groff-1 revision 296373
1This is groff, produced by makeinfo version 4.8 from ./groff.texinfo. 2 3 This manual documents GNU `troff' version 1.19.2. 4 5 Copyright (C) 1994-2000, 2001, 2002, 2003, 2004, 2005 Free Software 6Foundation, Inc. 7 8 Permission is granted to copy, distribute and/or modify this 9 document under the terms of the GNU Free Documentation License, 10 Version 1.1 or any later version published by the Free Software 11 Foundation; with no Invariant Sections, with the Front-Cover texts 12 being `A GNU Manual," and with the Back-Cover Texts as in (a) 13 below. A copy of the license is included in the section entitled 14 `GNU Free Documentation License." 15 16 (a) The FSF's Back-Cover Text is: `You have freedom to copy and 17 modify this GNU Manual, like GNU software. Copies published by 18 the Free Software Foundation raise funds for GNU development." 19 20INFO-DIR-SECTION Typesetting 21START-INFO-DIR-ENTRY 22* Groff: (groff). The GNU troff document formatting system. 23END-INFO-DIR-ENTRY 24 25 26File: groff, Node: Top, Next: Introduction, Prev: (dir), Up: (dir) 27 28GNU troff 29********* 30 31This manual documents GNU `troff' version 1.19.2. 32 33 Copyright (C) 1994-2000, 2001, 2002, 2003, 2004, 2005 Free Software 34Foundation, Inc. 35 36 Permission is granted to copy, distribute and/or modify this 37 document under the terms of the GNU Free Documentation License, 38 Version 1.1 or any later version published by the Free Software 39 Foundation; with no Invariant Sections, with the Front-Cover texts 40 being `A GNU Manual," and with the Back-Cover Texts as in (a) 41 below. A copy of the license is included in the section entitled 42 `GNU Free Documentation License." 43 44 (a) The FSF's Back-Cover Text is: `You have freedom to copy and 45 modify this GNU Manual, like GNU software. Copies published by 46 the Free Software Foundation raise funds for GNU development." 47 48* Menu: 49 50* Introduction:: 51* Invoking groff:: 52* Tutorial for Macro Users:: 53* Macro Packages:: 54* gtroff Reference:: 55* Preprocessors:: 56* Output Devices:: 57* File formats:: 58* Installation:: 59* Copying This Manual:: 60* Request Index:: 61* Escape Index:: 62* Operator Index:: 63* Register Index:: 64* Macro Index:: 65* String Index:: 66* Glyph Name Index:: 67* Font File Keyword Index:: 68* Program and File Index:: 69* Concept Index:: 70 71 72File: groff, Node: Introduction, Next: Invoking groff, Prev: Top, Up: Top 73 741 Introduction 75************** 76 77GNU `troff' (or `groff') is a system for typesetting documents. 78`troff' is very flexible and has been in existence (and use) for about 793 decades. It is quite widespread and firmly entrenched in the UNIX 80community. 81 82* Menu: 83 84* What Is groff?:: 85* History:: 86* groff Capabilities:: 87* Macro Package Intro:: 88* Preprocessor Intro:: 89* Output device intro:: 90* Credits:: 91 92 93File: groff, Node: What Is groff?, Next: History, Prev: Introduction, Up: Introduction 94 951.1 What Is `groff'? 96==================== 97 98`groff' belongs to an older generation of document preparation systems, 99which operate more like compilers than the more recent interactive 100WYSIWYG(1) (*note What Is groff?-Footnote-1::) systems. `groff' and 101its contemporary counterpart, TeX, both work using a "batch" paradigm: 102The input (or "source") files are normal text files with embedded 103formatting commands. These files can then be processed by `groff' to 104produce a typeset document on a variety of devices. 105 106 Likewise, `groff' should not be confused with a "word processor", 107since that term connotes an integrated system that includes an editor 108and a text formatter. Also, many word processors follow the WYSIWYG 109paradigm discussed earlier. 110 111 Although WYSIWYG systems may be easier to use, they have a number of 112disadvantages compared to `troff': 113 114 * They must be used on a graphics display to work on a document. 115 116 * Most of the WYSIWYG systems are either non-free or are not very 117 portable. 118 119 * `troff' is firmly entrenched in all UNIX systems. 120 121 * It is difficult to have a wide range of capabilities available 122 within the confines of a GUI/window system. 123 124 * It is more difficult to make global changes to a document. 125 126 "GUIs normally make it simple to accomplish simple actions and 127 impossible to accomplish complex actions." -Doug Gwyn (22/Jun/91 128 in `comp.unix.wizards') 129 130 131File: groff, Node: What Is groff?-Footnotes, Up: What Is groff? 132 133 (1) What You See Is What You Get 134 135 136File: groff, Node: History, Next: groff Capabilities, Prev: What Is groff?, Up: Introduction 137 1381.2 History 139=========== 140 141`troff' can trace its origins back to a formatting program called 142`runoff', written by J. E. Saltzer, which ran on MIT's CTSS operating 143system in the mid-sixties. This name came from the common phrase of 144the time "I'll run off a document." Bob Morris ported it to the 635 145architecture and called the program `roff' (an abbreviation of 146`runoff'). It was rewritten as `rf' for the PDP-7 (before having 147UNIX), and at the same time (1969), Doug McIllroy rewrote an extended 148and simplified version of `roff' in the BCPL programming language. 149 150 The first version of UNIX was developed on a PDP-7 which was sitting 151around Bell Labs. In 1971 the developers wanted to get a PDP-11 for 152further work on the operating system. In order to justify the cost for 153this system, they proposed that they would implement a document 154formatting system for the AT&T patents division. This first formatting 155program was a reimplementation of McIllroy's `roff', written by 156J. F. Ossanna. 157 158 When they needed a more flexible language, a new version of `roff' 159called `nroff' ("Newer `roff'") was written. It had a much more 160complicated syntax, but provided the basis for all future versions. 161When they got a Graphic Systems CAT Phototypesetter, Ossanna wrote a 162version of `nroff' that would drive it. It was dubbed `troff', for 163"typesetter `roff'", although many people have speculated that it 164actually means "Times `roff'" because of the use of the Times font 165family in `troff' by default. As such, the name `troff' is pronounced 166`t-roff' rather than `trough'. 167 168 With `troff' came `nroff' (they were actually the same program 169except for some `#ifdef's), which was for producing output for line 170printers and character terminals. It understood everything `troff' 171did, and ignored the commands which were not applicable (e.g. font 172changes). 173 174 Since there are several things which cannot be done easily in 175`troff', work on several preprocessors began. These programs would 176transform certain parts of a document into `troff', which made a very 177natural use of pipes in UNIX. 178 179 The `eqn' preprocessor allowed mathematical formul� to be specified 180in a much simpler and more intuitive manner. `tbl' is a preprocessor 181for formatting tables. The `refer' preprocessor (and the similar 182program, `bib') processes citations in a document according to a 183bibliographic database. 184 185 Unfortunately, Ossanna's `troff' was written in PDP-11 assembly 186language and produced output specifically for the CAT phototypesetter. 187He rewrote it in C, although it was now 7000 lines of uncommented code 188and still dependent on the CAT. As the CAT became less common, and was 189no longer supported by the manufacturer, the need to make it support 190other devices became a priority. However, before this could be done, 191Ossanna was killed in a car accident. 192 193 So, Brian Kernighan took on the task of rewriting `troff'. The 194newly rewritten version produced device independent code which was very 195easy for postprocessors to read and translate to the appropriate 196printer codes. Also, this new version of `troff' (called `ditroff' for 197"device independent `troff'") had several extensions, which included 198drawing functions. 199 200 Due to the additional abilities of the new version of `troff', 201several new preprocessors appeared. The `pic' preprocessor provides a 202wide range of drawing functions. Likewise the `ideal' preprocessor did 203the same, although via a much different paradigm. The `grap' 204preprocessor took specifications for graphs, but, unlike other 205preprocessors, produced `pic' code. 206 207 James Clark began work on a GNU implementation of `ditroff' in 208early 1989. The first version, `groff' 0.3.1, was released June 1990. 209`groff' included: 210 211 * A replacement for `ditroff' with many extensions. 212 213 * The `soelim', `pic', `tbl', and `eqn' preprocessors. 214 215 * Postprocessors for character devices, POSTSCRIPT, TeX DVI, and 216 X Windows. GNU `troff' also eliminated the need for a separate 217 `nroff' program with a postprocessor which would produce ASCII 218 output. 219 220 * A version of the `me' macros and an implementation of the `man' 221 macros. 222 223 Also, a front-end was included which could construct the, sometimes 224painfully long, pipelines required for all the post- and preprocessors. 225 226 Development of GNU `troff' progressed rapidly, and saw the additions 227of a replacement for `refer', an implementation of the `ms' and `mm' 228macros, and a program to deduce how to format a document (`grog'). 229 230 It was declared a stable (i.e. non-beta) package with the release of 231version 1.04 around November 1991. 232 233 Beginning in 1999, `groff' has new maintainers (the package was an 234orphan for a few years). As a result, new features and programs like 235`grn', a preprocessor for gremlin images, and an output device to 236produce HTML output have been added. 237 238 239File: groff, Node: groff Capabilities, Next: Macro Package Intro, Prev: History, Up: Introduction 240 2411.3 `groff' Capabilities 242======================== 243 244So what exactly is `groff' capable of doing? `groff' provides a wide 245range of low-level text formatting operations. Using these, it is 246possible to perform a wide range of formatting tasks, such as 247footnotes, table of contents, multiple columns, etc. Here's a list of 248the most important operations supported by `groff': 249 250 * text filling, adjusting, and centering 251 252 * hyphenation 253 254 * page control 255 256 * font and glyph size control 257 258 * vertical spacing (e.g. double-spacing) 259 260 * line length and indenting 261 262 * macros, strings, diversions, and traps 263 264 * number registers 265 266 * tabs, leaders, and fields 267 268 * input and output conventions and character translation 269 270 * overstrike, bracket, line drawing, and zero-width functions 271 272 * local horizontal and vertical motions and the width function 273 274 * three-part titles 275 276 * output line numbering 277 278 * conditional acceptance of input 279 280 * environment switching 281 282 * insertions from the standard input 283 284 * input/output file switching 285 286 * output and error messages 287 288 289File: groff, Node: Macro Package Intro, Next: Preprocessor Intro, Prev: groff Capabilities, Up: Introduction 290 2911.4 Macro Packages 292================== 293 294Since `groff' provides such low-level facilities, it can be quite 295difficult to use by itself. However, `groff' provides a "macro" 296facility to specify how certain routine operations (e.g. starting 297paragraphs, printing headers and footers, etc.) should be done. These 298macros can be collected together into a "macro package". There are a 299number of macro packages available; the most common (and the ones 300described in this manual) are `man', `mdoc', `me', `ms', and `mm'. 301 302 303File: groff, Node: Preprocessor Intro, Next: Output device intro, Prev: Macro Package Intro, Up: Introduction 304 3051.5 Preprocessors 306================= 307 308Although `groff' provides most functions needed to format a document, 309some operations would be unwieldy (e.g. to draw pictures). Therefore, 310programs called "preprocessors" were written which understand their own 311language and produce the necessary `groff' operations. These 312preprocessors are able to differentiate their own input from the rest 313of the document via markers. 314 315 To use a preprocessor, UNIX pipes are used to feed the output from 316the preprocessor into `groff'. Any number of preprocessors may be used 317on a given document; in this case, the preprocessors are linked 318together into one pipeline. However, with `groff', the user does not 319need to construct the pipe, but only tell `groff' what preprocessors to 320use. 321 322 `groff' currently has preprocessors for producing tables (`tbl'), 323typesetting equations (`eqn'), drawing pictures (`pic' and `grn'), and 324for processing bibliographies (`refer'). An associated program which 325is useful when dealing with preprocessors is `soelim'. 326 327 A free implementation of `grap', a preprocessor for drawing graphs, 328can be obtained as an extra package; `groff' can use `grap' also. 329 330 There are other preprocessors in existence, but, unfortunately, no 331free implementations are available. Among them are preprocessors for 332drawing mathematical pictures (`ideal') and chemical structures 333(`chem'). 334 335 336File: groff, Node: Output device intro, Next: Credits, Prev: Preprocessor Intro, Up: Introduction 337 3381.6 Output Devices 339================== 340 341`groff' actually produces device independent code which may be fed into 342a postprocessor to produce output for a particular device. Currently, 343`groff' has postprocessors for POSTSCRIPT devices, character terminals, 344X Windows (for previewing), TeX DVI format, HP LaserJet 4 and Canon LBP 345printers (which use CAPSL), and HTML. 346 347 348File: groff, Node: Credits, Prev: Output device intro, Up: Introduction 349 3501.7 Credits 351=========== 352 353Large portions of this manual were taken from existing documents, most 354notably, the manual pages for the `groff' package by James Clark, and 355Eric Allman's papers on the `me' macro package. 356 357 The section on the `man' macro package is partly based on Susan G. 358Kleinmann's `groff_man' manual page written for the Debian GNU/Linux 359system. 360 361 Larry Kollar contributed the section in the `ms' macro package. 362 363 364File: groff, Node: Invoking groff, Next: Tutorial for Macro Users, Prev: Introduction, Up: Top 365 3662 Invoking `groff' 367****************** 368 369This section focuses on how to invoke the `groff' front end. This 370front end takes care of the details of constructing the pipeline among 371the preprocessors, `gtroff' and the postprocessor. 372 373 It has become a tradition that GNU programs get the prefix `g' to 374distinguish it from its original counterparts provided by the host (see 375*Note Environment::, for more details). Thus, for example, `geqn' is 376GNU `eqn'. On operating systems like GNU/Linux or the Hurd, which 377don't contain proprietary versions of `troff', and on 378MS-DOS/MS-Windows, where `troff' and associated programs are not 379available at all, this prefix is omitted since GNU `troff' is the only 380used incarnation of `troff'. Exception: `groff' is never replaced by 381`roff'. 382 383 In this document, we consequently say `gtroff' when talking about 384the GNU `troff' program. All other implementations of `troff' are 385called AT&T `troff' which is the common origin of all `troff' derivates 386(with more or less compatible changes). Similarly, we say `gpic', 387`geqn', etc. 388 389* Menu: 390 391* Groff Options:: 392* Environment:: 393* Macro Directories:: 394* Font Directories:: 395* Paper Size:: 396* Invocation Examples:: 397 398 399File: groff, Node: Groff Options, Next: Environment, Prev: Invoking groff, Up: Invoking groff 400 4012.1 Options 402=========== 403 404`groff' normally runs the `gtroff' program and a postprocessor 405appropriate for the selected device. The default device is `ps' (but 406it can be changed when `groff' is configured and built). It can 407optionally preprocess with any of `gpic', `geqn', `gtbl', `ggrn', 408`grap', `grefer', or `gsoelim'. 409 410 This section only documents options to the `groff' front end. Many 411of the arguments to `groff' are passed on to `gtroff', therefore those 412are also included. Arguments to pre- or postprocessors can be found in 413*Note Invoking gpic::, *Note Invoking geqn::, *Note Invoking gtbl::, 414*Note Invoking ggrn::, *Note Invoking grefer::, *Note Invoking 415gsoelim::, *Note Invoking grotty::, *Note Invoking grops::, *Note 416Invoking grohtml::, *Note Invoking grodvi::, *Note Invoking grolj4::, 417*Note Invoking grolbp::, and *Note Invoking gxditview::. 418 419 The command line format for `groff' is: 420 421 422 groff [ -abceghilpstvzCEGNRSUVXZ ] [ -FDIR ] [ -mNAME ] 423 [ -TDEF ] [ -fFAM ] [ -wNAME ] [ -WNAME ] 424 [ -MDIR ] [ -dCS ] [ -rCN ] [ -nNUM ] 425 [ -oLIST ] [ -PARG ] [ -LARG ] [ -IDIR ] 426 [ FILES... ] 427 428 The command line format for `gtroff' is as follows. 429 430 431 gtroff [ -abcivzCERU ] [ -wNAME ] [ -WNAME ] [ -dCS ] 432 [ -fFAM ] [ -mNAME ] [ -nNUM ] 433 [ -oLIST ] [ -rCN ] [ -TNAME ] 434 [ -FDIR ] [ -MDIR ] [ FILES... ] 435 436Obviously, many of the options to `groff' are actually passed on to 437`gtroff'. 438 439 Options without an argument can be grouped behind a single `-'. A 440filename of `-' denotes the standard input. It is possible to have 441whitespace between an option and its parameter. 442 443 The `grog' command can be used to guess the correct `groff' command 444to format a file. 445 446 Here's the description of the command-line options: 447 448`-h' 449 Print a help message. 450 451`-e' 452 Preprocess with `geqn'. 453 454`-t' 455 Preprocess with `gtbl'. 456 457`-g' 458 Preprocess with `ggrn'. 459 460`-G' 461 Preprocess with `grap'. 462 463`-p' 464 Preprocess with `gpic'. 465 466`-s' 467 Preprocess with `gsoelim'. 468 469`-c' 470 Suppress color output. 471 472`-R' 473 Preprocess with `grefer'. No mechanism is provided for passing 474 arguments to `grefer' because most `grefer' options have 475 equivalent commands which can be included in the file. *Note 476 grefer::, for more details. 477 478 Note that `gtroff' also accepts a `-R' option, which is not 479 accessible via `groff'. This option prevents the loading of the 480 `troffrc' and `troffrc-end' files. 481 482`-v' 483 Make programs run by `groff' print out their version number. 484 485`-V' 486 Print the pipeline on `stdout' instead of executing it. If 487 specified more than once, print the pipeline on `stderr' and 488 execute it. 489 490`-z' 491 Suppress output from `gtroff'. Only error messages are printed. 492 493`-Z' 494 Do not postprocess the output of `gtroff'. Normally `groff' 495 automatically runs the appropriate postprocessor. 496 497`-PARG' 498 Pass ARG to the postprocessor. Each argument should be passed 499 with a separate `-P' option. Note that `groff' does not prepend 500 `-' to ARG before passing it to the postprocessor. 501 502`-l' 503 Send the output to a spooler for printing. The command used for 504 this is specified by the `print' command in the device description 505 file (see *Note Font Files::, for more info). If not present, 506 `-l' is ignored. 507 508`-LARG' 509 Pass ARG to the spooler. Each argument should be passed with a 510 separate `-L' option. Note that `groff' does not prepend a `-' to 511 ARG before passing it to the postprocessor. If the `print' 512 keyword in the device description file is missing, `-L' is ignored. 513 514`-TDEV' 515 Prepare output for device DEV. The default device is `ps', unless 516 changed when `groff' was configured and built. The following are 517 the output devices currently available: 518 519 `ps' 520 For POSTSCRIPT printers and previewers. 521 522 `dvi' 523 For TeX DVI format. 524 525 `X75' 526 For a 75dpi X11 previewer. 527 528 `X75-12' 529 For a 75dpi X11 previewer with a 12pt base font in the 530 document. 531 532 `X100' 533 For a 100dpi X11 previewer. 534 535 `X100-12' 536 For a 100dpi X11 previewer with a 12pt base font in the 537 document. 538 539 `ascii' 540 For typewriter-like devices using the (7-bit) ASCII character 541 set. 542 543 `latin1' 544 For typewriter-like devices that support the Latin-1 545 (ISO 8859-1) character set. 546 547 `utf8' 548 For typewriter-like devices which use the Unicode (ISO 10646) 549 character set with UTF-8 encoding. 550 551 `cp1047' 552 For typewriter-like devices which use the EBCDIC encoding IBM 553 cp1047. 554 555 `lj4' 556 For HP LaserJet4-compatible (or other PCL5-compatible) 557 printers. 558 559 `lbp' 560 For Canon CAPSL printers (LBP-4 and LBP-8 series laser 561 printers). 562 563 `html' 564 To produce HTML output. Note that the HTML driver consists 565 of two parts, a preprocessor (`pre-grohtml') and a 566 postprocessor (`post-grohtml'). 567 568 The predefined `gtroff' string register `.T' contains the current 569 output device; the read-only number register `.T' is set to 1 if 570 this option is used (which is always true if `groff' is used to 571 call `gtroff'). *Note Built-in Registers::. 572 573 The postprocessor to be used for a device is specified by the 574 `postpro' command in the device description file. (*Note Font 575 Files::, for more info.) This can be overridden with the `-X' 576 option. 577 578`-X' 579 Preview with `gxditview' instead of using the usual postprocessor. 580 This is unlikely to produce good results except with `-Tps'. 581 582 Note that this is not the same as using `-TX75' or `-TX100' to 583 view a document with `gxditview': The former uses the metrics of 584 the specified device, whereas the latter uses X-specific fonts and 585 metrics. 586 587`-N' 588 Don't allow newlines with `eqn' delimiters. This is the same as 589 the `-N' option in `geqn'. 590 591`-S' 592 Safer mode. Pass the `-S' option to `gpic' and disable the 593 `open', `opena', `pso', `sy', and `pi' requests. For security 594 reasons, this is enabled by default. 595 596`-U' 597 Unsafe mode. This enables the `open', `opena', `pso', `sy', and 598 `pi' requests. 599 600`-a' 601 Generate an ASCII approximation of the typeset output. The 602 read-only register `.A' is then set to 1. *Note Built-in 603 Registers::. A typical example is 604 605 606 groff -a -man -Tdvi troff.man | less 607 608 which shows how lines are broken for the DVI device. Note that 609 this option is rather useless today since graphic output devices 610 are available virtually everywhere. 611 612`-b' 613 Print a backtrace with each warning or error message. This 614 backtrace should help track down the cause of the error. The line 615 numbers given in the backtrace may not always be correct: `gtroff' 616 can get confused by `as' or `am' requests while counting line 617 numbers. 618 619`-i' 620 Read the standard input after all the named input files have been 621 processed. 622 623`-wNAME' 624 Enable warning NAME. Available warnings are described in *Note 625 Debugging::. Multiple `-w' options are allowed. 626 627`-WNAME' 628 Inhibit warning NAME. Multiple `-W' options are allowed. 629 630`-E' 631 Inhibit all error messages. 632 633`-C' 634 Enable compatibility mode. *Note Implementation Differences::, 635 for the list of incompatibilities between `groff' and AT&T `troff'. 636 637`-dCS' 638`-dNAME=S' 639 Define C or NAME to be a string S. C must be a one-letter name; 640 NAME can be of arbitrary length. All string assignments happen 641 before loading any macro file (including the start-up file). 642 643`-fFAM' 644 Use FAM as the default font family. *Note Font Families::. 645 646`-mNAME' 647 Read in the file `NAME.tmac'. Normally `groff' searches for this 648 in its macro directories. If it isn't found, it tries `tmac.NAME' 649 (searching in the same directories). 650 651`-nNUM' 652 Number the first page NUM. 653 654`-oLIST' 655 Output only pages in LIST, which is a comma-separated list of page 656 ranges; `N' means print page N, `M-N' means print every page 657 between M and N, `-N' means print every page up to N, `N-' means 658 print every page beginning with N. `gtroff' exits after printing 659 the last page in the list. All the ranges are inclusive on both 660 ends. 661 662 Within `gtroff', this information can be extracted with the `.P' 663 register. *Note Built-in Registers::. 664 665 If your document restarts page numbering at the beginning of each 666 chapter, then `gtroff' prints the specified page range for each 667 chapter. 668 669`-rCN' 670`-rNAME=N' 671 Set number register C or NAME to the value N. C must be a 672 one-letter name; NAME can be of arbitrary length. N can be any 673 `gtroff' numeric expression. All register assignments happen 674 before loading any macro file (including the start-up file). 675 676`-FDIR' 677 Search `DIR' for subdirectories `devNAME' (NAME is the name of the 678 device), for the `DESC' file, and for font files before looking in 679 the standard directories (*note Font Directories::). This option 680 is passed to all pre- and postprocessors using the 681 `GROFF_FONT_PATH' environment variable. 682 683`-MDIR' 684 Search directory `DIR' for macro files before the standard 685 directories (*note Macro Directories::). 686 687`-IDIR' 688 This option may be used to specify a directory to search for files. 689 It is passed to the following programs: 690 691 * `gsoelim' (see *Note gsoelim:: for more details); it also 692 implies `groff''s `-s' option. 693 694 * `gtroff'; it is used to search files named in the `psbb' and 695 `so' requests. 696 697 * `grops'; it is used to search files named in the 698 `\X'ps: import' and `\X'ps: file' escapes. 699 700 The current directory is always searched first. This option may be 701 specified more than once; the directories will be searched in the 702 order specified. No directory search is performed for files 703 specified using an absolute path. 704 705 706File: groff, Node: Environment, Next: Macro Directories, Prev: Groff Options, Up: Invoking groff 707 7082.2 Environment 709=============== 710 711There are also several environment variables (of the operating system, 712not within `gtroff') which can modify the behavior of `groff'. 713 714`GROFF_COMMAND_PREFIX' 715 If this is set to X, then `groff' runs `Xtroff' instead of 716 `gtroff'. This also applies to `tbl', `pic', `eqn', `grn', 717 `refer', and `soelim'. It does not apply to `grops', `grodvi', 718 `grotty', `pre-grohtml', `post-grohtml', `grolj4', and `gxditview'. 719 720 The default command prefix is determined during the installation 721 process. If a non-GNU troff system is found, prefix `g' is used, 722 none otherwise. 723 724`GROFF_TMAC_PATH' 725 A colon-separated list of directories in which to search for macro 726 files (before the default directories are tried). *Note Macro 727 Directories::. 728 729`GROFF_TYPESETTER' 730 The default output device. 731 732`GROFF_FONT_PATH' 733 A colon-separated list of directories in which to search for the 734 `dev'NAME directory (before the default directories are tried). 735 *Note Font Directories::. 736 737`GROFF_BIN_PATH' 738 This search path, followed by `PATH', is used for commands executed 739 by `groff'. 740 741`GROFF_TMPDIR' 742 The directory in which `groff' creates temporary files. If this is 743 not set and `TMPDIR' is set, temporary files are created in that 744 directory. Otherwise temporary files are created in a 745 system-dependent default directory (on Unix and GNU/Linux systems, 746 this is usually `/tmp'). `grops', `grefer', `pre-grohtml', and 747 `post-grohtml' can create temporary files in this directory. 748 749 Note that MS-DOS and MS-Windows ports of `groff' use semi-colons, 750rather than colons, to separate the directories in the lists described 751above. 752 753 754File: groff, Node: Macro Directories, Next: Font Directories, Prev: Environment, Up: Invoking groff 755 7562.3 Macro Directories 757===================== 758 759All macro file names must be named `NAME.tmac' or `tmac.NAME' to make 760the `-mNAME' command line option work. The `mso' request doesn't have 761this restriction; any file name can be used, and `gtroff' won't try to 762append or prepend the `tmac' string. 763 764 Macro files are kept in the "tmac directories", all of which 765constitute the "tmac path". The elements of the search path for macro 766files are (in that order): 767 768 * The directories specified with `gtroff''s or `groff''s `-M' 769 command line option. 770 771 * The directories given in the `GROFF_TMAC_PATH' environment 772 variable. 773 774 * The current directory (only if in unsafe mode using the `-U' 775 command line switch). 776 777 * The home directory. 778 779 * A platform-dependent directory, a site-specific 780 (platform-independent) directory, and the main tmac directory; the 781 default locations are 782 783 784 /usr/local/lib/groff/site-tmac 785 /usr/local/share/groff/site-tmac 786 /usr/local/share/groff/1.18.2/tmac 787 788 assuming that the version of `groff' is 1.18.2, and the 789 installation prefix was `/usr/local'. It is possible to fine-tune 790 those directories during the installation process. 791 792 793File: groff, Node: Font Directories, Next: Paper Size, Prev: Macro Directories, Up: Invoking groff 794 7952.4 Font Directories 796==================== 797 798Basically, there is no restriction how font files for `groff' are named 799and how long font names are; however, to make the font family mechanism 800work (*note Font Families::), fonts within a family should start with 801the family name, followed by the shape. For example, the Times family 802uses `T' for the family name and `R', `B', `I', and `BI' to indicate 803the shapes `roman', `bold', `italic', and `bold italic', respectively. 804Thus the final font names are `TR', `TB', `TI', and `TBI'. 805 806 All font files are kept in the "font directories" which constitute 807the "font path". The file search functions will always append the 808directory `dev'NAME, where NAME is the name of the output device. 809Assuming, say, DVI output, and `/foo/bar' as a font directory, the font 810files for `grodvi' must be in `/foo/bar/devdvi'. 811 812 The elements of the search path for font files are (in that order): 813 814 * The directories specified with `gtroff''s or `groff''s `-F' 815 command line option. All device drivers and some preprocessors 816 also have this option. 817 818 * The directories given in the `GROFF_FONT_PATH' environment 819 variable. 820 821 * A site-specific directory and the main font directory; the default 822 locations are 823 824 825 /usr/local/share/groff/site-font 826 /usr/local/share/groff/1.18.2/font 827 828 assuming that the version of `groff' is 1.18.2, and the 829 installation prefix was `/usr/local'. It is possible to fine-tune 830 those directories during the installation process. 831 832 833File: groff, Node: Paper Size, Next: Invocation Examples, Prev: Font Directories, Up: Invoking groff 834 8352.5 Paper Size 836============== 837 838In groff, the page size for `gtroff' and for output devices are handled 839separately. *Note Page Layout::, for vertical manipulation of the page 840size. *Note Line Layout::, for horizontal changes. 841 842 A default paper size can be set in the device's `DESC' file. Most 843output devices also have a command line option `-p' to override the 844default paper size and option `-l' to use landscape orientation. *Note 845DESC File Format::, for a description of the `papersize' keyword which 846takes the same argument as `-p'. 847 848 A convenient shorthand to set a particular paper size for `gtroff' 849is command line option `-dpaper=SIZE'. This defines string `paper' 850which is processed in file `papersize.tmac' (loaded in the start-up 851file `troffrc' by default). Possible values for SIZE are the same as 852the predefined values for the `papersize' keyword (but only in 853lowercase) except `a7'-`d7'. An appended `l' (ell) character denotes 854landscape orientation. 855 856 For example, use the following for PS output on A4 paper in landscape 857orientation: 858 859 860 groff -Tps -dpaper=a4l -P-pa4 -P-l -ms foo.ms > foo.ps 861 862 Note that it is up to the particular macro package to respect default 863page dimensions set in this way (most do). 864 865 866File: groff, Node: Invocation Examples, Prev: Paper Size, Up: Invoking groff 867 8682.6 Invocation Examples 869======================= 870 871This section lists several common uses of `groff' and the corresponding 872command lines. 873 874 875 groff file 876 877This command processes `file' without a macro package or a 878preprocessor. The output device is the default, `ps', and the output 879is sent to `stdout'. 880 881 882 groff -t -mandoc -Tascii file | less 883 884This is basically what a call to the `man' program does. `gtroff' 885processes the manual page `file' with the `mandoc' macro file (which in 886turn either calls the `man' or the `mdoc' macro package), using the 887`tbl' preprocessor and the ASCII output device. Finally, the `less' 888pager displays the result. 889 890 891 groff -X -m me file 892 893Preview `file' with `gxditview', using the `me' macro package. Since 894no `-T' option is specified, use the default device (`ps'). Note that 895you can either say `-m me' or `-me'; the latter is an anachronism from 896the early days of UNIX.(1) (*note Invocation Examples-Footnote-1::) 897 898 899 groff -man -rD1 -z file 900 901Check `file' with the `man' macro package, forcing double-sided 902printing - don't produce any output. 903 904* Menu: 905 906* grog:: 907 908 909File: groff, Node: Invocation Examples-Footnotes, Up: Invocation Examples 910 911 (1) The same is true for the other main macro packages that come 912with `groff': `man', `mdoc', `ms', `mm', and `mandoc'. This won't work 913in general; for example, to load `trace.tmac', either `-mtrace' or 914`-m trace' must be used. 915 916 917File: groff, Node: grog, Prev: Invocation Examples, Up: Invocation Examples 918 9192.6.1 `grog' 920------------ 921 922`grog' reads files, guesses which of the `groff' preprocessors and/or 923macro packages are required for formatting them, and prints the `groff' 924command including those options on the standard output. It generates 925one or more of the options `-e', `-man', `-me', `-mm', `-mom', `-ms', 926`-mdoc', `-mdoc-old', `-p', `-R', `-g', `-G', `-s', and `-t'. 927 928 A special file name `-' refers to the standard input. Specifying no 929files also means to read the standard input. Any specified options are 930included in the printed command. No space is allowed between options 931and their arguments. The only options recognized are `-C' (which is 932also passed on) to enable compatibility mode, and `-v' to print the 933version number and exit. 934 935 For example, 936 937 938 grog -Tdvi paper.ms 939 940guesses the appropriate command to print `paper.ms' and then prints it 941to the command line after adding the `-Tdvi' option. For direct 942execution, enclose the call to `grog' in backquotes at the UNIX shell 943prompt: 944 945 946 `grog -Tdvi paper.ms` > paper.dvi 947 948As seen in the example, it is still necessary to redirect the output to 949something meaningful (i.e. either a file or a pager program like 950`less'). 951 952 953File: groff, Node: Tutorial for Macro Users, Next: Macro Packages, Prev: Invoking groff, Up: Top 954 9553 Tutorial for Macro Users 956************************** 957 958Most users tend to use a macro package to format their papers. This 959means that the whole breadth of `groff' is not necessary for most 960people. This chapter covers the material needed to efficiently use a 961macro package. 962 963* Menu: 964 965* Basics:: 966* Common Features:: 967 968 969File: groff, Node: Basics, Next: Common Features, Prev: Tutorial for Macro Users, Up: Tutorial for Macro Users 970 9713.1 Basics 972========== 973 974This section covers some of the basic concepts necessary to understand 975how to use a macro package.(1) (*note Basics-Footnote-1::) References 976are made throughout to more detailed information, if desired. 977 978 `gtroff' reads an input file prepared by the user and outputs a 979formatted document suitable for publication or framing. The input 980consists of text, or words to be printed, and embedded commands 981("requests" and "escapes"), which tell `gtroff' how to format the 982output. For more detail on this, see *Note Embedded Commands::. 983 984 The word "argument" is used in this chapter to mean a word or number 985which appears on the same line as a request, and which modifies the 986meaning of that request. For example, the request 987 988 989 .sp 990 991spaces one line, but 992 993 994 .sp 4 995 996spaces four lines. The number 4 is an argument to the `sp' request 997which says to space four lines instead of one. Arguments are separated 998from the request and from each other by spaces (_no_ tabs). More 999details on this can be found in *Note Request and Macro Arguments::. 1000 1001 The primary function of `gtroff' is to collect words from input 1002lines, fill output lines with those words, justify the right-hand margin 1003by inserting extra spaces in the line, and output the result. For 1004example, the input: 1005 1006 1007 Now is the time 1008 for all good men 1009 to come to the aid 1010 of their party. 1011 Four score and seven 1012 years ago, etc. 1013 1014is read, packed onto output lines, and justified to produce: 1015 1016 Now is the time for all good men to come to the aid of their party. 1017 Four score and seven years ago, etc. 1018 1019 Sometimes a new output line should be started even though the current 1020line is not yet full; for example, at the end of a paragraph. To do 1021this it is possible to cause a "break", which starts a new output line. 1022Some requests cause a break automatically, as normally do blank input 1023lines and input lines beginning with a space. 1024 1025 Not all input lines are text to be formatted. Some input lines are 1026requests which describe how to format the text. Requests always have a 1027period (`.') or an apostrophe (`'') as the first character of the input 1028line. 1029 1030 The text formatter also does more complex things, such as 1031automatically numbering pages, skipping over page boundaries, putting 1032footnotes in the correct place, and so forth. 1033 1034 Here are a few hints for preparing text for input to `gtroff'. 1035 1036 * First, keep the input lines short. Short input lines are easier to 1037 edit, and `gtroff' packs words onto longer lines anyhow. 1038 1039 * In keeping with this, it is helpful to begin a new line after every 1040 comma or phrase, since common corrections are to add or delete 1041 sentences or phrases. 1042 1043 * End each sentence with two spaces - or better, start each sentence 1044 on a new line. `gtroff' recognizes characters that usually end a 1045 sentence, and inserts sentence space accordingly. 1046 1047 * Do not hyphenate words at the end of lines - `gtroff' is smart 1048 enough to hyphenate words as needed, but is not smart enough to 1049 take hyphens out and join a word back together. Also, words such 1050 as "mother-in-law" should not be broken over a line, since then a 1051 space can occur where not wanted, such as "mother- in-law". 1052 1053 `gtroff' double-spaces output text automatically if you use the 1054request `.ls 2'. Reactivate single-spaced mode by typing `.ls 1'.(2) 1055(*note Basics-Footnote-2::) 1056 1057 A number of requests allow to change the way the output looks, 1058sometimes called the "layout" of the output page. Most of these 1059requests adjust the placing of "whitespace" (blank lines or spaces). 1060 1061 The `bp' request starts a new page, causing a line break. 1062 1063 The request `.sp N' leaves N lines of blank space. N can be omitted 1064(meaning skip a single line) or can be of the form Ni (for N inches) or 1065Nc (for N centimeters). For example, the input: 1066 1067 1068 .sp 1.5i 1069 My thoughts on the subject 1070 .sp 1071 1072leaves one and a half inches of space, followed by the line "My 1073thoughts on the subject", followed by a single blank line (more 1074measurement units are available, see *Note Measurements::). 1075 1076 Text lines can be centered by using the `ce' request. The line 1077after `ce' is centered (horizontally) on the page. To center more than 1078one line, use `.ce N' (where N is the number of lines to center), 1079followed by the N lines. To center many lines without counting them, 1080type: 1081 1082 1083 .ce 1000 1084 lines to center 1085 .ce 0 1086 1087The `.ce 0' request tells `groff' to center zero more lines, in other 1088words, stop centering. 1089 1090 All of these requests cause a break; that is, they always start a new 1091line. To start a new line without performing any other action, use 1092`br'. 1093 1094 1095File: groff, Node: Basics-Footnotes, Up: Basics 1096 1097 (1) This section is derived from `Writing Papers with nroff using 1098-me' by Eric P. Allman. 1099 1100 (2) If you need finer granularity of the vertical space, use the 1101`pvs' request (*note Changing Type Sizes::). 1102 1103 1104File: groff, Node: Common Features, Prev: Basics, Up: Tutorial for Macro Users 1105 11063.2 Common Features 1107=================== 1108 1109`gtroff' provides very low-level operations for formatting a document. 1110There are many common routine operations which are done in all 1111documents. These common operations are written into "macros" and 1112collected into a "macro package". 1113 1114 All macro packages provide certain common capabilities which fall 1115into the following categories. 1116 1117* Menu: 1118 1119* Paragraphs:: 1120* Sections and Chapters:: 1121* Headers and Footers:: 1122* Page Layout Adjustment:: 1123* Displays:: 1124* Footnotes and Annotations:: 1125* Table of Contents:: 1126* Indices:: 1127* Paper Formats:: 1128* Multiple Columns:: 1129* Font and Size Changes:: 1130* Predefined Strings:: 1131* Preprocessor Support:: 1132* Configuration and Customization:: 1133 1134 1135File: groff, Node: Paragraphs, Next: Sections and Chapters, Prev: Common Features, Up: Common Features 1136 11373.2.1 Paragraphs 1138---------------- 1139 1140One of the most common and most used capability is starting a 1141paragraph. There are a number of different types of paragraphs, any of 1142which can be initiated with macros supplied by the macro package. 1143Normally, paragraphs start with a blank line and the first line 1144indented, like the text in this manual. There are also block style 1145paragraphs, which omit the indentation: 1146 1147 1148 Some men look at constitutions with sanctimonious 1149 reverence, and deem them like the ark of the covenant, too 1150 sacred to be touched. 1151 1152And there are also indented paragraphs which begin with a tag or label 1153at the margin and the remaining text indented. 1154 1155 1156 one This is the first paragraph. Notice how the first 1157 line of the resulting paragraph lines up with the 1158 other lines in the paragraph. 1159 1160 1161 longlabel 1162 This paragraph had a long label. The first 1163 character of text on the first line does not line up 1164 with the text on second and subsequent lines, 1165 although they line up with each other. 1166 1167 A variation of this is a bulleted list. 1168 1169 1170 . Bulleted lists start with a bullet. It is possible 1171 to use other glyphs instead of the bullet. In nroff 1172 mode using the ASCII character set for output, a dot 1173 is used instead of a real bullet. 1174 1175 1176File: groff, Node: Sections and Chapters, Next: Headers and Footers, Prev: Paragraphs, Up: Common Features 1177 11783.2.2 Sections and Chapters 1179--------------------------- 1180 1181Most macro packages supply some form of section headers. The simplest 1182kind is simply the heading on a line by itself in bold type. Others 1183supply automatically numbered section heading or different heading 1184styles at different levels. Some, more sophisticated, macro packages 1185supply macros for starting chapters and appendices. 1186 1187 1188File: groff, Node: Headers and Footers, Next: Page Layout Adjustment, Prev: Sections and Chapters, Up: Common Features 1189 11903.2.3 Headers and Footers 1191------------------------- 1192 1193Every macro package gives some way to manipulate the "headers" and 1194"footers" (also called "titles") on each page. This is text put at the 1195top and bottom of each page, respectively, which contain data like the 1196current page number, the current chapter title, and so on. Its 1197appearance is not affected by the running text. Some packages allow 1198for different ones on the even and odd pages (for material printed in a 1199book form). 1200 1201 The titles are called "three-part titles", that is, there is a 1202left-justified part, a centered part, and a right-justified part. An 1203automatically generated page number may be put in any of these fields 1204with the `%' character (see *Note Page Layout::, for more details). 1205 1206 1207File: groff, Node: Page Layout Adjustment, Next: Displays, Prev: Headers and Footers, Up: Common Features 1208 12093.2.4 Page Layout 1210----------------- 1211 1212Most macro packages let the user specify top and bottom margins and 1213other details about the appearance of the printed pages. 1214 1215 1216File: groff, Node: Displays, Next: Footnotes and Annotations, Prev: Page Layout Adjustment, Up: Common Features 1217 12183.2.5 Displays 1219-------------- 1220 1221"Displays" are sections of text to be set off from the body of the 1222paper. Major quotes, tables, and figures are types of displays, as are 1223all the examples used in this document. 1224 1225 "Major quotes" are quotes which are several lines long, and hence 1226are set in from the rest of the text without quote marks around them. 1227 1228 A "list" is an indented, single-spaced, unfilled display. Lists 1229should be used when the material to be printed should not be filled and 1230justified like normal text, such as columns of figures or the examples 1231used in this paper. 1232 1233 A "keep" is a display of lines which are kept on a single page if 1234possible. An example for a keep might be a diagram. Keeps differ from 1235lists in that lists may be broken over a page boundary whereas keeps are 1236not. 1237 1238 "Floating keeps" move relative to the text. Hence, they are good for 1239things which are referred to by name, such as "See figure 3". A 1240floating keep appears at the bottom of the current page if it fits; 1241otherwise, it appears at the top of the next page. Meanwhile, the 1242surrounding text `flows' around the keep, thus leaving no blank areas. 1243 1244 1245File: groff, Node: Footnotes and Annotations, Next: Table of Contents, Prev: Displays, Up: Common Features 1246 12473.2.6 Footnotes and Annotations 1248------------------------------- 1249 1250There are a number of requests to save text for later printing. 1251 1252 "Footnotes" are printed at the bottom of the current page. 1253 1254 "Delayed text" is very similar to a footnote except that it is 1255printed when called for explicitly. This allows a list of references to 1256appear (for example) at the end of each chapter, as is the convention in 1257some disciplines. 1258 1259 Most macro packages which supply this functionality also supply a 1260means of automatically numbering either type of annotation. 1261 1262 1263File: groff, Node: Table of Contents, Next: Indices, Prev: Footnotes and Annotations, Up: Common Features 1264 12653.2.7 Table of Contents 1266----------------------- 1267 1268"Tables of contents" are a type of delayed text having a tag (usually 1269the page number) attached to each entry after a row of dots. The table 1270accumulates throughout the paper until printed, usually after the paper 1271has ended. Many macro packages provide the ability to have several 1272tables of contents (e.g. a standard table of contents, a list of 1273tables, etc). 1274 1275 1276File: groff, Node: Indices, Next: Paper Formats, Prev: Table of Contents, Up: Common Features 1277 12783.2.8 Indices 1279------------- 1280 1281While some macro packages use the term "index", none actually provide 1282that functionality. The facilities they call indices are actually more 1283appropriate for tables of contents. 1284 1285 To produce a real index in a document, external tools like the 1286`makeindex' program are necessary. 1287 1288 1289File: groff, Node: Paper Formats, Next: Multiple Columns, Prev: Indices, Up: Common Features 1290 12913.2.9 Paper Formats 1292------------------- 1293 1294Some macro packages provide stock formats for various kinds of 1295documents. Many of them provide a common format for the title and 1296opening pages of a technical paper. The `mm' macros in particular 1297provide formats for letters and memoranda. 1298 1299 1300File: groff, Node: Multiple Columns, Next: Font and Size Changes, Prev: Paper Formats, Up: Common Features 1301 13023.2.10 Multiple Columns 1303----------------------- 1304 1305Some macro packages (but not `man') provide the ability to have two or 1306more columns on a page. 1307 1308 1309File: groff, Node: Font and Size Changes, Next: Predefined Strings, Prev: Multiple Columns, Up: Common Features 1310 13113.2.11 Font and Size Changes 1312---------------------------- 1313 1314The built-in font and size functions are not always intuitive, so all 1315macro packages provide macros to make these operations simpler. 1316 1317 1318File: groff, Node: Predefined Strings, Next: Preprocessor Support, Prev: Font and Size Changes, Up: Common Features 1319 13203.2.12 Predefined Strings 1321------------------------- 1322 1323Most macro packages provide various predefined strings for a variety of 1324uses; examples are sub- and superscripts, printable dates, quotes and 1325various special characters. 1326 1327 1328File: groff, Node: Preprocessor Support, Next: Configuration and Customization, Prev: Predefined Strings, Up: Common Features 1329 13303.2.13 Preprocessor Support 1331--------------------------- 1332 1333All macro packages provide support for various preprocessors and may 1334extend their functionality. 1335 1336 For example, all macro packages mark tables (which are processed with 1337`gtbl') by placing them between `TS' and `TE' macros. The `ms' macro 1338package has an option, `.TS H', that prints a caption at the top of a 1339new page (when the table is too long to fit on a single page). 1340 1341 1342File: groff, Node: Configuration and Customization, Prev: Preprocessor Support, Up: Common Features 1343 13443.2.14 Configuration and Customization 1345-------------------------------------- 1346 1347Some macro packages provide means of customizing many of the details of 1348how the package behaves. This ranges from setting the default type size 1349to changing the appearance of section headers. 1350 1351 1352File: groff, Node: Macro Packages, Next: gtroff Reference, Prev: Tutorial for Macro Users, Up: Top 1353 13544 Macro Packages 1355**************** 1356 1357This chapter documents the main macro packages that come with `groff'. 1358 1359 Different main macro packages can't be used at the same time; for 1360example 1361 1362 1363 groff -m man foo.man -m ms bar.doc 1364 1365doesn't work. Note that option arguments are processed before 1366non-option arguments; the above (failing) sample is thus reordered to 1367 1368 1369 groff -m man -m ms foo.man bar.doc 1370 1371* Menu: 1372 1373* man:: 1374* mdoc:: 1375* ms:: 1376* me:: 1377* mm:: 1378 1379 1380File: groff, Node: man, Next: mdoc, Prev: Macro Packages, Up: Macro Packages 1381 13824.1 `man' 1383========= 1384 1385This is the most popular and probably the most important macro package 1386of `groff'. It is easy to use, and a vast majority of manual pages are 1387based on it. 1388 1389* Menu: 1390 1391* Man options:: 1392* Man usage:: 1393* Man font macros:: 1394* Miscellaneous man macros:: 1395* Predefined man strings:: 1396* Preprocessors in man pages:: 1397* Optional man extensions:: 1398 1399 1400File: groff, Node: Man options, Next: Man usage, Prev: man, Up: man 1401 14024.1.1 Options 1403------------- 1404 1405The command line format for using the `man' macros with `groff' is: 1406 1407 1408 groff -m man [ -rLL=LENGTH ] [ -rLT=LENGTH ] [ -rFT=DIST ] 1409 [ -rcR=1 ] [ -rC1 ] [ -rD1 ] [-rHY=FLAGS ] 1410 [ -rPNNN ] [ -rSXX ] [ -rXNNN ] 1411 [ -rIN=LENGTH ] [ -rSN=LENGTH ] [ FILES... ] 1412 1413It is possible to use `-man' instead of `-m man'. 1414 1415`-rcR=1' 1416 This option (the default if a TTY output device is used) creates a 1417 single, very long page instead of multiple pages. Use `-rcR=0' to 1418 disable it. 1419 1420`-rC1' 1421 If more than one manual page is given on the command line, number 1422 the pages continuously, rather than starting each at 1. 1423 1424`-rD1' 1425 Double-sided printing. Footers for even and odd pages are 1426 formatted differently. 1427 1428`-rFT=DIST' 1429 Set the position of the footer text to DIST. If positive, the 1430 distance is measured relative to the top of the page, otherwise it 1431 is relative to the bottom. The default is -0.5i. 1432 1433`-rHY=FLAGS' 1434 Set hyphenation flags. Possible values are 1 to hyphenate without 1435 restrictions, 2 to not hyphenate the last word on a page, 4 to 1436 not hyphenate the last two characters of a word, and 8 to not 1437 hyphenate the first two characters of a word. These values are 1438 additive; the default is 14. 1439 1440`-rIN=LENGTH' 1441 Set the body text indentation to LENGTH. If not specified, the 1442 indentation defaults to 7n (7 characters) in nroff mode and 7.2n 1443 otherwise. For nroff, this value should always be an integer 1444 multiple of unit `n' to get consistent indentation. 1445 1446`-rLL=LENGTH' 1447 Set line length to LENGTH. If not specified, the line length is 1448 set to respect any value set by a prior `ll' request (which _must_ 1449 be in effect when the `TH' macro is invoked), if this differs from 1450 the built-in default for the formatter; otherwise it defaults to 1451 78n in nroff mode (this is 78 characters per line) and 6.5i in 1452 troff mode.(1) (*note Man options-Footnote-1::) 1453 1454`-rLT=LENGTH' 1455 Set title length to LENGTH. If not specified, the title length 1456 defaults to the line length. 1457 1458`-rPNNN' 1459 Page numbering starts with NNN rather than with 1. 1460 1461`-rSXX' 1462 Use XX (which can be 10, 11, or 12pt) as the base document font 1463 size instead of the default value of 10pt. 1464 1465`-rSN=LENGTH' 1466 Set the indentation for sub-subheadings to LENGTH. If not 1467 specified, the indentation defaults to 3n. 1468 1469`-rXNNN' 1470 After page NNN, number pages as NNNa, NNNb, NNNc, etc. For 1471 example, the option `-rX2' produces the following page numbers: 1, 1472 2, 2a, 2b, 2c, etc. 1473 1474 1475File: groff, Node: Man options-Footnotes, Up: Man options 1476 1477 (1) Note that the use of a `.ll LENGTH' request to initialize the 1478line length, prior to use of the `TH' macro, is supported for backward 1479compatibility with some versions of the `man' program. _Always_ use the 1480`-rLL=LENGTH' option, or an equivalent `.nr LL LENGTH' request, in 1481preference to such a `.ll LENGTH' request. In particular, note that in 1482nroff mode, the request `.ll 65n', (with any LENGTH expression which 1483evaluates equal to 65n, i.e., the formatter's default line length in 1484nroff mode), will _not_ set the line length to 65n (it will be adjusted 1485to the `man' macro package's default setting of 78n), whereas the use 1486of the `-rLL=65n' option, or the `.nr LL 65n' request _will_ establish 1487a line length of 65n. 1488 1489 1490File: groff, Node: Man usage, Next: Man font macros, Prev: Man options, Up: man 1491 14924.1.2 Usage 1493----------- 1494 1495This section describes the available macros for manual pages. For 1496further customization, put additional macros and requests into the file 1497`man.local' which is loaded immediately after the `man' package. 1498 1499 -- Macro: .TH title section [extra1 [extra2 [extra3]]] 1500 Set the title of the man page to TITLE and the section to SECTION, 1501 which must have a value between 1 and 8. The value of SECTION may 1502 also have a string appended, e.g. `.pm', to indicate a specific 1503 subsection of the man pages. 1504 1505 Both TITLE and SECTION are positioned at the left and right in the 1506 header line (with SECTION in parentheses immediately appended to 1507 TITLE. EXTRA1 is positioned in the middle of the footer line. 1508 EXTRA2 is positioned at the left in the footer line (or at the 1509 left on even pages and at the right on odd pages if double-sided 1510 printing is active). EXTRA3 is centered in the header line. 1511 1512 For HTML output, headers and footers are completely suppressed. 1513 1514 Additionally, this macro starts a new page; the new line number 1515 is 1 again (except if the `-rC1' option is given on the command 1516 line) - this feature is intended only for formatting multiple man 1517 pages; a single man page should contain exactly one `TH' macro at 1518 the beginning of the file. 1519 1520 -- Macro: .SH [heading] 1521 Set up an unnumbered section heading sticking out to the left. 1522 Prints out all the text following `SH' up to the end of the line 1523 (or the text in the next line if there is no argument to `SH') in 1524 bold face (or the font specified by the string `HF'), one size 1525 larger than the base document size. Additionally, the left margin 1526 and the indentation for the following text is reset to its default 1527 value. 1528 1529 -- Macro: .SS [heading] 1530 Set up an unnumbered (sub)section heading. Prints out all the text 1531 following `SS' up to the end of the line (or the text in the next 1532 line if there is no argument to `SS') in bold face (or the font 1533 specified by the string `HF'), at the same size as the base 1534 document size. Additionally, the left margin and the indentation 1535 for the following text is reset to its default value. 1536 1537 -- Macro: .TP [nnn] 1538 Set up an indented paragraph with label. The indentation is set to 1539 NNN if that argument is supplied (the default unit is `n' if 1540 omitted), otherwise it is set to the previous indentation value 1541 specified with `TP', `IP', or `HP' (or to the default value if 1542 none of them have been used yet). 1543 1544 The first line of text following this macro is interpreted as a 1545 string to be printed flush-left, as it is appropriate for a label. 1546 It is not interpreted as part of a paragraph, so there is no 1547 attempt to fill the first line with text from the following input 1548 lines. Nevertheless, if the label is not as wide as the 1549 indentation the paragraph starts at the same line (but indented), 1550 continuing on the following lines. If the label is wider than the 1551 indentation the descriptive part of the paragraph begins on the 1552 line following the label, entirely indented. Note that neither 1553 font shape nor font size of the label is set to a default value; 1554 on the other hand, the rest of the text has default font settings. 1555 1556 -- Macro: .LP 1557 -- Macro: .PP 1558 -- Macro: .P 1559 These macros are mutual aliases. Any of them causes a line break 1560 at the current position, followed by a vertical space downwards by 1561 the amount specified by the `PD' macro. The font size and shape 1562 are reset to the default value (10pt roman if no `-rS' option is 1563 given on the command line). Finally, the current left margin and 1564 the indentation is restored. 1565 1566 -- Macro: .IP [designator [nnn]] 1567 Set up an indented paragraph, using DESIGNATOR as a tag to mark 1568 its beginning. The indentation is set to NNN if that argument is 1569 supplied (default unit is `n'), otherwise it is set to the 1570 previous indentation value specified with `TP', `IP', or `HP' (or 1571 the default value if none of them have been used yet). Font size 1572 and face of the paragraph (but not the designator) are reset to 1573 their default values. 1574 1575 To start an indented paragraph with a particular indentation but 1576 without a designator, use `""' (two double quotes) as the first 1577 argument of `IP'. 1578 1579 For example, to start a paragraph with bullets as the designator 1580 and 4 en indentation, write 1581 1582 1583 .IP \(bu 4 1584 1585 1586 -- Macro: .HP [nnn] 1587 Set up a paragraph with hanging left indentation. The indentation 1588 is set to NNN if that argument is supplied (default unit is `n'), 1589 otherwise it is set to the previous indentation value specified 1590 with `TP', `IP', or `HP' (or the default value if non of them have 1591 been used yet). Font size and face are reset to their default 1592 values. 1593 1594 -- Macro: .RS [nnn] 1595 Move the left margin to the right by the value NNN if specified 1596 (default unit is `n'); otherwise it is set to the previous 1597 indentation value specified with `TP', `IP', or `HP' (or to the 1598 default value if none of them have been used yet). The 1599 indentation value is then set to the default. 1600 1601 Calls to the `RS' macro can be nested. 1602 1603 -- Macro: .RE [nnn] 1604 Move the left margin back to level NNN, restoring the previous left 1605 margin. If no argument is given, it moves one level back. The 1606 first level (i.e., no call to `RS' yet) has number 1, and each call 1607 to `RS' increases the level by 1. 1608 1609 To summarize, the following macros cause a line break with the 1610insertion of vertical space (which amount can be changed with the `PD' 1611macro): `SH', `SS', `TP', `LP' (`PP', `P'), `IP', and `HP'. 1612 1613 The macros `RS' and `RE' also cause a break but do not insert 1614vertical space. 1615 1616 Finally, the macros `SH', `SS', `LP' (`PP', `P'), and `RS' reset the 1617indentation to its default value. 1618 1619 1620File: groff, Node: Man font macros, Next: Miscellaneous man macros, Prev: Man usage, Up: man 1621 16224.1.3 Macros to set fonts 1623------------------------- 1624 1625The standard font is roman; the default text size is 10 point. If 1626command line option `-rS=N' is given, use Npt as the default text size. 1627 1628 -- Macro: .SM [text] 1629 Set the text on the same line or the text on the next line in a 1630 font that is one point size smaller than the default font. 1631 1632 -- Macro: .SB [text] 1633 Set the text on the same line or the text on the next line in bold 1634 face font, one point size smaller than the default font. 1635 1636 -- Macro: .BI text 1637 Set its arguments alternately in bold face and italic, without a 1638 space between the arguments. Thus, 1639 1640 1641 .BI this "word and" that 1642 1643 produces "thisword andthat" with "this" and "that" in bold face, 1644 and "word and" in italics. 1645 1646 -- Macro: .IB text 1647 Set its arguments alternately in italic and bold face, without a 1648 space between the arguments. 1649 1650 -- Macro: .RI text 1651 Set its arguments alternately in roman and italic, without a space 1652 between the arguments. 1653 1654 -- Macro: .IR text 1655 Set its arguments alternately in italic and roman, without a space 1656 between the arguments. 1657 1658 -- Macro: .BR text 1659 Set its arguments alternately in bold face and roman, without a 1660 space between the arguments. 1661 1662 -- Macro: .RB text 1663 Set its arguments alternately in roman and bold face, without a 1664 space between the arguments. 1665 1666 -- Macro: .B [text] 1667 Set TEXT in bold face. If no text is present on the line where 1668 the macro is called, then the text of the next line appears in bold 1669 face. 1670 1671 -- Macro: .I [text] 1672 Set TEXT in italic. If no text is present on the line where the 1673 macro is called, then the text of the next line appears in italic. 1674 1675 1676File: groff, Node: Miscellaneous man macros, Next: Predefined man strings, Prev: Man font macros, Up: man 1677 16784.1.4 Miscellaneous macros 1679-------------------------- 1680 1681The default indentation is 7.2n in troff mode and 7n in nroff mode 1682except for `grohtml' which ignores indentation. 1683 1684 -- Macro: .DT 1685 Set tabs every 0.5 inches. Since this macro is always executed 1686 during a call to the `TH' macro, it makes sense to call it only if 1687 the tab positions have been changed. 1688 1689 -- Macro: .PD [nnn] 1690 Adjust the empty space before a new paragraph (or section). The 1691 optional argument gives the amount of space (default unit is `v'); 1692 without parameter, the value is reset to its default value (1 line 1693 in nroff mode, 0.4v otherwise). 1694 1695 This affects the macros `SH', `SS', `TP', `LP' (as well as `PP' 1696 and `P'), `IP', and `HP'. 1697 1698 The following two macros are included for BSD compatibility. 1699 1700 -- Macro: .AT [system [release]] 1701 Alter the footer for use with AT&T manpages. This command exists 1702 only for compatibility; don't use it. The first argument SYSTEM 1703 can be: 1704 1705 `3' 1706 7th Edition (the default) 1707 1708 `4' 1709 System III 1710 1711 `5' 1712 System V 1713 1714 An optional second argument RELEASE to `AT' specifies the release 1715 number (such as "System V Release 3"). 1716 1717 -- Macro: .UC [version] 1718 Alters the footer for use with BSD manpages. This command exists 1719 only for compatibility; don't use it. The argument can be: 1720 1721 `3' 1722 3rd Berkeley Distribution (the default) 1723 1724 `4' 1725 4th Berkeley Distribution 1726 1727 `5' 1728 4.2 Berkeley Distribution 1729 1730 `6' 1731 4.3 Berkeley Distribution 1732 1733 `7' 1734 4.4 Berkeley Distribution 1735 1736 1737File: groff, Node: Predefined man strings, Next: Preprocessors in man pages, Prev: Miscellaneous man macros, Up: man 1738 17394.1.5 Predefined strings 1740------------------------ 1741 1742The following strings are defined: 1743 1744 -- String: \*[S] 1745 Switch back to the default font size. 1746 1747 -- String: \*[HF] 1748 The typeface used for headings. The default is `B'. 1749 1750 -- String: \*[R] 1751 The `registered' sign. 1752 1753 -- String: \*[Tm] 1754 The `trademark' sign. 1755 1756 -- String: \*[lq] 1757 -- String: \*[rq] 1758 Left and right quote. This is equal to `\(lq' and `\(rq', 1759 respectively. 1760 1761 1762File: groff, Node: Preprocessors in man pages, Next: Optional man extensions, Prev: Predefined man strings, Up: man 1763 17644.1.6 Preprocessors in `man' pages 1765---------------------------------- 1766 1767If a preprocessor like `gtbl' or `geqn' is needed, it has become common 1768usage to make the first line of the man page look like this: 1769 1770 1771 '\" WORD 1772 1773Note the single space character after the double quote. WORD consists 1774of letters for the needed preprocessors: `e' for `geqn', `r' for 1775`grefer', `t' for `gtbl'. Modern implementations of the `man' program 1776read this first line and automatically call the right preprocessor(s). 1777 1778 1779File: groff, Node: Optional man extensions, Prev: Preprocessors in man pages, Up: man 1780 17814.1.7 Optional `man' extensions 1782------------------------------- 1783 1784Use the file `man.local' for local extensions to the `man' macros or 1785for style changes. 1786 1787Custom headers and footers 1788.......................... 1789 1790In groff versions 1.18.2 and later, you can specify custom headers and 1791footers by redefining the following macros in `man.local'. 1792 1793 -- Macro: .PT 1794 Control the content of the headers. Normally, the header prints 1795 the command name and section number on either side, and the 1796 optional fifth argument to `TH' in the center. 1797 1798 -- Macro: .BT 1799 Control the content of the footers. Normally, the footer prints 1800 the page number and the third and fourth arguments to `TH'. 1801 1802 Use the `FT' number register to specify the footer position. The 1803 default is -0.5i. 1804 1805Ultrix-specific man macros 1806.......................... 1807 1808The `groff' source distribution includes a file named `man.ultrix', 1809containing macros compatible with the Ultrix variant of `man'. Copy 1810this file into `man.local' (or use the `mso' request to load it) to 1811enable the following macros. 1812 1813 -- Macro: .CT key 1814 Print `<CTRL/KEY>'. 1815 1816 -- Macro: .CW 1817 Print subsequent text using the constant width (Courier) typeface. 1818 1819 -- Macro: .Ds 1820 Begin a non-filled display. 1821 1822 -- Macro: .De 1823 End a non-filled display started with `Ds'. 1824 1825 -- Macro: .EX [indent] 1826 Begins a non-filled display using the constant width (Courier) 1827 typeface. Use the optional INDENT argument to indent the display. 1828 1829 -- Macro: .EE 1830 End a non-filled display started with `EX'. 1831 1832 -- Macro: .G [text] 1833 Sets TEXT in Helvetica. If no text is present on the line where 1834 the macro is called, then the text of the next line appears in 1835 Helvetica. 1836 1837 -- Macro: .GL [text] 1838 Sets TEXT in Helvetica Oblique. If no text is present on the line 1839 where the macro is called, then the text of the next line appears 1840 in Helvetica Oblique. 1841 1842 -- Macro: .HB [text] 1843 Sets TEXT in Helvetica Bold. If no text is present on the line 1844 where the macro is called, then all text up to the next `HB' 1845 appears in Helvetica Bold. 1846 1847 -- Macro: .TB [text] 1848 Identical to `HB'. 1849 1850 -- Macro: .MS title sect [punct] 1851 Set a manpage reference in Ultrix format. The TITLE is in Courier 1852 instead of italic. Optional punctuation follows the section 1853 number without an intervening space. 1854 1855 -- Macro: .NT [`C'] [title] 1856 Begin a note. Print the optional title, or the word "Note", 1857 centered on the page. Text following the macro makes up the body 1858 of the note, and is indented on both sides. If the first argument 1859 is `C', the body of the note is printed centered (the second 1860 argument replaces the word "Note" if specified). 1861 1862 -- Macro: .NE 1863 End a note begun with `NT'. 1864 1865 -- Macro: .PN path [punct] 1866 Set the path name in constant width (Courier), followed by 1867 optional punctuation. 1868 1869 -- Macro: .Pn [punct] path [punct] 1870 When called with two arguments, identical to `PN'. When called 1871 with three arguments, set the second argument in constant width 1872 (Courier), bracketed by the first and third arguments in the 1873 current font. 1874 1875 -- Macro: .R 1876 Switch to roman font and turn off any underlining in effect. 1877 1878 -- Macro: .RN 1879 Print the string `<RETURN>'. 1880 1881 -- Macro: .VS [`4'] 1882 Start printing a change bar in the margin if the number `4' is 1883 specified. Otherwise, this macro does nothing. 1884 1885 -- Macro: .VE 1886 End printing the change bar begun by `VS'. 1887 1888Simple example 1889.............. 1890 1891The following example `man.local' file alters the `SH' macro to add 1892some extra vertical space before printing the heading. Headings are 1893printed in Helvetica Bold. 1894 1895 1896 .\" Make the heading fonts Helvetica 1897 .ds HF HB 1898 . 1899 .\" Put more whitespace in front of headings. 1900 .rn SH SH-orig 1901 .de SH 1902 . if t .sp (u;\\n[PD]*2) 1903 . SH-orig \\$* 1904 .. 1905 1906 1907File: groff, Node: mdoc, Next: ms, Prev: man, Up: Macro Packages 1908 19094.2 `mdoc' 1910========== 1911 1912See the `groff_mdoc(7)' man page (type `man groff_mdoc' at the command 1913line). 1914 1915 1916File: groff, Node: ms, Next: me, Prev: mdoc, Up: Macro Packages 1917 19184.3 `ms' 1919======== 1920 1921The `-ms' macros are suitable for reports, letters, books, user 1922manuals, and so forth. The package provides macros for cover pages, 1923section headings, paragraphs, lists, footnotes, pagination, and a table 1924of contents. 1925 1926* Menu: 1927 1928* ms Intro:: 1929* General ms Structure:: 1930* ms Document Control Registers:: 1931* ms Cover Page Macros:: 1932* ms Body Text:: 1933* ms Page Layout:: 1934* Differences from AT&T ms:: 1935* Naming Conventions:: 1936 1937 1938File: groff, Node: ms Intro, Next: General ms Structure, Prev: ms, Up: ms 1939 19404.3.1 Introduction to `ms' 1941-------------------------- 1942 1943The original `-ms' macros were included with AT&T `troff' as well as 1944the `man' macros. While the `man' package is intended for brief 1945documents that can be read on-line as well as printed, the `ms' macros 1946are suitable for longer documents that are meant to be printed rather 1947than read on-line. 1948 1949 The `ms' macro package included with `groff' is a complete, 1950bottom-up re-implementation. Several macros (specific to AT&T or 1951Berkeley) are not included, while several new commands are. *Note 1952Differences from AT&T ms::, for more information. 1953 1954 1955File: groff, Node: General ms Structure, Next: ms Document Control Registers, Prev: ms Intro, Up: ms 1956 19574.3.2 General structure of an `ms' document 1958------------------------------------------- 1959 1960The `ms' macro package expects a certain amount of structure, but not 1961as much as packages such as `man' or `mdoc'. 1962 1963 The simplest documents can begin with a paragraph macro (such as 1964`LP' or `PP'), and consist of text separated by paragraph macros or 1965even blank lines. Longer documents have a structure as follows: 1966 1967*Document type* 1968 If you invoke the `RP' (report) macro on the first line of the 1969 document, `groff' prints the cover page information on its own 1970 page; otherwise it prints the information on the first page with 1971 your document text immediately following. Other document formats 1972 found in AT&T `troff' are specific to AT&T or Berkeley, and are 1973 not supported in `groff'. 1974 1975*Format and layout* 1976 By setting number registers, you can change your document's type 1977 (font and size), margins, spacing, headers and footers, and 1978 footnotes. *Note ms Document Control Registers::, for more 1979 details. 1980 1981*Cover page* 1982 A cover page consists of a title, the author's name and 1983 institution, an abstract, and the date.(1) (*note General ms 1984 Structure-Footnote-1::) *Note ms Cover Page Macros::, for more 1985 details. 1986 1987*Body* 1988 Following the cover page is your document. You can use the `ms' 1989 macros to write reports, letters, books, and so forth. The 1990 package is designed for structured documents, consisting of 1991 paragraphs interspersed with headings and augmented by lists, 1992 footnotes, tables, and other common constructs. *Note ms Body 1993 Text::, for more details. 1994 1995*Table of contents* 1996 Longer documents usually include a table of contents, which you can 1997 invoke by placing the `TC' macro at the end of your document. The 1998 `ms' macros have minimal indexing facilities, consisting of the 1999 `IX' macro, which prints an entry on standard error. Printing the 2000 table of contents at the end is necessary since `groff' is a 2001 single-pass text formatter, thus it cannot determine the page 2002 number of each section until that section has actually been set 2003 and printed. Since `ms' output is intended for hardcopy, you can 2004 manually relocate the pages containing the table of contents 2005 between the cover page and the body text after printing. 2006 2007 2008File: groff, Node: General ms Structure-Footnotes, Up: General ms Structure 2009 2010 (1) Actually, only the title is required. 2011 2012 2013File: groff, Node: ms Document Control Registers, Next: ms Cover Page Macros, Prev: General ms Structure, Up: ms 2014 20154.3.3 Document control registers 2016-------------------------------- 2017 2018The following is a list of document control number registers. For the 2019sake of consistency, set registers related to margins at the beginning 2020of your document, or just after the `RP' macro. You can set other 2021registers later in your document, but you should keep them together at 2022the beginning to make them easy to find and edit as necessary. 2023 2024Margin Settings 2025............... 2026 2027 -- Register: \n[PO] 2028 Defines the page offset (i.e., the left margin). There is no 2029 explicit right margin setting; the combination of the `PO' and `LL' 2030 registers implicitly define the right margin width. 2031 2032 Effective: next page. 2033 2034 Default value: 1i. 2035 2036 -- Register: \n[LL] 2037 Defines the line length (i.e., the width of the body text). 2038 2039 Effective: next paragraph. 2040 2041 Default: 6i. 2042 2043 -- Register: \n[LT] 2044 Defines the title length (i.e., the header and footer width). This 2045 is usually the same as `LL', but not necessarily. 2046 2047 Effective: next paragraph. 2048 2049 Default: 6i. 2050 2051 -- Register: \n[HM] 2052 Defines the header margin height at the top of the page. 2053 2054 Effective: next page. 2055 2056 Default: 1i. 2057 2058 -- Register: \n[FM] 2059 Defines the footer margin height at the bottom of the page. 2060 2061 Effective: next page. 2062 2063 Default: 1i. 2064 2065Text Settings 2066............. 2067 2068 -- Register: \n[PS] 2069 Defines the point size of the body text. If the value is larger 2070 than or equal to 1000, divide it by 1000 to get a fractional point 2071 size. For example, `.nr PS 10250' sets the document's point size 2072 to 10.25p. 2073 2074 Effective: next paragraph. 2075 2076 Default: 10p. 2077 2078 -- Register: \n[VS] 2079 Defines the space between lines (line height plus leading). If the 2080 value is larger than or equal to 1000, divide it by 1000 to get a 2081 fractional point size. Due to backwards compatibility, `VS' must 2082 be smaller than 40000 (this is 40.0p). 2083 2084 Effective: next paragraph. 2085 2086 Default: 12p. 2087 2088 -- Register: \n[PSINCR] 2089 Defines an increment in point size, which will be applied to 2090 section headings at nesting levels below the value specified in 2091 `GROWPS'. The value of `PSINCR' should be specified in points, 2092 with the p scaling factor, and may include a fractional component; 2093 for example, `.nr PSINCR 1.5p' sets a point size increment of 1.5p. 2094 2095 Effective: next section heading. 2096 2097 Default: 1p. 2098 2099 -- Register: \n[GROWPS] 2100 Defines the heading level below which the point size increment set 2101 by `PSINCR' becomes effective. Section headings at and above the 2102 level specified by `GROWPS' will be printed at the point size set 2103 by `PS'; for each level below the value of `GROWPS', the point 2104 size will be increased in steps equal to the value of `PSINCR'. 2105 Setting `GROWPS' to any value less than 2 disables the incremental 2106 heading size feature. 2107 2108 Effective: next section heading. 2109 2110 Default: 0. 2111 2112 -- Register: \n[HY] 2113 Defines the hyphenation level. `HY' sets safely the value of the 2114 low-level `hy' register. Setting the value of `HY' to 0 is 2115 equivalent to using the `nh' request. 2116 2117 Effective: next paragraph. 2118 2119 Default: 14. 2120 2121 -- Register: \n[FAM] 2122 Defines the font family used to typeset the document. 2123 2124 Effective: next paragraph. 2125 2126 Default: as defined in the output device. 2127 2128Paragraph Settings 2129.................. 2130 2131 -- Register: \n[PI] 2132 Defines the initial indentation of a (`PP' macro) paragraph. 2133 2134 Effective: next paragraph. 2135 2136 Default: 5n. 2137 2138 -- Register: \n[PD] 2139 Defines the space between paragraphs. 2140 2141 Effective: next paragraph. 2142 2143 Default: 0.3v. 2144 2145 -- Register: \n[QI] 2146 Defines the indentation on both sides of a quoted (`QP' macro) 2147 paragraph. 2148 2149 Effective: next paragraph. 2150 2151 Default: 5n. 2152 2153 -- Register: \n[PORPHANS] 2154 Defines the minimum number of initial lines of any paragraph which 2155 should be kept together, to avoid orphan lines at the bottom of a 2156 page. If a new paragraph is started close to the bottom of a page, 2157 and there is insufficient space to accommodate `PORPHANS' lines 2158 before an automatic page break, then the page break will be forced, 2159 before the start of the paragraph. 2160 2161 Effective: next paragraph. 2162 2163 Default: 1. 2164 2165 -- Register: \n[HORPHANS] 2166 Defines the minimum number of lines of the following paragraph 2167 which should be kept together with any section heading introduced 2168 by the `NH' or `SH' macros. If a section heading is placed close 2169 to the bottom of a page, and there is insufficient space to 2170 accommodate both the heading and at least `HORPHANS' lines of the 2171 following paragraph, before an automatic page break, then the page 2172 break will be forced before the heading. 2173 2174 Effective: next paragraph. 2175 2176 Default: 1. 2177 2178Footnote Settings 2179................. 2180 2181 -- Register: \n[FL] 2182 Defines the length of a footnote. 2183 2184 Effective: next footnote. 2185 2186 Default: `\n[LL]' * 5 / 6. 2187 2188 -- Register: \n[FI] 2189 Defines the footnote indentation. 2190 2191 Effective: next footnote. 2192 2193 Default: 2n. 2194 2195 -- Register: \n[FF] 2196 The footnote format: 2197 `0' 2198 Print the footnote number as a superscript; indent the 2199 footnote (default). 2200 2201 `1' 2202 Print the number followed by a period (like 1.) and indent the 2203 footnote. 2204 2205 `2' 2206 Like 1, without an indentation. 2207 2208 `3' 2209 Like 1, but print the footnote number as a hanging paragraph. 2210 2211 Effective: next footnote. 2212 2213 Default: 0. 2214 2215 -- Register: \n[FPS] 2216 Defines the footnote point size. If the value is larger than or 2217 equal to 1000, divide it by 1000 to get a fractional point size. 2218 2219 Effective: next footnote. 2220 2221 Default: `\n[PS]' - 2. 2222 2223 -- Register: \n[FVS] 2224 Defines the footnote vertical spacing. If the value is larger 2225 than or equal to 1000, divide it by 1000 to get a fractional point 2226 size. 2227 2228 Effective: next footnote. 2229 2230 Default: `\n[FPS]' + 2. 2231 2232 -- Register: \n[FPD] 2233 Defines the footnote paragraph spacing. 2234 2235 Effective: next footnote. 2236 2237 Default: `\n[PD]' / 2. 2238 2239Miscellaneous Number Registers 2240.............................. 2241 2242 -- Register: \n[MINGW] 2243 Defines the minimum width between columns in a multi-column 2244 document. 2245 2246 Effective: next page. 2247 2248 Default: 2n. 2249 2250 2251File: groff, Node: ms Cover Page Macros, Next: ms Body Text, Prev: ms Document Control Registers, Up: ms 2252 22534.3.4 Cover page macros 2254----------------------- 2255 2256Use the following macros to create a cover page for your document in 2257the order shown. 2258 2259 -- Macro: .RP [`no'] 2260 Specifies the report format for your document. The report format 2261 creates a separate cover page. The default action (no `RP' macro) 2262 is to print a subset of the cover page on page 1 of your document. 2263 2264 If you use the word `no' as an optional argument, `groff' prints a 2265 title page but does not repeat any of the title page information 2266 (title, author, abstract, etc.) on page 1 of the document. 2267 2268 -- Macro: .P1 2269 (P-one) Prints the header on page 1. The default is to suppress 2270 the header. 2271 2272 -- Macro: .DA [...] 2273 (optional) Prints the current date, or the arguments to the macro 2274 if any, on the title page (if specified) and in the footers. This 2275 is the default for `nroff'. 2276 2277 -- Macro: .ND [...] 2278 (optional) Prints the current date, or the arguments to the macro 2279 if any, on the title page (if specified) but not in the footers. 2280 This is the default for `troff'. 2281 2282 -- Macro: .TL 2283 Specifies the document title. `groff' collects text following the 2284 `TL' macro into the title, until reaching the author name or 2285 abstract. 2286 2287 -- Macro: .AU 2288 Specifies the author's name, which appears on the line (or lines) 2289 immediately following. You can specify multiple authors as 2290 follows: 2291 2292 2293 .AU 2294 John Doe 2295 .AI 2296 University of West Bumblefuzz 2297 .AU 2298 Martha Buck 2299 .AI 2300 Monolithic Corporation 2301 2302 ... 2303 2304 2305 -- Macro: .AI 2306 Specifies the author's institution. You can specify multiple 2307 institutions in the same way that you specify multiple authors. 2308 2309 -- Macro: .AB [`no'] 2310 Begins the abstract. The default is to print the word ABSTRACT, 2311 centered and in italics, above the text of the abstract. The word 2312 `no' as an optional argument suppresses this heading. 2313 2314 -- Macro: .AE 2315 Ends the abstract. 2316 2317 The following is example mark-up for a title page. 2318 2319 2320 .RP 2321 .TL 2322 The Inevitability of Code Bloat 2323 in Commercial and Free Software 2324 .AU 2325 J. Random Luser 2326 .AI 2327 University of West Bumblefuzz 2328 .AB 2329 This report examines the long-term growth 2330 of the code bases in two large, popular software 2331 packages; the free Emacs and the commercial 2332 Microsoft Word. 2333 While differences appear in the type or order 2334 of features added, due to the different 2335 methodologies used, the results are the same 2336 in the end. 2337 .PP 2338 The free software approach is shown to be 2339 superior in that while free software can 2340 become as bloated as commercial offerings, 2341 free software tends to have fewer serious 2342 bugs and the added features are in line with 2343 user demand. 2344 .AE 2345 2346 ... the rest of the paper follows ... 2347 2348 2349File: groff, Node: ms Body Text, Next: ms Page Layout, Prev: ms Cover Page Macros, Up: ms 2350 23514.3.5 Body text 2352--------------- 2353 2354This section describes macros used to mark up the body of your 2355document. Examples include paragraphs, sections, and other groups. 2356 2357* Menu: 2358 2359* Paragraphs in ms:: 2360* Headings in ms:: 2361* Highlighting in ms:: 2362* Lists in ms:: 2363* Indentation values in ms:: 2364* Tabstops in ms:: 2365* ms Displays and Keeps:: 2366* ms Insertions:: 2367* Example multi-page table:: 2368* ms Footnotes:: 2369 2370 2371File: groff, Node: Paragraphs in ms, Next: Headings in ms, Prev: ms Body Text, Up: ms Body Text 2372 23734.3.5.1 Paragraphs 2374.................. 2375 2376The following paragraph types are available. 2377 2378 -- Macro: .PP 2379 -- Macro: .LP 2380 Sets a paragraph with an initial indentation. 2381 2382 -- Macro: .QP 2383 Sets a paragraph that is indented at both left and right margins. 2384 The effect is identical to the HTML `<BLOCKQUOTE>' element. The 2385 next paragraph or heading returns margins to normal. 2386 2387 -- Macro: .XP 2388 Sets a paragraph whose lines are indented, except for the first 2389 line. This is a Berkeley extension. 2390 2391 The following markup uses all four paragraph macros. 2392 2393 2394 .NH 2 2395 Cases used in the study 2396 .LP 2397 The following software and versions were 2398 considered for this report. 2399 .PP 2400 For commercial software, we chose 2401 .B "Microsoft Word for Windows" , 2402 starting with version 1.0 through the 2403 current version (Word 2000). 2404 .PP 2405 For free software, we chose 2406 .B Emacs , 2407 from its first appearance as a standalone 2408 editor through the current version (v20). 2409 See [Bloggs 2002] for details. 2410 .QP 2411 Franklin's Law applied to software: 2412 software expands to outgrow both 2413 RAM and disk space over time. 2414 .LP 2415 Bibliography: 2416 .XP 2417 Bloggs, Joseph R., 2418 .I "Everyone's a Critic" , 2419 Underground Press, March 2002. 2420 A definitive work that answers all questions 2421 and criticisms about the quality and usability of 2422 free software. 2423 2424 The `PORPHANS' register (*note ms Document Control Registers::) 2425operates in conjunction with each of these macros, to inhibit the 2426printing of orphan lines at the bottom of any page. 2427 2428 2429File: groff, Node: Headings in ms, Next: Highlighting in ms, Prev: Paragraphs in ms, Up: ms Body Text 2430 24314.3.5.2 Headings 2432................ 2433 2434Use headings to create a hierarchical structure for your document. The 2435`ms' macros print headings in *bold*, using the same font family and 2436point size as the body text. 2437 2438 The following describes the heading macros: 2439 2440 -- Macro: .NH curr-level 2441 -- Macro: .NH S level0 ... 2442 Numbered heading. The argument is either a numeric argument to 2443 indicate the level of the heading, or the letter `S' followed by 2444 numeric arguments to set the heading level explicitly. 2445 2446 If you specify heading levels out of sequence, such as invoking 2447 `.NH 3' after `.NH 1', `groff' prints a warning on standard error. 2448 2449 -- String: \*[SN] 2450 -- String: \*[SN-DOT] 2451 -- String: \*[SN-NO-DOT] 2452 After invocation of `NH', the assigned section number is made 2453 available in the strings `SN-DOT' (exactly as it appears in the 2454 printed section heading) and `SN-NO-DOT' (with the final period 2455 omitted). The string `SN' is also defined, as an alias for 2456 `SN-DOT'; if preferred, you may redefine it as an alias for 2457 `SN-NO-DOT', by including the initialization 2458 2459 2460 .ds SN-NO-DOT 2461 .als SN SN-NO-DOT 2462 2463 *before* your first use of `NH', or simply 2464 2465 2466 .als SN SN-NO-DOT 2467 2468 *after* your first use of `NH'. 2469 2470 -- Macro: .SH [match-level] 2471 Unnumbered subheading. 2472 2473 The optional MATCH-LEVEL argument is a GNU extension. It is a 2474 number indicating the level of the heading, in a manner analogous 2475 to the CURR-LEVEL argument to `.NH'. Its purpose is to match the 2476 point size, at which the heading is printed, to the size of a 2477 numbered heading at the same level, when the `GROWPS' and `PSINCR' 2478 heading size adjustment mechanism is in effect. *Note ms Document 2479 Control Registers::. 2480 2481 The `HORPHANS' register (*note ms Document Control Registers::) 2482operates in conjunction with the `NH' and `SH' macros, to inhibit the 2483printing of orphaned section headings at the bottom of any page. 2484 2485 2486File: groff, Node: Highlighting in ms, Next: Lists in ms, Prev: Headings in ms, Up: ms Body Text 2487 24884.3.5.3 Highlighting 2489.................... 2490 2491The `ms' macros provide a variety of methods to highlight or emphasize 2492text: 2493 2494 -- Macro: .B [txt [post [pre]]] 2495 Sets its first argument in *bold type*. If you specify a second 2496 argument, `groff' prints it in the previous font after the bold 2497 text, with no intervening space (this allows you to set 2498 punctuation after the highlighted text without highlighting the 2499 punctuation). Similarly, it prints the third argument (if any) in 2500 the previous font *before* the first argument. For example, 2501 2502 2503 .B foo ) ( 2504 2505 prints (*foo*). 2506 2507 If you give this macro no arguments, `groff' prints all text 2508 following in bold until the next highlighting, paragraph, or 2509 heading macro. 2510 2511 -- Macro: .R [txt [post [pre]]] 2512 Sets its first argument in roman (or regular) type. It operates 2513 similarly to the `B' macro otherwise. 2514 2515 -- Macro: .I [txt [post [pre]]] 2516 Sets its first argument in _italic type_. It operates similarly 2517 to the `B' macro otherwise. 2518 2519 -- Macro: .CW [txt [post [pre]]] 2520 Sets its first argument in a `constant width face'. It operates 2521 similarly to the `B' macro otherwise. 2522 2523 -- Macro: .BI [txt [post [pre]]] 2524 Sets its first argument in bold italic type. It operates 2525 similarly to the `B' macro otherwise. 2526 2527 -- Macro: .BX [txt] 2528 Prints its argument and draws a box around it. If you want to box 2529 a string that contains spaces, use a digit-width space (`\0'). 2530 2531 -- Macro: .UL [txt [post]] 2532 Prints its first argument with an underline. If you specify a 2533 second argument, `groff' prints it in the previous font after the 2534 underlined text, with no intervening space. 2535 2536 -- Macro: .LG 2537 Prints all text following in larger type (two points larger than 2538 the current point size) until the next font size, highlighting, 2539 paragraph, or heading macro. You can specify this macro multiple 2540 times to enlarge the point size as needed. 2541 2542 -- Macro: .SM 2543 Prints all text following in smaller type (two points smaller than 2544 the current point size) until the next type size, highlighting, 2545 paragraph, or heading macro. You can specify this macro multiple 2546 times to reduce the point size as needed. 2547 2548 -- Macro: .NL 2549 Prints all text following in the normal point size (that is, the 2550 value of the `PS' register). 2551 2552 -- String: \*[{] 2553 -- String: \*[}] 2554 Text enclosed with `\*{' and `\*}' is printed as a superscript. 2555 2556 2557File: groff, Node: Lists in ms, Next: Indentation values in ms, Prev: Highlighting in ms, Up: ms Body Text 2558 25594.3.5.4 Lists 2560............. 2561 2562The `IP' macro handles duties for all lists. 2563 2564 -- Macro: .IP [marker [width]] 2565 The MARKER is usually a bullet glyph (`\[bu]') for unordered 2566 lists, a number (or auto-incrementing number register) for 2567 numbered lists, or a word or phrase for indented (glossary-style) 2568 lists. 2569 2570 The WIDTH specifies the indentation for the body of each list 2571 item; its default unit is `n'. Once specified, the indentation 2572 remains the same for all list items in the document until specified 2573 again. 2574 2575 The `PORPHANS' register (*note ms Document Control Registers::) 2576 operates in conjunction with the `IP' macro, to inhibit the 2577 printing of orphaned list markers at the bottom of any page. 2578 2579 The following is an example of a bulleted list. 2580 2581 2582 A bulleted list: 2583 .IP \[bu] 2 2584 lawyers 2585 .IP \[bu] 2586 guns 2587 .IP \[bu] 2588 money 2589 2590 Produces: 2591 2592 2593 A bulleted list: 2594 2595 o lawyers 2596 2597 o guns 2598 2599 o money 2600 2601 The following is an example of a numbered list. 2602 2603 2604 .nr step 1 1 2605 A numbered list: 2606 .IP \n[step] 3 2607 lawyers 2608 .IP \n+[step] 2609 guns 2610 .IP \n+[step] 2611 money 2612 2613 Produces: 2614 2615 2616 A numbered list: 2617 2618 1. lawyers 2619 2620 2. guns 2621 2622 3. money 2623 2624 Note the use of the auto-incrementing number register in this 2625example. 2626 2627 The following is an example of a glossary-style list. 2628 2629 2630 A glossary-style list: 2631 .IP lawyers 0.4i 2632 Two or more attorneys. 2633 .IP guns 2634 Firearms, preferably 2635 large-caliber. 2636 .IP money 2637 Gotta pay for those 2638 lawyers and guns! 2639 2640 Produces: 2641 2642 2643 A glossary-style list: 2644 2645 lawyers 2646 Two or more attorneys. 2647 2648 guns Firearms, preferably large-caliber. 2649 2650 money 2651 Gotta pay for those lawyers and guns! 2652 2653 In the last example, the `IP' macro places the definition on the 2654same line as the term if it has enough space; otherwise, it breaks to 2655the next line and starts the definition below the term. This may or 2656may not be the effect you want, especially if some of the definitions 2657break and some do not. The following examples show two possible ways 2658to force a break. 2659 2660 The first workaround uses the `br' request to force a break after 2661printing the term or label. 2662 2663 2664 A glossary-style list: 2665 .IP lawyers 0.4i 2666 Two or more attorneys. 2667 .IP guns 2668 .br 2669 Firearms, preferably large-caliber. 2670 .IP money 2671 Gotta pay for those lawyers and guns! 2672 2673 The second workaround uses the `\p' escape to force the break. Note 2674the space following the escape; this is important. If you omit the 2675space, `groff' prints the first word on the same line as the term or 2676label (if it fits) *then* breaks the line. 2677 2678 2679 A glossary-style list: 2680 .IP lawyers 0.4i 2681 Two or more attorneys. 2682 .IP guns 2683 \p Firearms, preferably large-caliber. 2684 .IP money 2685 Gotta pay for those lawyers and guns! 2686 2687 To set nested lists, use the `RS' and `RE' macros. *Note 2688Indentation values in ms::, for more information. 2689 2690 For example: 2691 2692 2693 .IP \[bu] 2 2694 Lawyers: 2695 .RS 2696 .IP \[bu] 2697 Dewey, 2698 .IP \[bu] 2699 Cheatham, 2700 .IP \[bu] 2701 and Howe. 2702 .RE 2703 .IP \[bu] 2704 Guns 2705 2706 Produces: 2707 2708 2709 o Lawyers: 2710 2711 o Dewey, 2712 2713 o Cheatham, 2714 2715 o and Howe. 2716 2717 o Guns 2718 2719 2720File: groff, Node: Indentation values in ms, Next: Tabstops in ms, Prev: Lists in ms, Up: ms Body Text 2721 27224.3.5.5 Indentation values 2723.......................... 2724 2725In many situations, you may need to indentation a section of text while 2726still wrapping and filling. *Note Lists in ms::, for an example of 2727nested lists. 2728 2729 -- Macro: .RS 2730 -- Macro: .RE 2731 These macros begin and end an indented section. The `PI' register 2732 controls the amount of indentation, allowing the indented text to 2733 line up under hanging and indented paragraphs. 2734 2735 *Note ms Displays and Keeps::, for macros to indentation and turn off 2736filling. 2737 2738 2739File: groff, Node: Tabstops in ms, Next: ms Displays and Keeps, Prev: Indentation values in ms, Up: ms Body Text 2740 27414.3.5.6 Tab Stops 2742................. 2743 2744Use the `ta' request to define tab stops as needed. *Note Tabs and 2745Fields::. 2746 2747 -- Macro: .TA 2748 Use this macro to reset the tab stops to the default for `ms' 2749 (every 5n). You can redefine the `TA' macro to create a different 2750 set of default tab stops. 2751 2752 2753File: groff, Node: ms Displays and Keeps, Next: ms Insertions, Prev: Tabstops in ms, Up: ms Body Text 2754 27554.3.5.7 Displays and keeps 2756.......................... 2757 2758Use displays to show text-based examples or figures (such as code 2759listings). 2760 2761 Displays turn off filling, so lines of code are displayed as-is 2762without inserting `br' requests in between each line. Displays can be 2763"kept" on a single page, or allowed to break across pages. 2764 2765 -- Macro: .DS L 2766 -- Macro: .LD 2767 -- Macro: .DE 2768 Left-justified display. The `.DS L' call generates a page break, 2769 if necessary, to keep the entire display on one page. The `LD' 2770 macro allows the display to break across pages. The `DE' macro 2771 ends the display. 2772 2773 -- Macro: .DS I 2774 -- Macro: .ID 2775 -- Macro: .DE 2776 Indents the display as defined by the `DI' register. The `.DS I' 2777 call generates a page break, if necessary, to keep the entire 2778 display on one page. The `ID' macro allows the display to break 2779 across pages. The `DE' macro ends the display. 2780 2781 -- Macro: .DS B 2782 -- Macro: .BD 2783 -- Macro: .DE 2784 Sets a block-centered display: the entire display is 2785 left-justified, but indented so that the longest line in the 2786 display is centered on the page. The `.DS B' call generates a 2787 page break, if necessary, to keep the entire display on one page. 2788 The `BD' macro allows the display to break across pages. The `DE' 2789 macro ends the display. 2790 2791 -- Macro: .DS C 2792 -- Macro: .CD 2793 -- Macro: .DE 2794 Sets a centered display: each line in the display is centered. The 2795 `.DS C' call generates a page break, if necessary, to keep the 2796 entire display on one page. The `CD' macro allows the display to 2797 break across pages. The `DE' macro ends the display. 2798 2799 -- Macro: .DS R 2800 -- Macro: .RD 2801 -- Macro: .DE 2802 Right-justifies each line in the display. The `.DS R' call 2803 generates a page break, if necessary, to keep the entire display on 2804 one page. The `RD' macro allows the display to break across 2805 pages. The `DE' macro ends the display. 2806 2807 -- Macro: .Ds 2808 -- Macro: .De 2809 These two macros were formerly provided as aliases for `DS' and 2810 `DE', respectively. They have been removed, and should no longer 2811 be used. The original implementations of `DS' and `DE' are 2812 retained, and should be used instead. X11 documents which actually 2813 use `Ds' and `De' always load a specific macro file from the X11 2814 distribution (`macros.t') which provides proper definitions for 2815 the two macros. 2816 2817 On occasion, you may want to "keep" other text together on a page. 2818For example, you may want to keep two paragraphs together, or a 2819paragraph that refers to a table (or list, or other item) immediately 2820following. The `ms' macros provide the `KS' and `KE' macros for this 2821purpose. 2822 2823 -- Macro: .KS 2824 -- Macro: .KE 2825 The `KS' macro begins a block of text to be kept on a single page, 2826 and the `KE' macro ends the block. 2827 2828 -- Macro: .KF 2829 -- Macro: .KE 2830 Specifies a "floating keep"; if the keep cannot fit on the current 2831 page, `groff' holds the contents of the keep and allows text 2832 following the keep (in the source file) to fill in the remainder of 2833 the current page. When the page breaks, whether by an explicit 2834 `bp' request or by reaching the end of the page, `groff' prints 2835 the floating keep at the top of the new page. This is useful for 2836 printing large graphics or tables that do not need to appear 2837 exactly where specified. 2838 2839 You can also use the `ne' request to force a page break if there is 2840not enough vertical space remaining on the page. 2841 2842 Use the following macros to draw a box around a section of text (such 2843as a display). 2844 2845 -- Macro: .B1 2846 -- Macro: .B2 2847 Marks the beginning and ending of text that is to have a box drawn 2848 around it. The `B1' macro begins the box; the `B2' macro ends it. 2849 Text in the box is automatically placed in a diversion (keep). 2850 2851 2852File: groff, Node: ms Insertions, Next: Example multi-page table, Prev: ms Displays and Keeps, Up: ms Body Text 2853 28544.3.5.8 Tables, figures, equations, and references 2855.................................................. 2856 2857The `ms' macros support the standard `groff' preprocessors: `tbl', 2858`pic', `eqn', and `refer'. You mark text meant for preprocessors by 2859enclosing it in pairs of tags as follows. 2860 2861 -- Macro: .TS [`H'] 2862 -- Macro: .TE 2863 Denotes a table, to be processed by the `tbl' preprocessor. The 2864 optional argument `H' to `TS' instructs `groff' to create a 2865 running header with the information up to the `TH' macro. `groff' 2866 prints the header at the beginning of the table; if the table runs 2867 onto another page, `groff' prints the header on the next page as 2868 well. 2869 2870 -- Macro: .PS 2871 -- Macro: .PE 2872 Denotes a graphic, to be processed by the `pic' preprocessor. You 2873 can create a `pic' file by hand, using the AT&T `pic' manual 2874 available on the Web as a reference, or by using a graphics 2875 program such as `xfig'. 2876 2877 -- Macro: .EQ [align] 2878 -- Macro: .EN 2879 Denotes an equation, to be processed by the `eqn' preprocessor. 2880 The optional ALIGN argument can be `C', `L', or `I' to center (the 2881 default), left-justify, or indent the equation. 2882 2883 -- Macro: .[ 2884 -- Macro: .] 2885 Denotes a reference, to be processed by the `refer' preprocessor. 2886 The GNU `refer(1)' man page provides a comprehensive reference to 2887 the preprocessor and the format of the bibliographic database. 2888 2889* Menu: 2890 2891* Example multi-page table:: 2892 2893 2894File: groff, Node: Example multi-page table, Next: ms Footnotes, Prev: ms Insertions, Up: ms Body Text 2895 28964.3.5.9 An example multi-page table 2897................................... 2898 2899The following is an example of how to set up a table that may print 2900across two or more pages. 2901 2902 2903 .TS H 2904 allbox expand; 2905 cb | cb . 2906 Text ...of heading... 2907 _ 2908 .TH 2909 .T& 2910 l | l . 2911 ... the rest of the table follows... 2912 .CW 2913 .TE 2914 2915 2916File: groff, Node: ms Footnotes, Prev: Example multi-page table, Up: ms Body Text 2917 29184.3.5.10 Footnotes 2919.................. 2920 2921The `ms' macro package has a flexible footnote system. You can specify 2922either numbered footnotes or symbolic footnotes (that is, using a 2923marker such as a dagger symbol). 2924 2925 -- String: \*[*] 2926 Specifies the location of a numbered footnote marker in the text. 2927 2928 -- Macro: .FS 2929 -- Macro: .FE 2930 Specifies the text of the footnote. The default action is to 2931 create a numbered footnote; you can create a symbolic footnote by 2932 specifying a "mark" glyph (such as `\[dg]' for the dagger glyph) 2933 in the body text and as an argument to the `FS' macro, followed by 2934 the text of the footnote and the `FE' macro. 2935 2936 You can control how `groff' prints footnote numbers by changing the 2937value of the `FF' register. *Note ms Document Control Registers::. 2938 2939 Footnotes can be safely used within keeps and displays, but you 2940should avoid using numbered footnotes within floating keeps. You can 2941set a second `\**' marker between a `\**' and its corresponding `.FS' 2942entry; as long as each `FS' macro occurs _after_ the corresponding 2943`\**' and the occurrences of `.FS' are in the same order as the 2944corresponding occurrences of `\**'. 2945 2946 2947File: groff, Node: ms Page Layout, Next: Differences from AT&T ms, Prev: ms Body Text, Up: ms 2948 29494.3.6 Page layout 2950----------------- 2951 2952The default output from the `ms' macros provides a minimalist page 2953layout: it prints a single column, with the page number centered at the 2954top of each page. It prints no footers. 2955 2956 You can change the layout by setting the proper number registers and 2957strings. 2958 2959* Menu: 2960 2961* ms Headers and Footers:: 2962* ms Margins:: 2963* ms Multiple Columns:: 2964* ms TOC:: 2965* ms Strings and Special Characters:: 2966 2967 2968File: groff, Node: ms Headers and Footers, Next: ms Margins, Prev: ms Page Layout, Up: ms Page Layout 2969 29704.3.6.1 Headers and footers 2971........................... 2972 2973For documents that do not distinguish between odd and even pages, set 2974the following strings: 2975 2976 -- String: \*[LH] 2977 -- String: \*[CH] 2978 -- String: \*[RH] 2979 Sets the left, center, and right headers. 2980 2981 -- String: \*[LF] 2982 -- String: \*[CF] 2983 -- String: \*[RF] 2984 Sets the left, center, and right footers. 2985 2986 For documents that need different information printed in the even and 2987odd pages, use the following macros: 2988 2989 -- Macro: .OH 'left'center'right' 2990 -- Macro: .EH 'left'center'right' 2991 -- Macro: .OF 'left'center'right' 2992 -- Macro: .EF 'left'center'right' 2993 The `OH' and `EH' macros define headers for the odd and even 2994 pages; the `OF' and `EF' macros define footers for the odd and 2995 even pages. This is more flexible than defining the individual 2996 strings. 2997 2998 You can replace the quote (`'') marks with any character not 2999 appearing in the header or footer text. 3000 3001 3002File: groff, Node: ms Margins, Next: ms Multiple Columns, Prev: ms Headers and Footers, Up: ms Page Layout 3003 30044.3.6.2 Margins 3005............... 3006 3007You control margins using a set of number registers. *Note ms Document 3008Control Registers::, for details. 3009 3010 3011File: groff, Node: ms Multiple Columns, Next: ms TOC, Prev: ms Margins, Up: ms Page Layout 3012 30134.3.6.3 Multiple columns 3014........................ 3015 3016The `ms' macros can set text in as many columns as will reasonably fit 3017on the page. The following macros are available; all of them force a 3018page break if a multi-column mode is already set. However, if the 3019current mode is single-column, starting a multi-column mode does _not_ 3020force a page break. 3021 3022 -- Macro: .1C 3023 Single-column mode. 3024 3025 -- Macro: .2C 3026 Two-column mode. 3027 3028 -- Macro: .MC [width [gutter]] 3029 Multi-column mode. If you specify no arguments, it is equivalent 3030 to the `2C' macro. Otherwise, WIDTH is the width of each column 3031 and GUTTER is the space between columns. The `MINGW' number 3032 register controls the default gutter width. 3033 3034 3035File: groff, Node: ms TOC, Next: ms Strings and Special Characters, Prev: ms Multiple Columns, Up: ms Page Layout 3036 30374.3.6.4 Creating a table of contents 3038.................................... 3039 3040The facilities in the `ms' macro package for creating a table of 3041contents are semi-automated at best. Assuming that you want the table 3042of contents to consist of the document's headings, you need to repeat 3043those headings wrapped in `XS' and `XE' macros. 3044 3045 -- Macro: .XS [page] 3046 -- Macro: .XA [page] 3047 -- Macro: .XE 3048 These macros define a table of contents or an individual entry in 3049 the table of contents, depending on their use. The macros are very 3050 simple; they cannot indent a heading based on its level. The 3051 easiest way to work around this is to add tabs to the table of 3052 contents string. The following is an example: 3053 3054 3055 .NH 1 3056 Introduction 3057 .XS 3058 Introduction 3059 .XE 3060 .LP 3061 ... 3062 .CW 3063 .NH 2 3064 Methodology 3065 .XS 3066 Methodology 3067 .XE 3068 .LP 3069 ... 3070 3071 You can manually create a table of contents by beginning with the 3072 `XS' macro for the first entry, specifying the page number for 3073 that entry as the argument to `XS'. Add subsequent entries using 3074 the `XA' macro, specifying the page number for that entry as the 3075 argument to `XA'. The following is an example: 3076 3077 3078 .XS 1 3079 Introduction 3080 .XA 2 3081 A Brief History of the Universe 3082 .XA 729 3083 Details of Galactic Formation 3084 ... 3085 .XE 3086 3087 3088 -- Macro: .TC [`no'] 3089 Prints the table of contents on a new page, setting the page number 3090 to *i* (Roman lowercase numeral one). You should usually place 3091 this macro at the end of the file, since `groff' is a single-pass 3092 formatter and can only print what has been collected up to the 3093 point that the `TC' macro appears. 3094 3095 The optional argument `no' suppresses printing the title specified 3096 by the string register `TOC'. 3097 3098 -- Macro: .PX [`no'] 3099 Prints the table of contents on a new page, using the current page 3100 numbering sequence. Use this macro to print a manually-generated 3101 table of contents at the beginning of your document. 3102 3103 The optional argument `no' suppresses printing the title specified 3104 by the string register `TOC'. 3105 3106 The `Groff and Friends HOWTO' includes a `sed' script that 3107automatically inserts `XS' and `XE' macro entries after each heading in 3108a document. 3109 3110 Altering the `NH' macro to automatically build the table of contents 3111is perhaps initially more difficult, but would save a great deal of 3112time in the long run if you use `ms' regularly. 3113 3114 3115File: groff, Node: ms Strings and Special Characters, Prev: ms TOC, Up: ms Page Layout 3116 31174.3.6.5 Strings and Special Characters 3118...................................... 3119 3120The `ms' macros provide the following predefined strings. You can 3121change the string definitions to help in creating documents in 3122languages other than English. 3123 3124 -- String: \*[REFERENCES] 3125 Contains the string printed at the beginning of the references 3126 (bibliography) page. The default is `References'. 3127 3128 -- String: \*[ABSTRACT] 3129 Contains the string printed at the beginning of the abstract. The 3130 default is `ABSTRACT'. 3131 3132 -- String: \*[TOC] 3133 Contains the string printed at the beginning of the table of 3134 contents. 3135 3136 -- String: \*[MONTH1] 3137 -- String: \*[MONTH2] 3138 -- String: \*[MONTH3] 3139 -- String: \*[MONTH4] 3140 -- String: \*[MONTH5] 3141 -- String: \*[MONTH6] 3142 -- String: \*[MONTH7] 3143 -- String: \*[MONTH8] 3144 -- String: \*[MONTH9] 3145 -- String: \*[MONTH10] 3146 -- String: \*[MONTH11] 3147 -- String: \*[MONTH12] 3148 Prints the full name of the month in dates. The default is 3149 `January', `February', etc. 3150 3151 The following special characters are available(1) (*note ms Strings 3152and Special Characters-Footnote-1::): 3153 3154 -- String: \*[-] 3155 Prints an em dash. 3156 3157 -- String: \*[Q] 3158 -- String: \*[U] 3159 Prints typographer's quotes in troff, and plain quotes in nroff. 3160 `\*Q' is the left quote and `\*U' is the right quote. 3161 3162 Improved accent marks are available in the `ms' macros. 3163 3164 -- Macro: .AM 3165 Specify this macro at the beginning of your document to enable 3166 extended accent marks and special characters. This is a Berkeley 3167 extension. 3168 3169 To use the accent marks, place them *after* the character being 3170 accented. 3171 3172 Note that groff's native support for accents is superior to the 3173 following definitions. 3174 3175 The following accent marks are available after invoking the `AM' 3176macro: 3177 3178 -- String: \*['] 3179 Acute accent. 3180 3181 -- String: \*[`] 3182 Grave accent. 3183 3184 -- String: \*[^] 3185 Circumflex. 3186 3187 -- String: \*[,] 3188 Cedilla. 3189 3190 -- String: \*[~] 3191 Tilde. 3192 3193 -- String: \*[:] 3194 Umlaut. 3195 3196 -- String: \*[v] 3197 Hacek. 3198 3199 -- String: \*[_] 3200 Macron (overbar). 3201 3202 -- String: \*[.] 3203 Underdot. 3204 3205 -- String: \*[o] 3206 Ring above. 3207 3208 The following are standalone characters available after invoking the 3209`AM' macro: 3210 3211 -- String: \*[?] 3212 Upside-down question mark. 3213 3214 -- String: \*[!] 3215 Upside-down exclamation point. 3216 3217 -- String: \*[8] 3218 German � ligature. 3219 3220 -- String: \*[3] 3221 Yogh. 3222 3223 -- String: \*[Th] 3224 Uppercase thorn. 3225 3226 -- String: \*[th] 3227 Lowercase thorn. 3228 3229 -- String: \*[D-] 3230 Uppercase eth. 3231 3232 -- String: \*[d-] 3233 Lowercase eth. 3234 3235 -- String: \*[q] 3236 Hooked o. 3237 3238 -- String: \*[ae] 3239 Lowercase � ligature. 3240 3241 -- String: \*[Ae] 3242 Uppercase � ligature. 3243 3244 3245File: groff, Node: ms Strings and Special Characters-Footnotes, Up: ms Strings and Special Characters 3246 3247 (1) For an explanation what special characters are see *Note Special 3248Characters::. 3249 3250 3251File: groff, Node: Differences from AT&T ms, Next: Naming Conventions, Prev: ms Page Layout, Up: ms 3252 32534.3.7 Differences from AT&T `ms' 3254-------------------------------- 3255 3256This section lists the (minor) differences between the `groff -ms' 3257macros and AT&T `troff -ms' macros. 3258 3259 * The internals of `groff -ms' differ from the internals of AT&T 3260 `troff -ms'. Documents that depend upon implementation details of 3261 AT&T `troff -ms' may not format properly with `groff -ms'. 3262 3263 * The general error-handling policy of `groff -ms' is to detect and 3264 report errors, rather than silently to ignore them. 3265 3266 * `groff -ms' does not work in compatibility mode (this is, with the 3267 `-C' option). 3268 3269 * There is no special support for typewriter-like devices. 3270 3271 * `groff -ms' does not provide cut marks. 3272 3273 * Multiple line spacing is not supported. Use a larger vertical 3274 spacing instead. 3275 3276 * Some UNIX `ms' documentation says that the `CW' and `GW' number 3277 registers can be used to control the column width and gutter 3278 width, respectively. These number registers are not used in 3279 `groff -ms'. 3280 3281 * Macros that cause a reset (paragraphs, headings, etc.) may change 3282 the indentation. Macros that change the indentation do not 3283 increment or decrement the indentation, but rather set it 3284 absolutely. This can cause problems for documents that define 3285 additional macros of their own. The solution is to use not the 3286 `in' request but instead the `RS' and `RE' macros. 3287 3288 * To make `groff -ms' use the default page offset (which also 3289 specifies the left margin), the `PO' register must stay undefined 3290 until the first `-ms' macro is evaluated. This implies that `PO' 3291 should not be used early in the document, unless it is changed 3292 also: Remember that accessing an undefined register automatically 3293 defines it. 3294 3295 -- Register: \n[GS] 3296 This number register is set to 1 by the `groff -ms' macros, but it 3297 is not used by the `AT&T' `troff -ms' macros. Documents that need 3298 to determine whether they are being formatted with `AT&T' `troff 3299 -ms' or `groff -ms' should use this number register. 3300 3301* Menu: 3302 3303* Missing ms Macros:: 3304* Additional ms Macros:: 3305 3306 3307File: groff, Node: Missing ms Macros, Next: Additional ms Macros, Prev: Differences from AT&T ms, Up: Differences from AT&T ms 3308 33094.3.7.1 `troff' macros not appearing in `groff' 3310............................................... 3311 3312Macros missing from `groff -ms' are cover page macros specific to Bell 3313Labs and Berkeley. The macros known to be missing are: 3314 3315`.TM' 3316 Technical memorandum; a cover sheet style 3317 3318`.IM' 3319 Internal memorandum; a cover sheet style 3320 3321`.MR' 3322 Memo for record; a cover sheet style 3323 3324`.MF' 3325 Memo for file; a cover sheet style 3326 3327`.EG' 3328 Engineer's notes; a cover sheet style 3329 3330`.TR' 3331 Computing Science Tech Report; a cover sheet style 3332 3333`.OK' 3334 Other keywords 3335 3336`.CS' 3337 Cover sheet information 3338 3339`.MH' 3340 A cover sheet macro 3341 3342 3343File: groff, Node: Additional ms Macros, Prev: Missing ms Macros, Up: Differences from AT&T ms 3344 33454.3.7.2 `groff' macros not appearing in AT&T `troff' 3346.................................................... 3347 3348The `groff -ms' macros have a few minor extensions compared to the AT&T 3349`troff -ms' macros. 3350 3351 -- Macro: .AM 3352 Improved accent marks. *Note ms Strings and Special Characters::, 3353 for details. 3354 3355 -- Macro: .DS I 3356 Indented display. The default behavior of AT&T `troff -ms' was to 3357 indent; the `groff' default prints displays flush left with the 3358 body text. 3359 3360 -- Macro: .CW 3361 Print text in `constant width' (Courier) font. 3362 3363 -- Macro: .IX 3364 Indexing term (printed on standard error). You can write a script 3365 to capture and process an index generated in this manner. 3366 3367 The following additional number registers appear in `groff -ms': 3368 3369 -- Register: \n[MINGW] 3370 Specifies a minimum space between columns (for multi-column 3371 output); this takes the place of the `GW' register that was 3372 documented but apparently not implemented in AT&T `troff'. 3373 3374 Several new string registers are available as well. You can change 3375these to handle (for example) the local language. *Note ms Strings and 3376Special Characters::, for details. 3377 3378 3379File: groff, Node: Naming Conventions, Prev: Differences from AT&T ms, Up: ms 3380 33814.3.8 Naming Conventions 3382------------------------ 3383 3384The following conventions are used for names of macros, strings and 3385number registers. External names available to documents that use the 3386`groff -ms' macros contain only uppercase letters and digits. 3387 3388 Internally the macros are divided into modules; naming conventions 3389are as follows: 3390 3391 * Names used only within one module are of the form MODULE`*'NAME. 3392 3393 * Names used outside the module in which they are defined are of the 3394 form MODULE`@'NAME. 3395 3396 * Names associated with a particular environment are of the form 3397 ENVIRONMENT`:'NAME; these are used only within the `par' module. 3398 3399 * NAME does not have a module prefix. 3400 3401 * Constructed names used to implement arrays are of the form 3402 ARRAY`!'INDEX. 3403 3404 Thus the groff ms macros reserve the following names: 3405 3406 * Names containing the characters `*', `@', and `:'. 3407 3408 * Names containing only uppercase letters and digits. 3409 3410 3411File: groff, Node: me, Next: mm, Prev: ms, Up: Macro Packages 3412 34134.4 `me' 3414======== 3415 3416See the `meintro.me' and `meref.me' documents in groff's `doc' 3417directory. 3418 3419 3420File: groff, Node: mm, Prev: me, Up: Macro Packages 3421 34224.5 `mm' 3423======== 3424 3425See the `groff_mm(7)' man page (type `man groff_mm' at the command 3426line). 3427 3428 3429File: groff, Node: gtroff Reference, Next: Preprocessors, Prev: Macro Packages, Up: Top 3430 34315 `gtroff' Reference 3432******************** 3433 3434This chapter covers *all* of the facilities of `gtroff'. Users of 3435macro packages may skip it if not interested in details. 3436 3437* Menu: 3438 3439* Text:: 3440* Measurements:: 3441* Expressions:: 3442* Identifiers:: 3443* Embedded Commands:: 3444* Registers:: 3445* Manipulating Filling and Adjusting:: 3446* Manipulating Hyphenation:: 3447* Manipulating Spacing:: 3448* Tabs and Fields:: 3449* Character Translations:: 3450* Troff and Nroff Mode:: 3451* Line Layout:: 3452* Line Control:: 3453* Page Layout:: 3454* Page Control:: 3455* Fonts and Symbols:: 3456* Sizes:: 3457* Strings:: 3458* Conditionals and Loops:: 3459* Writing Macros:: 3460* Page Motions:: 3461* Drawing Requests:: 3462* Traps:: 3463* Diversions:: 3464* Environments:: 3465* Suppressing output:: 3466* Colors:: 3467* I/O:: 3468* Postprocessor Access:: 3469* Miscellaneous:: 3470* Gtroff Internals:: 3471* Debugging:: 3472* Implementation Differences:: 3473 3474 3475File: groff, Node: Text, Next: Measurements, Prev: gtroff Reference, Up: gtroff Reference 3476 34775.1 Text 3478======== 3479 3480`gtroff' input files contain text with control commands interspersed 3481throughout. But, even without control codes, `gtroff' still does 3482several things with the input text: 3483 3484 * filling and adjusting 3485 3486 * adding additional space after sentences 3487 3488 * hyphenating 3489 3490 * inserting implicit line breaks 3491 3492* Menu: 3493 3494* Filling and Adjusting:: 3495* Hyphenation:: 3496* Sentences:: 3497* Tab Stops:: 3498* Implicit Line Breaks:: 3499* Input Conventions:: 3500* Input Encodings:: 3501 3502 3503File: groff, Node: Filling and Adjusting, Next: Hyphenation, Prev: Text, Up: Text 3504 35055.1.1 Filling and Adjusting 3506--------------------------- 3507 3508When `gtroff' reads text, it collects words from the input and fits as 3509many of them together on one output line as it can. This is known as 3510"filling". 3511 3512 Once `gtroff' has a "filled" line, it tries to "adjust" it. This 3513means it widens the spacing between words until the text reaches the 3514right margin (in the default adjustment mode). Extra spaces between 3515words are preserved, but spaces at the end of lines are ignored. 3516Spaces at the front of a line cause a "break" (breaks are explained in 3517*Note Implicit Line Breaks::). 3518 3519 *Note Manipulating Filling and Adjusting::. 3520 3521 3522File: groff, Node: Hyphenation, Next: Sentences, Prev: Filling and Adjusting, Up: Text 3523 35245.1.2 Hyphenation 3525----------------- 3526 3527Since the odds are not great for finding a set of words, for every 3528output line, which fit nicely on a line without inserting excessive 3529amounts of space between words, `gtroff' hyphenates words so that it 3530can justify lines without inserting too much space between words. It 3531uses an internal hyphenation algorithm (a simplified version of the 3532algorithm used within TeX) to indicate which words can be hyphenated 3533and how to do so. When a word is hyphenated, the first part of the 3534word is added to the current filled line being output (with an attached 3535hyphen), and the other portion is added to the next line to be filled. 3536 3537 *Note Manipulating Hyphenation::. 3538 3539 3540File: groff, Node: Sentences, Next: Tab Stops, Prev: Hyphenation, Up: Text 3541 35425.1.3 Sentences 3543--------------- 3544 3545Although it is often debated, some typesetting rules say there should be 3546different amounts of space after various punctuation marks. For 3547example, the `Chicago typsetting manual' says that a period at the end 3548of a sentence should have twice as much space following it as would a 3549comma or a period as part of an abbreviation. 3550 3551 `gtroff' does this by flagging certain characters (normally `!', 3552`?', and `.') as "end-of-sentence" characters. When `gtroff' 3553encounters one of these characters at the end of a line, it appends a 3554normal space followed by a "sentence space" in the formatted output. 3555(This justifies one of the conventions mentioned in *Note Input 3556Conventions::.) 3557 3558 In addition, the following characters and symbols are treated 3559transparently while handling end-of-sentence characters: `"', `'', `)', 3560`]', `*', `\[dg]', and `\[rq]'. 3561 3562 See the `cflags' request in *Note Using Symbols::, for more details. 3563 3564 To prevent the insertion of extra space after an end-of-sentence 3565character (at the end of a line), append `\&'. 3566 3567 3568File: groff, Node: Tab Stops, Next: Implicit Line Breaks, Prev: Sentences, Up: Text 3569 35705.1.4 Tab Stops 3571--------------- 3572 3573`gtroff' translates "tabulator characters", also called "tabs" 3574(normally code point ASCII `0x09' or EBCDIC `0x05'), in the input into 3575movements to the next tabulator stop. These tab stops are initially 3576located every half inch across the page. Using this, simple tables can 3577be made easily. However, it can often be deceptive as the appearance 3578(and width) of the text on a terminal and the results from `gtroff' can 3579vary greatly. 3580 3581 Also, a possible sticking point is that lines beginning with tab 3582characters are still filled, again producing unexpected results. For 3583example, the following input 3584 3585 1 2 3 3586 4 5 3587 3588produces 3589 3590 1 2 3 4 5 3591 3592 *Note Tabs and Fields::. 3593 3594 3595File: groff, Node: Implicit Line Breaks, Next: Input Conventions, Prev: Tab Stops, Up: Text 3596 35975.1.5 Implicit Line Breaks 3598-------------------------- 3599 3600An important concept in `gtroff' is the "break". When a break occurs, 3601`gtroff' outputs the partially filled line (unjustified), and resumes 3602collecting and filling text on the next output line. 3603 3604 There are several ways to cause a break in `gtroff'. A blank line 3605not only causes a break, but it also outputs a one-line vertical space 3606(effectively a blank line). Note that this behaviour can be modified 3607with the blank line macro request `blm'. *Note Blank Line Traps::. 3608 3609 A line that begins with a space causes a break and the space is 3610output at the beginning of the next line. Note that this space isn't 3611adjusted, even in fill mode. 3612 3613 The end of file also causes a break - otherwise the last line of the 3614document may vanish! 3615 3616 Certain requests also cause breaks, implicitly or explicitly. This 3617is discussed in *Note Manipulating Filling and Adjusting::. 3618 3619 3620File: groff, Node: Input Conventions, Next: Input Encodings, Prev: Implicit Line Breaks, Up: Text 3621 36225.1.6 Input Conventions 3623----------------------- 3624 3625Since `gtroff' does filling automatically, it is traditional in `groff' 3626not to try and type things in as nicely formatted paragraphs. These 3627are some conventions commonly used when typing `gtroff' text: 3628 3629 * Break lines after punctuation, particularly at the end of a 3630 sentence and in other logical places. Keep separate phrases on 3631 lines by themselves, as entire phrases are often added or deleted 3632 when editing. 3633 3634 * Try to keep lines less than 40-60 characters, to allow space for 3635 inserting more text. 3636 3637 * Do not try to do any formatting in a WYSIWYG manner (i.e., don't 3638 try using spaces to get proper indentation). 3639 3640 3641File: groff, Node: Input Encodings, Prev: Input Conventions, Up: Text 3642 36435.1.7 Input Encodings 3644--------------------- 3645 3646Currently, the following input encodings are available. 3647 3648cp1047 3649 This input encoding works only on EBCDIC platforms (and vice 3650 versa, the other input encodings don't work with EBCDIC); the file 3651 `cp1047.tmac' is by default loaded at start-up. 3652 3653latin-1 3654 This is the default input encoding on non-EBCDIC platforms; the 3655 file `latin1.tmac' is loaded at start-up. 3656 3657latin-2 3658 To use this encoding, either say `.mso latin2.tmac' at the very 3659 beginning of your document or use `-mlatin2' as a command line 3660 argument for `groff'. 3661 3662latin-9 (latin-0) 3663 This encoding is intended (at least in Europe) to replace latin-1 3664 encoding. The main difference to latin-1 is that latin-9 contains 3665 the Euro character. To use this encoding, either say 3666 `.mso latin9.tmac' at the very beginning of your document or use 3667 `-mlatin9' as a command line argument for `groff'. 3668 3669 Note that it can happen that some input encoding characters are not 3670available for a particular output device. For example, saying 3671 3672 3673 groff -Tlatin1 -mlatin9 ... 3674 3675will fail if you use the Euro character in the input. Usually, this 3676limitation is present only for devices which have a limited set of 3677output glyphs (e.g. `-Tascii' and `-Tlatin1'); for other devices it is 3678usually sufficient to install proper fonts which contain the necessary 3679glyphs. 3680 3681 Due to the importance of the Euro glyph in Europe, the groff package 3682now comes with a POSTSCRIPT font called `freeeuro.pfa' which provides 3683various glyph shapes for the Euro. With other words, latin-9 encoding 3684is supported for the `-Tps' device out of the box (latin-2 isn't). 3685 3686 By its very nature, `-Tutf8' supports all input encodings; `-Tdvi' 3687has support for both latin-2 and latin-9 if the command line `-mec' is 3688used also to load the file `ec.tmac' (which flips to the EC fonts). 3689 3690 3691File: groff, Node: Measurements, Next: Expressions, Prev: Text, Up: gtroff Reference 3692 36935.2 Measurements 3694================ 3695 3696`gtroff' (like many other programs) requires numeric parameters to 3697specify various measurements. Most numeric parameters(1) (*note 3698Measurements-Footnote-1::) may have a "measurement unit" attached. 3699These units are specified as a single character which immediately 3700follows the number or expression. Each of these units are understood, 3701by `gtroff', to be a multiple of its "basic unit". So, whenever a 3702different measurement unit is specified `gtroff' converts this into its 3703"basic units". This basic unit, represented by a `u', is a device 3704dependent measurement which is quite small, ranging from 1/75th to 37051/72000th of an inch. The values may be given as fractional numbers; 3706however, fractional basic units are always rounded to integers. 3707 3708 Some of the measurement units are completely independent of any of 3709the current settings (e.g. type size) of `gtroff'. 3710 3711`i' 3712 Inches. An antiquated measurement unit still in use in certain 3713 backwards countries with incredibly low-cost computer equipment. 3714 One inch is equal to 2.54cm. 3715 3716`c' 3717 Centimeters. One centimeter is equal to 0.3937in. 3718 3719`p' 3720 Points. This is a typesetter's measurement used for measure type 3721 size. It is 72 points to an inch. 3722 3723`P' 3724 Pica. Another typesetting measurement. 6 Picas to an inch (and 3725 12 points to a pica). 3726 3727`s' 3728`z' 3729 *Note Fractional Type Sizes::, for a discussion of these units. 3730 3731`f' 3732 Fractions. Value is 65536. *Note Colors::, for usage. 3733 3734 The other measurements understood by `gtroff' depend on settings 3735currently in effect in `gtroff'. These are very useful for specifying 3736measurements which should look proper with any size of text. 3737 3738`m' 3739 Ems. This unit is equal to the current font size in points. So 3740 called because it is _approximately_ the width of the letter `m' 3741 in the current font. 3742 3743`n' 3744 Ens. In `groff', this is half of an em. 3745 3746`v' 3747 Vertical space. This is equivalent to the current line spacing. 3748 *Note Sizes::, for more information about this. 3749 3750`M' 3751 100ths of an em. 3752 3753* Menu: 3754 3755* Default Units:: 3756 3757 3758File: groff, Node: Measurements-Footnotes, Up: Measurements 3759 3760 (1) those that specify vertical or horizontal motion or a type size 3761 3762 3763File: groff, Node: Default Units, Prev: Measurements, Up: Measurements 3764 37655.2.1 Default Units 3766------------------- 3767 3768Many requests take a default unit. While this can be helpful at times, 3769it can cause strange errors in some expressions. For example, the line 3770length request expects em units. Here are several attempts to get a 3771line length of 3.5 inches and their results: 3772 3773 3774 3.5i => 3.5i 3775 7/2 => 0i 3776 7/2i => 0i 3777 (7 / 2)u => 0i 3778 7i/2 => 0.1i 3779 7i/2u => 3.5i 3780 3781Everything is converted to basic units first. In the above example it 3782is assumed that 1i equals 240u, and 1m equals 10p (thus 1m equals 33u). 3783The value 7i/2 is first handled as 7i/2m, then converted to 1680u/66u 3784which is 25u, and this is approximately 0.1i. As can be seen, a 3785scaling indicator after a closing parenthesis is simply ignored. 3786 3787 Thus, the safest way to specify measurements is to always attach a 3788scaling indicator. If you want to multiply or divide by a certain 3789scalar value, use `u' as the unit for that value. 3790 3791 3792File: groff, Node: Expressions, Next: Identifiers, Prev: Measurements, Up: gtroff Reference 3793 37945.3 Expressions 3795=============== 3796 3797`gtroff' has most arithmetic operators common to other languages: 3798 3799 * Arithmetic: `+' (addition), `-' (subtraction), `/' (division), `*' 3800 (multiplication), `%' (modulo). 3801 3802 `gtroff' only provides integer arithmetic. The internal type used 3803 for computing results is `int', which is usually a 32bit signed 3804 integer. 3805 3806 * Comparison: `<' (less than), `>' (greater than), `<=' (less than 3807 or equal), `>=' (greater than or equal), `=' (equal), `==' (the 3808 same as `='). 3809 3810 * Logical: `&' (logical and), `:' (logical or). 3811 3812 * Unary operators: `-' (negating, i.e. changing the sign), `+' (just 3813 for completeness; does nothing in expressions), `!' (logical not; 3814 this works only within `if' and `while' requests). See below for 3815 the use of unary operators in motion requests. 3816 3817 * Extrema: `>?' (maximum), `<?' (minimum). 3818 3819 Example: 3820 3821 3822 .nr x 5 3823 .nr y 3 3824 .nr z (\n[x] >? \n[y]) 3825 3826 The register `z' now contains 5. 3827 3828 * Scaling: `(C;E)'. Evaluate E using C as the default scaling 3829 indicator. If C is missing, ignore scaling indicators in the 3830 evaluation of E. 3831 3832 Parentheses may be used as in any other language. However, in 3833`gtroff' they are necessary to ensure order of evaluation. `gtroff' 3834has no operator precedence; expressions are evaluated left to right. 3835This means that `gtroff' evaluates `3+5*4' as if it were parenthesized 3836like `(3+5)*4', not as `3+(5*4)', as might be expected. 3837 3838 For many requests which cause a motion on the page, the unary 3839operators `+' and `-' work differently if leading an expression. They 3840then indicate a motion relative to the current position (down or up, 3841respectively). 3842 3843 Similarly, a leading `|' operator indicates an absolute position. 3844For vertical movements, it specifies the distance from the top of the 3845page; for horizontal movements, it gives the distance from the beginning 3846of the _input_ line. 3847 3848 `+' and `-' are also treated differently by the following requests 3849and escapes: `bp', `in', `ll', `lt', `nm', `nr', `pl', `pn', `po', `ps', 3850`pvs', `rt', `ti', `\H', `\R', and `\s'. Here, leading plus and minus 3851signs indicate increments and decrements. 3852 3853 *Note Setting Registers::, for some examples. 3854 3855 -- Escape: \B'anything' 3856 Return 1 if ANYTHING is a valid numeric expression; or 0 if 3857 ANYTHING is empty or not a valid numeric expression. 3858 3859 Due to the way arguments are parsed, spaces are not allowed in 3860expressions, unless the entire expression is surrounded by parentheses. 3861 3862 *Note Request and Macro Arguments::, and *Note Conditionals and 3863Loops::. 3864 3865 3866File: groff, Node: Identifiers, Next: Embedded Commands, Prev: Expressions, Up: gtroff Reference 3867 38685.4 Identifiers 3869=============== 3870 3871Like any other language, `gtroff' has rules for properly formed 3872"identifiers". In `gtroff', an identifier can be made up of almost any 3873printable character, with the exception of the following characters: 3874 3875 * Whitespace characters (spaces, tabs, and newlines). 3876 3877 * Backspace (ASCII `0x08' or EBCDIC `0x16') and character code 3878 `0x01'. 3879 3880 * The following input characters are invalid and are ignored if 3881 `groff' runs on a machine based on ASCII, causing a warning 3882 message of type `input' (see *Note Debugging::, for more details): 3883 `0x00', `0x0B', `0x0D'-`0x1F', `0x80'-`0x9F'. 3884 3885 And here are the invalid input characters if `groff' runs on an 3886 EBCDIC host: `0x00', `0x08', `0x09', `0x0B', `0x0D'-`0x14', 3887 `0x17'-`0x1F', `0x30'-`0x3F'. 3888 3889 Currently, some of these reserved codepoints are used internally, 3890 thus making it non-trivial to extend `gtroff' to cover Unicode or 3891 other character sets and encodings which use characters of these 3892 ranges. 3893 3894 Note that invalid characters are removed before parsing; an 3895 identifier `foo', followed by an invalid character, followed by 3896 `bar' is treated as `foobar'. 3897 3898 For example, any of the following is valid. 3899 3900 3901 br 3902 PP 3903 (l 3904 end-list 3905 @_ 3906 3907Note that identifiers longer than two characters with a closing bracket 3908(`]') in its name can't be accessed with escape sequences which expect 3909an identifier as a parameter. For example, `\[foo]]' accesses the 3910glyph `foo', followed by `]', whereas `\C'foo]'' really asks for glyph 3911`foo]'. 3912 3913 To avoid problems with the `refer' preprocessor, macro names should 3914not start with `[' or `]'. Due to backwards compatibility, everything 3915after `.[' and `.]' is handled as a special argument to `refer'. For 3916example, `.[foo' makes `refer' to start a reference, using `foo' as a 3917parameter. 3918 3919 -- Escape: \A'ident' 3920 Test whether an identifier IDENT is valid in `gtroff'. It expands 3921 to the character 1 or 0 according to whether its argument (usually 3922 delimited by quotes) is or is not acceptable as the name of a 3923 string, macro, diversion, number register, environment, or font. 3924 It returns 0 if no argument is given. This is useful for looking 3925 up user input in some sort of associative table. 3926 3927 3928 \A'end-list' 3929 => 1 3930 3931 3932 *Note Escapes::, for details on parameter delimiting characters. 3933 3934 Identifiers in `gtroff' can be any length, but, in some contexts, 3935`gtroff' needs to be told where identifiers end and text begins (and in 3936different ways depending on their length): 3937 3938 * Single character. 3939 3940 * Two characters. Must be prefixed with `(' in some situations. 3941 3942 * Arbitrary length (`gtroff' only). Must be bracketed with `[' 3943 and `]' in some situations. Any length identifier can be put in 3944 brackets. 3945 3946 Unlike many other programming languages, undefined identifiers are 3947silently ignored or expanded to nothing. When `gtroff' finds an 3948undefined identifier, it emits a warning, doing the following: 3949 3950 * If the identifier is a string, macro, or diversion, `gtroff' 3951 defines it as empty. 3952 3953 * If the identifier is a number register, `gtroff' defines it with a 3954 value of 0. 3955 3956 *Note Warnings::., *Note Interpolating Registers::, and *Note 3957Strings::. 3958 3959 Note that macros, strings, and diversions share the same name space. 3960 3961 3962 .de xxx 3963 . nop foo 3964 .. 3965 . 3966 .di xxx 3967 bar 3968 .br 3969 .di 3970 . 3971 .xxx 3972 => bar 3973 3974As can be seen in the previous example, `gtroff' reuses the identifier 3975`xxx', changing it from a macro to a diversion. No warning is emitted! 3976The contents of the first macro definition is lost. 3977 3978 *Note Interpolating Registers::, and *Note Strings::. 3979 3980 3981File: groff, Node: Embedded Commands, Next: Registers, Prev: Identifiers, Up: gtroff Reference 3982 39835.5 Embedded Commands 3984===================== 3985 3986Most documents need more functionality beyond filling, adjusting and 3987implicit line breaking. In order to gain further functionality, 3988`gtroff' allows commands to be embedded into the text, in two ways. 3989 3990 The first is a "request" which takes up an entire line, and does 3991some large-scale operation (e.g. break lines, start new pages). 3992 3993 The other is an "escape" which can be usually embedded anywhere in 3994the text; most requests can accept it even as an argument. Escapes 3995generally do more minor operations like sub- and superscripts, print a 3996symbol, etc. 3997 3998* Menu: 3999 4000* Requests:: 4001* Macros:: 4002* Escapes:: 4003 4004 4005File: groff, Node: Requests, Next: Macros, Prev: Embedded Commands, Up: Embedded Commands 4006 40075.5.1 Requests 4008-------------- 4009 4010A request line begins with a control character, which is either a single 4011quote (`'', the "no-break control character") or a period (`.', the 4012normal "control character"). These can be changed; see *Note Character 4013Translations::, for details. After this there may be optional tabs or 4014spaces followed by an identifier which is the name of the request. 4015This may be followed by any number of space-separated arguments (_no_ 4016tabs here). 4017 4018 Since a control character followed by whitespace only is ignored, it 4019is common practice to use this feature for structuring the source code 4020of documents or macro packages. 4021 4022 4023 .de foo 4024 . tm This is foo. 4025 .. 4026 . 4027 . 4028 .de bar 4029 . tm This is bar. 4030 .. 4031 4032 Another possibility is to use the blank line macro request `blm' by 4033assigning an empty macro to it. 4034 4035 4036 .de do-nothing 4037 .. 4038 .blm do-nothing \" activate blank line macro 4039 4040 .de foo 4041 . tm This is foo. 4042 .. 4043 4044 4045 .de bar 4046 . tm This is bar. 4047 .. 4048 4049 .blm \" deactivate blank line macro 4050 4051 *Note Blank Line Traps::. 4052 4053 To begin a line with a control character without it being 4054interpreted, precede it with `\&'. This represents a zero width space, 4055which means it does not affect the output. 4056 4057 In most cases the period is used as a control character. Several 4058requests cause a break implicitly; using the single quote control 4059character prevents this. 4060 4061* Menu: 4062 4063* Request and Macro Arguments:: 4064 4065 4066File: groff, Node: Request and Macro Arguments, Prev: Requests, Up: Requests 4067 40685.5.1.1 Request and Macro Arguments 4069................................... 4070 4071Arguments to requests and macros are processed much like the shell: The 4072line is split into arguments according to spaces.(1) (*note Request and 4073Macro Arguments-Footnote-1::) 4074 4075 An argument to a macro which is intended to contain spaces can 4076either be enclosed in double quotes, or have the spaces "escaped" with 4077backslashes. This is _not_ true for requests. 4078 4079 Here are a few examples for a hypothetical macro `uh': 4080 4081 4082 .uh The Mouse Problem 4083 .uh "The Mouse Problem" 4084 .uh The\ Mouse\ Problem 4085 4086The first line is the `uh' macro being called with 3 arguments, `The', 4087`Mouse', and `Problem'. The latter two have the same effect of calling 4088the `uh' macro with one argument, `The Mouse Problem'.(2) (*note 4089Request and Macro Arguments-Footnote-2::) 4090 4091 A double quote which isn't preceded by a space doesn't start a macro 4092argument. If not closing a string, it is printed literally. 4093 4094 For example, 4095 4096 4097 .xxx a" "b c" "de"fg" 4098 4099has the arguments `a"', `b c', `de', and `fg"'. Don't rely on this 4100obscure behaviour! 4101 4102 There are two possibilities to get a double quote reliably. 4103 4104 * Enclose the whole argument with double quotes and use two 4105 consecutive double quotes to represent a single one. This 4106 traditional solution has the disadvantage that double quotes don't 4107 survive argument expansion again if called in compatibility mode 4108 (using the `-C' option of `groff'): 4109 4110 4111 .de xx 4112 . tm xx: `\\$1' `\\$2' `\\$3' 4113 . 4114 . yy "\\$1" "\\$2" "\\$3" 4115 .. 4116 .de yy 4117 . tm yy: `\\$1' `\\$2' `\\$3' 4118 .. 4119 .xx A "test with ""quotes""" . 4120 => xx: `A' `test with "quotes"' `.' 4121 => yy: `A' `test with ' `quotes""' 4122 4123 If not in compatibility mode, you get the expected result 4124 4125 4126 xx: `A' `test with "quotes"' `.' 4127 yy: `A' `test with "quotes"' `.' 4128 4129 since `gtroff' preserves the input level. 4130 4131 * Use the double quote glyph `\(dq'. This works with and without 4132 compatibility mode enabled since `gtroff' doesn't convert `\(dq' 4133 back to a double quote input character. 4134 4135 Not that this method won't work with UNIX `troff' in general since 4136 the glyph `dq' isn't defined normally. 4137 4138 Double quotes in the `ds' request are handled differently. *Note 4139Strings::, for more details. 4140 4141 4142File: groff, Node: Request and Macro Arguments-Footnotes, Up: Request and Macro Arguments 4143 4144 (1) Plan 9's `troff' implementation also allows tabs for argument 4145separation - `gtroff' intentionally doesn't support this. 4146 4147 (2) The last solution, i.e., using escaped spaces, is "classical" in 4148the sense that it can be found in most `troff' documents. 4149Nevertheless, it is not optimal in all situations, since `\ ' inserts a 4150fixed-width, non-breaking space character which can't stretch. 4151`gtroff' provides a different command `\~' to insert a stretchable, 4152non-breaking space. 4153 4154 4155File: groff, Node: Macros, Next: Escapes, Prev: Requests, Up: Embedded Commands 4156 41575.5.2 Macros 4158------------ 4159 4160`gtroff' has a "macro" facility for defining a series of lines which 4161can be invoked by name. They are called in the same manner as requests 4162- arguments also may be passed basically in the same manner. 4163 4164 *Note Writing Macros::, and *Note Request and Macro Arguments::. 4165 4166 4167File: groff, Node: Escapes, Prev: Macros, Up: Embedded Commands 4168 41695.5.3 Escapes 4170------------- 4171 4172Escapes may occur anywhere in the input to `gtroff'. They usually 4173begin with a backslash and are followed by a single character which 4174indicates the function to be performed. The escape character can be 4175changed; see *Note Character Translations::. 4176 4177 Escape sequences which require an identifier as a parameter accept 4178three possible syntax forms. 4179 4180 * The next single character is the identifier. 4181 4182 * If this single character is an opening parenthesis, take the 4183 following two characters as the identifier. Note that there is no 4184 closing parenthesis after the identifier. 4185 4186 * If this single character is an opening bracket, take all characters 4187 until a closing bracket as the identifier. 4188 4189Examples: 4190 4191 4192 \fB 4193 \n(XX 4194 \*[TeX] 4195 4196 Other escapes may require several arguments and/or some special 4197format. In such cases the argument is traditionally enclosed in single 4198quotes (and quotes are always used in this manual for the definitions 4199of escape sequences). The enclosed text is then processed according to 4200what that escape expects. Example: 4201 4202 4203 \l'1.5i\(bu' 4204 4205 Note that the quote character can be replaced with any other 4206character which does not occur in the argument (even a newline or a 4207space character) in the following escapes: `\o', `\b', and `\X'. This 4208makes e.g. 4209 4210 4211 A caf 4212 \o 4213 e\' 4214 4215 4216 in Paris 4217 => A caf� in Paris 4218 4219possible, but it is better not to use this feature to avoid confusion. 4220 4221 The following escapes sequences (which are handled similarly to 4222characters since they don't take a parameter) are also allowed as 4223delimiters: `\%', `\ ', `\|', `\^', `\{', `\}', `\'', `\`', `\-', `\_', 4224`\!', `\?', `\@', `\)', `\/', `\,', `\&', `\:', `\~', `\0', `\a', `\c', 4225`\d', `\e', `\E', `\p', `\r', `\t', and `\u'. Again, don't use these 4226if possible. 4227 4228 No newline characters as delimiters are allowed in the following 4229escapes: `\A', `\B', `\Z', `\C', and `\w'. 4230 4231 Finally, the escapes `\D', `\h', `\H', `\l', `\L', `\N', `\R', `\s', 4232`\S', `\v', and `\x' can't use the following characters as delimiters: 4233 4234 * The digits `0'-`9'. 4235 4236 * The (single-character) operators `+-/*%<>=&:().'. 4237 4238 * The space, tab, and newline characters. 4239 4240 * All escape sequences except `\%', `\:', `\{', `\}', `\'', `\`', 4241 `\-', `\_', `\!', `\@', `\/', `\c', `\e', and `\p'. 4242 4243 To have a backslash (actually, the current escape character) appear 4244in the output several escapes are defined: `\\', `\e' or `\E'. These 4245are very similar, and only differ with respect to being used in macros 4246or diversions. *Note Character Translations::, for an exact 4247description of those escapes. 4248 4249 *Note Implementation Differences::, *Note Copy-in Mode::, and *Note 4250Diversions::, *Note Identifiers::, for more information. 4251 4252* Menu: 4253 4254* Comments:: 4255 4256 4257File: groff, Node: Comments, Prev: Escapes, Up: Escapes 4258 42595.5.3.1 Comments 4260................ 4261 4262Probably one of the most(1) (*note Comments-Footnote-1::) common forms 4263of escapes is the comment. 4264 4265 -- Escape: \" 4266 Start a comment. Everything to the end of the input line is 4267 ignored. 4268 4269 This may sound simple, but it can be tricky to keep the comments 4270 from interfering with the appearance of the final output. 4271 4272 If the escape is to the right of some text or a request, that 4273 portion of the line is ignored, but the space leading up to it is 4274 noticed by `gtroff'. This only affects the `ds' and `as' request 4275 and its variants. 4276 4277 One possibly irritating idiosyncracy is that tabs must not be used 4278 to line up comments. Tabs are not treated as whitespace between 4279 the request and macro arguments. 4280 4281 A comment on a line by itself is treated as a blank line, because 4282 after eliminating the comment, that is all that remains: 4283 4284 4285 Test 4286 \" comment 4287 Test 4288 4289 produces 4290 4291 4292 Test 4293 4294 Test 4295 4296 To avoid this, it is common to start the line with `.\"' which 4297 causes the line to be treated as an undefined request and thus 4298 ignored completely. 4299 4300 Another commenting scheme seen sometimes is three consecutive 4301 single quotes (`'''') at the beginning of a line. This works, but 4302 `gtroff' gives a warning about an undefined macro (namely `'''), 4303 which is harmless, but irritating. 4304 4305 -- Escape: \# 4306 To avoid all this, `gtroff' has a new comment mechanism using the 4307 `\#' escape. This escape works the same as `\"' except that the 4308 newline is also ignored: 4309 4310 4311 Test 4312 \# comment 4313 Test 4314 4315 produces 4316 4317 4318 Test Test 4319 4320 as expected. 4321 4322 -- Request: .ig [end] 4323 Ignore all input until `gtroff' encounters the macro named `.'END 4324 on a line by itself (or `..' if END is not specified). This is 4325 useful for commenting out large blocks of text: 4326 4327 4328 text text text... 4329 .ig 4330 This is part of a large block 4331 of text that has been 4332 temporarily(?) commented out. 4333 4334 We can restore it simply by removing 4335 the .ig request and the ".." at the 4336 end of the block. 4337 .. 4338 More text text text... 4339 4340 produces 4341 4342 4343 text text text... More text text text... 4344 4345 Note that the commented-out block of text does not cause a break. 4346 4347 The input is read in copy-mode; auto-incremented registers _are_ 4348 affected (*note Auto-increment::). 4349 4350 4351File: groff, Node: Comments-Footnotes, Up: Comments 4352 4353 (1) Unfortunately, this is a lie. But hopefully future `gtroff' 4354hackers will believe it `:-)' 4355 4356 4357File: groff, Node: Registers, Next: Manipulating Filling and Adjusting, Prev: Embedded Commands, Up: gtroff Reference 4358 43595.6 Registers 4360============= 4361 4362Numeric variables in `gtroff' are called "registers". There are a 4363number of built-in registers, supplying anything from the date to 4364details of formatting parameters. 4365 4366 *Note Identifiers::, for details on register identifiers. 4367 4368* Menu: 4369 4370* Setting Registers:: 4371* Interpolating Registers:: 4372* Auto-increment:: 4373* Assigning Formats:: 4374* Built-in Registers:: 4375 4376 4377File: groff, Node: Setting Registers, Next: Interpolating Registers, Prev: Registers, Up: Registers 4378 43795.6.1 Setting Registers 4380----------------------- 4381 4382Define or set registers using the `nr' request or the `\R' escape. 4383 4384 -- Request: .nr ident value 4385 -- Escape: \R'ident value' 4386 Set number register IDENT to VALUE. If IDENT doesn't exist, 4387 `gtroff' creates it. 4388 4389 The argument to `\R' usually has to be enclosed in quotes. *Note 4390 Escapes::, for details on parameter delimiting characters. 4391 4392 The `\R' escape doesn't produce an input token in `gtroff'; with 4393 other words, it vanishes completely after `gtroff' has processed 4394 it. 4395 4396 For example, the following two lines are equivalent: 4397 4398 4399 .nr a (((17 + (3 * 4))) % 4) 4400 \R'a (((17 + (3 * 4))) % 4)' 4401 => 1 4402 4403 Both `nr' and `\R' have two additional special forms to increment or 4404decrement a register. 4405 4406 -- Request: .nr ident +value 4407 -- Request: .nr ident -value 4408 -- Escape: \R'ident +value' 4409 -- Escape: \R'ident -value' 4410 Increment (decrement) register IDENT by VALUE. 4411 4412 4413 .nr a 1 4414 .nr a +1 4415 \na 4416 => 2 4417 4418 To assign the negated value of a register to another register, 4419 some care must be taken to get the desired result: 4420 4421 4422 .nr a 7 4423 .nr b 3 4424 .nr a -\nb 4425 \na 4426 => 4 4427 .nr a (-\nb) 4428 \na 4429 => -3 4430 4431 The surrounding parentheses prevent the interpretation of the 4432 minus sign as a decrementing operator. An alternative is to start 4433 the assignment with a `0': 4434 4435 4436 .nr a 7 4437 .nr b -3 4438 .nr a \nb 4439 \na 4440 => 4 4441 .nr a 0\nb 4442 \na 4443 => -3 4444 4445 4446 -- Request: .rr ident 4447 Remove number register IDENT. If IDENT doesn't exist, the request 4448 is ignored. 4449 4450 -- Request: .rnn ident1 ident2 4451 Rename number register IDENT1 to IDENT2. If either IDENT1 or 4452 IDENT2 doesn't exist, the request is ignored. 4453 4454 -- Request: .aln ident1 ident2 4455 Create an alias IDENT1 for a number register IDENT2. The new name 4456 and the old name are exactly equivalent. If IDENT1 is undefined, 4457 a warning of type `reg' is generated, and the request is ignored. 4458 *Note Debugging::, for information about warnings. 4459 4460 4461File: groff, Node: Interpolating Registers, Next: Auto-increment, Prev: Setting Registers, Up: Registers 4462 44635.6.2 Interpolating Registers 4464----------------------------- 4465 4466Numeric registers can be accessed via the `\n' escape. 4467 4468 -- Escape: \ni 4469 -- Escape: \n(id 4470 -- Escape: \n[ident] 4471 Interpolate number register with name IDENT (one-character name I, 4472 two-character name ID). This means that the value of the register 4473 is expanded in-place while `gtroff' is parsing the input line. 4474 Nested assignments (also called indirect assignments) are possible. 4475 4476 4477 .nr a 5 4478 .nr as \na+\na 4479 \n(as 4480 => 10 4481 4482 4483 .nr a1 5 4484 .nr ab 6 4485 .ds str b 4486 .ds num 1 4487 \n[a\n[num]] 4488 => 5 4489 \n[a\*[str]] 4490 => 6 4491 4492 4493 4494File: groff, Node: Auto-increment, Next: Assigning Formats, Prev: Interpolating Registers, Up: Registers 4495 44965.6.3 Auto-increment 4497-------------------- 4498 4499Number registers can also be auto-incremented and auto-decremented. 4500The increment or decrement value can be specified with a third argument 4501to the `nr' request or `\R' escape. 4502 4503 -- Request: .nr ident value incr 4504 Set number register IDENT to VALUE; the increment for 4505 auto-incrementing is set to INCR. Note that the `\R' escape 4506 doesn't support this notation. 4507 4508 To activate auto-incrementing, the escape `\n' has a special syntax 4509form. 4510 4511 -- Escape: \n+i 4512 -- Escape: \n-i 4513 -- Escape: \n(+id 4514 -- Escape: \n(-id 4515 -- Escape: \n+(id 4516 -- Escape: \n-(id 4517 -- Escape: \n[+ident] 4518 -- Escape: \n[-ident] 4519 -- Escape: \n+[ident] 4520 -- Escape: \n-[ident] 4521 Before interpolating, increment or decrement IDENT (one-character 4522 name I, two-character name ID) by the auto-increment value as 4523 specified with the `nr' request (or the `\R' escape). If no 4524 auto-increment value has been specified, these syntax forms are 4525 identical to `\n'. 4526 4527 For example, 4528 4529 4530 .nr a 0 1 4531 .nr xx 0 5 4532 .nr foo 0 -2 4533 \n+a, \n+a, \n+a, \n+a, \n+a 4534 .br 4535 \n-(xx, \n-(xx, \n-(xx, \n-(xx, \n-(xx 4536 .br 4537 \n+[foo], \n+[foo], \n+[foo], \n+[foo], \n+[foo] 4538 4539produces 4540 4541 4542 1, 2, 3, 4, 5 4543 -5, -10, -15, -20, -25 4544 -2, -4, -6, -8, -10 4545 4546 To change the increment value without changing the value of a 4547register (A in the example), the following can be used: 4548 4549 4550 .nr a \na 10 4551 4552 4553File: groff, Node: Assigning Formats, Next: Built-in Registers, Prev: Auto-increment, Up: Registers 4554 45555.6.4 Assigning Formats 4556----------------------- 4557 4558When a register is used in the text of an input file (as opposed to 4559part of an expression), it is textually replaced (or interpolated) with 4560a representation of that number. This output format can be changed to 4561a variety of formats (numbers, Roman numerals, etc.). This is done 4562using the `af' request. 4563 4564 -- Request: .af ident format 4565 Change the output format of a number register. The first argument 4566 IDENT is the name of the number register to be changed, and the 4567 second argument FORMAT is the output format. The following output 4568 formats are available: 4569 4570 `1' 4571 Decimal arabic numbers. This is the default format: 0, 1, 2, 4572 3, .... 4573 4574 `0...0' 4575 Decimal numbers with as many digits as specified. So, `00' 4576 would result in printing numbers as 01, 02, 03, .... 4577 4578 In fact, any digit instead of zero will do; `gtroff' only 4579 counts how many digits are specified. As a consequence, 4580 `af''s default format `1' could be specified as `0' also (and 4581 exactly this is returned by the `\g' escape, see below). 4582 4583 `I' 4584 Upper-case Roman numerals: 0, I, II, III, IV, .... 4585 4586 `i' 4587 Lower-case Roman numerals: 0, i, ii, iii, iv, .... 4588 4589 `A' 4590 Upper-case letters: 0, A, B, C, ..., Z, AA, AB, .... 4591 4592 `a' 4593 Lower-case letters: 0, a, b, c, ..., z, aa, ab, .... 4594 4595 Omitting the number register format causes a warning of type 4596 `missing'. *Note Debugging::, for more details. Specifying a 4597 nonexistent format causes an error. 4598 4599 The following example produces `10, X, j, 010': 4600 4601 4602 .nr a 10 4603 .af a 1 \" the default format 4604 \na, 4605 .af a I 4606 \na, 4607 .af a a 4608 \na, 4609 .af a 001 4610 \na 4611 4612 The largest number representable for the `i' and `I' formats is 4613 39999 (or -39999); UNIX `troff' uses `z' and `w' to represent 4614 10000 and 5000 in Roman numerals, and so does `gtroff'. 4615 Currently, the correct glyphs of Roman numeral five thousand and 4616 Roman numeral ten thousand (Unicode code points `U+2182' and 4617 `U+2181', respectively) are not available. 4618 4619 If IDENT doesn't exist, it is created. 4620 4621 Changing the output format of a read-only register causes an 4622 error. It is necessary to first copy the register's value to a 4623 writeable register, then apply the `af' request to this other 4624 register. 4625 4626 -- Escape: \gi 4627 -- Escape: \g(id 4628 -- Escape: \g[ident] 4629 Return the current format of the specified register IDENT 4630 (one-character name I, two-character name ID). For example, `\ga' 4631 after the previous example would produce the string `000'. If the 4632 register hasn't been defined yet, nothing is returned. 4633 4634 4635File: groff, Node: Built-in Registers, Prev: Assigning Formats, Up: Registers 4636 46375.6.5 Built-in Registers 4638------------------------ 4639 4640The following lists some built-in registers which are not described 4641elsewhere in this manual. Any register which begins with a `.' is 4642read-only. A complete listing of all built-in registers can be found in 4643*Note Register Index::. 4644 4645`\n[.F]' 4646 This string-valued register returns the current input file name. 4647 4648`\n[.H]' 4649 Horizontal resolution in basic units. 4650 4651`\n[.U]' 4652 If `gtroff' is called with the `-U' command line option, the 4653 number register `.U' is set to 1, and zero otherwise. *Note Groff 4654 Options::. 4655 4656`\n[.V]' 4657 Vertical resolution in basic units. 4658 4659`\n[seconds]' 4660 The number of seconds after the minute, normally in the range 0 4661 to 59, but can be up to 61 to allow for leap seconds. Initialized 4662 at start-up of `gtroff'. 4663 4664`\n[minutes]' 4665 The number of minutes after the hour, in the range 0 to 59. 4666 Initialized at start-up of `gtroff'. 4667 4668`\n[hours]' 4669 The number of hours past midnight, in the range 0 to 23. 4670 Initialized at start-up of `gtroff'. 4671 4672`\n[dw]' 4673 Day of the week (1-7). 4674 4675`\n[dy]' 4676 Day of the month (1-31). 4677 4678`\n[mo]' 4679 Current month (1-12). 4680 4681`\n[year]' 4682 The current year. 4683 4684`\n[yr]' 4685 The current year minus 1900. Unfortunately, the documentation of 4686 UNIX Version 7's `troff' had a year 2000 bug: It incorrectly 4687 claimed that `yr' contains the last two digits of the year. That 4688 claim has never been true of either AT&T `troff' or GNU `troff'. 4689 Old `troff' input that looks like this: 4690 4691 4692 '\" The following line stopped working after 1999 4693 This document was formatted in 19\n(yr. 4694 4695 can be corrected as follows: 4696 4697 4698 This document was formatted in \n[year]. 4699 4700 or, to be portable to older `troff' versions, as follows: 4701 4702 4703 .nr y4 1900+\n(yr 4704 This document was formatted in \n(y4. 4705 4706`\n[.c]' 4707`\n[c.]' 4708 The current _input_ line number. Register `.c' is read-only, 4709 whereas `c.' (a `gtroff' extension) is writable also, affecting 4710 both `.c' and `c.'. 4711 4712`\n[ln]' 4713 The current _output_ line number after a call to the `nm' request 4714 to activate line numbering. 4715 4716 *Note Miscellaneous::, for more information about line numbering. 4717 4718`\n[.x]' 4719 The major version number. For example, if the version number is 4720 1.03 then `.x' contains `1'. 4721 4722`\n[.y]' 4723 The minor version number. For example, if the version number is 4724 1.03 then `.y' contains `03'. 4725 4726`\n[.Y]' 4727 The revision number of `groff'. 4728 4729`\n[$$]' 4730 The process ID of `gtroff'. 4731 4732`\n[.g]' 4733 Always 1. Macros should use this to determine whether they are 4734 running under GNU `troff'. 4735 4736`\n[.A]' 4737 If the command line option `-a' is used to produce an ASCII 4738 approximation of the output, this is set to 1, zero otherwise. 4739 *Note Groff Options::. 4740 4741`\n[.P]' 4742 This register is set to 1 (and to 0 otherwise) if the current page 4743 is actually being printed, i.e., if the `-o' option is being used 4744 to only print selected pages. *Note Groff Options::, for more 4745 information. 4746 4747`\n[.T]' 4748 If `gtroff' is called with the `-T' command line option, the 4749 number register `.T' is set to 1, and zero otherwise. *Note Groff 4750 Options::. 4751 4752`\*[.T]' 4753 A single read-write string register which contains the current 4754 output device (for example, `latin1' or `ps'). This is the only 4755 string register defined by `gtroff'. 4756 4757 4758File: groff, Node: Manipulating Filling and Adjusting, Next: Manipulating Hyphenation, Prev: Registers, Up: gtroff Reference 4759 47605.7 Manipulating Filling and Adjusting 4761====================================== 4762 4763Various ways of causing "breaks" were given in *Note Implicit Line 4764Breaks::. The `br' request likewise causes a break. Several other 4765requests also cause breaks, but implicitly. These are `bp', `ce', 4766`cf', `fi', `fl', `in', `nf', `rj', `sp', `ti', and `trf'. 4767 4768 -- Request: .br 4769 Break the current line, i.e., the input collected so far is emitted 4770 without adjustment. 4771 4772 If the no-break control character is used, `gtroff' suppresses the 4773 break: 4774 4775 4776 a 4777 'br 4778 b 4779 => a b 4780 4781 4782 Initially, `gtroff' fills and adjusts text to both margins. Filling 4783can be disabled via the `nf' request and re-enabled with the `fi' 4784request. 4785 4786 -- Request: .fi 4787 -- Register: \n[.u] 4788 Activate fill mode (which is the default). This request implicitly 4789 enables adjusting; it also inserts a break in the text currently 4790 being filled. The read-only number register `.u' is set to 1. 4791 4792 The fill mode status is associated with the current environment 4793 (*note Environments::). 4794 4795 See *Note Line Control::, for interaction with the `\c' escape. 4796 4797 -- Request: .nf 4798 Activate no-fill mode. Input lines are output as-is, retaining 4799 line breaks and ignoring the current line length. This command 4800 implicitly disables adjusting; it also causes a break. The number 4801 register `.u' is set to 0. 4802 4803 The fill mode status is associated with the current environment 4804 (*note Environments::). 4805 4806 See *Note Line Control::, for interaction with the `\c' escape. 4807 4808 -- Request: .ad [mode] 4809 -- Register: \n[.j] 4810 Set adjusting mode. 4811 4812 Activation and deactivation of adjusting is done implicitly with 4813 calls to the `fi' or `nf' requests. 4814 4815 MODE can have one of the following values: 4816 4817 `l' 4818 Adjust text to the left margin. This produces what is 4819 traditionally called ragged-right text. 4820 4821 `r' 4822 Adjust text to the right margin, producing ragged-left text. 4823 4824 `c' 4825 Center filled text. This is different to the `ce' request 4826 which only centers text without filling. 4827 4828 `b' 4829 `n' 4830 Justify to both margins. This is the default used by 4831 `gtroff'. 4832 4833 Finally, MODE can be the numeric argument returned by the `.j' 4834 register. 4835 4836 With no argument, `gtroff' adjusts lines in the same way it did 4837 before adjusting was deactivated (with a call to `na', for 4838 example). 4839 4840 4841 text 4842 .ad r 4843 .nr ad \n[.j] 4844 text 4845 .ad c 4846 text 4847 .na 4848 text 4849 .ad \" back to centering 4850 text 4851 .ad \n[ad] \" back to right justifying 4852 4853 The current adjustment mode is available in the read-only number 4854 register `.j'; it can be stored and subsequently used to set 4855 adjustment. 4856 4857 The adjustment mode status is associated with the current 4858 environment (*note Environments::). 4859 4860 -- Request: .na 4861 Disable adjusting. This request won't change the current 4862 adjustment mode: A subsequent call to `ad' uses the previous 4863 adjustment setting. 4864 4865 The adjustment mode status is associated with the current 4866 environment (*note Environments::). 4867 4868 -- Request: .brp 4869 -- Escape: \p 4870 Adjust the current line and cause a break. 4871 4872 In most cases this produces very ugly results since `gtroff' 4873 doesn't have a sophisticated paragraph building algorithm (as TeX 4874 have, for example); instead, `gtroff' fills and adjusts a paragraph 4875 line by line: 4876 4877 4878 This is an uninteresting sentence. 4879 This is an uninteresting sentence.\p 4880 This is an uninteresting sentence. 4881 4882 is formatted as 4883 4884 4885 This is an uninteresting sentence. This is an 4886 uninteresting sentence. 4887 This is an uninteresting sentence. 4888 4889 4890 -- Request: .ss word_space_size [sentence_space_size] 4891 -- Register: \n[.ss] 4892 -- Register: \n[.sss] 4893 Change the size of a space between words. It takes its units as 4894 one twelfth of the space width parameter for the current font. 4895 Initially both the WORD_SPACE_SIZE and SENTENCE_SPACE_SIZE are 12. 4896 In fill mode, the values specify the minimum distance. 4897 4898 If two arguments are given to the `ss' request, the second 4899 argument sets the sentence space size. If the second argument is 4900 not given, sentence space size is set to WORD_SPACE_SIZE. The 4901 sentence space size is used in two circumstances: If the end of a 4902 sentence occurs at the end of a line in fill mode, then both an 4903 inter-word space and a sentence space are added; if two spaces 4904 follow the end of a sentence in the middle of a line, then the 4905 second space is a sentence space. If a second argument is never 4906 given to the `ss' request, the behaviour of UNIX `troff' is the 4907 same as that exhibited by GNU `troff'. In GNU `troff', as in UNIX 4908 `troff', a sentence should always be followed by either a newline 4909 or two spaces. 4910 4911 The read-only number registers `.ss' and `.sss' hold the values of 4912 the parameters set by the first and second arguments of the `ss' 4913 request. 4914 4915 The word space and sentence space values are associated with the 4916 current environment (*note Environments::). 4917 4918 Contrary to AT&T `troff', this request is _not_ ignored if a TTY 4919 output device is used; the given values are then rounded down to a 4920 multiple of 12 (*note Implementation Differences::). 4921 4922 The request is ignored if there is no parameter. 4923 4924 Another useful application of the `ss' request is to insert 4925 discardable horizontal space, i.e., space which is discarded at a 4926 line break. For example, paragraph-style footnotes could be 4927 separated this way: 4928 4929 4930 .ll 4.5i 4931 1.\ This is the first footnote.\c 4932 .ss 48 4933 .nop 4934 .ss 12 4935 2.\ This is the second footnote. 4936 4937 The result: 4938 4939 4940 1. This is the first footnote. 2. This 4941 is the second footnote. 4942 4943 Note that the `\h' escape produces unbreakable space. 4944 4945 -- Request: .ce [nnn] 4946 -- Register: \n[.ce] 4947 Center text. While the `.ad c' request also centers text, it 4948 fills the text as well. `ce' does not fill the text it affects. 4949 This request causes a break. The number of lines still to be 4950 centered is associated with the current environment (*note 4951 Environments::). 4952 4953 The following example demonstrates the differences. Here the 4954 input: 4955 4956 4957 .ll 4i 4958 .ce 1000 4959 This is a small text fragment which shows the differences 4960 between the `.ce' and the `.ad c' request. 4961 .ce 0 4962 4963 .ad c 4964 This is a small text fragment which shows the differences 4965 between the `.ce' and the `.ad c' request. 4966 4967 And here the result: 4968 4969 4970 This is a small text fragment which 4971 shows the differences 4972 between the `.ce' and the `.ad c' request. 4973 4974 This is a small text fragment which 4975 shows the differences between the `.ce' 4976 and the `.ad c' request. 4977 4978 With no arguments, `ce' centers the next line of text. NNN 4979 specifies the number of lines to be centered. If the argument is 4980 zero or negative, centering is disabled. 4981 4982 The basic length for centering text is the line length (as set 4983 with the `ll' request) minus the indentation (as set with the `in' 4984 request). Temporary indentation is ignored. 4985 4986 As can be seen in the previous example, it is a common idiom to 4987 turn on centering for a large number of lines, and to turn off 4988 centering after text to be centered. This is useful for any 4989 request which takes a number of lines as an argument. 4990 4991 The `.ce' read-only number register contains the number of lines 4992 remaining to be centered, as set by the `ce' request. 4993 4994 -- Request: .rj [nnn] 4995 -- Register: \n[.rj] 4996 Justify unfilled text to the right margin. Arguments are 4997 identical to the `ce' request. The `.rj' read-only number 4998 register is the number of lines to be right-justified as set by 4999 the `rj' request. This request causes a break. The number of 5000 lines still to be right-justified is associated with the current 5001 environment (*note Environments::). 5002 5003 5004File: groff, Node: Manipulating Hyphenation, Next: Manipulating Spacing, Prev: Manipulating Filling and Adjusting, Up: gtroff Reference 5005 50065.8 Manipulating Hyphenation 5007============================ 5008 5009Here a description of requests which influence hyphenation. 5010 5011 -- Request: .hy [mode] 5012 -- Register: \n[.hy] 5013 Enable hyphenation. The request has an optional numeric argument, 5014 MODE, to restrict hyphenation if necessary: 5015 5016 `1' 5017 The default argument if MODE is omitted. Hyphenate without 5018 restrictions. This is also the start-up value of `gtroff'. 5019 5020 `2' 5021 Do not hyphenate the last word on a page or column. 5022 5023 `4' 5024 Do not hyphenate the last two characters of a word. 5025 5026 `8' 5027 Do not hyphenate the first two characters of a word. 5028 5029 Values in the previous table are additive. For example, the 5030 value 12 causes `gtroff' to neither hyphenate the last two nor the 5031 first two characters of a word. 5032 5033 The current hyphenation restrictions can be found in the read-only 5034 number register `.hy'. 5035 5036 The hyphenation mode is associated with the current environment 5037 (*note Environments::). 5038 5039 -- Request: .nh 5040 Disable hyphenation (i.e., set the hyphenation mode to zero). Note 5041 that the hyphenation mode of the last call to `hy' is not 5042 remembered. 5043 5044 The hyphenation mode is associated with the current environment 5045 (*note Environments::). 5046 5047 -- Request: .hlm [nnn] 5048 -- Register: \n[.hlm] 5049 -- Register: \n[.hlc] 5050 Set the maximum number of consecutive hyphenated lines to NNN. If 5051 this number is negative, there is no maximum. The default value 5052 is -1 if NNN is omitted. This value is associated with the 5053 current environment (*note Environments::). Only lines output 5054 from a given environment count towards the maximum associated with 5055 that environment. Hyphens resulting from `\%' are counted; 5056 explicit hyphens are not. 5057 5058 The current setting of `hlm' is available in the `.hlm' read-only 5059 number register. Also the number of immediately preceding 5060 consecutive hyphenated lines are available in the read-only number 5061 register `.hlc'. 5062 5063 -- Request: .hw word1 word2 ... 5064 Define how WORD1, WORD2, etc. are to be hyphenated. The words 5065 must be given with hyphens at the hyphenation points. For example: 5066 5067 5068 .hw in-sa-lub-rious 5069 5070 Besides the space character, any character whose hyphenation code 5071 value is zero can be used to separate the arguments of `hw' (see 5072 the documentation for the `hcode' request below for more 5073 information). In addition, this request can be used more than 5074 once. 5075 5076 Hyphenation exceptions specified with the `hw' request are 5077 associated with the current hyphenation language; it causes an 5078 error if there is no current hyphenation language. 5079 5080 This request is ignored if there is no parameter. 5081 5082 In old versions of `troff' there was a limited amount of space to 5083 store such information; fortunately, with `gtroff', this is no 5084 longer a restriction. 5085 5086 -- Escape: \% 5087 -- Escape: \: 5088 To tell `gtroff' how to hyphenate words on the fly, use the `\%' 5089 escape, also known as the "hyphenation character". Preceding a 5090 word with this character prevents it from being hyphenated; 5091 putting it inside a word indicates to `gtroff' that the word may 5092 be hyphenated at that point. Note that this mechanism only 5093 affects that one occurrence of the word; to change the hyphenation 5094 of a word for the entire document, use the `hw' request. 5095 5096 The `\:' escape inserts a zero-width break point (that is, the 5097 word breaks but without adding a hyphen). 5098 5099 5100 ... check the /var/log/\:httpd/\:access_log file ... 5101 5102 Note that `\X' and `\Y' start a word, that is, the `\%' escape in 5103 (say) `\X'...'\%foobar' and `\Y'...'\%foobar' no longer prevents 5104 hyphenation but inserts a hyphenation point at the beginning of 5105 `foobar'; most likely this isn't what you want to do. 5106 5107 -- Request: .hc [char] 5108 Change the hyphenation character to CHAR. This character then 5109 works the same as the `\%' escape, and thus, no longer appears in 5110 the output. Without an argument, `hc' resets the hyphenation 5111 character to be `\%' (the default) only. 5112 5113 The hyphenation character is associated with the current 5114 environment (*note Environments::). 5115 5116 -- Request: .hpf pattern_file 5117 -- Request: .hpfa pattern_file 5118 -- Request: .hpfcode a b [c d ...] 5119 Read in a file of hyphenation patterns. This file is searched for 5120 in the same way as `NAME.tmac' (or `tmac.NAME') is searched for if 5121 the `-mNAME' option is specified. 5122 5123 It should have the same format as (simple) TeX patterns files. 5124 More specifically, the following scanning rules are implemented. 5125 5126 * A percent sign starts a comment (up to the end of the line) 5127 even if preceded by a backslash. 5128 5129 * No support for `digraphs' like `\$'. 5130 5131 * `^^XX' (X is 0-9 or a-f) and `^^X' (character code of X in 5132 the range 0-127) are recognized; other use of `^' causes an 5133 error. 5134 5135 * No macro expansion. 5136 5137 * `hpf' checks for the expression `\patterns{...}' (possibly 5138 with whitespace before and after the braces). Everything 5139 between the braces is taken as hyphenation patterns. 5140 Consequently, `{' and `}' are not allowed in patterns. 5141 5142 * Similarly, `\hyphenation{...}' gives a list of hyphenation 5143 exceptions. 5144 5145 * `\endinput' is recognized also. 5146 5147 * For backwards compatibility, if `\patterns' is missing, the 5148 whole file is treated as a list of hyphenation patterns (only 5149 recognizing the `%' character as the start of a comment). 5150 5151 If no `hpf' request is specified (either in the document or in a 5152 macro package), `gtroff' won't hyphenate at all. 5153 5154 The `hpfa' request appends a file of patterns to the current list. 5155 5156 The `hpfcode' request defines mapping values for character codes in 5157 hyphenation patterns. `hpf' or `hpfa' then apply the mapping 5158 (after reading the patterns) before replacing or appending them to 5159 the current list of patterns. Its arguments are pairs of 5160 character codes - integers from 0 to 255. The request maps 5161 character code A to code B, code C to code D, and so on. You can 5162 use character codes which would be invalid otherwise. 5163 5164 The set of hyphenation patterns is associated with the current 5165 language set by the `hla' request. The `hpf' request is usually 5166 invoked by the `troffrc' or `troffrc-end' file; by default, 5167 `troffrc' loads hyphenation patterns and exceptions for American 5168 English (in files `hyphen.us' and `hyphenex.us'). 5169 5170 A second call to `hpf' (for the same language) will replace the 5171 hyphenation patterns with the new ones. 5172 5173 Invoking `hpf' causes an error if there is no current hyphenation 5174 language. 5175 5176 -- Request: .hcode c1 code1 [c2 code2 ...] 5177 Set the hyphenation code of character C1 to CODE1, that of C2 to 5178 CODE2, etc. A hyphenation code must be a single input character 5179 (not a special character) other than a digit or a space. 5180 5181 To make hyphenation work, hyphenation codes must be set up. At 5182 start-up, groff only assigns hyphenation codes to the letters 5183 `a'-`z' (mapped to themselves) and to the letters `A'-`Z' (mapped 5184 to `a'-`z'); all other hyphenation codes are set to zero. 5185 Normally, hyphenation patterns contain only lowercase letters 5186 which should be applied regardless of case. With other words, the 5187 words `FOO' and `Foo' should be hyphenated exactly the same way as 5188 the word `foo' is hyphenated, and this is what `hcode' is good 5189 for. Words which contain other letters won't be hyphenated 5190 properly if the corresponding hyphenation patterns actually do 5191 contain them. For example, the following `hcode' requests are 5192 necessary to assign hyphenation codes to the letters `�������' 5193 (this is needed for German): 5194 5195 5196 .hcode � � � � 5197 .hcode � � � � 5198 .hcode � � � � 5199 .hcode � � 5200 5201 Without those assignments, groff treats German words like 5202 `Kinderg�rten' (the plural form of `kindergarten') as two 5203 substrings `kinderg' and `rten' because the hyphenation code of 5204 the umlaut a is zero by default. There is a German hyphenation 5205 pattern which covers `kinder', so groff finds the hyphenation 5206 `kin-der'. The other two hyphenation points (`kin-der-g�r-ten') 5207 are missed. 5208 5209 This request is ignored if it has no parameter. 5210 5211 -- Request: .hym [length] 5212 -- Register: \n[.hym] 5213 Set the (right) hyphenation margin to LENGTH. If the current 5214 adjustment mode is not `b' or `n', the line is not hyphenated if 5215 it is shorter than LENGTH. Without an argument, the hyphenation 5216 margin is reset to its default value, which is 0. The default 5217 scaling indicator for this request is `m'. The hyphenation margin 5218 is associated with the current environment (*note Environments::). 5219 5220 A negative argument resets the hyphenation margin to zero, emitting 5221 a warning of type `range'. 5222 5223 The current hyphenation margin is available in the `.hym' read-only 5224 number register. 5225 5226 -- Request: .hys [hyphenation_space] 5227 -- Register: \n[.hys] 5228 Set the hyphenation space to HYPHENATION_SPACE. If the current 5229 adjustment mode is `b' or `n', don't hyphenate the line if it can 5230 be justified by adding no more than HYPHENATION_SPACE extra space 5231 to each word space. Without argument, the hyphenation space is 5232 set to its default value, which is 0. The default scaling 5233 indicator for this request is `m'. The hyphenation space is 5234 associated with the current environment (*note Environments::). 5235 5236 A negative argument resets the hyphenation space to zero, emitting 5237 a warning of type `range'. 5238 5239 The current hyphenation space is available in the `.hys' read-only 5240 number register. 5241 5242 -- Request: .shc [glyph] 5243 Set the "soft hyphen character" to GLYPH.(1) (*note Manipulating 5244 Hyphenation-Footnote-1::) If the argument is omitted, the soft 5245 hyphen character is set to the default glyph `\(hy' (this is the 5246 start-up value of `gtroff' also). The soft hyphen character is 5247 the glyph that is inserted when a word is hyphenated at a line 5248 break. If the soft hyphen character does not exist in the font of 5249 the character immediately preceding a potential break point, then 5250 the line is not broken at that point. Neither definitions 5251 (specified with the `char' request) nor translations (specified 5252 with the `tr' request) are considered when finding the soft hyphen 5253 character. 5254 5255 -- Request: .hla language 5256 -- Register: \n[.hla] 5257 Set the current hyphenation language to the string LANGUAGE. 5258 Hyphenation exceptions specified with the `hw' request and 5259 hyphenation patterns specified with the `hpf' and `hpfa' requests 5260 are both associated with the current hyphenation language. The 5261 `hla' request is usually invoked by the `troffrc' or the 5262 `troffrc-end' files; `troffrc' sets the default language to `us'. 5263 5264 The current hyphenation language is available as a string in the 5265 read-only number register `.hla'. 5266 5267 5268 .ds curr_language \n[.hla] 5269 \*[curr_language] 5270 => us 5271 5272 5273 5274File: groff, Node: Manipulating Hyphenation-Footnotes, Up: Manipulating Hyphenation 5275 5276 (1) "Soft hyphen character" is a misnomer since it is an output 5277glyph. 5278 5279 5280File: groff, Node: Manipulating Spacing, Next: Tabs and Fields, Prev: Manipulating Hyphenation, Up: gtroff Reference 5281 52825.9 Manipulating Spacing 5283======================== 5284 5285 -- Request: .sp [distance] 5286 Space downwards DISTANCE. With no argument it advances 1 line. A 5287 negative argument causes `gtroff' to move up the page the 5288 specified distance. If the argument is preceded by a `|' then 5289 `gtroff' moves that distance from the top of the page. This 5290 request causes a line break. The default scaling indicator is `v'. 5291 5292 If a vertical trap is sprung during execution of `sp', the amount 5293 of vertical space after the trap is discarded. For example, this 5294 5295 5296 .de xxx 5297 .. 5298 . 5299 .wh 0 xxx 5300 . 5301 .pl 5v 5302 foo 5303 .sp 2 5304 bar 5305 .sp 50 5306 baz 5307 5308 results in 5309 5310 5311 foo 5312 5313 5314 bar 5315 5316 baz 5317 5318 The amount of discarded space is available in the number register 5319 `.trunc'. 5320 5321 To protect `sp' against vertical traps, use the `vpt' request: 5322 5323 5324 .vpt 0 5325 .sp -3 5326 .vpt 1 5327 5328 5329 -- Request: .ls [nnn] 5330 -- Register: \n[.L] 5331 Output NNN-1 blank lines after each line of text. With no 5332 argument, `gtroff' uses the previous value before the last `ls' 5333 call. 5334 5335 5336 .ls 2 \" This causes double-spaced output 5337 .ls 3 \" This causes triple-spaced output 5338 .ls \" Again double-spaced 5339 5340 The line spacing is associated with the current environment (*note 5341 Environments::). 5342 5343 The read-only number register `.L' contains the current line 5344 spacing setting. 5345 5346 *Note Changing Type Sizes::, for the requests `vs' and `pvs' as 5347alternatives to `ls'. 5348 5349 -- Escape: \x'spacing' 5350 -- Register: \n[.a] 5351 Sometimes, extra vertical spacing is only needed occasionally, e.g. 5352 to allow space for a tall construct (like an equation). The `\x' 5353 escape does this. The escape is given a numerical argument, 5354 usually enclosed in quotes (like `\x'3p''); the default scaling 5355 indicator is `v'. If this number is positive extra vertical space 5356 is inserted below the current line. A negative number adds space 5357 above. If this escape is used multiple times on the same line, 5358 the maximum of the values is used. 5359 5360 *Note Escapes::, for details on parameter delimiting characters. 5361 5362 The `.a' read-only number register contains the most recent 5363 (nonnegative) extra vertical line space. 5364 5365 Using `\x' can be necessary in combination with the `\b' escape, 5366 as the following example shows. 5367 5368 5369 This is a test with the \[rs]b escape. 5370 .br 5371 This is a test with the \[rs]b escape. 5372 .br 5373 This is a test with \b'xyz'\x'-1m'\x'1m'. 5374 .br 5375 This is a test with the \[rs]b escape. 5376 .br 5377 This is a test with the \[rs]b escape. 5378 5379 produces 5380 5381 5382 This is a test with the \b escape. 5383 This is a test with the \b escape. 5384 x 5385 This is a test with y. 5386 z 5387 This is a test with the \b escape. 5388 This is a test with the \b escape. 5389 5390 5391 -- Request: .ns 5392 -- Request: .rs 5393 -- Register: \n[.ns] 5394 Enable "no-space mode". In this mode, spacing (either via `sp' or 5395 via blank lines) is disabled. The `bp' request to advance to the 5396 next page is also disabled, except if it is accompanied by a page 5397 number (see *Note Page Control::, for more information). This 5398 mode ends when actual text is output or the `rs' request is 5399 encountered which ends no-space mode. The read-only number 5400 register `.ns' is set to 1 as long as no-space mode is active. 5401 5402 This request is useful for macros that conditionally insert 5403 vertical space before the text starts (for example, a paragraph 5404 macro could insert some space except when it is the first 5405 paragraph after a section header). 5406 5407 5408File: groff, Node: Tabs and Fields, Next: Character Translations, Prev: Manipulating Spacing, Up: gtroff Reference 5409 54105.10 Tabs and Fields 5411==================== 5412 5413A tab character (ASCII char 9, EBCDIC char 5) causes a horizontal 5414movement to the next tab stop (much like it did on a typewriter). 5415 5416 -- Escape: \t 5417 This escape is a non-interpreted tab character. In copy mode 5418 (*note Copy-in Mode::), `\t' is the same as a real tab character. 5419 5420 -- Request: .ta [n1 n2 ... nn T r1 r2 ... rn] 5421 -- Register: \n[.tabs] 5422 Change tab stop positions. This request takes a series of tab 5423 specifiers as arguments (optionally divided into two groups with 5424 the letter `T') which indicate where each tab stop is to be 5425 (overriding any previous settings). 5426 5427 Tab stops can be specified absolutely, i.e., as the distance from 5428 the left margin. For example, the following sets 6 tab stops every 5429 one inch. 5430 5431 5432 .ta 1i 2i 3i 4i 5i 6i 5433 5434 Tab stops can also be specified using a leading `+' which means 5435 that the specified tab stop is set relative to the previous tab 5436 stop. For example, the following is equivalent to the previous 5437 example. 5438 5439 5440 .ta 1i +1i +1i +1i +1i +1i 5441 5442 `gtroff' supports an extended syntax to specify repeat values after 5443 the `T' mark (these values are always taken as relative) - this is 5444 the usual way to specify tabs set at equal intervals. The 5445 following is, yet again, the same as the previous examples. It 5446 does even more since it defines an infinite number of tab stops 5447 separated by one inch. 5448 5449 5450 .ta T 1i 5451 5452 Now we are ready to interpret the full syntax given at the 5453 beginning: Set tabs at positions N1, N2, ..., NN and then set tabs 5454 at NN+R1, NN+R2, ..., NN+RN and then at NN+RN+R1, NN+RN+R2, ..., 5455 NN+RN+RN, and so on. 5456 5457 Example: `4c +6c T 3c 5c 2c' is equivalent to `4c 10c 13c 18c 20c 5458 23c 28c 30c ...'. 5459 5460 The material in each tab column (i.e., the column between two tab 5461 stops) may be justified to the right or left or centered in the 5462 column. This is specified by appending `R', `L', or `C' to the tab 5463 specifier. The default justification is `L'. Example: 5464 5465 5466 .ta 1i 2iC 3iR 5467 5468 Some notes: 5469 5470 * The default unit of the `ta' request is `m'. 5471 5472 * A tab stop is converted into a non-breakable horizontal 5473 movement which can be neither stretched nor squeezed. For 5474 example, 5475 5476 5477 .ds foo a\tb\tc 5478 .ta T 5i 5479 \*[foo] 5480 5481 creates a single line which is a bit longer than 10 inches (a 5482 string is used to show exactly where the tab characters are). 5483 Now consider the following: 5484 5485 5486 .ds bar a\tb b\tc 5487 .ta T 5i 5488 \*[bar] 5489 5490 `gtroff' first converts the tab stops of the line into 5491 unbreakable horizontal movements, then splits the line after 5492 the second `b' (assuming a sufficiently short line length). 5493 Usually, this isn't what the user wants. 5494 5495 * Superfluous tabs (i.e., tab characters which do not 5496 correspond to a tab stop) are ignored except the first one 5497 which delimits the characters belonging to the last tab stop 5498 for right-justifying or centering. Consider the following 5499 example 5500 5501 5502 .ds Z foo\tbar\tfoo 5503 .ds ZZ foo\tbar\tfoobar 5504 .ds ZZZ foo\tbar\tfoo\tbar 5505 .ta 2i 4iR 5506 \*[Z] 5507 .br 5508 \*[ZZ] 5509 .br 5510 \*[ZZZ] 5511 .br 5512 5513 which produces the following output: 5514 5515 5516 foo bar foo 5517 foo bar foobar 5518 foo bar foobar 5519 5520 The first line right-justifies the second `foo' relative to 5521 the tab stop. The second line right-justifies `foobar'. The 5522 third line finally right-justifies only `foo' because of the 5523 additional tab character which marks the end of the string 5524 belonging to the last defined tab stop. 5525 5526 * Tab stops are associated with the current environment (*note 5527 Environments::). 5528 5529 * Calling `ta' without an argument removes all tab stops. 5530 5531 * The start-up value of `gtroff' is `T 0.8i'. 5532 5533 The read-only number register `.tabs' contains a string 5534 representation of the current tab settings suitable for use as an 5535 argument to the `ta' request. 5536 5537 5538 .ds tab-string \n[.tabs] 5539 \*[tab-string] 5540 => T120u 5541 5542 The `troff' version of the Plan 9 operating system uses register 5543 `.S' for the same purpose. 5544 5545 -- Request: .tc [fill-glyph] 5546 Normally `gtroff' fills the space to the next tab stop with 5547 whitespace. This can be changed with the `tc' request. With no 5548 argument `gtroff' reverts to using whitespace, which is the 5549 default. The value of this "tab repetition character" is 5550 associated with the current environment (*note Environments::).(1) 5551 (*note Tabs and Fields-Footnote-1::) 5552 5553 -- Request: .linetabs n 5554 -- Register: \n[.linetabs] 5555 If N is missing or not zero, enable "line-tabs" mode, or disable 5556 it otherwise (the default). In line-tabs mode, `gtroff' computes 5557 tab distances relative to the (current) output line instead of the 5558 input line. 5559 5560 For example, the following code: 5561 5562 5563 .ds x a\t\c 5564 .ds y b\t\c 5565 .ds z c 5566 .ta 1i 3i 5567 \*x 5568 \*y 5569 \*z 5570 5571 in normal mode, results in the output 5572 5573 5574 a b c 5575 5576 in line-tabs mode, the same code outputs 5577 5578 5579 a b c 5580 5581 Line-tabs mode is associated with the current environment. The 5582 read-only register `.linetabs' is set to 1 if in line-tabs mode, 5583 and 0 in normal mode. 5584 5585* Menu: 5586 5587* Leaders:: 5588* Fields:: 5589 5590 5591File: groff, Node: Tabs and Fields-Footnotes, Up: Tabs and Fields 5592 5593 (1) "Tab repetition character" is a misnomer since it is an output 5594glyph. 5595 5596 5597File: groff, Node: Leaders, Next: Fields, Prev: Tabs and Fields, Up: Tabs and Fields 5598 55995.10.1 Leaders 5600-------------- 5601 5602Sometimes it may may be desirable to use the `tc' request to fill a 5603particular tab stop with a given glyph (for example dots in a table of 5604contents), but also normal tab stops on the rest of the line. For this 5605`gtroff' provides an alternate tab mechanism, called "leaders" which 5606does just that. 5607 5608 A leader character (character code 1) behaves similarly to a tab 5609character: It moves to the next tab stop. The only difference is that 5610for this movement, the fill glyph defaults to a period character and 5611not to space. 5612 5613 -- Escape: \a 5614 This escape is a non-interpreted leader character. In copy mode 5615 (*note Copy-in Mode::), `\a' is the same as a real leader 5616 character. 5617 5618 -- Request: .lc [fill-glyph] 5619 Declare the "leader repetition character".(1) (*note 5620 Leaders-Footnote-1::) Without an argument, leaders act the same as 5621 tabs (i.e., using whitespace for filling). `gtroff''s start-up 5622 value is a dot (`.'). The value of the leader repetition 5623 character is associated with the current environment (*note 5624 Environments::). 5625 5626 For a table of contents, to name an example, tab stops may be 5627defined so that the section number is one tab stop, the title is the 5628second with the remaining space being filled with a line of dots, and 5629then the page number slightly separated from the dots. 5630 5631 5632 .ds entry 1.1\tFoo\a\t12 5633 .lc . 5634 .ta 1i 5i +.25i 5635 \*[entry] 5636 5637This produces 5638 5639 5640 1.1 Foo.......................................... 12 5641 5642 5643File: groff, Node: Leaders-Footnotes, Up: Leaders 5644 5645 (1) "Leader repetition character" is a misnomer since it is an 5646output glyph. 5647 5648 5649File: groff, Node: Fields, Prev: Leaders, Up: Tabs and Fields 5650 56515.10.2 Fields 5652------------- 5653 5654"Fields" are a more general way of laying out tabular data. A field is 5655defined as the data between a pair of "delimiting characters". It 5656contains substrings which are separated by "padding characters". The 5657width of a field is the distance on the _input_ line from the position 5658where the field starts to the next tab stop. A padding character 5659inserts stretchable space similar to TeX's `\hss' command (thus it can 5660even be negative) to make the sum of all substring lengths plus the 5661stretchable space equal to the field width. If more than one padding 5662character is inserted, the available space is evenly distributed among 5663them. 5664 5665 -- Request: .fc [delim-char [padding-char]] 5666 Define a delimiting and a padding character for fields. If the 5667 latter is missing, the padding character defaults to a space 5668 character. If there is no argument at all, the field mechanism is 5669 disabled (which is the default). Note that contrary to e.g. the 5670 tab repetition character, delimiting and padding characters are 5671 _not_ associated to the current environment (*note Environments::). 5672 5673 Example: 5674 5675 5676 .fc # ^ 5677 .ta T 3i 5678 #foo^bar^smurf# 5679 .br 5680 #foo^^bar^smurf# 5681 5682 and here the result: 5683 5684 5685 foo bar smurf 5686 foo bar smurf 5687 5688 5689 5690File: groff, Node: Character Translations, Next: Troff and Nroff Mode, Prev: Tabs and Fields, Up: gtroff Reference 5691 56925.11 Character Translations 5693=========================== 5694 5695The control character (`.') and the no-break control character (`'') 5696can be changed with the `cc' and `c2' requests, respectively. 5697 5698 -- Request: .cc [c] 5699 Set the control character to C. With no argument the default 5700 control character `.' is restored. The value of the control 5701 character is associated with the current environment (*note 5702 Environments::). 5703 5704 -- Request: .c2 [c] 5705 Set the no-break control character to C. With no argument the 5706 default control character `'' is restored. The value of the 5707 no-break control character is associated with the current 5708 environment (*note Environments::). 5709 5710 -- Request: .eo 5711 Disable the escape mechanism completely. After executing this 5712 request, the backslash character `\' no longer starts an escape 5713 sequence. 5714 5715 This request can be very helpful in writing macros since it is not 5716 necessary then to double the escape character. Here an example: 5717 5718 5719 .\" This is a simplified version of the 5720 .\" .BR request from the man macro package 5721 .eo 5722 .de BR 5723 . ds result \& 5724 . while (\n[.$] >= 2) \{\ 5725 . as result \fB\$1\fR\$2 5726 . shift 2 5727 . \} 5728 . if \n[.$] .as result \fB\$1 5729 \*[result] 5730 . ft R 5731 .. 5732 .ec 5733 5734 5735 -- Request: .ec [c] 5736 Set the escape character to C. With no argument the default 5737 escape character `\' is restored. It can be also used to 5738 re-enable the escape mechanism after an `eo' request. 5739 5740 Note that changing the escape character globally will likely break 5741 macro packages since `gtroff' has no mechanism to `intern' macros, 5742 i.e., to convert a macro definition into an internal form which is 5743 independent of its representation (TeX has this mechanism). If a 5744 macro is called, it is executed literally. 5745 5746 -- Request: .ecs 5747 -- Request: .ecr 5748 The `ecs' request saves the current escape character in an 5749 internal register. Use this request in combination with the `ec' 5750 request to temporarily change the escape character. 5751 5752 The `ecr' request restores the escape character saved with `ecs'. 5753 Without a previous call to `ecs', this request sets the escape 5754 character to `\'. 5755 5756 -- Escape: \\ 5757 -- Escape: \e 5758 -- Escape: \E 5759 Print the current escape character (which is the backslash 5760 character `\' by default). 5761 5762 `\\' is a `delayed' backslash; more precisely, it is the default 5763 escape character followed by a backslash, which no longer has 5764 special meaning due to the leading escape character. It is _not_ 5765 an escape sequence in the usual sense! In any unknown escape 5766 sequence `\X' the escape character is ignored and X is printed. 5767 But if X is equal to the current escape character, no warning is 5768 emitted. 5769 5770 As a consequence, only at top-level or in a diversion a backslash 5771 glyph is printed; in copy-in mode, it expands to a single 5772 backslash which then combines with the following character to an 5773 escape sequence. 5774 5775 The `\E' escape differs from `\e' by printing an escape character 5776 that is not interpreted in copy mode. Use this to define strings 5777 with escapes that work when used in copy mode (for example, as a 5778 macro argument). The following example defines strings to begin 5779 and end a superscript: 5780 5781 5782 .ds { \v'-.3m'\s'\En[.s]*60/100' 5783 .ds } \s0\v'.3m' 5784 5785 Another example to demonstrate the differences between the various 5786 escape sequences, using a strange escape character, `-'. 5787 5788 5789 .ec - 5790 .de xxx 5791 --A'123' 5792 .. 5793 .xxx 5794 => -A'foo' 5795 5796 The result is surprising for most users, expecting `1' since `foo' 5797 is a valid identifier. What has happened? As mentioned above, 5798 the leading escape character makes the following character 5799 ordinary. Written with the default escape character the sequence 5800 `--' becomes `\-' - this is the minus sign. 5801 5802 If the escape character followed by itself is a valid escape 5803 sequence, only `\E' yields the expected result: 5804 5805 5806 .ec - 5807 .de xxx 5808 -EA'123' 5809 .. 5810 .xxx 5811 => 1 5812 5813 5814 -- Escape: \. 5815 Similar to `\\', the sequence `\.' isn't a real escape sequence. 5816 As before, a warning message is suppressed if the escape character 5817 is followed by a dot, and the dot itself is printed. 5818 5819 5820 .de foo 5821 . nop foo 5822 . 5823 . de bar 5824 . nop bar 5825 \\.. 5826 . 5827 .. 5828 .foo 5829 .bar 5830 => foo bar 5831 5832 The first backslash is consumed while the macro is read, and the 5833 second is swallowed while exexuting macro `foo'. 5834 5835 A "translation" is a mapping of an input character to an output 5836glyph. The mapping occurs at output time, i.e., the input character 5837gets assigned the metric information of the mapped output character 5838right before input tokens are converted to nodes (*note Gtroff 5839Internals::, for more on this process). 5840 5841 -- Request: .tr abcd... 5842 -- Request: .trin abcd... 5843 Translate character A to glyph B, character C to glyph D, etc. If 5844 there is an odd number of arguments, the last one is translated to 5845 an unstretchable space (`\ '). 5846 5847 The `trin' request is identical to `tr', but when you unformat a 5848 diversion with `asciify' it ignores the translation. *Note 5849 Diversions::, for details about the `asciify' request. 5850 5851 Some notes: 5852 5853 * Special characters (`\(XX', `\[XXX]', `\C'XXX'', `\'', `\`', 5854 `\-', `\_'), glyphs defined with the `char' request, and 5855 numbered glyphs (`\N'XXX'') can be translated also. 5856 5857 * The `\e' escape can be translated also. 5858 5859 * Characters can be mapped onto the `\%' and `\~' escapes (but 5860 `\%' and `\~' can't be mapped onto another glyph). 5861 5862 * The following characters can't be translated: space (with one 5863 exception, see below), backspace, newline, leader (and `\a'), 5864 tab (and `\t'). 5865 5866 * Translations are not considered for finding the soft hyphen 5867 character set with the `shc' request. 5868 5869 * The pair `C\&' (this is an arbitrary character C followed by 5870 the zero width space character) maps this character to 5871 nothing. 5872 5873 5874 .tr a\& 5875 foo bar 5876 => foo br 5877 5878 It is even possible to map the space character to nothing: 5879 5880 5881 .tr aa \& 5882 foo bar 5883 => foobar 5884 5885 As shown in the example, the space character can't be the 5886 first character/glyph pair as an argument of `tr'. 5887 Additionally, it is not possible to map the space character 5888 to any other glyph; requests like `.tr aa x' undo `.tr aa \&' 5889 instead. 5890 5891 If justification is active, lines are justified in spite of 5892 the `empty' space character (but there is no minimal 5893 distance, i.e. the space character, between words). 5894 5895 * After an output glyph has been constructed (this happens at 5896 the moment immediately before the glyph is appended to an 5897 output glyph list, either by direct output, in a macro, 5898 diversion, or string), it is no longer affected by `tr'. 5899 5900 * Translating character to glyphs where one of them or both are 5901 undefined is possible also; `tr' does not check whether the 5902 entities in its argument do exist. 5903 5904 *Note Gtroff Internals::. 5905 5906 * `troff' no longer has a hard-coded dependency on Latin-1; all 5907 `charXXX' entities have been removed from the font 5908 description files. This has a notable consequence which 5909 shows up in warnings like `can't find character with input 5910 code XXX' if the `tr' request isn't handled properly. 5911 5912 Consider the following translation: 5913 5914 5915 .tr �� 5916 5917 This maps input character `�' onto glyph `�', which is 5918 identical to glyph `char201'. But this glyph intentionally 5919 doesn't exist! Instead, `\[char201]' is treated as an input 5920 character entity and is by default mapped onto `\['E]', and 5921 `gtroff' doesn't handle translations of translations. 5922 5923 The right way to write the above translation is 5924 5925 5926 .tr �\['E] 5927 5928 With other words, the first argument of `tr' should be an 5929 input character or entity, and the second one a glyph entity. 5930 5931 * Without an argument, the `tr' request is ignored. 5932 5933 -- Request: .trnt abcd... 5934 `trnt' is the same as the `tr' request except that the 5935 translations do not apply to text that is transparently throughput 5936 into a diversion with `\!'. *Note Diversions::, for more 5937 information. 5938 5939 For example, 5940 5941 5942 .tr ab 5943 .di x 5944 \!.tm a 5945 .di 5946 .x 5947 5948 prints `b' to the standard error stream; if `trnt' is used instead 5949 of `tr' it prints `a'. 5950 5951 5952File: groff, Node: Troff and Nroff Mode, Next: Line Layout, Prev: Character Translations, Up: gtroff Reference 5953 59545.12 Troff and Nroff Mode 5955========================= 5956 5957Originally, `nroff' and `troff' were two separate programs, the former 5958for TTY output, the latter for everything else. With GNU `troff', both 5959programs are merged into one executable, sending its output to a device 5960driver (`grotty' for TTY devices, `grops' for POSTSCRIPT, etc.) which 5961interprets the intermediate output of `gtroff'. For UNIX `troff' it 5962makes sense to talk about "Nroff mode" and "Troff mode" since the 5963differences are hardcoded. For GNU `troff', this distinction is not 5964appropriate because `gtroff' simply takes the information given in the 5965font files for a particular device without handling requests specially 5966if a TTY output device is used. 5967 5968 Usually, a macro package can be used with all output devices. 5969Nevertheless, it is sometimes necessary to make a distinction between 5970TTY and non-TTY devices: `gtroff' provides two built-in conditions `n' 5971and `t' for the `if', `ie', and `while' requests to decide whether 5972`gtroff' shall behave like `nroff' or like `troff'. 5973 5974 -- Request: .troff 5975 Make the `t' built-in condition true (and the `n' built-in 5976 condition false) for `if', `ie', and `while' conditional requests. 5977 This is the default if `gtroff' (_not_ `groff') is started with 5978 the `-R' switch to avoid loading of the start-up files `troffrc' 5979 and `troffrc-end'. Without `-R', `gtroff' stays in troff mode if 5980 the output device is not a TTY (e.g. `ps'). 5981 5982 -- Request: .nroff 5983 Make the `n' built-in condition true (and the `t' built-in 5984 condition false) for `if', `ie', and `while' conditional requests. 5985 This is the default if `gtroff' uses a TTY output device; the 5986 code for switching to nroff mode is in the file `tty.tmac' which 5987 is loaded by the start-up file `troffrc'. 5988 5989 *Note Conditionals and Loops::, for more details on built-in 5990conditions. 5991 5992 5993File: groff, Node: Line Layout, Next: Line Control, Prev: Troff and Nroff Mode, Up: gtroff Reference 5994 59955.13 Line Layout 5996================ 5997 5998The following drawing shows the dimensions which `gtroff' uses for 5999placing a line of output onto the page. They are labeled with the 6000request which manipulates each dimension. 6001 6002 6003 -->| in |<-- 6004 |<-----------ll------------>| 6005 +----+----+----------------------+----+ 6006 | : : : | 6007 +----+----+----------------------+----+ 6008 -->| po |<-- 6009 |<--------paper width---------------->| 6010 6011These dimensions are: 6012 6013`po' 6014 "Page offset" - this is the leftmost position of text on the final 6015 output, defining the "left margin". 6016 6017`in' 6018 "Indentation" - this is the distance from the left margin where 6019 text is printed. 6020 6021`ll' 6022 "Line length" - this is the distance from the left margin to right 6023 margin. 6024 6025 A simple demonstration: 6026 6027 6028 .ll 3i 6029 This is text without indentation. 6030 The line length has been set to 3\~inch. 6031 .in +.5i 6032 .ll -.5i 6033 Now the left and right margins are both increased. 6034 .in 6035 .ll 6036 Calling .in and .ll without parameters restore 6037 the previous values. 6038 6039 Result: 6040 6041 6042 This is text without indenta- 6043 tion. The line length has 6044 been set to 3 inch. 6045 Now the left and 6046 right margins are 6047 both increased. 6048 Calling .in and .ll without 6049 parameters restore the previ- 6050 ous values. 6051 6052 -- Request: .po [offset] 6053 -- Request: .po +offset 6054 -- Request: .po -offset 6055 -- Register: \n[.o] 6056 Set horizontal page offset to OFFSET (or increment or decrement 6057 the current value by OFFSET). Note that this request does not 6058 cause a break, so changing the page offset in the middle of text 6059 being filled may not yield the expected result. The initial value 6060 is 1i. For TTY output devices, it is set to 0 in the startup file 6061 `troffrc'; the default scaling indicator is `m' (and not `v' as 6062 incorrectly documented in the original UNIX troff manual). 6063 6064 The current page offset can be found in the read-only number 6065 register `.o'. 6066 6067 If `po' is called without an argument, the page offset is reset to 6068 the previous value before the last call to `po'. 6069 6070 6071 .po 3i 6072 \n[.o] 6073 => 720 6074 .po -1i 6075 \n[.o] 6076 => 480 6077 .po 6078 \n[.o] 6079 => 720 6080 6081 6082 -- Request: .in [indent] 6083 -- Request: .in +indent 6084 -- Request: .in -indent 6085 -- Register: \n[.i] 6086 Set indentation to INDENT (or increment or decrement the current 6087 value by INDENT). This request causes a break. Initially, there 6088 is no indentation. 6089 6090 If `in' is called without an argument, the indentation is reset to 6091 the previous value before the last call to `in'. The default 6092 scaling indicator is `m'. 6093 6094 The indentation is associated with the current environment (*note 6095 Environments::). 6096 6097 If a negative indentation value is specified (which is not 6098 allowed), `gtroff' emits a warning of type `range' and sets the 6099 indentation to zero. 6100 6101 The effect of `in' is delayed until a partially collected line (if 6102 it exists) is output. A temporary indentation value is reset to 6103 zero also. 6104 6105 The current indentation (as set by `in') can be found in the 6106 read-only number register `.i'. 6107 6108 -- Request: .ti offset 6109 -- Request: .ti +offset 6110 -- Request: .ti -offset 6111 -- Register: \n[.in] 6112 Temporarily indent the next output line by OFFSET. If an 6113 increment or decrement value is specified, adjust the temporary 6114 indentation relative to the value set by the `in' request. 6115 6116 This request causes a break; its value is associated with the 6117 current environment (*note Environments::). The default scaling 6118 indicator is `m'. A call of `ti' without an argument is ignored. 6119 6120 If the total indentation value is negative (which is not allowed), 6121 `gtroff' emits a warning of type `range' and sets the temporary 6122 indentation to zero. `Total indentation' is either OFFSET if 6123 specified as an absolute value, or the temporary plus normal 6124 indentation, if OFFSET is given as a relative value. 6125 6126 The effect of `ti' is delayed until a partially collected line (if 6127 it exists) is output. 6128 6129 The read-only number register `.in' is the indentation that applies 6130 to the current output line. 6131 6132 The difference between `.i' and `.in' is that the latter takes 6133 into account whether a partially collected line still uses the old 6134 indentation value or a temporary indentation value is active. 6135 6136 -- Request: .ll [length] 6137 -- Request: .ll +length 6138 -- Request: .ll -length 6139 -- Register: \n[.l] 6140 -- Register: \n[.ll] 6141 Set the line length to LENGTH (or increment or decrement the 6142 current value by LENGTH). Initially, the line length is set to 6143 6.5i. The effect of `ll' is delayed until a partially collected 6144 line (if it exists) is output. The default scaling indicator is 6145 `m'. 6146 6147 If `ll' is called without an argument, the line length is reset to 6148 the previous value before the last call to `ll'. If a negative 6149 line length is specified (which is not allowed), `gtroff' emits a 6150 warning of type `range' and sets the line length to zero. 6151 6152 The line length is associated with the current environment (*note 6153 Environments::). 6154 6155 The current line length (as set by `ll') can be found in the 6156 read-only number register `.l'. The read-only number register 6157 `.ll' is the line length that applies to the current output line. 6158 6159 Similar to `.i' and `.in', the difference between `.l' and `.ll' 6160 is that the latter takes into account whether a partially 6161 collected line still uses the old line length value. 6162 6163 6164File: groff, Node: Line Control, Next: Page Layout, Prev: Line Layout, Up: gtroff Reference 6165 61665.14 Line Control 6167================= 6168 6169It is important to understand how `gtroff' handles input and output 6170lines. 6171 6172 Many escapes use positioning relative to the input line. For 6173example, this 6174 6175 6176 This is a \h'|1.2i'test. 6177 6178 This is a 6179 \h'|1.2i'test. 6180 6181produces 6182 6183 6184 This is a test. 6185 6186 This is a test. 6187 6188 The main usage of this feature is to define macros which act exactly 6189at the place where called. 6190 6191 6192 .\" A simple macro to underline a word 6193 .de underline 6194 . nop \\$1\l'|0\[ul]' 6195 .. 6196 6197In the above example, `|0' specifies a negative distance from the 6198current position (at the end of the just emitted argument `\$1') back 6199to the beginning of the input line. Thus, the `\l' escape draws a line 6200from right to left. 6201 6202 `gtroff' makes a difference between input and output line 6203continuation; the latter is also called "interrupting" a line. 6204 6205 -- Escape: \<RET> 6206 -- Escape: \c 6207 -- Register: \n[.int] 6208 Continue a line. `\<RET>' (this is a backslash at the end of a 6209 line immediately followed by a newline) works on the input level, 6210 suppressing the effects of the following newline in the input. 6211 6212 6213 This is a \ 6214 .test 6215 => This is a .test 6216 6217 The `|' operator is also affected. 6218 6219 `\c' works on the output level. Anything after this escape on the 6220 same line is ignored, except `\R' which works as usual. Anything 6221 before `\c' on the same line will be appended to the current 6222 partial output line. The next non-command line after an 6223 interrupted line counts as a new input line. 6224 6225 The visual results depend on whether no-fill mode is active. 6226 6227 * If no-fill mode is active (using the `nf' request), the next 6228 input text line after `\c' will be handled as a continuation 6229 of the same input text line. 6230 6231 6232 .nf 6233 This is a \c 6234 test. 6235 => This is a test. 6236 6237 * If fill mode is active (using the `fi' request), a word 6238 interrupted with `\c' will be continued with the text on the 6239 next input text line, without an intervening space. 6240 6241 6242 This is a te\c 6243 st. 6244 => This is a test. 6245 6246 6247 Note that an intervening control line which causes a break is 6248 stronger than `\c', flushing out the current partial line in the 6249 usual way. 6250 6251 The `.int' register contains a positive value if the last output 6252 line was interrupted with `\c'; this is associated with the 6253 current environment (*note Environments::). 6254 6255 6256File: groff, Node: Page Layout, Next: Page Control, Prev: Line Control, Up: gtroff Reference 6257 62585.15 Page Layout 6259================ 6260 6261`gtroff' provides some very primitive operations for controlling page 6262layout. 6263 6264 -- Request: .pl [length] 6265 -- Request: .pl +length 6266 -- Request: .pl -length 6267 -- Register: \n[.p] 6268 Set the "page length" to LENGTH (or increment or decrement the 6269 current value by LENGTH). This is the length of the physical 6270 output page. The default scaling indicator is `v'. 6271 6272 The current setting can be found in the read-only number register 6273 `.p'. 6274 6275 Note that this only specifies the size of the page, not the top and 6276 bottom margins. Those are not set by `gtroff' directly. *Note 6277 Traps::, for further information on how to do this. 6278 6279 Negative `pl' values are possible also, but not very useful: No 6280 trap is sprung, and each line is output on a single page (thus 6281 suppressing all vertical spacing). 6282 6283 If no argument or an invalid argument is given, `pl' sets the page 6284 length to 11i. 6285 6286 `gtroff' provides several operations which help in setting up top 6287and bottom titles (or headers and footers). 6288 6289 -- Request: .tl 'left'center'right' 6290 Print a "title line". It consists of three parts: a left 6291 justified portion, a centered portion, and a right justified 6292 portion. The argument separator `'' can be replaced with any 6293 character not occurring in the title line. The `%' character is 6294 replaced with the current page number. This character can be 6295 changed with the `pc' request (see below). 6296 6297 Without argument, `tl' is ignored. 6298 6299 Some notes: 6300 6301 * A title line is not restricted to the top or bottom of a page. 6302 6303 * `tl' prints the title line immediately, ignoring a partially 6304 filled line (which stays untouched). 6305 6306 * It is not an error to omit closing delimiters. For example, 6307 `.tl /foo' is equivalent to `.tl /foo///': It prints a title 6308 line with the left justified word `foo'; the centered and 6309 right justfied parts are empty. 6310 6311 * `tl' accepts the same parameter delimiting characters as the 6312 `\A' escape; see *Note Escapes::. 6313 6314 -- Request: .lt [length] 6315 -- Request: .lt +length 6316 -- Request: .lt -length 6317 -- Register: \n[.lt] 6318 The title line is printed using its own line length, which is 6319 specified (or incremented or decremented) with the `lt' request. 6320 Initially, the title line length is set to 6.5i. If a negative 6321 line length is specified (which is not allowed), `gtroff' emits a 6322 warning of type `range' and sets the title line length to zero. 6323 The default scaling indicator is `m'. If `lt' is called without 6324 an argument, the title length is reset to the previous value 6325 before the last call to `lt'. 6326 6327 The current setting of this is available in the `.lt' read-only 6328 number register; it is associated with the current environment 6329 (*note Environments::). 6330 6331 -- Request: .pn page 6332 -- Request: .pn +page 6333 -- Request: .pn -page 6334 -- Register: \n[.pn] 6335 Change (increase or decrease) the page number of the _next_ page. 6336 The only argument is the page number; the request is ignored 6337 without a parameter. 6338 6339 The read-only number register `.pn' contains the number of the next 6340 page: either the value set by a `pn' request, or the number of the 6341 current page plus 1. 6342 6343 -- Request: .pc [char] 6344 Change the page number character (used by the `tl' request) to a 6345 different character. With no argument, this mechanism is disabled. 6346 Note that this doesn't affect the number register `%'. 6347 6348 *Note Traps::. 6349 6350 6351File: groff, Node: Page Control, Next: Fonts and Symbols, Prev: Page Layout, Up: gtroff Reference 6352 63535.16 Page Control 6354================= 6355 6356 -- Request: .bp [page] 6357 -- Request: .bp +page 6358 -- Request: .bp -page 6359 -- Register: \n[%] 6360 Stop processing the current page and move to the next page. This 6361 request causes a break. It can also take an argument to set 6362 (increase, decrease) the page number of the next page (which 6363 actually becomes the current page after `bp' has finished). The 6364 difference between `bp' and `pn' is that `pn' does not cause a 6365 break or actually eject a page. *Note Page Layout::. 6366 6367 6368 .de newpage \" define macro 6369 'bp \" begin page 6370 'sp .5i \" vertical space 6371 .tl 'left top'center top'right top' \" title 6372 'sp .3i \" vertical space 6373 .. \" end macro 6374 6375 `bp' has no effect if not called within the top-level diversion 6376 (*note Diversions::). 6377 6378 The read-write register `%' holds the current page number. 6379 6380 The number register `.pe' is set to 1 while `bp' is active. *Note 6381 Page Location Traps::. 6382 6383 -- Request: .ne [space] 6384 It is often necessary to force a certain amount of space before a 6385 new page occurs. This is most useful to make sure that there is 6386 not a single "orphan" line left at the bottom of a page. The `ne' 6387 request ensures that there is a certain distance, specified by the 6388 first argument, before the next page is triggered (see *Note 6389 Traps::, for further information). The default scaling indicator 6390 for `ne' is `v'; the default value of SPACE is 1v if no argument 6391 is given. 6392 6393 For example, to make sure that no fewer than 2 lines get orphaned, 6394 do the following before each paragraph: 6395 6396 6397 .ne 2 6398 text text text 6399 6400 `ne' will then automatically cause a page break if there is space 6401 for one line only. 6402 6403 -- Request: .sv [space] 6404 -- Request: .os 6405 `sv' is similar to the `ne' request; it reserves the specified 6406 amount of vertical space. If the desired amount of space exists 6407 before the next trap (or the bottom page boundary if no trap is 6408 set), the space is output immediately (ignoring a partially filled 6409 line which stays untouched). If there is not enough space, it is 6410 stored for later output via the `os' request. The default value 6411 is 1v if no argument is given; the default scaling indicator is 6412 `v'. 6413 6414 Both `sv' and `os' ignore no-space mode. While the `sv' request 6415 allows negative values for SPACE, `os' will ignore them. 6416 6417 -- Register: \n[nl] 6418 This register contains the current vertical position. If the 6419 vertical position is zero and the top of page transition hasn't 6420 happened yet, `nl' is set to negative value. `gtroff' itself does 6421 this at the very beginning of a document before anything has been 6422 printed, but the main usage is to plant a header trap on a page if 6423 this page has already started. 6424 6425 Consider the following: 6426 6427 6428 .de xxx 6429 . sp 6430 . tl ''Header'' 6431 . sp 6432 .. 6433 . 6434 First page. 6435 .bp 6436 .wh 0 xxx 6437 .nr nl (-1) 6438 Second page. 6439 6440 Result: 6441 6442 6443 First page. 6444 6445 ... 6446 6447 Header 6448 6449 Second page. 6450 6451 ... 6452 6453 Without resetting `nl' to a negative value, the just planted trap 6454 would be active beginning with the _next_ page, not the current 6455 one. 6456 6457 *Note Diversions::, for a comparison with the `.h' and `.d' 6458 registers. 6459 6460 6461File: groff, Node: Fonts and Symbols, Next: Sizes, Prev: Page Control, Up: gtroff Reference 6462 64635.17 Fonts and Symbols 6464====================== 6465 6466`gtroff' can switch fonts at any point in the text. 6467 6468 The basic set of fonts is `R', `I', `B', and `BI'. These are Times 6469Roman, Italic, Bold, and Bold Italic. For non-TTY devices, there is 6470also at least one symbol font which contains various special symbols 6471(Greek, mathematics). 6472 6473* Menu: 6474 6475* Changing Fonts:: 6476* Font Families:: 6477* Font Positions:: 6478* Using Symbols:: 6479* Special Fonts:: 6480* Artificial Fonts:: 6481* Ligatures and Kerning:: 6482 6483 6484File: groff, Node: Changing Fonts, Next: Font Families, Prev: Fonts and Symbols, Up: Fonts and Symbols 6485 64865.17.1 Changing Fonts 6487--------------------- 6488 6489 -- Request: .ft [font] 6490 -- Escape: \ff 6491 -- Escape: \f(fn 6492 -- Escape: \f[font] 6493 -- Register: \n[.sty] 6494 The `ft' request and the `\f' escape change the current font to 6495 FONT (one-character name F, two-character name FN). 6496 6497 If FONT is a style name (as set with the `sty' request or with the 6498 `styles' command in the `DESC' file), use it within the current 6499 font family (as set with the `fam' request, `\F' escape, or with 6500 the `family' command in the `DESC' file). 6501 6502 With no argument or using `P' as an argument, `.ft' switches to 6503 the previous font. Use `\f[]' to do this with the escape. The 6504 old syntax forms `\fP' or `\f[P]' are also supported. 6505 6506 Fonts are generally specified as upper-case strings, which are 6507 usually 1 to 4 characters representing an abbreviation or acronym 6508 of the font name. This is no limitation, just a convention. 6509 6510 The example below produces two identical lines. 6511 6512 6513 eggs, bacon, 6514 .ft B 6515 spam 6516 .ft 6517 and sausage. 6518 6519 eggs, bacon, \fBspam\fP and sausage. 6520 6521 Note that `\f' doesn't produce an input token in `gtroff'. As a 6522 consequence, it can be used in requests like `mc' (which expects a 6523 single character as an argument) to change the font on the fly: 6524 6525 6526 .mc \f[I]x\f[] 6527 6528 The current style name is available in the read-only number 6529 register `.sty' (this is a string-valued register); if the current 6530 font isn't a style, the empty string is returned. It is 6531 associated with the current environment. 6532 6533 *Note Font Positions::, for an alternative syntax. 6534 6535 -- Request: .ftr f [g] 6536 Translate font F to font G. Whenever a font named F is referred 6537 to in a `\f' escape sequence, in the `F' and `S' conditional 6538 operators, or in the `ft', `ul', `bd', `cs', `tkf', `special', 6539 `fspecial', `fp', or `sty' requests, font G is used. If G is 6540 missing or equal to F the translation is undone. 6541 6542 6543File: groff, Node: Font Families, Next: Font Positions, Prev: Changing Fonts, Up: Fonts and Symbols 6544 65455.17.2 Font Families 6546-------------------- 6547 6548Due to the variety of fonts available, `gtroff' has added the concept 6549of "font families" and "font styles". The fonts are specified as the 6550concatenation of the font family and style. Specifying a font without 6551the family part causes `gtroff' to use that style of the current family. 6552 6553 Currently, fonts for the devices `-Tps', `-Tdvi', `-Tlj4', `-Tlbp', 6554and the X11 fonts are set up to this mechanism. By default, `gtroff' 6555uses the Times family with the four styles `R', `I', `B', and `BI'. 6556 6557 This way, it is possible to use the basic four fonts and to select a 6558different font family on the command line (*note Groff Options::). 6559 6560 -- Request: .fam [family] 6561 -- Register: \n[.fam] 6562 -- Escape: \Ff 6563 -- Escape: \F(fm 6564 -- Escape: \F[family] 6565 -- Register: \n[.fn] 6566 Switch font family to FAMILY (one-character name F, two-character 6567 name FM). If no argument is given, switch back to the previous 6568 font family. Use `\F[]' to do this with the escape. Note that 6569 `\FP' doesn't work; it selects font family `P' instead. 6570 6571 The value at start-up is `T'. The current font family is 6572 available in the read-only number register `.fam' (this is a 6573 string-valued register); it is associated with the current 6574 environment. 6575 6576 6577 spam, 6578 .fam H \" helvetica family 6579 spam, \" used font is family H + style R = HR 6580 .ft B \" family H + style B = font HB 6581 spam, 6582 .fam T \" times family 6583 spam, \" used font is family T + style B = TB 6584 .ft AR \" font AR (not a style) 6585 baked beans, 6586 .ft R \" family T + style R = font TR 6587 and spam. 6588 6589 Note that `\F' doesn't produce an input token in `gtroff'. As a 6590 consequence, it can be used in requests like `mc' (which expects a 6591 single character as an argument) to change the font family on the 6592 fly: 6593 6594 6595 .mc \F[P]x\F[] 6596 6597 The `.fn' register contains the current "real font name" of the 6598 current font. This is a string-valued register. If the current 6599 font is a style, the value of `\n[.fn]' is the proper 6600 concatenation of family and style name. 6601 6602 -- Request: .sty n style 6603 Associate STYLE with font position N. A font position can be 6604 associated either with a font or with a style. The current font 6605 is the index of a font position and so is also either a font or a 6606 style. If it is a style, the font that is actually used is the 6607 font which name is the concatenation of the name of the current 6608 family and the name of the current style. For example, if the 6609 current font is 1 and font position 1 is associated with style `R' 6610 and the current font family is `T', then font `TR' will be used. 6611 If the current font is not a style, then the current family is 6612 ignored. If the requests `cs', `bd', `tkf', `uf', or `fspecial' 6613 are applied to a style, they will instead be applied to the member 6614 of the current family corresponding to that style. 6615 6616 N must be a non-negative integer value. 6617 6618 The default family can be set with the `-f' option (*note Groff 6619 Options::). The `styles' command in the `DESC' file controls 6620 which font positions (if any) are initially associated with styles 6621 rather than fonts. For example, the default setting for 6622 POSTSCRIPT fonts 6623 6624 6625 styles R I B BI 6626 6627 is equivalent to 6628 6629 6630 .sty 1 R 6631 .sty 2 I 6632 .sty 3 B 6633 .sty 4 BI 6634 6635 `fam' and `\F' always check whether the current font position is 6636 valid; this can give surprising results if the current font 6637 position is associated with a style. 6638 6639 In the following example, we want to access the POSTSCRIPT font 6640 `FooBar' from the font family `Foo': 6641 6642 6643 .sty \n[.fp] Bar 6644 .fam Foo 6645 => warning: can't find font `FooR' 6646 6647 The default font position at start-up is 1; for the POSTSCRIPT 6648 device, this is associated with style `R', so `gtroff' tries to 6649 open `FooR'. 6650 6651 A solution to this problem is to use a dummy font like the 6652 following: 6653 6654 6655 .fp 0 dummy TR \" set up dummy font at position 0 6656 .sty \n[.fp] Bar \" register style `Bar' 6657 .ft 0 \" switch to font at position 0 6658 .fam Foo \" activate family `Foo' 6659 .ft Bar \" switch to font `FooBar' 6660 6661 *Note Font Positions::. 6662 6663 6664File: groff, Node: Font Positions, Next: Using Symbols, Prev: Font Families, Up: Fonts and Symbols 6665 66665.17.3 Font Positions 6667--------------------- 6668 6669For the sake of old phototypesetters and compatibility with old versions 6670of `troff', `gtroff' has the concept of font "positions", on which 6671various fonts are mounted. 6672 6673 -- Request: .fp pos font [external-name] 6674 -- Register: \n[.f] 6675 -- Register: \n[.fp] 6676 Mount font FONT at position POS (which must be a non-negative 6677 integer). This numeric position can then be referred to with font 6678 changing commands. When `gtroff' starts it is using font 6679 position 1 (which must exist; position 0 is unused usually at 6680 start-up). 6681 6682 The current font in use, as a font position, is available in the 6683 read-only number register `.f'. This can be useful to remember the 6684 current font for later recall. It is associated with the current 6685 environment (*note Environments::). 6686 6687 6688 .nr save-font \n[.f] 6689 .ft B 6690 ... text text text ... 6691 .ft \n[save-font] 6692 6693 The number of the next free font position is available in the 6694 read-only number register `.fp'. This is useful when mounting a 6695 new font, like so: 6696 6697 6698 .fp \n[.fp] NEATOFONT 6699 6700 Fonts not listed in the `DESC' file are automatically mounted on 6701 the next available font position when they are referenced. If a 6702 font is to be mounted explicitly with the `fp' request on an unused 6703 font position, it should be mounted on the first unused font 6704 position, which can be found in the `.fp' register. Although 6705 `gtroff' does not enforce this strictly, it is not allowed to 6706 mount a font at a position whose number is much greater (approx. 6707 1000 positions) than that of any currently used position. 6708 6709 The `fp' request has an optional third argument. This argument 6710 gives the external name of the font, which is used for finding the 6711 font description file. The second argument gives the internal 6712 name of the font which is used to refer to the font in `gtroff' 6713 after it has been mounted. If there is no third argument then the 6714 internal name is used as the external name. This feature makes it 6715 possible to use fonts with long names in compatibility mode. 6716 6717 Both the `ft' request and the `\f' escape have alternative syntax 6718forms to access font positions. 6719 6720 -- Request: .ft nnn 6721 -- Escape: \fn 6722 -- Escape: \f(nn 6723 -- Escape: \f[nnn] 6724 Change the current font position to NNN (one-digit position N, 6725 two-digit position NN), which must be a non-negative integer. 6726 6727 If NNN is associated with a style (as set with the `sty' request 6728 or with the `styles' command in the `DESC' file), use it within 6729 the current font family (as set with the `fam' request, the `\F' 6730 escape, or with the `family' command in the `DESC' file). 6731 6732 6733 this is font 1 6734 .ft 2 6735 this is font 2 6736 .ft \" switch back to font 1 6737 .ft 3 6738 this is font 3 6739 .ft 6740 this is font 1 again 6741 6742 *Note Changing Fonts::, for the standard syntax form. 6743 6744 6745File: groff, Node: Using Symbols, Next: Special Fonts, Prev: Font Positions, Up: Fonts and Symbols 6746 67475.17.4 Using Symbols 6748-------------------- 6749 6750A "glyph" is a graphical representation of a "character". While a 6751character is an abstract entity containing semantic information, a 6752glyph is something which can be actually seen on screen or paper. It 6753is possible that a character has multiple glyph representation forms 6754(for example, the character `A' can be either written in a roman or an 6755italic font, yielding two different glyphs); sometimes more than one 6756character maps to a single glyph (this is a "ligature" - the most 6757common is `fi'). 6758 6759 A "symbol" is simply a named glyph. Within `gtroff', all glyph 6760names of a particular font are defined in its font file. If the user 6761requests a glyph not available in this font, `gtroff' looks up an 6762ordered list of "special fonts". By default, the POSTSCRIPT output 6763device supports the two special fonts `SS' (slanted symbols) and `S' 6764(symbols) (the former is looked up before the latter). Other output 6765devices use different names for special fonts. Fonts mounted with the 6766`fonts' keyword in the `DESC' file are globally available. To install 6767additional special fonts locally (i.e. for a particular font), use the 6768`fspecial' request. 6769 6770 Here the exact rules how `gtroff' searches a given symbol: 6771 6772 * If the symbol has been defined with the `char' request, use it. 6773 This hides a symbol with the same name in the current font. 6774 6775 * Check the current font. 6776 6777 * If the symbol has been defined with the `fchar' request, use it. 6778 6779 * Check whether the current font has a font-specific list of special 6780 fonts; test all fonts in the order of appearance in the last 6781 `fspecial' call if appropriate. 6782 6783 * If the symbol has been defined with the `fschar' request for the 6784 current font, use it. 6785 6786 * Check all fonts in the order of appearance in the last `special' 6787 call. 6788 6789 * If the symbol has been defined with the `schar' request, use it. 6790 6791 * As a last resort, consult all fonts loaded up to now for special 6792 fonts and check them, starting with the lowest font number. Note 6793 that this can sometimes lead to surprising results since the 6794 `fonts' line in the `DESC' file often contains empty positions 6795 which are filled later on. For example, consider the following: 6796 6797 6798 fonts 3 0 0 FOO 6799 6800 This mounts font `foo' at font position 3. We assume that `FOO' 6801 is a special font, containing glyph `foo', and that no font has 6802 been loaded yet. The line 6803 6804 6805 .fspecial BAR BAZ 6806 6807 makes font `BAZ' special only if font `BAR' is active. We further 6808 assume that `BAZ' is really a special font, i.e., the font 6809 description file contains the `special' keyword, and that it also 6810 contains glyph `foo' with a special shape fitting to font `BAR'. 6811 After executing `fspecial', font `BAR' is loaded at font 6812 position 1, and `BAZ' at position 2. 6813 6814 We now switch to a new font `XXX', trying to access glyph `foo' 6815 which is assumed to be missing. There are neither font-specific 6816 special fonts for `XXX' nor any other fonts made special with the 6817 `special' request, so `gtroff' starts the search for special fonts 6818 in the list of already mounted fonts, with increasing font 6819 positions. Consequently, it finds `BAZ' before `FOO' even for 6820 `XXX' which is not the intended behaviour. 6821 6822 *Note Font Files::, and *Note Special Fonts::, for more details. 6823 6824 The list of available symbols is device dependent; see the 6825`groff_char(7)' man page for a complete list of all glyphs. For 6826example, say 6827 6828 6829 man -Tdvi groff_char > groff_char.dvi 6830 6831for a list using the default DVI fonts (not all versions of the `man' 6832program support the `-T' option). If you want to use an additional 6833macro package to change the used fonts, `groff' must be called directly: 6834 6835 6836 groff -Tdvi -mec -man groff_char.7 > groff_char.dvi 6837 6838 Glyph names not listed in groff_char(7) are derived algorithmically, 6839using a simplified version of the Adobe Glyph List (AGL) algorithm 6840which is described in 6841`http://partners.adobe.com/asn/tech/type/unicodegn.jsp'. The (frozen) 6842set of glyph names which can't be derived algorithmically is called 6843"groff glyph list (GGL)". 6844 6845 * A glyph for Unicode character U+XXXX[X[X]] which is not a 6846 composite character will be named `uXXXX[X[X]]'. X must be an 6847 uppercase hexadecimal digit. Examples: `u1234', `u008E', 6848 `u12DB8'. The largest Unicode value is 0x10FFFF. There must be at 6849 least four `X' digits; if necessary, add leading zeroes (after the 6850 `u'). No zero padding is allowed for character codes greater than 6851 0xFFFF. Surrogates (i.e., Unicode values greater than 0xFFFF 6852 represented with character codes from the surrogate area 6853 U+D800-U+DFFF) are not allowed too. 6854 6855 * A glyph representing more than a single input character will be 6856 named 6857 6858 `u' COMPONENT1 `_' COMPONENT2 `_' COMPONENT3 ... 6859 6860 Example: `u0045_0302_0301'. 6861 6862 For simplicity, all Unicode characters which are composites must be 6863 decomposed maximally (this is normalization form D in the Unicode 6864 standard); for example, `u00CA_0301' is not a valid glyph name 6865 since U+00CA (LATIN CAPITAL LETTER E WITH CIRCUMFLEX) can be 6866 further decomposed into U+0045 (LATIN CAPITAL LETTER E) and U+0302 6867 (COMBINING CIRCUMFLEX ACCENT). `u0045_0302_0301' is thus the 6868 glyph name for U+1EBE, LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND 6869 ACUTE. 6870 6871 * groff maintains a table to decompose all algorithmically derived 6872 glyph names which are composites itself. For example, `u0100' 6873 (LATIN LETTER A WITH MACRON) will be automatically decomposed into 6874 `u0041_0304'. Additionally, a glyph name of the GGL is preferred 6875 to an algorithmically derived glyph name; groff also automatically 6876 does the mapping. Example: The glyph `u0045_0302' will be mapped 6877 to `^E'. 6878 6879 * glyph names of the GGL can't be used in composite glyph names; for 6880 example, `^E_u0301' is invalid. 6881 6882 -- Escape: \(nm 6883 -- Escape: \[name] 6884 -- Escape: \[component1 component2 ...] 6885 Insert a symbol NAME (two-character name NM) or a composite glyph 6886 with component glyphs COMPONENT1, COMPONENT2, .... There is no 6887 special syntax for one-character names - the natural form `\N' 6888 would collide with escapes.(1) (*note Using Symbols-Footnote-1::) 6889 6890 If NAME is undefined, a warning of type `char' is generated, and 6891 the escape is ignored. *Note Debugging::, for information about 6892 warnings. 6893 6894 groff resolves `\[...]' with more than a single component as 6895 follows: 6896 6897 * Any component which is found in the GGL will be converted to 6898 the `uXXXX' form. 6899 6900 * Any component `uXXXX' which is found in the list of 6901 decomposable glyphs will be decomposed. 6902 6903 * The resulting elements are then concatenated with `_' 6904 inbetween, dropping the leading `u' in all elements but the 6905 first. 6906 6907 No check for the existence of any component (similar to `tr' 6908 request) will be done. 6909 6910 Examples: 6911 6912 `\[A ho]' 6913 `A' maps to `u0041', `ho' maps to `u02DB', thus the final 6914 glyph name would be `u0041_02DB'. Note this is not the 6915 expected result: The ogonek glyph `ho' is a spacing ogonek, 6916 but for a proper composite a non-spacing ogonek (U+0328) is 6917 necessary. Looking into the file `composite.tmac' one can 6918 find `.composite ho u0328' which changes the mapping of `ho' 6919 while a composite glyph name is constructed, causing the 6920 final glyph name to be `u0041_0328'. 6921 6922 `\[^E u0301]' 6923 `\[^E aa]' 6924 `\[E a^ aa]' 6925 `\[E ^ ']' 6926 `^E' maps to `u0045_0302', thus the final glyph name is 6927 `u0045_0302_0301' in all forms (assuming proper calls of the 6928 `composite' request). 6929 6930 It is not possible to define glyphs with names like `A ho' within 6931 a groff font file. This is not really a limitation; instead, you 6932 have to define `u0041_0328'. 6933 6934 -- Escape: \C'xxx' 6935 Typeset the glyph named XXX.(2) (*note Using Symbols-Footnote-2::) 6936 Normally it is more convenient to use `\[XXX]', but `\C' has the 6937 advantage that it is compatible with newer versions of AT&T 6938 `troff' and is available in compatibility mode. 6939 6940 -- Request: .composite from to 6941 Map glyph name FROM to glyph name TO if it is used in `\[...]' 6942 with more than one component. See above for examples. 6943 6944 This mapping is based on glyph names only; no check for the 6945 existence of either glyph is done. 6946 6947 A set of default mappings for many accents can be found in the file 6948 `composite.tmac' which is loaded at start-up. 6949 6950 -- Escape: \N'n' 6951 Typeset the glyph with code N in the current font (`n' is *not* 6952 the input character code). The number N can be any non-negative 6953 decimal integer. Most devices only have glyphs with codes between 6954 0 and 255; the Unicode output device uses codes in the range 6955 0-65535. If the current font does not contain a glyph with that 6956 code, special fonts are _not_ searched. The `\N' escape sequence 6957 can be conveniently used in conjunction with the `char' request: 6958 6959 6960 .char \[phone] \f[ZD]\N'37' 6961 6962 The code of each glyph is given in the fourth column in the font 6963 description file after the `charset' command. It is possible to 6964 include unnamed glyphs in the font description file by using a 6965 name of `---'; the `\N' escape sequence is the only way to use 6966 these. 6967 6968 No kerning is applied to glyphs accessed with `\N'. 6969 6970 Some escape sequences directly map onto special glyphs. 6971 6972 -- Escape: \' 6973 This is a backslash followed by the apostrophe character, ASCII 6974 character `0x27' (EBCDIC character `0x7D'). The same as `\[aa]', 6975 the acute accent. 6976 6977 -- Escape: \` 6978 This is a backslash followed by ASCII character `0x60' (EBCDIC 6979 character `0x79' usually). The same as `\[ga]', the grave accent. 6980 6981 -- Escape: \- 6982 This is the same as `\[-]', the minus sign in the current font. 6983 6984 -- Request: .cflags n c1 c2 ... 6985 Input characters and symbols have certain properties associated 6986 with it.(3) (*note Using Symbols-Footnote-3::) These properties 6987 can be modified with the `cflags' request. The first argument is 6988 the sum of the desired flags and the remaining arguments are the 6989 characters or symbols to have those properties. It is possible to 6990 omit the spaces between the characters or symbols. 6991 6992 `1' 6993 The character ends sentences (initially characters `.?!' have 6994 this property). 6995 6996 `2' 6997 Lines can be broken before the character (initially no 6998 characters have this property). 6999 7000 `4' 7001 Lines can be broken after the character (initially the 7002 character `-' and the symbols `\[hy]' and `\[em]' have this 7003 property). 7004 7005 `8' 7006 The character overlaps horizontally if used as a horizontal 7007 line building element. Initially the symbols `\[ul]', 7008 `\[rn]', `\[ru]', `\[radicalex]', and `\[sqrtex]' have this 7009 property. 7010 7011 `16' 7012 The character overlaps vertically if used as vertical line 7013 building element. Initially symbol `\[br]' has this property. 7014 7015 `32' 7016 An end-of-sentence character followed by any number of 7017 characters with this property is treated as the end of a 7018 sentence if followed by a newline or two spaces; in other 7019 words the character is "transparent" for the purposes of 7020 end-of-sentence recognition - this is the same as having a 7021 zero space factor in TeX (initially characters `"')]*' and 7022 the symbols `\[dg]' and `\[rq]' have this property). 7023 7024 -- Request: .char g [string] 7025 -- Request: .fchar g [string] 7026 -- Request: .fschar f g [string] 7027 -- Request: .schar g [string] 7028 Define a new glyph G to be STRING (which can be empty).(4) (*note 7029 Using Symbols-Footnote-4::) Every time glyph G needs to be 7030 printed, STRING is processed in a temporary environment and the 7031 result is wrapped up into a single object. Compatibility mode is 7032 turned off and the escape character is set to `\' while STRING is 7033 being processed. Any emboldening, constant spacing or track 7034 kerning is applied to this object rather than to individual 7035 characters in STRING. 7036 7037 A glyph defined by these requests can be used just like a normal 7038 glyph provided by the output device. In particular, other 7039 characters can be translated to it with the `tr' or `trin' 7040 requests; it can be made the leader character by the `lc' request; 7041 repeated patterns can be drawn with the glyph using the `\l' and 7042 `\L' escape sequences; words containing the glyph can be 7043 hyphenated correctly if the `hcode' request is used to give the 7044 glyph's symbol a hyphenation code. 7045 7046 There is a special anti-recursion feature: Use of `g' within the 7047 glyph's definition is handled like normal characters and symbols 7048 not defined with `char'. 7049 7050 Note that the `tr' and `trin' requests take precedence if `char' 7051 accesses the same symbol. 7052 7053 7054 .tr XY 7055 X 7056 => Y 7057 .char X Z 7058 X 7059 => Y 7060 .tr XX 7061 X 7062 => Z 7063 7064 The `fchar' request defines a fallback glyph: `gtroff' only checks 7065 for glyphs defined with `fchar' if it cannot find the glyph in the 7066 current font. `gtroff' carries out this test before checking 7067 special fonts. 7068 7069 `fschar' defines a fallback glyph for font F: `gtroff' checks for 7070 glyphs defined with `fschar' after the list of fonts declared as 7071 font-specific special fonts with the `fspecial' request, but 7072 before the list of fonts declared as global special fonts with the 7073 `special' request. 7074 7075 Finally, the `schar' request defines a global fallback glyph: 7076 `gtroff' checks for glyphs defined with `schar' after the list of 7077 fonts declared as global special fonts with the `special' request, 7078 but before the already mounted special fonts. 7079 7080 *Note Using Symbols::, for a detailed description of the glyph 7081 searching mechanism in `gtroff'. 7082 7083 -- Request: .rchar c1 c2 ... 7084 -- Request: .rfschar f c1 c2 ... 7085 Remove the definitions of glyphs C1, C2, .... This undoes the 7086 effect of a `char', `fchar', or `schar' request. 7087 7088 It is possible to omit the whitespace between arguments. 7089 7090 The request `rfschar' removes glyph definitions defined with 7091 `fschar' for glyph f. 7092 7093 *Note Special Characters::. 7094 7095 7096File: groff, Node: Using Symbols-Footnotes, Up: Using Symbols 7097 7098 (1) Note that a one-character symbol is not the same as an input 7099character, i.e., the character `a' is not the same as `\[a]'. By 7100default, `groff' defines only a single one-character symbol, `\[-]'; it 7101is usually accessed as `\-'. On the other hand, `gtroff' has the 7102special feature that `\[charXXX]' is the same as the input character 7103with character code XXX. For example, `\[char97]' is identical to the 7104letter `a' if ASCII encoding is active. 7105 7106 (2) `\C' is actually a misnomer since it accesses an output glyph. 7107 7108 (3) Note that the output glyphs themselves don't have such 7109properties. For `gtroff', a glyph is a numbered box with a given 7110width, depth, and height, nothing else. All manipulations with the 7111`cflags' request work on the input level. 7112 7113 (4) `char' is a misnomer since an output glyph is defined. 7114 7115 7116File: groff, Node: Special Fonts, Next: Artificial Fonts, Prev: Using Symbols, Up: Fonts and Symbols 7117 71185.17.5 Special Fonts 7119-------------------- 7120 7121Special fonts are those that `gtroff' searches when it cannot find the 7122requested glyph in the current font. The Symbol font is usually a 7123special font. 7124 7125 `gtroff' provides the following two requests to add more special 7126fonts. *Note Using Symbols::, for a detailed description of the glyph 7127searching mechanism in `gtroff'. 7128 7129 Usually, only non-TTY devices have special fonts. 7130 7131 -- Request: .special [s1 s2 ...] 7132 -- Request: .fspecial f [s1 s2 ...] 7133 Use the `special' request to define special fonts. Initially, this 7134 list is empty. 7135 7136 Use the `fspecial' request to designate special fonts only when 7137 font F is active. Initially, this list is empty. 7138 7139 Previous calls to `special' or `fspecial' are overwritten; without 7140 arguments, the particular list of special fonts is set to empty. 7141 Special fonts are searched in the order they appear as arguments. 7142 7143 All fonts which appear in a call to `special' or `fspecial' are 7144 loaded. 7145 7146 *Note Using Symbols::, for the exact search order of glyphs. 7147 7148 7149File: groff, Node: Artificial Fonts, Next: Ligatures and Kerning, Prev: Special Fonts, Up: Fonts and Symbols 7150 71515.17.6 Artificial Fonts 7152----------------------- 7153 7154There are a number of requests and escapes for artificially creating 7155fonts. These are largely vestiges of the days when output devices did 7156not have a wide variety of fonts, and when `nroff' and `troff' were 7157separate programs. Most of them are no longer necessary in GNU 7158`troff'. Nevertheless, they are supported. 7159 7160 -- Escape: \H'height' 7161 -- Escape: \H'+height' 7162 -- Escape: \H'-height' 7163 -- Register: \n[.height] 7164 Change (increment, decrement) the height of the current font, but 7165 not the width. If HEIGHT is zero, restore the original height. 7166 Default scaling indicator is `z'. 7167 7168 The read-only number register `.height' contains the font height as 7169 set by `\H'. 7170 7171 Currently, only the `-Tps' device supports this feature. 7172 7173 Note that `\H' doesn't produce an input token in `gtroff'. As a 7174 consequence, it can be used in requests like `mc' (which expects a 7175 single character as an argument) to change the font on the fly: 7176 7177 7178 .mc \H'+5z'x\H'0' 7179 7180 In compatibility mode, `gtroff' behaves differently: If an 7181 increment or decrement is used, it is always taken relative to the 7182 current point size and not relative to the previously selected font 7183 height. Thus, 7184 7185 7186 .cp 1 7187 \H'+5'test \H'+5'test 7188 7189 prints the word `test' twice with the same font height (five 7190 points larger than the current font size). 7191 7192 -- Escape: \S'slant' 7193 -- Register: \n[.slant] 7194 Slant the current font by SLANT degrees. Positive values slant to 7195 the right. Only integer values are possible. 7196 7197 The read-only number register `.slant' contains the font slant as 7198 set by `\S'. 7199 7200 Currently, only the `-Tps' device supports this feature. 7201 7202 Note that `\S' doesn't produce an input token in `gtroff'. As a 7203 consequence, it can be used in requests like `mc' (which expects a 7204 single character as an argument) to change the font on the fly: 7205 7206 7207 .mc \S'20'x\S'0' 7208 7209 This request is incorrectly documented in the original UNIX troff 7210 manual; the slant is always set to an absolute value. 7211 7212 -- Request: .ul [lines] 7213 The `ul' request normally underlines subsequent lines if a TTY 7214 output device is used. Otherwise, the lines are printed in italics 7215 (only the term `underlined' is used in the following). The single 7216 argument is the number of input lines to be underlined; with no 7217 argument, the next line is underlined. If LINES is zero or 7218 negative, stop the effects of `ul' (if it was active). Requests 7219 and empty lines do not count for computing the number of underlined 7220 input lines, even if they produce some output like `tl'. Lines 7221 inserted by macros (e.g. invoked by a trap) do count. 7222 7223 At the beginning of `ul', the current font is stored and the 7224 underline font is activated. Within the span of a `ul' request, 7225 it is possible to change fonts, but after the last line affected by 7226 `ul' the saved font is restored. 7227 7228 This number of lines still to be underlined is associated with the 7229 current environment (*note Environments::). The underline font 7230 can be changed with the `uf' request. 7231 7232 The `ul' request does not underline spaces. 7233 7234 -- Request: .cu [lines] 7235 The `cu' request is similar to `ul' but underlines spaces as well 7236 (if a TTY output device is used). 7237 7238 -- Request: .uf font 7239 Set the underline font (globally) used by `ul' and `cu'. By 7240 default, this is the font at position 2. FONT can be either a 7241 non-negative font position or the name of a font. 7242 7243 -- Request: .bd font [offset] 7244 -- Request: .bd font1 font2 [offset] 7245 -- Register: \n[.b] 7246 Artificially create a bold font by printing each glyph twice, 7247 slightly offset. 7248 7249 Two syntax forms are available. 7250 7251 * Imitate a bold font unconditionally. The first argument 7252 specifies the font to embolden, and the second is the number 7253 of basic units, minus one, by which the two glyphs are 7254 offset. If the second argument is missing, emboldening is 7255 turned off. 7256 7257 FONT can be either a non-negative font position or the name 7258 of a font. 7259 7260 OFFSET is available in the `.b' read-only register if a 7261 special font is active; in the `bd' request, its default unit 7262 is `u'. 7263 7264 * Imitate a bold form conditionally. Embolden FONT1 by OFFSET 7265 only if font FONT2 is the current font. This command can be 7266 issued repeatedly to set up different emboldening values for 7267 different current fonts. If the second argument is missing, 7268 emboldening is turned off for this particular current font. 7269 7270 This affects special fonts only (either set up with the 7271 `special' command in font files or with the `fspecial' 7272 request). 7273 7274 -- Request: .cs font [width [em-size]] 7275 Switch to and from "constant glyph space mode". If activated, the 7276 width of every glyph is WIDTH/36 ems. The em size is given 7277 absolutely by EM-SIZE; if this argument is missing, the em value 7278 is taken from the current font size (as set with the `ps' request) 7279 when the font is effectively in use. Without second and third 7280 argument, constant glyph space mode is deactivated. 7281 7282 Default scaling indicator for EM-SIZE is `z'; WIDTH is an integer. 7283 7284 7285File: groff, Node: Ligatures and Kerning, Prev: Artificial Fonts, Up: Fonts and Symbols 7286 72875.17.7 Ligatures and Kerning 7288---------------------------- 7289 7290Ligatures are groups of characters that are run together, i.e, producing 7291a single glyph. For example, the letters `f' and `i' can form a 7292ligature `fi' as in the word `file'. This produces a cleaner look 7293(albeit subtle) to the printed output. Usually, ligatures are not 7294available in fonts for TTY output devices. 7295 7296 Most POSTSCRIPT fonts support the fi and fl ligatures. The C/A/T 7297typesetter that was the target of AT&T `troff' also supported `ff', 7298`ffi', and `ffl' ligatures. Advanced typesetters or `expert' fonts may 7299include ligatures for `ft' and `ct', although GNU `troff' does not 7300support these (yet). 7301 7302 Only the current font is checked for ligatures and kerns; neither 7303special fonts nor entities defined with the `char' request (and its 7304siblings) are taken into account. 7305 7306 -- Request: .lg [flag] 7307 -- Register: \n[.lg] 7308 Switch the ligature mechanism on or off; if the parameter is 7309 non-zero or missing, ligatures are enabled, otherwise disabled. 7310 Default is on. The current ligature mode can be found in the 7311 read-only number register `.lg' (set to 1 or 2 if ligatures are 7312 enabled, 0 otherwise). 7313 7314 Setting the ligature mode to 2 enables the two-character ligatures 7315 (fi, fl, and ff) and disables the three-character ligatures (ffi 7316 and ffl). 7317 7318 "Pairwise kerning" is another subtle typesetting mechanism that 7319modifies the distance between a glyph pair to improve readability. In 7320most cases (but not always) the distance is decreased. Typewriter-like 7321fonts and fonts for terminals where all glyphs have the same width 7322don't use kerning. 7323 7324 -- Request: .kern [flag] 7325 -- Register: \n[.kern] 7326 Switch kerning on or off. If the parameter is non-zero or missing, 7327 enable pairwise kerning, otherwise disable it. The read-only 7328 number register `.kern' is set to 1 if pairwise kerning is enabled, 7329 0 otherwise. 7330 7331 If the font description file contains pairwise kerning information, 7332 glyphs from that font are kerned. Kerning between two glyphs can 7333 be inhibited by placing `\&' between them: `V\&A'. 7334 7335 *Note Font File Format::. 7336 7337 "Track kerning" expands or reduces the space between glyphs. This 7338can be handy, for example, if you need to squeeze a long word onto a 7339single line or spread some text to fill a narrow column. It must be 7340used with great care since it is usually considered bad typography if 7341the reader notices the effect. 7342 7343 -- Request: .tkf f s1 n1 s2 n2 7344 Enable track kerning for font F. If the current font is F the 7345 width of every glyph is increased by an amount between N1 and N2 7346 (N1, N2 can be negative); if the current point size is less than 7347 or equal to S1 the width is increased by N1; if it is greater than 7348 or equal to S2 the width is increased by N2; if the point size is 7349 greater than or equal to S1 and less than or equal to S2 the 7350 increase in width is a linear function of the point size. 7351 7352 The default scaling indicator is `z' for S1 and S2, `p' for N1 and 7353 N2. 7354 7355 Note that the track kerning amount is added even to the rightmost 7356 glyph in a line; for large values it is thus recommended to 7357 increase the line length by the same amount to compensate it. 7358 7359 Sometimes, when typesetting letters of different fonts, more or less 7360space at such boundaries are needed. There are two escapes to help 7361with this. 7362 7363 -- Escape: \/ 7364 Increase the width of the preceding glyph so that the spacing 7365 between that glyph and the following glyph is correct if the 7366 following glyph is a roman glyph. For example, if an italic `f' 7367 is immediately followed by a roman right parenthesis, then in many 7368 fonts the top right portion of the `f' overlaps the top left of 7369 the right parenthesis. Use this escape sequence whenever an 7370 italic glyph is immediately followed by a roman glyph without any 7371 intervening space. This small amount of space is also called 7372 "italic correction". 7373 7374 7375 -- Escape: \, 7376 Modify the spacing of the following glyph so that the spacing 7377 between that glyph and the preceding glyph is correct if the 7378 preceding glyph is a roman glyph. Use this escape sequence 7379 whenever a roman glyph is immediately followed by an italic glyph 7380 without any intervening space. In analogy to above, this space 7381 could be called "left italic correction", but this term isn't used 7382 widely. 7383 7384 7385 -- Escape: \& 7386 Insert a zero-width character, which is invisible. Its intended 7387 use is to stop interaction of a character with its surrounding. 7388 7389 * It prevents the insertion of extra space after an 7390 end-of-sentence character. 7391 7392 7393 Test. 7394 Test. 7395 => Test. Test. 7396 Test.\& 7397 Test. 7398 => Test. Test. 7399 7400 * It prevents interpretation of a control character at the 7401 beginning of an input line. 7402 7403 7404 .Test 7405 => warning: `Test' not defined 7406 \&.Test 7407 => .Test 7408 7409 * It prevents kerning between two glyphs. 7410 7411 * It is needed to map an arbitrary character to nothing in the 7412 `tr' request (*note Character Translations::). 7413 7414 -- Escape: \) 7415 This escape is similar to `\&' except that it behaves like a 7416 character declared with the `cflags' request to be transparent for 7417 the purposes of an end-of-sentence character. 7418 7419 Its main usage is in macro definitions to protect against arguments 7420 starting with a control character. 7421 7422 7423 .de xxx 7424 \)\\$1 7425 .. 7426 .de yyy 7427 \&\\$1 7428 .. 7429 This is a test.\c 7430 .xxx ' 7431 This is a test. 7432 =>This is a test.' This is a test. 7433 This is a test.\c 7434 .yyy ' 7435 This is a test. 7436 =>This is a test.' This is a test. 7437 7438 7439 7440File: groff, Node: Sizes, Next: Strings, Prev: Fonts and Symbols, Up: gtroff Reference 7441 74425.18 Sizes 7443========== 7444 7445`gtroff' uses two dimensions with each line of text, type size and 7446vertical spacing. The "type size" is approximately the height of the 7447tallest glyph.(1) (*note Sizes-Footnote-1::) "Vertical spacing" is the 7448amount of space `gtroff' allows for a line of text; normally, this is 7449about 20% larger than the current type size. Ratios smaller than this 7450can result in hard-to-read text; larger than this, it spreads the text 7451out more vertically (useful for term papers). By default, `gtroff' 7452uses 10 point type on 12 point spacing. 7453 7454 The difference between type size and vertical spacing is known, by 7455typesetters, as "leading" (this is pronounced `ledding'). 7456 7457* Menu: 7458 7459* Changing Type Sizes:: 7460* Fractional Type Sizes:: 7461 7462 7463File: groff, Node: Sizes-Footnotes, Up: Sizes 7464 7465 (1) This is usually the parenthesis. Note that in most cases the 7466real dimensions of the glyphs in a font are _not_ related to its type 7467size! For example, the standard POSTSCRIPT font families `Times 7468Roman', `Helvetica', and `Courier' can't be used together at 10pt; to 7469get acceptable output, the size of `Helvetica' has to be reduced by one 7470point, and the size of `Courier' must be increased by one point. 7471 7472 7473File: groff, Node: Changing Type Sizes, Next: Fractional Type Sizes, Prev: Sizes, Up: Sizes 7474 74755.18.1 Changing Type Sizes 7476-------------------------- 7477 7478 -- Request: .ps [size] 7479 -- Request: .ps +size 7480 -- Request: .ps -size 7481 -- Escape: \ssize 7482 -- Register: \n[.s] 7483 Use the `ps' request or the `\s' escape to change (increase, 7484 decrease) the type size (in points). Specify SIZE as either an 7485 absolute point size, or as a relative change from the current size. 7486 The size 0, or no argument, goes back to the previous size. 7487 7488 Default scaling indicator of `size' is `z'. If `size' is zero or 7489 negative, it is set to 1u. 7490 7491 The read-only number register `.s' returns the point size in 7492 points as a decimal fraction. This is a string. To get the point 7493 size in scaled points, use the `.ps' register instead. 7494 7495 `.s' is associated with the current environment (*note 7496 Environments::). 7497 7498 7499 snap, snap, 7500 .ps +2 7501 grin, grin, 7502 .ps +2 7503 wink, wink, \s+2nudge, nudge,\s+8 say no more! 7504 .ps 10 7505 7506 The `\s' escape may be called in a variety of ways. Much like 7507 other escapes there must be a way to determine where the argument 7508 ends and the text begins. Any of the following forms are valid: 7509 7510 `\sN' 7511 Set the point size to N points. N must be either 0 or in the 7512 range 4 to 39. 7513 7514 `\s+N' 7515 `\s-N' 7516 Increase or decrease the point size by N points. N must be 7517 exactly one digit. 7518 7519 `\s(NN' 7520 Set the point size to NN points. NN must be exactly two 7521 digits. 7522 7523 `\s+(NN' 7524 `\s-(NN' 7525 `\s(+NN' 7526 `\s(-NN' 7527 Increase or decrease the point size by NN points. NN must be 7528 exactly two digits. 7529 7530 Note that `\s' doesn't produce an input token in `gtroff'. As a 7531 consequence, it can be used in requests like `mc' (which expects a 7532 single character as an argument) to change the font on the fly: 7533 7534 7535 .mc \s[20]x\s[0] 7536 7537 *Note Fractional Type Sizes::, for yet another syntactical form of 7538 using the `\s' escape. 7539 7540 -- Request: .sizes s1 s2 ... sn [0] 7541 Some devices may only have certain permissible sizes, in which case 7542 `gtroff' rounds to the nearest permissible size. The `DESC' file 7543 specifies which sizes are permissible for the device. 7544 7545 Use the `sizes' request to change the permissible sizes for the 7546 current output device. Arguments are in scaled points; the 7547 `sizescale' line in the `DESC' file for the output device provides 7548 the scaling factor. For example, if the scaling factor is 1000, 7549 then the value 12000 is 12 points. 7550 7551 Each argument can be a single point size (such as `12000'), or a 7552 range of sizes (such as `4000-72000'). You can optionally end the 7553 list with a zero. 7554 7555 -- Request: .vs [space] 7556 -- Request: .vs +space 7557 -- Request: .vs -space 7558 -- Register: \n[.v] 7559 Change (increase, decrease) the vertical spacing by SPACE. The 7560 default scaling indicator is `p'. 7561 7562 If `vs' is called without an argument, the vertical spacing is 7563 reset to the previous value before the last call to `vs'. 7564 7565 `gtroff' creates a warning of type `range' if SPACE is negative; 7566 the vertical spacing is then set to smallest positive value, the 7567 vertical resolution (as given in the `.V' register). 7568 7569 Note that `.vs 0' isn't saved in a diversion since it doesn't 7570 result in a vertical motion. You explicitly have to repeat this 7571 command before inserting the diversion. 7572 7573 The read-only number register `.v' contains the current vertical 7574 spacing; it is associated with the current environment (*note 7575 Environments::). 7576 7577 The effective vertical line spacing consists of four components. 7578Breaking a line causes the following actions (in the given order). 7579 7580 * Move the current point vertically by the "extra pre-vertical line 7581 space". This is the minimum value of all `\x' escapes with a 7582 negative argument in the current output line. 7583 7584 * Move the current point vertically by the vertical line spacing as 7585 set with the `vs' request. 7586 7587 * Output the current line. 7588 7589 * Move the current point vertically by the "extra post-vertical line 7590 space". This is the maximum value of all `\x' escapes with a 7591 positive argument in the line which has just been output. 7592 7593 * Move the current point vertically by the "post-vertical line 7594 spacing" as set with the `pvs' request. 7595 7596 It is usually better to use `vs' or `pvs' instead of `ls' to produce 7597double-spaced documents: `vs' and `pvs' have a finer granularity for 7598the inserted vertical space compared to `ls'; furthermore, certain 7599preprocessors assume single-spacing. 7600 7601 *Note Manipulating Spacing::, for more details on the `\x' escape 7602and the `ls' request. 7603 7604 -- Request: .pvs [space] 7605 -- Request: .pvs +space 7606 -- Request: .pvs -space 7607 -- Register: \n[.pvs] 7608 Change (increase, decrease) the post-vertical spacing by SPACE. 7609 The default scaling indicator is `p'. 7610 7611 If `pvs' is called without an argument, the post-vertical spacing 7612 is reset to the previous value before the last call to `pvs'. 7613 7614 `gtroff' creates a warning of type `range' if SPACE is zero or 7615 negative; the vertical spacing is then set to zero. 7616 7617 The read-only number register `.pvs' contains the current 7618 post-vertical spacing; it is associated with the current 7619 environment (*note Environments::). 7620 7621 7622File: groff, Node: Fractional Type Sizes, Prev: Changing Type Sizes, Up: Sizes 7623 76245.18.2 Fractional Type Sizes 7625---------------------------- 7626 7627A "scaled point" is equal to 1/SIZESCALE points, where SIZESCALE is 7628specified in the `DESC' file (1 by default). There is a new scale 7629indicator `z' which has the effect of multiplying by SIZESCALE. 7630Requests and escape sequences in `gtroff' interpret arguments that 7631represent a point size as being in units of scaled points, but they 7632evaluate each such argument using a default scale indicator of `z'. 7633Arguments treated in this way are the argument to the `ps' request, the 7634third argument to the `cs' request, the second and fourth arguments to 7635the `tkf' request, the argument to the `\H' escape sequence, and those 7636variants of the `\s' escape sequence that take a numeric expression as 7637their argument (see below). 7638 7639 For example, suppose SIZESCALE is 1000; then a scaled point is 7640equivalent to a millipoint; the request `.ps 10.25' is equivalent to 7641`.ps 10.25z' and thus sets the point size to 10250 scaled points, which 7642is equal to 10.25 points. 7643 7644 `gtroff' disallows the use of the `z' scale indicator in instances 7645where it would make no sense, such as a numeric expression whose 7646default scale indicator was neither `u' nor `z'. Similarly it would 7647make no sense to use a scaling indicator other than `z' or `u' in a 7648numeric expression whose default scale indicator was `z', and so 7649`gtroff' disallows this as well. 7650 7651 There is also new scale indicator `s' which multiplies by the number 7652of units in a scaled point. So, for example, `\n[.ps]s' is equal to 7653`1m'. Be sure not to confuse the `s' and `z' scale indicators. 7654 7655 -- Register: \n[.ps] 7656 A read-only number register returning the point size in scaled 7657 points. 7658 7659 `.ps' is associated with the current environment (*note 7660 Environments::). 7661 7662 -- Register: \n[.psr] 7663 -- Register: \n[.sr] 7664 The last-requested point size in scaled points is contained in the 7665 `.psr' read-only number register. The last requested point size 7666 in points as a decimal fraction can be found in `.sr'. This is a 7667 string-valued read-only number register. 7668 7669 Note that the requested point sizes are device-independent, whereas 7670 the values returned by the `.ps' and `.s' registers are not. For 7671 example, if a point size of 11pt is requested, and a `sizes' 7672 request (or a `sizescale' line in a `DESC' file) specifies 10.95pt 7673 instead, this value is actually used. 7674 7675 Both registers are associated with the current environment (*note 7676 Environments::). 7677 7678 The `\s' escape has the following syntax for working with fractional 7679type sizes: 7680 7681`\s[N]' 7682`\s'N'' 7683 Set the point size to N scaled points; N is a numeric expression 7684 with a default scale indicator of `z'. 7685 7686`\s[+N]' 7687`\s[-N]' 7688`\s+[N]' 7689`\s-[N]' 7690`\s'+N'' 7691`\s'-N'' 7692`\s+'N'' 7693`\s-'N'' 7694 Increase or or decrease the point size by N scaled points; N is a 7695 numeric expression with a default scale indicator of `z'. 7696 7697 *Note Font Files::. 7698 7699 7700File: groff, Node: Strings, Next: Conditionals and Loops, Prev: Sizes, Up: gtroff Reference 7701 77025.19 Strings 7703============ 7704 7705`gtroff' has string variables, which are entirely for user convenience 7706(i.e. there are no built-in strings exept `.T', but even this is a 7707read-write string variable). 7708 7709 -- Request: .ds name [string] 7710 -- Request: .ds1 name [string] 7711 -- Escape: \*n 7712 -- Escape: \*(nm 7713 -- Escape: \*[name arg1 arg2 ...] 7714 Define and access a string variable NAME (one-character name N, 7715 two-character name NM). If NAME already exists, `ds' overwrites 7716 the previous definition. Only the syntax form using brackets can 7717 take arguments which are handled identically to macro arguments; 7718 the single exception is that a closing bracket as an argument must 7719 be enclosed in double quotes. *Note Request and Macro 7720 Arguments::, and *Note Parameters::. 7721 7722 Example: 7723 7724 7725 .ds foo a \\$1 test 7726 . 7727 This is \*[foo nice]. 7728 => This is a nice test. 7729 7730 The `\*' escape "interpolates" (expands in-place) a 7731 previously-defined string variable. To be more precise, the stored 7732 string is pushed onto the input stack which is then parsed by 7733 `gtroff'. Similar to number registers, it is possible to nest 7734 strings, i.e. string variables can be called within string 7735 variables. 7736 7737 If the string named by the `\*' escape does not exist, it is 7738 defined as empty, and a warning of type `mac' is emitted (see 7739 *Note Debugging::, for more details). 7740 7741 *Caution:* Unlike other requests, the second argument to the `ds' 7742 request takes up the entire line including trailing spaces. This 7743 means that comments on a line with such a request can introduce 7744 unwanted space into a string. 7745 7746 7747 .ds UX \s-1UNIX\s0\u\s-3tm\s0\d \" UNIX trademark 7748 7749 Instead the comment should be put on another line or have the 7750 comment escape adjacent with the end of the string. 7751 7752 7753 .ds UX \s-1UNIX\s0\u\s-3tm\s0\d\" UNIX trademark 7754 7755 To produce leading space the string can be started with a double 7756 quote. No trailing quote is needed; in fact, any trailing quote is 7757 included in your string. 7758 7759 7760 .ds sign " Yours in a white wine sauce, 7761 7762 Strings are not limited to a single line of text. A string can 7763 span several lines by escaping the newlines with a backslash. The 7764 resulting string is stored _without_ the newlines. 7765 7766 7767 .ds foo lots and lots \ 7768 of text are on these \ 7769 next several lines 7770 7771 It is not possible to have real newlines in a string. To put a 7772 single double quote character into a string, use two consecutive 7773 double quote characters. 7774 7775 The `ds1' request turns off compatibility mode while interpreting 7776 a string. To be more precise, a "compatibility save" input token 7777 is inserted at the beginning of the string, and a "compatibility 7778 restore" input token at the end. 7779 7780 7781 .nr xxx 12345 7782 .ds aa The value of xxx is \\n[xxx]. 7783 .ds1 bb The value of xxx ix \\n[xxx]. 7784 . 7785 .cp 1 7786 . 7787 \*(aa 7788 => warning: number register `[' not defined 7789 => The value of xxx is 0xxx]. 7790 \*(bb 7791 => The value of xxx ix 12345. 7792 7793 Strings, macros, and diversions (and boxes) share the same name 7794 space. Internally, even the same mechanism is used to store them. 7795 This has some interesting consequences. For example, it is 7796 possible to call a macro with string syntax and vice versa. 7797 7798 7799 .de xxx 7800 a funny test. 7801 .. 7802 This is \*[xxx] 7803 => This is a funny test. 7804 7805 .ds yyy a funny test 7806 This is 7807 .yyy 7808 => This is a funny test. 7809 7810 Diversions and boxes can be also called with string syntax. 7811 7812 Another consequence is that you can copy one-line diversions or 7813 boxes to a string. 7814 7815 7816 .di xxx 7817 a \fItest\fR 7818 .br 7819 .di 7820 .ds yyy This is \*[xxx]\c 7821 \*[yyy]. 7822 => This is a test. 7823 7824 As the previous example shows, it is possible to store formatted 7825 output in strings. The `\c' escape prevents the insertion of an 7826 additional blank line in the output. 7827 7828 Copying diversions longer than a single output line produces 7829 unexpected results. 7830 7831 7832 .di xxx 7833 a funny 7834 .br 7835 test 7836 .br 7837 .di 7838 .ds yyy This is \*[xxx]\c 7839 \*[yyy]. 7840 => test This is a funny. 7841 7842 Usually, it is not predictable whether a diversion contains one or 7843 more output lines, so this mechanism should be avoided. With UNIX 7844 `troff', this was the only solution to strip off a final newline 7845 from a diversion. Another disadvantage is that the spaces in the 7846 copied string are already formatted, making them unstretchable. 7847 This can cause ugly results. 7848 7849 A clean solution to this problem is available in GNU `troff', 7850 using the requests `chop' to remove the final newline of a 7851 diversion, and `unformat' to make the horizontal spaces 7852 stretchable again. 7853 7854 7855 .box xxx 7856 a funny 7857 .br 7858 test 7859 .br 7860 .box 7861 .chop xxx 7862 .unformat xxx 7863 This is \*[xxx]. 7864 => This is a funny test. 7865 7866 *Note Gtroff Internals::, for more information. 7867 7868 -- Request: .as name [string] 7869 -- Request: .as1 name [string] 7870 The `as' request is similar to `ds' but appends STRING to the 7871 string stored as NAME instead of redefining it. If NAME doesn't 7872 exist yet, it is created. 7873 7874 7875 .as sign " with shallots, onions and garlic, 7876 7877 The `as1' request is similar to `as', but compatibility mode is 7878 switched off while the appended string is interpreted. To be more 7879 precise, a "compatibility save" input token is inserted at the 7880 beginning of the appended string, and a "compatibility restore" 7881 input token at the end. 7882 7883 Rudimentary string manipulation routines are given with the next two 7884requests. 7885 7886 -- Request: .substring str n1 [n2] 7887 Replace the string named STR with the substring defined by the 7888 indices N1 and N2. The first character in the string has index 0. 7889 If N2 is omitted, it is taken to be equal to the string's length. 7890 If the index value N1 or N2 is negative, it is counted from the 7891 end of the string, going backwards: The last character has 7892 index -1, the character before the last character has index -2, 7893 etc. 7894 7895 7896 .ds xxx abcdefgh 7897 .substring xxx 1 -4 7898 \*[xxx] 7899 => bcde 7900 7901 7902 -- Request: .length reg str 7903 Compute the number of characters of STR and return it in the 7904 number register REG. If REG doesn't exist, it is created. `str' 7905 is read in copy mode. 7906 7907 7908 .ds xxx abcd\h'3i'efgh 7909 .length yyy \*[xxx] 7910 \n[yyy] 7911 => 14 7912 7913 7914 -- Request: .rn xx yy 7915 Rename the request, macro, diversion, or string XX to YY. 7916 7917 -- Request: .rm xx 7918 Remove the request, macro, diversion, or string XX. `gtroff' 7919 treats subsequent invocations as if the object had never been 7920 defined. 7921 7922 -- Request: .als new old 7923 Create an alias named NEW for the request, string, macro, or 7924 diversion object named OLD. The new name and the old name are 7925 exactly equivalent (it is similar to a hard rather than a soft 7926 link). If OLD is undefined, `gtroff' generates a warning of type 7927 `mac' and ignores the request. 7928 7929 -- Request: .chop xx 7930 Remove (chop) the last character from the macro, string, or 7931 diversion named XX. This is useful for removing the newline from 7932 the end of diversions that are to be interpolated as strings. 7933 This command can be used repeatedly; see *Note Gtroff Internals::, 7934 for details on nodes inserted additionally by `gtroff'. 7935 7936 *Note Identifiers::, and *Note Comments::. 7937 7938 7939File: groff, Node: Conditionals and Loops, Next: Writing Macros, Prev: Strings, Up: gtroff Reference 7940 79415.20 Conditionals and Loops 7942=========================== 7943 7944* Menu: 7945 7946* Operators in Conditionals:: 7947* if-else:: 7948* while:: 7949 7950 7951File: groff, Node: Operators in Conditionals, Next: if-else, Prev: Conditionals and Loops, Up: Conditionals and Loops 7952 79535.20.1 Operators in Conditionals 7954-------------------------------- 7955 7956In `if' and `while' requests, there are several more operators 7957available: 7958 7959`e' 7960`o' 7961 True if the current page is even or odd numbered (respectively). 7962 7963`n' 7964 True if the document is being processed in nroff mode (i.e., the 7965 `.nroff' command has been issued). 7966 7967`t' 7968 True if the document is being processed in troff mode (i.e., the 7969 `.troff' command has been issued). 7970 7971`v' 7972 Always false. This condition is for compatibility with other 7973 `troff' versions only (identifying a `-Tversatec' device). 7974 7975`'XXX'YYY'' 7976 True if the string XXX is equal to the string YYY. Other 7977 characters can be used in place of the single quotes; the same set 7978 of delimiters as for the `\D' escape is used (*note Escapes::). 7979 `gtroff' formats the strings before being compared: 7980 7981 7982 .ie "|"\fR|\fP" \ 7983 true 7984 .el \ 7985 false 7986 => true 7987 7988 The resulting motions, glyph sizes, and fonts have to match,(1) 7989 (*note Operators in Conditionals-Footnote-1::) and not the 7990 individual motion, size, and font requests. In the previous 7991 example, `|' and `\fR|\fP' both result in a roman `|' glyph with 7992 the same point size and at the same location on the page, so the 7993 strings are equal. If `.ft I' had been added before the `.ie', 7994 the result would be "false" because (the first) `|' produces an 7995 italic `|' rather than a roman one. 7996 7997`r XXX' 7998 True if there is a number register named XXX. 7999 8000`d XXX' 8001 True if there is a string, macro, diversion, or request named XXX. 8002 8003`m XXX' 8004 True if there is a color named XXX. 8005 8006`c G' 8007 True if there is a glyph G available(2) (*note Operators in 8008 Conditionals-Footnote-2::); G is either an ASCII character or a 8009 special character (`\(GG' or `\[GGG]'); the condition is also true 8010 if G has been defined by the `char' request. 8011 8012`F FONT' 8013 True if a font named FONT exists. FONT is handled as if it was 8014 opened with the `ft' request (this is, font translation and styles 8015 are applied), without actually mounting it. 8016 8017 This test doesn't load the complete font but only its header to 8018 verify its validity. 8019 8020`S STYLE' 8021 True if style STYLE has been registered. Font translation is 8022 applied. 8023 8024 Note that these operators can't be combined with other operators like 8025`:' or `&'; only a leading `!' (without whitespace between the 8026exclamation mark and the operator) can be used to negate the result. 8027 8028 8029 .nr xxx 1 8030 .ie !r xxx \ 8031 true 8032 .el \ 8033 false 8034 => false 8035 8036 A whitespace after `!' always evaluates to zero (this bizarre 8037behaviour is due to compatibility with UNIX `troff'). 8038 8039 8040 .nr xxx 1 8041 .ie ! r xxx \ 8042 true 8043 .el \ 8044 false 8045 => r xxx true 8046 8047 It is possible to omit the whitespace before the argument to the 8048`r', `d', and `c' operators. 8049 8050 *Note Expressions::. 8051 8052 8053File: groff, Node: Operators in Conditionals-Footnotes, Up: Operators in Conditionals 8054 8055 (1) The created output nodes must be identical. *Note Gtroff 8056Internals::. 8057 8058 (2) The name of this conditional operator is a misnomer since it 8059tests names of output glyphs. 8060 8061 8062File: groff, Node: if-else, Next: while, Prev: Operators in Conditionals, Up: Conditionals and Loops 8063 80645.20.2 if-else 8065-------------- 8066 8067`gtroff' has if-then-else constructs like other languages, although the 8068formatting can be painful. 8069 8070 -- Request: .if expr anything 8071 Evaluate the expression EXPR, and executes ANYTHING (the remainder 8072 of the line) if EXPR evaluates to a value greater than zero 8073 (true). ANYTHING is interpreted as though it was on a line by 8074 itself (except that leading spaces are swallowed). *Note 8075 Expressions::, for more info. 8076 8077 8078 .nr xxx 1 8079 .nr yyy 2 8080 .if ((\n[xxx] == 1) & (\n[yyy] == 2)) true 8081 => true 8082 8083 8084 -- Request: .nop anything 8085 Executes ANYTHING. This is similar to `.if 1'. 8086 8087 -- Request: .ie expr anything 8088 -- Request: .el anything 8089 Use the `ie' and `el' requests to write an if-then-else. The 8090 first request is the `if' part and the latter is the `else' part. 8091 8092 8093 .ie n .ls 2 \" double-spacing in nroff 8094 .el .ls 1 \" single-spacing in troff 8095 8096 8097 -- Escape: \{ 8098 -- Escape: \} 8099 In many cases, an if (or if-else) construct needs to execute more 8100 than one request. This can be done using the `\{' and `\}' 8101 escapes. The following example shows the possible ways to use 8102 these escapes (note the position of the opening and closing 8103 braces). 8104 8105 8106 .ie t \{\ 8107 . ds lq `` 8108 . ds rq '' 8109 .\} 8110 .el \ 8111 .\{\ 8112 . ds lq " 8113 . ds rq "\} 8114 8115 8116 *Note Expressions::. 8117 8118 8119File: groff, Node: while, Prev: if-else, Up: Conditionals and Loops 8120 81215.20.3 while 8122------------ 8123 8124`gtroff' provides a looping construct using the `while' request, which 8125is used much like the `if' (and related) requests. 8126 8127 -- Request: .while expr anything 8128 Evaluate the expression EXPR, and repeatedly execute ANYTHING (the 8129 remainder of the line) until EXPR evaluates to 0. 8130 8131 8132 .nr a 0 1 8133 .while (\na < 9) \{\ 8134 \n+a, 8135 .\} 8136 \n+a 8137 => 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 8138 8139 Some remarks. 8140 8141 * The body of a `while' request is treated like the body of a 8142 `de' request: `gtroff' temporarily stores it in a macro which 8143 is deleted after the loop has been exited. It can 8144 considerably slow down a macro if the body of the `while' 8145 request (within the macro) is large. Each time the macro is 8146 executed, the `while' body is parsed and stored again as a 8147 temporary macro. 8148 8149 8150 .de xxx 8151 . nr num 10 8152 . while (\\n[num] > 0) \{\ 8153 . \" many lines of code 8154 . nr num -1 8155 . \} 8156 .. 8157 8158 The traditional and ofter better solution (UNIX `troff' 8159 doesn't have the `while' request) is to use a recursive macro 8160 instead which is parsed only once during its definition. 8161 8162 8163 .de yyy 8164 . if (\\n[num] > 0) \{\ 8165 . \" many lines of code 8166 . nr num -1 8167 . yyy 8168 . \} 8169 .. 8170 . 8171 .de xxx 8172 . nr num 10 8173 . yyy 8174 .. 8175 8176 Note that the number of available recursion levels is set 8177 to 1000 (this is a compile-time constant value of `gtroff'). 8178 8179 * The closing brace of a `while' body must end a line. 8180 8181 8182 .if 1 \{\ 8183 . nr a 0 1 8184 . while (\n[a] < 10) \{\ 8185 . nop \n+[a] 8186 .\}\} 8187 => unbalanced \{ \} 8188 8189 8190 -- Request: .break 8191 Break out of a `while' loop. Be sure not to confuse this with the 8192 `br' request (causing a line break). 8193 8194 -- Request: .continue 8195 Finish the current iteration of a `while' loop, immediately 8196 restarting the next iteration. 8197 8198 *Note Expressions::. 8199 8200 8201File: groff, Node: Writing Macros, Next: Page Motions, Prev: Conditionals and Loops, Up: gtroff Reference 8202 82035.21 Writing Macros 8204=================== 8205 8206A "macro" is a collection of text and embedded commands which can be 8207invoked multiple times. Use macros to define common operations. 8208 8209 -- Request: .de name [end] 8210 -- Request: .de1 name [end] 8211 -- Request: .dei name [end] 8212 -- Request: .dei1 name [end] 8213 Define a new macro named NAME. `gtroff' copies subsequent lines 8214 (starting with the next one) into an internal buffer until it 8215 encounters the line `..' (two dots). The optional second argument 8216 to `de' changes this to a macro to `.END'. 8217 8218 There can be whitespace after the first dot in the line containing 8219 the ending token (either `.' or macro `END'). 8220 8221 Here a small example macro called `P' which causes a break and 8222 inserts some vertical space. It could be used to separate 8223 paragraphs. 8224 8225 8226 .de P 8227 . br 8228 . sp .8v 8229 .. 8230 8231 The following example defines a macro within another. Remember 8232 that expansion must be protected twice; once for reading the macro 8233 and once for executing. 8234 8235 8236 \# a dummy macro to avoid a warning 8237 .de end 8238 .. 8239 . 8240 .de foo 8241 . de bar end 8242 . nop \f[B]Hallo \\\\$1!\f[] 8243 . end 8244 .. 8245 . 8246 .foo 8247 .bar Joe 8248 => Hallo Joe! 8249 8250 Since `\f' has no expansion, it isn't necessary to protect its 8251 backslash. Had we defined another macro within `bar' which takes 8252 a parameter, eight backslashes would be necessary before `$1'. 8253 8254 The `de1' request turns off compatibility mode while executing the 8255 macro. On entry, the current compatibility mode is saved and 8256 restored at exit. 8257 8258 8259 .nr xxx 12345 8260 . 8261 .de aa 8262 The value of xxx is \\n[xxx]. 8263 .. 8264 .de1 bb 8265 The value of xxx ix \\n[xxx]. 8266 .. 8267 . 8268 .cp 1 8269 . 8270 .aa 8271 => warning: number register `[' not defined 8272 => The value of xxx is 0xxx]. 8273 .bb 8274 => The value of xxx ix 12345. 8275 8276 The `dei' request defines a macro indirectly. That is, it expands 8277 strings whose names are NAME or END before performing the append. 8278 8279 This: 8280 8281 8282 .ds xx aa 8283 .ds yy bb 8284 .dei xx yy 8285 8286 is equivalent to: 8287 8288 8289 .de aa bb 8290 8291 The `dei1' request is similar to `dei' but with compatibility mode 8292 switched off during execution of the defined macro. 8293 8294 If compatibility mode is on, `de' (and `dei') behave similar to 8295 `de1' (and `dei1'): A `compatibility save' token is inserted at 8296 the beginning, and a `compatibility restore' token at the end, with 8297 compatibility mode switched on during execution. *Note Gtroff 8298 Internals::, for more information on switching compatibility mode 8299 on and off in a single document. 8300 8301 Using `trace.tmac', you can trace calls to `de' and `de1'. 8302 8303 Note that macro identifiers are shared with identifiers for 8304 strings and diversions. 8305 8306 -- Request: .am name [end] 8307 -- Request: .am1 name [end] 8308 -- Request: .ami name [end] 8309 -- Request: .ami1 name [end] 8310 Works similarly to `de' except it appends onto the macro named 8311 NAME. So, to make the previously defined `P' macro actually do 8312 indented instead of block paragraphs, add the necessary code to the 8313 existing macro like this: 8314 8315 8316 .am P 8317 .ti +5n 8318 .. 8319 8320 The `am1' request turns off compatibility mode while executing the 8321 appended macro piece. To be more precise, a "compatibility save" 8322 input token is inserted at the beginning of the appended code, and 8323 a "compatibility restore" input token at the end. 8324 8325 The `ami' request appends indirectly, meaning that `gtroff' 8326 expands strings whose names are NAME or END before performing the 8327 append. 8328 8329 The `ami1' request is similar to `ami' but compatibility mode is 8330 switched off during execution of the defined macro. 8331 8332 Using `trace.tmac', you can trace calls to `am' and `am1'. 8333 8334 *Note Strings::, for the `als' request to rename a macro. 8335 8336 The `de', `am', `di', `da', `ds', and `as' requests (together with 8337its variants) only create a new object if the name of the macro, 8338diversion or string diversion is currently undefined or if it is 8339defined to be a request; normally they modify the value of an existing 8340object. 8341 8342 -- Request: .return [anything] 8343 Exit a macro, immediately returning to the caller. 8344 8345 If called with an argument, exit twice, namely the current macro 8346 and the macro one level higher. This is used to define a wrapper 8347 macro for `return' in `trace.tmac'. 8348 8349* Menu: 8350 8351* Copy-in Mode:: 8352* Parameters:: 8353 8354 8355File: groff, Node: Copy-in Mode, Next: Parameters, Prev: Writing Macros, Up: Writing Macros 8356 83575.21.1 Copy-in Mode 8358------------------- 8359 8360When `gtroff' reads in the text for a macro, string, or diversion, it 8361copies the text (including request lines, but excluding escapes) into 8362an internal buffer. Escapes are converted into an internal form, 8363except for `\n', `\$', `\*', `\\' and `\<RET>' which are evaluated and 8364inserted into the text where the escape was located. This is known as 8365"copy-in" mode or "copy" mode. 8366 8367 What this means is that you can specify when these escapes are to be 8368evaluated (either at copy-in time or at the time of use) by insulating 8369the escapes with an extra backslash. Compare this to the `\def' and 8370`\edef' commands in TeX. 8371 8372 The following example prints the numbers 20 and 10: 8373 8374 8375 .nr x 20 8376 .de y 8377 .nr x 10 8378 \&\nx 8379 \&\\nx 8380 .. 8381 .y 8382 8383 8384File: groff, Node: Parameters, Prev: Copy-in Mode, Up: Writing Macros 8385 83865.21.2 Parameters 8387----------------- 8388 8389The arguments to a macro or string can be examined using a variety of 8390escapes. 8391 8392 -- Register: \n[.$] 8393 The number of arguments passed to a macro or string. This is a 8394 read-only number register. 8395 8396 Note that the `shift' request can change its value. 8397 8398 Any individual argument can be retrieved with one of the following 8399escapes: 8400 8401 -- Escape: \$n 8402 -- Escape: \$(nn 8403 -- Escape: \$[nnn] 8404 Retrieve the Nth, NNth or NNNth argument. As usual, the first 8405 form only accepts a single number (larger than zero), the second a 8406 two-digit number (larger or equal to 10), and the third any 8407 positive integer value (larger than zero). Macros and strings can 8408 have an unlimited number of arguments. Note that due to copy-in 8409 mode, use two backslashes on these in actual use to prevent 8410 interpolation until the macro is actually invoked. 8411 8412 -- Request: .shift [n] 8413 Shift the arguments 1 position, or as many positions as specified 8414 by its argument. After executing this request, argument I becomes 8415 argument I-N; arguments 1 to N are no longer available. Shifting 8416 by negative amounts is currently undefined. 8417 8418 The register `.$' is adjusted accordingly. 8419 8420 -- Escape: \$* 8421 -- Escape: \$@ 8422 In some cases it is convenient to use all of the arguments at once 8423 (for example, to pass the arguments along to another macro). The 8424 `\$*' escape concatenates all the arguments separated by spaces. A 8425 similar escape is `\$@', which concatenates all the arguments with 8426 each surrounded by double quotes, and separated by spaces. If not 8427 in compatibility mode, the input level of double quotes is 8428 preserved (see *Note Request and Macro Arguments::). 8429 8430 -- Escape: \$0 8431 The name used to invoke the current macro. The `als' request can 8432 make a macro have more than one name. 8433 8434 8435 .de generic-macro 8436 . ... 8437 . if \\n[error] \{\ 8438 . tm \\$0: Houston, we have a problem. 8439 . return 8440 . \} 8441 .. 8442 . 8443 .als foo generic-macro 8444 .als bar generic-macro 8445 8446 8447 *Note Request and Macro Arguments::. 8448 8449 8450File: groff, Node: Page Motions, Next: Drawing Requests, Prev: Writing Macros, Up: gtroff Reference 8451 84525.22 Page Motions 8453================= 8454 8455*Note Manipulating Spacing::, for a discussion of the main request for 8456vertical motion, `sp'. 8457 8458 -- Request: .mk [reg] 8459 -- Request: .rt [dist] 8460 The request `mk' can be used to mark a location on a page, for 8461 movement to later. This request takes a register name as an 8462 argument in which to store the current page location. With no 8463 argument it stores the location in an internal register. The 8464 results of this can be used later by the `rt' or the `sp' request 8465 (or the `\v' escape). 8466 8467 The `rt' request returns _upwards_ to the location marked with the 8468 last `mk' request. If used with an argument, return to a position 8469 which distance from the top of the page is DIST (no previous call 8470 to `mk' is necessary in this case). Default scaling indicator is 8471 `v'. 8472 8473 Here a primitive solution for a two-column macro. 8474 8475 8476 .nr column-length 1.5i 8477 .nr column-gap 4m 8478 .nr bottom-margin 1m 8479 . 8480 8481 8482 .de 2c 8483 . br 8484 . mk 8485 . ll \\n[column-length]u 8486 . wh -\\n[bottom-margin]u 2c-trap 8487 . nr right-side 0 8488 .. 8489 . 8490 8491 8492 .de 2c-trap 8493 . ie \\n[right-side] \{\ 8494 . nr right-side 0 8495 . po -(\\n[column-length]u + \\n[column-gap]u) 8496 . \" remove trap 8497 . wh -\\n[bottom-margin]u 8498 . \} 8499 . el \{\ 8500 . \" switch to right side 8501 . nr right-side 1 8502 . po +(\\n[column-length]u + \\n[column-gap]u) 8503 . rt 8504 . \} 8505 .. 8506 . 8507 8508 8509 .pl 1.5i 8510 .ll 4i 8511 This is a small test which shows how the 8512 rt request works in combination with mk. 8513 8514 .2c 8515 Starting here, text is typeset in two columns. 8516 Note that this implementation isn't robust 8517 and thus not suited for a real two-column 8518 macro. 8519 8520 Result: 8521 8522 8523 This is a small test which shows how the 8524 rt request works in combination with mk. 8525 8526 Starting here, isn't robust 8527 text is typeset and thus not 8528 in two columns. suited for a 8529 Note that this real two-column 8530 implementation macro. 8531 8532 8533 The following escapes give fine control of movements about the page. 8534 8535 -- Escape: \v'e' 8536 Move vertically, usually from the current location on the page (if 8537 no absolute position operator `|' is used). The argument E 8538 specifies the distance to move; positive is downwards and negative 8539 upwards. The default scaling indicator for this escape is `v'. 8540 Beware, however, that `gtroff' continues text processing at the 8541 point where the motion ends, so you should always balance motions 8542 to avoid interference with text processing. 8543 8544 `\v' doesn't trigger a trap. This can be quite useful; for 8545 example, consider a page bottom trap macro which prints a marker 8546 in the margin to indicate continuation of a footnote or something 8547 similar. 8548 8549 There are some special-case escapes for vertical motion. 8550 8551 -- Escape: \r 8552 Move upwards 1v. 8553 8554 -- Escape: \u 8555 Move upwards .5v. 8556 8557 -- Escape: \d 8558 Move down .5v. 8559 8560 -- Escape: \h'e' 8561 Move horizontally, usually from the current location (if no 8562 absolute position operator `|' is used). The expression E 8563 indicates how far to move: positive is rightwards and negative 8564 leftwards. The default scaling indicator for this escape is `m'. 8565 8566 This horizontal space is not discarded at the end of a line. To 8567 insert discardable space of a certain length use the `ss' request. 8568 8569 There are a number of special-case escapes for horizontal motion. 8570 8571 -- Escape: \<SP> 8572 An unbreakable and unpaddable (i.e. not expanded during filling) 8573 space. (Note: This is a backslash followed by a space.) 8574 8575 -- Escape: \~ 8576 An unbreakable space that stretches like a normal inter-word space 8577 when a line is adjusted. 8578 8579 -- Escape: \| 8580 A 1/6th em space. Ignored for TTY output devices (rounded to 8581 zero). 8582 8583 -- Escape: \^ 8584 A 1/12th em space. Ignored for TTY output devices (rounded to 8585 zero). 8586 8587 -- Escape: \0 8588 A space the size of a digit. 8589 8590 The following string sets the TeX logo: 8591 8592 8593 .ds TeX T\h'-.1667m'\v'.224m'E\v'-.224m'\h'-.125m'X 8594 8595 -- Escape: \w'text' 8596 -- Register: \n[st] 8597 -- Register: \n[sb] 8598 -- Register: \n[rst] 8599 -- Register: \n[rsb] 8600 -- Register: \n[ct] 8601 -- Register: \n[ssc] 8602 -- Register: \n[skw] 8603 Return the width of the specified TEXT in basic units. This 8604 allows horizontal movement based on the width of some arbitrary 8605 text (e.g. given as an argument to a macro). 8606 8607 8608 The length of the string `abc' is \w'abc'u. 8609 => The length of the string `abc' is 72u. 8610 8611 Font changes may occur in TEXT which don't affect current settings. 8612 8613 After use, `\w' sets several registers: 8614 8615 `st' 8616 `sb' 8617 The highest and lowest point of the baseline, respectively, 8618 in TEXT. 8619 8620 `rst' 8621 `rsb' 8622 Like the `st' and `sb' registers, but takes account of the 8623 heights and depths of glyphs. With other words, this gives 8624 the highest and lowest point of TEXT. Values below the 8625 baseline are negative. 8626 8627 `ct' 8628 Defines the kinds of glyphs occurring in TEXT: 8629 8630 0 8631 only short glyphs, no descenders or tall glyphs. 8632 8633 1 8634 at least one descender. 8635 8636 2 8637 at least one tall glyph. 8638 8639 3 8640 at least one each of a descender and a tall glyph. 8641 8642 `ssc' 8643 The amount of horizontal space (possibly negative) that 8644 should be added to the last glyph before a subscript. 8645 8646 `skw' 8647 How far to right of the center of the last glyph in the `\w' 8648 argument, the center of an accent from a roman font should be 8649 placed over that glyph. 8650 8651 -- Escape: \kp 8652 -- Escape: \k(ps 8653 -- Escape: \k[position] 8654 Store the current horizontal position in the _input_ line in 8655 number register with name POSITION (one-character name P, 8656 two-character name PS). Use this, for example, to return to the 8657 beginning of a string for highlighting or other decoration. 8658 8659 -- Register: \n[hp] 8660 The current horizontal position at the input line. 8661 8662 -- Register: \n[.k] 8663 A read-only number register containing the current horizontal 8664 output position (relative to the current indentation). 8665 8666 -- Escape: \o'abc' 8667 Overstrike glyphs A, B, C, ...; the glyphs are centered, and the 8668 resulting spacing is the largest width of the affected glyphs. 8669 8670 -- Escape: \zg 8671 Print glyph G with zero width, i.e., without spacing. Use this to 8672 overstrike glyphs left-aligned. 8673 8674 -- Escape: \Z'anything' 8675 Print ANYTHING, then restore the horizontal and vertical position. 8676 The argument may not contain tabs or leaders. 8677 8678 The following is an example of a strike-through macro: 8679 8680 8681 .de ST 8682 .nr ww \w'\\$1' 8683 \Z@\v'-.25m'\l'\\n[ww]u'@\\$1 8684 .. 8685 . 8686 This is 8687 .ST "a test" 8688 an actual emergency! 8689 8690 8691 8692 8693Local Variables: 8694coding: iso-8859-1 8695End: 8696