Provided by: groff_1.22.4-4build1_amd64 bug

NAME

       groff_diff - differences between GNU troff and classical troff

DESCRIPTION

       This  manual  page  describes  the  language  differences between groff, the GNU roff text
       processing system, and the classical roff formatter of the freely available Unix 7 of  the
       1970s,  documented in the Troff User's Manual by Ossanna and Kernighan.  This includes the
       roff language as well as the intermediate output format (troff output).

       Section “See Also” below gives pointers to both the classical roff and  the  modern  groff
       documentation.

GROFF LANGUAGE

       In  this  section, all additional features of groff compared to the classical Unix 7 troff
       are described in detail.

   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 ‘(xx’ construction for a two-character glyph name, you can  use  ‘[xxx]’  for  a
       name of arbitrary length.

       \[xxx] Print the special character (glyph) called xxx.

       \[comp1 comp2 ...]
              Print  composite  glyph  consisting  of multiple components.  Example: ‘\[A ho]’ is
              capital letter A with ogonek which finally maps to glyph  name  ‘u0041_0328’.   See
              Groff:  The  GNU  Implementation of troff, the groff Texinfo manual, for details of
              how a glyph name for a composite glyph is constructed, and groff_char(7) for a list
              of glyph name components used in composite glyph names.

       \f[xxx]
              Set  font  xxx.   Additionally,  \f[]  is  a new syntax form equal to \fP, i.e., to
              return to the previous font.

       \*[xxx arg1 arg2 ...]
              Interpolate string xxx, taking arg1, arg2, ..., as arguments.

       \n[xxx]
              Interpolate number register xxx.

   Fractional point sizes
       A scaled point is equal to 1/sizescale points, where sizescale is specified  in  the  DESC
       file  (1 by default).  There is a new scale indicator z that has the effect of multiplying
       by sizescale.  Requests and escape sequences in troff interpret arguments that represent a
       point  size as being in units of scaled points, but they evaluate each such argument using
       a default scale indicator of z.  Arguments treated in this way are the argument to the  ps
       request,  the third argument to the cs request, the second and fourth arguments to the tkf
       request, the argument to the \H escape sequence, and  those  variants  of  the  \s  escape
       sequence that take a numeric expression as their argument.

       For example, suppose sizescale is 1000; then a scaled point is equivalent to a millipoint;
       the call .ps 10.25 is equivalent to .ps 10.25z and so sets the point size to 10250  scaled
       points, which is equal to 10.25 points.

       The number register \n[.s] returns the point size in points as decimal fraction.  There is
       also a new number register \n[.ps] that returns the point size in scaled points.

       It would make no sense to use the z scale indicator in a numeric expression whose  default
       scale indicator was neither u nor z, and so troff disallows this.  Similarly it would make
       no sense to use a scaling indicator other than z  or  u  in  a  numeric  expression  whose
       default scale indicator was z, and so troff disallows this as well.

       There  is  also  new scale indicator s which multiplies by the number of units in a scaled
       point.  So, for example, \n[.ps]s is equal to 1m.  Be  sure  not  to  confuse  the  s  and
       z scale indicators.

   Numeric expressions
       Spaces are permitted in a number expression within parentheses.

       M  indicates  a  scale  of 100ths of an em.  f indicates a scale of 65536 units, providing
       fractions for color definitions with the defcolor request.  For example, 0.5f = 32768u.

       e1>?e2 The maximum of e1 and e2.

       e1<?e2 The minimum of e1 and e2.

       (c;e)  Evaluate e using c as the default scaling  indicator.   If  c  is  missing,  ignore
              scaling indicators in the evaluation of e.

   New escape sequences
       \A'anything'
              This  expands  to  1 or 0, depending on whether anything is or is not acceptable as
              the name of a string, macro, diversion,  number  register,  environment,  font,  or
              color.   It  returns 0 if anything is empty.  This is useful if you want to look up
              user input in some sort of associative table.

       \B'anything'
              This expands to 1 or 0, depending on whether anything is or is not a valid  numeric
              expression.  It returns 0 if anything is empty.

       \C'xxx'
              Typeset glyph named xxx.  Normally it is more convenient to use \[xxx].  But \C has
              the advantage that it is compatible with recent versions of Unix and  is  available
              in compatibility mode.

       \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

                     .ds { \v'-.3m'\s'\En[.s]*6u/10u'
                     .ds } \s0\v'.3m'

              The use of \E ensures that these definitions work even if \*{ gets  interpreted  in
              copy mode (for example, by being used in a macro argument).

       \Ff
       \F(fm
       \F[fam]
              Change  font  family.   This is the same as the fam request.  \F[] switches back to
              the previous font family (note that \FP won't work;  it  selects  font  family  ‘P’
              instead).

       \mx
       \m(xx
       \m[xxx]
              Set drawing color.  \m[] switches back to the previous color.

       \Mx
       \M(xx
       \M[xxx]
              Set  background  color  for  filled  objects drawn with the \D'...' commands.  \M[]
              switches back to the previous color.

       \N'n'  Typeset the glyph with index n in the current font.  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 are not searched.  The \N  escape
              sequence can be conveniently used in conjunction with the char request, for example

                     .char \[phone] \f(ZD\N'37'

              The  index of each glyph is given in the fourth column in the font description file
              after the charset command.  It is possible to include unnamed glyphs  in  the  font
              description  file by using a name of ---; the \N escape sequence is the only way to
              use these.

       \On
       \O[n]  Suppress troff output.  The escapes  \O2,  \O3,  \O4,  and  \O5  are  intended  for
              internal use by grohtml.

              \O0    Disable any ditroff glyphs from being emitted to the device driver, provided
                     that the escape occurs at the outer level (see \O3 and \O4).

              \O1    Enable output of glyphs, provided that the escape occurs at the outer level.

                     \O0 and \O1 also reset the registers \n[opminx], \n[opminy], \n[opmaxx], and
                     \n[opmaxy]  to  -1.  These four registers mark the top left and bottom right
                     hand corners of a box which encompasses all written glyphs.

              \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 \O.

              \O3    Begin a nesting level.  At start-up, troff  is  at  outer  level.   This  is
                     really  an  internal mechanism for grohtml while producing images.  They are
                     generated by running the troff source through troff to the PostScript device
                     and  ghostscript  to  produce images in PNG format.  The \O3 escape starts a
                     new page if the device is not html (to  reduce  the  possibility  of  images
                     crossing a page boundary).

              \O4    End a nesting level.

              \O5[Pfilename]
                     This  escape  is  grohtml specific.  Provided that this escape occurs at the
                     outer nesting level, write filename to stderr.  The position of  the  image,
                     P,  must  be  specified  and  must  be  one  of  l, r, c, or i (left, right,
                     centered, inline).  filename is associated with the production of  the  next
                     inline image.

       \R'name ±n'
              This has the same effect as

                     .nr name ±n

       \s(nn
       \s±(nn Set the point size to nn points; nn must be exactly two digits.

       \s[±n]
       \s±[n]
       \s'±n'
       \s±'n' Set  the  point  size  to n scaled points; n is a numeric expression with a default
              scale indicator of z.

       \Vx
       \V(xx
       \V[xxx]
              Interpolate the contents of the environment variable xxx, as returned by getenv(3).
              \V is interpreted in copy mode.

       \Yx
       \Y(xx
       \Y[xxx]
              This  is  approximately  equivalent  to  \X'\*[xxx]'.   However the contents of the
              string or macro xxx are not interpreted; also it is permitted for xxx to have  been
              defined  as a macro and thus contain newlines (it is not permitted for the argument
              to \X to contain newlines).  The inclusion of newlines requires an extension to the
              Unix  troff  output  format,  and  confuses  drivers  that  do  not know about this
              extension.

       \Z'anything'
              Print anything and then restore the horizontal and vertical position; anything  may
              not contain tabs or leaders.

       \$0    The  name by which the current macro was invoked.  The als request can make a macro
              have more than one name.

       \$*    In a macro or string, the concatenation of all the arguments separated by spaces.

       \$@    In a macro or string, the concatenation of all the arguments with  each  surrounded
              by double quotes, and separated by spaces.

       \$^    In a macro, the representation of all parameters as if they were an argument to the
              ds request.

       \$(nn
       \$[nnn]
              In a macro or string, this gives the nn-th or nnn-th argument.  Macros and  strings
              can have an unlimited number of arguments.

       \?anything\?
              When  used  in  a  diversion,  this transparently embeds anything in the diversion.
              anything is read  in  copy  mode.   When  the  diversion  is  reread,  anything  is
              interpreted.   anything  may  not  contain  newlines;  use  \! if you want to embed
              newlines in a diversion.  The escape sequence \? is also recognized  in  copy  mode
              and  turned  into a single internal code; it is this code that terminates anything.
              Thus

                     .nr x 1
                     .nf
                     .di d
                     \?\\?\\\\?\\\\\\\\nx\\\\?\\?\?
                     .di
                     .nr x 2
                     .di e
                     .d
                     .di
                     .nr x 3
                     .di f
                     .e
                     .di
                     .nr x 4
                     .f

              prints 4.

       \/     This increases the width of the preceding glyph so that the  spacing  between  that
              glyph  and  the following glyph is correct if the following glyph is a roman glyph.
              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.

       \,     This  modifies  the spacing of the following glyph so that the spacing between that
              glyph and the preceding glyph is correct if the preceding glyph is a  roman  glyph.
              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.

       \)     Like \& except that it behaves like a character declared with the cflags request to
              be transparent for the purposes of end-of-sentence recognition.

       \~     This  produces  an  unbreakable space that stretches like a normal inter-word space
              when a line is adjusted.

       \:     This causes the insertion of a zero-width break point.  It is equal to \% within  a
              word but without insertion of a soft hyphen glyph.

       \#     Everything up to and including the next newline is ignored.  This is interpreted in
              copy mode.  It is like \" except that \" does not ignore the terminating newline.

   New requests
       .aln xx yy
              Create an alias xx for number register object named yy.  The new name and  the  old
              name  are  exactly  equivalent.   If  yy  is  undefined,  a  warning of type reg is
              generated, and the request is ignored.

       .als xx yy
              Create an alias xx for request, string, macro, or diversion object named  yy.   The
              new  name  and  the old name are exactly equivalent (it is similar to a hard rather
              than a soft link).  If yy is undefined, a warning of type mac is generated, and the
              request  is  ignored.   The  de,  am, di, da, ds, and as requests only create a new
              object if the name of the macro, diversion or string is currently undefined  or  if
              it  is  defined  to  be  a  request;  normally they modify the value of an existing
              object.

       .am1 xx yy
              Similar to .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 am, am1, de, and de1 can be intermixed freely since the compatibility
              save/restore tokens only affect the macro parts defined by .am1 and .ds1.

       .ami xx yy
              Append to macro indirectly.  See the dei request below for more information.

       .ami1 xx yy
              Same as the ami request but compatibility mode is switched off during execution.

       .as1 xx yy
              Similar to .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  as,  as1,  ds,  and  ds1 can be intermixed freely since the compatibility
              save/restore tokens only affect the (sub)strings defined by as1 and ds1.

       .asciify xx
              This request ‘unformats’ the diversion xx in  such  a  way  that  ASCII  and  space
              characters (and some escape sequences) that were formatted and diverted into xx are
              treated like ordinary input characters when xx is reread.  Useful for diversions in
              conjunction  with  the  writem  request.   It can be also used for gross hacks; for
              example, this

                     .tr @.
                     .di x
                     @nr n 1
                     .br
                     .di
                     .tr @@
                     .asciify x
                     .x

              sets register n to 1.  Note that glyph information (font, font size, etc.)  is  not
              preserved; use .unformat instead.

       .backtrace
              Print a backtrace of the input stack on stderr.

       .blm xx
              Set the blank line macro to xx.  If there is a blank line macro, it is invoked when
              a blank line is encountered instead of the usual troff behaviour.

       .box xx
       .boxa xx
              These requests are similar to the di and da requests  with  the  exception  that  a
              partially  filled  line  does not become part of the diversion (i.e., the diversion
              always starts with a  new  line)  but  is  restored  after  ending  the  diversion,
              discarding the partially filled line which possibly comes from the diversion.

       .break Break  out of a while loop.  See also the while and continue requests.  Be sure not
              to confuse this with the br request.

       .brp   This is the same as \p.

       .cflags n c1 c2 ...
              Characters c1, c2, ..., have properties determined by n, which  is  ORed  from  the
              following:

              1      The character ends sentences (initially characters .?! have this property).

              2      Lines  can be broken before the character (initially no characters have this
                     property); a line is not broken at a character with this property unless the
                     characters  on  each side both have non-zero hyphenation codes.  This can be
                     overridden with value 64.

              4      Lines can be broken after the character  (initially  characters  -\[hy]\[em]
                     have  this property); a line is not broken at a character with this property
                     unless the characters on each side both  have  non-zero  hyphenation  codes.
                     This can be overridden with value 64.

              8      The  glyph  associated  with this character overlaps horizontally (initially
                     characters \[ul]\[rn]\[ru]\[radicalex]\[sqrtex] have this property).

              16     The glyph associated with  this  character  overlaps  vertically  (initially
                     glyph \[br] has this property).

              32     An  end-of-sentence character followed by any number of characters with this
                     property is 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
                     TeX (initially characters "')]*\[dg]\[rq]\[cq] have this property).

              64     Ignore  hyphenation  code values of the surrounding characters.  Use this in
                     combination  with  values  2  and  4  (initially  no  characters  have  this
                     property).

              128    Prohibit a line break before the character, but allow a line break after the
                     character.  This works only in combination with flags 256 and 512 and has no
                     effect otherwise.

              256    Prohibit a line break after the character, but allow a line break before the
                     character.  This works only in combination with flags 128 and 512 and has no
                     effect otherwise.

              512    Allow  line  break  before  or  after  the  character.   This  works only in
                     combination with flags 128 and 256 and has no effect otherwise.

              Contrary to flag values 2 and 4, the flags 128, 256, and 512  work  pairwise.   If,
              for example, the left character has value 512, and the right character 128, no line
              break gets inserted.  If we use value 6 instead for  the  left  character,  a  line
              break  after  the character can't be suppressed since the right neighbour character
              doesn't get examined.

       .char c string
              [This request can both define characters and glyphs.]

              Define entity c to be string.  To be more precise,  define  (or  even  override)  a
              groff  entity  which  can be accessed with name c on the input side, and which uses
              string on the output side.  Every time glyph c  needs  to  be  printed,  string  is
              processed  in  a  temporary  environment and the result is wrapped up into a single
              object.  Compatibility mode is turned off and the escape  character  is  set  to  \
              while  string  is  being  processed.   Any  emboldening,  constant spacing or track
              kerning is applied to this object rather than to individual glyphs in string.

              A groff object 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 tr request; it can be made the leader glyph by the lc request; repeated
              patterns  can  be  drawn with the glyph using the \l and \L escape sequences; words
              containing c can be hyphenated correctly, if the hcode request is used to give  the
              object a hyphenation code.

              There  is  a  special  anti-recursion  feature:  Use  of  glyph  within the glyph's
              definition is handled like normal glyphs not defined with char.

              A glyph definition can be removed with the rchar request.

       .chop xx
              Chop the last element off macro, string, or  diversion  xx.   This  is  useful  for
              removing  the  newline  from  the  end of diversions that are to be interpolated as
              strings.

       .class name c1 c2 ...
              Assign name to a set of characters c1, c2, ..., so that they  can  be  referred  to
              from  other  requests easily (currently .cflags only).  Character ranges (indicated
              by an intermediate ‘-’) and nested classes are possible also.  This  is  useful  to
              assign properties to a large set of characters.

       .close stream
              Close  the  stream named stream; stream will no longer be an acceptable argument to
              the write request.  See the open request.

       .composite glyph1 glyph2
              Map glyph name glyph1 to glyph name glyph2 if it is used in \[...] with  more  than
              one component.

       .continue
              Finish  the  current  iteration  of  a  while  loop.   See also the while and break
              requests.

       .color n
              If n is non-zero or missing, enable colors (this is the default), otherwise disable
              them.

       .cp n  If  n  is non-zero or missing, enable compatibility mode, otherwise disable it.  In
              compatibility mode, long names are not recognized, and the incompatibilities caused
              by long names do not arise.

       .defcolor xxx scheme color_components
              Define  color  xxx.   scheme  can  be  one  of  the  following  values:  rgb (three
              components), cmy (three components), cmyk (four components), and gray or 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 # or ##.  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 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:

                     .defcolor darkgreen rgb 0.1f 0.5f 0.2f

              Note that f is the default scaling indicator for the  defcolor  request,  thus  the
              above statement is equivalent to

                     .defcolor darkgreen rgb 0.1 0.5 0.2

              The  color  named  default  (which  is  device-specific) can't be redefined.  It is
              possible that the default color for \M and \m is not the same.

       .de1 xx yy
              Similar to .de, but compatibility mode is switched off during execution.  On entry,
              the current compatibility mode is saved and restored at exit.

       .dei xx yy
              Define macro indirectly.  The following example

                     .ds xx aa
                     .ds yy bb
                     .dei xx yy

              is equivalent to

                     .de aa bb

       .dei1 xx yy
              Similar to the dei request but compatibility mode is switched off during execution.

       .device anything
              This  is  (almost)  the  same  as  the \X escape.  anything is read in copy mode; a
              leading " is stripped.

       .devicem xx
              This is the same as the \Y escape (to embed  the  contents  of  a  macro  into  the
              intermediate output preceded with ‘x X’).

       .do xxx
              Interpret .xxx with compatibility mode disabled.  For example,

                     .do fam T

              would have the same effect as

                     .fam T

              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  xxx  are
              interpreted.

       .ds1 xx yy
              Similar  to  .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.

       .ecs   Save current escape character.

       .ecr   Restore  escape character saved with ecs.  Without a previous call to ecs, ‘\’ will
              be the new escape character.

       .evc xx
              Copy the contents of environment xx to the  current  environment.   No  pushing  or
              popping of environments is done.

       .fam xx
              Set  the current font family to xx.  The current font family is part of the current
              environment.  If xx is missing, switch back to previous font family.  The value  at
              start-up  is  ‘T’.   See the description of the sty request for more information on
              font families.

       .fchar c string
              Define fallback character (or glyph) c to be string.  The syntax of this request is
              the same as the char request; the only difference is that a glyph defined with char
              hides the glyph with the same name in the current font,  whereas  a  glyph  defined
              with fchar is checked only if the particular glyph isn't found in the current font.
              This test happens before checking special fonts.

       .fcolor c
              Set the fill color to c.  If c is missing, switch to the previous fill color.

       .fschar f c string
              Define fallback character (or glyph) c for font f to be string.  The syntax of this
              request is the same as the char request (with an additional argument to specify the
              font); a glyph defined with fschar is searched after the  list  of  fonts  declared
              with the fspecial request but before the list of fonts declared with .special.

       .fspecial f s1 s2 ...
              When  the  current  font  is  f,  fonts s1, s2, ..., are special, that is, they are
              searched for glyphs not in the current font.  Any fonts specified  in  the  special
              request  are  searched  after  fonts  specified  in  the fspecial request.  Without
              argument, reset the list of global special fonts to be empty.

       .ftr f g
              Translate font f to g.  Whenever a font named f is referred  to  in  an  \f  escape
              sequence,  in  the  F  and  S conditional operators, or in the ft, ul, bd, cs, tkf,
              special, fspecial, fp, or sty requests, font g is used.  If g is missing, or  equal
              to f then font f is not translated.

       .fzoom f zoom
              Set  zoom  factor  zoom  for  font f.  zoom must a non-negative integer multiple of
              1/1000th.  If it is missing or is equal to zero, it means the same as 1000,  namely
              no magnification.  f must be a real font name, not a style.

       .gcolor c
              Set the glyph color to c.  If c is missing, switch to the previous glyph color.

       .hcode c1 code1 c2 code2 ...
              Set  the  hyphenation code of character c1 to code1 and that of c2 to code2, and so
              on.  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 hpf request.

       .hla lang
              Set  the  current  hyphenation  language to lang.  Hyphenation exceptions specified
              with the hw request and hyphenation patterns specified with  the  hpf  request  are
              both  associated with the current hyphenation language.  The hla request is usually
              invoked by the troffrc file to set up a default language.

       .hlm n Set the maximum number of consecutive hyphenated lines to n.   If  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 \% are counted;
              explicit hyphens are not.

       .hpf file
              Read hyphenation patterns from file; this is searched for  in  the  same  way  that
              name.tmac  is searched for when the -mname option is specified.  It should have the
              same format as (simple) TeX  patterns  files.   More  specifically,  the  following
              scanning rules are implemented.

              •      A percent sign starts a comment (up to the end of the line) even if preceded
                     by a backslash.

              •      No support for ‘digraphs’ like \$.

              •      ^^xx (x is 0–9 or a–f) and ^^x (character code of x in the range 0–127)  are
                     recognized; other use of ^ causes an error.

              •      No macro expansion.

              •      hpf  checks  for  the  expression  \patterns{...}  (possibly with whitespace
                     before and after the braces).  Everything between the  braces  is  taken  as
                     hyphenation patterns.  Consequently, { and } are not allowed in patterns.

              •      Similarly, \hyphenation{...} gives a list of hyphenation exceptions.

              •      \endinput is recognized also.

              •      For  backwards  compatibility,  if  \patterns  is missing, the whole file is
                     treated as a list of hyphenation patterns (only recognizing the %  character
                     as the start of a comment).

              Use  the  hpfcode request to map the encoding used in hyphenation patterns files to
              groff's input encoding.  By default, everything maps to itself except  letters  ‘A’
              to ‘Z’ which map to ‘a’ to ‘z’.

              The  set of hyphenation patterns is associated with the current language set by the
              hla request.  The hpf request is usually invoked by the troffrc file; a second call
              replaces the old patterns with the new ones.

       .hpfa file
              The  same as hpf except that the hyphenation patterns from file are appended to the
              patterns already loaded in the current language.

       .hpfcode a b c d ...
              After reading a hyphenation patterns file with the hpf or hpfa request, convert all
              characters with character code a in the recently read patterns to character code b,
              character code c to d, etc.  Initially, all character codes map to themselves.  The
              arguments  of hpfcode must be integers in the range 0 to 255.  Note that it is even
              possible to use character codes which are invalid in groff otherwise.

       .hym n Set the hyphenation margin to n: when the current adjustment mode  is  not  b,  the
              line  is  not  hyphenated  if  the  line  is  no  more  than  n short.  The default
              hyphenation margin is 0.  The default scaling indicator for this request is m.  The
              hyphenation  margin  is  associated  with  the  current  environment.   The current
              hyphenation margin is available in the \n[.hym] register.

       .hys n Set the hyphenation space to n:  When  the  current  adjustment  mode  is  b  don't
              hyphenate  the  line  if  the  line can be justified by adding no more than n extra
              space to each word space.  The default hyphenation space is 0.  The default scaling
              indicator  for  this  request  is  m.  The hyphenation space is associated with the
              current environment.  The current hyphenation space is available  in  the  \n[.hys]
              register.

       .itc n macro
              Variant  of  .it  for  which  a line interrupted with \c is not counted as an input
              line.

       .kern n
              If n is non-zero or missing, enable pairwise kerning, otherwise disable it.

       .length xx string
              Compute the length of string and return it in the number register xx (which is  not
              necessarily defined before).

       .linetabs n
              If  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

                     .ds x a\t\c
                     .ds y b\t\c
                     .ds z c
                     .ta 1i 3i
                     \*x
                     \*y
                     \*z

              yields

                     a         b         c

              In line-tabs mode, the same code gives

                     a         b                   c

              Line-tabs mode is associated with the current  environment;  the  read-only  number
              register \n[.linetabs] is set to 1 if in line-tabs mode, and 0 otherwise.

       .lsm xx
              Set  the leading spaces macro to xx.  If there are leading spaces in an input line,
              it is invoked instead of the usual troff behaviour; the leading spaces are removed.
              Registers  \n[lsn]  and  \n[lss]  hold the number of removed leading spaces and the
              corresponding horizontal space, respectively.

       .mso file
              The same as the so request except that file is searched for in the same directories
              as macro files for the -m command-line option.  If the file name to be included has
              the form name.tmac and it isn't found, mso tries to include tmac.name  instead  and
              vice  versa.   A warning of type file is generated if file can't be loaded, and the
              request is ignored.

       .nop anything
              Execute anything.  This is similar to ‘.if 1’.

       .nroff Make the n built-in condition true and the t built-in condition false.  This can be
              reversed using the troff request.

       .open stream filename
              Open  filename for writing and associate the stream named stream with it.  See also
              the close and write requests.

       .opena stream filename
              Like open, but if filename exists, append to it instead of truncating it.

       .output string
              Emit  string  directly  to  the   intermediate   output   (subject   to   copy-mode
              interpretation);  this  is  similar to \! used at the top level.  An initial double
              quote in string is stripped off to allow initial blanks.

       .pev   Print the current environment and each defined environment state on stderr.

       .pnr   Print the names and contents of all currently defined number registers on stderr.

       .psbb filename
              Get the bounding box of a PostScript image filename.  This  file  must  conform  to
              Adobe's  Document  Structuring  Conventions;  the command looks for a %%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 \n[llx], \n[lly], \n[urx], and  \n[ury],  respectively.   If
              some error has occurred, the four registers are set to zero.

       .pso command
              This  behaves  like the so request except that input comes from the standard output
              of command.

       .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.

       .pvs ±n
              Set the post-vertical line space to n; default scale indicator is p.  This value is
              added  to  each line after it has been output.  With no argument, the post-vertical
              line space is set to its previous value.

              The total vertical line spacing consists of four components:  .vs  and  \x  with  a
              negative  value which are applied before the line is output, and .pvs and \x with a
              positive value which are applied after the line is output.

       .rchar c1 c2 ...
              Remove the definitions of glyphs c1, c2, ...  This undoes  the  effect  of  a  char
              request.

       .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.

       .rfschar c1 c2 ...
              Remove  the font-specific definitions of glyphs c1, c2, ...  This undoes the effect
              of an fschar request.

       .rj
       .rj n  Right justify the next n input lines.  Without an argument right justify  the  next
              input  line.  The number of lines to be right justified is available in the \n[.rj]
              register.  This implicitly does .ce 0.  The ce request implicitly does .rj 0.

       .rnn xx yy
              Rename number register xx to yy.

       .schar c string
              Define global fallback character (or glyph) c to be string.   The  syntax  of  this
              request  is  the  same  as the char request; a glyph defined with schar is searched
              after the list of fonts declared with the special request but  before  the  mounted
              special fonts.

       .shc c Set  the soft hyphen character to c.  If c is omitted, the soft hyphen character is
              set to the default \[hy].  The soft hyphen character is the glyph which is 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 is not broken at that point.  Neither definitions (specified with the char
              request) nor translations (specified with  the  tr  request)  are  considered  when
              finding the soft hyphen character.

       .shift n
              In  a  macro,  shift the arguments by n positions: argument i becomes argument i-n;
              arguments 1 to n are no longer available.  If n is missing, arguments  are  shifted
              by 1.  Shifting by negative amounts is currently undefined.

       .sizes s1 s2 ... sn [0]
              This command is similar to the sizes command of a DESC file.  It sets the available
              font sizes for the current font to s1, s2, ..., sn  scaled  points.   The  list  of
              sizes  can  be  terminated  by an optional 0.  Each si can also be a range of sizes
              mn.  Contrary to the font file command, the list can't extend  over  more  than  a
              single line.

       .special s1 s2 ...
              Fonts s1, s2, ..., are special and are searched for glyphs not in the current font.
              Without arguments, reset the list of special fonts to be empty.

       .spreadwarn limit
              Make troff emit a warning if the additional space inserted for each  space  between
              words  in  an output line is larger or equal to limit.  A negative value is changed
              to zero; no argument toggles the warning on and off without  changing  limit.   The
              default  scaling  indicator is m.  At startup, spreadwarn is deactivated, and limit
              is set to 3m.  For example, .spreadwarn 0.2m causes a warning  if  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 .ad b).

       .sty n f
              Associate style f with font position 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 R and the current font family is T,
              then font TR is used.  If the current font is not a style, then the current  family
              is ignored.  When the requests cs, bd, tkf, uf, or fspecial are applied to a style,
              then they are applied instead to the member of the current family corresponding  to
              that  style.   The  default family can be set with the -f command-line option.  The
              styles command in the  DESC  file  controls  which  font  positions  (if  any)  are
              initially associated with styles rather than fonts.

       .substring xx n1 [n2]
              Replace  the  string  named xx with the substring defined by the indices n1 and n2.
              The first character in the string has index 0.  If n2 is omitted, it is taken to be
              equal  to  the  string's  length.   If  the index value n1 or n2 is negative, it is
              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.

       .tkf f s1 n1 s2 n2
              Enable  track  kerning  for  font f.  When the current font is f the width of every
              glyph is increased by an amount between n1 and n2; when the current point  size  is
              less  than  or equal to s1 the width is increased by n1; when it is greater than or
              equal to s2 the width is increased by n2; when the point size is  greater  than  or
              equal to s1 and less than or equal to s2 the increase in width is a linear function
              of the point size.

       .tm1 string
              Similar to the tm request, string is read in copy mode and written on the  standard
              error,  but  an  initial  double  quote  in string is stripped off to allow initial
              blanks.

       .tmc string
              Similar to tm1 but without writing a final newline.

       .trf filename
              Transparently output the contents of file filename.  Each  line  is  output  as  if
              preceded by \!; however, the lines are not subject to copy-mode interpretation.  If
              the file does not end with a newline, then a newline is added.   For  example,  you
              can define a macro x containing the contents of file f, using

                     .di x
                     .trf f
                     .di

              Unlike  with  the cf request, the file cannot contain characters, such as NUL, that
              are not valid troff input characters.

       .trin abcd
              This is the same as the tr  request  except  that  the  asciify  request  uses  the
              character code (if any) before the character translation.  Example:

                     .trin ax
                     .di xxx
                     a
                     .br
                     .di
                     .xxx
                     .trin aa
                     .asciify xxx
                     .xxx

              The result is x a.  Using tr, the result would be x x.

       .trnt abcd
              This  is  the  same  as the tr request except that the translations do not apply to
              text that is transparently throughput into a diversion with \!.  For example,

                     .tr ab
                     .di x
                     \!.tm a
                     .di
                     .x

              prints b; if trnt is used instead of tr it prints a.

       .troff Make the n built-in condition false, and  the  t  built-in  condition  true.   This
              undoes the effect of the nroff request.

       .unformat xx
              This  request ‘unformats’ the diversion xx.  Contrary to the asciify request, which
              tries to convert formatted elements of the diversion back to input tokens  as  much
              as  possible,  .unformat only handles 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 box and boxa requests.

       .vpt n Enable  vertical position traps if n is non-zero, disable them otherwise.  Vertical
              position traps are traps set by the wh or dt requests.  Traps set by the 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.

       .warn n
              Control warnings.  n is the sum of the numbers associated with each warning that is
              to be enabled; all other warnings are disabled.  The number  associated  with  each
              warning  is  listed  in  troff(1).  For example, .warn 0 disables all warnings, and
              .warn 1 disables all warnings except that about missing glyphs.  If n is not given,
              all warnings are enabled.

       .warnscale si
              Set the scaling indicator used in warnings to si.  Valid values for si are u, i, c,
              p, and P.  At startup, it is set to i.

       .while c anything
              While condition c is true, accept  anything  as  input;  c  can  be  any  condition
              acceptable to an if request; anything can comprise multiple lines if the first line
              starts with \{ and the last line ends with \}.  See also  the  break  and  continue
              requests.

       .write stream anything
              Write  anything  to  the stream named stream.  stream must previously have been the
              subject of an open request.  anything  is  read  in  copy  mode;  a  leading  "  is
              stripped.

       .writec stream anything
              Similar to write but without writing a final newline.

       .writem stream xx
              Write  the  contents  of the macro or string xx to the stream named stream.  stream
              must previously have been the subject of an open request.  xx is read in copy mode.

   Extended escape sequences
       \D'...'
              All drawing commands of groff's intermediate output are accepted.   See  subsection
              “Drawing Commands” below.

   Extended requests
       .cf filename
              When  used  in  a  diversion,  this  embeds  in the diversion an object which, when
              reread, will cause the contents of filename to be transparently copied  through  to
              the  output.  In Unix troff, the contents of 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.

       .de xx yy
       .am xx yy
       .ds xx yy
       .as xx yy
              In  compatibility  mode,  these  requests  behaves similar to .de1, .am1, .ds1, and
              .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.

       .ev xx If xx is not a number, this  switches  to  a  named  environment  called  xx.   The
              environment should be popped with a matching ev request without any arguments, just
              as  for  numbered  environments.   There  is  no  limit  on  the  number  of  named
              environments; they are created the first time that they are referenced.

       .hy n  New  additive values 16 and 32 are available; the former enables hyphenation before
              the last character, the latter enables hyphenation after the first character.

       .ss m n
              When two arguments are given to the ss  request,  the  second  argument  gives  the
              sentence  space size.  If the second argument is not given, the sentence space size
              is 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 are added; if  two  spaces
              follow  the  end  of a sentence in the middle of a line, then the second space is a
              sentence space.  Note that the behaviour of Unix troff is exactly that exhibited by
              GNU  troff if a second argument is never given to the ss request.  In GNU troff, as
              in Unix troff, you should always follow a sentence with either  a  newline  or  two
              spaces.

       .ta n1 n2 ... nn T r1 r2 ... rn
              Set tabs at positions n1, n2, ..., nn and then set tabs at nn+r1, nn+r2, ..., nn+rn
              and then at nn+rn+r1, nn+rn+r2, ..., nn+rn+rn, and so on.  For example,

                     .ta T .5i

              sets tabs every half an inch.

   New number registers
       The following read-only registers are available:

       \n[.br]
              Within a macro call, it is set to 1 if  the  macro  is  called  with  the  ‘normal’
              control  character  (‘.’  by  default),  and  set  to 0 otherwise.  This allows the
              reliable modification of requests.

                     .als bp*orig bp
                     .de bp
                     .tm before bp
                     .ie \\n[.br] .bp*orig
                     .el 'bp*orig
                     .tm after bp
                     ..

              Using this register outside of a macro makes no sense (it always  returns  zero  in
              such cases).

       \n[.C] 1 if compatibility mode is in effect, 0 otherwise.

       \n[.cdp]
              The  depth  of  the last glyph added to the current environment.  It is positive if
              the glyph extends below the baseline.

       \n[.ce]
              The number of lines remaining to be centered, as set by the ce request.

       \n[.cht]
              The height of the last glyph added to the current environment.  It is  positive  if
              the glyph extends above the baseline.

       \n[.color]
              1 if colors are enabled, 0 otherwise.

       \n[.csk]
              The  skew  of the last glyph added to the current environment.  The 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.

       \n[.ev]
              The name or number of the current environment.  This is a string-valued register.

       \n[.fam]
              The current font family.  This is a string-valued register.

       \n[.fn]
              The  current  (internal) real font name.  This is a string-valued register.  If the
              current font is a style, the value of \n[.fn] is the proper concatenation of family
              and style name.

       \n[.fp]
              The number of the next free font position.

       \n[.g] Always  1.   Macros should use this to determine whether they are running under GNU
              troff.

       \n[.height]
              The current height of the font as set with \H.

       \n[.hla]
              The current hyphenation language as set by the hla request.

       \n[.hlc]
              The number of immediately preceding consecutive hyphenated lines.

       \n[.hlm]
              The maximum allowed number of consecutive hyphenated  lines,  as  set  by  the  hlm
              request.

       \n[.hy]
              The current hyphenation flags (as set by the hy request).

       \n[.hym]
              The current hyphenation margin (as set by the hym request).

       \n[.hys]
              The current hyphenation space (as set by the hys request).

       \n[.in]
              The indentation that applies to the current output line.

       \n[.int]
              Set  to  a  positive value if last output line is interrupted (i.e., if it contains
              \c).

       \n[.kern]
              1 if pairwise kerning is enabled, 0 otherwise.

       \n[.lg]
              The current ligature mode (as set by the lg request).

       \n[.linetabs]
              The current line-tabs mode (as set by the linetabs request).

       \n[.ll]
              The line length that applies to the current output line.

       \n[.lt]
              The title length as set by the lt request.

       \n[.m] The name of the current drawing color.  This is a string-valued register.

       \n[.M] The name of the current background color.  This is a string-valued register.

       \n[.ne]
              The amount of space that was needed in the last ne request that caused a trap to be
              sprung.  Useful in conjunction with the \n[.trunc] register.

       \n[.ns]
              1 if no-space mode is active, 0 otherwise.

       \n[.O] The current output level as set with \O.

       \n[.P] 1 if the current page is in the output list set with -o.

       \n[.pe]
              1 during a page ejection caused by the bp request, 0 otherwise.

       \n[.pn]
              The number of the next page, either the value set by a pn request, or the number of
              the current page plus 1.

       \n[.ps]
              The current point size in scaled points.

       \n[.psr]
              The last-requested point size in scaled points.

       \n[.pvs]
              The current post-vertical line space as set with the pvs request.

       \n[.rj]
              The number of lines to be right-justified as set by the rj request.

       \n[.slant]
              The slant of the current font as set with \S.

       \n[.sr]
              The last requested point size in points as a decimal fraction.  This is  a  string-
              valued register.

       \n[.ss]
       \n[.sss]
              These  give  the  values of the parameters set by the first and second arguments of
              the ss request.

       \n[.sty]
              The current font style.  This is a string-valued register.

       \n[.tabs]
              A string representation of the current tab settings suitable for use as an argument
              to the ta request.

       \n[.trunc]
              The  amount  of  vertical  space  truncated  by  the  most recently sprung vertical
              position trap, or, if the trap was sprung by an ne request,  minus  the  amount  of
              vertical motion produced by the 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 \n[.ne] register.

       \n[.U] Set to 1 if in safer mode and to 0 if in unsafe mode (as given with the -U command-
              line option).

       \n[.vpt]
              1 if vertical position traps are enabled, 0 otherwise.

       \n[.warn]
              The sum of the numbers associated with each of the currently enabled warnings.  The
              number associated with each warning is listed in troff(1).

       \n[.x] The major version number.  For example, if the version number is 1.03, then  \n[.x]
              contains 1.

       \n[.y] The  minor version number.  For example, if the version number is 1.03, then \n[.y]
              contains 03.

       \n[.Y] The revision number of groff.

       \n[.zoom]
              The zoom value of  the  current  font,  in  multiples  of  1/1000th.   Zero  if  no
              magnification.

       \n[llx]
       \n[lly]
       \n[urx]
       \n[ury]
              These  four  read/write  registers  are  set  by  the  psbb request and contain the
              bounding box values (in PostScript units) of a given PostScript image.

       The following read/write registers are set by the \w escape sequence:

       \n[rst]
       \n[rsb]
              Like the st and sb registers, but take account of the heights and depths of glyphs.

       \n[ssc]
              The amount of horizontal space (possibly negative) that should be added to the last
              glyph before a subscript.

       \n[skw]
              How  far to right of the center of the last glyph in the \w argument, the center of
              an accent from a roman font should be placed over that glyph.

       Other available read/write number registers are:

       \n[c.] The current input line number.  \n[.c] is a read-only alias to this register.

       \n[hours]
              The number of hours past midnight.  Initialized at start-up.

       \n[hp] The current horizontal position at input line.

       \n[lsn]
       \n[lss]
              If there are leading spaces in an input line, these registers hold  the  number  of
              leading spaces and the corresponding horizontal space, respectively.

       \n[minutes]
              The number of minutes after the hour.  Initialized at start-up.

       \n[seconds]
              The number of seconds after the minute.  Initialized at start-up.

       \n[systat]
              The return value of the system() function executed by the last sy request.

       \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.

       \n[year]
              The  current  year.   Note that the traditional troff number register \n[yr] is the
              current year minus 1900.

   Miscellaneous
       troff predefines a single (read/write) string-based register, \*[.T], which  contains  the
       argument  given  to  the  -T  command-line  option,  namely the current output device (for
       example, latin1 or ascii).  Note that this is not  the  same  as  the  (read-only)  number
       register  \n[.T]  which  is  defined  to  be 1 if troff is called with the -T command-line
       option, and zero otherwise.  This behaviour is different from Unix troff.

       Fonts not listed in the 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 fp
       request on an unused font position,  it  should  be  mounted  on  the  first  unused  font
       position, which can be found in the \n[.fp] register; although troff does not enforce this
       strictly, it does not allow a font to be mounted  at  a  position  whose  number  is  much
       greater than that of any currently used position.

       Interpolating  a  string  does not hide existing macro arguments.  Thus in a macro, a more
       efficient way of doing

              .xx \\$@

       is

              \\*[xx]\\

       If the font description file contains pairwise kerning information, glyphs from that  font
       are kerned.  Kerning between two glyphs can be inhibited by placing a \& between them.

       In a string comparison in a condition, characters that appear at different input levels to
       the first delimiter character are not recognized as the second or third delimiters.   This
       applies  also  to  the tl request.  In a \w escape sequence, a character that appears at a
       different input level to the starting delimiter character is not recognized as the closing
       delimiter  character.   The same is true for \A, \b, \B, \C, \l, \L, \o, \X, and \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 is not recognized
       as the closing delimiter character.  The implementation of \$@  ensures  that  the  double
       quotes  surrounding  an argument appear at the same input level, which is different to the
       input level of the argument itself.  In a long escape  name  ]  is  not  recognized  as  a
       closing  delimiter  except  when  it  occurs at the same input level as the opening [.  In
       compatibility mode, no attention is paid to the input-level.

       There are some new types of condition:

       .if rxxx
              True if there is a number register named xxx.

       .if dxxx
              True if there is a string, macro, diversion, or request named xxx.

       .if mxxx
              True if there is a color named xxx.

       .if cch
              True if there is a character (or  glyph)  ch  available;  ch  is  either  an  ASCII
              character  or a glyph (special character) \N'xxx', \(xx or \[xxx]; the condition is
              also true if ch has been defined by the char request.

       .if Ff True if font f exists.  f is handled as if it was opened with the ft request  (this
              is, font translation and styles are applied), without actually mounting it.

       .if Ss True if style s has been registered.  Font translation is applied.

       The tr request can now map characters onto \~.

       The  space width emitted by the \| and \^ escape sequences can be controlled on a per-font
       basis.  If there is a glyph named \| or \^, respectively  (note  the  leading  backslash),
       defined in the current font file, use this glyph's width instead of the default value.

       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:

              .if t \{\
              .  de bar
              .    nop Hello, I'm ‘bar’.
              .  .
              .\}

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.

   Units
       The argument to the s command is in scaled points (units  of  points/n,  where  n  is  the
       argument  to  the  sizescale  command   in  the  DESC file).  The argument to the x Height
       command is also in scaled points.

   Text Commands
       Nn     Print glyph with index n (a non-negative integer) of the current font.

       If the tcommand line is present in the DESC file, troff uses the following two commands.

       txxx   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.

       un xxx This  is  same  as  the  t  command  except that after printing each character, the
              current horizontal position is increased by the sum of the width of that  character
              and n.

       Note  that  single  characters  can have the eighth bit set, as can the names of fonts and
       special characters.

       The names of glyphs and fonts can be of arbitrary length; drivers should not  assume  that
       they are only two characters long.

       When  a  glyph is to be printed, that glyph is always in the current font.  Unlike device-
       independent troff, it is not necessary for drivers to  search  special  fonts  to  find  a
       glyph.

       For color support, some new commands have been added:

       mc cyan magenta yellow
       md
       mg gray
       mk cyan magenta yellow black
       mr red green blue
              Set the color components of the current drawing color, using various color schemes.
              md resets the drawing color to the default value.  The arguments  are  integers  in
              the range 0 to 65536.

       The x device control command has been extended.

       x u n  If  n  is  1,  start underlining of spaces.  If n is 0, stop underlining of spaces.
              This is needed for the cu request in nroff mode and is ignored otherwise.

   Drawing Commands
       The D drawing command has been extended.  These extensions are not used by GNU pic if  the
       -n option is given.

       Df n\n Set  the  shade  of  gray  to  be used for filling solid objects to n; 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  is  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 is black, but some drivers  may  provide  a  way  of
              changing this.

              The  corresponding  \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.

       DC d\n Draw  a  solid  circle  with a diameter of d with the leftmost point at the current
              position.

       DE dx dy\n
              Draw a solid ellipse with a horizontal diameter of dx and a vertical diameter of dy
              with the leftmost point at the current position.

       Dp dx1 dy1 dx2 dy2 ... .lf 3501
              dxn  dyn\n  Draw  a  polygon  with, for i=1,...,n+1, the i-th vertex at the current
--

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.

   Groff Language
       groff provides a compatibility mode that allows the processing of roff  code  written  for
       classical troff or for other implementations of roff in a consistent way.

       Compatibility  mode can be turned on with the -C command-line option, and turned on or off
       with the .cp request.  The number register  \n(.C  is  1  if  compatibility  mode  is  on,
       0 otherwise.

       This   became   necessary   because   the   GNU   concept   for  long  names  causes  some
       incompatibilities.  Classical troff interprets

              .dsabcd

       as defining a string ab with contents cd.  In groff mode, this is considered as a call  of
       a macro named dsabcd.

       Also  classical  troff  interprets \*[ or \n[ as references to a string or number register
       called [ while groff takes this as the start of a long name.

       In compatibility mode, groff interprets these things in the traditional way; so long names
       are not recognized.

       On  the  other  hand,  groff in GNU native mode does not allow to use the single-character
       escapes \\ (backslash), \| (vertical bar), \^ (caret), \& (ampersand), \{ (opening brace),
       \}  (closing  brace),  ‘\ ’  (space),  \'  (single  quote), \` (backquote), \- (minus), \_
       (underline), \! (bang), \% (percent), and \c (character c) in names  of  strings,  macros,
       diversions, number registers, fonts or environments, whereas classical troff does.

       The \A escape sequence can be helpful in avoiding these escape sequences in names.

       Fractional  point  sizes cause one noteworthy incompatibility.  In classical troff, the ps
       request ignores scale indicators and so

              .ps 10u

       sets the point size to 10 points, whereas in groff native mode the point size  is  set  to
       10 scaled points.

       In  groff,  there  is  a  fundamental difference between unformatted input characters, and
       formatted output characters (glyphs).  Everything that affects how a glyph  is  output  is
       stored  with  the  glyph;  once  a  glyph  has  been  constructed  it is unaffected by any
       subsequent requests that are executed, including the bd, cs, tkf, tr, or fp requests.

       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.

       Special  characters  can  be  both;  before  being  added to the output, they act as input
       entities, afterwards they denote glyphs.

       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 makes things clearer.

              .di x
              \\\\
              .br
              .di
              .x

       With GNU troff this is printed as \\.  So each pair of input backslashes  ‘\\’  is  turned
       into  a  single  output  backslash  glyph ‘\’ and the resulting output backslashes are not
       interpreted as escape characters when they are reread.

       Classical troff would interpret them as escape characters when they were reread and  would
       end up printing a single backslash ‘\’.

       In  GNU,  the correct way to get a printable version of the backslash character ’\’ is the
       \(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 \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.

       To store an escape sequence in a diversion that  is  interpreted  when  the  diversion  is
       reread,  either  the  traditional  \!  transparent  output  facility  or the new \? escape
       sequence can be used.

   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:

       • The positioning  after  the  drawing  of  the  polygons  conflicts  with  the  classical
         definition.

       • The  intermediate  output  cannot  be  rescaled  to  other devices as classical ‘device-
         independent’ troff did.

AUTHORS

       This document was written by James Clark ⟨jjc@jclark.com⟩ and modified by  Werner  Lemberg
       ⟨wl@gnu.org⟩ and Bernd Warken ⟨groff-bernd.warken-72@web.de⟩.

SEE ALSO

       Groff:  The  GNU  Implementation  of  troff, by Trent A. Fisher and Werner Lemberg, is the
       primary groff manual.  You can browse it interactively with “info groff”.

       groff(1)
              A list of all documentation around groff.

       groff(7)
              A description of the groff language, including a short, but complete  reference  of
              all  predefined  requests, registers, and escapes of plain groff.  From the command
              line, this is called using

                     man 7 groff

       roff(7)
              A survey of roff systems, including pointers to further historical documentation.

       [CSTR #54]
              The Nroff/Troff User's Manual by J. F. Ossanna of 1976 in  the  revision  of  Brian
              Kernighan   of   1992,   being   the   classical   troff   documentation   ⟨http://
              cm.bell-labs.com/cm/cs/cstr/54.ps.gz⟩.