eps% \else #1% \fi \endcsname{\Gin@base#2}% \else % \end{macrocode} % \changes{v0.5a}{1994/07/20} % {New error trap for missing size arguments} % \changes{v0.7f}{1995/11/10} % {Use \cs{Gin@nosize}} % By now the natural size should be known either from arguments or % from the file. If not generate an error. (The \textsf{graphicx} % interface relaxes this condition slightly.) % \begin{macrocode} \Gin@nosize{#3}% \fi \fi % \end{macrocode} % \changes{v0.7a}{1995/04/11}{\cs{Gin@viewport@code} added.} % The following call will modify the `natural size' if the user has % supplied a viewport or trim specification. (Not available in the % standard interface.) % \begin{macrocode} \Gin@viewport@code % \end{macrocode} % Save the natural size, and then call |\Gin@req@sizes| whic (in the % key-val interface) will calculate the required size from the natural % size, and any scaling info. % \begin{macrocode} \Gin@nat@height\Gin@ury bp% \advance\Gin@nat@height-\Gin@lly bp% \Gin@nat@width\Gin@urx bp% \advance\Gin@nat@width-\Gin@llx bp% \Gin@req@sizes % \end{macrocode} % % Call |\Ginclude@|\emph{type} to include the figure unless % this is not defined, or draft mode is being used. % \changes{v0.7h}{1996/02/20} % {missing \texttt{@} added in \texttt{Gread@} csnames} % \begin{macrocode} \expandafter\ifx\csname Ginclude@#1\endcsname\relax \Gin@drafttrue \expandafter\ifx\csname Gread@#1\endcsname\relax \@latex@error{Can not include graphics of type: #1}\@ehc \global\expandafter\let\csname Gread@#1\endcsname\@empty \fi \fi \leavevmode \ifGin@draft \hb@xt@\Gin@req@width{% \vrule\hss \vbox to \Gin@req@height{% \hrule \@width \Gin@req@width \vss \edef\@tempa{#3}% \rlap{ \ttfamily\expandafter\strip@prefix\meaning\@tempa}% \vss \hrule}% \hss\vrule}% \else % \end{macrocode} % \changes{v0.3i}{1994/3/23} % {Add file list info} % Support |\listfiles| and then set the final box to the required size. % \begin{macrocode} \@addtofilelist{#3}% \ProvidesFile{#3}[Graphic file (type #1)]% \setbox\z@\hbox{\csname Ginclude@#1\endcsname{#3}}% \dp\z@\z@ \ht\z@\Gin@req@height \wd\z@\Gin@req@width \box\z@ \fi} % \end{macrocode} % \end{macro} % % % \begin{macro}{\Gin@exclamation} % \changes{v0.7g}{1995/12/06}{Macro added} % Catcode 12 |!|, in case of French, or other language styles. % \begin{macrocode} \def\Gin@exclamation{!} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@req@sizes} % \begin{macro}{\Gin@scalex} % \begin{macro}{\Gin@scaley} % \begin{macro}{\Gin@req@height} % \begin{macro}{\Gin@req@width} % In the standard interface there is no scaling, so the required size % is the same as the natural size. In other interfaces |\Gin@req@sizes| % will be responsible for setting these parameters. Here we can set them % globally. % \changes{v0.3g}{1994/03/15} % {Initialise y-scale to !!} % \changes{v1.0g}{1998/05/14} % {Fix !! usage in changes entries. graphics/2724} % \begin{macrocode} \let\Gin@req@sizes\relax \def\Gin@scalex{1}% \let\Gin@scaley\Gin@exclamation \let\Gin@req@height\Gin@nat@height \let\Gin@req@width\Gin@nat@width % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@viewport@code} % In the standard interface there is no possibility of specifying % a viewport, so this is a no-op. % \changes{v0.7a}{1995/04/11}{Macro added} % \begin{macrocode} \let\Gin@viewport@code\relax % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@nosize} % \changes{v0.7f}{1995/11/10} % {Macro added} % This command is called in the case that the graphics type % specifies no `read file' and the user supplied no size arguments. % In the standard interface can only generate an error. % \begin{macrocode} \def\Gin@nosize#1{% \@latex@error {Cannot determine size of graphic in #1 (no size specifed)}% \@ehc} % \end{macrocode} % \end{macro} % % \subsection{Reading the BoundingBox in EPS files} % % \begin{macro}{\ifGin@bbox} % \changes{v0.7a}{1995/04/11}{Name changed from \cs{ifGin@viewport}} % This switch should be set \meta{true} once a size has been found, % either in an argument, or in an external file. % \begin{macrocode} \newif\ifGin@bbox % \end{macrocode} % \end{macro} % % \begin{macro}{\Gread@eps} % Read an EPS file (|#1|) and search for a line % starting with |%%BoundingBox| and returns the result % by setting four dimension registers % |\Gin@llx|, |\Gin@lly|, |\Gin@urx| and |\Gin@ury|. % \changes{v0.5e}{1994/1l/02} % {Fix the catcodes of \cs{endlinechar} and ctrl-D} % \changes{v0.7a}{1995/04/11} % {Fix more catcodes, for binary headers of eps files} % \begin{macrocode} \def\Gread@eps#1{% \begingroup % \end{macrocode} % Make it reasonably safe to have binary headers in the EPS file % before the bounding box line. % \begin{macrocode} \@tempcnta\z@ \loop\ifnum\@tempcnta<\@xxxii \catcode\@tempcnta14 % \advance\@tempcnta\@ne \repeat \catcode`\^^?14 % \let\do\@makeother \dospecials % \end{macrocode} % Make sure tab and space are accepted as white space. % \changes{v1.0e}{1997/09/02} % {Allow TAB in DSC comments graphics/2587} % \changes{v1.0i}{1999/01/07} % {Fix catcode of hyphen. graphics/2846} % \begin{macrocode} \catcode`\ 10 % \catcode`\^^I10 % \catcode\endlinechar5 % \@makeother\:% \@makeother\-% % \end{macrocode} % The first thing we need to do is to open the % information file, if possible. % \changes{v0.4d}{1994/05/06} % {Improve the error message if the info file is not there.} % \begin{macrocode} \immediate\openin\@inputcheck#1 % \ifeof\@inputcheck \@latex@error{File `#1' not found}\@ehc \else % \end{macrocode} % Now we'll scan lines until we find one that starts with % |%%BoundingBox:| % We need to reset the catcodes to read the file, and so this % is done in a group. % \begin{macrocode} \Gread@true \let\@tempb\Gread@false \loop \read\@inputcheck to\@tempa \ifeof\@inputcheck \Gread@false \else \expandafter\Gread@find@bb\@tempa:.\\% \fi \ifGread@ \repeat \immediate\closein\@inputcheck \fi % \end{macrocode} % \changes{v0.3i}{1994/03/23} % {Wording of error message improved} % \changes{v1.0}{1996/05/29} % {Use \cs{@gtempa} not \cs{g@tempa} /2090} % \begin{macrocode} \ifGin@bbox\else \@latex@error {Cannot determine size of graphic in #1 (no BoundingBox)}% \@ehc \gdef\@gtempa{0 0 72 72 }% \fi \endgroup \expandafter\Gread@parse@bb\@gtempa\\} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gread@find@bb} % If a line in the EPS file starts with a |%%BoundingBox:|, we % will examine it more closely. Note using the `extra' argument |#2#3| % causes any space after the |:| to be gobbled. % \begin{macrocode} \long\def\Gread@find@bb#1:#2#3\\{% \def\@tempa{#1}% \ifx\@tempa\Gread@BBox \Gread@test@atend#2#3()\\% \fi} % \end{macrocode} % \end{macro} % \begin{macro}{\Gread@test@atend} % Determine if the stuff following the |%%BoundingBox| is `(atend)', % which will involve further reading of the file. This is accomplished % by making |\@tempb| into a no-op, so that finding a |%%BoundingBox| % does not stop the loop. % \begin{macrocode} \def\Gread@test@atend#1(#2)#3\\{% \def\@tempa{#2}% \ifx\@tempa\Gread@atend \Gread@true \let\@tempb\relax \else \gdef\@gtempa{#1}% \@tempb \Gin@bboxtrue \fi} % \end{macrocode} % \end{macro} % \begin{macro}{\Gread@parse@bb} % We have |%%BoundingBox| and what follows is not `(atend)' so we % will parse the rest of the line as a BB with four elements. % PostScript files should never have units specified in the % BoundingBox comment, but we allow arbitrary \TeX\ units in external % files, or in other interfaces. % \begin{macrocode} \def\Gread@parse@bb#1 #2 #3 #4 #5\\{% \Gin@defaultbp\Gin@llx{#1}% \Gin@defaultbp\Gin@lly{#2}% \Gin@defaultbp\Gin@urx{#3}% \Gin@defaultbp\Gin@ury{#4}}% % \end{macrocode} % \end{macro} % % \begin{macro}{\Gread@atend} % |atend| as a macro for testing with |\ifx|. % \begin{macrocode} \def\Gread@atend{atend} % \end{macrocode} % \end{macro} % % % \subsection{Rotation} % % As above, we will re-use some existing local registers. % % \begin{macro}{\Grot@height} % \begin{macro}{\Grot@left} % \begin{macro}{\Grot@right} % \begin{macro}{\Grot@depth} % Final Rotated box dimensions % \begin{macrocode} \let\Grot@height\@ovxx \let\Grot@left\@ovyy \let\Grot@right\@ovdx \let\Grot@depth\@ovdy % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\Grot@h} % \begin{macro}{\Grot@l} % \begin{macro}{\Grot@r} % \begin{macro}{\Grot@d} % Original box dimensions % \begin{macrocode} \let\Grot@l\@ovro \let\Grot@r\@ovri \let\Grot@h\@xdim \let\Grot@d\@ydim % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\Grot@x} % \begin{macro}{\Grot@y} % Coordinates of centre of rotation. % \begin{macrocode} \let\Grot@x\@linelen \let\Grot@y\@dashdim % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\rotatebox} % The angle is specified by |#1|. The box to be rotated is |#2|. % In the standard interface the centre of rotation is $(0,0)$. % Then finally call |\Grot@box| to rotate the box. % \changes{v0.3f}{1994/03/11}{Remove star form} % \changes{v0.3h}{1994/03/17}{Fix Typo} % \changes{v0.7a}{1995/04/11}{\cs{leavevmode} added graphics/1521} % \changes{v1.0n}{2001/07/07} % {Made long (CAR) graphics/2908 and 3345} % \begin{macrocode} \long\def\rotatebox#1#2{% \leavevmode \Grot@setangle{#1}% \setbox\z@\hbox{{#2}}% \Grot@x\z@ \Grot@y\z@ \Grot@box} % \end{macrocode} % \end{macro} % % % \begin{macro}{\Grot@setangle} % Set the internal macro used by |\Grot@box|. In the standard % interface this is trivial, but other interfaces may have more % interesting definitions. For example: %\begin{verbatim} % \def\Grot@setangle#1{% % \dimen@#1\p@ % \dimen@-57.2968\dimen@ % \edef\Grot@angle{\strip@pt\dimen@}} %\end{verbatim} % This would cause the argument of |\rotatebox| to be interpreted as % an angle specified in \emph{radians}, \emph{clockwise}. % \begin{macrocode} \def\Grot@setangle#1{\edef\Grot@angle{#1}} % \end{macrocode} % \end{macro} % % \subsection{Deriving a `bounding box' for rotated object} % We want to know the size of a `bounding box' enclosing the rotated % box. % We define two formulae (as \TeX\ macros) to work out the $x$ and $y$ % coordinates of vertices of the rotated box % in relation to its original coordinates (ie its width, height % and depth). The box we visualize with vertices $B$, $C$, % $D$ and $E$ is illustrated below. The vertex % $S$ is the reference point on the baseline. $O$ is the centre of % rotation, which in the standard interface is always $S$. % % \begin{center} % \setlength{\unitlength}{3pt}% % % \begin{picture}(34,36)(12,44) % \thicklines % \put(20,52){\dashbox{1}(20,21){}} % \put(20,80){\line(0,-1){36}} % \put(12,58){\line(1, 0){34}} % \put(41,59){A} % \put(40,74){B} % \put(21,74){C} % \put(21,49){D} % \put(40,49){E} % \put(21,59){S} % \put(33,65){O} % \put(33,65){\circle*{1}} % \end{picture} % \end{center} % % The formulae are, for a point $P$ and angle $\alpha$: %\[ % \begin{array}{l} % P'_x = P_x - O_x \\ % P'_y = P_y - O_y \\ % P''_x = ( P'_x \times \cos(\alpha)) - ( P'_y \times \sin(\alpha) ) \\ % P''_y = ( P'_x \times \sin(\alpha)) + ( P'_y \times \cos(\alpha) ) \\ % P'''_x = P''_x + O_x + L_x \\ % P'''_y = P''_y + O_y % \end{array} % \] % The `extra' horizontal translation $L_x$ at the end is calculated so % that the leftmost point of the resulting box has $x$-coordinate $0$. % This is desirable as \TeX\ boxes must have the reference point at % the left edge of the box. % % \begin{macro}{\Grot@Px} % Work out new $x$ coordinate of point after rotation. The parameters % |#2| and |#3| are the original $x$ and $y$ coordinates of the point. % The new $x$ coordinate is stored in |#1|. % \begin{macrocode} \def\Grot@Px#1#2#3{% #1\Grot@cos#2% \advance#1-\Grot@sin#3} % \end{macrocode} % \end{macro} % \begin{macro}{\Grot@Py} % Work out new $y$ coordinate of point after rotation. The parameters % |#2| and |#3| are the original $x$ and $y$ coordinates of the point. % The new $y$ coordinate is stored in |#1|. % \begin{macrocode} \def\Grot@Py#1#2#3{% #1\Grot@sin#2% \advance#1\Grot@cos#3} % \end{macrocode} % \end{macro} % % \begin{macro}{\Grot@box} % This is the tricky bit. We can rotate the box, but then need % to work out how much space to leave for it on the page. % % We simplify matters by working out first which quadrant we are in, and % then picking just the right values. % % \begin{macrocode} \def\Grot@box{% \begingroup % \end{macrocode} % We are going to need to know the sine and cosine % of the angle; simplest to calculate these now. % \begin{macrocode} \CalculateSin\Grot@angle \CalculateCos\Grot@angle \edef\Grot@sin{\UseSin\Grot@angle}% \edef\Grot@cos{\UseCos\Grot@angle}% ^^A \GDebug{Rotate: angle \Grot@angle, sine is \Grot@sin, ^^A cosine is \Grot@cos}% % \end{macrocode} % Save the four extents of the original box. % \begin{macrocode} \Grot@r\wd\z@ \advance\Grot@r-\Grot@x \Grot@l\z@ \advance\Grot@l-\Grot@x \Grot@h\ht\z@ \advance\Grot@h-\Grot@y \Grot@d-\dp\z@ \advance\Grot@d-\Grot@y % \end{macrocode} % Now a straightforward test to see which quadrant we are % operating in; % \begin{macrocode} \ifdim\Grot@sin\p@>\z@ \ifdim\Grot@cos\p@>\z@ % \end{macrocode} % First quadrant: % Height=$By$, Right=$Ex$, Left=$Cx$, Depth=$Dy$ % \begin{macrocode} \Grot@Py\Grot@height \Grot@r\Grot@h%B \Grot@Px\Grot@right \Grot@r\Grot@d%E \Grot@Px\Grot@left \Grot@l\Grot@h%C \Grot@Py\Grot@depth \Grot@l\Grot@d%D \else % \end{macrocode} % Second quadrant: % Height=$Ey$, Right=$Dx$, Left=$Bx$, Depth=$Cy$ % \begin{macrocode} \Grot@Py\Grot@height \Grot@r\Grot@d%E \Grot@Px\Grot@right \Grot@l\Grot@d%D \Grot@Px\Grot@left \Grot@r\Grot@h%B \Grot@Py\Grot@depth \Grot@l\Grot@h%C \fi \else \ifdim\Grot@cos\p@<\z@ % \end{macrocode} % Third quadrant: % Height=$Dy$, Right=$Cx$, Left=$Ex$, Depth=$By$ % \begin{macrocode} \Grot@Py\Grot@height \Grot@l\Grot@d%D \Grot@Px\Grot@right \Grot@l\Grot@h%C \Grot@Px\Grot@left \Grot@r\Grot@d%E \Grot@Py\Grot@depth \Grot@r\Grot@h%B \else % \end{macrocode} % Fourth quadrant: % Height=$Cy$, Right=$Bx$, Left=$Dx$, Depth=$Ey$ % \begin{macrocode} \Grot@Py\Grot@height \Grot@l\Grot@h%C \Grot@Px\Grot@right \Grot@r\Grot@h%B \Grot@Px\Grot@left \Grot@l\Grot@d%D \Grot@Py\Grot@depth \Grot@r\Grot@d%E \fi \fi % \end{macrocode} % Now we should translate back by $(O_x,O_y)$, but \TeX\ can not really % deal with boxes that do not have the reference point at the left edge. % (Everything with a $-$ve $x$-coordinate would over-print earlier % text). So we modify the horizontal translation so that the % reference point as understood by \TeX\ \emph{is} at the left edge. % This means that the `centre of rotation' is not fixed by |\rotatebox|, % but typically moves horizontally. We also need to find the image of % the original reference point, $S$, as that is where the rotation % specials must be inserted. % % \begin{macrocode} \advance\Grot@height\Grot@y \advance\Grot@depth\Grot@y \Grot@Px\dimen@ \Grot@x\Grot@y \Grot@Py\dimen@ii \Grot@x\Grot@y \dimen@-\dimen@ \advance\dimen@-\Grot@left \dimen@ii-\dimen@ii \advance\dimen@ii\Grot@y % \end{macrocode} % % \begin{macrocode} ^^A \GDebug{Rotate: (l,r,h,d)^^J% ^^A Original \the\Grot@l,\the\Grot@r,\the\Grot@h,\the\Grot@d,^^J% ^^A New..... \the\Grot@left,\the\Grot@right,% ^^A \the\Grot@height,\the\Grot@depth}% % \end{macrocode} % % \begin{macrocode} \setbox\z@\hbox{% \kern\dimen@ \raise\dimen@ii\hbox{\Grot@start\box\z@\Grot@end}}% \ht\z@\Grot@height \dp\z@-\Grot@depth \advance\Grot@right-\Grot@left\wd\z@\Grot@right \leavevmode\box\z@ \endgroup} % \end{macrocode} % \end{macro} % % % \subsection{Stretching and Scaling} % % % \begin{macro}{\scalebox} % The top level |\scalebox|. If the vertical scale factor is omitted it % defaults to the horizontal scale factor, |#1|. % \changes{v0.3d}{1994/03/06}{Better support for negative arguments.} % \begin{macrocode} \def\scalebox#1{% \@ifnextchar[{\Gscale@box{#1}}{\Gscale@box{#1}[#1]}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gscale@box} % Internal version of |\scalebox|. % \changes{v0.7a}{1995/04/11} % {\cs{leavevmode} moved earlier. graphics/1521} % \changes{v1.0j}{1999/01/07} % {made long. graphics/2908} % \begin{macrocode} \long\def\Gscale@box#1[#2]#3{% \leavevmode \def\Gscale@x{#1}\def\Gscale@y{#2}% \setbox\z@\hbox{{#3}}% \setbox\tw@\hbox{\Gscale@start\rlap{\copy\z@}\Gscale@end}% \ifdim#2\p@<\z@ \ht\tw@-#2\dp\z@ \dp\tw@-#2\ht\z@ \else \ht\tw@#2\ht\z@ \dp\tw@#2\dp\z@ \fi \ifdim#1\p@<\z@ \hb@xt@-#1\wd\z@{\kern-#1\wd\z@\box\tw@\hss}% \else \wd\tw@#1\wd\z@ \box\tw@ \fi} % \end{macrocode} % \end{macro} % % % \begin{macro}{\reflectbox} % Just an abbreviation for the appropriate scale to get reflection. % \changes{v0.3e}{1994/03/09}{Macro added} % \begin{macrocode} \def\reflectbox{\Gscale@box-1[1]} % \end{macrocode} % \end{macro} % % % \begin{macro}{\resizebox} % \changes{v0.3b}{1994/03/01}{Recode \cmd\resizebox.} % \changes{v0.7b}{1995/04/27} % {Add \cs{leavevmode} for graphics/1512} % Look for a |*|, which specifies that a final vertical size refers to % `height + depth' not just `height'. % \begin{macrocode} \def\resizebox{% \leavevmode \@ifstar{\Gscale@@box\totalheight}{\Gscale@@box\height}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gscale@@box} % Look for the |!| in the arguments. % \changes{v0.5a}{1994/07/20} % {Support French active !!} % \changes{v0.5d}{1994/10/24} % {Correct the support for !!} % \changes{v0.7g} % {1995/12/06}{Use \cs{Gin@exclamation}} % \begin{macrocode} \def\Gscale@@box#1#2#3{% \let\@tempa\Gin@exclamation \expandafter\def\expandafter\@tempb\expandafter{\string#2}% \expandafter\def\expandafter\@tempc\expandafter{\string#3}% \ifx\@tempb\@tempa \ifx\@tempc\@tempa \toks@{\mbox}% \else \toks@{\Gscale@box@dd{#3}#1}% \fi \else \ifx\@tempc\@tempa \toks@{\Gscale@box@dd{#2}\width}% \else \toks@{\Gscale@box@dddd{#2}\width{#3}#1}% \fi \fi \the\toks@} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gscale@box@dd} % Scale the text |#3| in both directions by a factor $|#1|/|#2|$. % \changes{v0.3i}{1994/03/23} % {Missing percent added} % \changes{v1.0i}{1999/01/07} % {made long. graphics/2908} % \begin{macrocode} \long\def\Gscale@box@dd#1#2#3{% \@begin@tempboxa\hbox{#3}% \setlength\@tempdima{#1}% \setlength\@tempdimb{#2}% \Gscale@div\@tempa\@tempdima\@tempdimb \Gscale@box\@tempa[\@tempa]{\box\@tempboxa}% \@end@tempboxa} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gscale@box@dddd} % Scale the text |#5| horizontally by a factor $|#1|/|#2|$ and % vertically by a factor $|#3|/|#4|$. % \changes{v0.3i}{1994/03/23} % {Missing percent added} % \changes{v0.7e}{1995/09/29} % {Add \cs{ifGin@iso} code added} % \changes{v1.0i}{1999/01/07} % {made long. graphics/2908} % \begin{macrocode} \long\def\Gscale@box@dddd#1#2#3#4#5{% \@begin@tempboxa\hbox{#5}% \setlength\@tempdima{#1}% \setlength\@tempdimb{#2}% \Gscale@div\@tempa\@tempdima\@tempdimb \setlength\@tempdima{#3}% \setlength\@tempdimb{#4}% \Gscale@div\@tempb\@tempdima\@tempdimb \ifGin@iso \ifdim\@tempa\p@>\@tempb\p@ \let\@tempa\@tempb \else \let\@tempb\@tempa \fi \fi \Gscale@box\@tempa[\@tempb]{\box\@tempboxa}% \@end@tempboxa} % \end{macrocode} % \end{macro} % % \begin{macro}{\ifGin@iso} % If this flag is true, then specifying two lengths to |\resizebox| % scales the box by the same factor in either direction, such that % neither length \emph{exceeds} the stated amount. No user interface % to this flag in the standard package, but it is used by the % |keepaspectratio| key to |\includegraphics| in the \textsf{graphicx} % package. % \changes{v0.7e}{1995/09/29} % {Maco added} % \begin{macrocode} \newif\ifGin@iso % \end{macrocode} % \end{macro} % % \begin{macro}{\Gscale@div} % The macro |#1| is set to the ratio of the lengths |#2| and |#3|. % \changes{v0.7a}{1995/04/11} % {Add trap for division by 0} % \changes{v0.7d}{1995/09/27} % {Use \cs{setlength} to support calc package} % \changes{v1.0a}{1996/09/16} % {Stop infinite loop if 2nd arg zero. graphics/2259} % \begin{macrocode} \def\Gscale@div#1#2#3{% \setlength\dimen@{#3}% \ifdim\dimen@=\z@ \PackageError{graphics}{Division by 0}\@eha \dimen@#2% \fi \edef\@tempd{\the\dimen@}% \setlength\dimen@{#2}% \count@65536\relax \ifdim\dimen@<\z@ \dimen@-\dimen@ \count@-\count@ \fi \ifdim\dimen@>\z@ \loop \ifdim\dimen@<8192\p@ \dimen@\tw@\dimen@ \divide\count@\tw@ \repeat \dimen@ii\@tempd\relax \divide\dimen@ii\count@ \divide\dimen@\dimen@ii \fi \edef#1{\strip@pt\dimen@}} % \end{macrocode} % \end{macro} % % Restore Catcodes % \begin{macrocode} \Gin@codes \let\Gin@codes\relax % \end{macrocode} % % \begin{macrocode} % % \end{macrocode} % % \Finale %