Mercurial > hg > xemacs-beta
view src/libsst.c @ 5602:c9e5612f5424
Support the MP library on recent FreeBSD, have it pass relevant tests.
src/ChangeLog addition:
2011-11-26 Aidan Kehoe <kehoea@parhasard.net>
* number-mp.c (bignum_to_string):
Don't overwrite the accumulator we've just set up for this
function.
* number-mp.c (BIGNUM_TO_TYPE):
mp_itom() doesn't necessarily do what this code used to think with
negative numbers, it can treat them as unsigned ints. Subtract
numbers from bignum_zero instead of multiplying them by -1 to
convert them to their negative equivalents.
* number-mp.c (bignum_to_int):
* number-mp.c (bignum_to_uint):
* number-mp.c (bignum_to_long):
* number-mp.c (bignum_to_ulong):
* number-mp.c (bignum_to_double):
Use the changed BIGNUM_TO_TYPE() in these functions.
* number-mp.c (bignum_ceil):
* number-mp.c (bignum_floor):
In these functions, be more careful about rounding to positive and
negative infinity, respectively. Don't use the sign of QUOTIENT
when working out out whether to add or subtract one, rather use
the sign QUOTIENT would have if arbitrary-precision division were
done.
* number-mp.h:
* number-mp.h (MP_GCD):
Wrap #include <mp.h> in BEGIN_C_DECLS/END_C_DECLS.
* number.c (Fbigfloat_get_precision):
* number.c (Fbigfloat_set_precision):
Don't attempt to call XBIGFLOAT_GET_PREC if this build doesn't
support big floats.
| author | Aidan Kehoe <kehoea@parhasard.net> |
|---|---|
| date | Sat, 26 Nov 2011 17:59:14 +0000 |
| parents | ecf1ebac70d8 |
| children |
line wrap: on
line source
/* libsst.c - SPARC sound tools library ** ** Copyright (C) 1989 by Jef Poskanzer. ** ** 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. ** Hacked on by jwz for emacs. */ /* Synched up with: Not in FSF. */ /* This file Mule-ized by Ben Wing, 5-15-01. */ #include <config.h> #include "lisp.h" #include "sound.h" #include "libsst.h" #include "sysfile.h" #define AUDBUF 1024 int sst_open(play_level, record_level) int play_level, record_level; { int fd, i, gr, ger, gx; struct audio_ioctl ai; Extbyte *ep; fd = open ("/dev/audio", O_RDWR); if ( fd < 0 ) { sound_perror( "sst_open: open /dev/audio" ); return( fd ); } #ifdef AUDIOSETQSIZE /* This no longer exists as of 4.1.2. */ /* Shrink audio device's queue size, to cut down time delay. */ i = AUDBUF; if ( ioctl( fd, AUDIOSETQSIZE, &i ) < 0 ) { sound_perror( "sst_open: SETQSIZE" ); return( fd ); } #endif /* AUDIOSETQSIZE */ /* Set gains. -10 <= ger <= 18, -18 <= gr <= 12, -18 <= gx <= 12. */ if (!play_level) { play_level = 75; if ( (ep = egetenv( "SST_PLAY" )) != NULL ) { play_level = atoi( ep ); if ( play_level < 0 || play_level > 99 ) { sound_warn( "sst_open: SST_PLAY must be between 0 and 99" ); return( -1 ); } } } if (!record_level) { record_level = 75; if ( (ep = egetenv( "SST_RECORD" )) != NULL ) { record_level = atoi( ep ); if ( record_level < 0 || record_level > 99 ) { sound_warn( "sst_open: SST_RECORD must be between 0 and 99" ); return( -1 ); } } } play_level = play_level * 59 / 100 - 28; ger = play_level / 2; gr = play_level - ger; if ( ger < -10 ) { ger = -10; gr = play_level - ger; } if ( gr > 12 ) { gr = 12; ger = play_level - gr; } gx = record_level * 31 / 100 - 18; sst_set_gr( fd, gr ); sst_set_ger( fd, ger ); sst_set_gx( fd, gx ); /* Initialize the MMR2 register to send the output to either ** the speaker or the earphone jack, depending on SST_EARPHONES. */ ai.control = AUDIO_MAP_MMR2; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_open: GETREG MMR2" ); return( -1 ); } if ( (ep = egetenv( "SST_EARPHONES" )) != NULL ) ai.data[0] &= ~AUDIO_MMR2_BITS_LS; else ai.data[0] |= AUDIO_MMR2_BITS_LS; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_open: SETREG MMR2" ); return( fd ); } return fd; } void sst_close( fd ) int fd; { struct audio_ioctl ai; ai.control = AUDIO_MAP_MMR1; ai.data[0] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_close: SETREG MMR1" ); } ai.control = AUDIO_MAP_MMR2; ai.data[0] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_close: SETREG MMR2" ); } close( fd ); } /* These are tables of values to be loaded into various gain registers. */ static Binbyte ger_table[][2] = { 0xaa, 0xaa, /* -10db */ 0x79, 0xac, 0x41, 0x99, 0x9c, 0xde, 0x74, 0x9c, /* -6db */ 0x6a, 0xae, 0xab, 0xdf, 0x64, 0xab, 0x2a, 0xbd, 0x5c, 0xce, 0x00, 0x99, /* 0db */ 0x43, 0xdd, 0x52, 0xef, 0x55, 0x42, 0x31, 0xdd, 0x43, 0x1f, 0x40, 0xdd, /* 6db */ 0x44, 0x0f, 0x31, 0x1f, 0x10, 0xdd, 0x41, 0x0f, 0x60, 0x0b, 0x42, 0x10, /* 12db */ 0x11, 0x0f, 0x72, 0x00, 0x21, 0x10, 0x22, 0x00, 0x00, 0x0b, 0x00, 0x0f, /* 18db */ }; static Binbyte gr_gx_table[][2] = { 0x8b, 0x7c, /* -18db */ 0x8b, 0x35, 0x8b, 0x24, 0x91, 0x23, 0x91, 0x2a, 0x91, 0x3b, 0x91, 0xf9, /* -12db */ 0x91, 0xb6, 0x91, 0xa4, 0x92, 0x32, 0x92, 0xaa, 0x93, 0xb3, 0x9f, 0x91, /* -6db */ 0x9b, 0xf9, 0x9a, 0x4a, 0xa2, 0xa2, 0xaa, 0xa3, 0xbb, 0x52, 0x08, 0x08, /* 0db */ 0x3d, 0xac, 0x25, 0x33, 0x21, 0x22, 0x12, 0xa2, 0x11, 0x3b, 0x10, 0xf2, /* 6db */ 0x02, 0xca, 0x01, 0x5a, 0x01, 0x12, 0x00, 0x32, 0x00, 0x13, 0x00, 0x0e, /* 12db */ }; void sst_set_ger( fd, value ) int fd, value; { struct audio_ioctl ai; if ( ( value < -10 ) || ( value > 18 ) ) { Extbyte buf [255]; sprintf (buf, "sst_set_ger: GER %d out of range", value); sound_warn(buf); return; } /* Add 10 to the value to get the index into the table. */ ai.control = AUDIO_MAP_GER; ai.data[0] = ger_table[value + 10][1]; ai.data[1] = ger_table[value + 10][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: SETREG GER" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GER; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: SETREG MMR1" ); } } void sst_set_gr( fd, value ) int fd, value; { struct audio_ioctl ai; if ( ( value < -18 ) || ( value > 12 ) ) { Extbyte buf [255]; sprintf (buf, "sst_set_gr: GR %d out of range", value); sound_warn (buf); return; } ai.control = AUDIO_MAP_GR; ai.data[0] = gr_gx_table[value + 18][1]; ai.data[1] = gr_gx_table[value + 18][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: SETREG GR" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GR; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: SETREG MMR1" ); } } void sst_set_gx( fd, value ) int fd, value; { struct audio_ioctl ai; Extbyte buf [255]; if ( ( value < -18 ) || ( value > 12 ) ) { sprintf (buf, "sst_set_gx: GX %d out of range", value); sound_warn (buf); return; } /* We add 18 to get the index into the table, since entry 0 represents * -18db. */ ai.control = AUDIO_MAP_GX; ai.data[0] = gr_gx_table[value + 18][1]; ai.data[1] = gr_gx_table[value + 18][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: SETREG GX" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GX; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: SETREG MMR1" ); } } void sst_tones( fd, dhz1, dhz2, thz, rhz, usec ) int fd, dhz1, dhz2, thz, rhz, usec; { Extbyte buf [255]; struct audio_ioctl ai; int dval1, dval2, tval, rval; Binbyte oldmmr2, newmmr2; if ( dhz1 == 0 ) dval1 = 0; else { dval1 = ( dhz1 * 128 + 63 ) / 1000; if ( ( dval1 < 1 ) || ( dval1 > 255 ) ) { sprintf(buf, "sst_tones: dhz1 %d out of range", dhz1 ); sound_warn (buf); return; } } if ( dhz2 == 0 ) dval2 = 0; else { dval2 = ( dhz2 * 128 + 63 ) / 1000; if ( ( dval2 < 1 ) || ( dval2 > 255 ) ) { sprintf(buf, "sst_tones: dhz2 %d out of range", dhz2 ); sound_warn (buf); return; } } if ( thz == 0 ) tval = 0; else { tval = ( thz * 128 + 63 ) / 2000; if ( ( tval < 1 ) || ( tval > 255 ) ) { sprintf(buf, "sst_tones: thz %d out of range", thz ); sound_warn (buf); return; } } if ( rhz == 0 ) rval = 0; else { rval = ( rhz * 128 + 63 ) / 2000; if ( ( rval < 1 ) || ( rval > 255 ) ) { sprintf(buf, "sst_tones: rhz %d out of range", dhz2 ); sound_warn (buf); return; } } if ( ( dval1 != 0 || dval2 != 0 ) && ( tval != 0 || rval != 0 ) ) { sprintf(buf, "sst_tones: cannot use DTMF and TONE or RINGER at the same time", dhz2 ); sound_warn (buf); return; } if ( tval != 0 && rval != 0 ) { sprintf(buf, "sst_tones: cannot use TONE and RINGER at the same time", dhz2 ); sound_warn (buf); return; } ai.control = AUDIO_MAP_MMR2; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_tones: GETREG MMR2" ); } oldmmr2 = newmmr2 = ai.data[0]; if ( dval1 != 0 || dval2 != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_DTMF; ai.control = AUDIO_MAP_FTGR; ai.data[0] = dval1; ai.data[1] = dval2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } if ( tval != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_TONE; ai.control = AUDIO_MAP_FTGR; ai.data[0] = tval; ai.data[1] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } if ( rval != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_RINGER; ai.control = AUDIO_MAP_FTGR; ai.data[0] = rval; ai.data[1] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } ai.control = AUDIO_MAP_MMR2; ai.data[0] = newmmr2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG MMR2" ); } usleep( usec ); ai.data[0] = oldmmr2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG MMR2" ); } } void sst_dtmf( fd, dial, usecper, usecpause ) int fd, usecper, usecpause; Extbyte *dial; { Extbyte *cp; for ( cp = dial; *cp != '\0'; cp++ ) { switch ( *cp ) { case '1': sst_tones( fd, 703, 1211, 0, 0, usecper ); break; case '2': sst_tones( fd, 703, 1336, 0, 0, usecper ); break; case '3': sst_tones( fd, 703, 1492, 0, 0, usecper ); break; case 'A': sst_tones( fd, 703, 1648, 0, 0, usecper ); break; case '4': sst_tones( fd, 773, 1211, 0, 0, usecper ); break; case '5': sst_tones( fd, 773, 1336, 0, 0, usecper ); break; case '6': sst_tones( fd, 773, 1492, 0, 0, usecper ); break; case 'B': sst_tones( fd, 773, 1648, 0, 0, usecper ); break; case '7': sst_tones( fd, 859, 1211, 0, 0, usecper ); break; case '8': sst_tones( fd, 859, 1336, 0, 0, usecper ); break; case '9': sst_tones( fd, 859, 1492, 0, 0, usecper ); break; case 'C': sst_tones( fd, 859, 1648, 0, 0, usecper ); break; case '*': sst_tones( fd, 945, 1211, 0, 0, usecper ); break; case '0': sst_tones( fd, 945, 1336, 0, 0, usecper ); break; case '#': sst_tones( fd, 945, 1492, 0, 0, usecper ); break; case 'D': sst_tones( fd, 945, 1648, 0, 0, usecper ); break; case ' ': case '-': case '(': case ')': case '+': continue; /* ignore */ case ',': usleep( usecper ); break; /* big pause */ default: { Extbyte buf [255]; sprintf( buf, "sst_dtmf: unknown dialing code '%c'", *cp ); sound_warn (buf); } } usleep( usecpause ); } }