/* ScummVM - Scumm Interpreter * Copyright (C) 2001 Ludvig Strigeus * Copyright (C) 2001/2002 The ScummVM project * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ #include "stdafx.h" #include "scumm.h" #include "cdmusic.h" #ifdef _WIN32_WCE extern void *bsearch(const void *, const void *, size_t, size_t, int (*x)(const void *, const void *)); #endif void Scumm::addSoundToQueue(int sound) { if(!(_features & GF_AFTER_V7)) { _vars[VAR_LAST_SOUND] = sound; ensureResourceLoaded(rtSound, sound); addSoundToQueue2(sound); } if(_features & GF_AUDIOTRACKS) warning("Requesting audio track: %d",sound); } void Scumm::addSoundToQueue2(int sound) { if (_soundQue2Pos < 10) { _soundQue2[_soundQue2Pos++] = sound; } } void Scumm::processSoundQues() { byte d; int i,j; int num; int16 data[16]; SoundEngine *se; processSfxQueues(); while (_soundQue2Pos){ d=_soundQue2[--_soundQue2Pos]; if (d) playSound(d); } for (i=0; i<_soundQuePos; ) { num = _soundQue[i++]; if (i + num > _soundQuePos) { warning("processSoundQues: invalid num value"); break; } for (j=0; j<16; j++) data[j] = 0; if (num>0) { for (j=0; j>8, data[0]&0xFF, data[1], data[2], data[3], data[4], data[5], data[6], data[7] ); #endif if(!(_features & GF_AFTER_V7)) { if (se) _vars[VAR_SOUNDRESULT] = (short)se->do_command(data[0],data[1],data[2],data[3],data[4],data[5],data[6],data[7]); } } } _soundQuePos = 0; } void Scumm::playSound(int sound) { byte *ptr; SoundEngine *se = (SoundEngine*)_soundEngine; ptr = getResourceAddress(rtSound, sound); if (ptr != NULL && READ_UINT32_UNALIGNED(ptr) == MKID('SOUN')) { ptr += 8; cd_play(this, ptr[16], ptr[17] == 0xff ? -1 : ptr[17], (ptr[18] * 60 + ptr[19]) * 75 + ptr[20], 0); current_cd_sound = sound; return; } if (_features & GF_OLD256) return; /* FIXME */ if (se) { getResourceAddress(rtSound, sound); se->start_sound(sound); } } void Scumm::processSfxQueues() { Actor *a; int act; bool b,finished; if (_talk_sound_mode != 0) { startTalkSound(_talk_sound_a, _talk_sound_b, _talk_sound_mode); _talk_sound_mode = 0; } if (_sfxMode==2) { act = _vars[VAR_TALK_ACTOR]; finished = isSfxFinished(); if (act!=0 && (uint)act<0x80 && !string[0].no_talk_anim) { a = derefActorSafe(act, "processSfxQueues"); if (a->room==_currentRoom && (finished || !_endOfMouthSync)) { b = true; if (!finished) b = isMouthSyncOff(_curSoundPos); if (_mouthSyncMode != b) { _mouthSyncMode = b; startAnimActor(a, b ? a->talkFrame2 : a->talkFrame1); } } } if (finished && _talkDelay==0) { stopTalk(); _sfxMode = 0; } } else if (_sfxMode==1) { if (isSfxFinished()) { _sfxMode = 0; } } } #ifdef COMPRESSED_SOUND_FILE static int compar(const void *a, const void *b) { return ((MP3OffsetTable *) a)->org_offset - ((MP3OffsetTable *) b)->org_offset; } #endif void Scumm::startTalkSound(uint32 offset, uint32 b, int mode) { int num = 0, i; byte file_byte,file_byte_2; int size; if (!_sfxFile) { warning("startTalkSound: SFX file is not open"); return; } if (b>8) { num = (b-8)>>1; } #ifdef COMPRESSED_SOUND_FILE if (offset_table != NULL) { MP3OffsetTable *result = NULL, key; key.org_offset = offset; result = (MP3OffsetTable *) bsearch(&key, offset_table, num_sound_effects, sizeof(MP3OffsetTable), compar); if (result == NULL) { warning("startTalkSound: did not find sound at offset %d !", offset); return; } if (2 * num != result->num_tags) { warning("startTalkSound: number of tags do not match (%d - %d) !", b, result->num_tags); num = result->num_tags; } offset = result->new_offset; size = result->compressed_size; } else #endif { offset += 8; size = -1; } fileSeek((FILE*)_sfxFile, offset, SEEK_SET); i = 0; while (num > 0) { fileRead((FILE*)_sfxFile, &file_byte, sizeof(file_byte)); fileRead((FILE*)_sfxFile, &file_byte_2, sizeof(file_byte_2)); _mouthSyncTimes[i++] = file_byte | (file_byte_2<<8); num--; } _mouthSyncTimes[i] = 0xFFFF; _sfxMode = mode; _curSoundPos = 0; _mouthSyncMode = true; startSfxSound(_sfxFile, size); } void Scumm::stopTalkSound() { if (_sfxMode==2) { stopSfxSound(); _sfxMode = 0; } } bool Scumm::isMouthSyncOff(uint pos) { uint j; bool val = true; uint16 *ms = _mouthSyncTimes; _endOfMouthSync = false; do { val ^= 1; j = *ms++; if (j==0xFFFF) { _endOfMouthSync = true; break; } } while (pos > j); return val; } int Scumm::isSoundRunning(int sound) { SoundEngine *se; int i; if (sound == current_cd_sound) return cd_is_running(); i = _soundQue2Pos; while (i--) { if (_soundQue2[i] == sound) return 1; } if (isSoundInQueue(sound)) return 1; if (!isResourceLoaded(rtSound, sound)) return 0; se = (SoundEngine*)_soundEngine; if (!se) return 0; return se->get_sound_status(sound); } bool Scumm::isSoundInQueue(int sound) { int i = 0,j, num; int16 table[16]; while (i < _soundQuePos) { num = _soundQue[i++]; memset(table, 0, sizeof(table)); if (num > 0) { for (j=0; jstop_sound(a); for (i=0; i<10; i++) if (_soundQue2[i] == (byte)a) _soundQue2[i] = 0; } void Scumm::stopAllSounds() { SoundEngine *se = (SoundEngine*)_soundEngine; if (current_cd_sound != 0) { current_cd_sound = 0; cd_stop(); } if (se) { se->stop_all_sounds(); se->clear_queue(); } clearSoundQue(); stopSfxSound(); } void Scumm::clearSoundQue() { _soundQue2Pos = 0; memset(_soundQue2, 0, sizeof(_soundQue2)); } void Scumm::soundKludge(int16 *list) { int16 *ptr; int i; if (list[0]==-1) { processSoundQues(); return; } _soundQue[_soundQuePos++] = 8; ptr = _soundQue + _soundQuePos; _soundQuePos += 8; for (i=0; i<8; i++) *ptr++ = list[i]; if (_soundQuePos > 0x100) error("Sound que buffer overflow"); } void Scumm::talkSound(uint32 a, uint32 b, int mode) { _talk_sound_a = a; _talk_sound_b = b; _talk_sound_mode = mode; } /* The sound code currently only supports General Midi. * General Midi is used in Day Of The Tentacle. * Roland music is also playable, but doesn't sound well. * A mapping between roland instruments and GM instruments * is needed. */ void Scumm::setupSound() { SoundEngine *se = (SoundEngine*)_soundEngine; SOUND_DRIVER_TYPE *driver = se->driver(); if (se) { se->setBase(res.address[rtSound]); if (se->get_music_volume() == 0) se->set_music_volume(60); se->set_master_volume(125); _sound_volume_sfx = 100; _sound_volume_music = se->get_music_volume(); _sound_volume_master = (se->get_master_volume() / 127); driver->midiSetDriver(_midi_driver); } _sfxFile = openSfxFile(); } void Scumm::pauseSounds(bool pause) { SoundEngine *se = (SoundEngine*)_soundEngine; if (se) se->pause(pause); _soundsPaused = pause; } enum { SOUND_HEADER_SIZE = 26, SOUND_HEADER_BIG_SIZE = 26+8, }; void Scumm::startSfxSound(void *file, int file_size) { char ident[8]; int block_type; byte work[8]; uint size = 0,i; int rate,comp; byte *data; #ifdef COMPRESSED_SOUND_FILE if (file_size > 0) { data = (byte *) calloc(file_size + MAD_BUFFER_GUARD, 1); if (fread(data, file_size, 1, (FILE*) file) != 1) { /* no need to free the memory since error will shut down */ error("startSfxSound: cannot read %d bytes", size); return; } playSfxSound_MP3(data, file_size); return; } #endif if ( fread(ident, 8, 1, (FILE*)file) != 1) goto invalid; if (!memcmp(ident, "VTLK", 4)) { fseek((FILE*)file, SOUND_HEADER_BIG_SIZE - 8, SEEK_CUR); } else if (!memcmp(ident, "Creative", 8)) { fseek((FILE*)file, SOUND_HEADER_SIZE - 8, SEEK_CUR); } else { invalid:; warning("startSfxSound: invalid header"); return; } block_type = getc( (FILE*)file ); if (block_type != 1) { warning("startSfxSound: Expecting block_type == 1, got %d", block_type); return; } fread(work, 3, 1, (FILE*)file); size = ( work[0] | ( work[1] << 8 ) | ( work[2] << 16 ) ) - 2; rate = getc( (FILE*)file ); comp = getc( (FILE*)file ); if (comp != 0) { warning("startSfxSound: Unsupported compression type %d", comp); return; } data = (byte*) malloc(size); if (data==NULL) { error("startSfxSound: out of memory"); return; } if (fread(data, size, 1, (FILE*)file) != 1) { /* no need to free the memory since error will shut down */ error("startSfxSound: cannot read %d bytes", size); return; } for(i=0;i.sou first, eg tentacle.sou. * That way, you can keep .sou files for multiple games in the * same directory */ #ifdef COMPRESSED_SOUND_FILE offset_table = NULL; sprintf(buf, "%s%s.so3", _gameDataPath, _exe_name); file = fopen(buf, "rb"); if (!file) { sprintf(buf, "%smonster.so3", _gameDataPath); file = fopen(buf, "rb"); } if (file != NULL) { /* Now load the 'offset' index in memory to be able to find the MP3 data The format of the .SO3 file is easy : - number of bytes of the 'index' part - N times the following fields (4 bytes each) : + offset in the original sound file + offset of the MP3 data in the .SO3 file WITHOUT taking into account the index field and the 'size' field + the number of 'tags' + the size of the MP3 data - and then N times : + the tags + the MP3 data */ int size, compressed_offset; MP3OffsetTable *cur; compressed_offset = get_int(file); offset_table = (MP3OffsetTable *) malloc(compressed_offset); num_sound_effects = compressed_offset / 16; size = compressed_offset; cur = offset_table; while (size > 0) { cur[0].org_offset = get_int(file); cur[0].new_offset = get_int(file) + compressed_offset + 4; /* The + 4 is to take into accound the 'size' field */ cur[0].num_tags = get_int(file); cur[0].compressed_size = get_int(file); size -= 4 * 4; cur++; } return file; } #endif sprintf(buf, "%s%s.sou", _gameDataPath, _exe_name); file = fopen(buf, "rb"); if (!file) { sprintf(buf, "%smonster.sou", _gameDataPath); file = fopen(buf, "rb"); } return file; } MixerChannel *Scumm::allocateMixer() { int i; MixerChannel *mc = _mixer_channel; for(i=0; i_sfx_sound) return mc; } return NULL; } void Scumm::stopSfxSound() { MixerChannel *mc = _mixer_channel; int i; for(i=0; i_sfx_sound) mc->clear(); } } bool Scumm::isSfxFinished() { int i; for(i=0; itype = MIXER_MP3; mc->_sfx_sound = sound; mad_stream_init(&mc->sound_data.mp3.stream); #ifdef _WIN32_WCE // 11 kHz on WinCE mad_stream_options((mad_stream*)&mc->sound_data.mp3.stream, MAD_OPTION_HALFSAMPLERATE); #endif mad_frame_init(&mc->sound_data.mp3.frame); mad_synth_init(&mc->sound_data.mp3.synth); mc->sound_data.mp3.position = 0; mc->sound_data.mp3.pos_in_frame = 0xFFFFFFFF; mc->sound_data.mp3.size = size; /* This variable is the number of samples to cut at the start of the MP3 file. This is needed to have lip-sync as the MP3 file have some miliseconds of blank at the start (as, I suppose, the MP3 compression algorithm need to have some silence at the start to really be efficient and to not distort too much the start of the sample). This value was found by experimenting out. If you recompress differently your .SO3 file, you may have to change this value. When using Lame, it seems that the sound starts to have some volume about 50 ms from the start of the sound => we skip about 1024 samples. */ mc->sound_data.mp3.silence_cut = 1024; } #endif void Scumm::playBundleSound(char *sound) { warning("playBundleSound: %s", sound); } void Scumm::playSfxSound(void *sound, uint32 size, uint rate) { MixerChannel *mc = allocateMixer(); if (!mc) { warning("No mixer channel available"); return; } mc->type = MIXER_STANDARD; mc->_sfx_sound = sound; mc->sound_data.standard._sfx_pos = 0; mc->sound_data.standard._sfx_fp_pos = 0; #ifdef _WIN32_WCE mc->sound_data.standard._sfx_fp_speed = (1<<16) * rate / 11025; #else mc->sound_data.standard._sfx_fp_speed = (1<<16) * rate /22050; #endif while (size&0xFFFF0000) size>>=1, rate>>=1; #ifdef _WIN32_WCE mc->sound_data.standard._sfx_size = size * 11025 / rate; #else mc->sound_data.standard._sfx_size = size * 22050 / rate; #endif } #ifdef COMPRESSED_SOUND_FILE static inline int scale_sample(mad_fixed_t sample) { /* round */ sample += (1L << (MAD_F_FRACBITS - 16)); /* clip */ if (sample >= MAD_F_ONE) sample = MAD_F_ONE - 1; else if (sample < -MAD_F_ONE) sample = -MAD_F_ONE; /* quantize and scale to not saturate when mixing a lot of channels */ return sample >> (MAD_F_FRACBITS + 2 - 16); } #endif void MixerChannel::mix(int16 *data, uint32 len) { if (!_sfx_sound) return; #ifdef COMPRESSED_SOUND_FILE if (type == MIXER_STANDARD) { #endif int8 *s; uint32 fp_pos, fp_speed; if (len > sound_data.standard._sfx_size) len = sound_data.standard._sfx_size; sound_data.standard._sfx_size -= len; s = (int8*)_sfx_sound + sound_data.standard._sfx_pos; fp_pos = sound_data.standard._sfx_fp_pos; fp_speed = sound_data.standard._sfx_fp_speed; do { fp_pos += fp_speed; *data++ += (*s<<6); s += fp_pos >> 16; fp_pos &= 0x0000FFFF; } while (--len); sound_data.standard._sfx_pos = s - (int8*)_sfx_sound; sound_data.standard._sfx_fp_speed = fp_speed; sound_data.standard._sfx_fp_pos = fp_pos; if (!sound_data.standard._sfx_size) clear(); #ifdef COMPRESSED_SOUND_FILE } else { if (type == MIXER_MP3) { mad_fixed_t const *ch; while (1) { ch = sound_data.mp3.synth.pcm.samples[0] + sound_data.mp3.pos_in_frame; while ((sound_data.mp3.pos_in_frame < sound_data.mp3.synth.pcm.length) && (len > 0)) { if (sound_data.mp3.silence_cut > 0) { sound_data.mp3.silence_cut--; } else { *data++ += scale_sample(*ch++); len--; } sound_data.mp3.pos_in_frame++; } if (len == 0) return; if (sound_data.mp3.position >= sound_data.mp3.size) { clear(); return; } mad_stream_buffer(&sound_data.mp3.stream, ((unsigned char *) _sfx_sound) + sound_data.mp3.position, sound_data.mp3.size + MAD_BUFFER_GUARD - sound_data.mp3.position); if (mad_frame_decode(&sound_data.mp3.frame, &sound_data.mp3.stream) == -1) { /* End of audio... */ if (sound_data.mp3.stream.error == MAD_ERROR_BUFLEN) { clear(); return; } else if (!MAD_RECOVERABLE(sound_data.mp3.stream.error)) { error("MAD frame decode error !"); } } mad_synth_frame(&sound_data.mp3.synth, &sound_data.mp3.frame); sound_data.mp3.pos_in_frame = 0; sound_data.mp3.position = (unsigned char *) sound_data.mp3.stream.next_frame - (unsigned char *) _sfx_sound; } } else if (type == MIXER_MP3_CDMUSIC) { mad_fixed_t const *ch; mad_timer_t frame_duration; static long last_pos = 0; if (!sound_data.mp3_cdmusic.playing) return; while (1) { // See if we just skipped if (ftell(sound_data.mp3_cdmusic.file) != last_pos) { int skip_loop; // Read the new data memset(_sfx_sound, 0, sound_data.mp3_cdmusic.buffer_size + MAD_BUFFER_GUARD); sound_data.mp3_cdmusic.size = fread(_sfx_sound, 1, sound_data.mp3_cdmusic.buffer_size, sound_data.mp3_cdmusic.file); if (!sound_data.mp3_cdmusic.size) { sound_data.mp3_cdmusic.playing = false; return; } last_pos = ftell(sound_data.mp3_cdmusic.file); // Resync mad_stream_buffer(&sound_data.mp3_cdmusic.stream, (unsigned char*)_sfx_sound, sound_data.mp3_cdmusic.size ); skip_loop = 2; while (skip_loop != 0) { if (mad_frame_decode(&sound_data.mp3_cdmusic.frame, &sound_data.mp3_cdmusic.stream) == 0) { /* Do not decrease duration - see if it's a problem */ skip_loop--; if (skip_loop == 0) { mad_synth_frame(&sound_data.mp3_cdmusic.synth, &sound_data.mp3_cdmusic.frame); } } else { if (!MAD_RECOVERABLE(sound_data.mp3_cdmusic.stream.error)) { debug(1, "Unrecoverable error while skipping !"); sound_data.mp3_cdmusic.playing = false; return; } } } // We are supposed to be in synch mad_frame_mute(&sound_data.mp3_cdmusic.frame); mad_synth_mute(&sound_data.mp3_cdmusic.synth); // Resume decoding if (mad_frame_decode(&sound_data.mp3_cdmusic.frame, &sound_data.mp3_cdmusic.stream) == 0) { sound_data.mp3_cdmusic.position = (unsigned char *)sound_data.mp3_cdmusic.stream.next_frame - (unsigned char *)_sfx_sound; sound_data.mp3_cdmusic.pos_in_frame = 0; } else { sound_data.mp3_cdmusic.playing = false; return; } } // Get samples, play samples ... ch = sound_data.mp3_cdmusic.synth.pcm.samples[0] + sound_data.mp3_cdmusic.pos_in_frame; while ((sound_data.mp3_cdmusic.pos_in_frame < sound_data.mp3_cdmusic.synth.pcm.length) && (len > 0)) { *data++ += scale_sample(*ch++); len--; sound_data.mp3_cdmusic.pos_in_frame++; } if (len == 0) { return; } // See if we have finished // May be incorrect to check the size at the end of a frame but I suppose // they are short enough :) frame_duration = sound_data.mp3_cdmusic.frame.header.duration; mad_timer_negate(&frame_duration); mad_timer_add(&sound_data.mp3_cdmusic.duration, frame_duration); if (mad_timer_compare(sound_data.mp3_cdmusic.duration, mad_timer_zero) < 0) { sound_data.mp3_cdmusic.playing = false; } if (mad_frame_decode(&sound_data.mp3_cdmusic.frame, &sound_data.mp3_cdmusic.stream) == -1) { if (sound_data.mp3_cdmusic.stream.error == MAD_ERROR_BUFLEN) { int not_decoded; if (!sound_data.mp3_cdmusic.stream.next_frame) { memset(_sfx_sound, 0, sound_data.mp3_cdmusic.buffer_size + MAD_BUFFER_GUARD); sound_data.mp3_cdmusic.size = fread(_sfx_sound, 1, sound_data.mp3_cdmusic.buffer_size, sound_data.mp3_cdmusic.file); sound_data.mp3_cdmusic.position = 0; not_decoded = 0; } else { not_decoded = sound_data.mp3_cdmusic.stream.bufend - sound_data.mp3_cdmusic.stream.next_frame; memcpy(_sfx_sound, sound_data.mp3_cdmusic.stream.next_frame, not_decoded); sound_data.mp3_cdmusic.size = fread((unsigned char*)_sfx_sound + not_decoded, 1, sound_data.mp3_cdmusic.buffer_size - not_decoded, sound_data.mp3_cdmusic.file); } last_pos = ftell(sound_data.mp3_cdmusic.file); sound_data.mp3_cdmusic.stream.error = MAD_ERROR_NONE; // Restream mad_stream_buffer(&sound_data.mp3_cdmusic.stream, (unsigned char*)_sfx_sound, sound_data.mp3_cdmusic.size + not_decoded ); if (mad_frame_decode(&sound_data.mp3_cdmusic.frame, &sound_data.mp3_cdmusic.stream) == -1) { debug(1, "Error decoding after restream %d !", sound_data.mp3.stream.error); } } else if (!MAD_RECOVERABLE(sound_data.mp3.stream.error)) { error("MAD frame decode error in MP3 CDMUSIC !"); } } mad_synth_frame(&sound_data.mp3_cdmusic.synth, &sound_data.mp3_cdmusic.frame); sound_data.mp3_cdmusic.pos_in_frame = 0; sound_data.mp3_cdmusic.position = (unsigned char *)sound_data.mp3_cdmusic.stream.next_frame - (unsigned char *)_sfx_sound; } } } #endif } void MixerChannel::clear() { free(_sfx_sound); _sfx_sound = NULL; #ifdef COMPRESSED_SOUND_FILE if (type == MIXER_MP3) { mad_synth_finish(&sound_data.mp3.synth); mad_frame_finish(&sound_data.mp3.frame); mad_stream_finish(&sound_data.mp3.stream); } #endif } void Scumm::mixWaves(int16 *sounds, int len) { int i; memset(sounds, 0,len * sizeof(int16)); if (_soundsPaused) return; SoundEngine *se = (SoundEngine*)_soundEngine; if (se) { se->driver()->generate_samples(sounds, len); } for(i=NUM_MIXER-1; i>=0;i--) { _mixer_channel[i].mix(sounds, len); } if (_soundsPaused2) memset(sounds, 0x0, len * sizeof(int16)); }