1 @c This is part of the Emacs manual.
2 @c Copyright (C) 1985,86,87,93,94,95,1997,2000,2001
3 @c Free Software Foundation, Inc.
4 @c See file emacs.texi for copying conditions.
5 @node MS-DOS, Manifesto, Mac OS, Top
6 @appendix Emacs and MS-DOS
8 @cindex MS-DOS peculiarities
10 This section briefly describes the peculiarities of using Emacs under
11 the MS-DOS ``operating system'' (also known as ``MS-DOG''). If you
12 build Emacs for MS-DOS, the binary will also run on Windows 3.X, Windows
13 NT, Windows 9X/ME, Windows 2000, or OS/2 as a DOS application; the
14 information in this chapter applies for all of those systems, if you use
15 an Emacs that was built for MS-DOS.
17 Note that it is possible to build Emacs specifically for Windows NT/2K
18 or Windows 9X/ME. If you do that, most of this chapter does not apply;
19 instead, you get behavior much closer to what is documented in the rest
20 of the manual, including support for long file names, multiple frames,
21 scroll bars, mouse menus, and subprocesses. However, the section on
22 text files and binary files does still apply. There are also two
23 sections at the end of this chapter which apply specifically for the
27 * Input: MS-DOS Input. Keyboard and mouse usage on MS-DOS.
28 * Display: MS-DOS Display. Fonts, frames and display size on MS-DOS.
29 * Files: MS-DOS File Names. File name conventions on MS-DOS.
30 * Text and Binary:: Text files on MS-DOS use CRLF to separate lines.
31 * Printing: MS-DOS Printing. How to specify the printer on MS-DOS.
32 * I18N: MS-DOS and MULE. Support for internationalization on MS-DOS.
33 * Processes: MS-DOS Processes. Running subprocesses on MS-DOS.
34 * Windows Processes:: Running subprocesses on Windows.
35 * Windows System Menu:: Controlling what the ALT key does.
39 @section Keyboard and Mouse on MS-DOS
41 @cindex Meta (under MS-DOS)
42 @cindex Hyper (under MS-DOS)
43 @cindex Super (under MS-DOS)
46 The PC keyboard maps use the left @key{ALT} key as the @key{META} key.
47 You have two choices for emulating the @key{SUPER} and @key{HYPER} keys:
48 choose either the right @key{CTRL} key or the right @key{ALT} key by
49 setting the variables @code{dos-hyper-key} and @code{dos-super-key} to 1
50 or 2 respectively. If neither @code{dos-super-key} nor
51 @code{dos-hyper-key} is 1, then by default the right @key{ALT} key is
52 also mapped to the @key{META} key. However, if the MS-DOS international
53 keyboard support program @file{KEYB.COM} is installed, Emacs will
54 @emph{not} map the right @key{ALT} to @key{META}, since it is used for
55 accessing characters like @kbd{~} and @kbd{@@} on non-US keyboard
56 layouts; in this case, you may only use the left @key{ALT} as @key{META}
59 @kindex C-j @r{(MS-DOS)}
60 @vindex dos-keypad-mode
61 The variable @code{dos-keypad-mode} is a flag variable that controls
62 what key codes are returned by keys in the numeric keypad. You can also
63 define the keypad @key{ENTER} key to act like @kbd{C-j}, by putting the
64 following line into your @file{_emacs} file:
67 ;; @r{Make the @key{ENTER} key from the numeric keypad act as @kbd{C-j}.}
68 (define-key function-key-map [kp-enter] [?\C-j])
71 @kindex DEL @r{(MS-DOS)}
72 @kindex BS @r{(MS-DOS)}
73 The key that is called @key{DEL} in Emacs (because that's how it is
74 designated on most workstations) is known as @key{BS} (backspace) on a
75 PC. That is why the PC-specific terminal initialization remaps the
76 @key{BS} key to act as @key{DEL}; the @key{DEL} key is remapped to act
77 as @kbd{C-d} for the same reasons.
79 @kindex C-g @r{(MS-DOS)}
80 @kindex C-BREAK @r{(MS-DOS)}
81 @cindex quitting on MS-DOS
82 Emacs built for MS-DOS recognizes @kbd{C-@key{BREAK}} as a quit
83 character, just like @kbd{C-g}. This is because Emacs cannot detect
84 that you have typed @kbd{C-g} until it is ready for more input. As a
85 consequence, you cannot use @kbd{C-g} to stop a running command
86 (@pxref{Quitting}). By contrast, @kbd{C-@key{BREAK}} @emph{is} detected
87 as soon as you type it (as @kbd{C-g} is on other systems), so it can be
88 used to stop a running command and for emergency escape
89 (@pxref{Emergency Escape}).
91 @cindex mouse support under MS-DOS
92 Emacs on MS-DOS supports a mouse (on the default terminal only).
93 The mouse commands work as documented, including those that use menus
94 and the menu bar (@pxref{Menu Bar}). Scroll bars don't work in
95 MS-DOS Emacs. PC mice usually have only two buttons; these act as
96 @kbd{Mouse-1} and @kbd{Mouse-2}, but if you press both of them
97 together, that has the effect of @kbd{Mouse-3}. If the mouse does have
98 3 buttons, Emacs detects that at startup, and all the 3 buttons function
101 Help strings for menu-bar and pop-up menus are displayed in the echo
102 area when the mouse pointer moves across the menu items.
103 Highlighting of mouse-sensitive text (@pxref{Mouse References}) is also
106 @cindex mouse, set number of buttons
107 @findex msdos-set-mouse-buttons
108 Some versions of mouse drivers don't report the number of mouse
109 buttons correctly. For example, mice with a wheel report that they
110 have 3 buttons, but only 2 of them are passed to Emacs; the clicks on
111 the wheel, which serves as the middle button, are not passed. In
112 these cases, you can use the @kbd{M-x msdos-set-mouse-buttons} command
113 to tell Emacs how many mouse buttons to expect. You could make such a
114 setting permanent by adding this fragment to your @file{_emacs} init
118 ;; @r{Treat the mouse like a 2-button mouse.}
119 (msdos-set-mouse-buttons 2)
122 @cindex Windows clipboard support
123 Emacs built for MS-DOS supports clipboard operations when it runs on
124 Windows. Commands that put text on the kill ring, or yank text from the
125 ring, check the Windows clipboard first, just as Emacs does on the X
126 Window System (@pxref{Mouse Commands}). Only the primary selection and
127 the cut buffer are supported by MS-DOS Emacs on Windows; the secondary
128 selection always appears as empty.
130 Due to the way clipboard access is implemented by Windows, the
131 length of text you can put into the clipboard is limited by the amount
132 of free DOS memory that is available to Emacs. Usually, up to 620KB of
133 text can be put into the clipboard, but this limit depends on the system
134 configuration and is lower if you run Emacs as a subprocess of
135 another program. If the killed text does not fit, Emacs outputs a
136 message saying so, and does not put the text into the clipboard.
138 Null characters also cannot be put into the Windows clipboard. If the
139 killed text includes null characters, Emacs does not put such text into
140 the clipboard, and displays in the echo area a message to that effect.
142 @vindex dos-display-scancodes
143 The variable @code{dos-display-scancodes}, when non-@code{nil},
144 directs Emacs to display the @acronym{ASCII} value and the keyboard scan code of
145 each keystroke; this feature serves as a complement to the
146 @code{view-lossage} command, for debugging.
149 @section Display on MS-DOS
150 @cindex faces under MS-DOS
151 @cindex fonts, emulating under MS-DOS
153 Display on MS-DOS cannot use font variants, like bold or italic,
155 multiple faces, each of which can specify a foreground and a background
156 color. Therefore, you can get the full functionality of Emacs packages
157 that use fonts (such as @code{font-lock}, Enriched Text mode, and
158 others) by defining the relevant faces to use different colors. Use the
159 @code{list-colors-display} command (@pxref{Frame Parameters}) and the
160 @code{list-faces-display} command (@pxref{Faces}) to see what colors and
161 faces are available and what they look like.
163 @xref{MS-DOS and MULE}, later in this chapter, for information on
164 how Emacs displays glyphs and characters that aren't supported by the
165 native font built into the DOS display.
167 @cindex cursor shape on MS-DOS
168 When Emacs starts, it changes the cursor shape to a solid box. This
169 is for compatibility with other systems, where the box cursor is the
170 default in Emacs. This default shape can be changed to a bar by
171 specifying the @code{cursor-type} parameter in the variable
172 @code{default-frame-alist} (@pxref{Creating Frames}). The MS-DOS
173 terminal doesn't support a vertical-bar cursor, so the bar cursor is
174 horizontal, and the @code{@var{width}} parameter, if specified by the
175 frame parameters, actually determines its height. For this reason,
176 the @code{bar} and @code{hbar} cursor types produce the same effect on
177 MS-DOS. As an extension, the bar cursor specification can include the
178 starting scan line of the cursor as well as its width, like this:
181 '(cursor-type bar @var{width} . @var{start})
185 In addition, if the @var{width} parameter is negative, the cursor bar
186 begins at the top of the character cell.
188 @cindex frames on MS-DOS
189 The MS-DOS terminal can only display a single frame at a time. The
190 Emacs frame facilities work on MS-DOS much as they do on text-only
191 terminals (@pxref{Frames}). When you run Emacs from a DOS window on
192 MS-Windows, you can make the visible frame smaller than the full
193 screen, but Emacs still cannot display more than a single frame at a
196 @cindex frame size under MS-DOS
199 The @code{mode4350} command switches the display to 43 or 50
200 lines, depending on your hardware; the @code{mode25} command switches
201 to the default 80x25 screen size.
203 By default, Emacs only knows how to set screen sizes of 80 columns by
204 25, 28, 35, 40, 43 or 50 rows. However, if your video adapter has
205 special video modes that will switch the display to other sizes, you can
206 have Emacs support those too. When you ask Emacs to switch the frame to
207 @var{n} rows by @var{m} columns dimensions, it checks if there is a
208 variable called @code{screen-dimensions-@var{n}x@var{m}}, and if so,
209 uses its value (which must be an integer) as the video mode to switch
210 to. (Emacs switches to that video mode by calling the BIOS @code{Set
211 Video Mode} function with the value of
212 @code{screen-dimensions-@var{n}x@var{m}} in the @code{AL} register.)
213 For example, suppose your adapter will switch to 66x80 dimensions when
214 put into video mode 85. Then you can make Emacs support this screen
215 size by putting the following into your @file{_emacs} file:
218 (setq screen-dimensions-66x80 85)
221 Since Emacs on MS-DOS can only set the frame size to specific
222 supported dimensions, it cannot honor every possible frame resizing
223 request. When an unsupported size is requested, Emacs chooses the next
224 larger supported size beyond the specified size. For example, if you
225 ask for 36x80 frame, you will get 40x80 instead.
227 The variables @code{screen-dimensions-@var{n}x@var{m}} are used only
228 when they exactly match the specified size; the search for the next
229 larger supported size ignores them. In the above example, even if your
230 VGA supports 38x80 dimensions and you define a variable
231 @code{screen-dimensions-38x80} with a suitable value, you will still get
232 40x80 screen when you ask for a 36x80 frame. If you want to get the
233 38x80 size in this case, you can do it by setting the variable named
234 @code{screen-dimensions-36x80} with the same video mode value as
235 @code{screen-dimensions-38x80}.
237 Changing frame dimensions on MS-DOS has the effect of changing all the
238 other frames to the new dimensions.
240 @node MS-DOS File Names
241 @section File Names on MS-DOS
242 @cindex file names under MS-DOS
243 @cindex init file, default name under MS-DOS
245 MS-DOS normally uses a backslash, @samp{\}, to separate name units
246 within a file name, instead of the slash used on other systems. Emacs
247 on MS-DOS permits use of either slash or backslash, and also knows
248 about drive letters in file names.
250 On MS-DOS, file names are case-insensitive and limited to eight
251 characters, plus optionally a period and three more characters. Emacs
252 knows enough about these limitations to handle file names that were
253 meant for other operating systems. For instance, leading dots @samp{.}
254 in file names are invalid in MS-DOS, so Emacs transparently converts
255 them to underscores @samp{_}; thus your default init file (@pxref{Init
256 File}) is called @file{_emacs} on MS-DOS. Excess characters before or
257 after the period are generally ignored by MS-DOS itself; thus, if you
258 visit the file @file{LongFileName.EvenLongerExtension}, you will
259 silently get @file{longfile.eve}, but Emacs will still display the long
260 file name on the mode line. Other than that, it's up to you to specify
261 file names which are valid under MS-DOS; the transparent conversion as
262 described above only works on file names built into Emacs.
264 @cindex backup file names on MS-DOS
265 The above restrictions on the file names on MS-DOS make it almost
266 impossible to construct the name of a backup file (@pxref{Backup
267 Names}) without losing some of the original file name characters. For
268 example, the name of a backup file for @file{docs.txt} is
269 @file{docs.tx~} even if single backup is used.
271 @cindex file names under Windows 95/NT
272 @cindex long file names in DOS box under Windows 95/NT
273 If you run Emacs as a DOS application under Windows 9X, Windows ME, or
274 Windows 2000, you can turn on support for long file names. If you do
275 that, Emacs doesn't truncate file names or convert them to lower case;
276 instead, it uses the file names that you specify, verbatim. To enable
277 long file name support, set the environment variable @env{LFN} to
278 @samp{y} before starting Emacs. Unfortunately, Windows NT doesn't allow
279 DOS programs to access long file names, so Emacs built for MS-DOS will
280 only see their short 8+3 aliases.
282 @cindex @env{HOME} directory under MS-DOS
283 MS-DOS has no notion of home directory, so Emacs on MS-DOS pretends
284 that the directory where it is installed is the value of @env{HOME}
285 environment variable. That is, if your Emacs binary,
286 @file{emacs.exe}, is in the directory @file{c:/utils/emacs/bin}, then
287 Emacs acts as if @env{HOME} were set to @samp{c:/utils/emacs}. In
288 particular, that is where Emacs looks for the init file @file{_emacs}.
289 With this in mind, you can use @samp{~} in file names as an alias for
290 the home directory, as you would on GNU or Unix. You can also set
291 @env{HOME} variable in the environment before starting Emacs; its
292 value will then override the above default behavior.
294 Emacs on MS-DOS handles the directory name @file{/dev} specially,
295 because of a feature in the emulator libraries of DJGPP that pretends
296 I/O devices have names in that directory. We recommend that you avoid
297 using an actual directory named @file{/dev} on any disk.
299 @node Text and Binary
300 @section Text Files and Binary Files
301 @cindex text and binary files on MS-DOS/MS-Windows
303 GNU Emacs uses newline characters to separate text lines. This is the
304 convention used on GNU and Unix.
306 @cindex end-of-line conversion on MS-DOS/MS-Windows
307 MS-DOS and MS-Windows normally use carriage-return linefeed, a
308 two-character sequence, to separate text lines. (Linefeed is the same
309 character as newline.) Therefore, convenient editing of typical files
310 with Emacs requires conversion of these end-of-line (EOL) sequences.
311 And that is what Emacs normally does: it converts carriage-return
312 linefeed into newline when reading files, and converts newline into
313 carriage-return linefeed when writing files. The same mechanism that
314 handles conversion of international character codes does this conversion
315 also (@pxref{Coding Systems}).
317 @cindex cursor location, on MS-DOS
318 @cindex point location, on MS-DOS
319 One consequence of this special format-conversion of most files is
320 that character positions as reported by Emacs (@pxref{Position Info}) do
321 not agree with the file size information known to the operating system.
323 In addition, if Emacs recognizes from a file's contents that it uses
324 newline rather than carriage-return linefeed as its line separator, it
325 does not perform EOL conversion when reading or writing that file.
326 Thus, you can read and edit files from GNU and Unix systems on MS-DOS
327 with no special effort, and they will retain their Unix-style
328 end-of-line convention after you edit them.
330 The mode line indicates whether end-of-line translation was used for
331 the current buffer. If MS-DOS end-of-line translation is in use for the
332 buffer, a backslash @samp{\} is displayed after the coding system
333 mnemonic near the beginning of the mode line (@pxref{Mode Line}). If no
334 EOL translation was performed, the string @samp{(Unix)} is displayed
335 instead of the backslash, to alert you that the file's EOL format is not
336 the usual carriage-return linefeed.
338 @cindex DOS-to-Unix conversion of files
339 To visit a file and specify whether it uses DOS-style or Unix-style
340 end-of-line, specify a coding system (@pxref{Specify Coding}). For
341 example, @kbd{C-x @key{RET} c unix @key{RET} C-x C-f foobar.txt}
342 visits the file @file{foobar.txt} without converting the EOLs; if some
343 line ends with a carriage-return linefeed pair, Emacs will display
344 @samp{^M} at the end of that line. Similarly, you can direct Emacs to
345 save a buffer in a specified EOL format with the @kbd{C-x @key{RET} f}
346 command. For example, to save a buffer with Unix EOL format, type
347 @kbd{C-x @key{RET} f unix @key{RET} C-x C-s}. If you visit a file
348 with DOS EOL conversion, then save it with Unix EOL format, that
349 effectively converts the file to Unix EOL style, like @code{dos2unix}.
351 @cindex untranslated file system
352 @findex add-untranslated-filesystem
353 When you use NFS or Samba to access file systems that reside on
354 computers using GNU or Unix systems, Emacs should not perform
355 end-of-line translation on any files in these file systems---not even
356 when you create a new file. To request this, designate these file
357 systems as @dfn{untranslated} file systems by calling the function
358 @code{add-untranslated-filesystem}. It takes one argument: the file
359 system name, including a drive letter and optionally a directory. For
363 (add-untranslated-filesystem "Z:")
367 designates drive Z as an untranslated file system, and
370 (add-untranslated-filesystem "Z:\\foo")
374 designates directory @file{\foo} on drive Z as an untranslated file
377 Most often you would use @code{add-untranslated-filesystem} in your
378 @file{_emacs} file, or in @file{site-start.el} so that all the users at
379 your site get the benefit of it.
381 @findex remove-untranslated-filesystem
382 To countermand the effect of @code{add-untranslated-filesystem}, use
383 the function @code{remove-untranslated-filesystem}. This function takes
384 one argument, which should be a string just like the one that was used
385 previously with @code{add-untranslated-filesystem}.
387 Designating a file system as untranslated does not affect character
388 set conversion, only end-of-line conversion. Essentially, it directs
389 Emacs to create new files with the Unix-style convention of using
390 newline at the end of a line. @xref{Coding Systems}.
392 @vindex file-name-buffer-file-type-alist
393 @cindex binary files, on MS-DOS/MS-Windows
394 Some kinds of files should not be converted at all, because their
395 contents are not really text. Therefore, Emacs on MS-DOS distinguishes
396 certain files as @dfn{binary files}. (This distinction is not part of
397 MS-DOS; it is made by Emacs only.) Binary files include executable
398 programs, compressed archives, etc. Emacs uses the file name to decide
399 whether to treat a file as binary: the variable
400 @code{file-name-buffer-file-type-alist} defines the file-name patterns
401 that indicate binary files. If a file name matches one of the patterns
402 for binary files (those whose associations are of the type
403 @code{(@var{pattern} . t)}, Emacs reads and writes that file using the
404 @code{no-conversion} coding system (@pxref{Coding Systems}) which turns
405 off @emph{all} coding-system conversions, not only the EOL conversion.
406 @code{file-name-buffer-file-type-alist} also includes file-name patterns
407 for files which are known to be DOS-style text files with
408 carriage-return linefeed EOL format, such as @file{CONFIG.SYS}; Emacs
409 always writes those files with DOS-style EOLs.
411 If a file which belongs to an untranslated file system matches one of
412 the file-name patterns in @code{file-name-buffer-file-type-alist}, the
413 EOL conversion is determined by @code{file-name-buffer-file-type-alist}.
415 @node MS-DOS Printing
416 @section Printing and MS-DOS
418 Printing commands, such as @code{lpr-buffer} (@pxref{Hardcopy}) and
419 @code{ps-print-buffer} (@pxref{PostScript}) can work in MS-DOS and
420 MS-Windows by sending the output to one of the printer ports, if a
421 Posix-style @code{lpr} program is unavailable. The same Emacs
422 variables control printing on all systems (@pxref{Hardcopy}), but in
423 some cases they have different default values on MS-DOS and
426 @vindex printer-name @r{(MS-DOS)}
427 If you want to use your local printer, printing on it in the usual DOS
428 manner, then set the Lisp variable @code{lpr-command} to @code{""} (its
429 default value) and @code{printer-name} to the name of the printer
430 port---for example, @code{"PRN"}, the usual local printer port (that's
431 the default), or @code{"LPT2"}, or @code{"COM1"} for a serial printer.
432 You can also set @code{printer-name} to a file name, in which case
433 ``printed'' output is actually appended to that file. If you set
434 @code{printer-name} to @code{"NUL"}, printed output is silently
435 discarded (sent to the system null device).
437 On MS-Windows, when the Windows network software is installed, you can
438 also use a printer shared by another machine by setting
439 @code{printer-name} to the UNC share name for that printer---for example,
440 @code{"//joes_pc/hp4si"}. (It doesn't matter whether you use forward
441 slashes or backslashes here.) To find out the names of shared printers,
442 run the command @samp{net view} at a DOS command prompt to obtain a list
443 of servers, and @samp{net view @var{server-name}} to see the names of printers
444 (and directories) shared by that server. Alternatively, click the
445 @samp{Network Neighborhood} icon on your desktop, and look for machines
446 which share their printers via the network.
448 @cindex @samp{net use}, and printing on MS-Windows
449 @cindex networked printers (MS-Windows)
450 If the printer doesn't appear in the output of @samp{net view}, or
451 if setting @code{printer-name} to the UNC share name doesn't produce a
452 hardcopy on that printer, you can use the @samp{net use} command to
453 connect a local print port such as @code{"LPT2"} to the networked
454 printer. For example, typing @kbd{net use LPT2:
455 \\joes_pc\hp4si}@footnote{
456 Note that the @samp{net use} command requires the UNC share name to be
457 typed with the Windows-style backslashes, while the value of
458 @code{printer-name} can be set with either forward- or backslashes.}
459 causes Windows to @dfn{capture} the LPT2 port and redirect the printed
460 material to the printer connected to the machine @code{joes_pc}.
461 After this command, setting @code{printer-name} to @code{"LPT2"}
462 should produce the hardcopy on the networked printer.
464 With some varieties of Windows network software, you can instruct
465 Windows to capture a specific printer port such as @code{"LPT2"}, and
466 redirect it to a networked printer via the @w{@code{Control
467 Panel->Printers}} applet instead of @samp{net use}.
469 Some printers expect DOS codepage encoding of non-@acronym{ASCII} text, even
470 though they are connected to a Windows machine which uses a different
471 encoding for the same locale. For example, in the Latin-1 locale, DOS
472 uses codepage 850 whereas Windows uses codepage 1252. @xref{MS-DOS and
473 MULE}. When you print to such printers from Windows, you can use the
474 @kbd{C-x RET c} (@code{universal-coding-system-argument}) command before
475 @kbd{M-x lpr-buffer}; Emacs will then convert the text to the DOS
476 codepage that you specify. For example, @kbd{C-x RET c cp850-dos RET
477 M-x lpr-region RET} will print the region while converting it to the
478 codepage 850 encoding. You may need to create the @code{cp@var{nnn}}
479 coding system with @kbd{M-x codepage-setup}.
481 If you set @code{printer-name} to a file name, it's best to use an
482 absolute file name. Emacs changes the working directory according to
483 the default directory of the current buffer, so if the file name in
484 @code{printer-name} is relative, you will end up with several such
485 files, each one in the directory of the buffer from which the printing
488 @findex print-buffer @r{(MS-DOS)}
489 @findex print-region @r{(MS-DOS)}
490 @vindex lpr-headers-switches @r{(MS-DOS)}
491 The commands @code{print-buffer} and @code{print-region} call the
492 @code{pr} program, or use special switches to the @code{lpr} program, to
493 produce headers on each printed page. MS-DOS and MS-Windows don't
494 normally have these programs, so by default, the variable
495 @code{lpr-headers-switches} is set so that the requests to print page
496 headers are silently ignored. Thus, @code{print-buffer} and
497 @code{print-region} produce the same output as @code{lpr-buffer} and
498 @code{lpr-region}, respectively. If you do have a suitable @code{pr}
499 program (for example, from GNU Textutils), set
500 @code{lpr-headers-switches} to @code{nil}; Emacs will then call
501 @code{pr} to produce the page headers, and print the resulting output as
502 specified by @code{printer-name}.
504 @vindex print-region-function @r{(MS-DOS)}
505 @cindex lpr usage under MS-DOS
506 @vindex lpr-command @r{(MS-DOS)}
507 @vindex lpr-switches @r{(MS-DOS)}
508 Finally, if you do have an @code{lpr} work-alike, you can set the
509 variable @code{lpr-command} to @code{"lpr"}. Then Emacs will use
510 @code{lpr} for printing, as on other systems. (If the name of the
511 program isn't @code{lpr}, set @code{lpr-command} to specify where to
512 find it.) The variable @code{lpr-switches} has its standard meaning
513 when @code{lpr-command} is not @code{""}. If the variable
514 @code{printer-name} has a string value, it is used as the value for the
515 @code{-P} option to @code{lpr}, as on Unix.
517 @findex ps-print-buffer @r{(MS-DOS)}
518 @findex ps-spool-buffer @r{(MS-DOS)}
519 @vindex ps-printer-name @r{(MS-DOS)}
520 @vindex ps-lpr-command @r{(MS-DOS)}
521 @vindex ps-lpr-switches @r{(MS-DOS)}
522 A parallel set of variables, @code{ps-lpr-command},
523 @code{ps-lpr-switches}, and @code{ps-printer-name} (@pxref{PostScript
524 Variables}), defines how PostScript files should be printed. These
525 variables are used in the same way as the corresponding variables
526 described above for non-PostScript printing. Thus, the value of
527 @code{ps-printer-name} is used as the name of the device (or file) to
528 which PostScript output is sent, just as @code{printer-name} is used for
529 non-PostScript printing. (There are two distinct sets of variables in
530 case you have two printers attached to two different ports, and only one
531 of them is a PostScript printer.)
533 The default value of the variable @code{ps-lpr-command} is @code{""},
534 which causes PostScript output to be sent to the printer port specified
535 by @code{ps-printer-name}, but @code{ps-lpr-command} can also be set to
536 the name of a program which will accept PostScript files. Thus, if you
537 have a non-PostScript printer, you can set this variable to the name of
538 a PostScript interpreter program (such as Ghostscript). Any switches
539 that need to be passed to the interpreter program are specified using
540 @code{ps-lpr-switches}. (If the value of @code{ps-printer-name} is a
541 string, it will be added to the list of switches as the value for the
542 @code{-P} option. This is probably only useful if you are using
543 @code{lpr}, so when using an interpreter typically you would set
544 @code{ps-printer-name} to something other than a string so it is
547 For example, to use Ghostscript for printing on an Epson printer
548 connected to the @samp{LPT2} port, put this in your @file{_emacs} file:
551 (setq ps-printer-name t) ; Ghostscript doesn't understand -P
552 (setq ps-lpr-command "c:/gs/gs386")
553 (setq ps-lpr-switches '("-q" "-dNOPAUSE"
561 (This assumes that Ghostscript is installed in the @file{"c:/gs"}
565 @vindex dos-ps-printer
566 For backwards compatibility, the value of @code{dos-printer}
567 (@code{dos-ps-printer}), if it has a value, overrides the value of
568 @code{printer-name} (@code{ps-printer-name}), on MS-DOS and MS-Windows
572 @node MS-DOS and MULE
573 @section International Support on MS-DOS
574 @cindex international support @r{(MS-DOS)}
576 Emacs on MS-DOS supports the same international character sets as it
577 does on GNU, Unix and other platforms (@pxref{International}), including
578 coding systems for converting between the different character sets.
579 However, due to incompatibilities between MS-DOS/MS-Windows and other systems,
580 there are several DOS-specific aspects of this support that you should
581 be aware of. This section describes these aspects.
584 @item M-x dos-codepage-setup
585 Set up Emacs display and coding systems as appropriate for the current
588 @item M-x codepage-setup
589 Create a coding system for a certain DOS codepage.
592 @cindex codepage, MS-DOS
593 @cindex DOS codepages
594 MS-DOS is designed to support one character set of 256 characters at
595 any given time, but gives you a variety of character sets to choose
596 from. The alternative character sets are known as @dfn{DOS codepages}.
597 Each codepage includes all 128 @acronym{ASCII} characters, but the other 128
598 characters (codes 128 through 255) vary from one codepage to another.
599 Each DOS codepage is identified by a 3-digit number, such as 850, 862,
602 In contrast to X, which lets you use several fonts at the same time,
603 MS-DOS normally doesn't allow use of several codepages in a single
604 session. MS-DOS was designed to load a single codepage at system
605 startup, and require you to reboot in order to change
606 it@footnote{Normally, one particular codepage is burnt into the display
607 memory, while other codepages can be installed by modifying system
608 configuration files, such as @file{CONFIG.SYS}, and rebooting. While
609 third-party software is known to exist that allows to change the
610 codepage without rebooting, we describe here how a stock MS-DOS system
611 behaves.}. Much the same limitation applies when you run DOS
612 executables on other systems such as MS-Windows.
614 @cindex unibyte operation @r{(MS-DOS)}
615 If you invoke Emacs on MS-DOS with the @samp{--unibyte} option
616 (@pxref{Initial Options}), Emacs does not perform any conversion of
617 non-@acronym{ASCII} characters. Instead, it reads and writes any non-@acronym{ASCII}
618 characters verbatim, and sends their 8-bit codes to the display
619 verbatim. Thus, unibyte Emacs on MS-DOS supports the current codepage,
620 whatever it may be, but cannot even represent any other characters.
623 For multibyte operation on MS-DOS, Emacs needs to know which
624 characters the chosen DOS codepage can display. So it queries the
625 system shortly after startup to get the chosen codepage number, and
626 stores the number in the variable @code{dos-codepage}. Some systems
627 return the default value 437 for the current codepage, even though the
628 actual codepage is different. (This typically happens when you use the
629 codepage built into the display hardware.) You can specify a different
630 codepage for Emacs to use by setting the variable @code{dos-codepage} in
633 @cindex language environment, automatic selection on @r{MS-DOS}
634 Multibyte Emacs supports only certain DOS codepages: those which can
635 display Far-Eastern scripts, like the Japanese codepage 932, and those
636 that encode a single ISO 8859 character set.
638 The Far-Eastern codepages can directly display one of the MULE
639 character sets for these countries, so Emacs simply sets up to use the
640 appropriate terminal coding system that is supported by the codepage.
641 The special features described in the rest of this section mostly
642 pertain to codepages that encode ISO 8859 character sets.
644 For the codepages which correspond to one of the ISO character sets,
645 Emacs knows the character set name based on the codepage number. Emacs
646 automatically creates a coding system to support reading and writing
647 files that use the current codepage, and uses this coding system by
648 default. The name of this coding system is @code{cp@var{nnn}}, where
649 @var{nnn} is the codepage number.@footnote{The standard Emacs coding
650 systems for ISO 8859 are not quite right for the purpose, because
651 typically the DOS codepage does not match the standard ISO character
652 codes. For example, the letter @samp{@,{c}} (@samp{c} with cedilla) has
653 code 231 in the standard Latin-1 character set, but the corresponding
654 DOS codepage 850 uses code 135 for this glyph.}
656 @cindex mode line @r{(MS-DOS)}
657 All the @code{cp@var{nnn}} coding systems use the letter @samp{D} (for
658 ``DOS'') as their mode-line mnemonic. Since both the terminal coding
659 system and the default coding system for file I/O are set to the proper
660 @code{cp@var{nnn}} coding system at startup, it is normal for the mode
661 line on MS-DOS to begin with @samp{-DD\-}. @xref{Mode Line}.
662 Far-Eastern DOS terminals do not use the @code{cp@var{nnn}} coding
663 systems, and thus their initial mode line looks like the Emacs default.
665 Since the codepage number also indicates which script you are using,
666 Emacs automatically runs @code{set-language-environment} to select the
667 language environment for that script (@pxref{Language Environments}).
669 If a buffer contains a character belonging to some other ISO 8859
670 character set, not the one that the chosen DOS codepage supports, Emacs
671 displays it using a sequence of @acronym{ASCII} characters. For example, if the
672 current codepage doesn't have a glyph for the letter @samp{@`o} (small
673 @samp{o} with a grave accent), it is displayed as @samp{@{`o@}}, where
674 the braces serve as a visual indication that this is a single character.
675 (This may look awkward for some non-Latin characters, such as those from
676 Greek or Hebrew alphabets, but it is still readable by a person who
677 knows the language.) Even though the character may occupy several
678 columns on the screen, it is really still just a single character, and
679 all Emacs commands treat it as one.
681 @cindex IBM graphics characters (MS-DOS)
682 @cindex box-drawing characters (MS-DOS)
683 @cindex line-drawing characters (MS-DOS)
684 Not all characters in DOS codepages correspond to ISO 8859
685 characters---some are used for other purposes, such as box-drawing
686 characters and other graphics. Emacs maps these characters to two
687 special character sets called @code{eight-bit-control} and
688 @code{eight-bit-graphic}, and displays them as their IBM glyphs.
689 However, you should be aware that other systems might display these
690 characters differently, so you should avoid them in text that might be
691 copied to a different operating system, or even to another DOS machine
692 that uses a different codepage.
694 @vindex dos-unsupported-character-glyph
695 Emacs supports many other characters sets aside from ISO 8859, but it
696 cannot display them on MS-DOS. So if one of these multibyte characters
697 appears in a buffer, Emacs on MS-DOS displays them as specified by the
698 @code{dos-unsupported-character-glyph} variable; by default, this glyph
699 is an empty triangle. Use the @kbd{C-u C-x =} command to display the
700 actual code and character set of such characters. @xref{Position Info}.
702 @findex codepage-setup
703 By default, Emacs defines a coding system to support the current
704 codepage. To define a coding system for some other codepage (e.g., to
705 visit a file written on a DOS machine in another country), use the
706 @kbd{M-x codepage-setup} command. It prompts for the 3-digit code of
707 the codepage, with completion, then creates the coding system for the
708 specified codepage. You can then use the new coding system to read and
709 write files, but you must specify it explicitly for the file command
710 when you want to use it (@pxref{Specify Coding}).
712 These coding systems are also useful for visiting a file encoded using
713 a DOS codepage, using Emacs running on some other operating system.
715 @cindex MS-Windows codepages
716 MS-Windows provides its own codepages, which are different from the
717 DOS codepages for the same locale. For example, DOS codepage 850
718 supports the same character set as Windows codepage 1252; DOS codepage
719 855 supports the same character set as Windows codepage 1251, etc.
720 The MS-Windows version of Emacs uses the current codepage for display
721 when invoked with the @samp{-nw} option.
723 @node MS-DOS Processes
724 @section Subprocesses on MS-DOS
726 @cindex compilation under MS-DOS
727 @cindex inferior processes under MS-DOS
728 @findex compile @r{(MS-DOS)}
729 @findex grep @r{(MS-DOS)}
730 Because MS-DOS is a single-process ``operating system,''
731 asynchronous subprocesses are not available. In particular, Shell
732 mode and its variants do not work. Most Emacs features that use
733 asynchronous subprocesses also don't work on MS-DOS, including
734 Shell mode and GUD. When in doubt, try and see; commands that
735 don't work output an error message saying that asynchronous processes
738 Compilation under Emacs with @kbd{M-x compile}, searching files with
739 @kbd{M-x grep} and displaying differences between files with @kbd{M-x
740 diff} do work, by running the inferior processes synchronously. This
741 means you cannot do any more editing until the inferior process
744 Spell checking also works, by means of special support for synchronous
745 invocation of the @code{ispell} program. This is slower than the
746 asynchronous invocation on other platforms
748 Instead of the Shell mode, which doesn't work on MS-DOS, you can use
749 the @kbd{M-x eshell} command. This invokes the Eshell package that
750 implements a Posix-like shell entirely in Emacs Lisp.
752 By contrast, Emacs compiled as native Windows application
753 @strong{does} support asynchronous subprocesses. @xref{Windows
756 @cindex printing under MS-DOS
757 Printing commands, such as @code{lpr-buffer} (@pxref{Hardcopy}) and
758 @code{ps-print-buffer} (@pxref{PostScript}), work in MS-DOS by sending
759 the output to one of the printer ports. @xref{MS-DOS Printing}.
761 When you run a subprocess synchronously on MS-DOS, make sure the
762 program terminates and does not try to read keyboard input. If the
763 program does not terminate on its own, you will be unable to terminate
764 it, because MS-DOS provides no general way to terminate a process.
765 Pressing @kbd{C-c} or @kbd{C-@key{BREAK}} might sometimes help in these
768 Accessing files on other machines is not supported on MS-DOS. Other
769 network-oriented commands such as sending mail, Web browsing, remote
770 login, etc., don't work either, unless network access is built into
771 MS-DOS with some network redirector.
773 @cindex directory listing on MS-DOS
774 @vindex dired-listing-switches @r{(MS-DOS)}
775 Dired on MS-DOS uses the @code{ls-lisp} package where other
776 platforms use the system @code{ls} command. Therefore, Dired on
777 MS-DOS supports only some of the possible options you can mention in
778 the @code{dired-listing-switches} variable. The options that work are
779 @samp{-A}, @samp{-a}, @samp{-c}, @samp{-i}, @samp{-r}, @samp{-S},
780 @samp{-s}, @samp{-t}, and @samp{-u}.
782 @node Windows Processes
783 @section Subprocesses on Windows 9X/ME and Windows NT/2K
785 Emacs compiled as a native Windows application (as opposed to the DOS
786 version) includes full support for asynchronous subprocesses.
787 In the Windows version, synchronous and asynchronous subprocesses work
789 Windows 9X and Windows NT/2K as long as you run only 32-bit Windows
790 applications. However, when you run a DOS application in a subprocess,
791 you may encounter problems or be unable to run the application at all;
792 and if you run two DOS applications at the same time in two
793 subprocesses, you may have to reboot your system.
795 Since the standard command interpreter (and most command line utilities)
796 on Windows 95 are DOS applications, these problems are significant when
797 using that system. But there's nothing we can do about them; only
798 Microsoft can fix them.
800 If you run just one DOS application subprocess, the subprocess should
801 work as expected as long as it is ``well-behaved'' and does not perform
802 direct screen access or other unusual actions. If you have a CPU
803 monitor application, your machine will appear to be 100% busy even when
804 the DOS application is idle, but this is only an artifact of the way CPU
805 monitors measure processor load.
807 You must terminate the DOS application before you start any other DOS
808 application in a different subprocess. Emacs is unable to interrupt or
809 terminate a DOS subprocess. The only way you can terminate such a
810 subprocess is by giving it a command that tells its program to exit.
812 If you attempt to run two DOS applications at the same time in separate
813 subprocesses, the second one that is started will be suspended until the
814 first one finishes, even if either or both of them are asynchronous.
816 If you can go to the first subprocess, and tell it to exit, the second
817 subprocess should continue normally. However, if the second subprocess
818 is synchronous, Emacs itself will be hung until the first subprocess
819 finishes. If it will not finish without user input, then you have no
820 choice but to reboot if you are running on Windows 9X. If you are
821 running on Windows NT/2K, you can use a process viewer application to kill
822 the appropriate instance of ntvdm instead (this will terminate both DOS
825 If you have to reboot Windows 9X in this situation, do not use the
826 @code{Shutdown} command on the @code{Start} menu; that usually hangs the
827 system. Instead, type @kbd{CTL-ALT-@key{DEL}} and then choose
828 @code{Shutdown}. That usually works, although it may take a few minutes
831 @node Windows System Menu
832 @section Using the System Menu on Windows
834 Emacs compiled as a native Windows application normally turns off the
835 Windows feature that tapping the @key{ALT}
836 key invokes the Windows menu. The reason is that the @key{ALT} also
837 serves as @key{META} in Emacs. When using Emacs, users often press the
838 @key{META} key temporarily and then change their minds; if this has the
839 effect of bringing up the Windows menu, it alters the meaning of
840 subsequent commands. Many users find this frustrating.
842 @vindex w32-pass-alt-to-system
843 You can re-enable Windows' default handling of tapping the @key{ALT} key
844 by setting @code{w32-pass-alt-to-system} to a non-@code{nil} value.
847 arch-tag: f39d2590-5dcc-4318-88d9-0eb73ca10fa2