[BACK]Return to mdoc.7 CVS log [TXT][DIR] Up to [cvsweb.bsd.lv] / mandoc

Diff for /mandoc/mdoc.7 between version 1.198 and 1.213

version 1.198, 2011/08/16 23:37:39 version 1.213, 2011/11/01 14:59:27
Line 1 
Line 1 
 .\"     $Id$  .\"     $Id$
 .\"  .\"
 .\" Copyright (c) 2009, 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv>  .\" Copyright (c) 2009, 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv>
 .\" Copyright (c) 2010 Ingo Schwarze <schwarze@openbsd.org>  .\" Copyright (c) 2010, 2011 Ingo Schwarze <schwarze@openbsd.org>
 .\"  .\"
 .\" Permission to use, copy, modify, and distribute this software for any  .\" Permission to use, copy, modify, and distribute this software for any
 .\" purpose with or without fee is hereby granted, provided that the above  .\" purpose with or without fee is hereby granted, provided that the above
Line 20 
Line 20 
 .Os  .Os
 .Sh NAME  .Sh NAME
 .Nm mdoc  .Nm mdoc
 .Nd mdoc language reference  .Nd semantic markup language for formatting manual pages
 .Sh DESCRIPTION  .Sh DESCRIPTION
 The  The
 .Nm mdoc  .Nm mdoc
 language is used to format  language supports authoring of manual pages for the
 .Bx  .Xr man 1
 .Ux  utility by allowing semantic annotations of words, phrases,
 manuals.  page sections and complete manual pages.
 This reference document describes its syntax, structure, and  Such annotations are used by formatting tools to achieve a uniform
 usage.  presentation across all manuals written in
 The reference implementation is  .Nm ,
   and to support hyperlinking if supported by the output medium.
   .Pp
   This reference document describes the structure of manual pages
   and the syntax and usage of the
   .Nm
   language.
   The reference implementation of a parsing and formatting tool is
 .Xr mandoc 1 ;  .Xr mandoc 1 ;
 the  the
 .Sx COMPATIBILITY  .Sx COMPATIBILITY
 section describes compatibility with other troff \-mdoc implementations.  section describes compatibility with other implementations.
 .Pp  .Pp
 An  In an
 .Nm  .Nm
 document follows simple rules: lines beginning with the control  document, lines beginning with the control character
 character  
 .Sq \&.  .Sq \&.
 are parsed for macros.  are called
 Text lines, those not beginning with the control character, are  .Dq macro lines .
 interpreted within the scope of prior macros:  The first word is the macro name.
   It consists of two or three letters.
   Most macro names begin with a capital letter.
   For a list of available macros, see
   .Sx MACRO OVERVIEW .
   The words following the macro name are arguments to the macro, optionally
   including the names of other, callable macros; see
   .Sx MACRO SYNTAX
   for details.
   .Pp
   Lines not beginning with the control character are called
   .Dq text lines .
   They provide free-form text to be printed; the formatting of the text
   depends on the respective processing context:
 .Bd -literal -offset indent  .Bd -literal -offset indent
 \&.Sh Macro lines change control state.  \&.Sh Macro lines change control state.
 Text lines are interpreted within the current state.  Text lines are interpreted within the current state.
 .Ed  .Ed
 .Sh LANGUAGE SYNTAX  
 .Nm  
 documents may contain only graphable 7-bit ASCII characters, the space  
 character, and, in certain circumstances, the tab character.  
 .Pp  .Pp
 If the first character of a text line is a space, that line is printed  Many aspects of the basic syntax of the
 with a leading newline.  .Nm
 .Ss Comments  language are based on the
 Text following a  .Xr roff 7
 .Sq \e\*q ,  language; see the
 whether in a macro or text line, is ignored to the end of  .Em LANGUAGE SYNTAX
 line.  
 A macro line with only a control character and comment escape,  
 .Sq \&.\e\*q ,  
 is also ignored.  
 Macro lines with only a control character and optional whitespace are  
 stripped from input.  
 .Ss Special Characters  
 Special characters may occur in both macro and text lines.  
 Sequences begin with the escape character  
 .Sq \e  
 followed by either an open-parenthesis  
 .Sq \&(  
 for two-character sequences; an open-bracket  
 .Sq \&[  
 for n-character sequences (terminated at a close-bracket  
 .Sq \&] ) ;  
 or a single one character sequence.  
 See  
 .Xr mandoc_char 7  
 for a complete list.  
 Examples include  
 .Sq \e(em  
 .Pq em-dash  
 and  and
 .Sq \ee  .Em MACRO SYNTAX
 .Pq back-slash .  sections in the
 .Ss Text Decoration  .Xr roff 7
 Terms may be text-decorated using the  manual for details, in particular regarding
 .Sq \ef  comments, escape sequences, whitespace, and quoting.
 escape followed by an indicator: B (bold), I (italic), R (Roman), or P  However, using
 (revert to previous mode):  .Xr roff 7
 .Pp  requests in
 .Dl \efBbold\efR \efIitalic\efP  .Nm
 .Pp  documents is discouraged;
 A numerical representation 3, 2, or 1 (bold, italic, and Roman,  .Xr mandoc 1
 respectively) may be used instead.  supports some of them merely for backward compatibility.
 If a macro opens a font scope after calling  
 .Sq \ef ,  
 such as with  
 .Sx \&Bf ,  
 the  
 .Sq \ef  
 mode will be restored upon exiting the  
 .Sx \&Bf  
 scope.  
 .Pp  
 Note this form is  
 .Em not  
 recommended for  
 .Nm ,  
 which encourages semantic annotation.  
 .Ss Predefined Strings  
 Historically,  
 troff  
 also defined a set of package-specific  
 .Dq predefined strings ,  
 which, like  
 .Sx Special Characters ,  
 mark special output characters and strings by way of input codes.  
 Predefined strings are escaped with the slash-asterisk,  
 .Sq \e* :  
 single-character  
 .Sq \e*X ,  
 two-character  
 .Sq \e*(XX ,  
 and N-character  
 .Sq \e*[N] .  
 See  
 .Xr mandoc_char 7  
 for a complete list.  
 Examples include  
 .Sq \e*(Am  
 .Pq ampersand  
 and  
 .Sq \e*(Ba  
 .Pq vertical bar .  
 .Ss Whitespace  
 Whitespace consists of the space character.  
 In text lines, whitespace is preserved within a line; unescaped  
 trailing spaces are stripped from input (unless in a literal context).  
 Blank text lines, which may include whitespace, are only permitted  
 within literal contexts.  
 .Pp  
 In general, trailing whitespace on input lines is discouraged  
 for reasons of clarity and portability.  
 In the rare case that a blank character is needed at the end of an  
 input line, it may be forced by  
 .Sq \e\ \e& .  
 .Pp  
 In macro lines, whitespace delimits arguments and is discarded.  
 .Ss Quotation  
 Macro arguments may be quoted with double-quotes; in this case,  
 whitespace within the quotes is retained as part of the argument.  
 For example,  
 .Pp  
 .D1 Pf \. \&Fn strlen "\(dqconst char *s\(dq"  
 .Pp  
 renders as  
 .Sq Fn strlen "const char *s" ,  
 while  
 .Pp  
 .D1 Pf \. \&Fn strlen "const char *s"  
 .Pp  
 would produce  
 .Sq Fn strlen const char *s .  
 .Pp  
 A quoted argument begins with a double-quote preceded by whitespace.  
 The next double-quote not pairwise adjacent to another double-quote  
 terminates the literal, regardless of surrounding whitespace.  
 .Pp  
 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.  
 .Pp  
 Note that any quoted text, even if it would cause a macro invocation  
 when unquoted, is considered literal text.  
 Thus, the following produces  
 .Sq Op "Fl a" :  
 .Bd -literal -offset indent  
 \&.Op "Fl a"  
 .Ed  
 .Pp  
 In text lines, quotes are regarded as opaque text.  
 .Ss Scaling Widths  
 Many macros support scaled widths for their arguments, such as  
 stipulating a two-inch list indentation with the following:  
 .Bd -literal -offset indent  
 \&.Bl -tag -width 2i  
 .Ed  
 .Pp  
 The syntax for scaled widths is  
 .Sq Li [+-]?[0-9]*.[0-9]*[:unit:] ,  
 where a decimal must be preceded or proceeded by at least one digit.  
 Negative numbers, while accepted, are truncated to zero.  
 The following scaling units are accepted:  
 .Pp  
 .Bl -tag -width Ds -offset indent -compact  
 .It c  
 centimetre  
 .It i  
 inch  
 .It P  
 pica (~1/6 inch)  
 .It p  
 point (~1/72 inch)  
 .It f  
 synonym for  
 .Sq u  
 .It v  
 default vertical span  
 .It m  
 width of rendered  
 .Sq m  
 .Pq em  
 character  
 .It n  
 width of rendered  
 .Sq n  
 .Pq en  
 character  
 .It u  
 default horizontal span  
 .It M  
 mini-em (~1/100 em)  
 .El  
 .Pp  
 Using anything other than  
 .Sq m ,  
 .Sq n ,  
 .Sq u ,  
 or  
 .Sq v  
 is necessarily non-portable across output media.  
 See  
 .Sx COMPATIBILITY .  
 .Ss Sentence Spacing  
 When composing a manual, make sure that sentences end at the end of  
 a line.  
 By doing so, front-ends will be able to apply the proper amount of  
 spacing after the end of sentence (unescaped) period, exclamation mark,  
 or question mark followed by zero or more non-sentence closing  
 delimiters  
 .Po  
 .Sq \&) ,  
 .Sq \&] ,  
 .Sq \&' ,  
 .Sq \&"  
 .Pc .  
 .Pp  
 The proper spacing is also intelligently preserved if a sentence ends at  
 the boundary of a macro line.  
 For example:  
 .Pp  
 .Dl \&.Xr mandoc 1 \&.  
 .Dl \&.Fl T \&Ns \&Cm ascii \&.  
 .Sh MANUAL STRUCTURE  .Sh MANUAL STRUCTURE
 A well-formed  A well-formed
 .Nm  .Nm
Line 292  file for a utility
Line 124  file for a utility
 \&.Sh NAME  \&.Sh NAME
 \&.Nm progname  \&.Nm progname
 \&.Nd one line about what it does  \&.Nd one line about what it does
 \&.\e\*q .Sh LIBRARY  \&.\e\(dq .Sh LIBRARY
 \&.\e\*q For sections 2, 3, & 9 only.  \&.\e\(dq For sections 2, 3, & 9 only.
 \&.\e\*q Not used in OpenBSD.  \&.\e\(dq Not used in OpenBSD.
 \&.Sh SYNOPSIS  \&.Sh SYNOPSIS
 \&.Nm progname  \&.Nm progname
 \&.Op Fl options  \&.Op Fl options
Line 303  file for a utility
Line 135  file for a utility
 The  The
 \&.Nm  \&.Nm
 utility processes files ...  utility processes files ...
 \&.\e\*q .Sh IMPLEMENTATION NOTES  \&.\e\(dq .Sh IMPLEMENTATION NOTES
 \&.\e\*q Not used in OpenBSD.  \&.\e\(dq Not used in OpenBSD.
 \&.\e\*q .Sh RETURN VALUES  \&.\e\(dq .Sh RETURN VALUES
 \&.\e\*q For sections 2, 3, & 9 only.  \&.\e\(dq For sections 2, 3, & 9 only.
 \&.\e\*q .Sh ENVIRONMENT  \&.\e\(dq .Sh ENVIRONMENT
 \&.\e\*q For sections 1, 6, 7, & 8 only.  \&.\e\(dq For sections 1, 6, 7, & 8 only.
 \&.\e\*q .Sh FILES  \&.\e\(dq .Sh FILES
 \&.\e\*q .Sh EXIT STATUS  \&.\e\(dq .Sh EXIT STATUS
 \&.\e\*q For sections 1, 6, & 8 only.  \&.\e\(dq For sections 1, 6, & 8 only.
 \&.\e\*q .Sh EXAMPLES  \&.\e\(dq .Sh EXAMPLES
 \&.\e\*q .Sh DIAGNOSTICS  \&.\e\(dq .Sh DIAGNOSTICS
 \&.\e\*q For sections 1, 4, 6, 7, & 8 only.  \&.\e\(dq For sections 1, 4, 6, 7, & 8 only.
 \&.\e\*q .Sh ERRORS  \&.\e\(dq .Sh ERRORS
 \&.\e\*q For sections 2, 3, & 9 only.  \&.\e\(dq For sections 2, 3, & 9 only.
 \&.\e\*q .Sh SEE ALSO  \&.\e\(dq .Sh SEE ALSO
 \&.\e\*q .Xr foobar 1  \&.\e\(dq .Xr foobar 1
 \&.\e\*q .Sh STANDARDS  \&.\e\(dq .Sh STANDARDS
 \&.\e\*q .Sh HISTORY  \&.\e\(dq .Sh HISTORY
 \&.\e\*q .Sh AUTHORS  \&.\e\(dq .Sh AUTHORS
 \&.\e\*q .Sh CAVEATS  \&.\e\(dq .Sh CAVEATS
 \&.\e\*q .Sh BUGS  \&.\e\(dq .Sh BUGS
 \&.\e\*q .Sh SECURITY CONSIDERATIONS  \&.\e\(dq .Sh SECURITY CONSIDERATIONS
 \&.\e\*q Not used in OpenBSD.  \&.\e\(dq Not used in OpenBSD.
 .Ed  .Ed
 .Pp  .Pp
 The sections in an  The sections in an
Line 406  macros should follow C header-file conventions.
Line 238  macros should follow C header-file conventions.
 .Pp  .Pp
 And for the third, configurations (section 4):  And for the third, configurations (section 4):
 .Bd -literal -offset indent  .Bd -literal -offset indent
 \&.Cd \*qit* at isa? port 0x2e\*q  \&.Cd \(dqit* at isa? port 0x2e\(dq
 \&.Cd \*qit* at isa? port 0x4e\*q  \&.Cd \(dqit* at isa? port 0x4e\(dq
 .Ed  .Ed
 .Pp  .Pp
 Manuals not in these sections generally don't need a  Manuals not in these sections generally don't need a
Line 581  in this section.
Line 413  in this section.
 .It Em SECURITY CONSIDERATIONS  .It Em SECURITY CONSIDERATIONS
 Documents any security precautions that operators should consider.  Documents any security precautions that operators should consider.
 .El  .El
 .Sh MACRO SYNTAX  .Sh MACRO OVERVIEW
 Macros are one to three three characters in length and begin with a  This overview is sorted such that macros of similar purpose are listed
 control character,  together, to help find the best macro for any given purpose.
 .Sq \&. ,  Deprecated macros are not included in the overview, but can be found below
 at the beginning of the line.  in the alphabetical
 An arbitrary amount of whitespace may sit between the control character  .Sx MACRO REFERENCE .
 and the macro name.  .Ss Document preamble and NAME section macros
 Thus, the following are equivalent:  .Bl -column "Brq, Bro, Brc" description
 .Bd -literal -offset indent  .It Sx \&Dd Ta document date: Cm $\&Mdocdate$ | Ar month day , year
 \&.Pp  .It Sx \&Dt Ta document title: Ar TITLE section Op Ar volume | arch
 \&.\ \ \ \&Pp  .It Sx \&Os Ta operating system version: Op Ar system Op Ar version
 .Ed  .It Sx \&Nm Ta document name (one argument)
 .Pp  .It Sx \&Nd Ta document description (one line)
 The syntax of a macro depends on its classification.  
 In this section,  
 .Sq \-arg  
 refers to macro arguments, which may be followed by zero or more  
 .Sq parm  
 parameters;  
 .Sq \&Yo  
 opens the scope of a macro; and if specified,  
 .Sq \&Yc  
 closes it out.  
 .Pp  
 The  
 .Em Callable  
 column indicates that the macro may also be called by passing its name  
 as an argument to another macro.  
 For example,  
 .Sq \&.Op \&Fl O \&Ar file  
 produces  
 .Sq Op Fl O Ar file .  
 To prevent a macro call and render the macro name literally,  
 escape it by prepending a zero-width space,  
 .Sq \e& .  
 For example,  
 .Sq \&Op \e&Fl O  
 produces  
 .Sq Op \&Fl O .  
 If a macro is not callable but its name appears as an argument  
 to another macro, it is interpreted as opaque text.  
 For example,  
 .Sq \&.Fl \&Sh  
 produces  
 .Sq Fl \&Sh .  
 .Pp  
 The  
 .Em Parsed  
 column indicates whether the macro may call other macros by receiving  
 their names as arguments.  
 If a macro is not parsed but the name of another macro appears  
 as an argument, it is interpreted as opaque text.  
 .Pp  
 The  
 .Em Scope  
 column, if applicable, describes closure rules.  
 .Ss Block full-explicit  
 Multi-line scope closed by an explicit closing macro.  
 All macros contains bodies; only  
 .Sx \&Bf  
 and  
 .Pq optionally  
 .Sx \&Bl  
 contain a head.  
 .Bd -literal -offset indent  
 \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB  
 \(lBbody...\(rB  
 \&.Yc  
 .Ed  
 .Pp  
 .Bl -column -compact -offset indent "MacroX" "CallableX" "ParsedX" "closed by XXX"  
 .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope  
 .It Sx \&Bd  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ed  
 .It Sx \&Bf  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ef  
 .It Sx \&Bk  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ek  
 .It Sx \&Bl  Ta    \&No     Ta    \&No     Ta    closed by Sx \&El  
 .It Sx \&Ed  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bd  
 .It Sx \&Ef  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bf  
 .It Sx \&Ek  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bk  
 .It Sx \&El  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bl  
 .El  .El
 .Ss Block full-implicit  .Ss Sections and cross references
 Multi-line scope closed by end-of-file or implicitly by another macro.  .Bl -column "Brq, Bro, Brc" description
 All macros have bodies; some  .It Sx \&Sh Ta section header (one line)
 .Po  .It Sx \&Ss Ta subsection header (one line)
 .Sx \&It Fl bullet ,  .It Sx \&Sx Ta internal cross reference to a section or subsection
 .Fl hyphen ,  .It Sx \&Xr Ta cross reference to another manual page: Ar name section
 .Fl dash ,  .It Sx \&Pp , \&Lp Ta start a text paragraph (no arguments)
 .Fl enum ,  
 .Fl item  
 .Pc  
 don't have heads; only one  
 .Po  
 .Sx \&It  
 in  
 .Sx \&Bl Fl column  
 .Pc  
 has multiple heads.  
 .Bd -literal -offset indent  
 \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead... \(lBTa head...\(rB\(rB  
 \(lBbody...\(rB  
 .Ed  
 .Pp  
 .Bl -column -compact -offset indent "MacroX" "CallableX" "ParsedX" "closed by XXXXXXXXXXX"  
 .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope  
 .It Sx \&It Ta \&No Ta Yes  Ta closed by Sx \&It , Sx \&El  
 .It Sx \&Nd Ta \&No Ta \&No Ta closed by Sx \&Sh  
 .It Sx \&Nm Ta \&No Ta Yes  Ta closed by Sx \&Nm , Sx \&Sh , Sx \&Ss  
 .It Sx \&Sh Ta \&No Ta Yes  Ta closed by Sx \&Sh  
 .It Sx \&Ss Ta \&No Ta Yes  Ta closed by Sx \&Sh , Sx \&Ss  
 .El  .El
 .Pp  .Ss Displays and lists
 Note that the  .Bl -column "Brq, Bro, Brc" description
 .Sx \&Nm  .It Sx \&Bd , \&Ed Ta display block:
 macro is a  .Fl Ar type
 .Sx Block full-implicit  .Op Fl offset Ar width
 macro only when invoked as the first macro  .Op Fl compact
 in a  .It Sx \&D1 Ta indented display (one line)
 .Em SYNOPSIS  .It Sx \&Dl Ta indented literal display (one line)
 section line, else it is  .It Sx \&Bl , \&El Ta list block:
 .Sx In-line .  .Fl Ar type
 .Ss Block partial-explicit  .Op Fl width Ar val
 Like block full-explicit, but also with single-line scope.  .Op Fl offset Ar val
 Each has at least a body and, in limited circumstances, a head  .Op Fl compact
 .Po  .It Sx \&It Ta list item (syntax depends on Fl Ar type )
 .Sx \&Fo ,  .It Sx \&Ta Ta table cell separator in Sx \&Bl Fl column No lists
 .Sx \&Eo  .It Sx \&Rs , \&%* , \&Re Ta bibliographic block (references)
 .Pc  
 and/or tail  
 .Pq Sx \&Ec .  
 .Bd -literal -offset indent  
 \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB  
 \(lBbody...\(rB  
 \&.Yc \(lBtail...\(rB  
   
 \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB \  
 \(lBbody...\(rB \&Yc \(lBtail...\(rB  
 .Ed  
 .Pp  
 .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXXX" -compact -offset indent  
 .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope  
 .It Sx \&Ac  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Ao  
 .It Sx \&Ao  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Ac  
 .It Sx \&Bc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Bo  
 .It Sx \&Bo  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Bc  
 .It Sx \&Brc Ta    Yes      Ta    Yes      Ta    opened by Sx \&Bro  
 .It Sx \&Bro Ta    Yes      Ta    Yes      Ta    closed by Sx \&Brc  
 .It Sx \&Dc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Do  
 .It Sx \&Do  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Dc  
 .It Sx \&Ec  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Eo  
 .It Sx \&Eo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Ec  
 .It Sx \&Fc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Fo  
 .It Sx \&Fo  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Fc  
 .It Sx \&Oc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Oo  
 .It Sx \&Oo  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Oc  
 .It Sx \&Pc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Po  
 .It Sx \&Po  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Pc  
 .It Sx \&Qc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Oo  
 .It Sx \&Qo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Oc  
 .It Sx \&Re  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Rs  
 .It Sx \&Rs  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Re  
 .It Sx \&Sc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&So  
 .It Sx \&So  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Sc  
 .It Sx \&Xc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Xo  
 .It Sx \&Xo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Xc  
 .El  .El
 .Ss Block partial-implicit  .Ss Spacing control
 Like block full-implicit, but with single-line scope closed by the  .Bl -column "Brq, Bro, Brc" description
 end of the line.  .It Sx \&Pf Ta prefix, no following horizontal space (one argument)
 .Bd -literal -offset indent  .It Sx \&Ns Ta roman font, no preceding horizontal space (no arguments)
 \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBbody...\(rB \(lBres...\(rB  .It Sx \&Ap Ta apostrophe without surrounding whitespace (no arguments)
 .Ed  .It Sx \&Sm Ta switch horizontal spacing mode: Cm on | off
 .Pp  .It Sx \&Bk , \&Ek Ta keep block: Fl words
 .Bl -column "MacroX" "CallableX" "ParsedX" -compact -offset indent  .It Sx \&br Ta force output line break in text mode (no arguments)
 .It Em Macro Ta Em Callable Ta Em Parsed  .It Sx \&sp Ta force vertical space: Op Ar height
 .It Sx \&Aq  Ta    Yes      Ta    Yes  
 .It Sx \&Bq  Ta    Yes      Ta    Yes  
 .It Sx \&Brq Ta    Yes      Ta    Yes  
 .It Sx \&D1  Ta    \&No     Ta    \&Yes  
 .It Sx \&Dl  Ta    \&No     Ta    Yes  
 .It Sx \&Dq  Ta    Yes      Ta    Yes  
 .It Sx \&Op  Ta    Yes      Ta    Yes  
 .It Sx \&Pq  Ta    Yes      Ta    Yes  
 .It Sx \&Ql  Ta    Yes      Ta    Yes  
 .It Sx \&Qq  Ta    Yes      Ta    Yes  
 .It Sx \&Sq  Ta    Yes      Ta    Yes  
 .It Sx \&Vt  Ta    Yes      Ta    Yes  
 .El  .El
 .Pp  .Ss Semantic markup for command line utilities:
 Note that the  .Bl -column "Brq, Bro, Brc" description
 .Sx \&Vt  .It Sx \&Nm Ta start a SYNOPSIS block with the name of a utility
 macro is a  .It Sx \&Fl Ta command line options (flags) (>=0 arguments)
 .Sx Block partial-implicit  .It Sx \&Cm Ta command modifier (>0 arguments)
 only when invoked as the first macro  .It Sx \&Ar Ta command arguments (>=0 arguments)
 in a  .It Sx \&Op , \&Oo , \&Oc Ta optional syntax elements (enclosure)
 .Em SYNOPSIS  .It Sx \&Ic Ta internal or interactive command (>0 arguments)
 section line, else it is  .It Sx \&Ev Ta environmental variable (>0 arguments)
 .Sx In-line .  .It Sx \&Pa Ta file system path (>=0 arguments)
 .Ss Special block macro  
 The  
 .Sx \&Ta  
 macro can only be used below  
 .Sx \&It  
 in  
 .Sx \&Bl Fl column  
 lists.  
 It delimits blocks representing table cells;  
 these blocks have bodies, but no heads.  
 .Pp  
 .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXXX" -compact -offset indent  
 .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope  
 .It Sx \&Ta  Ta    Yes      Ta    Yes    Ta closed by Sx \&Ta , Sx \&It  
 .El  .El
 .Ss In-line  .Ss Semantic markup for function libraries:
 Closed by the end of the line, fixed argument lengths,  .Bl -column "Brq, Bro, Brc" description
 and/or subsequent macros.  .It Sx \&Lb Ta function library (one argument)
 In-line macros have only text children.  .It Sx \&In Ta include file (one argument)
 If a number (or inequality) of arguments is  .It Sx \&Ft Ta function type (>0 arguments)
 .Pq n ,  .It Sx \&Fo , \&Fc Ta function block: Ar funcname
 then the macro accepts an arbitrary number of arguments.  .It Sx \&Fn Ta function name:
 .Bd -literal -offset indent  .Op Ar functype
 \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBargs...\(rB \(lBres...\(rB  .Ar funcname
   .Oo
 \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBargs...\(rB Yc...  .Op Ar argtype
   .Ar argname
 \&.Yo \(lB\-arg \(lBval...\(rB\(rB arg0 arg1 argN  .Oc
 .Ed  .It Sx \&Fa Ta function argument (>0 arguments)
 .Pp  .It Sx \&Vt Ta variable type (>0 arguments)
 .Bl -column "MacroX" "CallableX" "ParsedX" "Arguments" -compact -offset indent  .It Sx \&Va Ta variable name (>0 arguments)
 .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Arguments  .It Sx \&Dv Ta defined variable or preprocessor constant (>0 arguments)
 .It Sx \&%A  Ta    \&No     Ta    \&No     Ta    >0  .It Sx \&Er Ta error constant (>0 arguments)
 .It Sx \&%B  Ta    \&No     Ta    \&No     Ta    >0  .It Sx \&Ev Ta environmental variable (>0 arguments)
 .It Sx \&%C  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%D  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%I  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%J  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%N  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%O  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%P  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%Q  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%R  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%T  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%U  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&%V  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&Ad  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&An  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Ap  Ta    Yes      Ta    Yes      Ta    0  
 .It Sx \&Ar  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&At  Ta    Yes      Ta    Yes      Ta    1  
 .It Sx \&Bsx Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Bt  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Bx  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Cd  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Cm  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Db  Ta    \&No     Ta    \&No     Ta    1  
 .It Sx \&Dd  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Dt  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Dv  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Dx  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Em  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&En  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Er  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Es  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Ev  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Ex  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Fa  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Fd  Ta    \&No     Ta    \&No     Ta    >0  
 .It Sx \&Fl  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Fn  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Fr  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Ft  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Fx  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Hf  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Ic  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&In  Ta    \&No     Ta    \&No     Ta    1  
 .It Sx \&Lb  Ta    \&No     Ta    \&No     Ta    1  
 .It Sx \&Li  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Lk  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Lp  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Ms  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Mt  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Nm  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&No  Ta    Yes      Ta    Yes      Ta    0  
 .It Sx \&Ns  Ta    Yes      Ta    Yes      Ta    0  
 .It Sx \&Nx  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Os  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Ot  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Ox  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Pa  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Pf  Ta    Yes      Ta    Yes      Ta    1  
 .It Sx \&Pp  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Rv  Ta    \&No     Ta    \&No     Ta    n  
 .It Sx \&Sm  Ta    \&No     Ta    \&No     Ta    1  
 .It Sx \&St  Ta    \&No     Ta    Yes      Ta    1  
 .It Sx \&Sx  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Sy  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Tn  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Ud  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&Ux  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Va  Ta    Yes      Ta    Yes      Ta    n  
 .It Sx \&Vt  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&Xr  Ta    Yes      Ta    Yes      Ta    >0  
 .It Sx \&br  Ta    \&No     Ta    \&No     Ta    0  
 .It Sx \&sp  Ta    \&No     Ta    \&No     Ta    1  
 .El  .El
 .Ss Delimiters  .Ss Various semantic markup:
 When a macro argument consists of one single input character  .Bl -column "Brq, Bro, Brc" description
 considered as a delimiter, the argument gets special handling.  .It Sx \&An Ta author name (>0 arguments)
 This does not apply when delimiters appear in arguments containing  .It Sx \&Lk Ta hyperlink: Ar uri Op Ar name
 more than one character.  .It Sx \&Mt Ta Do mailto Dc hyperlink: Ar address
 Consequently, to prevent special handling and just handle it  .It Sx \&Cd Ta kernel configuration declaration (>0 arguments)
 like any other argument, a delimiter can be escaped by prepending  .It Sx \&Ad Ta memory address (>0 arguments)
 a zero-width space  .It Sx \&Ms Ta mathematical symbol (>0 arguments)
 .Pq Sq \e& .  .It Sx \&Tn Ta tradename (>0 arguments)
 In text lines, delimiters never need escaping, but may be used  
 as normal punctuation.  
 .Pp  
 For many macros, when the leading arguments are opening delimiters,  
 these delimiters are put before the macro scope,  
 and when the trailing arguments are closing delimiters,  
 these delimiters are put after the macro scope.  
 For example,  
 .Pp  
 .D1 Pf \. \&Aq "( [ word ] ) ."  
 .Pp  
 renders as:  
 .Pp  
 .D1 Aq ( [ word ] ) .  
 .Pp  
 Opening delimiters are:  
 .Pp  
 .Bl -tag -width Ds -offset indent -compact  
 .It \&(  
 left parenthesis  
 .It \&[  
 left bracket  
 .El  .El
 .Pp  .Ss Physical markup
 Closing delimiters are:  .Bl -column "Brq, Bro, Brc" description
 .Pp  .It Sx \&Em Ta italic font or underline (emphasis) (>0 arguments)
 .Bl -tag -width Ds -offset indent -compact  .It Sx \&Sy Ta boldface font (symbolic) (>0 arguments)
 .It \&.  .It Sx \&Li Ta typewriter font (literal) (>0 arguments)
 period  .It Sx \&No Ta return to roman font (normal) (no arguments)
 .It \&,  .It Sx \&Bf , \&Ef Ta font block:
 comma  .Op Fl Ar type | Cm \&Em | \&Li | \&Sy
 .It \&:  
 colon  
 .It \&;  
 semicolon  
 .It \&)  
 right parenthesis  
 .It \&]  
 right bracket  
 .It \&?  
 question mark  
 .It \&!  
 exclamation mark  
 .El  .El
 .Pp  .Ss Physical enclosures
 Note that even a period preceded by a backslash  .Bl -column "Brq, Bro, Brc" description
 .Pq Sq \e.\&  .It Sx \&Dq , \&Do , \&Dc Ta enclose in typographic double quotes: Dq text
 gets this special handling; use  .It Sx \&Qq , \&Qo , \&Qc Ta enclose in typewriter double quotes: Qq text
 .Sq \e&.  .It Sx \&Sq , \&So , \&Sc Ta enclose in single quotes: Sq text
 to prevent that.  .It Sx \&Ql Ta single-quoted literal text: Ql text
 .Pp  .It Sx \&Pq , \&Po , \&Pc Ta enclose in parentheses: Pq text
 Many in-line macros interrupt their scope when they encounter  .It Sx \&Bq , \&Bo , \&Bc Ta enclose in square brackets: Bq text
 delimiters, and resume their scope when more arguments follow that  .It Sx \&Brq , \&Bro , \&Brc Ta enclose in curly braces: Brq text
 are not delimiters.  .It Sx \&Aq , \&Ao , \&Ac Ta enclose in angle brackets: Aq text
 For example,  .It Sx \&Eo , \&Ec Ta generic enclosure
 .Pp  
 .D1 Pf \. \&Fl "a ( b | c \e*(Ba d ) e"  
 .Pp  
 renders as:  
 .Pp  
 .D1 Fl a ( b | c \*(Ba d ) e  
 .Pp  
 This applies to both opening and closing delimiters,  
 and also to the middle delimiter:  
 .Pp  
 .Bl -tag -width Ds -offset indent -compact  
 .It \&|  
 vertical bar  
 .El  .El
 .Pp  .Ss Text production
 As a special case, the predefined string \e*(Ba is handled and rendered  .Bl -column "Brq, Bro, Brc" description
 in the same way as a plain  .It Sx \&Ex Fl std Ta standard command exit values: Op Ar utility ...
 .Sq \&|  .It Sx \&Rv Fl std Ta standard function return values: Op Ar function ...
 character.  .It Sx \&St Ta reference to a standards document (one argument)
 Using this predefined string is not recommended in new manuals.  .It Sx \&Ux Ta Ux
 .Sh REFERENCE  .It Sx \&At Ta At
   .It Sx \&Bx Ta Bx
   .It Sx \&Bsx Ta Bsx
   .It Sx \&Nx Ta Nx
   .It Sx \&Fx Ta Fx
   .It Sx \&Ox Ta Ox
   .It Sx \&Dx Ta Dx
   .El
   .Sh MACRO REFERENCE
 This section is a canonical reference of all macros, arranged  This section is a canonical reference of all macros, arranged
 alphabetically.  alphabetically.
 For the scoping of individual macros, see  For the scoping of individual macros, see
Line 1714  Its syntax is as follows:
Line 1282  Its syntax is as follows:
 .Ar title  .Ar title
 .Oo  .Oo
 .Ar section  .Ar section
 .Op Ar volume | arch  .Op Ar volume
   .Op Ar arch
 .Oc  .Oc
 .Oc  .Oc
 .Ed  .Ed
Line 1795  or
Line 1364  or
 .Ar CON  .Ar CON
 .Pq contributed manuals .  .Pq contributed manuals .
 .It Ar arch  .It Ar arch
 This specifies a specific relevant architecture.  This specifies the machine architecture a manual page applies to,
 If  where relevant, for example
 .Ar volume  .Cm alpha ,
 is not provided, it may be used in its place, else it may be used  .Cm amd64 ,
 subsequent that.  .Cm i386 ,
 It, too, is optional.  
 It must be one of  
 .Ar alpha ,  
 .Ar amd64 ,  
 .Ar amiga ,  
 .Ar arc ,  
 .Ar arm ,  
 .Ar armish ,  
 .Ar aviion ,  
 .Ar hp300 ,  
 .Ar hppa ,  
 .Ar hppa64 ,  
 .Ar i386 ,  
 .Ar landisk ,  
 .Ar loongson ,  
 .Ar luna88k ,  
 .Ar mac68k ,  
 .Ar macppc ,  
 .Ar mips64 ,  
 .Ar mvme68k ,  
 .Ar mvme88k ,  
 .Ar mvmeppc ,  
 .Ar pmax ,  
 .Ar sgi ,  
 .Ar socppc ,  
 .Ar sparc ,  
 .Ar sparc64 ,  
 .Ar sun3 ,  
 .Ar vax ,  
 or  or
 .Ar zaurus .  .Cm sparc64 .
   The list of supported architectures varies by operating system.
   For the full list of all architectures recognized by
   .Xr mandoc 1 ,
   see the file
   .Pa arch.in
   in the source distribution.
 .El  .El
 .Pp  .Pp
 Examples:  Examples:
Line 2036  If the argument is a macro, a hyphen is prefixed to th
Line 1582  If the argument is a macro, a hyphen is prefixed to th
 output.  output.
 .Pp  .Pp
 Examples:  Examples:
 .Dl ".Nm cat Fl v No considered harmful"  .Dl ".Fl R Op Fl H | L | P"
 .Dl ".Nm cp Fl pR Ar source ... directory"  .Dl ".Op Fl 1AaCcdFfgHhikLlmnopqRrSsTtux"
 .Dl ".Nm find Ar dir Fl type Cm d Fl name Pa CVS"  .Dl ".Fl type Cm d Fl name Pa CVS"
 .Dl ".Nm kill Fl Ar signal_number pid"  .Dl ".Fl Ar signal_number"
 .Dl ".Nm su Fl"  .Dl ".Fl o Fl"
 .Pp  .Pp
 See also  See also
 .Sx \&Cm .  .Sx \&Cm .
Line 2063  section, this macro starts a new output line,
Line 1609  section, this macro starts a new output line,
 and a blank line is automatically inserted between function definitions.  and a blank line is automatically inserted between function definitions.
 .Pp  .Pp
 Examples:  Examples:
 .Dl \&.Fn \*qint funcname\*q \*qint arg0\*q \*qint arg1\*q  .Dl \&.Fn \(dqint funcname\(dq \(dqint arg0\(dq \(dqint arg1\(dq
 .Dl \&.Fn funcname \*qint arg0\*q  .Dl \&.Fn funcname \(dqint arg0\(dq
 .Dl \&.Fn funcname arg0  .Dl \&.Fn funcname arg0
 .Pp  .Pp
 .Bd -literal -offset indent -compact  .Bd -literal -offset indent -compact
Line 2269  line itself; on following lines, only the
Line 1815  line itself; on following lines, only the
 .Sx \&Ta  .Sx \&Ta
 macro can be used to delimit cells, and  macro can be used to delimit cells, and
 .Sx \&Ta  .Sx \&Ta
 is only recognized as a macro when called by other macros,  is only recognised as a macro when called by other macros,
 not as the first macro on a line.  not as the first macro on a line.
 .Pp  .Pp
 Note that quoted strings may span tab-delimited cells on an  Note that quoted strings may span tab-delimited cells on an
Line 2329  Its syntax is as follows:
Line 1875  Its syntax is as follows:
 .D1 Pf \. Sx \&Lk Ar uri Op Ar name  .D1 Pf \. Sx \&Lk Ar uri Op Ar name
 .Pp  .Pp
 Examples:  Examples:
 .Dl \&.Lk http://bsd.lv \*qThe BSD.lv Project\*q  .Dl \&.Lk http://bsd.lv \(dqThe BSD.lv Project\(dq
 .Dl \&.Lk http://bsd.lv  .Dl \&.Lk http://bsd.lv
 .Pp  .Pp
 See also  See also
Line 2843  The following standards are recognised:
Line 2389  The following standards are recognised:
 .St -ieee754  .St -ieee754
 .It \-iso8802-3  .It \-iso8802-3
 .St -iso8802-3  .St -iso8802-3
   .It \-iso8601
   .St -iso8601
 .It \-ieee1275-94  .It \-ieee1275-94
 .St -ieee1275-94  .St -ieee1275-94
 .It \-xpg3  .It \-xpg3
Line 3024  argument must be formatted as described in
Line 2572  argument must be formatted as described in
 If unspecified,  If unspecified,
 .Sx \&sp  .Sx \&sp
 asserts a single vertical space.  asserts a single vertical space.
   .Sh MACRO SYNTAX
   The syntax of a macro depends on its classification.
   In this section,
   .Sq \-arg
   refers to macro arguments, which may be followed by zero or more
   .Sq parm
   parameters;
   .Sq \&Yo
   opens the scope of a macro; and if specified,
   .Sq \&Yc
   closes it out.
   .Pp
   The
   .Em Callable
   column indicates that the macro may also be called by passing its name
   as an argument to another macro.
   For example,
   .Sq \&.Op \&Fl O \&Ar file
   produces
   .Sq Op Fl O Ar file .
   To prevent a macro call and render the macro name literally,
   escape it by prepending a zero-width space,
   .Sq \e& .
   For example,
   .Sq \&Op \e&Fl O
   produces
   .Sq Op \&Fl O .
   If a macro is not callable but its name appears as an argument
   to another macro, it is interpreted as opaque text.
   For example,
   .Sq \&.Fl \&Sh
   produces
   .Sq Fl \&Sh .
   .Pp
   The
   .Em Parsed
   column indicates whether the macro may call other macros by receiving
   their names as arguments.
   If a macro is not parsed but the name of another macro appears
   as an argument, it is interpreted as opaque text.
   .Pp
   The
   .Em Scope
   column, if applicable, describes closure rules.
   .Ss Block full-explicit
   Multi-line scope closed by an explicit closing macro.
   All macros contains bodies; only
   .Sx \&Bf
   and
   .Pq optionally
   .Sx \&Bl
   contain a head.
   .Bd -literal -offset indent
   \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB
   \(lBbody...\(rB
   \&.Yc
   .Ed
   .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXX" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope
   .It Sx \&Bd  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ed
   .It Sx \&Bf  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ef
   .It Sx \&Bk  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Ek
   .It Sx \&Bl  Ta    \&No     Ta    \&No     Ta    closed by Sx \&El
   .It Sx \&Ed  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bd
   .It Sx \&Ef  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bf
   .It Sx \&Ek  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bk
   .It Sx \&El  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Bl
   .El
   .Ss Block full-implicit
   Multi-line scope closed by end-of-file or implicitly by another macro.
   All macros have bodies; some
   .Po
   .Sx \&It Fl bullet ,
   .Fl hyphen ,
   .Fl dash ,
   .Fl enum ,
   .Fl item
   .Pc
   don't have heads; only one
   .Po
   .Sx \&It
   in
   .Sx \&Bl Fl column
   .Pc
   has multiple heads.
   .Bd -literal -offset indent
   \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead... \(lBTa head...\(rB\(rB
   \(lBbody...\(rB
   .Ed
   .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXXXXXXXXXX" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope
   .It Sx \&It Ta \&No Ta Yes  Ta closed by Sx \&It , Sx \&El
   .It Sx \&Nd Ta \&No Ta \&No Ta closed by Sx \&Sh
   .It Sx \&Nm Ta \&No Ta Yes  Ta closed by Sx \&Nm , Sx \&Sh , Sx \&Ss
   .It Sx \&Sh Ta \&No Ta Yes  Ta closed by Sx \&Sh
   .It Sx \&Ss Ta \&No Ta Yes  Ta closed by Sx \&Sh , Sx \&Ss
   .El
   .Pp
   Note that the
   .Sx \&Nm
   macro is a
   .Sx Block full-implicit
   macro only when invoked as the first macro
   in a
   .Em SYNOPSIS
   section line, else it is
   .Sx In-line .
   .Ss Block partial-explicit
   Like block full-explicit, but also with single-line scope.
   Each has at least a body and, in limited circumstances, a head
   .Po
   .Sx \&Fo ,
   .Sx \&Eo
   .Pc
   and/or tail
   .Pq Sx \&Ec .
   .Bd -literal -offset indent
   \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB
   \(lBbody...\(rB
   \&.Yc \(lBtail...\(rB
   
   \&.Yo \(lB\-arg \(lBparm...\(rB\(rB \(lBhead...\(rB \
   \(lBbody...\(rB \&Yc \(lBtail...\(rB
   .Ed
   .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXXX" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope
   .It Sx \&Ac  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Ao
   .It Sx \&Ao  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Ac
   .It Sx \&Bc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Bo
   .It Sx \&Bo  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Bc
   .It Sx \&Brc Ta    Yes      Ta    Yes      Ta    opened by Sx \&Bro
   .It Sx \&Bro Ta    Yes      Ta    Yes      Ta    closed by Sx \&Brc
   .It Sx \&Dc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Do
   .It Sx \&Do  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Dc
   .It Sx \&Ec  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Eo
   .It Sx \&Eo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Ec
   .It Sx \&Fc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Fo
   .It Sx \&Fo  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Fc
   .It Sx \&Oc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Oo
   .It Sx \&Oo  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Oc
   .It Sx \&Pc  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Po
   .It Sx \&Po  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Pc
   .It Sx \&Qc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Oo
   .It Sx \&Qo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Oc
   .It Sx \&Re  Ta    \&No     Ta    \&No     Ta    opened by Sx \&Rs
   .It Sx \&Rs  Ta    \&No     Ta    \&No     Ta    closed by Sx \&Re
   .It Sx \&Sc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&So
   .It Sx \&So  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Sc
   .It Sx \&Xc  Ta    Yes      Ta    Yes      Ta    opened by Sx \&Xo
   .It Sx \&Xo  Ta    Yes      Ta    Yes      Ta    closed by Sx \&Xc
   .El
   .Ss Block partial-implicit
   Like block full-implicit, but with single-line scope closed by the
   end of the line.
   .Bd -literal -offset indent
   \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBbody...\(rB \(lBres...\(rB
   .Ed
   .Bl -column "MacroX" "CallableX" "ParsedX" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed
   .It Sx \&Aq  Ta    Yes      Ta    Yes
   .It Sx \&Bq  Ta    Yes      Ta    Yes
   .It Sx \&Brq Ta    Yes      Ta    Yes
   .It Sx \&D1  Ta    \&No     Ta    \&Yes
   .It Sx \&Dl  Ta    \&No     Ta    Yes
   .It Sx \&Dq  Ta    Yes      Ta    Yes
   .It Sx \&Op  Ta    Yes      Ta    Yes
   .It Sx \&Pq  Ta    Yes      Ta    Yes
   .It Sx \&Ql  Ta    Yes      Ta    Yes
   .It Sx \&Qq  Ta    Yes      Ta    Yes
   .It Sx \&Sq  Ta    Yes      Ta    Yes
   .It Sx \&Vt  Ta    Yes      Ta    Yes
   .El
   .Pp
   Note that the
   .Sx \&Vt
   macro is a
   .Sx Block partial-implicit
   only when invoked as the first macro
   in a
   .Em SYNOPSIS
   section line, else it is
   .Sx In-line .
   .Ss Special block macro
   The
   .Sx \&Ta
   macro can only be used below
   .Sx \&It
   in
   .Sx \&Bl Fl column
   lists.
   It delimits blocks representing table cells;
   these blocks have bodies, but no heads.
   .Bl -column "MacroX" "CallableX" "ParsedX" "closed by XXXX" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Scope
   .It Sx \&Ta  Ta    Yes      Ta    Yes    Ta closed by Sx \&Ta , Sx \&It
   .El
   .Ss In-line
   Closed by the end of the line, fixed argument lengths,
   and/or subsequent macros.
   In-line macros have only text children.
   If a number (or inequality) of arguments is
   .Pq n ,
   then the macro accepts an arbitrary number of arguments.
   .Bd -literal -offset indent
   \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBargs...\(rB \(lBres...\(rB
   
   \&.Yo \(lB\-arg \(lBval...\(rB\(rB \(lBargs...\(rB Yc...
   
   \&.Yo \(lB\-arg \(lBval...\(rB\(rB arg0 arg1 argN
   .Ed
   .Bl -column "MacroX" "CallableX" "ParsedX" "Arguments" -offset indent
   .It Em Macro Ta Em Callable Ta Em Parsed Ta Em Arguments
   .It Sx \&%A  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%B  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%C  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%D  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%I  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%J  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%N  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%O  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%P  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%Q  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%R  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%T  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%U  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&%V  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&Ad  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&An  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Ap  Ta    Yes      Ta    Yes      Ta    0
   .It Sx \&Ar  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&At  Ta    Yes      Ta    Yes      Ta    1
   .It Sx \&Bsx Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Bt  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Bx  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Cd  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Cm  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Db  Ta    \&No     Ta    \&No     Ta    1
   .It Sx \&Dd  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Dt  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Dv  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Dx  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Em  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&En  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Er  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Es  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Ev  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Ex  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Fa  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Fd  Ta    \&No     Ta    \&No     Ta    >0
   .It Sx \&Fl  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Fn  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Fr  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Ft  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Fx  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Hf  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Ic  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&In  Ta    \&No     Ta    \&No     Ta    1
   .It Sx \&Lb  Ta    \&No     Ta    \&No     Ta    1
   .It Sx \&Li  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Lk  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Lp  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Ms  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Mt  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Nm  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&No  Ta    Yes      Ta    Yes      Ta    0
   .It Sx \&Ns  Ta    Yes      Ta    Yes      Ta    0
   .It Sx \&Nx  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Os  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Ot  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Ox  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Pa  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Pf  Ta    Yes      Ta    Yes      Ta    1
   .It Sx \&Pp  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Rv  Ta    \&No     Ta    \&No     Ta    n
   .It Sx \&Sm  Ta    \&No     Ta    \&No     Ta    1
   .It Sx \&St  Ta    \&No     Ta    Yes      Ta    1
   .It Sx \&Sx  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Sy  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Tn  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Ud  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&Ux  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Va  Ta    Yes      Ta    Yes      Ta    n
   .It Sx \&Vt  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&Xr  Ta    Yes      Ta    Yes      Ta    >0
   .It Sx \&br  Ta    \&No     Ta    \&No     Ta    0
   .It Sx \&sp  Ta    \&No     Ta    \&No     Ta    1
   .El
   .Ss Delimiters
   When a macro argument consists of one single input character
   considered as a delimiter, the argument gets special handling.
   This does not apply when delimiters appear in arguments containing
   more than one character.
   Consequently, to prevent special handling and just handle it
   like any other argument, a delimiter can be escaped by prepending
   a zero-width space
   .Pq Sq \e& .
   In text lines, delimiters never need escaping, but may be used
   as normal punctuation.
   .Pp
   For many macros, when the leading arguments are opening delimiters,
   these delimiters are put before the macro scope,
   and when the trailing arguments are closing delimiters,
   these delimiters are put after the macro scope.
   For example,
   .Pp
   .D1 Pf \. \&Aq "( [ word ] ) ."
   .Pp
   renders as:
   .Pp
   .D1 Aq ( [ word ] ) .
   .Pp
   Opening delimiters are:
   .Pp
   .Bl -tag -width Ds -offset indent -compact
   .It \&(
   left parenthesis
   .It \&[
   left bracket
   .El
   .Pp
   Closing delimiters are:
   .Pp
   .Bl -tag -width Ds -offset indent -compact
   .It \&.
   period
   .It \&,
   comma
   .It \&:
   colon
   .It \&;
   semicolon
   .It \&)
   right parenthesis
   .It \&]
   right bracket
   .It \&?
   question mark
   .It \&!
   exclamation mark
   .El
   .Pp
   Note that even a period preceded by a backslash
   .Pq Sq \e.\&
   gets this special handling; use
   .Sq \e&.
   to prevent that.
   .Pp
   Many in-line macros interrupt their scope when they encounter
   delimiters, and resume their scope when more arguments follow that
   are not delimiters.
   For example,
   .Pp
   .D1 Pf \. \&Fl "a ( b | c \e*(Ba d ) e"
   .Pp
   renders as:
   .Pp
   .D1 Fl a ( b | c \*(Ba d ) e
   .Pp
   This applies to both opening and closing delimiters,
   and also to the middle delimiter:
   .Pp
   .Bl -tag -width Ds -offset indent -compact
   .It \&|
   vertical bar
   .El
   .Pp
   As a special case, the predefined string \e*(Ba is handled and rendered
   in the same way as a plain
   .Sq \&|
   character.
   Using this predefined string is not recommended in new manuals.
   .Ss Font handling
   In
   .Nm
   documents, usage of semantic markup is recommended in order to have
   proper fonts automatically selected; only when no fitting semantic markup
   is available, consider falling back to
   .Sx Physical markup
   macros.
   Whenever any
   .Nm
   macro switches the
   .Xr roff 7
   font mode, it will automatically restore the previous font when exiting
   its scope.
   Manually switching the font using the
   .Xr roff 7
   .Ql \ef
   font escape sequences is never required.
 .Sh COMPATIBILITY  .Sh COMPATIBILITY
 This section documents compatibility between mandoc and other other  This section documents compatibility between mandoc and other other
 troff implementations, at this time limited to GNU troff  troff implementations, at this time limited to GNU troff
Line 3061  Newer groff and mandoc print
Line 2998  Newer groff and mandoc print
 and the arguments.  and the arguments.
 .It  .It
 .Sx \&Bl Fl column  .Sx \&Bl Fl column
 does not recognize trailing punctuation characters when they immediately  does not recognise trailing punctuation characters when they immediately
 precede tabulator characters, but treats them as normal text and  precede tabulator characters, but treats them as normal text and
 outputs a space before them.  outputs a space before them.
 .It  .It
Line 3173  The following features are unimplemented in mandoc:
Line 3110  The following features are unimplemented in mandoc:
 .Fl offset Ar center  .Fl offset Ar center
 and  and
 .Fl offset Ar right .  .Fl offset Ar right .
 Groff does not implement centered and flush-right rendering either,  Groff does not implement centred and flush-right rendering either,
 but produces large indentations.  but produces large indentations.
 .It  .It
 The  The
Line 3229  utility written by Kristaps Dzonsons appeared in
Line 3166  utility written by Kristaps Dzonsons appeared in
 The  The
 .Nm  .Nm
 reference was written by  reference was written by
 .An Kristaps Dzonsons Aq kristaps@bsd.lv .  .An Kristaps Dzonsons ,
   .Mt kristaps@bsd.lv .
Legend:
Removed from v.1.198  
changed lines
  Added in v.1.213
CVSweb