.\" $Id: roff.7,v 1.29 2011/05/24 15:22:14 kristaps Exp $ .\" .\" Copyright (c) 2010 Kristaps Dzonsons .\" Copyright (c) 2010 Ingo Schwarze .\" .\" Permission to use, copy, modify, and distribute this software for any .\" purpose with or without fee is hereby granted, provided that the above .\" copyright notice and this permission notice appear in all copies. .\" .\" THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES .\" WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF .\" MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR .\" ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES .\" WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN .\" ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF .\" OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. .\" .Dd $Mdocdate: May 24 2011 $ .Dt ROFF 7 .Os .Sh NAME .Nm roff .Nd roff language reference for mandoc .Sh DESCRIPTION The .Nm roff language is a general purpose text formatting language. In particular, it serves as the basis for the .Xr mdoc 7 and .Xr man 7 manual formatting macro languages. This manual describes the subset of the .Nm language accepted by the .Xr mandoc 1 utility. .Pp Input lines beginning with the control characters .Sq \&. or .Sq \(aq are parsed for requests and macros. These define the document structure, change the processing state and manipulate the formatting. Some requests and macros also produce formatted output, while others do not. .Pp All other input lines provide free-form text to be printed; the formatting of free-form text depends on the respective processing context. .Sh LANGUAGE SYNTAX .Nm documents may contain only graphable 7-bit ASCII characters, the space character, and, in certain circumstances, the tab character. To produce other characters in the output, use the escape sequences documented in the .Xr mandoc_char 7 manual. .Sh REQUEST SYNTAX A request or macro line consists of: .Pp .Bl -enum -compact .It the control character .Sq \&. or .Sq \(aq at the beginning of the line, .It optionally an arbitrary amount of whitespace, .It the name of the request or the macro, which is one word of arbitrary length, terminated by whitespace, .It and zero or more arguments delimited by whitespace. .El .Pp Thus, the following request lines are all equivalent: .Bd -literal -offset indent \&.ig end \&.ig end \&. ig end .Ed .Sh MACRO SYNTAX Macros can be defined by the .Sx \&de request. When called, they follow the same syntax as requests, except that macro arguments may optionally be quoted by enclosing them in double quote characters .Pq Sq \(dq . To be recognized as the beginning of a quoted argument, the opening quote character must be preceded by a space character. .Pp A quoted argument may contain whitespace, and pairs of double quote characters .Pq Sq Qq resolve to single double quote characters. A quoted argument extends to the next double quote character that is not part of a pair, or to the end of the input line, whichever comes earlier. Leaving out the terminating double quote character at the end of the line is discouraged. For clarity, if more arguments follow on the same input line, it is recommended to follow the terminating double quote character by a space character; in case the next character after the terminating double quote character is anything else, it is regarded as the beginning of the next, unquoted argument. .Pp Both in quoted and unquoted arguments, pairs of backslashes .Pq Sq \e\e resolve to single backslashes. In unquoted arguments, space characters can alternatively be included by preceding them with a backslash .Pq Sq \e\~ , but quoting is usually better for clarity. .Sh REQUEST REFERENCE The .Xr mandoc 1 .Nm parser recognizes the following requests. Note that the .Nm language defines many more requests not implemented in .Xr mandoc 1 . .Ss \&ad Set line adjustment mode. This line-scoped request is intended to have one argument to select normal, left, right, or center adjustment for subsequent text. Currently, it is ignored including its arguments, and the number of arguments is not checked. .Ss \&am Append to a macro definition. The syntax of this request is the same as that of .Sx \&de . It is currently ignored by .Xr mandoc 1 , as are its children. .Ss \&ami Append to a macro definition, specifying the macro name indirectly. The syntax of this request is the same as that of .Sx \&dei . It is currently ignored by .Xr mandoc 1 , as are its children. .Ss \&am1 Append to a macro definition, switching roff compatibility mode off during macro execution. The syntax of this request is the same as that of .Sx \&de1 . It is currently ignored by .Xr mandoc 1 , as are its children. .Ss \&de Define a .Nm macro. Its syntax can be either .Bd -literal -offset indent .Pf . Cm \&de Ar name .Ar macro definition \&.. .Ed .Pp or .Bd -literal -offset indent .Pf . Cm \&de Ar name Ar end .Ar macro definition .Pf . Ar end .Ed .Pp Both forms define or redefine the macro .Ar name to represent the .Ar macro definition , which may consist of one or more input lines, including the newline characters terminating each line, optionally containing calls to .Nm requests, .Nm macros or high-level macros like .Xr man 7 or .Xr mdoc 7 macros, whichever applies to the document in question. .Pp Specifying a custom .Ar end macro works in the same way as for .Sx \&ig ; namely, the call to .Sq Pf . Ar end first ends the .Ar macro definition , and after that, it is also evaluated as a .Nm request or .Nm macro, but not as a high-level macro. .Pp The macro can be invoked later using the syntax .Pp .D1 Pf . Ar name Op Ar argument Op Ar argument ... .Pp Regarding argument parsing, see .Sx MACRO SYNTAX above. .Pp The line invoking the macro will be replaced in the input stream by the .Ar macro definition , replacing all occurrences of .No \e\e$ Ns Ar N , where .Ar N is a digit, by the .Ar N Ns th Ar argument . For example, .Bd -literal -offset indent \&.de ZN \efI\e^\e\e$1\e^\efP\e\e$2 \&.. \&.ZN XtFree . .Ed .Pp produces .Pp .D1 \efI\e^XtFree\e^\efP. .Pp in the input stream, and thus in the output: \fI\^XtFree\^\fP. .Pp Since macros and user-defined strings share a common string table, defining a macro .Ar name clobbers the user-defined string .Ar name , and the .Ar macro definition can also be printed using the .Sq \e* string interpolation syntax described below .Sx ds , but this is rarely useful because every macro definition contains at least one explicit newline character. .Pp In order to prevent endless recursion, both groff and .Xr mandoc 1 limit the stack depth for expanding macros and strings to a large, but finite number. Do not rely on the exact value of this limit. .Ss \&dei Define a .Nm macro, specifying the macro name indirectly. The syntax of this request is the same as that of .Sx \&de . It is currently ignored by .Xr mandoc 1 , as are its children. .Ss \&de1 Define a .Nm macro that will be executed with .Nm compatibility mode switched off during macro execution. This is a GNU extension not available in traditional .Nm implementations and not even in older versions of groff. Since .Xr mandoc 1 does not implement .Nm compatibility mode at all, it handles this request as an alias for .Sx \&de . .Ss \&ds Define a user-defined string. Its syntax is as follows: .Pp .D1 Pf . Cm \&ds Ar name Oo \(dq Oc Ns Ar string .Pp The .Ar name and .Ar string arguments are space-separated. If the .Ar string begins with a double-quote character, that character will not be part of the string. All remaining characters on the input line form the .Ar string , including whitespace and double-quote characters, even trailing ones. .Pp The .Ar string can be interpolated into subsequent text by using .No \e* Ns Bq Ar name for a .Ar name of arbitrary length, or \e*(NN or \e*N if the length of .Ar name is two or one characters, respectively. Interpolation can be prevented by escaping the leading backslash; that is, an asterisk preceded by an even number of backslashes does not trigger string interpolation. .Pp Since user-defined strings and macros share a common string table, defining a string .Ar name clobbers the macro .Ar name , and the .Ar name used for defining a string can also be invoked as a macro, in which case the following input line will be appended to the .Ar string , forming a new input line passed to the .Nm parser. For example, .Bd -literal -offset indent \&.ds badidea .S \&.badidea H SYNOPSIS .Ed .Pp invokes the .Cm SH macro when used in a .Xr man 7 document. Such abuse is of course strongly discouraged. .Ss \&el The .Qq else half of an if/else conditional. Pops a result off the stack of conditional evaluations pushed by .Sx \&ie and uses it as its conditional. If no stack entries are present (e.g., due to no prior .Sx \&ie calls) then false is assumed. The syntax of this request is similar to .Sx \&if except that the conditional is missing. .Ss \&EN End an equation block. See .Sx \&EQ . .Ss \&EQ Begin an equation block. See .Xr eqn 7 for a description of the equation language. .Ss \&hy Set automatic hyphenation mode. This line-scoped request is currently ignored. .Ss \&ie The .Qq if half of an if/else conditional. The result of the conditional is pushed into a stack used by subsequent invocations of .Sx \&el , which may be separated by any intervening input (or not exist at all). Its syntax is equivalent to .Sx \&if . .Ss \&if Begins a conditional. Right now, the conditional evaluates to true if and only if it starts with the letter .Sy n , indicating processing in nroff style as opposed to troff style. If a conditional is false, its children are not processed, but are syntactically interpreted to preserve the integrity of the input document. Thus, .Pp .D1 \&.if t .ig .Pp will discard the .Sq \&.ig , which may lead to interesting results, but .Pp .D1 \&.if t .if t \e{\e .Pp will continue to syntactically interpret to the block close of the final conditional. Sub-conditionals, in this case, obviously inherit the truth value of the parent. This request has the following syntax: .Bd -literal -offset indent \&.if COND \e{\e BODY... \&.\e} .Ed .Bd -literal -offset indent \&.if COND \e{ BODY BODY... \e} .Ed .Bd -literal -offset indent \&.if COND \e{ BODY BODY... \&.\e} .Ed .Bd -literal -offset indent \&.if COND \e BODY .Ed .Pp COND is a conditional statement. roff allows for complicated conditionals; mandoc is much simpler. At this time, mandoc supports only .Sq n , evaluating to true; and .Sq t , .Sq e , and .Sq o , evaluating to false. All other invocations are read up to the next end of line or space and evaluate as false. .Pp If the BODY section is begun by an escaped brace .Sq \e{ , scope continues until a closing-brace escape sequence .Sq \.\e} . If the BODY is not enclosed in braces, scope continues until the end of the line. If the COND is followed by a BODY on the same line, whether after a brace or not, then requests and macros .Em must begin with a control character. It is generally more intuitive, in this case, to write .Bd -literal -offset indent \&.if COND \e{\e \&.foo bar \&.\e} .Ed .Pp than having the request or macro follow as .Pp .D1 \&.if COND \e{ .foo .Pp The scope of a conditional is always parsed, but only executed if the conditional evaluates to true. .Pp Note that the .Sq \e} is converted into a zero-width escape sequence if not passed as a standalone macro .Sq \&.\e} . For example, .Pp .D1 \&.Fl a \e} b .Pp will result in .Sq \e} being considered an argument of the .Sq \&Fl macro. .Ss \&ig Ignore input. Its syntax can be either .Bd -literal -offset indent .Pf . Cm \&ig .Ar ignored text \&.. .Ed .Pp or .Bd -literal -offset indent .Pf . Cm \&ig Ar end .Ar ignored text .Pf . Ar end .Ed .Pp In the first case, input is ignored until a .Sq \&.. request is encountered on its own line. In the second case, input is ignored until the specified .Sq Pf . Ar end macro is encountered. Do not use the escape character .Sq \e anywhere in the definition of .Ar end ; it would cause very strange behaviour. .Pp When the .Ar end macro is a roff request or a roff macro, like in .Pp .D1 \&.ig if .Pp the subsequent invocation of .Sx \&if will first terminate the .Ar ignored text , then be invoked as usual. Otherwise, it only terminates the .Ar ignored text , and arguments following it or the .Sq \&.. request are discarded. .Ss \&ne Declare the need for the specified minimum vertical space before the next trap or the bottom of the page. This line-scoped request is currently ignored. .Ss \&nh Turn off automatic hyphenation mode. This line-scoped request is currently ignored. .Ss \&rm Remove a request, macro or string. This request is intended to have one argument, the name of the request, macro or string to be undefined. Currently, it is ignored including its arguments, and the number of arguments is not checked. .Ss \&nr Define a register. A register is an arbitrary string value that defines some sort of state, which influences parsing and/or formatting. Its syntax is as follows: .Pp .D1 Pf \. Cm \&nr Ar name Ar value .Pp The .Ar value may, at the moment, only be an integer. So far, only the following register .Ar name is recognised: .Bl -tag -width Ds .It Cm nS If set to a positive integer value, certain .Xr mdoc 7 macros will behave in the same way as in the .Em SYNOPSIS section. If set to 0, these macros will behave in the same way as outside the .Em SYNOPSIS section, even when called within the .Em SYNOPSIS section itself. Note that starting a new .Xr mdoc 7 section with the .Cm \&Sh macro will reset this register. .El .Ss \&ns Turn on no-space mode. This line-scoped request is intended to take no arguments. Currently, it is ignored including its arguments, and the number of arguments is not checked. .Ss \&ps Change point size. This line-scoped request is intended to take one numerical argument. Currently, it is ignored including its arguments, and the number of arguments is not checked. .Ss \&so Include a source file. Its syntax is as follows: .Pp .D1 Pf \. Cm \&so Ar file .Pp The .Ar file will be read and its contents processed as input in place of the .Sq \&.so request line. To avoid inadvertent inclusion of unrelated files, .Xr mandoc 1 only accepts relative paths not containing the strings .Qq ../ and .Qq /.. . .Ss \&ta Set tab stops. This line-scoped request can take an arbitrary number of arguments. Currently, it is ignored including its arguments. .Ss \&tr Output character translation. This request is intended to have one argument, consisting of an even number of characters. Currently, it is ignored including its arguments, and the number of arguments is not checked. .Ss \&T& Re-start a table layout, retaining the options of the prior table invocation. See .Sx \&TS . .Ss \&TE End a table context. See .Sx \&TS . .Ss \&TS Begin a table, which formats input in aligned rows and columns. See .Xr tbl 7 for a description of the tbl language. .Sh COMPATIBILITY This section documents compatibility between mandoc and other other .Nm implementations, at this time limited to GNU troff .Pq Qq groff . The term .Qq historic groff refers to groff version 1.15. .Pp .Bl -dash -compact .It In mandoc, the .Sx \&EQ , .Sx \&TE , .Sx \&TS , and .Sx \&T& , macros are considered regular macros. In all other .Nm implementations, these are special macros that must be specified without spacing between the control character (which must be a period) and the macro name. .It The .Cm nS register is only compatible with OpenBSD's groff-1.15. .It Historic groff did not accept white-space before a custom .Ar end macro for the .Sx \&ig request. .It The .Sx \&if and family would print funny white-spaces with historic groff when using the next-line syntax. .El .Sh SEE ALSO .Xr mandoc 1 , .Xr eqn 7 , .Xr man 7 , .Xr mandoc_char 7 , .Xr mdoc 7 , .Xr tbl 7 .Rs .%A Joseph F. Ossanna .%A Brian W. Kernighan .%I AT&T Bell Laboratories .%T Troff User's Manual .%R Computing Science Technical Report .%N 54 .%C Murray Hill, New Jersey .%D 1976 and 1992 .%U http://www.kohala.com/start/troff/cstr54.ps .Re .Rs .%A Joseph F. Ossanna .%A Brian W. Kernighan .%A Gunnar Ritter .%T Heirloom Documentation Tools Nroff/Troff User's Manual .%D September 17, 2007 .%U http://heirloom.sourceforge.net/doctools/troff.pdf .Re .Sh HISTORY The RUNOFF typesetting system was written in PL/1 for the CTSS operating system by Jerome ("Jerry") E. Saltzer in 1961. It was first used as the main documentation tool by Multics since 1963. Robert ("Bob") H. Morris ported it to the GE-635 and called it .Nm , Doug McIlroy rewrote it in BCPL in 1969, Joseph F. Ossanna rewrote it in PDP-11 assembly in 1973, and Brian W. Kernighan rewrote it in C in 1975. .Sh AUTHORS .An -nosplit This partial .Nm reference was written by .An Kristaps Dzonsons Aq kristaps@bsd.lv and .An Ingo Schwarze Aq schwarze@openbsd.org .