1 Building and Installing Emacs on MS-Windows
2 using the MSYS and MinGW tools
4 Copyright (C) 2013 Free Software Foundation, Inc.
5 See the end of the file for license conditions.
7 The MSYS/MinGW build described here is supported on versions of
8 Windows starting with Windows 2000 and newer. Windows 9X are not
9 supported (but the Emacs binary produced by this build will run on
12 * For the brave (a.k.a. "impatient"):
14 For those who have a working MSYS/MinGW development environment and
15 are comfortable with running Posix configure scripts, here are the
16 concise instructions for configuring and building the native Windows
17 binary of Emacs with these tools.
19 Do not use this recipe with Cygwin. For building on Cygwin, use the
20 normal installation instructions, ../INSTALL.
22 Do not use these instructions if you don't have MSYS installed; for
23 that, see the file INSTALL in this directory.
25 0. Start the MSYS Bash window. Everything else below is done from
26 that window's Bash prompt.
28 0a. If you are building from the development trunk (as opposed to a
29 release tarball), produce the configure script, by typing from
30 the top-level Emacs source directory:
34 1. If you want to build Emacs outside of the source tree
35 (recommended), create the build directory and chdir there.
37 2. Invoke the MSYS-specific configure script:
39 - If you are building outside the source tree:
41 /PATH/TO/EMACS/SOURCE/TREE/nt/msysconfig.sh --prefix=PREFIX ...
43 - If you are building in-place, i.e. inside the source tree:
45 ./nt/msysconfig.sh --prefix=PREFIX ...
47 It is always preferable to use --prefix to configure Emacs for
48 some specific location of its installed tree; the default
49 /usr/local is not suitable for Windows (see the detailed
50 instructions for the reasons).
52 You can pass other options to the configure script. Here's a
53 typical example (for an in-place debug build):
55 CPPFLAGS='-DGLYPH_DEBUG=1' CFLAGS='-O0 -g3' ./nt/msysconfig.sh --prefix=/d/usr/emacs --enable-checking
57 3. After the configure script finishes, it should display the
58 resulting configuration. After that, type
62 Use "make -j N" if your MSYS Make supports parallel execution;
63 the build will take significantly less time in that case. Here N
64 is the number of simultaneous parallel jobs; use the number of
65 the cores on your system.
67 4. Install the produced binaries:
71 If you want the installation tree to go to a place that is
72 different from the one specified by --prefix, say
74 make install prefix=/where/ever/you/want
78 If these short instructions somehow fail, read the rest of this
81 * Installing MinGW and MSYS
83 Make sure you carefully read the following two sections in their
84 entirety and install/configure the various packages as instructed.
85 A correct installation makes all the rest almost trivial; a botched
86 installation will likely make you miserable for quite some time.
88 There are two alternative to installing MinGW + MSYS: using the GUI
89 installer, called mingw-get, provided by the MinGW project, or
90 manual installation. The next two sections describe each one of
93 ** Installing MinGW and MSYS using mingw-get
95 A nice installer, called mingw-get, is available for those who don't
96 like to mess with manual installations. You can download it from
99 https://sourceforge.net/projects/mingw/files/Installer/mingw-get/
101 (This installer only supports packages downloaded from the MinGW
102 site; for the rest you will still need the manual method.)
104 After installing mingw-get, invoke it to install the packages that
105 are already selected by default on the "Select Components" screen of
108 After that, use "mingw-get install PACKAGE" to install the following
112 . mingw-developer-toolkit
114 (We recommend that you refrain from installing the MSYS Texinfo
115 package, which is part of msys-base, because it might produce mixed
116 EOL format when installing Info files. Instead, install the MinGW
117 port of Texinfo, see the ezwinports URL below. To uninstall the
118 MSYS Texinfo, after installing it as part of msys-base, invoke the
119 command "mingw-get remove msys-texinfo".)
121 At this point, you should be ready to configure and build Emacs in
122 its basic configuration. Skip to the "Generating the configure
123 script" section for the build instructions. If you want to build it
124 with image support and other optional libraries, read about the
125 optional libraries near the end of this document, before you start
126 the build. Also, consider installing additional MinGW packages that
127 are required/recommended, especially if you are building from the
128 Bazaar repository, as described in the next section.
130 ** Installing MinGW and MSYS manually
134 You will need to install the MinGW port of GCC and Binutils, and the
135 MinGW runtime and Windows API distributions, to compile Emacs. You
136 can find these on the MinGW download/Base page:
138 https://sourceforge.net/projects/mingw/files/MinGW/Base/
140 In general, install the latest stable versions of the following
141 MinGW packages from that page: gcc, binutils, mingw-rt, w32api. You
142 only need the 'bin' and the 'dll' tarballs of each of the above.
144 MinGW packages are distributed as .tar.lzma compressed archives. To
145 install the packages manually, we recommend to use the Windows port
146 of the 'bsdtar' program to unpack the tarballs. 'bsdtar' is
147 available as part of the 'libarchive' package from here:
149 http://sourceforge.net/projects/ezwinports/files/
151 The recommended place to install these packages is a single tree
152 starting from some directory on a drive other than the system drive
153 C:. A typical example would be D:\usr, with D:\usr\bin holding the
154 binaries and DLLs (should be added to your Path environment
155 variable), D:\usr\include holding the include files, D:\usr\lib
156 holding the static and import libraries, D:\usr\share holding docs,
157 message catalogs, and package-specific subdirectories, etc.
159 Having all the headers and libraries in a single place will greatly
160 reduce the number of -I and -L flags you will have to pass to the
161 configure script (see below), as these files will be right where the
162 compiler expects them.
164 We specifically do NOT recommend installing packages below
165 "C:\Program Files" or "C:\Program Files (x86)". These directories
166 are protected on versions of Windows from Vista and on, and you will
167 have difficulties updating and maintaining your installation later,
168 due to UAC elevation prompts, file virtualization, etc. You *have*
171 Additional MinGW packages are required/recommended, especially if
172 you are building from the Bazaar repository:
174 . Texinfo (needed to produce the Info manuals when building from
175 bzr, and for "make install")
177 Available from http://sourceforge.net/projects/ezwinports/files/.
179 . gzip (needed to compress files during "make install")
181 Available from http://gnuwin32.sourceforge.net/packages/gzip.htm.
183 . pkg-config (needed for building with some optional libraries,
184 such as GnuTLS and libxml2)
186 Available from http://www.gtk.org/download/win32.php
188 Each package might list other packages as prerequisites on its
189 download page (under "Runtime requirements"); download those as
190 well. (Using the mingw-get installer will fetch those prerequisites
191 automatically for you.) A missing prerequisite will manifest itself
192 by the program failing to run and presenting a pop-up dialog that
193 states the missing or incompatible DLL; be sure to find and install
196 Once you think you have MinGW installed, test the installation by
197 building a trivial "hello, world!" program, and make sure that it
198 builds without any error messages and the binary works when run.
202 You will need a reasonably full MSYS installation. MSYS is an
203 environment needed to run the Posix configure scripts and the
204 resulting Makefile's, in order to produce native Windows binaries
205 using the MinGW compiler and runtime libraries. Here's the list of
206 MSYS packages that are required:
208 . All the packages from the MSYS Base distribution, listed here:
210 https://sourceforge.net/projects/mingw/files/MSYS/Base/
212 . Additional packages listed below, from the MSYS Extension
215 https://sourceforge.net/projects/mingw/files/MSYS/Extension/
223 These should only be needed if you intend to build development
224 versions of Emacs from the Bazaar repository.
226 . Additional packages (needed only if building from the Bazaar
227 repository): Automake and Autoconf. They are available from
230 http://sourceforge.net/projects/ezwinports/files/automake-1.11.6-msys-bin.zip/download
231 http://sourceforge.net/projects/ezwinports/files/autoconf-2.65-msys-bin.zip/download
233 MSYS packages are distributed as .tar.lzma compressed archives. To
234 install the packages manually, we recommend to use the Windows port
235 of the 'bsdtar' program, already mentioned above.
237 If/when you are confident in your MinGW/MSYS installation, and want
238 to speed up the builds, we recommend installing a pre-release
239 version of Make from here:
241 https://sourceforge.net/projects/mingwbuilds/files/external-binary-packages/
243 These are snapshot builds of many packages, but you only need
244 make.exe from there. The advantage of this make.exe is that it
245 supports parallel builds, so you can use "make -j N" to considerably
246 speed up your builds.
248 Several users reported that MSYS 1.0.18 causes Make to hang in
249 parallel builds. If you bump into this, we suggest to downgrade to
250 MSYS 1.0.17, which doesn't have that problem.
252 For each of these packages, install the 'bin' and 'dll' tarballs of
253 their latest stable releases. If there's an 'ext' tarball (e.g.,
254 msysCORE and Coreutils have it), download and install those as well.
256 Each package might list other packages as prerequisites on its
257 download page (under "Runtime requirements"); download those as
258 well. (Using the mingw-get installer will fetch those prerequisites
259 automatically for you.) A missing prerequisite will manifest itself
260 by the program failing to run and presenting a pop-up dialog that
261 states the missing or incompatible DLL; be sure to find and install
264 MSYS packages should be installed in a separate tree from MinGW.
265 For example, use D:\MSYS or D:\usr\MSYS as the top-level directory
266 from which you unpack all of the MSYS packages.
268 Do NOT add the MSYS bin directory to your Windows Path! Only the
269 MinGW bin directory should be on Path. When you install MSYS, it
270 creates a shortcut on your desktop that invokes the MSYS Bash shell
271 in a Command Prompt window; that shell is already set up so that the
272 MSYS bin directory is on PATH ahead of any other directory. Thus,
273 Bash will find MSYS executables first, which is exactly what you
276 At this point, you are ready to build Emacs in its basic
277 configuration. If you want to build it with image support and other
278 optional libraries, read about that near the end of this document.
280 * Generating the configure script
282 If you are building a release or pretest tarball, skip this section,
283 because the configure script is already present in the tarball.
285 To build a development snapshot from the Emacs Bazaar repository,
286 you will first need to generate the configure script and a few other
287 auto-generated files. (If this step, described below, somehow
288 fails, you can use the files in the autogen/ directory instead, but
289 they might be outdated, and, most importantly, you are well advised
290 not to disregard any failures in your local build procedures, as
291 these are likely to be symptoms of incorrect installation that will
292 bite you down the road.)
294 To generate the configure script, type this at the MSYS Bash prompt
295 from the top-level directory of the Emacs tree:
299 If successful, this command should produce the following output:
302 Checking whether you have the necessary tools...
303 (Read INSTALL.BZR for more details on building Emacs)
305 Checking for autoconf (need at least version 2.65)...
307 Checking for automake (need at least version 1.11)...
309 Your system has the required tools, running autoreconf...
310 You can now run `./configure'.
312 * Configuring Emacs for MinGW:
314 Now it's time to run the configure script. You can do that either
315 from a separate build directory that is outside of the Emacs source
316 tree (recommended), or from inside the source tree. The former is
317 recommended because it allows you to have several different builds,
318 e.g., an optimized build and an unoptimized one, of the same
319 revision of the source tree; the source tree will be left in its
320 pristine state, without any build products.
322 You invoke the configure script like this:
324 /PATH/TO/EMACS/SOURCE/TREE/nt/msysconfig.sh --prefix=PREFIX ...
326 or, if you are building in-place, i.e. inside the source tree:
328 ./nt/msysconfig.sh --prefix=PREFIX ...
330 Here PREFIX is the place where you eventually want to install Emacs
331 once built, e.g. /d/usr. We recommend to always use --prefix when
332 building Emacs on Windows, because the default '/usr/local' is not
333 appropriate for Windows: it will be mapped by MSYS to something like
334 C:\MSYS\local, and it will defeat the purpose of PREFIX, which is to
335 install programs in a single coherent tree resembling Posix systems.
336 Such a single-tree installation makes sure all the other programs
337 and packages ported from GNU or Unix systems will work seamlessly
338 together. Where exactly is the root of that tree on your system is
339 something only you, the user who builds Emacs, can know, and the
340 Emacs build process cannot guess, because usually there's no
341 '/usr/local' directory on any drive on Windows systems.
343 Do NOT use Windows-style x:/foo/bar file names on the configure
344 script command line; use the MSYS-style /x/foo/bar instead. Using
345 Windows-style file names was reported to cause subtle and hard to
346 figure out problems during the build. This applies both to the
347 command switches, such as --prefix=, and to the absolute file name
348 of msysconfig.sh, if you are building outside of the source tree.
350 You can pass additional options to the configure script, for the
353 ./nt/msysconfig.sh --help
355 As explained in the help text, you may need to tell the script what
356 are the optional flags to invoke the compiler. This is needed if
357 some of your headers and libraries, e.g., those belonging to
358 optional image libraries, are installed in places where the compiler
359 normally doesn't look for them. (Remember that advice above to
360 avoid such situations? here's is where you will start paying for
361 disregarding that recommendation.) For example, if you have libpng
362 headers in C:\emacs\libs\libpng-1.2.37-lib\include and jpeg library
363 headers in C:\emacs\libs\jpeg-6b-4-lib\include, you will need to say
366 CPPFLAGS='-I/c/emacs/libs/libpng-1.2.37-lib/include -I/c/emacs/libs/jpeg-6b-4-lib/include' ./nt/msysconfig.sh --prefix=PREFIX
368 which is quite a mouth-full, especially if you have more directories
369 to specify... Perhaps you may wish to revisit your installation
372 If you have a global site-lisp directory from previous Emacs
373 installation, and you want Emacs to continue using it, specify it
374 via the --enable-locallisppath switch to msysconfig.sh, like this:
376 ./nt/msysconfig.sh --prefix=PREFIX --enable-locallisppath="/d/usr/share/emacs/VERSION/site-lisp:/d/wherever/site-lisp"
378 Use the normal MSYS /d/foo/bar style to specify directories by their
381 A few frequently used options are needed when you want to produce an
382 unoptimized binary with runtime checks enabled:
384 CPPFLAGS='-DGLYPH_DEBUG=1' CFLAGS='-O0 -g3' ./nt/msysconfig.sh --prefix=PREFIX --enable-checking
386 Once invoked, the configure script will run for some time, and, if
387 successful, will eventually produce a summary of the configuration
390 Configured for `i686-pc-mingw32'.
392 Where should the build process find the source code? /path/to/emacs/sources
393 What compiler should emacs be built with? gcc -std=gnu99 -O0 -g3
394 Should Emacs use the GNU version of malloc? yes
395 Should Emacs use a relocating allocator for buffers? yes
396 Should Emacs use mmap(2) for buffer allocation? no
397 What window system should Emacs use? w32
398 What toolkit should Emacs use? none
399 Where do we find X Windows header files? NONE
400 Where do we find X Windows libraries? NONE
401 Does Emacs use -lXaw3d? no
402 Does Emacs use -lXpm? yes
403 Does Emacs use -ljpeg? yes
404 Does Emacs use -ltiff? yes
405 Does Emacs use a gif library? yes
406 Does Emacs use -lpng? yes
407 Does Emacs use -lrsvg-2? no
408 Does Emacs use imagemagick? no
409 Does Emacs use -lgpm? no
410 Does Emacs use -ldbus? no
411 Does Emacs use -lgconf? no
412 Does Emacs use GSettings? no
413 Does Emacs use -lselinux? no
414 Does Emacs use -lgnutls? yes
415 Does Emacs use -lxml2? yes
416 Does Emacs use -lfreetype? no
417 Does Emacs use -lm17n-flt? no
418 Does Emacs use -lotf? no
419 Does Emacs use -lxft? no
420 Does Emacs use toolkit scroll bars? yes
422 You are almost there, hang on.
424 If the output is significantly different, or if configure finishes
425 prematurely and displays some error message, you should examine the
426 configuration log in config.log and find the reason for the failure.
428 Once you succeeded in configuring Emacs, and just want to rebuild it
429 after updating your local repository from the main repository, you
430 don't need to re-run the configure script manually, unless you want
431 to change the configure-time options. Just typing "make" will
432 re-run configure if necessary with the exact same options you
433 specified originally, and then go on to invoking Make, described
438 This is simple: just type "make" and sit back, watching the fun.
440 If you installed a snapshot build of Make, the build will be much
441 faster if you type "make -j N" instead, where N is the number of
442 independent processing units on your machine. E.g., on a core i7
443 system try using N of 6 or even 8. (If this hangs, see the notes
444 above about downgrading to MSYS 1.0.17.)
446 When Make finishes, you can install the produced binaries:
450 or, if you want the installed tree to go in a place different from
451 the configured one, type
453 make install prefix=WHEREVER
455 Congrats! You have built and installed your own Emacs!
459 The following make targets may be used by users building the source
460 distribution, or users who have checked out of Bazaar after
461 an initial bootstrapping.
464 Builds Emacs from the available sources and pre-compiled lisp files.
467 Installs the built programs and the auxiliary files.
470 Removes object and executable files produced by the build process in
471 the current configuration. After "make clean", you can rebuild with
472 the same configuration using make. useful when you want to be sure
473 that all of the products are built from coherent sources.
476 In addition to the files removed by make clean, this also removes
477 Makefiles and other generated files to get back to the state of a
478 freshly unpacked source distribution. After make distclean, it is
479 necessary to run the configure script followed by "make", in order
482 The following targets are intended only for use with the Bazaar sources.
485 Removes all the auto-generated files and all the *.elc byte-compiled
486 files, and builds Emacs from scratch. Useful when some change in
487 basic Emacs functionality makes byte compilation of updated files
490 make maintainer-clean
491 Removes everything that can be recreated, including compiled Lisp
492 files, to get back to the state of a fresh Bazaar tree. After make
493 maintainer-clean, it is necessary to run configure and "make" or
494 "make bootstrap" to rebuild. Occasionally it may be necessary to
495 run this target after an update.
497 * Optional image library support
499 In addition to its "native" image formats (pbm and xbm), Emacs can
500 handle other image types: xpm, tiff, gif, png, jpeg and experimental
503 To build Emacs with support for them, the corresponding headers must
504 be in the include path and libraries should be where the linker
505 looks for them, when the configure script is run. If needed, this
506 can be set up using the CPPFLAGS and CFLAGS variable specified on
507 the configure command line. The configure script will report
508 whether it was able to detect the headers and libraries. If the
509 results of this testing appear to be incorrect, please look for
510 details in the file config.log: it will show the failed test
511 programs and compiler error messages that should explain what is
512 wrong. (Usually, any such failures happen because some headers are
513 missing due to bad packaging of the image support libraries.)
515 Note that any file path passed to the compiler or linker must use
516 forward slashes, or double each backslash, as that is how Bash
519 If the configure script finds the necessary headers and libraries,
520 but they are for some reason incompatible, or if you want to omit
521 support for some image library that is installed on your system for
522 some other reason, use the --without-PACKAGE option to configure,
523 such as --without-gif to omit GIF, --without-tiff to omit TIFF, etc.
524 Passing the --help option to the configure script displays all of
525 the supported --without-PACKAGE options.
527 To use the external image support, the DLLs implementing the
528 functionality must be found when Emacs first needs them, either on the
529 PATH, or in the same directory as emacs.exe. Failure to find a
530 library is not an error; the associated image format will simply be
531 unavailable. Note that once Emacs has determined that a library can
532 not be found, there's no way to force it to try again, other than
533 restarting. See the variable `dynamic-library-alist' to configure the
534 expected names of the libraries.
536 Some image libraries have dependencies on one another, or on zlib.
537 For example, tiff support depends on the jpeg library. If you did not
538 compile the libraries yourself, you must make sure that any dependency
539 is in the PATH or otherwise accessible and that the binaries are
540 compatible (for example, that they were built with the same compiler).
542 Binaries for the image libraries (among many others) can be found at
543 the GnuWin32 project. The PNG libraries are also included with GTK,
544 which is installed along with other Free Software that requires it.
545 Note specifically that, due to some packaging snafus in the
546 GnuWin32-supplied image libraries, you will need to download
547 _source_ packages for some of the libraries in order to get the
548 header files necessary for building Emacs with image support.
550 For PNG images, we recommend to use versions 1.4.x and later of
551 libpng, because previous versions had security issues. You can find
552 precompiled libraries and headers on the GTK download page for
553 Windows (http://www.gtk.org/download/win32.php).
555 Versions 1.4.0 and later of libpng are binary incompatible with
556 earlier versions, so Emacs will only look for libpng libraries which
557 are compatible with the version it was compiled against. That
558 version is given by the value of the Lisp variable `libpng-version';
559 e.g., 10403 means version 1.4.3. The variable `dynamic-library-alist'
560 is automatically set to name only those DLL names that are known to
561 be compatible with the version given by `libpng-version'. If PNG
562 support does not work for you even though you have the support DLL
563 installed, check the name of the installed DLL against
564 `dynamic-library-alist' and the value of `libpng-version', and
565 download compatible DLLs if needed.
567 * Optional GnuTLS support
569 To compile with GnuTLS, you will need pkg-config to be installed, as
570 the configure script invokes pkg-config to find out which compiler
571 switches to use for GnuTLS. See above for the URL where you can
572 find pkg-config for Windows.
574 You will also need to install the p11-kit package, which is a
575 dependency of GnuTLS, and its header files are needed for
576 compilation of programs that use GnuTLS. You can find p11-kit on
577 the same site as GnuTLS, see the URL below.
579 If the configure script finds the GnuTLS header files and libraries
580 on your system, Emacs is built with GnuTLS support by default; to
581 avoid that you can pass the argument --without-gnutls.
583 In order to support GnuTLS at runtime, a GnuTLS-enabled Emacs must
584 be able to find the relevant DLLs during startup; failure to do so
585 is not an error, but GnuTLS won't be available to the running
588 You can get pre-built binaries (including any required DLL and the
589 header files) at http://sourceforge.net/projects/ezwinports/files/.
591 * Optional libxml2 support
593 To compile with libxml2, you will need pkg-config to be installed,
594 as the configure script invokes pkg-config to find out which
595 compiler switches to use for libxml2. See above for the URL where
596 you can find pkg-config for Windows.
598 If the configure script finds the libxml2 header files and libraries
599 on your system, Emacs is built with libxml2 support by default; to
600 avoid that you can pass the argument --without-libxml2.
602 In order to support libxml2 at runtime, a libxml2-enabled Emacs must
603 be able to find the relevant DLLs during startup; failure to do so
604 is not an error, but libxml2 features won't be available to the
607 One place where you can get pre-built Windows binaries of libxml2
608 (including any required DLL and the header files) is here:
610 http://sourceforge.net/projects/ezwinports/files/
612 For runtime support of libxml2, you will also need to install the
613 libiconv "development" tarball, because the libiconv headers need to
614 be available to the compiler when you compile with libxml2 support.
615 A MinGW port of libiconv can be found on the MinGW site:
617 http://sourceforge.net/projects/mingw/files/MinGW/Base/libiconv/
619 You need the libiconv-X.Y.Z-N-mingw32-dev.tar.lzma tarball from that
622 * Experimental SVG support
624 To compile with SVG, you will need pkg-config to be installed, as
625 the configure script invokes pkg-config to find out which compiler
626 switches to use for SVG. See above for the URL where you can find
627 pkg-config for Windows.
629 SVG support is currently experimental, and not built by default.
630 Specify --with-rsvg and ensure you have all the dependencies in your
631 include path. Unless you have built a minimalist librsvg yourself
632 (untested), librsvg depends on a significant chunk of GTK+ to build,
633 plus a few Gnome libraries, libxml2, libbz2 and zlib at runtime. The
634 easiest way to obtain the dependencies required for building is to
635 download a pre-bundled GTK+ development environment for Windows.
637 To use librsvg at runtime, ensure that librsvg and its dependencies
638 are on your PATH. If you didn't build librsvg yourself, you will
639 need to check with where you downloaded it from for the
640 dependencies, as there are different build options. If it is a
641 short list, then it most likely only lists the immediate
642 dependencies of librsvg, but the dependencies themselves have
643 dependencies - so don't download individual libraries from GTK+,
644 download and install the whole thing. If you think you've got all
645 the dependencies and SVG support is still not working, check your
646 PATH for other libraries that shadow the ones you downloaded.
647 Libraries of the same name from different sources may not be
648 compatible, this problem was encountered with libbzip2 from GnuWin32
649 with libcroco from gnome.org.
651 If you can see etc/images/splash.svg, then you have managed to get
652 SVG support working. Congratulations for making it through DLL hell
653 to this point. You'll probably find that some SVG images crash
654 Emacs. Problems have been observed in some images that contain
655 text, they seem to be a problem in the Windows port of Pango, or
656 maybe a problem with the way Cairo or librsvg is using it that
657 doesn't show up on other platforms.
660 This file is part of GNU Emacs.
662 GNU Emacs is free software: you can redistribute it and/or modify
663 it under the terms of the GNU General Public License as published by
664 the Free Software Foundation, either version 3 of the License, or
665 (at your option) any later version.
667 GNU Emacs is distributed in the hope that it will be useful,
668 but WITHOUT ANY WARRANTY; without even the implied warranty of
669 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
670 GNU General Public License for more details.
672 You should have received a copy of the GNU General Public License
673 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.