/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "../mixer.h" #include "sci/include/sci_memory.h" namespace Sci { /* Max. number of microseconds in difference allowed between independent audio streams */ #define TIMESTAMP_MAX_ALLOWED_DELTA 2000 /*#define DEBUG 3*/ /* Set DEBUG to one of the following: ** anything -- high-level debugging (feed subscriptions/deletions etc.) ** >= 1 -- rough input and output analysis (once per call) ** >= 2 -- more detailed input analysis (once per call and feed) ** >= 3 -- fully detailed input and output analysis (once per frame and feed) */ /*#define DEBUG 0*/ #define MIN_DELTA_OBSERVATIONS 100 /* Number of times the mixer is called before it starts trying to improve latency */ #define MAX_DELTA_OBSERVATIONS 1000000 /* Number of times the mixer is called before we assume we truly understand timing */ static int diagnosed_too_slow = 0; static volatile int mixer_lock = 0; /*#define DEBUG_LOCKS*/ #ifdef DEBUG_LOCKS # define DEBUG_ACQUIRE fprintf(stderr, "[ -LOCK -] ACKQ %d: %d\n", __LINE__, mixer_lock) # define DEBUG_WAIT fprintf(stderr, "[ -LOCK -] WAIT %d: %d\n", __LINE__, mixer_lock); # define DEBUG_RELEASE ; fprintf(stderr, "[ -LOCK -] REL %d: %d\n", __LINE__, mixer_lock); #else # define DEBUG_ACQUIRE # define DEBUG_WAIT # define DEBUG_RELEASE #endif #define ACQUIRE_LOCK() ++mixer_lock; while (mixer_lock != 1) { DEBUG_WAIT sci_sched_yield(); } DEBUG_ACQUIRE #define RELEASE_LOCK() --mixer_lock DEBUG_RELEASE struct mixer_private { byte *outbuf; /* Output buffer to write to the PCM device next time */ sfx_timestamp_t outbuf_timestamp; /* Timestamp associated with the output buffer */ int have_outbuf_timestamp; /* Whether we really _have_ an associated timestamp */ byte *writebuf; /* Buffer we're supposed to write to */ gint32 *compbuf_l, *compbuf_r; /* Intermediate buffers for computation */ int lastbuf_len; /* Number of frames stored in the last buffer */ long skew; /* Millisecond relative to which we compute time. This is the millisecond ** part of the first time we emitted sound, to simplify some computations. */ long lsec; /* Last point in time we updated buffers, if any (seconds since the epoch) */ int played_this_second; /* Number of frames emitted so far in second lsec */ int max_delta; /* maximum observed time delta (using 'frames' as a metric unit) */ int delta_observations; /* Number of times we played; confidence measure for max_delta */ /* Pause data */ int paused; }; #define P ((struct mixer_private *)(self->private_bits)) static int mix_init(sfx_pcm_mixer_t *self, sfx_pcm_device_t *device) { self->dev = device; self->private_bits /* = P */ = sci_malloc(sizeof(struct mixer_private)); P->outbuf = P->writebuf = NULL; P->lastbuf_len = 0; P->compbuf_l = (gint32*)sci_malloc(sizeof(gint32) * device->buf_size); P->compbuf_r = (gint32*)sci_malloc(sizeof(gint32) * device->buf_size); P->played_this_second = 0; P->paused = 0; #ifdef DEBUG sciprintf("[soft-mixer] Initialised device %s v%s (%d Hz, %d/%x)\n", device->name, device->version, device->conf.rate, device->conf.stereo, device->conf.format); #endif return SFX_OK; } static inline unsigned int gcd(unsigned int a, unsigned int b) { if (a == b) return a; if (a < b) { unsigned int c = b % a; if (!c) return a; return gcd(c, a); } else return gcd(b, a); } static sfx_pcm_urat_t urat(unsigned int nom, unsigned int denom) { sfx_pcm_urat_t rv; unsigned int g; rv.val = nom / denom; nom -= rv.val * denom; if (nom == 0) g = 1; else g = gcd(nom, denom); rv.nom = nom / g; rv.den = denom / g; return rv; } static void mix_subscribe(sfx_pcm_mixer_t *self, sfx_pcm_feed_t *feed) { sfx_pcm_feed_state_t *fs; ACQUIRE_LOCK(); if (!self->feeds) { self->feeds_allocd = 2; self->feeds = (sfx_pcm_feed_state_t*)sci_malloc(sizeof(sfx_pcm_feed_state_t) * self->feeds_allocd); } else if (self->feeds_allocd == self->feeds_nr) { self->feeds_allocd += 2; self->feeds = (sfx_pcm_feed_state_t*)sci_realloc(self->feeds, sizeof(sfx_pcm_feed_state_t) * self->feeds_allocd); } fs = self->feeds + self->feeds_nr++; fs->feed = feed; feed->frame_size = SFX_PCM_FRAME_SIZE(feed->conf); /* fs->buf_size = (self->dev->buf_size * (feed->conf.rate + self->dev->conf.rate - 1)) / self->dev->conf.rate; */ /* For the sake of people without 64 bit CPUs: */ fs->buf_size = 2 + /* Additional safety */ (self->dev->buf_size * (1 + (feed->conf.rate / self->dev->conf.rate))); fprintf(stderr, " ---> %d/%d/%d/%d = %d\n", self->dev->buf_size, feed->conf.rate, self->dev->conf.rate, feed->frame_size, fs->buf_size); fs->buf = (byte*)sci_malloc(fs->buf_size * feed->frame_size); fprintf(stderr, " ---> --> %d for %p at %p\n", fs->buf_size * feed->frame_size, (void *)fs, (void *)fs->buf); { int i; for (i = 0; i < fs->buf_size * feed->frame_size; i++) fs->buf[i] = 0xa5; } fs->scount = urat(0, 1); fs->spd = urat(feed->conf.rate, self->dev->conf.rate); fs->scount.den = fs->spd.den; fs->ch_old.left = 0; fs->ch_old.right = 0; fs->ch_new.left = 0; fs->ch_new.right = 0; fs->mode = SFX_PCM_FEED_MODE_ALIVE; /* If the feed can't provide us with timestamps, we don't need to wait for it to do so */ fs->pending_review = (feed->get_timestamp) ? 1 : 0; fs->frame_bufstart = 0; #ifdef DEBUG sciprintf("[soft-mixer] Subscribed %s-%x (%d Hz, %d/%x) at %d+%d/%d, buffer size %d\n", feed->debug_name, feed->debug_nr, feed->conf.rate, feed->conf.stereo, feed->conf.format, fs->spd.val, fs->spd.nom, fs->spd.den, fs->buf_size); #endif RELEASE_LOCK(); } static void _mix_unsubscribe(sfx_pcm_mixer_t *self, sfx_pcm_feed_t *feed) { int i; #ifdef DEBUG sciprintf("[soft-mixer] Unsubscribing %s-%x\n", feed->debug_name, feed->debug_nr); #endif for (i = 0; i < self->feeds_nr; i++) { sfx_pcm_feed_state_t *fs = self->feeds + i; if (fs->feed == feed) { feed->destroy(feed); if (fs->buf) free(fs->buf); self->feeds_nr--; /* Copy topmost into deleted so that we don't have any holes */ if (i != self->feeds_nr) self->feeds[i] = self->feeds[self->feeds_nr]; if (self->feeds_allocd > 8 && self->feeds_allocd > (self->feeds_nr << 1)) { /* Limit memory waste */ self->feeds_allocd >>= 1; self->feeds = (sfx_pcm_feed_state_t*)sci_realloc(self->feeds, sizeof(sfx_pcm_feed_state_t) * self->feeds_allocd); } for (i = 0; i < self->feeds_nr; i++) fprintf(stderr, " Feed #%d: %s-%x\n", i, self->feeds[i].feed->debug_name, self->feeds[i].feed->debug_nr); return; } } fprintf(stderr, "[sfx-mixer] Assertion failed: Deleting invalid feed %p out of %d\n", (void *)feed, self->feeds_nr); BREAKPOINT(); } static void mix_exit(sfx_pcm_mixer_t *self) { ACQUIRE_LOCK(); while (self->feeds_nr) _mix_unsubscribe(self, self->feeds[0].feed); if (P->outbuf) free(P->outbuf); if (P->writebuf) free(P->writebuf); if (P->compbuf_l) free(P->compbuf_l); if (P->compbuf_l) free(P->compbuf_r); free(P); self->private_bits /* = P */ = NULL; RELEASE_LOCK(); #ifdef DEBUG sciprintf("[soft-mixer] Uninitialising mixer\n"); #endif } #define LIMIT_16_BITS(v) \ if (v < -32767) \ v = -32768; \ else if (v > 32766) \ v = 32767 static inline void mix_compute_output(sfx_pcm_mixer_t *self, int outplen) { int frame_i; sfx_pcm_config_t conf = self->dev->conf; int use_16 = conf.format & SFX_PCM_FORMAT_16; int bias = conf.format & ~SFX_PCM_FORMAT_LMASK; byte *lchan, *rchan = NULL; /* Don't see how this could possibly wind up being ** used w/o initialisation, but you never know... */ gint32 *lsrc = P->compbuf_l; gint32 *rsrc = P->compbuf_r; int frame_size = SFX_PCM_FRAME_SIZE(conf); if (!P->writebuf) P->writebuf = (byte*)sci_malloc(self->dev->buf_size * frame_size + 4); if (conf.stereo) { if (conf.stereo == SFX_PCM_STEREO_RL) { lchan = P->writebuf + ((use_16) ? 2 : 1); rchan = P->writebuf; } else { lchan = P->writebuf; rchan = P->writebuf + ((use_16) ? 2 : 1); } } else lchan = P->writebuf; for (frame_i = 0; frame_i < outplen; frame_i++) { int left = *lsrc++; int right = *rsrc++; if (conf.stereo) { LIMIT_16_BITS(left); LIMIT_16_BITS(right); if (!use_16) { left >>= 8; right >>= 8; } left += bias; right += bias; if (use_16) { if (SFX_PCM_FORMAT_LE == (conf.format & SFX_PCM_FORMAT_ENDIANNESS)) { lchan[0] = left & 0xff; lchan[1] = (left >> 8) & 0xff; rchan[0] = right & 0xff; rchan[1] = (right >> 8) & 0xff; } else { lchan[1] = left & 0xff; lchan[0] = (left >> 8) & 0xff; rchan[1] = right & 0xff; rchan[0] = (right >> 8) & 0xff; } lchan += 4; rchan += 4; } else { *lchan = left & 0xff; *rchan = right & 0xff; lchan += 2; rchan += 2; } } else { left += right; left >>= 1; LIMIT_16_BITS(left); if (!use_16) left >>= 8; left += bias; if (use_16) { if (SFX_PCM_FORMAT_LE == (conf.format & SFX_PCM_FORMAT_ENDIANNESS)) { lchan[0] = left & 0xff; lchan[1] = (left >> 8) & 0xff; } else { lchan[1] = left & 0xff; lchan[0] = (left >> 8) & 0xff; } lchan += 2; } else { *lchan = left & 0xff; lchan += 1; } } } } static inline void mix_swap_buffers(sfx_pcm_mixer_t *self) { /* Swap buffers */ byte *tmp = P->outbuf; P->outbuf = P->writebuf; P->writebuf = tmp; } #define FRAME_OFFSET(usecs) \ ((usecs >> 7) /* approximate, since uint32 is too small */ \ * ((long) self->dev->conf.rate)) \ / (1000000L >> 7) static inline int mix_compute_buf_len(sfx_pcm_mixer_t *self, int *skip_frames) /* Computes the number of frames we ought to write. It tries to minimise the number, ** in order to reduce latency. */ /* It sets 'skip_frames' to the number of frames to assume lost by latency, effectively ** skipping them. */ { int free_frames; int played_frames = 0; /* since the last call */ long secs, usecs; int frame_pos; int result_frames; sci_gettime(&secs, &usecs); if (!P->outbuf) { /* Called for the first time ever? */ P->skew = usecs; P->lsec = secs; P->max_delta = 0; P->delta_observations = 0; P->played_this_second = 0; *skip_frames = 0; return self->dev->buf_size; } /* fprintf(stderr, "[%d:%d]S%d ", secs, usecs, P->skew);*/ if (P->skew > usecs) { secs--; usecs += (1000000 - P->skew); } else usecs -= P->skew; frame_pos = FRAME_OFFSET(usecs); played_frames = frame_pos - P->played_this_second + ((secs - P->lsec) * self->dev->conf.rate); /* fprintf(stderr, "%d:%d - %d:%d => %d\n", secs, frame_pos, P->lsec, P->played_this_second, played_frames); */ if (played_frames > self->dev->buf_size) played_frames = self->dev->buf_size; /* fprintf(stderr, "Between %d:? offset=%d and %d:%d offset=%d: Played %d at %d\n", P->lsec, P->played_this_second, secs, usecs, frame_pos, played_frames, self->dev->conf.rate); */ if (played_frames > P->max_delta) P->max_delta = played_frames; free_frames = played_frames; if (free_frames > self->dev->buf_size) { if (!diagnosed_too_slow) { sciprintf("[sfx-mixer] Your timer is too slow for your PCM output device (%d/%d), free=%d.\n" "[sfx-mixer] You might want to try changing the device, timer, or mixer, if possible.\n", played_frames, self->dev->buf_size, free_frames); } diagnosed_too_slow = 1; *skip_frames = free_frames - self->dev->buf_size; free_frames = self->dev->buf_size; } else *skip_frames = 0; ++P->delta_observations; if (P->delta_observations > MAX_DELTA_OBSERVATIONS) P->delta_observations = MAX_DELTA_OBSERVATIONS; /* /\* Disabled, broken *\/ */ /* if (0 && P->delta_observations > MIN_DELTA_OBSERVATIONS) { /\* Start improving after a while *\/ */ /* int diff = self->dev->conf.rate - P->max_delta; */ /* /\* log-approximate P->max_delta over time *\/ */ /* recommended_frames = P->max_delta + */ /* ((diff * MIN_DELTA_OBSERVATIONS) / P->delta_observations); */ /* /\* WTF? *\/ */ /* } else */ /* recommended_frames = self->dev->buf_size; /\* Initially, keep the buffer full *\/ */ #if (DEBUG >= 1) sciprintf("[soft-mixer] played since last time: %d, recommended: %d, free: %d\n", played_frames, recommended_frames, free_frames); #endif result_frames = free_frames; if (result_frames < 0) result_frames = 0; P->played_this_second += result_frames; while (P->played_this_second >= self->dev->conf.rate) { /* Won't normally happen more than once */ P->played_this_second -= self->dev->conf.rate; P->lsec++; } if (result_frames > self->dev->buf_size) { fprintf(stderr, "[soft-mixer] Internal assertion failed: frames-to-write %d > %d\n", result_frames, self->dev->buf_size); } return result_frames; } #define READ_NEW_VALUES() \ if (frames_left > 0) { \ if (bias) { /* unsigned data */ \ if (!use_16) { \ c_new.left = (*lsrc) << 8; \ c_new.right = (*rsrc) << 8; \ } else { \ if (conf.format & SFX_PCM_FORMAT_LE) { \ c_new.left = lsrc[0] | lsrc[1] << 8; \ c_new.right = rsrc[0] | rsrc[1] << 8; \ } else { \ c_new.left = lsrc[1] | lsrc[0] << 8; \ c_new.right = rsrc[1] | rsrc[0] << 8; \ } \ } \ } else { /* signed data */ \ if (!use_16) { \ c_new.left = (*((signed char *)lsrc)) << 8; \ c_new.right = (*((signed char *)rsrc)) << 8; \ } else { \ if (conf.format & SFX_PCM_FORMAT_LE) { \ c_new.left = lsrc[0] | ((signed char *)lsrc)[1] << 8; \ c_new.right = rsrc[0] | ((signed char *)rsrc)[1] << 8; \ } else { \ c_new.left = lsrc[1] | ((signed char *)lsrc)[0] << 8; \ c_new.right = rsrc[1] | ((signed char *)rsrc)[0] << 8; \ } \ } \ } \ \ c_new.left -= bias; \ c_new.right -= bias; \ \ lsrc += frame_size; \ rsrc += frame_size; \ } else { \ c_new.left = c_new.right = 0; \ break; \ } static volatile int xx_offset; static volatile int xx_size; static void mix_compute_input_linear(sfx_pcm_mixer_t *self, int add_result, int len, sfx_timestamp_t *ts, sfx_timestamp_t base_ts) /* if add_result is non-zero, P->outbuf should be added to rather than overwritten. */ /* base_ts is the timestamp for the first frame */ { sfx_pcm_feed_state_t *fs = self->feeds + add_result; sfx_pcm_feed_t *f = fs->feed; sfx_pcm_config_t conf = f->conf; int use_16 = conf.format & SFX_PCM_FORMAT_16; gint32 *lchan = P->compbuf_l; gint32 *rchan = P->compbuf_r; int frame_size = f->frame_size; byte *wr_dest = fs->buf + (frame_size * fs->frame_bufstart); byte *lsrc = fs->buf; byte *rsrc = fs->buf; /* Location to write to */ int frames_nr; int bias = (conf.format & ~SFX_PCM_FORMAT_LMASK) ? 0x8000 : 0; /* We use this only on a 16 bit level here */ /* The two most extreme source frames we consider for a ** destination frame */ struct twochannel_data c_old = fs->ch_old; struct twochannel_data c_new = fs->ch_new; int frames_read = 0; int frames_left; int write_offset; /* Iterator for translation */ int delay_frames = 0; /* Number of frames (dest buffer) at the beginning we skip */ /* First, compute the number of frames we want to retrieve */ frames_nr = fs->spd.val * len; /* A little complicated since we must consider partial frames */ frames_nr += (fs->spd.nom * len + (fs->scount.den - fs->scount.nom) /* remember that we may have leftovers */ + (fs->spd.den - 1 /* round up */) ) / fs->spd.den; ts->secs = -1; if (frames_nr > fs->buf_size) { fprintf(stderr, "%d (%d*%d + somethign) bytes, but only %d allowed!!!!!\n", frames_nr * f->frame_size, fs->spd.val, len, fs->buf_size); BREAKPOINT(); } if (fs->pending_review) { int newmode = PCM_FEED_EMPTY; /* empty unless a get_timestamp() tells otherwise */ RELEASE_LOCK(); /* Retrieve timestamp */ if (f->get_timestamp) newmode = f->get_timestamp(f, ts); ACQUIRE_LOCK(); fs = self->feeds + add_result; /* Reset in case of status update */ switch (newmode) { case PCM_FEED_TIMESTAMP: { /* Compute the number of frames the returned timestamp is in the future: */ delay_frames = sfx_timestamp_frame_diff(sfx_timestamp_renormalise(*ts, base_ts.frame_rate), base_ts); if (delay_frames <= 0) /* Start ASAP, even if it's too late */ delay_frames = 0; else if (delay_frames > len) delay_frames = len; fs->pending_review = 0; } break; case PCM_FEED_EMPTY: fs->mode = SFX_PCM_FEED_MODE_DEAD; /* ...fall through... */ case PCM_FEED_IDLE: /* Clear audio buffer, if neccessary, and return */ if (!add_result) { memset(P->compbuf_l, 0, sizeof(gint32) * len); memset(P->compbuf_r, 0, sizeof(gint32) * len); } return; default: fprintf(stderr, "[soft-mixer] Fatal: Invalid mode returned by PCM feed %s-%d's get_timestamp(): %d\n", f->debug_name, f->debug_nr, newmode); exit(1); } } RELEASE_LOCK(); /* Make sure we have sufficient information */ if (frames_nr > delay_frames + fs->frame_bufstart) frames_read = f->poll(f, wr_dest, frames_nr - delay_frames - fs->frame_bufstart); ACQUIRE_LOCK(); fs = self->feeds + add_result; frames_read += fs->frame_bufstart; frames_left = frames_read; /* Reset in case of status update */ /* Skip at the beginning: */ if (delay_frames) { if (!add_result) { memset(lchan, 0, sizeof(gint32) * delay_frames); memset(rchan, 0, sizeof(gint32) * delay_frames); } lchan += delay_frames; rchan += delay_frames; len -= delay_frames; } #if (DEBUG >= 2) sciprintf("[soft-mixer] Examining %s-%x (frame size %d); read %d/%d/%d, re-using %d frames\n", f->debug_name, f->debug_nr, frame_size, frames_read, frames_nr, fs->buf_size, fs->frame_bufstart); #endif if (conf.stereo == SFX_PCM_STEREO_LR) rsrc += (use_16) ? 2 : 1; else if (conf.stereo == SFX_PCM_STEREO_RL) lsrc += (use_16) ? 2 : 1; /* Otherwise, we let both point to the same place */ #if (DEBUG >= 2) sciprintf("[soft-mixer] Stretching theoretical %d (physical %d) results to %d\n", frames_nr, frames_left, len); #endif for (write_offset = 0; write_offset < len; write_offset++) { int leftsum = 0; /* Sum of any complete frames we used */ int rightsum = 0; int left; /* Sum of the two most extreme source frames ** we considered, i.e. the oldest and newest ** one corresponding to the output frame we are ** computing */ int right; int frame_steps = fs->spd.val; int j; if (fs->scount.nom >= fs->scount.den) { fs->scount.nom -= fs->scount.den; /* Ensure fractional part < 1 */ ++frame_steps; } if (frame_steps) c_old = c_new; #if 0 if (write_offset == 0) { READ_NEW_VALUES(); --frames_left; #if (DEBUG >= 3) sciprintf("[soft-mixer] Initial read %d:%d\n", c_new.left, c_new.right); #endif c_old = c_new; } #endif for (j = 0; j < frame_steps; j++) { READ_NEW_VALUES(); --frames_left; #if (DEBUG >= 3) sciprintf("[soft-mixer] Step %d/%d made %d:%d\n", j, frame_steps, c_new.left, c_new.right); #endif /* The last frame will be subject to the fractional ** part analysis, so we add it to 'left' and 'right' ** later-- all others are added to (leftsum, rightsum). */ if (j + 1 < frame_steps) { leftsum += c_new.left; rightsum += c_new.right; } } left = c_new.left * fs->scount.nom + c_old.left * (fs->scount.den - fs->scount.nom); right = c_new.right * fs->scount.nom + c_old.right * (fs->scount.den - fs->scount.nom); /* Normalise */ left /= fs->spd.den; right /= fs->spd.den; leftsum += left; rightsum += right; /* Make sure to divide by the number of frames we added here */ if (frame_steps > 1) { leftsum /= (frame_steps); rightsum /= (frame_steps); } #if (DEBUG >= 3) sciprintf("[soft-mixer] Ultimate result: %d:%d (frac %d:%d)\n", leftsum, rightsum, left, right); #endif if (add_result) { *(lchan++) += leftsum; *(rchan++) += rightsum; } else { *(lchan++) = leftsum; *(rchan++) = rightsum; } fs->scount.nom += fs->spd.nom; /* Count up fractional part */ } fs->ch_old = c_old; fs->ch_new = c_new; /* If neccessary, zero out the rest */ if (write_offset < len && !add_result) { memset(lchan, 0, sizeof(gint32) * (len - write_offset)); memset(rchan, 0, sizeof(gint32) * (len - write_offset)); } /* Save whether we have a partial frame still stored */ fs->frame_bufstart = frames_left; if (frames_left) { xx_offset = ((frames_read - frames_left) * f->frame_size); xx_size = frames_left * f->frame_size; if (xx_offset + xx_size >= fs->buf_size * f->frame_size) { fprintf(stderr, "offset %d >= max %d!\n", (xx_offset + xx_size), fs->buf_size * f->frame_size); BREAKPOINT(); } memmove(fs->buf, fs->buf + ((frames_read - frames_left) * f->frame_size), frames_left * f->frame_size); } #if (DEBUG >= 2) sciprintf("[soft-mixer] Leaving %d over\n", fs->frame_bufstart); #endif if (frames_read + delay_frames < frames_nr) { if (f->get_timestamp) /* Can resume? */ fs->pending_review = 1; else fs->mode = SFX_PCM_FEED_MODE_DEAD; /* Done. */ } } static int mix_process_linear(sfx_pcm_mixer_t *self) { ACQUIRE_LOCK(); { int src_i; /* source feed index counter */ int frames_skip; /* Number of frames to discard, rather than to emit */ int buflen = mix_compute_buf_len(self, &frames_skip); /* Compute # of frames we must compute and write */ int fake_buflen; int timestamp_max_delta = 0; int have_timestamp = 0; sfx_timestamp_t start_timestamp; /* The timestamp at which the first frame will be played */ sfx_timestamp_t min_timestamp; min_timestamp.secs = 0; sfx_timestamp_t timestamp; if (self->dev->get_output_timestamp) start_timestamp = self->dev->get_output_timestamp(self->dev); else { long sec, usec; sci_gettime(&sec, &usec); start_timestamp = sfx_new_timestamp(sec, usec, self->dev->conf.rate); } if ((P->outbuf) && (P->lastbuf_len)) { sfx_timestamp_t ts; int rv; if (P->have_outbuf_timestamp) { ts = sfx_timestamp_renormalise(P->outbuf_timestamp, self->dev->conf.rate); } rv = self->dev->output(self->dev, P->outbuf, P->lastbuf_len, (P->have_outbuf_timestamp) ? &ts : NULL); if (rv == SFX_ERROR) { RELEASE_LOCK(); return rv; /* error */ } } #if (DEBUG >= 1) if (self->feeds_nr) sciprintf("[soft-mixer] Mixing %d output frames on %d input feeds\n", buflen, self->feeds_nr); #endif if (self->feeds_nr && !P->paused) { /* Below, we read out all feeds in case we have to skip frames first, then get the ** most current sound. 'fake_buflen' is either the actual buflen (for the last iteration) ** or a fraction of the buf length to discard. */ do { if (frames_skip) { if (frames_skip > self->dev->buf_size) fake_buflen = self->dev->buf_size; else fake_buflen = frames_skip; frames_skip -= fake_buflen; } else { fake_buflen = buflen; frames_skip = -1; /* Mark us as being completely done */ } for (src_i = 0; src_i < self->feeds_nr; src_i++) { mix_compute_input_linear(self, src_i, fake_buflen, ×tamp, start_timestamp); if (timestamp.secs >= 0) { if (have_timestamp) { int diff = sfx_timestamp_usecs_diff(min_timestamp, timestamp); if (diff > 0) { /* New earlier timestamp */ timestamp = min_timestamp; timestamp_max_delta += diff; } else if (diff > timestamp_max_delta) timestamp_max_delta = diff; /* New max delta for timestamp */ } else { min_timestamp = timestamp; have_timestamp = 1; } } } /* Destroy all feeds we finished */ for (src_i = 0; src_i < self->feeds_nr; src_i++) if (self->feeds[src_i].mode == SFX_PCM_FEED_MODE_DEAD) _mix_unsubscribe(self, self->feeds[src_i].feed); } while (frames_skip >= 0); } else { /* Zero it out */ memset(P->compbuf_l, 0, sizeof(gint32) * buflen); memset(P->compbuf_r, 0, sizeof(gint32) * buflen); } #if (DEBUG >= 1) if (self->feeds_nr) sciprintf("[soft-mixer] Done mixing for this session, the result will be our next output buffer\n"); #endif #if (DEBUG >= 3) if (self->feeds_nr) { int i; sciprintf("[soft-mixer] Intermediate representation:\n"); for (i = 0; i < buflen; i++) sciprintf("[soft-mixer] Offset %d:\t[%04x:%04x]\t%d:%d\n", i, P->compbuf_l[i] & 0xffff, P->compbuf_r[i] & 0xffff, P->compbuf_l[i], P->compbuf_r[i]); } #endif if (timestamp_max_delta > TIMESTAMP_MAX_ALLOWED_DELTA) sciprintf("[soft-mixer] Warning: Difference in timestamps between audio feeds is %d us\n", timestamp_max_delta); mix_compute_output(self, buflen); P->lastbuf_len = buflen; /* Finalize */ mix_swap_buffers(self); if (have_timestamp) P->outbuf_timestamp = sfx_timestamp_add(min_timestamp, timestamp_max_delta >> 1); P->have_outbuf_timestamp = have_timestamp; } RELEASE_LOCK(); return SFX_OK; } static void mix_pause(sfx_pcm_mixer_t *self) { ACQUIRE_LOCK(); P->paused = 1; RELEASE_LOCK(); } static void mix_resume(sfx_pcm_mixer_t *self) { ACQUIRE_LOCK(); P->paused = 0; RELEASE_LOCK(); } sfx_pcm_mixer_t sfx_pcm_mixer_soft_linear = { "soft-linear", "0.1", mix_init, mix_exit, mix_subscribe, mix_pause, mix_resume, mix_process_linear, 0, 0, NULL, NULL, NULL }; sfx_pcm_mixer_t* getMixer() { return &sfx_pcm_mixer_soft_linear; } } // End of namespace Sci