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%%% The grfpaste package

%%% LaTeX support for TeXplorators / M. Spivak dvipaste program
%%% David Carlisle


This package can redistributed and/or modified under the terms
of the LaTeX Project Public License Distributed from CTAN
archives in directory macros/latex/base/lppl.txt; either
version 1 of the License, or (at your option) any later version.

Dvipaste comes with a plain TeX based set of macros in a file
dvipaste.tex that provide an interface to the dvipaste program. That
file works perfectly well in LaTeX with only minor modifications
(specifically using \@@line instead of \line, and \c@page instead of
\pageno). A dvipaste.sty constructed by just such modifications may be
found distributed with Jean-Pierre Drucbert's `export' package on ctan.
However I thought that it would be more in the `LaTeX spirit'
to provide an interface via the existing LaTeX graphics package.

The files produced by this grfpaste package should be fully compatible
with dvipaste.tex or dvipaste.sty. That is, if dvi fragments are
created using the plain TeX interface they may be included using
\includegraphics via this package, and conversely if this package is
used with the [write] or [writepages] options to produce a file of dvi
fragments for including in another file, then the dvi file (and it's
accompanying `.dat' file of size information) may be included either
with this package, or via the original dvipaste.tex interface.

Currently the LaTeX interface uses the graphicx package, it would be
possible to also provide an interface to the more basic graphics
package, but that is not done here.

The package is used in one of two forms.

1 Producing DVI Fragments
=========================

1a Writing out boxes.
===========================

    \documentclass{article}

    \usepackage[write]{grfpaste}

    \begin{document}

    \sendout{\parbox[b]{2cm}{one \sf two three \tt four \it five}}

    \sendout[abc]{hello}

    \sendout{\parbox[t]{2cm}{one \sf two three \tt four \it five}}

    \end{document}


If the package is used with the [write] option then the document should
just consist of \sendout commands, the argument of each will be marked
as a `fragment' that may be pasted into another DVI file by the dvipaste
program. An auxiliary file with extension .dat will be created which
contains the size of each of these fragments. Normally the fragments
will be accessed by their number, starting from 1, but you may
optionally supply a label, as in `abc' above which allows fragments to
be referenced more easily. The above example forms the example
document grfp1.tex in this distribution.

1b Writing out whole pages.
===========================

    \documentclass{article}

    \usepackage[writepages]{grfpaste}

    \begin{document}
    ...
    \end{document}


If the package is used with the [writepages] option then each
indivdual page will be marked as a `fragment' for later processing by
dvipaste. The fragments will be numbered consecutively, starting from
1, whatever the value of the page counter.  See the example document
grfp2.tex.




2 Using DVI Fragments
=========================


    \documentclass{article}

    \usepackage{grfpaste}

    \begin{document}

    aaa\fbox{\includegraphics
            [num=1,natheight=19,natdepth=2pt,natwidth=57]{grfp1.dvi}}bbb

    xxx\fbox{\includegraphics[num=2]{grfp1.dvi}}yyy

    xxx\fbox{\includegraphics[ref=abc]{grfp1.dvi}}yyy

    Page 3 of grfp2.dvi:
    aaa\fbox{\includegraphics[num=3]{grfp2}}bbb

    \end{document}

To use the fragments then load the package with no option (or
equivalently with the [include] option). You may also use any options
understood by the graphicx package, these will be passed on to graphicx
which is loaded by this package.

To load the first fragment of a given dvi file you just need
 \includegraphics{filename} or \includegraphics{filename.dvi}
(.dvi is added as one of the default extensions by this package)

To access later fragments then you use the new num=?? key to specify
the fragment number, as demonstrated above. If there are a lot of
fragments maintaining the correct number may be inconvenient so you
may instead use the ref= key to refer to a label previously supplied
by the \sendout command. Note this label information is added to the
.dat file in the form of a comment(after %) and so the .dat file is
still compatible with  dvipaste.tex, but if that is used, then the
numeric form must be used. Thus the two examples above with num=2
and ref=abc include the same fragment from the file grfp1.dvi.


Normally the size of the graphic is read from the `.dat' file which is
the `read file' for the dvi graphic type, in the terminoligy of the
graphics package documentation.  If you have lost the .dat file, or
wish to override it with altered sizes, you may specify the natural
size using the natheight, natwidth and natdepth keys. As usual these
take a dimension but the units may be omitted in which case bp are
assumed.  natheight and natwidth are standard graphicx keys, but
natdepth is new, as these fragments are TeX boxes, so have height and
depth, unlike most other graphic formats that may be included, which
always have zero depth.

The \sendout command defined by the [write] option matches that used
in the plain TeX support, but the plain TeX version does not use
\includegraphics to include the fragment. It defines a command \paste
to achieve this. In order to help move documents between the two
versions, a [defpaste] option is provided for this package which
specifies that a compatible \paste command should be defined. It is
defined to be the equivalent call to \includegraphics,
\includegraphics[num=#2]{#1}.

See the example file grfp3.tex to see examples of including dvi
fragments.


3 Putting it all together
=========================

a) Produce one or more files of fragments using
   LaTeX and this package with the [write] or [writepages] options.
   (or plain TeX using dvipaste.tex).

b) LaTeX your master document, including this package and using
   \includegraphics to include the fragments at the appropriate points.

   At this stage the file will have blank spaces (but if the correct
   size) at the points where the dvi fragments should appear

c) Run dvipaste on the master dvi file. It will incorporate the
   fragments and re-write the file.

d) Preview or print the modified dvi file in your usual manner.


4  Running the examples
=========================

grfp1.tex is an example of using the [write] option
grfp2.tex is an example of using the [writepages] option
grfp3.tex is an example of using the [include] option

To process the final document (grfp3.dvi) the following steps need be
taken.

latex grfp1
latex grfp2
latex grfp2
latex grfp3
dvipaste grfp3

Note that grfp2 needs to be processed twice to generate a full table of
contents. After grfp3.tex is processed by LaTeX the dvi file will show
blank spaces at the points that the fragments are to be included. These
will be filled in by running dvipaste, after which the grfp3.dvi may be
processed by your driver in the normal way.


5 Compiling dvipaste.c
======================

    /* config.h for LINUX machines for dvipaste.c (DPC) */


    #define ANSI
    #undef MICROSOFTC
    #define LITTLENDIAN

    /* I guess this is what was meant. */
    /* (dvipaste.c defines strcmp to itself */
    /* leaving stricmp undefined) .*/
    #ifndef MICROSOFTC
    #define strnicmp strncmp
    #define stricmp strcmp
    #endif

    #ifdef ANSI
    /* Other things in ANSI C are good, but this is a crock */
    #define READ_BINARY "rb"
    #define WRITE_BINARY "wb"
    #else
    /* The good old simple and logical K&R I/O */
    #define READ_BINARY "r"
    #define WRITE_BINARY "w"
    #endif


When I tried compiling dvipaste.c I got error due to the function
stricmp being undefined. The file has a circular definition of strcmp
to itself which looks like a typo, so I corrected that by making 
stricmp an alias for strcmp by altering config.h as above (which also
sets LITTLENDIAN for Linux. It seems to work for me, but no promises.

The above suggested config.h leaves stricmp meaning the same thing as
strcmp (string comparison). Jean-Pierre Drucbert points out that
stricmp is (on systems that it is defined) a case-insensitive
comparison function, and that rather than the crude substitution above
one may define it as follows.

    str{n}icmp is not available on all systems. So I got the
    following code in ci.c :

    #include <ctype.h>
    #include "config.h"
    /*
     * str{n}icmp - case-insensitive flavors of strcmp(), strncmp()
     */
    #ifdef PROTOS
    int stricmp(register char *s1,
              register char *s2)
    #else
    int stricmp(s1, s2)
        register char *s1, *s2;
    #endif
    {
        register char c1, c2;
    
        for ( ; (c1 = TOLOWER(*s1)) == (c2 = TOLOWER(*s2)); s1++, s2++)
                if (c1 == '\0')
                        return 0;
    
        return c1 - c2;
    }
    
    
    #ifdef PROTOS
    int strnicmp(register char *s1,
               register char *s2,
               int n)
    #else
    int strnicmp(s1, s2, n)
        register char *s1, *s2;
        int n;
    #endif
    {
        register char c1, c2;
    
        for ( ; --n >= 0 &&
            (c1 = TOLOWER(*s1)) == (c2 = TOLOWER(*s2)); s1++, s2++)
                if (c1 == '\0')
                        return 0;
    
        return n < 0 ? 0 : c1 - c2;
    }
    




By default dvipaste.c has
#define STRINGSIZE (5124)       /* maximum string size */

Jean-Pierre Drucbert commented:

   it is necessary to increase STRINGSIZE if you paste a lot of dvi
   pieces (I increased it from 40592 to 2597888). In practice, do
   not export more than ~100 pieces from one file. You can import a
   lot more into one file. So it is preferable to import from
   several files if you have more than 100 pieces to import.