This is Info file dvips.info, produced by Makeinfo version 1.68 from
the input file dvips.texi.

INFO-DIR-SECTION TeX
START-INFO-DIR-ENTRY
* DVI-to-Postscript: (dvips).        Translating TeX DVI files to PostScript.
* afm2tfm: (dvips)Invoking afm2tfm.  Making Type 1 fonts available to TeX.
* dvips: (dvips)Invoking Dvips.      DVI-to-PostScript translator.
END-INFO-DIR-ENTRY


File: dvips.info,  Node: Configuration file commands,  Prev: Configuration file searching,  Up: Config files

Configuration file commands
---------------------------

  Most of the configuration file commands are similar to corresponding
command line options, but there are a few exceptions.  When they are the
same, we omit the description here.

  As with command line options, many may be turned off by suffixing the
letter with a zero (`0').

  Within a configuration file, empty lines, and lines starting with a
space, asterisk, equal sign, percent sign, or pound sign are ignored.
There is no provision for continuation lines.

`@ NAME HSIZE VSIZE'
     Define paper sizes.  *Note Config file paper sizes::.

`a*'
     Memory conservation.  Same as `-a', *note Option details::..

`b #COPIES'
     Multiple copies.  Same as `-b', *note Option details::..

`D DPI'
     Output resolution.  Same as `-D', *note Option details::..

`e NUM'
     Max drift.  Same as `-e', *note Option details::..

`E COMMAND'
     Executes the command listed with `system'(3); can be used to get
     the current date into a header file for inclusion, for instance.
     Possibly dangerous; this may be disabled, in which case a warning
     will be printed if the option is used (and warnings are not
     suppressed).

`f*'
`F'
     Run as a filter.  Same as `-f', *note Option details::..

`h HEADER'
     Prepend HEADER to output.  Same as `h-', *note Option details::..

`H PATH'
     Use PATH to search for PostScript header files.  The environment
     variable `DVIPSHEADERS' overrides this.

`i N'
     Make multiple output files.  Same as `-i -S N', *note Option
     details::..

`j*'
     Partially download Type 1 fonts.  Same as `-j', *note Option
     details::..

`K*'
     Remove comments from included PostScript files.  Same as `-K',
     *note Option details::..

`m NUM'
     Declare NUM as the memory available for fonts and strings in the
     printer.  Default is 180000.  This value must be accurate if memory
     conservation and document splitting is to work correctly.  To
     determine this value, send the following file to the printer:

          %! Hey, we're PostScript
          /Times-Roman findfont 30 scalefont setfont 144 432 moveto
          vmstatus exch sub 40 string cvs show pop showpage

     The number printed by this file is the total memory free; it is
     usually best to tell Dvips that the printer has slightly less
     memory, because many programs download permanent macros that can
     reduce the memory in the printer.  Some systems or printers can
     dynamically increase the memory available to a PostScript
     interpreter, in which case this file might return a ridiculously
     low number; for example, the NeXT computer and Ghostscript.  In
     these cases, a value of one million works fine.

`M MODE'
     Metafont mode.  Same as `-mode', *note Option details::..

`N*'
     Disable structured comments.  Beware: This also turns off
     displaying page numbers or changing to specific pagenumbers in
     PostScript viewers.  Same as `-N', *note Option details::..

`o NAME'
     Send output to NAME.  Same as `-', *note Option details::..  In
     the file `config.foo', a setting like this is probably appropriate:
          o |lpr -Pfoo
     The MS-DOS version will emulate spooling to `lpr' by printing to
     the local printer device `PRN' if it doesn't find an executable
     program by that name in the current directory or along the `PATH'.

`O XOFF,YOFF'
     Origin offset.  Same as `-O', *note Option details::..

`p [+]NAME'
     Examine NAME for PostScript font aliases.  Default is
     `psfonts.map'.  This option allows you to specify different
     resident fonts that different printers may have.  If NAME starts
     with a `+' character, then the rest of the name (after any leading
     spaces) is used as an additional map file; thus, it is possible to
     have local map files pointed to by local configuration files that
     append to the global map file.  This can be used for font families.

`P PATH'
     Use PATH to search for bitmap PK font files is PATH.  The
     `PKFONTS', `TEXPKS', `GLYPHFONTS', and `TEXFONTS' environment
     variables override this.  *Note Supported file formats:
     (kpathsea)Supported file formats.

`q*'
`Q'
     Run quietly.  Same as `-q', *note Option details::..

`r*'
     Page reversal.  Same as `-r', *note Option details::..

`R NUM1 NUM2 ...'
     Define the list of default resolutions for PK fonts.  If a font
     size actually used in a document is not available and cannot be
     created, Dvips will scale the font found at the closest of these
     resolutions to the requested size, using PostScript scaling.  The
     resulting output may be ugly, and thus a warning is issued.  To
     turn this last-resort scaling off, use a line with just the `R'
     and no numbers.

     The given numbers must be sorted in increasing order; any number
     smaller than the preceding one is ignored.  This is because it is
     better to scale a font up than down; scaling down can obliterate
     small features in the character shape.

     The environment and config file values `DVIPSSIZES' or `TEXSIZES'
     override this configuration file setting.

     If no `R' settings or environment variables are specified, a list
     compiled in during installation is used. This default list is
     defined by the Makefile variable `default_texsizes', defined in
     the file `make/paths.make'.

`s*'
     Output global save/restore.  Same as `-s', *note Option details::..

`S PATH'
     Use PATH to search for special illustrations (Encapsulated
     PostScript files or psfiles).  The `TEXPICTS' and then `TEXINPUTS'
     environment variables override this.

`T PATH'
     Use PATH to search for TFM files.  The `TFMFONTS' and then
     `TEXFONTS' environment variables overrides this.  This path is used
     for resident fonts and fonts that can't otherwise be found.

`U*'
     Work around bug in Xerox 4045 printer.  Same as `-U', *note Option
     details::..

`V PATH'
     Use PATH to search for virtual font files.  This may be
     device-dependent if you use virtual fonts to simulate actual fonts
     on different devices.

`W [STRING]'
     If STRING is supplied, write it to standard error after reading
     all the configuration files; with no STRING, cancel any previous
     `W' message.  This is useful in the default configuration file to
     remind users to specify a printer, for instance, or to notify users
     about special characteristics of a particular printer.

`X NUM'
     Horizontal resolution.  Same as `-X', *note Option details::..

`Y NUM'
     Vertical resolution.  Same as `-Y', *note Option details::..

`Z*'
     Compress bitmap fonts.  Same as `-Z', *note Option details::..


File: dvips.info,  Node: Paper size and landscape,  Next: Interaction with PostScript,  Prev: Invoking Dvips,  Up: Top

Paper size and landscape orientation
************************************

  Most TeX documents at a particular site are designed to use the
standard paper size (letter size in the United States, A4 in Europe).
The Dvips program can be customized either sitewide or for a particular
printer.

  But many documents are designed for other paper sizes.  For instance,
you may want to design a document that has the long edge of the paper
horizontal.  This can be useful when typesetting booklets, brochures,
complex tables, or many other documents.  This type of paper orientation
is called "landscape" orientation (the default orientation is
"portrait").  Alternatively, a document might be designed for ledger or
A3 paper.

  Since the intended paper size is a document design decision, not a
printing decision, such information should be given in the TeX file and
not on the Dvips command line.  For this reason, Dvips supports a
`papersize' special.  It is hoped that this special will become
standard over time for TeX previewers and other printer drivers.

* Menu:

* papersize special::           Specifying the paper size in TeX.
* Config file paper sizes::     Specifying printer- and site-specific sizes.
* Paper trays::                 Changing paper trays automatically.


File: dvips.info,  Node: papersize special,  Next: Config file paper sizes,  Up: Paper size and landscape

`papersize' special
===================

  The format of the `papersize' special is

     \special{papersize=WIDTH,HEIGHT}

WIDTH is the horizontal size of the page, and HEIGHT is the vertical
size.  The dimensions supported are the same as for TeX; namely, in
(inches), cm (centimeters), mm (millimeters), pt (points), sp (scaled
points), bp (big points, the same as the default PostScript unit), pc
(picas), dd (didot points), and cc (ciceros).

  For a US letter size landscape document, the `papersize' would be:
     \special{papersize=11in,8.5in}

An alternate specification of `landscape':
     \special{landscape}

This is supported for backward compatibility, but it is hoped that
reventually the `papersize' comment will dominate.

  Of course, such a `\special' only informs Dvips of the desired paper
size; you must also adjust `\hsize' and `\vsize' in your TeX document
typeset to those dimensions.

  The `papersize' special must occur somewhere on the first page of the
document.


File: dvips.info,  Node: Config file paper sizes,  Next: Paper trays,  Prev: papersize special,  Up: Paper size and landscape

Configuration file paper size command
=====================================

  The `@' command in a configuration file sets the paper size defaults
and options.  The first `@' command defines the default paper size.  It
has three possible parameters:

     @ [NAME [HSIZE VSIZE]]

  If `@' is specified on a line by itself, with no parameters, it
instructs Dvips to discard all previous paper size information (possibly
from another configuration file).

  If three parameters are given, with the first parameter being a name
and the second and third being a dimension (as in `8.5in' or `3.2cc',
just like in the `papersize' special), then the option is interpreted
as starting a new paper size description, where NAME is the name and
HSIZE and VSIZE define the horizontal and vertical size of the sheet of
paper, respectively. For example:

     @ letterSize 8.5in 11in

  If both HSIZE and VSIZE are zero (you must still specify units!) then
any page size will match.  If the `@' character is immediately followed
by a `+' sign, then the remainder of the line (after skipping any
leading blanks) is treated as PostScript code to send to the printer,
presumably to select that particular paper size:

     @ letter 8.5in 11in
     @+ %%BeginPaperSize: Letter
     @+ letter
     @+ %%EndPaperSize

  After all that, if the first character of the line is an exclamation
point, then the line is put in the initial comments section of the final
output file; else, it is put in the setup section of the output file.
For example:

     @ legal 8.5in 14in
     @+ ! %%DocumentPaperSizes: Legal
     @+ %%BeginPaperSize: Legal
     @+ legal
     @+ %%EndPaperSize

  When Dvips has a paper format name given on the command line, it looks
for a match by the NAME; when it has a `papersize' special, it looks
for a match by dimensions.  The first match found (in the order the
paper size information is found in the configuration file) is used.  If
nothing matches, a warning is printed and the first paper size is used.
The dimensions must match within a quarter of an inch.  Landscape mode
for all paper sizes is automatically supported.

  If your printer has a command to set a special paper size, then give
dimensions of `0in 0in'; the PostScript code that sets the paper size
can refer to the dimensions the user requested as `hsize' and `vsize';
these will be macros defined in the PostScript that return the
requested size in default PostScript units.  Virtually all of the
PostScript commands you use here are device-dependent and degrade the
portability of the file; that is why the default first paper size entry
should not send any PostScript commands down (although a structured
comment or two would be okay).  Also, some printers want
`BeginPaperSize' comments and paper size setting commands; others (such
as the NeXT) want `PaperSize' comments and they will handle setting the
paper size.  There is no solution I could find that works for both
(except maybe specifying both).

  The Perl 5 script `contrib/mkdvipspapers' in the distribution
directory may help in determining appropriate paper size definitions.

  If your printers are configured to use A4 paper by default, the
configuration file (probably the global `config.ps' in this case)
should include this as the first `@' command:

     @ A4size 210mm 297mm
     @+ %%PaperSize: A4

so that `A4size' is used as the default, and not `A4' itself; thus, no
PostScript `a4' command is added to the output file, unless the user
explicitly says to use paper size `a4'.  That is, by default, no paper
size PostScript command should be put in the output, but Dvips will
still know that the paper size is A4 because `A4size' is the first (and
therefore default) size in the configuration file.

  Executing the `letter' or `a4' or other PostScript operators cause
the document to be nonconforming and can cause it not to print on
certain printers, so the default paper size should not execute such an
operator if at all possible.


File: dvips.info,  Node: Paper trays,  Prev: Config file paper sizes,  Up: Paper size and landscape

Paper trays
===========

  Some printers, such as the Hewlett-Packard HP4si, have multiple paper
trays.  You can set up Dvips to take advantage of this using the
`bop-hook' PostScript variable (*note PostScript hooks::.).

  For example, suppose you have an alternate tray stocked with
letterhead paper; the usual tray has the usual paper.  You have a
document where you want the first page printed on letterhead, and the
remaining pages on the usual paper. You can create a header file, say
`firstletterhead.PS', with the following (PostScript) code (`bop-hook'
is passed the current physical page number, which starts at zero):

     /bop-hook { dup 0 eq { ALTERNATETRAY } { NORMALTRAY } ifelse } def

where ALTERNATETRAY and NORMALTRAY are the appropriate commands to
select the paper trays.  On the 4SI, ALTERNATETRAY is `statusdict begin
1 setpapertray end' and NORMALTRAY is `statusdict begin 0 setpapertray
end'.

  Then, include the file with either
   * the `-h' command-line option (*note Option details::.); or

   * the `h' config file option (*note Configuration file commands::.);
     or

   * `\special{header=FILE}' in your TeX document (*note Including
     headers from TeX: Including headers from TeX.).


File: dvips.info,  Node: Interaction with PostScript,  Next: PostScript fonts,  Prev: Paper size and landscape,  Up: Top

Interaction with PostScript
***************************

  Dvips supports inclusion of PostScript figure files (e.g.,
Encapsulated PostScript), downloading other header files (e.g., fonts),
including literal PostScript code, and hypertext.

* Menu:

* PostScript figures::          Including an Encapsulated PostScript figure.
* Header files::                Downloading extra definitions.
* Literal PS::                  Writing literal PostScript code.
* Hypertext::                   Producing HyperPostScript to make PDF.


File: dvips.info,  Node: PostScript figures,  Next: Header files,  Up: Interaction with PostScript

PostScript figures
==================

  Scaling and including PostScript graphics is a breeze--if the
PostScript file is correctly formed.  Even if it is not, however, the
file can usually be accommodated with just a little more work.

* Menu:

* Bounding box::                The %%BoundingBox EPS comment.
* EPSF macros::                 Including the file in TeX.
* psfile special::              The basic special.
* Dynamic creation of graphics:: Handling compressed or generated figures.
* Fonts in figures::            The %*Font comment.


File: dvips.info,  Node: Bounding box,  Next: EPSF macros,  Up: PostScript figures

The bounding box comment
------------------------

  The most important feature of a good PostScript file from the
standpoint of including it in another document is an accurate bounding
box comment.  Every well-formed PostScript file has a comment
describing where on the page the graphic is located, and how big that
graphic is.

  This information is given as the lower left and upper right corners of
the box just enclosing the graphic, and is thus referred to as the
"bounding box".  These coordinates are given in the default PostScript
units (there are precisely 72 PostScript units to the inch, like TeX
big points) with respect to the lower left corner of the sheet of paper.

  To see if a PostScript file has a bounding box comment, just look at
the first few lines of the file.  PostScript files are standard ASCII,
so you can use any text editor to do this.  If within the first few
dozen lines there is a line like

     %%BoundingBox: 25 50 400 300

(with any reasonable numbers), chances are very good that the file is
Encapsulated PostScript and will work easily with Dvips.  If the file
contains instead a line like

     %%BoundingBox: (atend)

the file is still probably Encapsulated PostScript, but the bounding box
is given at the end of the file.  Dvips needs it at the beginning.  You
can move it with that same text editor, or a simple script.  (The
bounding box is given in this way when the program that generated the
PostScript couldn't know the size in advance, or was too lazy to compute
it.)

  If the document lacks a `%%BoundingBox:' altogether, you can
determine one in a couple of ways.  One is to use the `bbfig' program
distributed with Dvips in the `contrib' directory. This can usually
find the correct bounding box automatically; it works best with
Ghostscript.

  If the comment looks like this:
     %%BoundingBox: 0 0 612 792

the graphic claims to take up an entire sheet of paper.  This is
usually a symptom of a bug in the program that generated it.

  The other is to do it yourself: print the file.  Now, take a ruler,
and make the following measurements (in PostScript units, so measure in
inches and multiply by 72): From the left edge of the paper to the
leftmost mark on the paper is LLX, the first number.  From the bottom
edge of the paper to the bottommost mark on the paper is LLY, the
second number.  From the left edge of the paper to the rightmost mark
on the paper is URX, the third number.  The fourth and final number,
URY, is the distance from the bottom of the page to the uppermost mark
on the paper.

  Once you have the numbers, add a comment of the following form as the
second line of the document.  (The first line should already be a line
starting with the two characters `%!'; if it is not, the file probably
isn't PostScript.)

     %%BoundingBox: LLX LLY URX URY

Or, if you don't want to modify the file, you can simply write these
numbers down in a convenient place and give them in your TeX document
when you import the graphic, as described in the next section.

  If the document does not have such a bounding box, or if the bounding
box is given at the end of the document, or the bounding box is wrong,
please complain to the authors of the software package that generated
the file.


File: dvips.info,  Node: EPSF macros,  Next: psfile special,  Prev: Bounding box,  Up: PostScript figures

Using the EPSF macros
---------------------

  Once the figure file has a bounding box comment (see the previous
section,) you are ready it the graphic into a TeX document.  Many
packages for using EPS files exist.  One distributed with Dvips is the
files `epsf.tex' (for plain TeX) and `epsf.sty' (for LaTeX).  For plain
TeX, add a line like this near the top of your input file:

     \input epsf

If you are using LaTeX 2e, use the `graphics' or `graphicx' package.
If you are using LaTeX 2.09, add the `epsf' style option, as in:

     \documentstyle[12pt,epsf]{article}

In any case, the above only needs to be done once, no matter how many
figures you plan to include.

  Now, at the point you want to include a file, enter a line such as:

     \epsffile{foo.eps}

  If you are using LaTeX, you may need to add `\leavevmode' immediately
before the `\epsffile' command to get certain environments to work
correctly.  If your file does not have a bounding box comment, you can
supply the numbers as determined in the previous section, in the same
order they would have been in a normal bounding box comment:

     \epsffile[100 100 500 500]{foo.ps}

Now, save your changes and run TeX and Dvips; the output should have
your graphic positioned at precisely the point you indicated, occupying
the proper amount of space.

  The `\epsffile' macro typesets the figure as a TeX `\vbox' at the
point of the page that the command is executed.  By default, the
graphic will have its `natural' width (namely, the width of its bounding
box).  The TeX box will have depth zero and its natural height.  By
default, the graphic will be scaled by any DVI magnification in effect,
just as is everything else in your document.  See the next section for
more information on scaling.

  If you want TeX to report the size of the figure as a message on your
terminal when it processes each figure, give the command:

     \epsfverbosetrue

* Menu:

* EPSF scaling::
* EPSF clipping::


File: dvips.info,  Node: EPSF scaling,  Next: EPSF clipping,  Up: EPSF macros

EPSF scaling
............

  Usually, you will want to scale an EPSF figure to some size
appropriate for your document, since its natural size is determined by
the creator of the EPS file.

  The best way to do this is to assign the desired size to the TeX
`\epsfxsize' or `\epsfysize' variables, whichever is more convenient
for you.  That is, put

     \epsfxsize=DIMEN

right before the call to `\epsffile'.  Then the width of the TeX box
will be DIMEN and its height will be scaled proportionately.
Similarly, you can set the vertical size with

     \epsfysize=DIMEN

in which case the height will be set and the width scaled
proportionally.

  If you set both, both will be honored, but the aspect ratio of the
included graphic may necessarily be distorted, i.e., its contents
stretched in one direction or the other.

  You can resize graphics in a more general way by redefining the
`\epsfsize' macro.  `\epsffile' calls this with two parameters: the
natural horizontal and vertical sizes of the PostScript graphic.
`\epsfsize' must expand to the desired horizontal size, that is, the
width of the `\vbox'.  Schematically:

     \def\epsfsize#1#2{BODY}

  Some useful definitions of BODY:

`\epsfxsize'
     This definition (the default) enables the default features listed
     above, by setting `\epsfxsize' to the same value it had before the
     macro was called.

`#1'
     Force the natural size by returning the first parameter (the
     original width).

`0pt'
     A special case, equivalent to `#1'.

`0.5#1'
     Scale to half the natural size.

`\hsize'
     Scale to the current `\hsize'.  (In LaTeX, use `\textwidth'
     instead of `\hsize'.)

`\ifnum#1>\hsize\hsize\else#1\fi'
     If the natural width is greater than the current `\hsize', scale to
     `\hsize', otherwise use the natural width.

  For compatibility with other PostScript drivers, it is possible to
turn off the default scaling of included figures by the DVI
magnification with the following TeX command:

     \special{! /magscale false def}

Use of this command is not recommended because it will make the
`\epsffile' graphics the "wrong" size if global magnification is being
used, and it will cause any PostScript graphics to appear improperly
scaled and out of position if a DVI to DVI program is used to scale or
otherwise modify the document.

  DVI magnification is not applied to any output from code you write in
`bop-hook' or its ilk (*note PostScript hooks::.),


File: dvips.info,  Node: EPSF clipping,  Prev: EPSF scaling,  Up: EPSF macros

EPSF clipping
.............

  By default, clipping is disabled for included EPSF images.  This is
because clipping to the bounding box dimensions often cuts off a small
portion of the figure, due to slightly inaccurate bounding box
arguments.  The problem might be subtle; lines around the boundary of
the image might be half their intended width, or the tops or bottoms of
some text annotations might be sliced off.  If you want to turn
clipping on, just use the command

     \epsfclipon

and to turn clipping back off, use

     \epsfclipoff


File: dvips.info,  Node: psfile special,  Next: Dynamic creation of graphics,  Prev: EPSF macros,  Up: PostScript figures

`psfile' special
----------------

  The basic special for file inclusion is as follows:

     \special{psfile=FILENAME.ps [KEY=VALUE] ... }

This downloads the PostScript file `FILENAME.ps' such that the current
point will be the origin of the PostScript coordinate system.  The
optional KEY=VALUE assignments allow you to specify transformations on
the PostScript.

  The possible KEYs are:

`hoffset'
     The horizontal offset (default 0)

`voffset'
     The vertical offset (default 0)

`hsize'
     The horizontal clipping size (default 612)

`vsize'
     The vertical clipping size (default 792)

`hscale'
     The horizontal scaling factor (default 100)

`vscale'
     The vertical scaling factor (default 100)

`angle'
     The rotation (default 0)

`clip'
     Enable clipping to the bounding box

  The dimension parameters are all given in PostScript units.  The
`hscale' and `vscale' are given in non-dimensioned percentage units,
and the rotation value is specified in degrees.  Thus

     \special{psfile=foo.ps hoffset=72 hscale=90 vscale=90}

will shift the graphics produced by file `foo.ps' right by one inch and
will draw it at 0.9 times normal size.  Offsets are given relative to
the point of the special command, and are unaffected by scaling or
rotation.  Rotation is counterclockwise about the origin.  The order of
operations is to rotate the figure, scale it, then offset it.

  For compatibility with older PostScript drivers, it is possible to
change the units that `hscale' and `vscale' are given in.  This can be
done by redefining `@scaleunit' in `SDict' by a TeX command such as

     \special{! /@scaleunit 1 def}

The `@scaleunit' variable, which is by default 100, is what `hscale'
and `vscale' are divided by to yield an absolute scale factor.


File: dvips.info,  Node: Dynamic creation of graphics,  Next: Fonts in figures,  Prev: psfile special,  Up: PostScript figures

Dynamic creation of PostScript graphics files
---------------------------------------------

  PostScript is an excellent page description language--but it does tend
to be rather verbose.  Compressing PostScript graphics files can reduce
them by factor of five or more.  For this reason, if the name of an
included PostScript file ends with `.Z' or `.gz', Dvips automatically
runs `gzip -d'.  For example:

     \epsffile[72 72 540 720]{foo.ps.gz}

Since the results of such a command are not accessible to TeX, if you
use this facility with the `epsf' macros, you need to supply the
bounding box parameter yourself, as shown.

  More generally, if the filename parameter to one of the graphics
inclusion techniques starts with a left quote (``'), the parameter is
instead interpreted as a command to execute that will send the actual
file to standard output.  For example:

     \special{psfile="`gnuplot foo"}

to include the file `foo'.  Of course, the command to be executed can
be anything, including using a file conversion utility such as `tek2ps'
or whatever is appropriate.  This feature can be disabled with the `-R'
command-line option or `R' configuration option.


File: dvips.info,  Node: Fonts in figures,  Prev: Dynamic creation of graphics,  Up: PostScript figures

Fonts in figures
----------------

  You can use any font available to TeX and Dvips within a graphics
file by putting a `%*Font:' line in the leading commentary of the file.
Schematically, this looks like:

     %*Font: TFMNAME SCALEDBP DESIGNBP HEX-START:HEX-BITSTRING

  Here is the meaning of each of these elements:

TFMNAME
     The TeX TFM filename, e.g., `cmr10'.  You can give the same
     TFMNAME on more than one `%*Font' line; this is useful when the
     number of characters from the font used needs a longer
     HEX-BITSTRING (see item below) than conveniently fits on one line.

SCALEDBP
     The size at which you are using the font, in PostScript points (TeX
     big points).  72bp = 72.27pt = 1in.

DESIGNBP
     The designsize of the font, again in PostScript points.  This
     should match the value in the TFM file TFMNAME.  Thus, for `cmr10',
     it should be `9.96265'.

HEX-START
     The character code of the first character used from the font,
     specified as two ASCII hexadecimal characters, e.g., `4b' or `4B'
     for `K'.

HEX-BITSTRING
     An arbitrary number of ASCII hexadecimal digits specifying which
     characters following (and including) HEX-START are used.  This is
     treated as a bitmap.  For example, if your figure used the single
     letter `K', you would use `4b:8' for HEX-START and HEX-BITSTRING.
     If it used `KLMNP', you would use `4b:f4'.

  MetaPost's output figures contain lines like this for bitmap fonts
used in a MetaPost label (*note MetaPost: (web2c)MetaPost.).


File: dvips.info,  Node: Header files,  Next: Literal PS,  Prev: PostScript figures,  Up: Interaction with PostScript

PostScript header files
=======================

  "Header files" are bits of PostScript included in the output file;
generally they provide support for special features, rather than
producing any printed output themselves.  You can explicitly request
downloading header files if necessary for some figure, or to achieve
some special effect.

  Dvips includes some headers on its own initiative, to implement
features such as PostScript font reencoding, bitmap font downloading,
handling of `\special''s, and so on.  These standard headers are the
`.pro' files (for "prologue") in the installation directory
`$(psheaderdir)'; they are created from the `.lpro' ("long prologue")
files in the distribution by stripping comments, squeezing blank lines,
etc., for maximum efficiency.  If you want to peruse one of the
standard header files, read the `.lpro' version.

  The PostScript dictionary stack will be at the `userdict' level when
header files are included.

* Menu:

* Including headers from TeX::
* Including headers from the command line::
* Headers and memory usage::


File: dvips.info,  Node: Including headers from TeX,  Next: Including headers from the command line,  Up: Header files

Including headers from TeX
--------------------------

  In order to get a particular graphic file to work, a certain font or
header file might need to be sent first.  The Dvips program provides
support for this with the `header' `\special'.  For instance, to ensure
that `foo.ps' gets downloaded:

     \special{header=foo.ps}

  As another example, if you have some PostScript code that uses a
PostScript font not built into your printer, you must download it to the
printer. If the font isn't used elsewhere in the document, Dvips can't
know you've used it, so you must include it in the same way, as in:

     \special{header=putr.pfa}

to include the font definition file for Adobe Utopia Roman.


File: dvips.info,  Node: Including headers from the command line,  Next: Headers and memory usage,  Prev: Including headers from TeX,  Up: Header files

Including headers from the command line
---------------------------------------

  You can include headers when you run Dvips, as well as from your
document (see the previous section).  To do this, run Dvips with the
option `-P HEADER'; this will read the file `config.HEADER', which in
turn can specify a header file to be downloaded with the `h' option.
*Note Configuration file commands::.  These files are called
`HEADER.cfg' on MS-DOS.

  You can arrange for the same file to serve as a `-P' config file and
the downloadable header file, by starting the lines of PostScript code
with a space, leaving only the `h' line and any comments starting in
the first column.  As an example, see `contrib/volker/config.*'
(`contrib/volker/*.cfg' on MS-DOS).  (These files also perform useful
functions: controlling duplex/simplex mode on duplex printers, and
setting various screen frequencies; `contrib/volker/README' explains
further.)


File: dvips.info,  Node: Headers and memory usage,  Prev: Including headers from the command line,  Up: Header files

Headers and memory usage
------------------------

  Dvips tries to avoid overflowing the printer's memory by splitting the
output files into "sections" (see the `-i' option in *Note Option
details::).  Therefore, for all header files, Dvips debits the printer
VM budget by some value.  If the header file has, in its leading
commentary a line of the form

     %%VMusage: MIN MAX

then MAX is used.  If there is no `%%VMusage' line, then the size (in
bytes) of the header file is used as an approximation.

  Illustrations (figure files) are also checked for `%%VMusage' line.


File: dvips.info,  Node: Literal PS,  Next: Hypertext,  Prev: Header files,  Up: Interaction with PostScript

Literal PostScript
==================

  You can include literal PostScript code in your document in several
ways.

* Menu:

* " special::                   To include inline PostScript code.
* ps special::                  Inline PostScript without save/restore.
* PostScript hooks::            Specifying code to run in the PS interpreter.
* Literal headers::             Literal PostScript for the whole document.
* Literal examples::            Neat example.


File: dvips.info,  Node: " special,  Next: ps special,  Up: Literal PS

`"' special: Literal PostScript
-------------------------------

  For simple graphics, or just for experimentation, literal PostScript
code can be included.  Simply use a `\special' beginning with a double
quote character `"'; there is no matching closing `"'.

  For instance, the following (simple) graphic:

  [ picture of a grey triangle ]

was created by typing:

     \vbox to 100bp{\vss % a bp is the same as a PostScript unit
       \special{" newpath 0 0 moveto 100 100 lineto 394 0 lineto
       closepath gsave 0.8 setgray fill grestore stroke}}

  You are responsible for leaving space for such literal graphics, as
with the `\vbox' above.


File: dvips.info,  Node: ps special,  Next: PostScript hooks,  Prev: " special,  Up: Literal PS

`ps' special
------------

  Generally, Dvips encloses specials in a PostScript save/restore pair,
guaranteeing that the special will have no effect on the rest of the
document.  The `ps' special, however, allows you to insert literal
PostScript instructions without this protective shield; you should
understand what you're doing (and you shouldn't change the PostScript
graphics state unless you are willing to take the consequences).  This
command can take many forms because it has had a torturous history; any
of the following will work:

     \special{ps:TEXT}
     \special{ps::TEXT}
     \special{ps::[begin]TEXT}
     \special{ps::[end]TEXT}

(with longer forms taking precedence over shorter forms, when they are
present).  `ps::' and `ps::[end]' do no positioning, so they can be
used to continue PostScript literals started with `ps:' or
`ps::[begin]'.

  In addition, the variant

     \special{ps: plotfile FILENAME}

inserts the contents of FILENAME verbatim into the output (except for
omitting lines that begin with %).  An example of the proper use of
literal specials can be found in the file `rotate.tex', which makes it
easy to typeset text turned in multiples of 90 degrees.


File: dvips.info,  Node: Literal headers,  Next: Literal examples,  Prev: PostScript hooks,  Up: Literal PS

Literal headers: `!' `\special'
-------------------------------

  You can download literal PostScript header code in your TeX document,
for use with (for example) literal graphics code that you include later.
The text of a `\special' beginning with an `!' is copied into the
output file.  A dictionary `SDict' will be current when this code is
executed; Dvips arranges for `SDict' to be first on the dictionary
stack when any PostScript graphic is included, whether literally (the
`"' special) or through macros (e.g., `epsf.tex').

  For example:

     \special{! /reset { 0 0 moveto} def}


File: dvips.info,  Node: PostScript hooks,  Next: Literal headers,  Prev: ps special,  Up: Literal PS

PostScript hooks
----------------

  Besides including literal PostScript at a particular place in your
document (as described in the previous section), you can also arrange to
execute arbitrary PostScript code at particular times while the
PostScript is printing.

  If any of the PostScript names `bop-hook', `eop-hook', `start-hook',
or `end-hook' are defined in `userdict', they will be executed at the
beginning of a page, end of a page, start of the document, and end of a
document, respectively.

  When these macros are executed, the default PostScript coordinate
system and origin is in effect.  Such macros can be defined in headers
added by the `-h' option or the `header=' special, and might be useful
for writing, for instance, `DRAFT' across the entire page, or, with the
aid of a shell script, dating the document.  These macros are executed
outside of the save/restore context of the individual pages, so it is
possible for them to accumulate information, but if a document must be
divided into sections because of memory constraints, such added
information will be lost across section breaks.

  The single argument to `bop-hook' is the physical page number; the
first page gets zero, the second one, etc.  `bop-hook' must leave this
number on the stack.  None of the other hooks are passed arguments.

  As an example of what can be done, the following special will write a
light grey `DRAFT' across each page in the document:

     \special{!userdict begin /bop-hook{gsave 200 30 translate
     65 rotate /Times-Roman findfont 216 scalefont setfont
     0 0 moveto 0.7 setgray (DRAFT) show grestore}def end}

  Using `bop-hook' or `eop-hook' to preserve information across pages
breaks compliance with the Adobe document structuring conventions, so
if you use any such tricks, you may also want to use the `-N' option to
turn off structured comments (such as `%%Page').  Otherwise, programs
that read your file will assume its pages are independent.


File: dvips.info,  Node: Literal examples,  Prev: Literal headers,  Up: Literal PS

Literal examples
----------------

  To finish off this section, the following examples of literal
PostScript are presented without explanation:

     \def\rotninety{\special{ps:currentpoint currentpoint translate 90
     rotate neg exch neg exch translate}}\font\huge=cmbx10 at 14.4truept
     \setbox0=\hbox to0pt{\huge A\hss}\vskip16truept\centerline{\copy0
     \special{ps:gsave}\rotninety\copy0\rotninety\copy0\rotninety
     \box0\special{ps:grestore}}\vskip16truept

  [ There are 4 `A' characters, each rotated 90 degrees about a
common center point ]

     \vbox to 2truein{\special{ps:gsave 0.3 setgray}\hrule height 2in
     width\hsize\vskip-2in\special{ps:grestore}\font\big=cminch\big
     \vss\special{ps:gsave 1 setgray}\vbox to 0pt{\vskip2pt
     \line{\hss\hskip4pt NEAT\hss}\vss}\special{ps:0 setgray}%
     \hbox{\raise2pt\line{\hss NEAT\hss}\special{ps:grestore}}\vss}

  [ There is a big gray box with the word `NEAT' inside in big letters ]

  Some caveats are in order, however. Make sure that each `gsave' is
matched with a `grestore' on the same page.  Do not use `save' and
`restore'; they can interact with the PostScript generated by Dvips if
care is not taken.  Try to understand what the above macros are doing
before writing your own.  The `\rotninety' macro especially has a
useful trick that appears again and again.


File: dvips.info,  Node: Hypertext,  Prev: Literal PS,  Up: Interaction with PostScript

HyperTeXt
=========

  Dvips has support for producing hypertext PostScript documents.  If
you specify the `-z' option, the `html:' specials described below will
be converted into `pdfmark' PostScript operators to specify links.
Without `-z', `html:' specials are ignored.

  The resulting PostScript can then be processed by a distiller program
to make a PDF file.  (It can still be handled by ordinary PostScript
interpreters as well.)  Various versions of both PC and Unix distillers
are supported; Ghostscript includes limited distiller support (*note
Ghostscript installation::.).

  Macros you can use in your TeX document to insert the specials in the
first place are available from `CTAN:/support/hypertex'.  For CTAN
info, *note unixtex.ftp: (kpathsea)unixtex.ftp..

  This hypertext support (and original form of the documentation) was
written by Mark Doyle and Tanmoy Bhattacharya as the `dvihps' program.
You can retrieve their software and additional documentation via the
CTAN reference above.  You may also be interested in the Java previewer
IDVI, available at `http://www.win.tue.nl/~dickie/idvi', and/or in
`http://www.emrg.com/texpdf.html', which describes the process of
making PDF files from TeX files in more detail.

  Mail archives for the original project are at
`http://math.albany.edu:8800/hm/ht/'.

* Menu:

* Hypertext caveats::       Bitmaps poorly supported, psi.
* Hypertext specials::      The details on the specials.


File: dvips.info,  Node: Hypertext caveats,  Next: Hypertext specials,  Up: Hypertext

Hypertext caveats
-----------------

  If you intend to go all the way to PDF, you will probably want to use
PostScript fonts exclusively, since the Adobe PDF readers are extremely
slow when dealing with bitmap fonts.  Commercial versions of the
Computer Modern fonts are available from Blue Sky; public domain
versions are available from CTAN sites (for CTAN info, *note
unixtex.ftp: (kpathsea)unixtex.ftp.) in:
     fonts/postscript/bakoma
     fonts/postscript/paradissa
   You may need to modify these fonts; see
`http://xxx.lanl.gov/faq/bakoma.html'.

Also, the Adobe distillers prior to 2.1 drop trailing space characters
(character code 32) from strings.  Unfortunately, the PostScript fonts
use this character code for characters other than space (notably the
Greek letter psi in the `Symbol' font), and so these characters are
dropped.  This bug is fixed in version 2.1.

  If you can't upgrade, One workaround is to change all the trailing
blanks in strings to a character code that isn't in the font. This works
because the default behavior is to substitute a blank for a missing
character, i.e., the distiller is fooled into substituting the right
character. For instance, with the Blue Sky fonts, you can globally
replace ` )' with `\200)' (with `sed', for example) and get the desired
result.  With the public domain fonts, you will probably have to use a
character code in the range 128 to 191 since these fonts duplicate the
first 32 characters starting at 192 to avoid MS-DOS problems.


File: dvips.info,  Node: Hypertext specials,  Prev: Hypertext caveats,  Up: Hypertext

Hypertext specials
------------------

  Current support for the World Wide Web in the TeX system does not
involve modifying TeX itself.  We need only define some specials;
Arthur Smith (<apsmith@aps.org>), Tanmoy Bhattacharya, and Paul
Ginsparg originally proposed and implemented the following:
     html:<a href="XURL">
     html:<a name="NAME">
     html:</a>
     html:<img src="XURL">
     html:<base href="XURL">

  Like all TeX `\special''s, these produce no visible output, and are
uninterpreted by TeX itself.  They are instructions to DVI processors
only.

  Here, XURL is a standard WWW uniform resource locator (URL), possibly
extended with a `#TYPE.STRING' construct, where TYPE is `page',
`section', `equation', `reference' (for bibliographic references),
`figure', `table', etc.  For example,
     \special{html:<a href="http://www.maths.tcd.ie/~tim/ch1.dvi#equation.1.1">}
   is a link to equation (1.1) in an example document by Tim Murphy.

See `http://www.w3.org/hypertext/WWW/Addressing/Addressing.html' for a
precise description of base URL's.  (That itself is a URL, in case you
were wondering.)

  Descriptions of the `\special''s:
`href'
     Creates links in your TeX document. For example:
          \special{html:<a href="http://www.tug.org/">}\TeX\ Users
          Group\special{html:</a>}
      The user will be able to click on the text `TeX Users Group'
     while running Xdvi and get to the TUG home page.  (By the way,
     this is for illustration. In practice, you most likely want to use
     macros to insert the `\special' commands; reference above.)

`name'
     Defines URL targets in your TeX documents, so links can be
     resolved. For example:
          \special{html:<a name="#paradise">}Paradise\special{html:</a>}
          is exactly where you are right now.
     This will resolve an `href="paradise"'.

`img'
     Links to an arbitrary external file.  Interactively, a viewer is
     spawned to read the file according to the file extension and your
     `mailcap' file (see the Xdvi documentation).

`base'
     Defines a base URL that is prepended to all the `name' targets.
     Typically unnecessary, as the name of the DVI file being read is
     used by default.

  The `img' and `base' tags are not yet implemented in Dvips or the
NeXTSTEP DVI viewer.


File: dvips.info,  Node: PostScript fonts,  Next: Color,  Prev: Interaction with PostScript,  Up: Top

PostScript fonts
****************

  Dvips supports the use of PostScript fonts in TeX documents.  To use
a PostScript font conveniently, you need to prepare a corresponding
virtual font; the program Afm2tfm, supplied with Dvips, helps with that.

  All the necessary support for the standard 35 PostScript fonts
(`AvantGarde-Book' through `ZapfDingbats'), plus other freely or
commonly available PostScript fonts is available along with Dvips.  To
use these fonts, you need do nothing beyond what is mentioned in the
installation procedure (*note Installation::.).  This chapter is
therefore relevant only if you are installing new PostScript fonts not
supplied with Dvips. (Or if you're curious.)

* Menu:

* Font concepts::               Metrics, glyphs, virtual fonts, and encodings.
* Making a font available::     Installing and using a PostScript font.
* Invoking afm2tfm::            Creating TFM and AFM files for a virtual font.
* psfonts.map::                 Defining available PostScript fonts.


File: dvips.info,  Node: Font concepts,  Next: Making a font available,  Up: PostScript fonts

Font concepts
=============

  The information needed to typeset using a particular font is contained
in two files: a "metric file" that contains shape-independent
information and a "glyph file" that contains the actual shapes of the
font's characters.  A "virtual font" is an optional additional file
that can specify special ways to construct the characters.  TeX itself
(or LaTeX) look only at the metric file, but DVI drivers such as Dvips
look at all three of these files.

  An "encoding file" defines the correspondence between the code
numbers of the characters in a font and their descriptive names.  Two
encoding files used together can describe a reencoding that rearranges,
i.e., renumbers, the characters of a font.

* Menu:

* Metric files::                Shape-independent font information.
* Glyph files::                 Character shapes.
* Virtual fonts::               Constructing one font from others.
* Encodings::                   Character codes and character names.
* PostScript typesetting::      How PostScript typesets a character.