Mercurial > hg > xemacs-beta
view src/linuxplay.c @ 1330:4542b72c005e
[xemacs-hg @ 2003-03-01 07:25:26 by ben]
build patch
Makefile.in.in: Move src deletions to src/Makefile.in.in.
dump-paths.el, dumped-lisp.el: Delete. Combine stuff into setup-paths.el.
find-paths.el: Removed.
Make this file contain generic routines only. Move stuff to
compute Emacs roots to setup-paths.el.
startup.el: Removed.
Move these variables into setup-paths.el.
setup-paths.el, startup.el: Removed.
Combine all high-level code for computing the paths into
setup-paths.el. Create new function startup-find-load-path to
encapsulate all logic for computing `load-path'. Eliminate
invocation-directory and invocation-name parameters since
there is no point (false generality) -- the code references
other globals, which cannot be specified. Eliminate some code
duplicated between setup-paths.el and startup.el. Clean up
the debug-paths code and output load-path in addition.
Add logic to paths-emacs-root-p to support separated source
and build trees.
loadup.el, make-docfile.el, update-elc-2.el, update-elc.el: Rewrite to allow for separated source and build trees, as may occur
in MS Windows.
NOTE TO BUILD HACKERS:
loadup.el, make-docfile.el, update-elc.el and update-elc-2.el made two
assumptions that are no longer correct:
(1) The source and build trees are in the same place.
(2) They can make assumptions about where `.' is.
These files now compute the locations of the source and build
roots at the top of the file. *ALL* constant file names or path
snippets must now be made absolute using expand-file-name and one
of these roots.
dumped-lisp.el, packages.el: Removed.
Remove some unused lists of Lisp files. packages-hardcoded-lisp
(empty, in any case) moved to dumped-lisp.el.
startup.el: When a compiled init file is out-of-date wrt the uncompiled
version, load the uncompiled version and issue a nasty warning.
update-elc-2.el: Force touching of auto-autoloads files when REBUILD_AUTOLOADS
was set.
update-elc.el: Fix code that checks whether dumping is necessary to check against
xemacs.dmp, not xemacs.exe, when Unix and pdump.
lwlib-Xm.c: Fix compile warning.
README, config.inc.samp, xemacs.mak: -- Major reorganization and cleanup.
-- Add support for separated build tree and source tree.
-- Delete all support for X Windows building, since it's
totally bit-rotten and will never be fixed up. Instruct
people to use Cygwin if they want such support.
make-build-dir: New script to create a skeleton build tree for use with
separated build and source tree compilation.
m/acorn.h, m/alliant-2800.h, m/alliant.h, m/altos.h, m/amdahl.h, m/arm.h, m/att3b.h, m/aviion.h, m/clipper.h, m/cnvrgnt.h, m/convex.h, m/cydra5.h, m/delta.h, m/delta88k.h, m/dpx2.h, m/elxsi.h, m/ews4800r.h, m/gould.h, m/hp800.h, m/hp9000s300.h, m/i860.h, m/ibmps2-aix.h, m/ibmrs6000.h, m/ibmrt-aix.h, m/ibmrt.h, m/intel386.h, m/iris4d.h, m/iris5d.h, m/iris6d.h, m/irist.h, m/m68k.h, m/masscomp.h, m/mg1.h, m/mips-nec.h, m/mips-siemens.h, m/mips.h, m/nh3000.h, m/nh4000.h, m/ns32000.h, m/plexus.h, m/powerpc.h, m/sequent-ptx.h, m/sequent.h, m/sgi-challenge.h, m/stride.h, m/tad68k.h, m/targon31.h, m/tekxd88.h, m/template.h, m/tower32.h, m/tower32v3.h, m/ustation.h, m/wicat.h, m/xps100.h, data.c, doc.c, editfns.c, emacs.c, lrecord.h, ntheap.c, process-unix.c, sysdep.c, unexec.c: Delete all support for bit-rotten CANNOT_DUMP. Just use pdump.
Makefile.in.in: Lots o' cleanup. Use names like LISP, SRC instead of
lispdir, srcdir, for consistency with xemacs.mak and the
conventions in the rest of the file. Eliminate use of ${...}
in favor of $(...), to make it easier to move code between
this file and xemacs.mak. Fix dependency handling wrt
NEEDTODUMP to eliminate problems some people (e.g. Vin) have
been seeing with non-GNU makes. Write a long section about
the subtle but oh-so-important differences in dependency
processing between nmake, make, and GNU make. Add
unicode-encapsulate target, from xemacs.mak.
chartab.c, lrecord.h: Fix crash due to attempt to free objects across dump/undump.
| author | ben |
|---|---|
| date | Sat, 01 Mar 2003 07:25:56 +0000 |
| parents | 943eaba38521 |
| children | 0dfff19d20da |
line wrap: on
line source
/* linuxplay.c - play a sound file on the speaker ** ** Copyright (C) 1995,96 by Markus Gutschke (gutschk@math.uni-muenster.de) ** This is version 1.3 of linuxplay.c, with platform-independent functions ** moved to a different file by Robert Bihlmeyer <robbe@orcus.priv.at>. ** ** Parts of this code were inspired by sunplay.c, which is copyright 1989 by ** Jef Poskanzer and 1991,92 by Jamie Zawinski; c.f. sunplay.c for further ** information. ** ** Permission to use, copy, modify, and distribute this software and its ** documentation for any purpose and without fee is hereby granted, provided ** that the above copyright notice appear in all copies and that both that ** copyright notice and this permission notice appear in supporting ** documentation. This software is provided "as is" without express or ** implied warranty. ** ** Changelog: ** 1.0 -- first release; supports SunAudio, Wave and RAW file formats ** detects (and rejects) VOC file format ** tested with PC-Speaker driver only ** 1.1 -- fixed bug with playback of stereo Wave files ** fixed VOC file detection ** fixed mono/8bit conversion ** cleaned up mixer programming (c.f. VoxWare-SDK) ** tested with PC-Speaker driver and with PAS16 soundcard ** 1.2 -- first (incompatible) attempt at fixing reliable signal handling ** 1.3 -- changed signal handling to use reliable signals; this is done ** by including "syssignal.h"; it fixes nasty program crashes ** when using native sound in TTY mode. ** added support for DEC audio file format (this is basically the ** same as Sun audio, but uses little endian format, instead). ** strip the header from Sun audio and DEC audio files in order to ** prevent noise at beginning of samples (thanks to Thomas Pundt ** <pundtt@math.uni-muenster.de> for pointing out this bug and ** providing information on the file format). ** added a few more conversion routines. ** made the code even more tolerant to the limits imposed by some ** soundcards and try to accept soundfiles even if they are not ** fully conformant to the standard. ** 1.4 -- increased header size to 256; I hope there is no sample software ** that requires this much. ** added code for converting from signed to unsigned format as ** some soundcards cannot handle signed 8bit data. */ /* Synched up with: Not in FSF. */ /* This file Mule-ized by Ben Wing, 5-15-01. */ /* XEmacs beta testers say: undef this by default. */ #undef NOVOLUMECTRLFORMULAW /* Changing the volume for uLaw-encoded samples sounds very poor; possibly, this is true only for the PC-Snd driver, so undefine this symbol at your discretion */ #include <config.h> #include "lisp.h" #include "miscplay.h" #include "sound.h" #include "syssignal.h" #include "sysfile.h" #include "systty.h" /* for sys/ioctl.h */ #include SOUNDCARD_H_FILE /* Path computed by configure */ static SIGTYPE (*sighup_handler) (int); static SIGTYPE (*sigint_handler) (int); static int mix_fd; static int audio_vol; static int audio_fd; static Char_ASCII *audio_dev = "/dev/dsp"; /* Intercept SIGINT and SIGHUP in order to close the audio and mixer devices before terminating sound output; this requires reliable signals as provided by "syssignal.h" */ static SIGTYPE sighandler (int sig) { if (mix_fd > 0) { if (audio_vol >= 0) { ioctl(mix_fd,SOUND_MIXER_WRITE_PCM,&audio_vol); audio_vol = -1; } if (mix_fd != audio_fd) close(mix_fd); mix_fd = -1; } if (audio_fd > 0) { ioctl(audio_fd,SNDCTL_DSP_SYNC,NULL); ioctl(audio_fd,SNDCTL_DSP_RESET,NULL); close(audio_fd); audio_fd = -1; } if (sig == SIGHUP && sighup_handler) sighup_handler(sig); else if (sig == SIGINT && sigint_handler) sigint_handler(sig); else exit(1); } /* Initialize the soundcard and mixer device with the parameters that we found in the header of the sound file. If the soundcard is not capable of natively supporting the required parameters, then try to set up conversion routines. The difficulty with setting up the sound card is that the parameters are not fully orthogonal; changing one of them might affect some of the others, too. Thus we do quite a lot of double checking; actually most of this is not needed right now, but it will come in handy, if the kernel's sounddriver ever changes or if third-party sounddrivers are used. */ static int audio_init(int mixx_fd, int auddio_fd, int fmt, int speed, int tracks, int *volume, size_t (**sndcnv) (void **, size_t *sz, void **)) { int i,the_speed,the_stereo,the_fmt; *sndcnv = sndcnvnop; if (ioctl(auddio_fd,SNDCTL_DSP_SYNC,NULL) < 0) { sound_perror("SNDCTL_DSP_SYNC"); return(0); } /* Initialize sound hardware with preferred parameters */ /* If the sound hardware cannot support 16 bit format or requires a different byte sex then try to drop to 8 bit format */ the_fmt = fmt; if(ioctl(audio_fd,SNDCTL_DSP_SETFMT,&the_fmt) < 0) { sound_perror("SNDCTL_DSP_SETFMT"); return(0); } if (fmt != the_fmt) { if (fmt == AFMT_S16_LE || fmt == AFMT_S16_BE) { *sndcnv = fmt == AFMT_S16_BE ? sndcnv2byteBE : sndcnv2byteLE; if (((i=fmt=AFMT_U8),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || fmt != i || ioctl(audio_fd,SNDCTL_DSP_SETFMT,&the_fmt) < 0 || fmt != the_fmt) { sound_perror("SNDCTL_DSP_SETFMT"); return(0); } } else if (fmt == AFMT_MU_LAW && the_fmt == AFMT_U8 ) { /* the kernel will convert for us */ } else { sound_perror("SNDCTL_DSP_SETFMT"); return(0); } } else if (fmt == AFMT_S8) { *sndcnv = sndcnv2unsigned; if (((i=fmt=AFMT_U8),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || fmt != i || ioctl(audio_fd,SNDCTL_DSP_SETFMT,&the_fmt) < 0 || fmt != the_fmt) { sound_perror("SNDCTRL_DSP_SETFMT"); return(0); } } /* The PCSP driver does not support reading of the sampling rate via the SOUND_PCM_READ_RATE ioctl; determine "the_speed" here */ the_speed = speed; ioctl(audio_fd,SNDCTL_DSP_SPEED,&the_speed); /* The PCSP driver does not support reading of the mono/stereo flag, thus we assume, that failure to change this mode means we are in mono mode */ if (((i = (the_stereo = tracks)-1),ioctl(audio_fd,SNDCTL_DSP_STEREO,&i)) < 0) the_stereo = 1; /* Try to request stereo playback (if needed); if this cannot be supported by the hardware, then install conversion routines for mono playback */ /* This ioctl will fail if we use the PCSP driver; thus the value of "the_stereo" is still unchanged */ ioctl(audio_fd,SOUND_PCM_READ_CHANNELS,&the_stereo); if (tracks != the_stereo) { if (tracks == 2) { tracks = 1; *sndcnv = *sndcnv == sndcnv2byteLE ? sndcnv2monobyteLE : *sndcnv == sndcnv2byteBE ? sndcnv2monobyteBE : *sndcnv == sndcnv2unsigned ? sndcnv2monounsigned : the_fmt == AFMT_S16_LE ? sndcnv16_2monoLE : the_fmt == AFMT_S16_BE ? sndcnv16_2monoBE : the_fmt == AFMT_S8 ? sndcnv8S_2mono : the_fmt == AFMT_U8 ? sndcnv8U_2mono : the_fmt == AFMT_MU_LAW ? sndcnvULaw_2mono : NULL; if (*sndcnv == NULL) { /* this should not happen */ sound_perror("SNDCTL_DSP_STEREO"); return(0); } /* Switch to mono mode */ if (((i = 0),ioctl(audio_fd,SNDCTL_DSP_STEREO,&i)) < 0 || i) { sound_perror("SNDCTL_DSP_STEREO"); return(0); } /* Now double check that everything is set as expected */ if (((i = AFMT_QUERY),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || (i != the_fmt && (((i=the_fmt),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || i != the_fmt || ((i = AFMT_QUERY),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || i != the_fmt)) || (ioctl(audio_fd,SOUND_PCM_READ_CHANNELS,&i) >= 0 && i != 1)) { /* There was no way that we could set the soundcard to a meaningful mode */ sound_perror("SNDCTL_DSP_SETFMT and SNDCTL_DSP_STEREO"); return(0); } } else { /* Somebody set the soundcard to stereo even though we requested mono; this should not happen... */ if (((i = the_stereo = tracks),ioctl(audio_fd,SNDCTL_DSP_STEREO,&i))<0 || i != the_stereo-1) { sound_perror("SNDCTL_DSP_STEREO"); return(0); } if (((i = AFMT_QUERY),ioctl(audio_fd,SNDCTL_DSP_SETFMT,&i)) < 0 || i != the_fmt) { sound_perror("SNDCTL_DSP_SETFMT"); return(0); } } } /* Fail if deviations from desired sampling frequency are too big */ /* This ioctl will fail if we use the PCSP driver; thus the value of "the_speed" is still unchanged */ ioctl(audio_fd,SOUND_PCM_READ_RATE,&the_speed); if (speed*14 < the_speed*10 || speed*6 > the_speed*10) { Extbyte buffer[256]; sprintf(buffer,"SNDCTL_DSP_SPEED (req: %d, rtn: %d)",speed,the_speed); sound_perror(buffer); return(0); } /* Use the mixer device for setting the playback volume */ if (mixx_fd > 0) { int vol = *volume & 0xFF; if (ioctl(mixx_fd,SOUND_MIXER_READ_PCM,volume) < 0) *volume = -1; if (vol < 0) vol = 0; else if (vol > 100) vol = 100; #ifdef NOVOLUMECTRLFORMULAW if (fmt == AFMT_MU_LAW) vol = 100; #endif vol |= 256*vol; /* Do not signal an error, if volume control is unavailable! */ ioctl(mixx_fd,SOUND_MIXER_WRITE_PCM,&vol); } #if defined(LINUXPLAYSTANDALONE) && 1 /* Debugging output is displayed only when compiled as stand-alone version */ {int the_volume; the_fmt = AFMT_QUERY; ioctl(audio_fd,SNDCTL_DSP_SETFMT,&the_fmt); ioctl(auddio_fd,SOUND_PCM_READ_CHANNELS,&the_stereo); ioctl(auddio_fd,SOUND_PCM_READ_RATE,&the_speed); ioctl(mixx_fd,SOUND_MIXER_READ_PCM,&the_volume); fprintf(stderr,"%s, %s, %dHz, L:%d/R:%d\n", the_fmt == AFMT_MU_LAW ? "AFMT_MU_LAW" : the_fmt == AFMT_A_LAW ? "AFMT_A_LAW" : the_fmt == AFMT_IMA_ADPCM ? "AFMT_IMA_ADPCM" : the_fmt == AFMT_U8 ? "AFMT_U8" : the_fmt == AFMT_S16_LE ? "AFMT_S16_LE" : the_fmt == AFMT_S16_BE ? "AFMT_S16_BE" : the_fmt == AFMT_S8 ? "AFMT_S8" : the_fmt == AFMT_U16_LE ? "AFMT_U16_LE" : the_fmt == AFMT_U16_BE ? "AFMT_U16_BE" : the_fmt == AFMT_MPEG ? "AFMT_MPEG" : "AFMT_???", the_stereo == 2 ? "stereo" : "mono", the_speed, the_volume / 256, the_volume % 256); } #endif return(1); } /* XEmacs requires code both for playback of pre-loaded data and for playback from a soundfile; we use one function for both cases. Returns 1 on succes. 0 otherwise. */ static int linux_play_data_or_file(int fd, UChar_Binary *data, int length, int volume) { size_t (*parsesndfile)(void **dayta,size_t *sz,void **outbuf); size_t (*sndcnv)(void **dayta,size_t *sz,void **); fmtType ffmt; int fmt,speed,tracks; UChar_Binary *pptr,*optr,*cptr,*sptr; int wrtn,rrtn,crtn,prtn; UChar_Binary sndbuf[SNDBUFSZ]; /* We need to read at least the header information before we can start doing anything */ if (!data || length < HEADERSZ) { if (fd < 0) return 0; else { length = read (fd,sndbuf,SNDBUFSZ); if (length < HEADERSZ) return 0; data = sndbuf; length = SNDBUFSZ; } } ffmt = analyze_format(data,&fmt,&speed,&tracks,&parsesndfile); if (ffmt != fmtRaw && ffmt != fmtSunAudio && ffmt != fmtWave) { sound_warn("Unsupported file format (neither RAW, nor Sun/DECAudio, nor WAVE)"); return 0; } /* The VoxWare-SDK discourages opening /dev/audio; opening /dev/dsp and properly initializing it via ioctl() is preferred */ if ((audio_fd=open(audio_dev, O_WRONLY | O_NONBLOCK, 0)) < 0) { /* JV. Much too verbose. In addition this can crash. See NOTE: in Fplay_sound sound_perror(audio_dev); */ if (mix_fd > 0 && mix_fd != audio_fd) { close(mix_fd); mix_fd = -1; } return 0; } /* The VoxWare-SDK discourages direct manipulation of the mixer device as this could lead to problems, when multiple sound cards are installed */ mix_fd = audio_fd; sighup_handler = EMACS_SIGNAL (SIGHUP, sighandler); sigint_handler = EMACS_SIGNAL (SIGINT, sighandler); if (!audio_init(mix_fd,audio_fd,fmt,speed,tracks,&volume,&sndcnv)) goto END_OF_PLAY; audio_vol = volume; reset_parsestate(); /* Mainloop: read a block of data, parse its contents, perform all the necessary conversions and output it to the sound device; repeat until all data has been processed */ rrtn = length; do { for (pptr = data; (prtn = parsesndfile((void **)&pptr,(size_t *)&rrtn, (void **)&optr)) > 0; ) for (cptr = optr; (crtn = sndcnv((void **)&cptr,(size_t *) &prtn, (void **)&sptr)) > 0; ) { for (;;) { if ((wrtn = write(audio_fd,sptr,crtn)) < 0) { sound_perror("write"); goto END_OF_PLAY; } else if (wrtn) break; else if (ioctl(audio_fd,SNDCTL_DSP_SYNC,NULL) < 0) { sound_perror("SNDCTL_DSP_SYNC"); goto END_OF_PLAY; } } if (wrtn != crtn) { Extbyte buf[255]; sprintf(buf,"play: crtn = %d, wrtn = %d",crtn,wrtn); sound_warn(buf); goto END_OF_PLAY; } } if (fd >= 0) { if ((rrtn = read(fd,sndbuf,SNDBUFSZ)) < 0) { sound_perror("read"); goto END_OF_PLAY; } } else break; } while (rrtn > 0); if (ffmt == fmtWave) parse_wave_complete(); END_OF_PLAY: /* Now cleanup all used resources */ ioctl(audio_fd,SNDCTL_DSP_SYNC,NULL); ioctl(audio_fd,SNDCTL_DSP_RESET,NULL); EMACS_SIGNAL (SIGHUP,sighup_handler); EMACS_SIGNAL (SIGINT,sigint_handler); if (mix_fd > 0) { if (audio_vol >= 0) { ioctl(mix_fd,SOUND_MIXER_WRITE_PCM,&audio_vol); audio_vol = -1; } if (mix_fd != audio_fd) close(mix_fd); mix_fd = -1; } close(audio_fd); audio_fd = -1; return 1; } /* Call "linux_play_data_or_file" with the appropriate parameters for playing a soundfile */ void play_sound_file (Extbyte *sound_file, int volume) { int fd; if ((fd=open(sound_file,O_RDONLY,0)) < 0) { sound_perror(sound_file); return; } linux_play_data_or_file(fd,NULL,0,volume); close(fd); return; } /* Call "linux_play_data_or_file" with the appropriate parameters for playing pre-loaded data */ int play_sound_data (UChar_Binary *data, int length, int volume) { return linux_play_data_or_file(-1,data,length,volume); }