% % \iffalse % %% graphicx.dtx Copyright (C) 1994 David Carlisle Sebastian Rahtz %% Copyright (C) 1995 1996 1997 David Carlisle %% %% This file is part of the Standard LaTeX `Graphics Bundle'. %% %% It should be distributed *unchanged* and together with all other %% files in the graphics bundle. The file 00readme.txt contains a list %% of all of these files. %% %% A modified version of this file may be distributed, but it should %% be distributed with a *different* name. Changed files must be %% distributed *together with a complete and unchanged* distribution %% of these files. %% %<*dtx> \ProvidesFile{graphicx.dtx} % %\NeedsTeXFormat{LaTeX2e}[1995/12/01] %\ProvidesPackage{graphicx} % \ProvidesFile{graphicx.drv} % \fi % \ProvidesFile{graphicx.dtx} [1997/06/09 v1.0d Enhanced LaTeX Graphics (DPC,SPQR)] % % \iffalse %<*driver> \documentclass{ltxdoc} \newenvironment{key}[2]{\expandafter\macro\expandafter{% \csname KV@#1@#2\endcsname}}{\endmacro} % \begin{document} \DocInput{graphicx.dtx} \end{document} % % \fi % % \GetFileInfo{graphicx.dtx} % % \title{The \textsf{graphicx} package\thanks{This file % has version number \fileversion, last % revised \filedate.}} % \author{D. P. Carlisle\and S. P. Q. Rahtz} % \date{\filedate} % \maketitle % % \CheckSum{590} % % \changes{v0.3}{1994/03/01} % {First DPC version (after prototype by SPQR).} % \changes{v0.4b}{1994/05/30} % {Rename from egraphics. 8+3 name for CDROM} % \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 provides an alternative interface to the \LaTeXe\ % graphics functions. The command names provided are the same as in the % standard package, and they use the same internal functions. However % the meaning of the optional arguments is different. Note \emph{only} % the optional arguments have changed: any document which only uses the % graphics commands with the mandatory arguments and/or the star-forms % will work identically (with essentially identical implementation) with % the two packages. % % \section{Key=Value Interface} % When the decision to produce \LaTeXe\ was made, certain `guiding % principles' were made (and published in the original announcement). % One of these was that all new features would `conform to the % conventions of version 2.09'. Specifically this meant that new % commands would obey the same basic syntax rules for arguments as the % existing commands. % % Standard \LaTeX\ optional arguments are \emph{positional}. If a % command were to take three optional arguments, then there would be no % way of specifying only the third, one would have to give all three, % even if the first two were repeats of the default values. Basically % this means that `standard' optional arguments are not suitable if % there is more than one option. Various existing packages (for % \LaTeX~2.09) have recognised this, and used `named arguments' in % various forms. Perhaps the two most noticeable are |psfig| and % |pstricks|. With `named arguments' (sometimes called `attributes') % each option is not tied to a particular position, but rather given a % name (or key) and any options that must be set are set by explicitly % associating this name with the desired value. % % The members of the \LaTeX3 project do appreciate the importance of % this kind of syntax, but felt that rather than extending the syntax of % \LaTeX\ in an uncoordinated way, it would be better to keep with % `standard arguments' in \LaTeXe, which is intended as a `consolidation % of existing \LaTeX\ variants'. The long term planning for an eventual % \LaTeX3 release will then be able to consider the whole \LaTeX\ % user interface, and a suitable syntax for named arguments. It is % important that such an interface design is not hampered by having to % retain compatibility with earlier attempts at a named argument % syntax. For this reason this |graphicx| package, which uses the named % argument mechanism from the |keyval| package should be considered `non % standard' although it is supported by the same mechanism, and same % authors as the `standard' |graphics| package. % % \section{The User Interface} % % \DescribeMacro % \includegraphics\star\oarg{key-val list}\marg{file}\\ % \DescribeMacro % \includegraphics\star\oarg{llx,lly}\oarg{urx,ury}\marg{file}\\ % Include a graphics file. % % The star form is just for % compatibility with the standard interface, and essentially just adds % |clip| to the keys specified. Similarly the second, two-optional % argument form is for increased compatibility with the standard % package. The two optional argument form is not needed in the |keyval| % interface. % % Various `keys' or named arguments are supported. % \begin{description} % \item[bb] Set the bounding box. The argument should be four % dimensions, separated by spaces. % \item[bbllx,bblly,bburx,bbury] Set the bounding box. Mainly for % compatibility with older packages. |bbllx=a,bblly=b,bburx=c,bbury=d| % is equivalent to |bb = a b c d|. % \item[natwidth,natheight] Again an alternative to |bb|. % |natheight=h,natwidth=w| is equivalent to |bb = 0 0 h w|. % \item[viewport] Modify the bounding box specified in the file. % The four values specify a bounding box \emph{relative} to the % |llx|,|lly| coordinate of the original box. % \item[trim] Modify the bounding box specified in the file. % The four values specify the amounts to remove from % the left, bottom, right and top of the original box. % \item[hiresbb] Boolean valued key. Defaults to |true|. % Causes \TeX\ to look for |%%HiResBoundingBox| comments rather than % the standard |%%BoundingBox|. May be set to |false| to override % a default setting of true specified by the |hiresbb| package option. % \item[angle] Rotation angle. % \item[origin] Rotation origin (see |\rotatebox|, below). % \item[width] Required width, a dimension (default units |bp|). The % graphic will be scaled to make the width the specified dimension. % \item[height] Required height. a dimension (default units |bp|). % \item[totalheight] Required totalheight (ie height $+$ depth). a % dimension (default units |bp|). Most useful after a rotation (when the % height might be zero). % \item[keepaspectratio] Boolean valued key (like |clip|). If it is set % to true, modify the meaning of the |width| and |height| (and % |totalheight|) keys such that if both are specified then rather than % distort the figure the figure is scaled such that neither dimension % \emph{exceeds} the stated dimensions. % \item[scale] Scale factor. % \item[clip] Either `true' or `false' (or no value, which is equivalent % to `true'). Clip the graphic to the bounding box (or viewport if one % is specified). % \item[draft] a boolean valued key, like `clip'. locally switches to % draft mode, ie.\ do not include the graphic, but leave the % correct space, and print the filename. % \item[type] Specify the file type. (Normally determined from the file % extension.) % \item[ext] Specify the file extension. % \emph{Only} for use with |type|. % \item[read] Specify the `read file' which is used for determining the % size of the graphic. \emph{Only} for use with |type|. % \item[command] Specify the file command. % \emph{Only} for use with |type|. % \end{description} % % The arguments are interpreted left to right. |clip|, |draft|, |bb|,, % and |bbllx| etc.\ have the same effect wherever they appear. but the % scaling and rotation keys interact. % % Any scaling that is specified \emph{before} rotation, is handled by % the internal graphics inclusion function. Rotation, or any later % scaling is handled by implicitly calling |\rotatebox| or |\scalebox|. % So |[height=1in,angle=90]| scales the graphic to 1in, then rotates it, % so it is one inch wide. |[angle=90,height=1in]| first rotates, then % scales the result so that it is 1in high. A driver that can scale % included graphics, but not arbitrary text will not be able to support % the second form, as it will require a call to |\scalebox|, but the % first form should work as there the scaling is handled by % |\Ginclude@graphics|. % % \DescribeMacro % \rotatebox\oarg{key-val list}\marg{angle}\marg{text}\\ % Rotate \emph{text}. % % The keys supported by |\rotatebox| are: % \begin{description} % \item[origin] Specify the centre of rotation. |origin=|\meta{label}, % where the labels are up to two of |lrctbB| (|B| denotes the % baseline, as for PSTricks). % \item[x,y] An alternative to % |origin|. |x=|\meta{dimen}|,y=|\meta{dimen} The $x,y$ coordinate of % the centre of rotation. As usual |\height| etc may be used. % \item[units] Specify the units used in the main argument. eg % |units=-360| would mean that the argument refered to degrees % \emph{clockwise} instead of the default anti-clockwise rotation. % \end{description} % % As an example |\rotatebox[origin=c]{180}{text}| will rotate ``text'' % around its centre, thus creating a final box of the same dimensions as % the original box. This is to be contrasted to the default behaviour, % which rotates around the reference point on the baseline, thus % producing a box that is mainly \emph{below} the baseline. % % \StopEventually{} % % % \section{Implementation} % % \begin{macrocode} %<*package> % \end{macrocode} % % All the options are handled by the \textsf{graphics} package. % \begin{macrocode} \DeclareOption*{\PassOptionsToPackage\CurrentOption{graphics}} % \end{macrocode} % % \begin{macrocode} \ProcessOptions % \end{macrocode} % % This package requires these two building blocks. % \begin{macrocode} \RequirePackage{keyval,graphics} % \end{macrocode} % % % \subsection{Graphics Inclusion} % % % First we declare the `bounding box' keys. These all use % |\Gin@defaultbp| so that the \meta{value} can be given as a length in % the usual \TeX\ units such as |cm| or as an integer, taken as |bp|. % % \begin{key}{Gin}{bb} % \begin{macrocode} \define@key{Gin}{bb} {\Gin@bboxtrue\Gread@parse@bb#1 \\} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{bbllx} % \begin{key}{Gin}{bblly} % \begin{key}{Gin}{bburx} % \begin{key}{Gin}{bbury} % \changes{v0.3b}{1994/03/11}{use bbllx not llx} % \changes{v0.3b}{1994/03/11}{add natheight and natwidth} % \changes{v0.6a}{1995/04/11}{New \cs{Gin@defaultbb} code} % \changes{v0.6b}{1995/06/26}{typos fixed for graphics/1685} % \begin{macrocode} \define@key{Gin}{bbllx} {\Gin@bboxtrue\Gin@defaultbp\Gin@llx{#1}} \define@key{Gin}{bblly} {\Gin@bboxtrue\Gin@defaultbp\Gin@lly{#1}} \define@key{Gin}{bburx} {\Gin@bboxtrue\Gin@defaultbp\Gin@urx{#1}} \define@key{Gin}{bbury} {\Gin@bboxtrue\Gin@defaultbp\Gin@ury{#1}} % \end{macrocode} % \end{key} % \end{key} % \end{key} % \end{key} % % \begin{key}{Gin}{hiresbb} % \changes{v1.0b}{1996/10/29} % {hiresbb key added} % If set to true (the default) \TeX\ 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). % It may be set to false to override a package option of hiresbb. % \begin{macrocode} \define@key{Gin}{hiresbb}[true]{% \edef\Gread@BBox{% \@percentchar\@percentchar \csname if#1\endcsname HiRes\fi BoundingBox}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{natheight} % \begin{key}{Gin}{natheight} % \changes{v0.6d}{1995/09/22} % {typos fixed in natheight and natwidth keys} % \begin{macrocode} \let\KV@Gin@natwidth\KV@Gin@bburx \let\KV@Gin@natheight\KV@Gin@bbury % \end{macrocode} % \end{key} % \end{key} % % \begin{key}{Gin}{viewport} % \begin{key}{Gin}{trim} % \changes{v0.6a}{1995/04/11}{viewport and trim keys added} % \changes{v0.6c}{1995/09/07}{arithmetic in viewport key fixed} % A `viewport' is a user-specified area of the graphic to be included. % It should not be confused with the `Bounding Box' of a PS file. % In fact, the origin for a viewport specification is the (llx,lly) % lower left coordinate of the bounding box. If a viewport is % specified, and clipping is turned on, clipping is based on the % viewport, not on the boundingbox. % % Both `viewport' and `trim' were suggested (and originally, but % differently, implemented) by Arthur Ogawa. % \begin{macrocode} \define@key{Gin}{viewport} {\let\Gin@viewport@code\Gin@viewport\Gread@parse@vp#1 \\} \define@key{Gin}{trim} {\let\Gin@viewport@code\Gin@trim\Gread@parse@vp#1 \\} % \end{macrocode} % \end{key} % \end{key} % % \begin{macro}{\Gread@parse@vp} % Grabs four bounding box values like |\Gread@parse@bp| but saves them % in alternative macros that are used in the viewport and trim cases to % modify the bounding box read from the file. % \begin{macrocode} \def\Gread@parse@vp#1 #2 #3 #4 #5\\{% \Gin@defaultbp\Gin@vllx{#1}% \Gin@defaultbp\Gin@vlly{#2}% \Gin@defaultbp\Gin@vurx{#3}% \Gin@defaultbp\Gin@vury{#4}}% % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@viewport} % \changes{v1.0c}{1996/10/31}{Original bb saved} % If a viewport is specified, reset the bounding box cordinates % by adding the original origin, |\Gin@llx|, |\Gin@lly| to the new % values specified as the viewport. The original Bounding box % coordinates are saved in |\Gin@ollx|\ldots\ some drivers % might need this information (currently just |tcidvi|). % \begin{macrocode} \def\Gin@viewport{% \let\Gin@ollx\Gin@llx \let\Gin@olly\Gin@lly \let\Gin@ourx\Gin@urx \let\Gin@oury\Gin@ury \dimen@\Gin@llx\p@\advance\dimen@ \Gin@vurx\p@ \edef\Gin@urx{\strip@pt\dimen@}% \dimen@\Gin@lly\p@\advance\dimen@ \Gin@vury\p@ \edef\Gin@ury{\strip@pt\dimen@}% \dimen@\Gin@llx\p@\advance\dimen@ \Gin@vllx\p@ \edef\Gin@llx{\strip@pt\dimen@}% \dimen@\Gin@lly\p@\advance\dimen@ \Gin@vlly\p@ \edef\Gin@lly{\strip@pt\dimen@}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@trim} % \changes{v1.0c}{1996/10/31}{Original bb saved} % If a trim is specified, reset the bounding box cordinates % by trimming the four specified values off each side of the % graphic. % \begin{macrocode} \def\Gin@trim{% \let\Gin@ollx\Gin@llx \let\Gin@olly\Gin@lly \let\Gin@ourx\Gin@urx \let\Gin@oury\Gin@ury \dimen@\Gin@llx\p@\advance\dimen@ \Gin@vllx\p@ \edef\Gin@llx{\strip@pt\dimen@}% \dimen@\Gin@lly\p@\advance\dimen@ \Gin@vlly\p@ \edef\Gin@lly{\strip@pt\dimen@}% \dimen@\Gin@urx\p@\advance\dimen@ -\Gin@vurx\p@ \edef\Gin@urx{\strip@pt\dimen@}% \dimen@\Gin@ury\p@\advance\dimen@ -\Gin@vury\p@ \edef\Gin@ury{\strip@pt\dimen@}} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@vllx} % \begin{macro}{\Gin@vlly} % \begin{macro}{\Gin@vurx} % \begin{macro}{\Gin@vury} % Four macros to hold the modifiers for the bounding box for viewport % and trim specifications. % \begin{macrocode} \let\Gin@vllx\Gin@llx\let\Gin@vlly\Gin@llx \let\Gin@vurx\Gin@llx\let\Gin@vury\Gin@llx % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{key}{Gin}{angle} % Specify a rotation. This is just handled by wrapping the % |\includegraphics| command in a call to the internal version of % |\rotatebox|. Normally this is the `standard' version but if an % |origin| key is used in |\includegraphics| then the \emph{keyval} % version of origin is used, and the |origin| key is passed on. % \begin{macrocode} \define@key{Gin}{angle} {\Gin@esetsize \@tempswatrue \edef\@tempa{\toks@{\noexpand\Gin@erotate{#1}{\the\toks@}}}% \@tempa} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{origin} % Pass the origin key value on to |\rotatebox|. |\Gin@erotate| is % initialised to |\Grot@box@std| later in the file, after the latter has % been defined. % \changes{v0.6e}{1995/09/28} % {key added} % \begin{macrocode} \define@key{Gin}{origin}[c]{% \def\Gin@erotate{\Grot@box@kv[origin=#1]}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{width} % \begin{key}{Gin}{height} % Save the required height and width. The actual scaling is done later. % \begin{macrocode} \define@key{Gin}{width}{\def\Gin@ewidth{#1}} \define@key{Gin}{height}{\def\Gin@eheight{#1}} % \end{macrocode} % \end{key} % \end{key} % % \begin{key}{Gin}{totalheight} % \changes{v0.6a}{1995/04/11}{New totalheight key} % The same as |height| key, but locally changes |\Gin@eresize| to % |\totalheight| from its default value of |\height|. % \begin{macrocode} \define@key{Gin}{totalheight}{% \def\Gin@eresize{\totalheight}\def\Gin@eheight{#1}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{keepaspectratio} % Boolean valued key (like |clip|). If it is set to true, % modify the meaning of the |width| and |height| (and |totalheight|) % keys such that if both are specified then rather than distort the % figure the figure is scaled such that neither dimension \emph{exceeds} % the stated dimensions. % \changes{v0.6e}{1995/09/28} % {key added} % \changes{v0.6h}{1995/12/06} % {Name changed to keepaspectratio} % \begin{macrocode} \define@key{Gin}{keepaspectratio}[true]{% \lowercase{\Gin@boolkey{#1}}{iso}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{scale} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % If the scaling is being handled externally, wrap |\includegraphics| in % the internal form of |\scalebox|, otherwise locally define % |\Gin@req@sizes| to calculate the required sizes based on % scale factor. % \begin{macrocode} \define@key{Gin}{scale}{% \if@tempswa \edef\@tempa{\toks@{\noexpand\Gscale@box{#1}[#1]{\the\toks@}}}% \@tempa \else \def\Gin@req@sizes{% \def\Gin@scalex{#1}\let\Gin@scaley\Gin@exclamation \Gin@req@height\Gin@scalex\Gin@nat@height \Gin@req@width\Gin@scalex\Gin@nat@width}% \fi \@tempswatrue} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{draft} % Locally set the draft switch to true. This is used by the code in % \textsf{graphics} package to suppress the file inclusion. % \begin{macrocode} \define@key{Gin}{draft}[true]{% \lowercase{\Gin@boolkey{#1}}{draft}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{clip} % Locally set the clip switch to true. This is used by the code in % \textsf{graphics} package to suppress the printing of anything outside % the bounding box specified. % \begin{macrocode} \define@key{Gin}{clip}[true]{% \lowercase{\Gin@boolkey{#1}}{clip}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{type} % If you use `type' you must use no extension in the main argument % and you must use `ext'. You can also use `read' and `command'. % \changes{v0.5a}{1994/11/29} % {remove \cs{Gin@sep}} % \begin{macrocode} \define@key{Gin}{type}{% \def\Ginclude@graphics##1{% \begingroup \def\Gin@base{##1}% \edef\@tempa{{#1}{\Gin@eread}{\Gin@ecom{##1\Gin@eext}}}% \expandafter\Gin@setfile\@tempa \endgroup}} % \end{macrocode} % \end{key} % % \begin{key}{Gin}{ext} % \changes{v1.0d}{1997/06/09}{initialise ext to empty} % Specify an extension, for use with the `type' key. % \begin{macrocode} \define@key{Gin}{ext}{\def\Gin@eext{#1}} \let\Gin@eext\@empty % \end{macrocode} % \end{key} % % \begin{key}{Gin}{read} % Specify a read file, for use with the `type' key. % You may want to globally set this to |*| using |\setkeys|. % |*| means read the graphic file for size info, as in % |\DeclareGraphicsRule|. % \changes{v0.5a}{1994/11/29} % {Add default * possibility.} % \begin{macrocode} \define@key{Gin}{read}{% \def\Gin@eread{#1}% \def\@tempa{*}\ifx\@tempa\Gin@eread\def\Gin@eread{\Gin@eext}\fi} \let\Gin@eread\@empty % \end{macrocode} % \end{key} % % \begin{key}{Gin}{command} % Specify a command, for use with the `type' key. % \begin{macrocode} \define@key{Gin}{command}{\def\Gin@ecom##1{#1}} \let\Gin@ecom\@firstofone % \end{macrocode} % \end{key} % % \begin{macro}{\Gin@boolkey} % Helper function for defining boolean valued functions. The order of % arguments allows |\lowercase| to only act on the user-supplied % argument. % \changes{v0.4a}{1994/04/14}{Make `empty'!=true so clip!= works} % \begin{macrocode} \def\Gin@boolkey#1#2{% \csname Gin@#2\ifx\relax#1\relax true\else#1\fi\endcsname} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@esetsize} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % Arrange for the final size to be set, either by wrapping the include % graphics call in |\scalebox|, or by redefining |\Gin@req@sizes| % appropriately. % \begin{macrocode} \def\Gin@eresize{\height} \def\Gin@esetsize{% \let\@tempa\Gin@exclamation \if@tempswa % \end{macrocode} % External. Wrap the |\includegraphics| command in a call to the % internal form of |\scalebox| to handle the rotation. % \begin{macrocode} \edef\@tempa{\toks@{\noexpand \Gscale@@box\noexpand\Gin@eresize {\Gin@ewidth}{\Gin@eheight}{\the\toks@}}}% \@tempa \else % \end{macrocode} % Internal. Handle scaling with the |\includegraphics| command directly % rather than calling |\scalebox|. % \begin{macrocode} \ifx\Gin@ewidth\@tempa \ifx\Gin@eheight\@tempa % \end{macrocode} % No resizing. % \begin{macrocode} \else % \end{macrocode} % Just height specified. % \changes{v0.6e}{1995/09/28} % {Use \cs{setlength} to support calc package} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % \begin{macrocode} \let\Gin@@eheight\Gin@eheight \def\Gin@req@sizes{% \Gscale@div\Gin@scaley\Gin@@eheight\Gin@nat@height \let\Gin@scalex\Gin@exclamation \setlength\Gin@req@height\Gin@@eheight \Gin@req@width\Gin@scaley\Gin@nat@width}% \fi \else \ifx\Gin@eheight\@tempa % \end{macrocode} % Just width specified. % \changes{v0.6e}{1995/09/28} % {Use \cs{setlength} to support calc package} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % \begin{macrocode} \let\Gin@@ewidth\Gin@ewidth \def\Gin@req@sizes{% \Gscale@div\Gin@scalex\Gin@@ewidth\Gin@nat@width \let\Gin@scaley\Gin@exclamation \setlength\Gin@req@width\Gin@@ewidth \Gin@req@height\Gin@scalex\Gin@nat@height}% \else % \end{macrocode} % Both height and width specified. % \begin{macrocode} \let\Gin@@ewidth\Gin@ewidth \let\Gin@@eheight\Gin@eheight % \end{macrocode} % \changes{v0.6g}{1995/11/10} % {Use \cs{ifGin@iso} to support isoscale key} % At this point can locally redefine |\Gin@nosize|. Instead % of generating an error, just set the `natural' size to be the % `requested size'. Previous versions of this package did not % allow the use of |height| and |width| unless the natural size was % known as otherwise \LaTeX\ can not calculate the scale factor. % However many drivers (especially for bitmap formats) can work this out % themselves, so as long as both |height| and |width| are given, so % \LaTeX\ knows the size to leave, accept this. This assumes the code in % the driver file will use the `required height' information, not the % scale factors, which will be set to 1!. % \changes{v1.0a}{1996/08/05} % {Missing percent added for graphics/2244} % \begin{macrocode} \def\Gin@nosize##1{% \KV@Gin@natwidth\Gin@@ewidth \KV@Gin@natheight\Gin@@eheight}% % \end{macrocode} % % \begin{macrocode} \def\Gin@req@sizes{% \Gscale@div\Gin@scalex\Gin@@ewidth\Gin@nat@width \Gscale@div\Gin@scaley\Gin@@eheight\Gin@nat@height % \end{macrocode} % \changes{v0.6f}{1995/09/29} % {Use \cs{ifGin@iso} to support isoscale key} % Donald Arseneau requested this feature. If both |height| % and |width| are chosen, choose the smaller scale factor rather than % distort the graphic. This mode is turned on with the % \textsf{keepaspectratio} key. % \begin{macrocode} \ifGin@iso \ifdim\Gin@scaley\p@>\Gin@scalex\p@ \let\Gin@scaley\Gin@scalex \else \let\Gin@scalex\Gin@scaley \fi \fi \Gin@req@width\Gin@scalex\Gin@nat@width \Gin@req@height\Gin@scaley\Gin@nat@height}% \fi \fi \fi \let\Gin@ewidth\Gin@exclamation \let\Gin@eheight\Gin@ewidth} % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@req@height} % \begin{macro}{\Gin@req@width} % The required final size. % \begin{macrocode} \newdimen\Gin@req@height \newdimen\Gin@req@width % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@outer@scalex} % \begin{macro}{\Gin@outer@scaley} % Scale factors to pass to |\scalebox|. % \begin{macrocode} \let\Gin@outer@scalex\relax \let\Gin@outer@scaley\relax % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@angle} % Rotation angle. % \begin{macrocode} \let\Gin@angle\relax % \end{macrocode} % \end{macro} % % \begin{macro}{\Gin@ewidth} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % \begin{macro}{\Gin@eheight} % Final size, initialised for no scaling. % \begin{macrocode} \let\Gin@ewidth\Gin@exclamation \let\Gin@eheight\Gin@ewidth % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@scalex} % \begin{macro}{\Gin@scaley} % \changes{v0.6h}{1995/12/06} % {Use \cs{Gin@exclamation}} % Scale factors. Initialised for no scaling. % \begin{macrocode} \def\Gin@scalex{1} \let\Gin@scaley\Gin@exclamation % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\Gin@i} % Use the same top level |\includegraphics| command as the standard % interface. This will set the clipping switch, and then call |\Gin@i|. % \changes{v0.3c}{1994/03/15}{Dont locally initialise width/height} % \changes{v0.3c}{1994/03/15}{Always call \cmd{\Gin@ii}} % \changes{v0.4c}{1994/09/12}{Use `standard' version if two opt.\ args.} % \begin{macrocode} \def\Gin@i{% \def\Gin@req@sizes{% \Gin@req@height\Gin@nat@height \Gin@req@width\Gin@nat@width}% \@ifnextchar[\Gin@ii{\Gin@ii[]}} % \end{macrocode} % \end{macro} % % % \begin{macro}{\Gin@ii} % Look for a second optional argument. % If one optional argument is present, call |\setkeys| to process it, % \begin{macrocode} \def\Gin@ii[#1]#2{% \def\@tempa{[}\def\@tempb{#2}% \ifx\@tempa\@tempb \def\@tempa{\Gin@iii[#1][}% \expandafter\@tempa \else \begingroup \@tempswafalse \toks@{\Ginclude@graphics{#2}}% \setkeys{Gin}{#1}% \Gin@esetsize \the\toks@ \endgroup \fi} % \end{macrocode} % \end{macro} % % \changes{v0.4b}{1994/05/06} % {Remove incorrect initialisation of \cs{Gin@scalex}} % % \section{Rotation} % % \begin{macro}{\rotatebox} % Look for an optional argument. % \changes{v0.3b}{1994/03/11}{Remove star form} % \begin{macrocode} \def\rotatebox{% \@ifnextchar[\Grot@box@kv\Grot@box@std} % \end{macrocode} % \end{macro} % % \begin{macro}{\Grot@box@std} % If no KV argument, just repeat the standard definition. % \begin{macrocode} \def\Grot@box@std#1#2{% \Grot@setangle{#1}% \setbox\z@\hbox{{#2}}% \Grot@x\z@ \Grot@y\z@ \Grot@box} % \end{macrocode} % \end{macro} % % \begin{macro}{\Grot@box@kv} % \begin{macrocode} \def\Grot@box@kv[#1]#2#3{% \@begin@tempboxa\hbox{#3}% \Grot@x\width \divide\Grot@x\tw@ \Grot@y\height \advance\Grot@y-\depth \divide\Grot@y\tw@ \setkeys{Grot}{#1}% \setbox\z@\box\@tempboxa \Grot@setangle{#2}% \Grot@box \@end@tempboxa} % \end{macrocode} % \end{macro} % % % There are two ways of specifying the centre of rotation. % % \begin{key}{Grot}{origin} % |origin=|\meta{label}, where the labels are up to two of |lrctbB| % (|B| denotes the baseline, as for PSTricks). % \begin{macrocode} \define@key{Grot}{origin}[c]{% \@tfor\@tempa:=#1\do{% \if l\@tempa \Grot@x\z@\else \if r\@tempa \Grot@x\width\else \if t\@tempa \Grot@y\height\else \if b\@tempa \Grot@y-\depth\else \if B\@tempa \Grot@y\z@\fi\fi\fi\fi\fi}} % \end{macrocode} % \end{key} % % \begin{key}{Grot}{x} % \begin{key}{Grot}{y} % |x=|\meta{dimen}|,y=|\meta{dimen} The $x,y$ coordinate of the centre % of rotation. As usual |\height| etc may be used. % \begin{macrocode} \define@key{Grot}{x}{\setlength\Grot@x{#1}} \define@key{Grot}{y}{\setlength\Grot@y{#1}} % \end{macrocode} % \end{key} % \end{key} % % \begin{key}{Grot}{units} % `units' specifies the number or units in one anti-clockwise circle. % So the default is $360$. $-360$ gives clockwise rotation, $6.283185$ % gives radians etc. % \begin{macrocode} \define@key{Grot}{units}{% \def\Grot@setangle##1{% \dimen@##1\p@ \dimen@ii#1\p@ \divide\dimen@ii360\relax \divide\dimen@\dimen@ii \edef\Grot@angle{\number\dimen@}}} % \end{macrocode} % \end{key} % % \begin{macro}{\Gin@erotate} % Initialise the rotation command to use in |\includegraphics|. % \changes{v0.6e}{1995/09/28}{macro added} % \begin{macrocode} \let\Gin@erotate\Grot@box@std % \end{macrocode} % \end{macro} % % \begin{macrocode} % % \end{macrocode} % % \Finale %