/* ScummVM - Scumm Interpreter * 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. * */ #include "stdafx.h" #include "simon/sound.h" #include "common/file.h" #include "common/engine.h" SimonSound::SimonSound(const byte game, const GameSpecificSettings *gss, const char *gameDataPath, SoundMixer *mixer) { _game = game; _gameDataPath = gameDataPath; _mixer = mixer; _effects_paused = false; _ambient_paused = false; _voice_handle = 0; _effects_handle = 0; _ambient_handle = 0; _ambient_playing = 0; _voice_file = false; File *file = new File(); File *file2 = new File(); const char *s; // for simon2 mac/amiga, only read index file if (_game == GAME_SIMON2MAC) { file->open("voices.idx", gameDataPath); if (file->isOpen() == false) { warning("Can't open voice index file 'voices.idx'"); } else { file->seek(0, SEEK_END); int end = file->pos(); file->seek(0, SEEK_SET); _filenums = (uint16 *)malloc(end / 3 + 1); _offsets = (uint32 *)malloc((end / 6) * 4 + 1); for (int i = 1; i <= end / 6; i++) { _filenums[i] = file->readUint16BE(); _offsets[i] = file->readUint32BE(); } _voice_file = true; } } else { #ifdef USE_MAD file->open(gss->mp3_filename, gameDataPath); if (file->isOpen() == false) { #endif if (_game & GF_WIN) { s = gss->wav_filename; file->open(s, gameDataPath); if (file->isOpen() == false) { warning("Can't open voice file %s", s); } else { _voice_file = true; _voice = new WavSound(_mixer, file); } } else if (_game & GF_TALKIE) { s = gss->voc_filename; file->open(s, gameDataPath); if (file->isOpen() == false) { warning("Can't open voice file %s", s); } else { _voice_file = true; _voice = new VocSound(_mixer, file); } } #ifdef USE_MAD } else { _voice_file = true; _voice = new MP3Sound(_mixer, file); } #endif if (_game == GAME_SIMON1TALKIE) { #ifdef USE_MAD file2->open(gss->mp3_effects_filename, gameDataPath); if (file2->isOpen() == false) { #endif s = gss->voc_effects_filename; file2->open(s, gameDataPath); if (file2->isOpen() == false) { warning("Can't open effects file %s", s); } else { _effects = new VocSound(_mixer, file2); } #ifdef USE_MAD } else { _effects = new MP3Sound(_mixer, file2); } #endif } } } void SimonSound::readSfxFile(const char *filename, const char *gameDataPath) { stopAll(); File *file = new File(); file->open(filename, gameDataPath); if (file->isOpen() == false) { char *filename2; filename2 = (char *)malloc(strlen(filename) + 1); strcpy(filename2, filename); strcat(filename2, "."); file->open(filename2, gameDataPath); free(filename2); if (file->isOpen() == false) { if (atoi(filename + 6) != 1 && atoi(filename + 6) != 30) warning("readSfxFile: Can't load sfx file %s", filename); return; } } _effects = new WavSound(_mixer, file); } void SimonSound::loadSfxTable(File *gameFile, uint32 base) { stopAll(); if (_game & GF_WIN) _effects = new WavSound(_mixer, gameFile, base); else _effects = new VocSound(_mixer, gameFile, base); } void SimonSound::playVoice(uint sound) { if (_game == GAME_SIMON2MAC) { char filename[16]; sprintf(filename, "voices%d.dat", _filenums[sound]); File *file = new File(); file->open(filename, _gameDataPath); if (file->isOpen() == false) { warning("Can't open voice file %s", filename); } else { _voice = new WavSound(_mixer, file, _offsets); } } if (!_voice) return; _voice_index = _voice->playSound(sound, &_voice_handle); } void SimonSound::playEffects(uint sound) { if (!_effects) return; if (_effects_paused) return; _effects->playSound(sound, &_effects_handle); } void SimonSound::playAmbient(uint sound) { if (!_effects) return; if (sound == _ambient_playing) return; _ambient_playing = sound; if (_ambient_paused) return; if (_ambient_handle) _mixer->stop(_ambient_index); _ambient_index = _effects->playSound(sound, &_ambient_handle, SoundMixer::FLAG_LOOP); } bool SimonSound::hasVoice() { return _voice_file; } void SimonSound::stopVoice() { _mixer->stop(_voice_index); } void SimonSound::stopAll() { _mixer->stopAll(); _ambient_playing = 0; } void SimonSound::effectsPause(bool b) { _effects_paused = b; } void SimonSound::ambientPause(bool b) { _ambient_paused = b; if (_ambient_paused && _ambient_playing) { _mixer->stop(_ambient_index); } else if (_ambient_playing) { uint tmp = _ambient_playing; _ambient_playing = 0; playAmbient(tmp); } } /******************************************************************************/ SimonSound::Sound::Sound(SoundMixer *mixer, File *file, uint32 base) { _mixer = mixer; _file = file; uint res = 0; uint32 size; _file->seek(base + sizeof(uint32), SEEK_SET); size = _file->readUint32LE(); res = size / sizeof(uint32); _offsets = (uint32 *)malloc(size + sizeof(uint32)); _file->seek(base, SEEK_SET); if (_file->read(_offsets, size) != size) error("Can't read offsets"); for (uint i = 0; i < res; i++) { #if defined(SCUMM_BIG_ENDIAN) _offsets[i] = FROM_LE_32(_offsets[i]); #endif _offsets[i] += base; } /* only needed for mp3 */ _file->seek(0, SEEK_END); _offsets[res] = _file->pos(); } SimonSound::Sound::Sound(SoundMixer *mixer, File *file, uint32 *offsets) { _mixer = mixer; _file = file; _offsets = offsets; } #if !defined(__GNUC__) #pragma START_PACK_STRUCTS #endif struct WaveHeader { uint32 riff; uint32 unk; uint32 wave; uint32 fmt; uint32 size; uint16 format_tag; uint16 channels; uint32 samples_per_sec; uint32 avg_bytes; uint16 block_align; uint16 bits_per_sample; } GCC_PACK; struct VocHeader { uint8 desc[20]; uint16 datablock_offset; uint16 version; uint16 id; } GCC_PACK; struct VocBlockHeader { uint8 blocktype; uint8 size[3]; uint8 sr; uint8 pack; } GCC_PACK; #if !defined(__GNUC__) #pragma END_PACK_STRUCTS #endif #ifdef USE_MAD int SimonSound::MP3Sound::playSound(uint sound, PlayingSoundHandle *handle, byte flags) { if (_offsets == NULL) return 0; flags |= SoundMixer::FLAG_AUTOFREE; _file->seek(_offsets[sound], SEEK_SET); uint32 size = _offsets[sound+1] - _offsets[sound]; byte *buffer = (byte *)malloc(size); _file->read(buffer, size); return _mixer->playMP3(handle, buffer, size, flags); } #endif int SimonSound::VocSound::playSound(uint sound, PlayingSoundHandle *handle, byte flags) { if (_offsets == NULL) return 0; VocHeader voc_hdr; VocBlockHeader voc_block_hdr; uint32 size; flags |= SoundMixer::FLAG_UNSIGNED|SoundMixer::FLAG_AUTOFREE; _file->seek(_offsets[sound], SEEK_SET); if (_file->read(&voc_hdr, sizeof(voc_hdr)) != sizeof(voc_hdr) || strncmp((char *)voc_hdr.desc, "Creative Voice File\x1A", 10) != 0) { error("playVoc(%d): can't read voc header", sound); } _file->read(&voc_block_hdr, sizeof(voc_block_hdr)); size = voc_block_hdr.size[0] + (voc_block_hdr.size[1] << 8) + (voc_block_hdr.size[2] << 16) - 2; uint32 samples_per_sec; /* workaround for voc weakness */ if (voc_block_hdr.sr == 0xa6) { samples_per_sec = 11025; } else if (voc_block_hdr.sr == 0xd2) { samples_per_sec = 22050; } else { samples_per_sec = 1000000L / (256L - (long)voc_block_hdr.sr); warning("inexact sample rate used: %i", samples_per_sec); } byte *buffer = (byte *)malloc(size); _file->read(buffer, size); return _mixer->playRaw(handle, buffer, size, samples_per_sec, flags); } int SimonSound::WavSound::playSound(uint sound, PlayingSoundHandle *handle, byte flags) { if (_offsets == NULL) return 0; WaveHeader wave_hdr; uint32 data[2]; flags |= SoundMixer::FLAG_UNSIGNED|SoundMixer::FLAG_AUTOFREE; _file->seek(_offsets[sound], SEEK_SET); if (_file->read(&wave_hdr, sizeof(wave_hdr)) != sizeof(wave_hdr) || wave_hdr.riff != MKID('RIFF') || wave_hdr.wave != MKID('WAVE') || wave_hdr.fmt != MKID('fmt ') || READ_LE_UINT16(&wave_hdr.format_tag) != 1 || READ_LE_UINT16(&wave_hdr.channels) != 1 || READ_LE_UINT16(&wave_hdr.bits_per_sample) != 8) { error("playWav(%d): can't read RIFF header", sound); } _file->seek(FROM_LE_32(wave_hdr.size) - sizeof(wave_hdr) + 20, SEEK_CUR); data[0] = _file->readUint32LE(); data[1] = _file->readUint32LE(); if (//fread(data, sizeof(data), 1, sound_file) != 1 || data[0] != 'atad') { error("playWav(%d): can't read data header", sound); } byte *buffer = (byte *)malloc(data[1]); _file->read(buffer, data[1]); return _mixer->playRaw(handle, buffer, data[1], FROM_LE_32(wave_hdr.samples_per_sec), flags); }