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Kernel and Embedded Linux

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Embedded Linux, kernel,
Yocto Project, Buildroot, real-time,
graphics, boot time, debugging...

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Elixir Cross Referencer

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'\" e
.\" The above line should force the use of eqn as a preprocessor
.ig
groff_diff.man

Last update : 26 Jul 2004

This file is part of groff, the GNU roff type-setting system.
It is the source of the man-page groff_diff(7).

Copyright (C) 1989, 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
written by James Clark

modified by Werner Lemberg <wl@gnu.org>
            Bernd Warken <bwarken@mayn.de>

Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.1 or
any later version published by the Free Software Foundation; with the
Invariant Sections being this .ig-section and AUTHORS, with no
Front-Cover Texts, and with no Back-Cover Texts.

A copy of the Free Documentation License is included as a file called
FDL in the main directory of the groff source package.
..
.
.\" --------------------------------------------------------------------
.\" Setup
.\" --------------------------------------------------------------------
.
.do nr groff_diff_C \n[.C]
.cp 0
.
.mso www.tmac
.
.if n \{\
.  mso tty-char.tmac
.  ftr CR R
.  ftr CI I
.  ftr CB B
.\}
.
.if '\*[.T]'dvi' \
.  ftr CB CW
.
.\" define a string tx for the TeX logo
.ie t .ds tx T\h'-.1667m'\v'.224m'E\v'-.224m'\h'-.125m'X
.el   .ds tx TeX
.
.
.\" --------------------------------------------------------------------
.\" start of macro definitions
.
.eo
.
.de c
..
.
.de TQ
.  br
.  ns
.  TP \$1
..
.de Text
.  RI "\$*"
..
.de Topic
.  TP 2m
.  Text \[bu]
..
.de squoted
.  ds @arg1 \$1
.  shift
.\"  Text \[oq]\f[CB]\*[@arg1]\f[]\[cq]\$*
.  Text \[oq]\f[B]\*[@arg1]\f[]\[cq]\$*
.  rm @arg1
..
.c A shell command line
.de ShellCommand
.  br
.  IR "shell#" "\h'1m'\f[CB]\$*\f[]\/"
..
.c reference of a request or macro
.de request
.  ds @arg1 \$1
.  shift 1
.\"  Text \f[CB]\*[@arg1]\f[]\$*
.  Text \f[B]\*[@arg1]\f[]\$*
.  rm @arg1
..
.als option request
.
.c representation of an escape sequence
.de esc
.  ds @arg1 \$1
.  shift
.\"  Text \f[CB]\[rs]\*[@arg1]\f[]\$*
.  Text \f[B]\[rs]\*[@arg1]\&\f[]\$*
.  rm @arg1
..
.ec
.\" end of macro definitions
.
.\" from old groff_out.man
.ie \n(.g \
.  ds ic \/
.el \
.  ds ic \^
.
.
.\" --------------------------------------------------------------------
.\" Title
.\" --------------------------------------------------------------------
.
.TH GROFF_DIFF @MAN7EXT@ "@MDATE@" "Groff Version @VERSION@"
.SH NAME
groff_diff \- differences between GNU troff and classical troff
.
.
.\" --------------------------------------------------------------------
.SH DESCRIPTION
.\" --------------------------------------------------------------------
.
This manual page describes the language differences between
.IR groff ,
the GNU
.I roff
text processing system and the classical
.I roff
formatter of the freely available Unix\~7 of the 1970s, documented in
the
.I Troff User's Manual
by
.I Osanna
and
.IR Kernighan .
This inludes the roff language as well as the intermediate output
format (troff output).
.
.P
The section
.I SEE ALSO
gives pointers to both the classical
.I roff
and the modern
.I groff
documentation.
.
.
.\" --------------------------------------------------------------------
.SH "GROFF LANGUAGE"
.\" --------------------------------------------------------------------
.
In this section, all additional features of
.I groff
compared to the classical Unix\~7
.I troff
are described in detail.
.
.
.\" --------------------------------------------------------------------
.SS "Long names"
.\" --------------------------------------------------------------------
.
The names of number registers, fonts, strings/\:macros/\:diversions,
special characters (glyphs), and colors can be of any length.
.
In escape sequences, additionally to the classical
.BI ( xx
construction for a two-character name, you can use
.BI [ xxx ]
for a name of arbitrary length.
.
.TP
.BI \[rs][ xxx ]
Print the special character (glyph) called
.IR xxx .
.
.TP
.BI \[rs][ "comp1 comp2 .\|.\|." ]
Print composite glyph consisting of multiple components.
.
Example: `\[rs][A\~ho]' is capital letter A with ogonek which finally maps
to glyph name `u0041_0328'.
.
See the
.I groff info file
for details how a glyph name for a composite glyph is constructed, and
.BR groff_char (@MAN7EXT@)
for list of glyph name components used composite glyph names.
.
.TP
.BI \[rs]f[ xxx ]
Set font
.IR xxx .
.
Additionally,
.B \[rs]f[]
is a new syntax equal to
.BR \[rs]fP ,
i.e., to return to the previous font.
.
.TP
.BI \[rs]*[ "xxx arg1 arg2 .\|.\|." ]
Interpolate string
.IR xxx ,
taking
.IR arg1 ,
.IR arg2 ,
.I .\|.\|.\&
as arguments.
.
.TP
.BI \[rs]n[ xxx ]
Interpolate number register
.IR xxx .
.
.
.\" --------------------------------------------------------------------
.SS "Fractional pointsizes"
.\" --------------------------------------------------------------------
.
A
.I scaled point
is equal to
.B 1/sizescale
points, where
.B sizescale
is specified in the
.B DESC
file (1 by default).
.
There is a new scale indicator
.B z
that has the effect of multiplying by sizescale.
.
Requests and escape sequences in troff interpret arguments that
represent a pointsize as being in units of scaled points, but they
evaluate each such argument using a default scale indicator of
.BR z .
Arguments treated in this way are the argument to the
.B ps
request, the third argument to the
.B cs
request, the second and fourth arguments to the
.B tkf
request, the argument to the
.B \[rs]H
escape sequence, and those variants of the
.B \[rs]s
escape sequence that take a numeric expression as their argument.
.
.P
For example, suppose sizescale is 1000; then a scaled point will be
equivalent to a millipoint; the call
.B .ps\ 10.25
is equivalent to
.B .ps\ 10.25z
and so sets the pointsize to 10250 scaled points, which is equal to
10.25 points.
.
.P
The number register
.B \[rs]n[.s]
returns the pointsize in points as decimal fraction.
.
There is also a new number register
.B \[rs]n[.ps]
that returns the pointsize in scaled points.
.
.P
It would make no sense to use the
.B z
scale indicator in a numeric expression whose default scale indicator
was neither
.B u
nor
.BR z ,
and so
.B troff
disallows this.
.
Similarly it would make no sense to use a scaling indicator other than
.B z
or
.B u
in a numeric expression whose default scale indicator was
.BR z ,
and so
.B troff
disallows this as well.
.
.P
There is also new scale indicator\~\c
.B s
which multiplies by the number of units in a scaled point.
.
So, for example,
.B \[rs]n[.ps]s
is equal to
.BR 1m .
Be sure not to confuse the
.B s
and
.B z
scale indicators.
.
.
.\" --------------------------------------------------------------------
.SS "Numeric expressions"
.\" --------------------------------------------------------------------
.
Spaces are permitted in a number expression within parentheses.
.
.P
.B M
indicates a scale of 100ths of an em.
.B f
indicates a scale of 65536 units, providing fractions for color
definitions with the
.B defcolor
request.
.
For example, 0.5f = 32768u.
.
.TP
.IB e1 >? e2
The maximum of
.I e1
and
.IR e2 .
.
.TP
.IB e1 <? e2
The minimum of
.I e1
and
.IR e2 .
.
.TP
.BI ( c ; e )
Evaluate
.I e
using
.I c
as the default scaling indicator.
.
If
.I c
is missing, ignore scaling indicators in the evaluation of
.IR e .
.
.
.\" --------------------------------------------------------------------
.SS "New escape sequences"
.\" --------------------------------------------------------------------
.
.TP
.BI \[rs]A' anything '
This expands to
.B 1
or
.B 0
resp., depending on whether
.I anything
is or is not acceptable as the name of a string, macro, diversion, number
register, environment, font, or color.
It will return\~\c
.B 0
if
.I anything
is empty.
.
This is useful if you want to lookup user input in some sort of
associative table.
.
.TP
.BI \[rs]B' anything '
This expands to
.B 1
or
.B 0
resp., depending on whether
.I anything
is or is not a valid numeric expression.
.
It will return\~\c
.B 0
if
.I anything
is empty.
.
.TP
.BI \[rs]C' xxx '
Typeset glyph named
.IR xxx .
Normally it is more convenient to use
.BI \[rs][ xxx ]\f[R].
But
.B \[rs]C
has the advantage that it is compatible with recent versions of
.SM UNIX
and is available in compatibility mode.
.
.TP
.B \[rs]E
This is equivalent to an escape character, but it is not interpreted in
copy-mode.
.
For example, strings to start and end superscripting could be defined
like this
.
.RS
.IP
.ft CB
.Text .ds { \[rs]v'\-.3m'\[rs]s'\[rs]En[.s]*6u/10u'
.br
.Text .ds } \[rs]s0\[rs]v'.3m'
.ft
.
.P
The use of
.B \[rs]E
ensures that these definitions will work even if
.B \[rs]*{
gets interpreted in copy-mode (for example, by being used in a macro
argument).
.RE
.
.TP
.BI \[rs]F f
.TQ
.BI \[rs]F( fm
.TQ
.BI \[rs]F[ fam ]
Change font family.
.
This is the same as the
.B fam
request.
.
.B \[rs]F[]
switches back to the previous color (note that
.B \[rs]FP
won't work; it selects font family `P' instead).
.
.TP
.BI \[rs]m x
.TQ
.BI \[rs]m( xx
.TQ
.BI \[rs]m[ xxx ]
Set drawing color.
.B \[rs]m[]
switches back to the previous color.
.
.TP
.BI \[rs]M x
.TQ
.BI \[rs]M( xx
.TQ
.BI \[rs]M[ xxx ]
Set background color for filled objects drawn with the
.BI \[rs]D' .\|.\|. '
commands.
.B \[rs]M[]
switches back to the previous color.
.
.TP
.BI \[rs]N' n '
Typeset the glyph with index
.I n
in the current font.
.I n
can be any integer.
.
Most devices only have glyphs with indices between 0 and 255.
.
If the current font does not contain a glyph with that code,
special fonts will
.I not
be searched.
.
The
.B \[rs]N
escape sequence can be conveniently used in conjunction with the
.B char
request, for example
.
.RS
.ft CB
.IP
.Text .char \[rs][phone] \[rs]f(ZD\[rs]N'37'
.ft
.RE
.
.IP
The index of each glyph is given in the fourth column in the font
description file after the
.B charset
command.
.
It is possible to include unnamed glyphs in the font description
file by using a name of
.BR \-\-\- ;
the
.B \[rs]N
escape sequence is the only way to use these.
.
.TP
.BI \[rs]O n
.TQ
.BI \[rs]O[ n ]
Suppressing troff output.
.
The escapes
.BR \[rs]02 ,
.BR \[rs]O3 ,
.BR \[rs]O4 ,
and
.B \[rs]O5
are intended for internal use by
.BR \%grohtml .
.
.RS
.TP
.B \[rs]O0
Disable any ditroff glyphs from being emitted to the device driver,
provided that the escape occurs at the outer level (see
.B \[rs]O3
and
.BR \[rs]O4 ).
.
.TP
.B \[rs]O1
Enable output of glyphs, provided that the escape occurs at the outer
level.
.IP
.B \[rs]O0
and
.B \[rs]O1
also reset the registers
.BR \[rs]n[opminx] ,
.BR \[rs]n[opminy] ,
.BR \[rs]n[opmaxx] ,
and
.B \[rs]n[opmaxy]
to\~-1.
.
These four registers mark the top left and bottom right hand corners
of a box which encompasses all written glyphs.
.
.TP
.B \[rs]O2
Provided that the escape occurs at the outer level, enable output of
glyphs and also write out to stderr the page number and four registers
encompassing the glyphs previously written since the last call to
.BR \[rs]O .
.
.TP
.B \[rs]O3
Begin a nesting level.
.
At start-up,
.B troff
is at outer level.
.
This is really an internal mechanism for
.B \%grohtml
while producing images.
.
They are generated by running the troff source through
.B troff
to the postscript device and
.B ghostscript
to produce images in PNG format.
.
The
.B \[rs]O3
escape will start a new page if the device is not html (to reduce the
possibility of images crossing a page boundary).
.
.TP
.B \[rs]O4
End a nesting level.
.
.TP
.BI \[rs]O5[ Pfilename ]
This escape is
.B \%grohtml
specific.
.
Provided that this escape occurs at the outer nesting level, write
.I filename
to stderr.
.
The position of the image,
.IR P ,
must be specified and must be one of l, r, c, or i (left, right,
centered, inline).
.
.I filename
will be associated with the production of the next inline image.
.RE
.
.TP
.BI \[rs]R' name\ \[+-]n '
This has the same effect as
.
.RS
.IP
.BI .nr\  name\ \[+-]n
.RE
.
.TP
.BI \[rs]s( nn
.TQ
.BI \[rs]s\[+-]( nn
Set the point size to
.I nn
points;
.I nn
must be exactly two digits.
.
.TP
.BI \[rs]s[\[+-] n ]
.TQ
.BI \[rs]s\[+-][ n ]
.TQ
.BI \[rs]s'\[+-] n '
.TQ
.BI \[rs]s\[+-]' n '
Set the point size to
.I n
scaled points;
.I n
is a numeric expression with a default scale indicator of\~\c
.BR z .
.
.TP
.BI \[rs]V x
.TQ
.BI \[rs]V( xx
.TQ
.BI \[rs]V[ xxx ]
Interpolate the contents of the environment variable
.IR xxx ,
as returned by
.BR getenv (3).
.B \[rs]V
is interpreted in copy-mode.
.
.TP
.BI \[rs]Y x
.TQ
.BI \[rs]Y( xx
.TQ
.BI \[rs]Y[ xxx ]
This is approximately equivalent to
.BI \[rs]X'\[rs]*[ xxx ]'\f[R].
However the contents of the string or macro
.I xxx
are not interpreted; also it is permitted for
.I xxx
to have been defined as a macro and thus contain newlines (it is not
permitted for the argument to
.B \[rs]X
to contain newlines).
.
The inclusion of newlines requires an extension to the UNIX troff
output format, and will confuse drivers that do not know about this
extension.
.
.TP
.BI \[rs]Z' anything '
Print anything and then restore the horizontal and vertical position;
.I anything
may not contain tabs or leaders.
.
.TP
.B \[rs]$0
The name by which the current macro was invoked.
.
The
.B als
request can make a macro have more than one name.
.
.TP
.B \[rs]$*
In a macro or string, the concatenation of all the arguments separated
by spaces.
.
.TP
.B \[rs]$@
In a macro or string, the concatenation of all the arguments with each
surrounded by double quotes, and separated by spaces.
.
.TP
.BI \[rs]$( nn
.TQ
.BI \[rs]$[ nnn ]
In a macro or string, this gives the
.IR nn -th
or
.IR nnn -th
argument.
.
Macros and strings can have an unlimited number of arguments.
.
.TP
.BI \[rs]? anything \[rs]?
When used in a diversion, this will transparently embed
.I anything
in the diversion.
.I anything
is read in copy mode.
.
When the diversion is reread,
.I anything
will be interpreted.
.I anything
may not contain newlines; use
.B \[rs]!\&
if you want to embed newlines in a diversion.
.
The escape sequence
.B \[rs]?\&
is also recognised in copy mode and turned into a single internal
code; it is this code that terminates
.IR anything .
Thus
.
.RS
.IP
.ne 14v+\n(.Vu
.ft CB
.nf
.Text .nr x 1
.Text .nf
.Text .di d
.Text \[rs]?\[rs]\[rs]?\[rs]\[rs]\[rs]\[rs]?\[rs]\[rs]\[rs]\[rs]\[rs]\[rs]\[rs]\c
.Text \[rs]nx\[rs]\[rs]\[rs]\[rs]?\[rs]\[rs]?\[rs]?
.Text .di
.Text .nr x 2
.Text .di e
.Text .d
.Text .di
.Text .nr x 3
.Text .di f
.Text .e
.Text .di
.Text .nr x 4
.Text .f
.fi
.ft
.RE
.
.IP
will print\~\c
.BR 4 .
.
.TP
.B \[rs]/
This increases the width of the preceding glyph so that the
spacing between that glyph and the following glyph will be
correct if the following glyph is a roman glyph.
.
.if t \{\
.  nop For example, if an italic f is immediately followed by a roman
.  nop right parenthesis, then in many fonts the top right portion of
.  nop the f will overlap the top left of the right parenthesis
.  nop producing \f[I]f\f[R])\f[R], which is ugly.
.  nop Inserting
.  B \[rs]/
.  nop produces
.  ie \n(.g \f[I]f\/\f[R])\f[R]
.  el       \f[I]f\|\f[R])\f[R]
.  nop and avoids this problem.
.\}
It is a good idea to use this escape sequence whenever an italic
glyph is immediately followed by a roman glyph without any
intervening space.
.
.TP
.B \[rs],
This modifies the spacing of the following glyph so that the
spacing between that glyph and the preceding glyph will
correct if the preceding glyph is a roman glyph.
.
.if t \{\
.  nop For example, inserting
.  B \[rs],
.  nop between the parenthesis and the f changes
.  nop \f[R](\f[I]f\f[R] to
.  ie \n(.g \f[R](\,\f[I]f\f[R].
.  el       \f[R](\^\f[I]f\f[R].
.\}
It is a good idea to use this escape sequence whenever a roman
glyph is immediately followed by an italic glyph without any
intervening space.
.
.TP
.B \[rs])
Like
.B \[rs]&
except that it behaves like a character declared with the
.B cflags
request to be transparent for the purposes of end-of-sentence
recognition.
.
.TP
.B \[rs]~
This produces an unbreakable space that stretches like a normal
inter-word space when a line is adjusted.
.
.TP
.B \[rs]:
This causes the insertion of a zero-width break point.
.
It is equal to
.B \[rs]%
within a word but without insertion of a soft hyphen character.
.
.TP
.B \[rs]#
Everything up to and including the next newline is ignored.
.
This is interpreted in copy mode.
.
It is like
.B \[rs]"
except that
.B \[rs]"
does not ignore the terminating newline.
.
.
.\" --------------------------------------------------------------------
.SS "New requests"
.\" --------------------------------------------------------------------
.
.TP
.BI .aln\  xx\ yy
Create an alias
.I xx
for number register object named
.IR yy .
The new name and the old name will be exactly equivalent.
.
If
.I yy
is undefined, a warning of type
.B reg
will be generated, and the request will be ignored.
.
.TP
.BI .als\  xx\ yy
Create an alias
.I xx
for request, string, macro, or diversion object named
.IR yy .
.
The new name and the old name will be exactly equivalent (it is
similar to a hard rather than a soft link).
.
If
.I yy
is undefined, a warning of type
.B mac
will be generated, and the request will be ignored.
.
The
.BR de ,
.BR am ,
.BR di ,
.BR da ,
.BR ds ,
and
.B as
requests only create a new object if the name of the macro, diversion
or string diversion is currently undefined or if it is defined to be a
request; normally they modify the value of an existing object.
.
.TP
.BI .am1\  xx\ yy
Similar to
.BR .am , 
but compatibility mode is switched off during execution.
.
To be more precise, a `compatibility save' token is inserted at the
beginning of the macro addition, and a `compatibility restore' token at
the end.
.
As a consequence, the requests
.BR am ,
.BR am1 ,
.BR de ,
and
.B de1
can be intermixed freely since the compatibility save/\:restore tokens
only affect the macro parts defined by
.B .am1
and
.BR .ds1 .
.
.TP
.BI .ami\  xx\ yy
Append to macro indirectly.
.
See the
.B dei
request below for more information.
.
.TP
.BI .ami1\  xx\ yy
Same as the
.B ami
request but compatibility mode is switched off during execution.
.
.TP
.BI .as1\  xx\ yy
Similar to
.BR .as , 
but compatibility mode is switched off during expansion.
.
To be more precise, a `compatibility save' token is inserted at the
beginning of the string, and a `compatibility restore' token at the end.
.
As a consequence, the requests
.BR as ,
.BR as1 ,
.BR ds ,
and
.B ds1
can be intermixed freely since the compatibility save/\:restore tokens
only affect the (sub)strings defined by
.B as1
and
.BR ds1 .
.
.TP
.BI .asciify\  xx
This request `unformats' the diversion
.I xx
in such a way that
.SM ASCII
and space characters (and some escape sequences) that were formatted
and diverted into
.I xx
will be treated like ordinary input characters when
.I xx
is reread.
Useful for diversions in conjunction with the
.B .writem
request.
.
It can be also used for gross hacks; for example, this
.
.RS
.IP
.ne 7v+\n(.Vu
.ft CB
.nf
.Text .tr @.
.Text .di x
.Text @nr n 1
.Text .br
.Text .di
.Text .tr @@
.Text .asciify x
.Text .x
.fi
.ft
.RE
.
.IP
will set register\~\c
.B n
to\~1.
.
Note that glyph information (font, font size, etc.) is not preserved;
use
.B .unformat
instead.
.
.TP
.B .backtrace
Print a backtrace of the input stack on stderr.
.
.TP
.BI .blm\  xx
Set the blank line macro to
.IR xx .
If there is a blank line macro, it will be invoked when a blank line
is encountered instead of the usual troff behaviour.
.
.TP
.BI .box\  xx
.TQ
.BI .boxa\  xx
These requests are similar to the
.B di
and
.B da
requests with the exception that a partially filled line will not
become part of the diversion (i.e., the diversion always starts with a
new line) but restored after ending the diversion, discarding the
partially filled line which possibly comes from the diversion.
.
.TP
.B .break
Break out of a while loop.
.
See also the
.B while
and
.B continue
requests.
.
Be sure not to confuse this with the
.B br
request.
.
.TP
.B .brp
This is the same as
.BR \[rs]p .
.
.TP
.BI .cflags\  n\ c1\ c2\|.\|.\|.\&
Characters
.IR c1 ,
.IR c2 ,\|.\|.\|.\&
have properties determined by
.IR n ,
which is ORed from the following:
.
.RS
.IP 1
The character ends sentences (initially characters
.B .?!\&
have this property).
.
.IP 2
Lines can be broken before the character (initially no characters have
this property); a line will not be broken at a character with this
property unless the characters on each side both have non-zero
hyphenation codes.
.
.IP 4
Lines can be broken after the character (initially characters
.B \-\[rs][hy]\[rs][em]
have this property); a line will not be broken at a character with
this property unless the characters on each side both have non-zero
hyphenation codes.
.
.IP 8
The character overlaps horizontally (initially characters
.B \[rs][ul]\[rs][rn]\[rs][ru]\[rs][radicalex]\[rs][sqrtex]
have this property).
.
.IP 16
The character overlaps vertically (initially character
.B \[rs][br]
has this property).
.
.IP 32
An end-of-sentence character followed by any number of characters with
this property will be treated as the end of a sentence if followed by
a newline or two spaces; in other words the character is transparent
for the purposes of end-of-sentence recognition; this is the same as
having a zero space factor in \*[tx] (initially characters
.B \[dq]')]*\[rs](dg\[rs](rq
have this property).
.RE
.
.TP
.BI .char\  c\ string
Define glyph
.I c
to be
.IR string .
Every time glyph
.I c
needs to be printed,
.I string
will be processed in a temporary environment and the result will be
wrapped up into a single object.
.
Compatibility mode will be turned off and the escape character will be
set to
.B \[rs]
while
.I string
is being processed.
.
Any emboldening, constant spacing or track kerning will be applied to
this object rather than to individual glyphs in
.IR string .
.
.IP
A glyph defined by this request can be used just like a normal
glyph provided by the output device.
.
In particular other characters can be translated to it with the
.B tr
request; it can be made the leader character by the
.B lc
request; repeated patterns can be drawn with the character using the
.B \[rs]l
and
.B \[rs]L
escape sequences; words containing the character can be hyphenated
correctly, if the
.B hcode
request is used to give the character a hyphenation code.
.
.IP
There is a special anti-recursion feature: Use of glyph within the
glyph's definition will be handled like normal glyphs not
defined with
.BR char .
.IP
A glyph definition can be removed with the
.B rchar
request.
.
.TP
.BI .chop\  xx
Chop the last element off macro, string, or diversion
.IR xx .
This is useful for removing the newline from the end of diversions
that are to be interpolated as strings.
.
.TP
.BI .close\  stream
Close the stream named
.IR stream ;
.I stream
will no longer be an acceptable argument to the
.B write
request.
.
See the
.B open
request.
.
.TP
.BI .composite\  glyph1\ glyph2
Map glyph name
.I glyph1
to glyph name
.I glyph2
if it is used in
.BI \[rs][ ... ]
with more than one component.
.
.TP
.B .continue
Finish the current iteration of a while loop.
.
See also the
.B while
and
.B break
requests.
.
.TP
.BI .color\  n
If
.I n
is non-zero or missing, enable colors (this is the default), otherwise
disable them.
.
.TP
.BI .cp\  n
If
.I n
is non-zero or missing, enable compatibility mode, otherwise disable
it.
.
In compatibility mode, long names are not recognised, and the
incompatibilities caused by long names do not arise.
.
.TP
.BI .defcolor\  xxx\ scheme\ color_components
Define color.
.I scheme
can be one of the following values:
.B rgb
(three components),
.B cym
(three components),
.B cmyk
(four components), and
.B gray
or
.B grey
(one component).
.
Color components can be given either as a hexadecimal string or as
positive decimal integers in the range 0-65535.
.
A hexadecimal string contains all color components concatenated; it
must start with either
.B #
or
.BR ## .
The former specifies hex values in the range 0-255 (which are
internally multiplied by\~257), the latter in the range 0-65535.
.
Examples: #FFC0CB (pink), ##ffff0000ffff (magenta).
.
A new scaling indicator\~\c
.B f
has been introduced which multiplies its value by\~65536; this makes
it convenient to specify color components as fractions in the range 0
to\~1.
.
Example:
.
.RS
.IP
.ft CB
.Text .defcolor darkgreen rgb 0.1f 0.5f 0.2f
.br
.ft
.RE
.
.IP
Note that
.B f
is the default scaling indicator for the
.B defcolor
request, thus the above statement is equivalent to
.
.RS
.IP
.ft CB
.Text .defcolor darkgreen rgb 0.1 0.5 0.2
.br
.ft
.RE
.
.IP
The color named
.B default
(which is device-specific) can't be redefined.
.
It is possible that the default color for
.esc M
and
.esc m
is not the same.
.
.TP
.BI .de1\  xx\ yy
Similar to
.BR .de , 
but compatibility mode is switched off during execution.
.
On entry, the current compatibility mode is saved and restored at exit.
.
.TP
.BI .dei\  xx\ yy
Define macro indirectly.
.
The following example
.
.RS
.IP
.ne 2v+\n(.Vu
.ft CB
.nf
.Text .ds xx aa
.Text .ds yy bb
.Text .dei xx yy
.fi
.ft
.RE
.
.IP
is equivalent to
.
.RS
.IP
.ft CB
.Text .de aa bb
.br
.ft
.RE
.
.TP
.BI .dei1\  xx\ yy
Similar to the
.B dei
request but compatibility mode is switched off during execution.
.
.TP
.BI .do\  xxx
Interpret
.I .xxx
with compatibility mode disabled.
.
For example,
.
.RS
.
.IP
.ft CB
.Text .do fam T
.br
.ft
.
.P
would have the same effect as
.
.IP
.ft CB
.Text .fam T
.br
.ft
.
.P
except that it would work even if compatibility mode had been enabled.
.
Note that the previous compatibility mode is restored before any files
sourced by
.I xxx
are interpreted.
.
.RE
.
.TP
.BI .ds1\  xx\ yy
Similar to
.BR .ds , 
but compatibility mode is switched off during expansion.
.
To be more precise, a `compatibility save' token is inserted at the
beginning of the string, and a `compatibility restore' token at the end.
.
.TP
.B .ecs
Save current escape character.
.
.TP
.B .ecr
Restore escape character saved with
.BR ecs .
Without a previous call to
.BR ecs ,
.RB ` \[rs] '
will be the new escape character.
.
.TP
.BI .evc\  xx
Copy the contents of environment
.I xx
to the current environment.
.
No pushing or popping of environments will be done.
.
.TP
.BI .fam\  xx
Set the current font family to
.IR xx .
The current font family is part of the current environment.
If
.I xx
is missing, switch back to previous font family.
.
The value at start-up is `T'.
.
See the description of the
.B sty
request for more information on font families.
.
.TP
.BI .fchar\  c\ string
Define fallback glyph
.I c
to be
.IR string .
.
The syntax of this request is the same as the
.B char
request; the only difference is that a glyph defined with
.B char
hides the glyph with the same name in the current font, whereas a
glyph defined with
.B fchar
is checked only if the particular glyph isn't found in the current font.
.
This test happens before checking special fonts.
.
.TP
.BI .fcolor\  c
Set the fill color to
.IR c .
If
.I c
is missing,
switch to the previous fill color.
.
.TP
.BI .fschar\  f\ c\ string
Define fallback glyph
.I c
for font
.I f
to be
.IR string .
.
The syntax of this request is the same as the
.B char
request (with an additional argument to specify the font); a glyph
defined with
.B fschar
is searched after the list of fonts declared with the
.B fspecial
request but before the list of fonts declared with
.BR special .
.
.TP
.BI .fspecial\  f\ s1\ s2\|.\|.\|.\&
When the current font is
.IR f ,
fonts
.IR s1 ,
.IR s2 ,\|.\|.\|.\&
will be special, that is, they will searched for glyphs not in
the current font.
.
Any fonts specified in the
.B special
request will be searched after fonts specified in the
.B fspecial
request.
.
Without argument, reset the list of global special fonts to be empty.
.
.TP
.BI .ftr\  f\ g
Translate font
.I f
to
.IR g .
Whenever a font named
.I f
is referred to in an
.B \[rs]f
escape sequence, in the
.B F
and
.B S
conditional operators, or in the
.BR ft ,
.BR ul ,
.BR bd ,
.BR cs ,
.BR tkf ,
.BR special ,
.BR fspecial ,
.BR fp ,
or
.BR sty
requests, font
.I g
will be used.
If
.I g
is missing, or equal to
.I f
then font
.I f
will not be translated.
.
.TP
.BI .gcolor\  c
Set the glyph color to
.IR c .
If
.I c
is missing,
switch to the previous glyph color.
.
.TP
.BI .hcode \ c1\ code1\ c2\ code2\|.\|.\|.\&
Set the hyphenation code of character
.I c1
to
.I code1
and that of
.I c2
to
.IR code2 .
A hyphenation code must be a single input character (not a special
character) other than a digit or a space.
.
Initially each lower-case letter \%a-z has a hyphenation code, which is
itself, and each upper-case letter \%A-Z has a hyphenation code which is
the lower-case version of itself.
.
See also the
.B hpf
request.
.
.TP
.BI .hla\  lang
Set the current hyphenation language to
.IR lang .
Hyphenation exceptions specified with the
.B hw
request and hyphenation patterns specified with the
.B hpf
request are both associated with the current hyphenation language.
.
The
.B hla
request is usually invoked by the
.B troffrc
file.
.
.TP
.BI .hlm\  n
Set the maximum number of consecutive hyphenated lines to\~\c
.IR n .
If
.I n
is negative, there is no maximum.
.
The default value is\~\-1.
.
This value is associated with the current environment.
.
Only lines output from an environment count towards the maximum
associated with that environment.
.
Hyphens resulting from
.B \[rs]%
are counted; explicit hyphens are not.
.
.TP
.BI .hpf\  file
Read hyphenation patterns from
.IR file ;
this will be searched for in the same way that
.IB name .tmac
is searched for when the
.BI \-m name
option is specified.
.
It should have the same format as (simple) \*[tx] patterns files.
.
More specifically, the following scanning rules are implemented.
.
.RS
.IP \[bu]
A percent sign starts a comment (up to the end of the line) even if
preceded by a backslash.
.
.IP \[bu]
No support for `digraphs' like
.BR \[rs]$ .
.
.IP \[bu]
.BI ^^ xx
.RI ( x
is 0-9 or a-f) and
.BI ^^ x
(character code of\~\c
.I x
in the range 0-127) are recognized; other use of
.B ^
causes an error.
.
.IP \[bu]
No macro expansion.
.
.IP \[bu]
.B hpf
checks for the expression
.B \[rs]patterns{.\|.\|.}
(possibly with whitespace before and after the braces).
.
Everything between the braces is taken as hyphenation patterns.
.
Consequently,
.B {
and
.B }
are not allowed in patterns.
.
.IP \[bu]
Similarly,
.B \[rs]hyphenation{.\|.\|.}
gives a list of hyphenation exceptions.
.
.IP \[bu]
.B \[rs]endinput
is recognized also.
.
.IP \[bu]
For backwards compatibility, if
.B \[rs]patterns
is missing, the whole file is treated as a list of hyphenation patterns
(only recognizing the
.BR % \~\c
character as the start of a comment).
.RE
.
.IP
Use the
.B hpfcode
request to map the encoding used in hyphenation patterns files to
.BR groff 's
input encoding.
.IP
The set of hyphenation patterns is associated with the current language
set by the
.B hla
request.
.
The
.B hpf
request is usually invoked by the
.B troffrc
file; a second call replaces the old patterns with the new ones.
.
.TP
.BI .hpfa\  file
The same as
.B hpf
except that the hyphenation patterns from
.I file
are appended to the patterns already loaded in the current language.
.
.TP
.BI .hpfcode\  a\ b\ c\ d\ .\|.\|.
After reading a hyphenation patterns file with the
.B hpf
or
.B hpfa
request, convert all characters with character code\~\c
.I a
in the recently read patterns to character code\~\c
.IR b ,
character code\~\c
.I c
to\~\c
.IR d ,
etc.
.
Initially, all character codes map to themselves.
.
The arguments of
.B hpfcode
must be integers in the range 0 to\~255.
.
Note that it is even possible to use character codes which are invalid in
.B groff
otherwise.
.
.TP
.BI .hym\  n
Set the
.I hyphenation margin
to\~\c
.IR n :
when the current adjustment mode is not\~\c
.BR b ,
the line will not be hyphenated if the line is no more than
.I n
short.
.
The default hyphenation margin is\~0.
.
The default scaling indicator for this request is\~\c
.IR m .
The hyphenation margin is associated with the current environment.
.
The current hyphenation margin is available in the
.B \[rs]n[.hym]
register.
.
.TP
.BI .hys\  n
Set the
.I hyphenation space
to\~\c
.IR n :
when the current adjustment mode is\~\c
.B b
don't hyphenate the line if the line can be justified by adding no
more than
.I n
extra space to each word space.
.
The default hyphenation space is\~0.
.
The default scaling indicator for this request is\~\c
.BR m .
The hyphenation space is associated with the current environment.
.
The current hyphenation space is available in the
.B \[rs]n[.hys]
register.
.
.TP
.BI .itc\  n\ macro
Variant of
.B .it
for which a line interrupted with
.B \[rs]c
counts as one input line.
.
.TP
.BI .kern\  n
If
.I n
is non-zero or missing, enable pairwise kerning, otherwise disable it.
.
.TP
.BI .length\  xx\ string
Compute the length of
.I string
and return it in the number register
.I xx
(which is not necessarily defined before).
.
.TP
.BI .linetabs\  n
If
.I n
is non-zero or missing, enable line-tabs mode, otherwise disable it
(which is the default).
.
In line-tabs mode, tab distances are computed relative to the
(current) output line.
.
Otherwise they are taken relative to the input line.
.
For example, the following
.
.RS
.IP
.ne 6v+\n(.Vu
.ft CB
.nf
.Text .ds x a\[rs]t\[rs]c
.Text .ds y b\[rs]t\[rs]c
.Text .ds z c
.Text .ta 1i 3i
.Text \[rs]*x
.Text \[rs]*y
.Text \[rs]*z
.fi
.ft
.RE
.
.IP
yields
.
.RS
.IP
a         b         c
.RE
.
.IP
In line-tabs mode, the same code gives
.
.RS
.IP
a         b                   c
.RE
.
.IP
Line-tabs mode is associated with the current environment; the
read-only number register
.B \\[rs]n[.linetabs]
is set to\~1 if in line-tabs mode, and 0 otherwise.
.
.TP
.BI .mso\  file
The same as the
.B so
request except that
.I file
is searched for in the same directories as macro files for the the
.B \-m
command line option.
.
If the file name to be included has the form
.IB name .tmac
and it isn't found,
.B mso
tries to include
.BI tmac. name
instead and vice versa.
.
.TP
.BI .nop \ anything
Execute
.IR anything .
This is similar to `.if\ 1'.
.
.TP
.B .nroff
Make the
.B n
built-in condition true and the
.B t
built-in condition false.
.
This can be reversed using the
.B troff
request.
.
.TP
.BI .open\  stream\ filename
Open
.I filename
for writing and associate the stream named
.I stream
with it.
.
See also the
.B close
and
.B write
requests.
.
.TP 
.BI .opena\  stream\ filename
Like
.BR open ,
but if
.I filename
exists, append to it instead of truncating it.
.
.TP
.BI .output\  string
Emit
.I string
directly to the intermediate output (subject to copy-mode interpretation);
this is similar to
.B \[rs]!
used at the top level.
.
An initial double quote in
.I string
is stripped off to allow initial blanks.
.
.TP
.B .pnr
Print the names and contents of all currently defined number registers
on stderr.
.
.TP
.BI .psbb \ filename
Get the bounding box of a PostScript image
.IR filename .
This file must conform to Adobe's Document Structuring Conventions;
the command looks for a
.B \%%%BoundingBox
comment to extract the bounding box values.
.
After a successful call, the coordinates (in PostScript units) of the
lower left and upper right corner can be found in the registers
.BR \[rs]n[llx] ,
.BR \[rs]n[lly] ,
.BR \[rs]n[urx] ,
and
.BR \[rs]n[ury] ,
respectively.
.
If some error has occurred, the four registers are set to zero.
.
.TP
.BI .pso \ command
This behaves like the
.B so
request except that input comes from the standard output of
.IR command .
.
.TP
.B .ptr
Print the names and positions of all traps (not including input line
traps and diversion traps) on stderr.
.
Empty slots in the page trap list are printed as well, because they
can affect the priority of subsequently planted traps.
.
.TP
.BI .pvs \ \[+-]n
Set the post-vertical line space to
.IR n ;
default scale indicator is\~\c
.BR p .
.
This value will be added to each line after it has been output.
.
With no argument, the post-vertical line space is set to its previous
value.
.
.IP
The total vertical line spacing consists of four components:
.B .vs
and
.B \[rs]x
with a negative value which are applied before the line is output, and
.B .pvs
and
.B \[rs]x
with a positive value which are applied after the line is output.
.
.TP
.BI .rchar\  c1\ c2\|.\|.\|.\&
Remove the definitions of glyphs
.IR c1 ,
.IR c2 ,\|.\|.\|.
This undoes the effect of a
.B char
request.
.
.TP
.B .return
Within a macro, return immediately.
.
If called with an argument, return twice, namely from the current macro and
from the macro one level higher.
.
No effect otherwise.
.
.TP
.BI .rfschar\  c1\ c2\|.\|.\|.\&
Remove the font-specific definitions of glyphs
.IR c1 ,
.IR c2 ,\|.\|.\|.
This undoes the effect of a
.B fschar
request.
.
.TP
.B .rj
.TQ
.BI .rj \~n
Right justify the next
.IR n \~\c
input lines.
.
Without an argument right justify the next input line.
.
The number of lines to be right justified is available in the
.B \[rs]n[.rj]
register.
.
This implicitly does
.BR .ce \~0 .
The
.B ce
request implicitly does
.BR .rj \~0 .
.
.TP
.BI .rnn \ xx\ yy
Rename number register
.I xx
to
.IR yy .
.
.TP
.BI .schar\  c\ string
Define global fallback glyph
.I c
to be
.IR string .
.
The syntax of this request is the same as the
.B char
request; a glyph defined with
.B schar
is searched after the list of fonts declared with the
.B special
request but before the mounted special fonts.
.
.TP
.BI .shc\  c
Set the soft hyphen character to
.IR c .
If
.I c
is omitted, the soft hyphen character will be set to the default
.BR \[rs](hy .
The soft hyphen character is the glyph which will be inserted when
a word is hyphenated at a line break.
.
If the soft hyphen character does not exist in the font of the
glyph immediately preceding a potential break point, then the line
will not be broken at that point.
.
Neither definitions (specified with the
.B char
request) nor translations (specified with the
.B tr
request) are considered when finding the soft hyphen character.
.
.TP
.BI .shift\  n
In a macro, shift the arguments by
.I n
positions: argument\~\c
.I i
becomes argument
.IR i \- n ;
arguments 1 to\~\c
.I n
will no longer be available.
.
If
.I n
is missing, arguments will be shifted by\~1.
.
Shifting by negative amounts is currently undefined.
.
.TP
.BI .sizes\  s1\ s2\|.\|.\|.\|sn\  [0]
This command is similar to the
.B sizes
command of a
.B DESC
file.
.
It sets the available font sizes for the current font to
.IR s1 ,
.IR s2 ,\|.\|.\|.\|,\~ sn
scaled points.
.
The list of sizes can be terminated by an optional\~\c
.BR 0 .
.
Each
.I si
can also be a range of sizes
.IR m - n .
.
Contrary to the font file command, the list can't extend over more
than a single line.
.
.TP
.BI .special\  s1\ s2\|.\|.\|.\&
Fonts
.IR s1 ,
.IR s2 ,
are special and will be searched for glyphs not in the current
font.
.
Without arguments, reset the list of special fonts to be empty.
.
.TP
.BI .spreadwarn\  limit
Make
.B troff
emit a warning if the additional space inserted for each space between
words in an output line is larger or equal to
.IR limit .
.
A negative value is changed to zero; no argument toggles the warning on
and off without changing
.IR limit .
.
The default scaling indicator is\~\c
.BR m .
.
At startup,
.B spreadwarn
is deactivated, and
.I limit
is set to 3m.
.
For example,
.B .spreadwarn\ 0.2m
will cause a warning if
.B troff
must add 0.2m or more for each interword space in a line.
.
This request is active only if text is justified to both margins (using
.BR .ad\ b ).
.
.TP
.BI .sty\  n\ f
Associate style\~\c
.I f
with font position\~\c
.IR n .
A font position can be associated either with a font or with a style.
.
The current font is the index of a font position and so is also either
a font or a style.
.
When it is a style, the font that is actually used is the font the
name of which is the concatenation of the name of the current family
and the name of the current style.
.
For example, if the current font is\~1 and font position\~1 is
associated with style\~\c
.B R
and the current font family is\~\c
.BR T ,
then font
.BR TR
will be used.
.
If the current font is not a style, then the current family is ignored.
.
When the requests
.BR cs ,
.BR bd ,
.BR tkf ,
.BR uf ,
or
.B fspecial
are applied to a style, then they will instead be applied to the
member of the current family corresponding to that style.
.
The default family can be set with the
.B \-f
option.
.
The
.B styles
command in the
.SM DESC
file controls which font positions (if any) are initially associated
with styles rather than fonts.
.
.TP
.BI .substring\  xx\ n1\  [ n2 ]
Replace the string named
.I xx
with the substring defined by the indices
.I n1
and
.IR n2 .
The first character in the string has index\~0.
.
If
.I n2
is omitted, it is taken to be equal to the string's length.
.
If the index value
.I n1
or
.I n2
is negative, it will be counted from the end of the string,
going backwards:
.
The last character has index\~-1, the character before the last
character has index\~-2, etc.
.
.TP
.BI .tkf\  f\ s1\ n1\ s2\ n2
Enable track kerning for font
.IR f .
When the current font is
.I f
the width of every glyph will be increased by an amount between
.I n1
and
.IR n2 ;
when the current point size is less than or equal to
.I s1
the width will be increased by
.IR n1 ;
when it is greater than or equal to
.I s2
the width will be increased by
.IR n2 ;
when the point size is greater than or equal to
.I s1
and less than or equal to
.I s2
the increase in width is a linear function of the point size.
.
.TP
.BI .tm1\  string
Similar to the
.B tm
request,
.I string
is read in copy mode and written on the standard error, but an initial
double quote in
.I string
is stripped off to allow initial blanks.
.
.TP
.BI .tmc\  string
Similar to
.B tm1
but without writing a final newline.
.
.TP
.BI .trf\  filename
Transparently output the contents of file
.IR filename .
Each line is output as if preceded by
.BR \[rs]! ;
however, the lines are not subject to copy-mode interpretation.
.
If the file does not end with a newline, then a newline will be added.
.
For example, you can define a macro\~\c
.I x
containing the contents of file\~\c
.IR f ,
using
.
.RS
.IP
.ne 2v+\n(.Vu
.ft CB
.nf
.Text .di x
.Text .trf f
.Text .di
.fi
.ft
.RE
.
.IP
Unlike with the
.B cf
request, the file cannot contain characters such as
.SM NUL
that are not legal troff input characters.
.
.TP
.BI .trin\  abcd
This is the same as the
.B tr
request except that the
.B asciify
request will use the character code (if any) before the character
translation.
.
Example:
.
.RS
.IP
.nf
.ft CB
.Text .trin ax
.Text .di xxx
.Text a
.Text .br
.Text .di
.Text .xxx
.Text .trin aa
.Text .asciify xxx
.Text .xxx
.fi
.ft
.RE
.
.IP
The result is
.BR x\ a .
.
Using
.BR tr ,
the result would be
.BR x\ x .
.
.TP
.BI .trnt\  abcd
This is the same as the
.B tr
request except that the translations do not apply to text that is
transparently throughput into a diversion with
.BR \[rs]! .
For example,
.
.RS
.IP
.nf
.ft CB
.Text .tr ab
.Text .di x
.Text \[rs]!.tm a
.Text .di
.Text .x
.fi
.ft
.RE
.
.IP
will print\~\c
.BR b ;
if
.B trnt
is used instead of
.B tr
it will print\~\c
.BR a .
.RE
.
.TP
.B .troff
Make the
.B n
built-in condition false, and the
.B t
built-in condition true.
.
This undoes the effect of the
.B nroff
request.
.
.TP
.BI .unformat\  xx
This request `unformats' the diversion
.IR xx .
Contrary to the
.B .asciify
request, which tries to convert formatted elements of the diversion
back to input tokens as much as possible,
.B .unformat
will only handle tabs and spaces between words (usually caused by
spaces or newlines in the input) specially.
.
The former are treated as if they were input tokens, and the latter
are stretchable again.
.
Note that the vertical size of lines is not preserved.
.
Glyph information (font, font size, space width, etc.) is retained.
.
Useful in conjunction with the
.B .box
and
.B .boxa
requests.
.
.TP
.BI .vpt\  n
Enable vertical position traps if
.I n
is non-zero, disable them otherwise.
.
Vertical position traps are traps set by the
.B wh
or
.B dt
requests.
.
Traps set by the
.B it
request are not vertical position traps.
.
The parameter that controls whether vertical position traps are
enabled is global.
.
Initially vertical position traps are enabled.
.
.TP
.BI .warn\  n
Control warnings.
.I n
is the sum of the numbers associated with each warning that is to be
enabled; all other warnings will be disabled.
.
The number associated with each warning is listed in
.BR @g@troff (@MAN1EXT@).
.
For example,
.B .warn\~0
will disable all warnings, and
.B .warn\~1
will disable all warnings except that about missing glyphs.
.
If
.I n
is not given, all warnings will be enabled.
.
.TP
.BI .warnscale\  si
Set the scaling indicator used in warnings to
.IR si .
.
Valid values for
.I si
are
.BR u ,
.BR i ,
.BR c ,
.BR p ,
and
.BR P .
.
At startup, it is set to\~\c
.BR i .
.
.TP
.BI .while \ c\ anything
While condition\~\c
.I c
is true, accept
.I anything
as input;
.IR c \~\c
can be any condition acceptable to an
.B if
request;
.I anything
can comprise multiple lines if the first line starts with
.B \[rs]{
and the last line ends with
.BR \[rs]} .
See also the
.B break
and
.B continue
requests.
.
.TP
.BI .write\  stream\ anything
Write
.I anything
to the stream named
.IR stream .
.I stream
must previously have been the subject of an
.B open
request.
.I anything
is read in copy mode;
a leading\~\c
.B \[dq]
will be stripped.
.
.TP
.BI .writec\  stream\ anything
Similar to
.B write
but without writing a final newline.
.
.TP
.BI .writem\  stream\ xx
Write the contents of the macro or string
.I xx
to the stream named
.IR stream .
.I stream
must previously have been the subject of an
.B open
request.
.I xx
is read in copy mode.
.
.
.\" --------------------------------------------------------------------
.SS "Extended escape sequences"
.\" --------------------------------------------------------------------
.
.TP
.BI \[rs]D' .\|.\|. '
All drawing commands of groff's intermediate output are accepted.
.
See subsection
.B "Drawing Commands"
below for more information.
.
.
.\" --------------------------------------------------------------------
.SS "Extended requests"
.\" --------------------------------------------------------------------
.
.TP
.BI .cf\  filename
When used in a diversion, this will embed in the diversion an object
which, when reread, will cause the contents of
.I filename
to be transparently copied through to the output.
.
In UNIX troff, the contents of
.I filename
is immediately copied through to the output regardless of whether
there is a current diversion; this behaviour is so anomalous that it
must be considered a bug.
.
.TP
.BI .de\  xx\ yy
.TQ
.BI .am\  xx\ yy
.TQ
.BI .ds\  xx\ yy
.TQ
.BI .as\  xx\ yy
In compatibility mode, these requests behaves similar to
.BR .de1 ,
.BR .am1 ,
.BR .ds1 ,
and
.BR .as1 ,
respectively: A `compatibility save' token is inserted at the
beginning, and a `compatibility restore' token at the end, with
compatibility mode switched on during execution.
.
.TP
.BI .ev\  xx
If
.I xx
is not a number, this will switch to a named environment called
.IR xx .
The environment should be popped with a matching
.B ev
request without any arguments, just as for numbered environments.
.
There is no limit on the number of named environments; they will be
created the first time that they are referenced.
.
.TP
.BI .ss\  m\ n
When two arguments are given to the
.B ss
request, the second argument gives the
.IR "sentence space size" .
If the second argument is not given, the sentence space size
will be the same as the word space size.
.
Like the word space size, the sentence space is in units of
one twelfth of the spacewidth parameter for the current font.
.
Initially both the word space size and the sentence
space size are\~12.
.
Contrary to UNIX troff, GNU troff handles this request in nroff mode
also; a given value is then rounded down to the nearest multiple
of\~12.
.
The sentence space size is used in two circumstances.
.
If the end of a sentence occurs at the end of a line in fill mode,
then both an inter-word space and a sentence space will be added; if
two spaces follow the end of a sentence in the middle of a line, then
the second space will be a sentence space.
.
Note that the behaviour of UNIX troff will be exactly that exhibited
by GNU troff if a second argument is never given to the
.B ss
request.
.
In GNU troff, as in UNIX troff, you should always follow a sentence
with either a newline or two spaces.
.
.TP
.BI .ta\  n1\ n2\|.\|.\|.nn \ T\  r1\ r2\|.\|.\|.\|rn
Set tabs at positions
.IR n1 ,
.IR n2 ,\|.\|.\|.\|,
.I nn
and then set tabs at
.IR nn + r1 ,
.IR nn + r2 ,\|.\|.\|.\|,
.IR nn + rn
and then at
.IR nn + rn + r1 ,
.IR nn + rn + r2 ,\|.\|.\|.\|,
.IR nn + rn + rn ,
and so on.
For example,
.
.RS
.IP
.ft CB
.Text .ta T .5i
.br
.ft
.
.P
will set tabs every half an inch.
.RE
.
.
.\" --------------------------------------------------------------------
.SS "New number registers"
.\" --------------------------------------------------------------------
.
The following read-only registers are available:
.
.TP
.B \[rs]n[.C]
1\~if compatibility mode is in effect, 0\~otherwise.
.
.TP
.B \[rs]n[.cdp]
The depth of the last glyph added to the current environment.
.
It is positive if the glyph extends below the baseline.
.
.TP
.B \[rs]n[.ce]
The number of lines remaining to be centered, as set by the
.B ce
request.
.
.TP
.B \[rs]n[.cht]
The height of the last glyph added to the current environment.
.
It is positive if the glyph extends above the baseline.
.
.TP
.B \[rs]n[.color]
1\~if colors are enabled, 0\~otherwise.
.
.TP
.B \[rs]n[.csk]
The skew of the last glyph added to the current environment.
.
The
.I skew
of a glyph is how far to the right of the center of a glyph
the center of an accent over that glyph should be placed.
.
.TP
.B \[rs]n[.ev]
The name or number of the current environment.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.fam]
The current font family.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.fn]
The current (internal) real font name.
.
This is a string-valued register.
.
If the current font is a style, the value of
.B \[rs]n[.fn]
is the proper concatenation of family and style name.
.
.TP
.B \[rs]n[.fp]
The number of the next free font position.
.
.TP
.B \[rs]n[.g]
Always\~1.
.
Macros should use this to determine whether they are running under GNU
troff.
.
.TP
.B \[rs]n[.height]
The current height of the font as set with
.BR \[rs]H .
.
.TP
.B \[rs]n[.hla]
The current hyphenation language as set by the
.B hla
request.
.
.TP
.B \[rs]n[.hlc]
The number of immediately preceding consecutive hyphenated lines.
.
.TP
.B \[rs]n[.hlm]
The maximum allowed number of consecutive hyphenated lines, as set by
the
.B hlm
request.
.
.TP
.B \[rs]n[.hy]
The current hyphenation flags (as set by the
.B hy
request).
.
.TP
.B \[rs]n[.hym]
The current hyphenation margin (as set by the
.B hym
request).
.
.TP
.B \[rs]n[.hys]
The current hyphenation space (as set by the
.B hys
request).
.
.TP
.B \[rs]n[.in]
The indent that applies to the current output line.
.
.TP
.B \[rs]n[.int]
Set to a positive value if last output line is interrupted (i.e., if
it contains
.IR \[rs]c ).
.
.TP
.B \[rs]n[.kern]
1\~if pairwise kerning is enabled, 0\~otherwise.
.
.TP
.B \[rs]n[.lg]
The current ligature mode (as set by the
.B lg
request).
.
.TP
.B \[rs]n[.linetabs]
The current line-tabs mode (as set by the
.B linetabs
request).
.
.TP
.B \[rs]n[.ll]
The line length that applies to the current output line.
.
.TP
.B \[rs]n[.lt]
The title length as set by the
.B lt
request.
.
.TP
.B \[rs]n[.m]
The name of the current drawing color.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.M]
The name of the current background color.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.ne]
The amount of space that was needed in the last
.B ne
request that caused a trap to be sprung.
.
Useful in conjunction with the
.B \[rs]n[.trunc]
register.
.
.TP
.B \[rs]n[.ns]
1\~if no-space mode is active, 0\~otherwise.
.
.TP
.B \[rs]n[.pe]
1\~during a page ejection caused by the
.B bp
request, 0\~otherwise.
.
.TP
.B \[rs]n[.pn]
The number of the next page, either the value set by a
.B pn
request, or the number of the current page plus\~1.
.
.TP
.B \[rs]n[.ps]
The current pointsize in scaled points.
.
.TP
.B \[rs]n[.psr]
The last-requested pointsize in scaled points.
.
.TP
.B \[rs]n[.pvs]
The current post-vertical line space as set with the
.B pvs
request.
.
.TP
.B \[rs]n[.rj]
The number of lines to be right-justified as set by the
.B rj
request.
.
.TP
.B \[rs]n[.slant]
The slant of the current font as set with
.BR \[rs]S .
.
.TP
.B \[rs]n[.sr]
The last requested pointsize in points as a decimal fraction.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.ss]
.TQ
.B \[rs]n[.sss]
These give the values of the parameters set by the first and second
arguments of the
.B ss
request.
.
.TP
.B \[rs]n[.sty]
The current font style.
.
This is a string-valued register.
.
.TP
.B \[rs]n[.tabs]
A string representation of the current tab settings suitable for use
as an argument to the
.B ta
request.
.
.TP
.B \[rs]n[.trunc]
The amount of vertical space truncated by the most recently sprung
vertical position trap, or, if the trap was sprung by a
.B ne
request, minus the amount of vertical motion produced by the
.B ne
request.
.
In  other  words, at the point  a  trap is  sprung,  it represents the
difference of  what the vertical position  would have been but for the
trap, and what the vertical position actually is.
.
Useful in conjunction with the
.B \[rs]n[.ne]
register.
.
.TP
.B \[rs]n[.U]
Set to 1 if in safer mode and to 0 if in unsafe mode (as given with the
.B \-U
command line option).
.
.TP
.B \[rs]n[.vpt]
1\~if vertical position traps are enabled, 0\~otherwise.
.
.TP
.B \[rs]n[.warn]
The sum of the numbers associated with each of the currently enabled
warnings.
.
The number associated with each warning is listed in
.BR @g@troff (@MAN1EXT@).
.
.TP
.B \[rs]n[.x]
The major version number.
.
For example, if the version number is 1.03, then
.B \[rs]n[.x]
will contain\~1.
.
.TP
.B \[rs]n[.y]
The minor version number.
.
For example, if the version number is 1.03, then
.B \[rs]n[.y]
will contain\~03.
.
.TP
.B \[rs]n[.Y]
The revision number of groff.
.
.TP
.B \[rs]n[llx]
.TQ
.B \[rs]n[lly]
.TQ
.B \[rs]n[urx]
.TQ
.B \[rs]n[ury]
These four registers are set by the
.B .psbb
request and contain the bounding box values (in PostScript units) of a
given PostScript image.
.
.P
The following read/write registers are set by the
.B \[rs]w
escape sequence:
.
.TP
.B \[rs]n[rst]
.TQ
.B \[rs]n[rsb]
Like the
.B st
and
.B sb
registers, but take account of the heights and depths of glyphs.
.
.TP
.B \[rs]n[ssc]
The amount of horizontal space (possibly negative) that should be
added to the last glyph before a subscript.
.
.TP
.B \[rs]n[skw]
How far to right of the center of the last glyph in the
.B \[rs]w
argument, the center of an accent from a roman font should be placed
over that glyph.
.
.P
Other available read/write number registers are:
.
.TP
.B \[rs]n[c.]
The current input line number.
.B \[rs]n[.c]
is a read-only alias to this register.
.
.TP
.B \[rs]n[hours]
The number of hours past midnight.
.
Initialized at start-up.
.
.TP
.B \[rs]n[hp]
The current horizontal position at input line.
.
.TP
.B \[rs]n[minutes]
The number of minutes after the hour.
.
Initialized at start-up.
.
.TP
.B \[rs]n[seconds]
The number of seconds after the minute.
.
Initialized at start-up.
.
.TP
.B \[rs]n[systat]
The return value of the system() function executed by the last
.B sy
request.
.
.TP
.B \[rs]n[slimit]
If greater than\~0, the maximum number of objects on the input stack.
.
If less than or equal to\~0, there is no limit on the number of
objects on the input stack.
.
With no limit, recursion can continue until virtual memory is
exhausted.
.
.TP
.B \[rs]n[year]
The current year.
.
Note that the traditional
.B troff
number register
.B \[rs]n[yr]
is the current year minus 1900.
.
.
.\" --------------------------------------------------------------------
.SS Miscellaneous
.\" --------------------------------------------------------------------
.
.B @g@troff
predefines a single (read/write) string-based register,
.BR \[rs]*(.T ,
which contains the argument given to the
.B \-T
command line option, namely the current output device (for example,
.I latin1
or
.IR ascii ).
Note that this is not the same as the (read-only) number register
.B \[rs]n[.T]
which is defined to be\~1 if
.B troff
is called with the
.B \-T
command line option, and zero otherwise.
.
This behaviour is different to UNIX troff.
.
.P
Fonts not listed in the
.SM DESC
file are automatically mounted on the next available font position
when they are referenced.
.
If a font is to be mounted explicitly with the
.B fp
request on an unused font position, it should be mounted on the first
unused font position, which can be found in the
.B \[rs]n[.fp]
register; although
.B troff
does not enforce this strictly, it will not allow a font to be mounted
at a position whose number is much greater than that of any currently
used position.
.
.P
Interpolating a string does not hide existing macro arguments.
.
Thus in a macro, a more efficient way of doing
.
.IP
.BI . xx\  \[rs]\[rs]$@
.P
is
.
.IP
.BI \[rs]\[rs]*[ xx ]\[rs]\[rs]  
.
.P
If the font description file contains pairwise kerning information,
glyphs from that font will be kerned.
.
Kerning between two glyphs can be inhibited by placing a
.B \[rs]&
between them.
.
.P
In a string comparison in a condition, characters that appear at
different input levels to the first delimiter character will not be
recognised as the second or third delimiters.
.
This applies also to the
.B tl
request.
.
In a
.B \[rs]w
escape sequence, a character that appears at a different input level
to the starting delimiter character will not be recognised as the
closing delimiter character.
.
The same is true for
.BR \[rs]A ,
.BR \[rs]b ,
.BR \[rs]B ,
.BR \[rs]C ,
.BR \[rs]l ,
.BR \[rs]L ,
.BR \[rs]o ,
.BR \[rs]X ,
and
.BR \[rs]Z .
.
When decoding a macro or string argument that is delimited by double
quotes, a character that appears at a different input level to the starting
delimiter character will not be recognised as the closing delimiter
character.
.
The implementation of
.B \[rs]$@
ensures that the double quotes surrounding an argument will appear the
same input level, which will be different to the input level of the
argument itself.
.
In a long escape name
.B ]
will not be recognized as a closing delimiter except when it occurs at
the same input level as the opening
.BR ] .
.
In compatibility mode, no attention is paid to the input-level.
.
.P
There are some new types of condition:
.
.TP
.BI .if\ r xxx
True if there is a number register named
.IR xxx .
.
.TP
.BI .if\ d xxx
True if there is a string, macro, diversion, or request named
.IR xxx .
.
.TP
.BI .if\ m xxx
True if there is a color named
.IR xxx .
.
.TP
.BI .if\ c ch
True if there is a glyph
.IR ch
available;
.I ch
is either an
.SM ASCII
character or a glyph (special character)
.BI \[rs]( xx
or
.BI \[rs][ xxx ]\f[R];
the condition will also be true if
.I ch
has been defined by the
.B char
request.
.
.TP
.BI .if\ F f
True if font
.I f
exists.
.
.B f
is handled as if it was opened with the
.B ft
request (this is, font translation and styles are applied), without
actually mounting it.
.
.TP
.BI .if\ S s
True if style
.I s
has been registered.
.
Font translation is applied.
.
.P
The
.B tr
request can now map characters onto
.BR \[rs]~ .
.
.P
It is now possible to have whitespace between the first and second dot
(or the name of the ending macro) to end a macro definition.
.
Example:
.
.IP
.ne 6v+\n(.Vu
.ft CB
.nf
.Text .if t \[rs]{\[rs]
.Text .  de bar
.Text .    nop Hello, I'm `bar'.
.Text .  .
.Text .\[rs]}
.fi
.
.
.\" --------------------------------------------------------------------
.SH "INTERMEDIATE OUTPUT FORMAT"
.\" --------------------------------------------------------------------
.
This section describes the format output by GNU troff.
.
The output format used by GNU troff is very similar to that used
by Unix device-independent troff.
.
Only the differences are documented here.
.
.
.\" --------------------------------------------------------------------
.SS "Units"
.\" --------------------------------------------------------------------
.
The argument to the
.B s
command is in scaled points (units of
.RI points/ n ,
where
.I n
is the argument to the
.B sizescale
command  in the DESC file).
.
The argument to the
.B x\ Height
command is also in scaled points.
.
.
.\" --------------------------------------------------------------------
.SS "Text Commands"
.\" --------------------------------------------------------------------
.
.TP
.BI N n
Print glyph with index\~\c
.I n
(a non-negative integer) of the current font.
.
.P
If the
.B tcommand
line is present in the DESC file, troff will use the following two
commands.
.
.TP
.BI t xxx
.I xxx
is any sequence of characters terminated by a space or a newline (to
be more precise, it is a sequence of glyphs which are accessed with
the corresponding characters); the first character should be printed at
the current position, the current horizontal position should be increased
by the width of the first character, and so on for each character.
.
The width of the glyph is that given in the font file,
appropriately scaled for the current point size, and rounded so that
it is a multiple of the horizontal resolution.
.
Special characters cannot be printed using this command.
.
.TP
.BI u n\ xxx
This is same as the
.B t
command except that after printing each character, the current
horizontal position is increased by the sum of the width of that
character and
.IR n .
.
.P
Note that single characters can have the eighth bit set, as can the
names of fonts and special characters.
.
.P
The names of glyphs and fonts can be of arbitrary length; drivers
should not assume that they will be only two characters long.
.
.P
When a glyph is to be printed, that glyph will always be
in the current font.
.
Unlike device-independent troff, it is not necessary for drivers to
search special fonts to find a glyph.
.
.P
For color support, some new commands have been added:
.
.TP
.Text \f[B]mc \f[I]cyan magenta yellow\f[R]
.TQ
.Text \f[B]md\f[R]
.TQ
.Text \f[B]mg \f[I]gray\f[R]
.TQ
.Text \f[B]mk \f[I]cyan magenta yellow black\f[R]
.TQ
.Text \f[B]mr \f[I]red green blue\f[R]
Set the color components of the current drawing color, using various
color schemes.
.
.B md
resets the drawing color to the default value.
.
The arguments are integers in the range 0 to 65536.
.
.P
The
.B x
device control command has been extended.
.
.TP
.Text \f[B]x u \f[I]n\f[R]
If
.I n
is\~1, start underlining of spaces.
.
If
.I n
is\~0, stop underlining of spaces.
.
This is needed for the
.B cu
request in nroff mode and is ignored otherwise.
.
.
.\" --------------------------------------------------------------------
.SS "Drawing Commands"
.\" --------------------------------------------------------------------
.
The
.B D
drawing command has been extended.
.
These extensions will not be used by GNU pic if the
.B \-n
option is given.
.
.TP
.Text \f[B]Df \f[I]n\f[R]\*[ic]\[rs]n
Set the shade of gray to be used for filling solid objects to
.IR n ;
.I n
must be an integer between 0 and 1000, where 0 corresponds solid white
and 1000 to solid black, and values in between correspond to
intermediate shades of gray.
.
This applies only to solid circles, solid ellipses and solid
polygons.
.
By default, a level of 1000 will be used.
.
Whatever color a solid object has, it should completely obscure
everything beneath it.
.
A value greater than 1000 or less than 0 can also be used: this means
fill with the shade of gray that is currently being used for lines and
text.
.
Normally this will be black, but some drivers may provide a way of
changing this.
.
.IP
The corresponding
.BI \[rs]D'f .\|.\|. '
command shouldn't be used since its argument is always rounded to an
integer multiple of the horizontal resolution which can lead to
surprising results.
.
.TP
.Text \f[B]DC \f[I]d\f[R]\*[ic]\[rs]n
Draw a solid circle with a diameter of
.I d
with the leftmost point at the current position.
.
.TP
.Text \f[B]DE \f[I]dx dy\f[R]\*[ic]\[rs]n
Draw a solid ellipse with a horizontal diameter of
.I dx
and a vertical diameter of
.I dy
with the leftmost point at the current position.
.EQ
delim $$
.EN
.
.TP
.Text \f[B]Dp\f[R] $dx sub 1$ $dy sub 1$ $dx sub 2$ $dy sub 2$ $...$ $dx sub n$ $dy sub n$\[rs]n
Draw a polygon with, for $i = 1 ,..., n+1$, the
.IR i -th
vertex at the current position 
.
$+ sum from j=1 to i-1 ( dx sub j , dy sub j )$.
.
At the moment, GNU pic only uses this command to generate triangles
and rectangles.
.
.TP
.Text \f[B]DP\f[R] $dx sub 1$ $dy sub 1$ $dx sub 2$ $dy sub 2$ $...$ $dx sub n$ $dy sub n$\[rs]n
.
Like
.B Dp
but draw a solid rather than outlined polygon.
.
.TP
.Text \f[B]Dt \f[I]n\f[R]\*[ic]\[rs]n
Set the current line thickness to
.I n
machine units.
.
Traditionally Unix troff drivers use a line thickness proportional to
the current point size; drivers should continue to do this if no
.B Dt
command has been given, or if a
.B Dt
command has been given with a negative value of
.IR n .
A zero value of
.I n
selects the smallest available line thickness.
.
.P
A difficulty arises in how the current position should be changed after
the execution of these commands.
.
This is not of great importance since the code generated by GNU pic
does not depend on this.
.
Given a drawing command of the form
.IP
\f[B]\[rs]D\[fm]\f[I]c\f[R] $x sub 1$ $y sub 1$ $x sub 2$ $y sub 2$ $...$ $x sub n$ $y sub n$\[fm]
.
.P
where
.I c
is not one of
.BR c ,
.BR e ,
.BR l ,
.BR a ,
or
.BR ~ ,
Unix troff will treat each of the $x sub i$ as a horizontal quantity,
and each of the $y sub i$ as a vertical quantity and will assume that
the width of the drawn object is $sum from i=1 to n x sub i$,
and that the height is $sum from i=1 to n y sub i$.
.
(The assumption about the height can be seen by examining the
.B st
and
.B sb
registers after using such a
.B D
command in a \[rs]w escape sequence).
.
This rule also holds for all the original drawing commands with the
exception of
.BR De .
For the sake of compatibility GNU troff also follows this rule, even
though it produces an ugly result in the case of the
.B Dt
and
.BR Df ,
and, to a lesser extent,
.B DE
commands.
.
Thus after executing a
.B D
command of the form
.IP
\f[B]D\f[I]c\f[R] $x sub 1$ $y sub 1$ $x sub 2$ $y sub 2$ $...$ \c
$x sub n$ $y sub n$\[rs]n
.
.P
the current position should be increased by
.
$( sum from i=1 to n x sub i , sum from i=1 to n y sub i )$.
.
.P
Another set of extensions is
.
.TP
.Text \f[B]DFc \f[I]cyan magenta yellow\f[R]\*[ic]\[rs]n
.TQ
.Text \f[B]DFd\f[R]\*[ic]\[rs]n
.TQ
.Text \f[B]DFg \f[I]gray\f[R]\*[ic]\[rs]n
.TQ
.Text \f[B]DFk \f[I]cyan magenta yellow black\f[R]\*[ic]\[rs]n
.TQ
.Text \f[B]DFr \f[I]red green blue\f[R]\*[ic]\[rs]n
Set the color components of the filling color similar to the
.B m
commands above.
.
.P
The current position isn't changed by those colour commands (contrary to
.BR Df ).
.
.
.\" --------------------------------------------------------------------
.SS "Device Control Commands"
.\" --------------------------------------------------------------------
.
There is a continuation convention which permits the argument to the
.B x\ X
command to contain newlines: when outputting the argument to the
.B x\ X
command, GNU troff will follow each newline in the argument with a
.B +
character (as usual, it will terminate the entire argument with a
newline); thus if the line after the line containing the
.B x\ X
command starts with
.BR + ,
then the newline ending the line containing the
.B x\ X
command should be treated as part of the argument to the
.B x\ X
command, the
.B +
should be ignored, and the part of the line following the
.B +
should be treated like the part of the line following the
.B x\ X
command.
.
.P
The first three output commands are guaranteed to be:
.IP
.BI x\ T\  device
.br
.BI x\ res\  n\ h\ v
.br
.B x init
.
.
.\" --------------------------------------------------------------------
.SH INCOMPATIBILITIES
.\" --------------------------------------------------------------------
.
In spite of the many extensions, groff has retained compatibility to
classical troff to a large degree.
.
For the cases where the extensions lead to collisions, a special
compatibility mode with the restricted, old functionality was created
for groff.
.
.
.\" --------------------------------------------------------------------
.SS "Groff Language"
.\" --------------------------------------------------------------------
.
.I groff
provides a
.B compatibility mode
that allows to process roff code written for classical
.B troff
or for other implementations of roff in a consistent way.
.
.P
Compatibility mode can be turned on with the
.option \-C
command line option, and turned on or off with the
.request .cp
request.
.
The number register
.esc n(.C
is\~1 if compatibility mode is on, 0\~otherwise.
.
.P
This became necessary because the GNU concept for long names causes
some incompatibilities.
.I Classical troff
interprets
.IP
.request .dsabcd
.
.P
as defining a string
.B ab
with contents
.BR cd .
In
.IR groff
mode, this will be considered as a call of a macro named
.request dsabcd .
.
.P
Also
.I classical troff
interprets
.esc *[
or
.esc n[
as references to a string or number register called
.request [
while
.I groff
takes this as the start of a long name.
.
.P
In
.IR "compatibility mode" ,
groff interprets these things in the traditional way; so long
names are not recognized.
.
.P
On the other hand, groff in
.I GNU native mode
does not allow to use the single-character escapes
.esc \[rs]
(backslash),
.esc |
(vertical bar),
.esc ^
(caret),
.esc &
(ampersand),
.esc {
(opening brace),
.esc }
(closing brace),
.squoted "\[rs]\ "
(space),
.esc '
(single quote),
.esc `
(backquote),
.esc \-
(minus),
.esc _
(underline),
.esc !
(bang),
.esc %
(percent),
and
.esc c
(character c) in names of strings, macros, diversions, number
registers, fonts or environments, whereas
.I classical troff
does.
.
.P
The
.esc A
escape sequence can be helpful in avoiding these escape sequences in
names.
.
.P
Fractional pointsizes cause one noteworthy incompatibility.
.
In
.I classical
.IR troff ,
the
.request ps
request ignores scale indicators and so
.RS
.P
.B .ps\~10u
.RE
.
.P
will set the pointsize to 10\~points, whereas in groff native mode the
pointsize will be set to 10\~scaled points.
.
.P
In
.IR groff ,
there is a fundamental difference between unformatted input
characters, and formatted output characters (glyphs).
.
Everything that affects how a glyph will be output is
stored with the glyph; once a glyph has been
constructed it is unaffected by any subsequent requests that are
executed, including the
.request bd ,
.request cs ,
.request tkf ,
.request tr ,
or
.request fp
requests.
.
.P
Normally glyphs are constructed from input characters at
the moment immediately before the glyph is added to the current
output line.
.
Macros, diversions and strings are all, in fact, the same type of
object; they contain lists of input characters and glyphs
in any combination.
.
.P
Special characters can be both; before being added to the output, they
act as input entities, afterwards they denote glyphs.
.
.P
A glyph does not behave like an input character for the
purposes of macro processing; it does not inherit any of the special
properties that the input character from which it was constructed
might have had.
.
The following example will make things clearer.
.
.P
.RS
.nf
.ft CB
.Text .di x
.Text \[rs]\[rs]\[rs]\[rs]
.Text .br
.Text .di
.Text .x
.ft
.fi
.RE
.
.P
With
.I GNU troff
this will be printed as
.esc \[rs] .
So each pair of input backslashes
.squoted \[rs]\[rs]
is turned into a single output backslash glyph
.squoted \[rs]
and the resulting output backslashes are not interpreted as escape
characters when they are reread.
.
.P
.I Classical troff
would interpret them as escape characters when they were reread and
would end up printing a single backslash
.squoted \[rs] .
.
.P
In GNU, the correct way to get a printable version of the backslash
character
.squoted \[rs]
is the
.esc (rs
escape sequence, but classical troff does not provide a clean feature
for getting a non-syntactical backslash.
.
A close method is the printable version of the current escape
character using the
.esc e
escape sequence; this works if the current escape character is not
redefined.
.
It works in both GNU mode and compatibility mode, while dirty tricks
like specifying a sequence of multiple backslashes do not work
reliably; for the different handling in diversions, macro definitions,
or text mode quickly leads to a confusion about the necessary number of
backslashes.
.
.P
To store an escape sequence in a diversion that will be interpreted
when the diversion is reread, either the traditional
.esc !
transparent output facility or the
new
.esc ?
escape sequence can be used.
.
.
.\" --------------------------------------------------------------------
.SS "Intermediate Output"
.\" --------------------------------------------------------------------
.
The groff intermediate output format is in a state of evolution.
.
So far it has some incompatibilities, but it is intended to establish
a full compatibility to the classical troff output format.
.
Actually the following incompatibilities exist:
.
.Topic
The positioning after the drawing of the polygons conflicts with the
classical definition.
.
.Topic
The intermediate output cannot be rescaled to other devices as
classical "device-independent" troff did.
.
.
.\" --------------------------------------------------------------------
.SH AUTHORS
.\" --------------------------------------------------------------------
.
Copyright (C) 1989, 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
.
.P
This document is distributed under the terms of the FDL (GNU Free
Documentation License) version 1.1 or later.
.
You should have received a copy of the FDL on your system, it is also
available on-line at the
.URL http://\:www.gnu.org/\:copyleft/\:fdl.html "GNU copyleft site" .
.
This document was written by James Clark, with modifications by
.MTO wl@gnu.org "Werner Lemberg"
and
.MTO bwarken@mayn.de "Bernd Warken" .
.
.P
This document is part of
.IR groff ,
the GNU roff distribution.
.
Formerly, the contents of this document was kept in the manual
page
.BR @g@troff (@MAN1EXT@).
Only the parts dealing with the language aspects of the different
.I roff
systems were carried over into this document.
.
The
.I troff
command line options and warnings are still documented in
.BR @g@troff (@MAN1EXT@).
.
.\" --------------------------------------------------------------------
.SH "SEE ALSO"
.\" --------------------------------------------------------------------
.
The
.I groff info
.IR file ,
cf.\&
.BR info (1)
presents all groff documentation within a single document.
.
.TP
.BR groff (@MAN1EXT@)
A list of all documentation around
.IR groff .
.
.TP
.BR groff (@MAN7EXT@)
A description of the
.I groff
language, including a short, but complete reference of all predefined
requests, registers, and escapes of plain
.IR groff .
From the command line, this is called using
.
.IP
.ShellCommand man\~7\~groff
.
.TP
.BR roff (@MAN7EXT@)
A survey of
.I roff
systems, including pointers to further historical documentation.
.
.TP
.RI [ CSTR\~#54\/ ]
The
.I Nroff/\:Troff User's Manual
by
.I J.\& F.\& Osanna
of 1976 in the revision of
.I Brian Kernighan
of 1992, being the
.URL http://\:cm.bell-labs.com/\:cm/\:cs/\:cstr/\:54.ps.gz \
     "classical troff documentation" .
.
.cp \n[groff_diff_C]
.
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.
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