1 /* sound.c -- sound support.
3 Copyright (C) 1998-1999, 2001-2012 Free Software Foundation, Inc.
5 This file is part of GNU Emacs.
7 GNU Emacs is free software: you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation, either version 3 of the License, or
10 (at your option) any later version.
12 GNU Emacs is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
20 /* Written by Gerd Moellmann <gerd@gnu.org>. Tested with Luigi's
21 driver on FreeBSD 2.2.7 with a SoundBlaster 16. */
24 Modified by Ben Key <Bkey1@tampabay.rr.com> to add a partial
25 implementation of the play-sound specification for Windows.
28 In the Windows implementation of play-sound-internal only the
29 :file and :volume keywords are supported. The :device keyword,
30 if present, is ignored. The :data keyword, if present, will
31 cause an error to be generated.
33 The Windows implementation of play-sound is implemented via the
34 Windows API functions mciSendString, waveOutGetVolume, and
35 waveOutSetVolume which are exported by Winmm.dll.
40 #if defined HAVE_SOUND
42 /* BEGIN: Common Includes */
45 #include <sys/types.h>
49 #include "dispextern.h"
51 #include "syssignal.h"
52 /* END: Common Includes */
55 /* BEGIN: Non Windows Includes */
58 #include <sys/ioctl.h>
60 /* FreeBSD has machine/soundcard.h. Voxware sound driver docs mention
61 sys/soundcard.h. So, let's try whatever's there. */
63 #ifdef HAVE_MACHINE_SOUNDCARD_H
64 #include <machine/soundcard.h>
66 #ifdef HAVE_SYS_SOUNDCARD_H
67 #include <sys/soundcard.h>
69 #ifdef HAVE_SOUNDCARD_H
70 #include <soundcard.h>
73 #ifdef ALSA_SUBDIR_INCLUDE
74 #include <alsa/asoundlib.h>
76 #include <asoundlib.h>
77 #endif /* ALSA_SUBDIR_INCLUDE */
78 #endif /* HAVE_ALSA */
80 /* END: Non Windows Includes */
84 /* BEGIN: Windows Specific Includes */
89 /* END: Windows Specific Includes */
91 #endif /* WINDOWSNT */
93 /* BEGIN: Common Definitions */
97 static Lisp_Object QCvolume
, QCdevice
;
98 static Lisp_Object Qsound
;
99 static Lisp_Object Qplay_sound_functions
;
101 /* Indices of attributes in a sound attributes vector. */
112 /* END: Common Definitions */
114 /* BEGIN: Non Windows Definitions */
117 /* Structure forward declarations. */
122 /* The file header of RIFF-WAVE files (*.wav). Files are always in
123 little-endian byte-order. */
129 u_int32_t chunk_type
;
130 u_int32_t chunk_format
;
131 u_int32_t chunk_length
;
134 u_int32_t sample_rate
;
135 u_int32_t bytes_per_second
;
136 u_int16_t sample_size
;
138 u_int32_t chunk_data
;
139 u_int32_t data_length
;
142 /* The file header of Sun adio files (*.au). Files are always in
143 big-endian byte-order. */
148 u_int32_t magic_number
;
150 /* Offset of data part from start of file. Minimum value is 24. */
151 u_int32_t data_offset
;
153 /* Size of data part, 0xffffffff if unknown. */
156 /* Data encoding format.
158 2 8-bit linear PCM (REF-PCM)
162 6 32-bit IEEE floating-point
163 7 64-bit IEEE floating-point
164 23 8-bit u-law compressed using CCITT 0.721 ADPCM voice data
168 /* Number of samples per second. */
169 u_int32_t sample_rate
;
171 /* Number of interleaved channels. */
175 /* Maximum of all sound file headers sizes. */
177 #define MAX_SOUND_HEADER_BYTES \
178 max (sizeof (struct wav_header), sizeof (struct au_header))
180 /* Interface structure for sound devices. */
184 /* The name of the device or null meaning use a default device name. */
187 /* File descriptor of the device. */
190 /* Device-dependent format. */
193 /* Volume (0..100). Zero means unspecified. */
202 /* Bytes per second. */
205 /* 1 = mono, 2 = stereo, 0 = don't set. */
208 /* Open device SD. */
209 void (* open
) (struct sound_device
*sd
);
211 /* Close device SD. */
212 void (* close
) (struct sound_device
*sd
);
214 /* Configure SD according to device-dependent parameters. */
215 void (* configure
) (struct sound_device
*device
);
217 /* Choose a device-dependent format for outputting sound S. */
218 void (* choose_format
) (struct sound_device
*sd
,
221 /* Return a preferred data size in bytes to be sent to write (below)
222 each time. 2048 is used if this is NULL. */
223 ptrdiff_t (* period_size
) (struct sound_device
*sd
);
225 /* Write NYBTES bytes from BUFFER to device SD. */
226 void (* write
) (struct sound_device
*sd
, const char *buffer
,
229 /* A place for devices to store additional data. */
233 /* An enumerator for each supported sound file type. */
241 /* Interface structure for sound files. */
245 /* The type of the file. */
246 enum sound_type type
;
248 /* File descriptor of a sound file. */
251 /* Pointer to sound file header. This contains header_size bytes
252 read from the start of a sound file. */
255 /* Number of bytes read from sound file. This is always <=
256 MAX_SOUND_HEADER_BYTES. */
259 /* Sound data, if a string. */
262 /* Play sound file S on device SD. */
263 void (* play
) (struct sound
*s
, struct sound_device
*sd
);
266 /* These are set during `play-sound-internal' so that sound_cleanup has
269 static struct sound_device
*current_sound_device
;
270 static struct sound
*current_sound
;
272 /* Function prototypes. */
274 static void vox_open (struct sound_device
*);
275 static void vox_configure (struct sound_device
*);
276 static void vox_close (struct sound_device
*sd
);
277 static void vox_choose_format (struct sound_device
*, struct sound
*);
278 static int vox_init (struct sound_device
*);
279 static void vox_write (struct sound_device
*, const char *, ptrdiff_t);
280 static void find_sound_type (struct sound
*);
281 static u_int32_t
le2hl (u_int32_t
);
282 static u_int16_t
le2hs (u_int16_t
);
283 static u_int32_t
be2hl (u_int32_t
);
284 static int wav_init (struct sound
*);
285 static void wav_play (struct sound
*, struct sound_device
*);
286 static int au_init (struct sound
*);
287 static void au_play (struct sound
*, struct sound_device
*);
289 #if 0 /* Currently not used. */
290 static u_int16_t
be2hs (u_int16_t
);
293 /* END: Non Windows Definitions */
294 #else /* WINDOWSNT */
296 /* BEGIN: Windows Specific Definitions */
297 static int do_play_sound (const char *, unsigned long);
299 END: Windows Specific Definitions */
300 #endif /* WINDOWSNT */
303 /***********************************************************************
305 ***********************************************************************/
307 /* BEGIN: Common functions */
309 /* Like perror, but signals an error. */
311 static _Noreturn
void
312 sound_perror (const char *msg
)
314 int saved_errno
= errno
;
320 sigemptyset (&unblocked
);
321 sigaddset (&unblocked
, SIGIO
);
322 pthread_sigmask (SIG_UNBLOCK
, &unblocked
, 0);
325 if (saved_errno
!= 0)
326 error ("%s: %s", msg
, strerror (saved_errno
));
332 /* Display a warning message. */
335 sound_warning (const char *msg
)
341 /* Parse sound specification SOUND, and fill ATTRS with what is
342 found. Value is non-zero if SOUND Is a valid sound specification.
343 A valid sound specification is a list starting with the symbol
344 `sound'. The rest of the list is a property list which may
345 contain the following key/value pairs:
349 FILE is the sound file to play. If it isn't an absolute name,
350 it's searched under `data-directory'.
354 DATA is a string containing sound data. Either :file or :data
355 may be present, but not both.
359 DEVICE is the name of the device to play on, e.g. "/dev/dsp2".
360 If not specified, a default device is used.
364 VOL must be an integer in the range [0, 100], or a float in the
368 parse_sound (Lisp_Object sound
, Lisp_Object
*attrs
)
370 /* SOUND must be a list starting with the symbol `sound'. */
371 if (!CONSP (sound
) || !EQ (XCAR (sound
), Qsound
))
374 sound
= XCDR (sound
);
375 attrs
[SOUND_FILE
] = Fplist_get (sound
, QCfile
);
376 attrs
[SOUND_DATA
] = Fplist_get (sound
, QCdata
);
377 attrs
[SOUND_DEVICE
] = Fplist_get (sound
, QCdevice
);
378 attrs
[SOUND_VOLUME
] = Fplist_get (sound
, QCvolume
);
381 /* File name or data must be specified. */
382 if (!STRINGP (attrs
[SOUND_FILE
])
383 && !STRINGP (attrs
[SOUND_DATA
]))
385 #else /* WINDOWSNT */
387 Data is not supported in Windows. Therefore a
388 File name MUST be supplied.
390 if (!STRINGP (attrs
[SOUND_FILE
]))
394 #endif /* WINDOWSNT */
396 /* Volume must be in the range 0..100 or unspecified. */
397 if (!NILP (attrs
[SOUND_VOLUME
]))
399 if (INTEGERP (attrs
[SOUND_VOLUME
]))
401 if (XINT (attrs
[SOUND_VOLUME
]) < 0
402 || XINT (attrs
[SOUND_VOLUME
]) > 100)
405 else if (FLOATP (attrs
[SOUND_VOLUME
]))
407 if (XFLOAT_DATA (attrs
[SOUND_VOLUME
]) < 0
408 || XFLOAT_DATA (attrs
[SOUND_VOLUME
]) > 1)
416 /* Device must be a string or unspecified. */
417 if (!NILP (attrs
[SOUND_DEVICE
])
418 && !STRINGP (attrs
[SOUND_DEVICE
]))
420 #endif /* WINDOWSNT */
422 Since device is ignored in Windows, it does not matter
428 /* END: Common functions */
430 /* BEGIN: Non Windows functions */
433 /* Find out the type of the sound file whose file descriptor is FD.
434 S is the sound file structure to fill in. */
437 find_sound_type (struct sound
*s
)
439 if (!wav_init (s
) && !au_init (s
))
440 error ("Unknown sound format");
444 /* Function installed by play-sound-internal with record_unwind_protect. */
447 sound_cleanup (Lisp_Object arg
)
449 if (current_sound_device
->close
)
450 current_sound_device
->close (current_sound_device
);
451 if (current_sound
->fd
> 0)
452 emacs_close (current_sound
->fd
);
453 xfree (current_sound_device
);
454 xfree (current_sound
);
459 /***********************************************************************
460 Byte-order Conversion
461 ***********************************************************************/
463 /* Convert 32-bit value VALUE which is in little-endian byte-order
464 to host byte-order. */
467 le2hl (u_int32_t value
)
469 #ifdef WORDS_BIGENDIAN
470 unsigned char *p
= (unsigned char *) &value
;
471 value
= p
[0] + (p
[1] << 8) + (p
[2] << 16) + (p
[3] << 24);
477 /* Convert 16-bit value VALUE which is in little-endian byte-order
478 to host byte-order. */
481 le2hs (u_int16_t value
)
483 #ifdef WORDS_BIGENDIAN
484 unsigned char *p
= (unsigned char *) &value
;
485 value
= p
[0] + (p
[1] << 8);
491 /* Convert 32-bit value VALUE which is in big-endian byte-order
492 to host byte-order. */
495 be2hl (u_int32_t value
)
497 #ifndef WORDS_BIGENDIAN
498 unsigned char *p
= (unsigned char *) &value
;
499 value
= p
[3] + (p
[2] << 8) + (p
[1] << 16) + (p
[0] << 24);
505 #if 0 /* Currently not used. */
507 /* Convert 16-bit value VALUE which is in big-endian byte-order
508 to host byte-order. */
511 be2hs (u_int16_t value
)
513 #ifndef WORDS_BIGENDIAN
514 unsigned char *p
= (unsigned char *) &value
;
515 value
= p
[1] + (p
[0] << 8);
522 /***********************************************************************
524 ***********************************************************************/
526 /* Try to initialize sound file S from S->header. S->header
527 contains the first MAX_SOUND_HEADER_BYTES number of bytes from the
528 sound file. If the file is a WAV-format file, set up interface
529 functions in S and convert header fields to host byte-order.
530 Value is non-zero if the file is a WAV file. */
533 wav_init (struct sound
*s
)
535 struct wav_header
*header
= (struct wav_header
*) s
->header
;
537 if (s
->header_size
< sizeof *header
538 || memcmp (s
->header
, "RIFF", 4) != 0)
541 /* WAV files are in little-endian order. Convert the header
542 if on a big-endian machine. */
543 header
->magic
= le2hl (header
->magic
);
544 header
->length
= le2hl (header
->length
);
545 header
->chunk_type
= le2hl (header
->chunk_type
);
546 header
->chunk_format
= le2hl (header
->chunk_format
);
547 header
->chunk_length
= le2hl (header
->chunk_length
);
548 header
->format
= le2hs (header
->format
);
549 header
->channels
= le2hs (header
->channels
);
550 header
->sample_rate
= le2hl (header
->sample_rate
);
551 header
->bytes_per_second
= le2hl (header
->bytes_per_second
);
552 header
->sample_size
= le2hs (header
->sample_size
);
553 header
->precision
= le2hs (header
->precision
);
554 header
->chunk_data
= le2hl (header
->chunk_data
);
555 header
->data_length
= le2hl (header
->data_length
);
557 /* Set up the interface functions for WAV. */
565 /* Play RIFF-WAVE audio file S on sound device SD. */
568 wav_play (struct sound
*s
, struct sound_device
*sd
)
570 struct wav_header
*header
= (struct wav_header
*) s
->header
;
572 /* Let the device choose a suitable device-dependent format
574 sd
->choose_format (sd
, s
);
576 /* Configure the device. */
577 sd
->sample_size
= header
->sample_size
;
578 sd
->sample_rate
= header
->sample_rate
;
579 sd
->bps
= header
->bytes_per_second
;
580 sd
->channels
= header
->channels
;
583 /* Copy sound data to the device. The WAV file specification is
584 actually more complex. This simple scheme worked with all WAV
585 files I found so far. If someone feels inclined to implement the
586 whole RIFF-WAVE spec, please do. */
587 if (STRINGP (s
->data
))
588 sd
->write (sd
, SSDATA (s
->data
) + sizeof *header
,
589 SBYTES (s
->data
) - sizeof *header
);
593 ptrdiff_t nbytes
= 0;
594 ptrdiff_t blksize
= sd
->period_size
? sd
->period_size (sd
) : 2048;
595 ptrdiff_t data_left
= header
->data_length
;
597 buffer
= alloca (blksize
);
598 lseek (s
->fd
, sizeof *header
, SEEK_SET
);
600 && (nbytes
= emacs_read (s
->fd
, buffer
, blksize
)) > 0)
602 /* Don't play possible garbage at the end of file */
603 if (data_left
< nbytes
) nbytes
= data_left
;
605 sd
->write (sd
, buffer
, nbytes
);
609 sound_perror ("Error reading sound file");
614 /***********************************************************************
616 ***********************************************************************/
618 /* Sun audio file encodings. */
622 AU_ENCODING_ULAW_8
= 1,
630 AU_ENCODING_ALAW_8
= 27
634 /* Try to initialize sound file S from S->header. S->header
635 contains the first MAX_SOUND_HEADER_BYTES number of bytes from the
636 sound file. If the file is a AU-format file, set up interface
637 functions in S and convert header fields to host byte-order.
638 Value is non-zero if the file is an AU file. */
641 au_init (struct sound
*s
)
643 struct au_header
*header
= (struct au_header
*) s
->header
;
645 if (s
->header_size
< sizeof *header
646 || memcmp (s
->header
, ".snd", 4) != 0)
649 header
->magic_number
= be2hl (header
->magic_number
);
650 header
->data_offset
= be2hl (header
->data_offset
);
651 header
->data_size
= be2hl (header
->data_size
);
652 header
->encoding
= be2hl (header
->encoding
);
653 header
->sample_rate
= be2hl (header
->sample_rate
);
654 header
->channels
= be2hl (header
->channels
);
656 /* Set up the interface functions for AU. */
664 /* Play Sun audio file S on sound device SD. */
667 au_play (struct sound
*s
, struct sound_device
*sd
)
669 struct au_header
*header
= (struct au_header
*) s
->header
;
672 sd
->sample_rate
= header
->sample_rate
;
674 sd
->channels
= header
->channels
;
675 sd
->choose_format (sd
, s
);
678 if (STRINGP (s
->data
))
679 sd
->write (sd
, SSDATA (s
->data
) + header
->data_offset
,
680 SBYTES (s
->data
) - header
->data_offset
);
683 ptrdiff_t blksize
= sd
->period_size
? sd
->period_size (sd
) : 2048;
688 lseek (s
->fd
, header
->data_offset
, SEEK_SET
);
690 /* Copy sound data to the device. */
691 buffer
= alloca (blksize
);
692 while ((nbytes
= emacs_read (s
->fd
, buffer
, blksize
)) > 0)
693 sd
->write (sd
, buffer
, nbytes
);
696 sound_perror ("Error reading sound file");
701 /***********************************************************************
702 Voxware Driver Interface
703 ***********************************************************************/
705 /* This driver is available on GNU/Linux, and the free BSDs. FreeBSD
706 has a compatible own driver aka Luigi's driver. */
709 /* Open device SD. If SD->file is non-null, open that device,
710 otherwise use a default device name. */
713 vox_open (struct sound_device
*sd
)
717 /* Open the sound device (eg /dev/dsp). */
721 file
= DEFAULT_SOUND_DEVICE
;
723 sd
->fd
= emacs_open (file
, O_WRONLY
, 0);
729 /* Configure device SD from parameters in it. */
732 vox_configure (struct sound_device
*sd
)
739 eassert (sd
->fd
>= 0);
741 /* On GNU/Linux, it seems that the device driver doesn't like to be
742 interrupted by a signal. Block the ones we know to cause
746 sigemptyset (&blocked
);
747 sigaddset (&blocked
, SIGIO
);
748 pthread_sigmask (SIG_BLOCK
, &blocked
, 0);
752 if (ioctl (sd
->fd
, SNDCTL_DSP_SETFMT
, &sd
->format
) < 0
753 || val
!= sd
->format
)
754 sound_perror ("Could not set sound format");
756 val
= sd
->channels
!= 1;
757 if (ioctl (sd
->fd
, SNDCTL_DSP_STEREO
, &val
) < 0
758 || val
!= (sd
->channels
!= 1))
759 sound_perror ("Could not set stereo/mono");
761 /* I think bps and sampling_rate are the same, but who knows.
762 Check this. and use SND_DSP_SPEED for both. */
763 if (sd
->sample_rate
> 0)
765 val
= sd
->sample_rate
;
766 if (ioctl (sd
->fd
, SNDCTL_DSP_SPEED
, &sd
->sample_rate
) < 0)
767 sound_perror ("Could not set sound speed");
768 else if (val
!= sd
->sample_rate
)
769 sound_warning ("Could not set sample rate");
774 int volume
= sd
->volume
& 0xff;
775 volume
|= volume
<< 8;
776 /* This may fail if there is no mixer. Ignore the failure. */
777 ioctl (sd
->fd
, SOUND_MIXER_WRITE_PCM
, &volume
);
782 pthread_sigmask (SIG_UNBLOCK
, &blocked
, 0);
787 /* Close device SD if it is open. */
790 vox_close (struct sound_device
*sd
)
794 /* On GNU/Linux, it seems that the device driver doesn't like to
795 be interrupted by a signal. Block the ones we know to cause
799 sigemptyset (&blocked
);
800 sigaddset (&blocked
, SIGIO
);
801 pthread_sigmask (SIG_BLOCK
, &blocked
, 0);
805 /* Flush sound data, and reset the device. */
806 ioctl (sd
->fd
, SNDCTL_DSP_SYNC
, NULL
);
810 pthread_sigmask (SIG_UNBLOCK
, &blocked
, 0);
813 /* Close the device. */
814 emacs_close (sd
->fd
);
820 /* Choose device-dependent format for device SD from sound file S. */
823 vox_choose_format (struct sound_device
*sd
, struct sound
*s
)
827 struct wav_header
*h
= (struct wav_header
*) s
->header
;
828 if (h
->precision
== 8)
829 sd
->format
= AFMT_U8
;
830 else if (h
->precision
== 16)
831 sd
->format
= AFMT_S16_LE
;
833 error ("Unsupported WAV file format");
835 else if (s
->type
== SUN_AUDIO
)
837 struct au_header
*header
= (struct au_header
*) s
->header
;
838 switch (header
->encoding
)
840 case AU_ENCODING_ULAW_8
:
841 case AU_ENCODING_IEEE32
:
842 case AU_ENCODING_IEEE64
:
843 sd
->format
= AFMT_MU_LAW
;
850 sd
->format
= AFMT_S16_LE
;
854 error ("Unsupported AU file format");
862 /* Initialize device SD. Set up the interface functions in the device
866 vox_init (struct sound_device
*sd
)
871 /* Open the sound device (eg /dev/dsp). */
875 file
= DEFAULT_SOUND_DEVICE
;
876 fd
= emacs_open (file
, O_WRONLY
, 0);
884 sd
->close
= vox_close
;
885 sd
->configure
= vox_configure
;
886 sd
->choose_format
= vox_choose_format
;
887 sd
->write
= vox_write
;
888 sd
->period_size
= NULL
;
893 /* Write NBYTES bytes from BUFFER to device SD. */
896 vox_write (struct sound_device
*sd
, const char *buffer
, ptrdiff_t nbytes
)
898 if (emacs_write (sd
->fd
, buffer
, nbytes
) != nbytes
)
899 sound_perror ("Error writing to sound device");
903 /***********************************************************************
904 ALSA Driver Interface
905 ***********************************************************************/
907 /* This driver is available on GNU/Linux. */
909 #ifndef DEFAULT_ALSA_SOUND_DEVICE
910 #define DEFAULT_ALSA_SOUND_DEVICE "default"
913 static _Noreturn
void
914 alsa_sound_perror (const char *msg
, int err
)
916 error ("%s: %s", msg
, snd_strerror (err
));
922 snd_pcm_hw_params_t
*hwparams
;
923 snd_pcm_sw_params_t
*swparams
;
924 snd_pcm_uframes_t period_size
;
927 /* Open device SD. If SD->file is non-null, open that device,
928 otherwise use a default device name. */
931 alsa_open (struct sound_device
*sd
)
934 struct alsa_params
*p
;
937 /* Open the sound device. Default is "default". */
941 file
= DEFAULT_ALSA_SOUND_DEVICE
;
943 p
= xmalloc (sizeof *p
);
952 err
= snd_pcm_open (&p
->handle
, file
, SND_PCM_STREAM_PLAYBACK
, 0);
954 alsa_sound_perror (file
, err
);
958 alsa_period_size (struct sound_device
*sd
)
960 struct alsa_params
*p
= (struct alsa_params
*) sd
->data
;
961 int fact
= snd_pcm_format_size (sd
->format
, 1) * sd
->channels
;
962 return p
->period_size
* (fact
> 0 ? fact
: 1);
966 alsa_configure (struct sound_device
*sd
)
970 struct alsa_params
*p
= (struct alsa_params
*) sd
->data
;
971 snd_pcm_uframes_t buffer_size
;
973 eassert (p
->handle
!= 0);
975 err
= snd_pcm_hw_params_malloc (&p
->hwparams
);
977 alsa_sound_perror ("Could not allocate hardware parameter structure", err
);
979 err
= snd_pcm_sw_params_malloc (&p
->swparams
);
981 alsa_sound_perror ("Could not allocate software parameter structure", err
);
983 err
= snd_pcm_hw_params_any (p
->handle
, p
->hwparams
);
985 alsa_sound_perror ("Could not initialize hardware parameter structure", err
);
987 err
= snd_pcm_hw_params_set_access (p
->handle
, p
->hwparams
,
988 SND_PCM_ACCESS_RW_INTERLEAVED
);
990 alsa_sound_perror ("Could not set access type", err
);
993 err
= snd_pcm_hw_params_set_format (p
->handle
, p
->hwparams
, val
);
995 alsa_sound_perror ("Could not set sound format", err
);
997 uval
= sd
->sample_rate
;
998 err
= snd_pcm_hw_params_set_rate_near (p
->handle
, p
->hwparams
, &uval
, 0);
1000 alsa_sound_perror ("Could not set sample rate", err
);
1003 err
= snd_pcm_hw_params_set_channels (p
->handle
, p
->hwparams
, val
);
1005 alsa_sound_perror ("Could not set channel count", err
);
1007 err
= snd_pcm_hw_params (p
->handle
, p
->hwparams
);
1009 alsa_sound_perror ("Could not set parameters", err
);
1012 err
= snd_pcm_hw_params_get_period_size (p
->hwparams
, &p
->period_size
, &dir
);
1014 alsa_sound_perror ("Unable to get period size for playback", err
);
1016 err
= snd_pcm_hw_params_get_buffer_size (p
->hwparams
, &buffer_size
);
1018 alsa_sound_perror ("Unable to get buffer size for playback", err
);
1020 err
= snd_pcm_sw_params_current (p
->handle
, p
->swparams
);
1022 alsa_sound_perror ("Unable to determine current swparams for playback",
1025 /* Start the transfer when the buffer is almost full */
1026 err
= snd_pcm_sw_params_set_start_threshold (p
->handle
, p
->swparams
,
1027 (buffer_size
/ p
->period_size
)
1030 alsa_sound_perror ("Unable to set start threshold mode for playback", err
);
1032 /* Allow the transfer when at least period_size samples can be processed */
1033 err
= snd_pcm_sw_params_set_avail_min (p
->handle
, p
->swparams
, p
->period_size
);
1035 alsa_sound_perror ("Unable to set avail min for playback", err
);
1037 err
= snd_pcm_sw_params (p
->handle
, p
->swparams
);
1039 alsa_sound_perror ("Unable to set sw params for playback\n", err
);
1041 snd_pcm_hw_params_free (p
->hwparams
);
1043 snd_pcm_sw_params_free (p
->swparams
);
1046 err
= snd_pcm_prepare (p
->handle
);
1048 alsa_sound_perror ("Could not prepare audio interface for use", err
);
1053 snd_mixer_t
*handle
;
1054 snd_mixer_elem_t
*e
;
1055 const char *file
= sd
->file
? sd
->file
: DEFAULT_ALSA_SOUND_DEVICE
;
1057 if (snd_mixer_open (&handle
, 0) >= 0)
1059 if (snd_mixer_attach (handle
, file
) >= 0
1060 && snd_mixer_load (handle
) >= 0
1061 && snd_mixer_selem_register (handle
, NULL
, NULL
) >= 0)
1062 for (e
= snd_mixer_first_elem (handle
);
1064 e
= snd_mixer_elem_next (e
))
1066 if (snd_mixer_selem_has_playback_volume (e
))
1068 long pmin
, pmax
, vol
;
1069 snd_mixer_selem_get_playback_volume_range (e
, &pmin
, &pmax
);
1070 vol
= pmin
+ (sd
->volume
* (pmax
- pmin
)) / 100;
1072 for (chn
= 0; chn
<= SND_MIXER_SCHN_LAST
; chn
++)
1073 snd_mixer_selem_set_playback_volume (e
, chn
, vol
);
1076 snd_mixer_close (handle
);
1082 /* Close device SD if it is open. */
1085 alsa_close (struct sound_device
*sd
)
1087 struct alsa_params
*p
= (struct alsa_params
*) sd
->data
;
1091 snd_pcm_hw_params_free (p
->hwparams
);
1093 snd_pcm_sw_params_free (p
->swparams
);
1096 snd_pcm_drain (p
->handle
);
1097 snd_pcm_close (p
->handle
);
1103 /* Choose device-dependent format for device SD from sound file S. */
1106 alsa_choose_format (struct sound_device
*sd
, struct sound
*s
)
1108 if (s
->type
== RIFF
)
1110 struct wav_header
*h
= (struct wav_header
*) s
->header
;
1111 if (h
->precision
== 8)
1112 sd
->format
= SND_PCM_FORMAT_U8
;
1113 else if (h
->precision
== 16)
1114 sd
->format
= SND_PCM_FORMAT_S16_LE
;
1116 error ("Unsupported WAV file format");
1118 else if (s
->type
== SUN_AUDIO
)
1120 struct au_header
*header
= (struct au_header
*) s
->header
;
1121 switch (header
->encoding
)
1123 case AU_ENCODING_ULAW_8
:
1124 sd
->format
= SND_PCM_FORMAT_MU_LAW
;
1126 case AU_ENCODING_ALAW_8
:
1127 sd
->format
= SND_PCM_FORMAT_A_LAW
;
1129 case AU_ENCODING_IEEE32
:
1130 sd
->format
= SND_PCM_FORMAT_FLOAT_BE
;
1132 case AU_ENCODING_IEEE64
:
1133 sd
->format
= SND_PCM_FORMAT_FLOAT64_BE
;
1136 sd
->format
= SND_PCM_FORMAT_S8
;
1138 case AU_ENCODING_16
:
1139 sd
->format
= SND_PCM_FORMAT_S16_BE
;
1141 case AU_ENCODING_24
:
1142 sd
->format
= SND_PCM_FORMAT_S24_BE
;
1144 case AU_ENCODING_32
:
1145 sd
->format
= SND_PCM_FORMAT_S32_BE
;
1149 error ("Unsupported AU file format");
1157 /* Write NBYTES bytes from BUFFER to device SD. */
1160 alsa_write (struct sound_device
*sd
, const char *buffer
, ptrdiff_t nbytes
)
1162 struct alsa_params
*p
= (struct alsa_params
*) sd
->data
;
1164 /* The the third parameter to snd_pcm_writei is frames, not bytes. */
1165 int fact
= snd_pcm_format_size (sd
->format
, 1) * sd
->channels
;
1166 ptrdiff_t nwritten
= 0;
1169 while (nwritten
< nbytes
)
1171 snd_pcm_uframes_t frames
= (nbytes
- nwritten
)/fact
;
1172 if (frames
== 0) break;
1174 err
= snd_pcm_writei (p
->handle
, buffer
+ nwritten
, frames
);
1179 err
= snd_pcm_prepare (p
->handle
);
1181 alsa_sound_perror ("Can't recover from underrun, prepare failed",
1184 else if (err
== -ESTRPIPE
)
1186 while ((err
= snd_pcm_resume (p
->handle
)) == -EAGAIN
)
1187 sleep (1); /* wait until the suspend flag is released */
1190 err
= snd_pcm_prepare (p
->handle
);
1192 alsa_sound_perror ("Can't recover from suspend, "
1198 alsa_sound_perror ("Error writing to sound device", err
);
1202 nwritten
+= err
* fact
;
1207 snd_error_quiet (const char *file
, int line
, const char *function
, int err
,
1212 /* Initialize device SD. Set up the interface functions in the device
1216 alsa_init (struct sound_device
*sd
)
1222 /* Open the sound device. Default is "default". */
1226 file
= DEFAULT_ALSA_SOUND_DEVICE
;
1228 snd_lib_error_set_handler ((snd_lib_error_handler_t
) snd_error_quiet
);
1229 err
= snd_pcm_open (&handle
, file
, SND_PCM_STREAM_PLAYBACK
, 0);
1230 snd_lib_error_set_handler (NULL
);
1233 snd_pcm_close (handle
);
1236 sd
->open
= alsa_open
;
1237 sd
->close
= alsa_close
;
1238 sd
->configure
= alsa_configure
;
1239 sd
->choose_format
= alsa_choose_format
;
1240 sd
->write
= alsa_write
;
1241 sd
->period_size
= alsa_period_size
;
1246 #endif /* HAVE_ALSA */
1249 /* END: Non Windows functions */
1250 #else /* WINDOWSNT */
1252 /* BEGIN: Windows specific functions */
1254 #define SOUND_WARNING(fun, error, text) \
1257 char err_string[MAXERRORLENGTH]; \
1258 fun (error, err_string, sizeof (err_string)); \
1259 _snprintf (buf, sizeof (buf), "%s\nError: %s", \
1260 text, err_string); \
1261 sound_warning (buf); \
1265 do_play_sound (const char *psz_file
, unsigned long ui_volume
)
1268 MCIERROR mci_error
= 0;
1269 char sz_cmd_buf
[520] = {0};
1270 char sz_ret_buf
[520] = {0};
1271 MMRESULT mm_result
= MMSYSERR_NOERROR
;
1272 unsigned long ui_volume_org
= 0;
1273 BOOL b_reset_volume
= FALSE
;
1275 memset (sz_cmd_buf
, 0, sizeof (sz_cmd_buf
));
1276 memset (sz_ret_buf
, 0, sizeof (sz_ret_buf
));
1277 sprintf (sz_cmd_buf
,
1278 "open \"%s\" alias GNUEmacs_PlaySound_Device wait",
1280 mci_error
= mciSendString (sz_cmd_buf
, sz_ret_buf
, sizeof (sz_ret_buf
), NULL
);
1283 SOUND_WARNING (mciGetErrorString
, mci_error
,
1284 "The open mciSendString command failed to open "
1285 "the specified sound file.");
1286 i_result
= (int) mci_error
;
1289 if ((ui_volume
> 0) && (ui_volume
!= UINT_MAX
))
1291 mm_result
= waveOutGetVolume ((HWAVEOUT
) WAVE_MAPPER
, &ui_volume_org
);
1292 if (mm_result
== MMSYSERR_NOERROR
)
1294 b_reset_volume
= TRUE
;
1295 mm_result
= waveOutSetVolume ((HWAVEOUT
) WAVE_MAPPER
, ui_volume
);
1296 if (mm_result
!= MMSYSERR_NOERROR
)
1298 SOUND_WARNING (waveOutGetErrorText
, mm_result
,
1299 "waveOutSetVolume failed to set the volume level "
1300 "of the WAVE_MAPPER device.\n"
1301 "As a result, the user selected volume level will "
1307 SOUND_WARNING (waveOutGetErrorText
, mm_result
,
1308 "waveOutGetVolume failed to obtain the original "
1309 "volume level of the WAVE_MAPPER device.\n"
1310 "As a result, the user selected volume level will "
1314 memset (sz_cmd_buf
, 0, sizeof (sz_cmd_buf
));
1315 memset (sz_ret_buf
, 0, sizeof (sz_ret_buf
));
1316 strcpy (sz_cmd_buf
, "play GNUEmacs_PlaySound_Device wait");
1317 mci_error
= mciSendString (sz_cmd_buf
, sz_ret_buf
, sizeof (sz_ret_buf
), NULL
);
1320 SOUND_WARNING (mciGetErrorString
, mci_error
,
1321 "The play mciSendString command failed to play the "
1322 "opened sound file.");
1323 i_result
= (int) mci_error
;
1325 memset (sz_cmd_buf
, 0, sizeof (sz_cmd_buf
));
1326 memset (sz_ret_buf
, 0, sizeof (sz_ret_buf
));
1327 strcpy (sz_cmd_buf
, "close GNUEmacs_PlaySound_Device wait");
1328 mci_error
= mciSendString (sz_cmd_buf
, sz_ret_buf
, sizeof (sz_ret_buf
), NULL
);
1329 if (b_reset_volume
== TRUE
)
1331 mm_result
= waveOutSetVolume ((HWAVEOUT
) WAVE_MAPPER
, ui_volume_org
);
1332 if (mm_result
!= MMSYSERR_NOERROR
)
1334 SOUND_WARNING (waveOutGetErrorText
, mm_result
,
1335 "waveOutSetVolume failed to reset the original volume "
1336 "level of the WAVE_MAPPER device.");
1342 /* END: Windows specific functions */
1344 #endif /* WINDOWSNT */
1346 DEFUN ("play-sound-internal", Fplay_sound_internal
, Splay_sound_internal
, 1, 1, 0,
1347 doc
: /* Play sound SOUND.
1349 Internal use only, use `play-sound' instead. */)
1352 Lisp_Object attrs
[SOUND_ATTR_SENTINEL
];
1353 ptrdiff_t count
= SPECPDL_INDEX ();
1357 struct gcpro gcpro1
, gcpro2
;
1358 Lisp_Object args
[2];
1359 #else /* WINDOWSNT */
1361 Lisp_Object lo_file
= {0};
1362 char * psz_file
= NULL
;
1363 unsigned long ui_volume_tmp
= UINT_MAX
;
1364 unsigned long ui_volume
= UINT_MAX
;
1366 #endif /* WINDOWSNT */
1368 /* Parse the sound specification. Give up if it is invalid. */
1369 if (!parse_sound (sound
, attrs
))
1370 error ("Invalid sound specification");
1374 GCPRO2 (sound
, file
);
1375 current_sound_device
= xzalloc (sizeof *current_sound_device
);
1376 current_sound
= xzalloc (sizeof *current_sound
);
1377 record_unwind_protect (sound_cleanup
, Qnil
);
1378 current_sound
->header
= alloca (MAX_SOUND_HEADER_BYTES
);
1380 if (STRINGP (attrs
[SOUND_FILE
]))
1382 /* Open the sound file. */
1383 current_sound
->fd
= openp (Fcons (Vdata_directory
, Qnil
),
1384 attrs
[SOUND_FILE
], Qnil
, &file
, Qnil
);
1385 if (current_sound
->fd
< 0)
1386 sound_perror ("Could not open sound file");
1388 /* Read the first bytes from the file. */
1389 current_sound
->header_size
1390 = emacs_read (current_sound
->fd
, current_sound
->header
,
1391 MAX_SOUND_HEADER_BYTES
);
1392 if (current_sound
->header_size
< 0)
1393 sound_perror ("Invalid sound file header");
1397 current_sound
->data
= attrs
[SOUND_DATA
];
1398 current_sound
->header_size
= min (MAX_SOUND_HEADER_BYTES
, SBYTES (current_sound
->data
));
1399 memcpy (current_sound
->header
, SDATA (current_sound
->data
),
1400 current_sound
->header_size
);
1403 /* Find out the type of sound. Give up if we can't tell. */
1404 find_sound_type (current_sound
);
1406 /* Set up a device. */
1407 if (STRINGP (attrs
[SOUND_DEVICE
]))
1409 int len
= SCHARS (attrs
[SOUND_DEVICE
]);
1410 current_sound_device
->file
= alloca (len
+ 1);
1411 strcpy (current_sound_device
->file
, SSDATA (attrs
[SOUND_DEVICE
]));
1414 if (INTEGERP (attrs
[SOUND_VOLUME
]))
1415 current_sound_device
->volume
= XFASTINT (attrs
[SOUND_VOLUME
]);
1416 else if (FLOATP (attrs
[SOUND_VOLUME
]))
1417 current_sound_device
->volume
= XFLOAT_DATA (attrs
[SOUND_VOLUME
]) * 100;
1419 args
[0] = Qplay_sound_functions
;
1421 Frun_hook_with_args (2, args
);
1424 if (!alsa_init (current_sound_device
))
1426 if (!vox_init (current_sound_device
))
1427 error ("No usable sound device driver found");
1429 /* Open the device. */
1430 current_sound_device
->open (current_sound_device
);
1432 /* Play the sound. */
1433 current_sound
->play (current_sound
, current_sound_device
);
1438 #else /* WINDOWSNT */
1440 lo_file
= Fexpand_file_name (attrs
[SOUND_FILE
], Qnil
);
1441 len
= XSTRING (lo_file
)->size
;
1442 psz_file
= alloca (len
+ 1);
1443 strcpy (psz_file
, XSTRING (lo_file
)->data
);
1444 if (INTEGERP (attrs
[SOUND_VOLUME
]))
1446 ui_volume_tmp
= XFASTINT (attrs
[SOUND_VOLUME
]);
1448 else if (FLOATP (attrs
[SOUND_VOLUME
]))
1450 ui_volume_tmp
= XFLOAT_DATA (attrs
[SOUND_VOLUME
]) * 100;
1453 Based on some experiments I have conducted, a value of 100 or less
1454 for the sound volume is much too low. You cannot even hear it.
1455 A value of UINT_MAX indicates that you wish for the sound to played
1456 at the maximum possible volume. A value of UINT_MAX/2 plays the
1457 sound at 50% maximum volume. Therefore the value passed to do_play_sound
1458 (and thus to waveOutSetVolume) must be some fraction of UINT_MAX.
1459 The following code adjusts the user specified volume level appropriately.
1461 if ((ui_volume_tmp
> 0) && (ui_volume_tmp
<= 100))
1463 ui_volume
= ui_volume_tmp
* (UINT_MAX
/ 100);
1465 i_result
= do_play_sound (psz_file
, ui_volume
);
1467 #endif /* WINDOWSNT */
1469 unbind_to (count
, Qnil
);
1473 /***********************************************************************
1475 ***********************************************************************/
1478 syms_of_sound (void)
1480 DEFSYM (QCdevice
, ":device");
1481 DEFSYM (QCvolume
, ":volume");
1482 DEFSYM (Qsound
, "sound");
1483 DEFSYM (Qplay_sound_functions
, "play-sound-functions");
1485 defsubr (&Splay_sound_internal
);
1488 #endif /* HAVE_SOUND */