/* ScummVM - Scumm Interpreter * Copyright (C) 2002-2003 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/smush/channel.h" #include "scumm/smush/chunk.h" #include "scumm/smush/chunk_type.h" namespace Scumm { ImuseChannel::ImuseChannel(int32 track, int32 freq) : _track(track), _tbuffer(0), _tbufferSize(0), _sbuffer(0), _sbufferSize(0), _frequency(freq), _dataSize(-1), _inData(false) { } ImuseChannel::~ImuseChannel() { if (_tbuffer) { delete []_tbuffer; } if (_sbuffer) { warning("_sbuffer should be 0 !!!"); delete []_sbuffer; } } bool ImuseChannel::isTerminated() const { return (_dataSize <= 0 && _sbuffer == 0); } bool ImuseChannel::setParameters(int32 nb, int32 size, int32 flags, int32 unk1) { // flags: 0 - 8 bits // values: // 1 - Voice // 2 - Background music // 0, 3-511 - SFX and volume // FIXME: this should be better if ((flags != 1) && (flags != 2) && ((flags / 4) != 0)) { _volume = 300 - ((flags / 8) * 4); } else { _volume = 127; } return true; } bool ImuseChannel::checkParameters(int32 index, int32 nbframes, int32 size, int32 track_flags, int32 unk1) { return true; } bool ImuseChannel::appendData(Chunk &b, int32 size) { if (_dataSize == -1) { assert(size > 8); Chunk::type imus_type = b.getDword(); imus_type = SWAP_BYTES_32(imus_type); uint32 imus_size = b.getDword(); imus_size = SWAP_BYTES_32(imus_size); if (imus_type != TYPE_iMUS) error("Invalid Chunk for imuse_channel"); size -= 8; _tbufferSize = size; assert(_tbufferSize); _tbuffer = new byte[_tbufferSize]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); b.read(_tbuffer, size); _dataSize = -2; } else { if (_tbuffer) { byte *old = _tbuffer; int32 new_size = size + _tbufferSize; _tbuffer = new byte[new_size]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); memcpy(_tbuffer, old, _tbufferSize); delete []old; b.read(_tbuffer + _tbufferSize, size); _tbufferSize += size; } else { _tbufferSize = size; _tbuffer = new byte[_tbufferSize]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); b.read(_tbuffer, size); } } return processBuffer(); } bool ImuseChannel::handleFormat(Chunk &src) { if (src.getSize() != 20) error("invalid size for FRMT Chunk"); uint32 imuse_start = src.getDword(); imuse_start = SWAP_BYTES_32(imuse_start); src.seek(4); _bitsize = src.getDword(); _bitsize = SWAP_BYTES_32(_bitsize); _rate = src.getDword(); _rate = SWAP_BYTES_32(_rate); _channels = src.getDword(); _channels = SWAP_BYTES_32(_channels); assert(_channels == 1 || _channels == 2); return true; } bool ImuseChannel::handleText(Chunk &src) { return true; } bool ImuseChannel::handleRegion(Chunk &src) { if (src.getSize() != 8) error("invalid size for REGN Chunk"); return true; } bool ImuseChannel::handleStop(Chunk &src) { if (src.getSize() != 4) error("invalid size for STOP Chunk"); return true; } bool ImuseChannel::handleMap(Chunk &map) { while (!map.eof()) { Chunk *sub = map.subBlock(); switch(sub->getType()) { case TYPE_FRMT: handleFormat(*sub); break; case TYPE_TEXT: handleText(*sub); break; case TYPE_REGN: handleRegion(*sub); break; case TYPE_STOP: handleStop(*sub); break; default: error("Unknown iMUS subChunk found : %s, %d", Chunk::ChunkString(sub->getType()), sub->getSize()); } delete sub; } return true; } void ImuseChannel::decode() { int remaining_size = _sbufferSize % 3; if (remaining_size) { _srbufferSize -= remaining_size; assert(_inData); if (_tbuffer == 0) { _tbuffer = new byte[remaining_size]; memcpy(_tbuffer, _sbuffer + _sbufferSize - remaining_size, remaining_size); _tbufferSize = remaining_size; _sbufferSize -= remaining_size; } else { debug(2, "impossible ! : %p, %d, %d, %p(%d), %p(%d, %d)", this, _dataSize, _inData, _tbuffer, _tbufferSize, _sbuffer, _sbufferSize, _srbufferSize); byte *old = _tbuffer; int new_size = remaining_size + _tbufferSize; _tbuffer = new byte[new_size]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); memcpy(_tbuffer, old, _tbufferSize); delete []old; memcpy(_tbuffer + _tbufferSize, _sbuffer + _sbufferSize - remaining_size, remaining_size); _tbufferSize += remaining_size; } } int loop_size = _sbufferSize / 3; int new_size = loop_size * 2; byte *keep, *decoded; uint32 value; keep = decoded = new byte[new_size * 2]; assert(keep); unsigned char * source = _sbuffer; while (loop_size--) { byte v1 = *source++; byte v2 = *source++; byte v3 = *source++; value = ((((v2 & 0x0f) << 8) | v1) << 4) - 0x8000; *decoded++ = (byte)((value >> 8) & 0xff); *decoded++ = (byte)(value & 0xff); value = ((((v2 & 0xf0) << 4) | v3) << 4) - 0x8000; *decoded++ = (byte)((value >> 8) & 0xff); *decoded++ = (byte)(value & 0xff); } delete []_sbuffer; _sbuffer = (byte *)keep; _sbufferSize = new_size * sizeof(int16); } bool ImuseChannel::handleSubTags(int32 &offset) { if (_tbufferSize - offset >= 8) { Chunk::type type = READ_BE_UINT32(_tbuffer + offset); uint32 size = READ_BE_UINT32(_tbuffer + offset + 4); uint32 available_size = _tbufferSize - offset; switch(type) { case TYPE_MAP_: _inData = false; if (available_size >= (size + 8)) { MemoryChunk c((byte *)_tbuffer + offset); handleMap(c); } break; case TYPE_DATA: _inData = true; _dataSize = size; offset += 8; { int reqsize = 1; if (_channels == 2) reqsize *= 2; if (_bitsize == 16) reqsize *= 2; else if (_bitsize == 12) { if (reqsize > 1) reqsize = reqsize * 3 / 2; else reqsize = 3; } if ((size % reqsize) != 0) { debug(2, "Invalid iMUS sound data size : (%d %% %d) != 0, correcting...", size, reqsize); size += 3 - (size % reqsize); } } return false; default: error("unknown Chunk in iMUS track : %s ", Chunk::ChunkString(type)); } offset += size + 8; return true; } return false; } bool ImuseChannel::processBuffer() { assert(_tbuffer != 0); assert(_tbufferSize != 0); assert(_sbuffer == 0); assert(_sbufferSize == 0); if (_inData) { if (_dataSize < _tbufferSize) { int32 offset= _dataSize; while (handleSubTags(offset)); _sbufferSize = _dataSize; _sbuffer = _tbuffer; if (offset < _tbufferSize) { int32 new_size = _tbufferSize - offset; _tbuffer = new byte[new_size]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); memcpy(_tbuffer, _sbuffer + offset, new_size); _tbufferSize = new_size; } else { _tbuffer = 0; _tbufferSize = 0; } if (_sbufferSize == 0) { delete []_sbuffer; _sbuffer = 0; } } else { _sbufferSize = _tbufferSize; _sbuffer = _tbuffer; _tbufferSize = 0; _tbuffer = 0; } } else { int32 offset = 0; while (handleSubTags(offset)); if (_inData) { _sbufferSize = _tbufferSize - offset; assert(_sbufferSize); _sbuffer = new byte[_sbufferSize]; if (!_sbuffer) error("imuse_channel failed to allocate memory"); memcpy(_sbuffer, _tbuffer + offset, _sbufferSize); delete []_tbuffer; _tbuffer = 0; _tbufferSize = 0; } else { if (offset) { byte * old = _tbuffer; int32 new_size = _tbufferSize - offset; _tbuffer = new byte[new_size]; if (!_tbuffer) error("imuse_channel failed to allocate memory"); memcpy(_tbuffer, old + offset, new_size); _tbufferSize = new_size; delete []old; } } } _srbufferSize = _sbufferSize; if (_sbuffer && _bitsize == 12) decode(); return true; } int32 ImuseChannel::availableSoundData(void) const { int32 ret = _sbufferSize; if (_channels == 2) ret /= 2; if (_bitsize > 8) ret /= 2; return ret; } void ImuseChannel::getSoundData(int16 *snd, int32 size) { if (_dataSize <= 0 || _bitsize <= 8) error("invalid call to imuse_channel::read_sound_data()"); if (_channels == 2) size *= 2; byte * buf = (byte*)snd; for (int32 i = 0; i < size; i++){ byte sample1 = *(_sbuffer + i * 2); byte sample2 = *(_sbuffer + i * 2 + 1); uint16 sample = (uint16)(((int16)((sample1 << 8) | sample2) * _volume) >> 8); buf[i * 2 + 0] = (byte)(sample >> 8); buf[i * 2 + 1] = (byte)(sample & 0xff); } delete []_sbuffer; assert(_sbufferSize == 2 * size); _sbuffer = 0; _sbufferSize = 0; _dataSize -= _srbufferSize; } void ImuseChannel::getSoundData(int8 *snd, int32 size) { if (_dataSize <= 0 || _bitsize > 8) error("invalid call to imuse_channel::read_sound_data()"); if (_channels == 2) size *= 2; for (int32 i = 0; i < size; i++){ snd[i] = (int8)(((int8)(_sbuffer[i] ^ 0x80) * _volume) >> 8) ^ 0x80; } delete []_sbuffer; _sbuffer = 0; _sbufferSize = 0; _dataSize -= _srbufferSize; } } // End of namespace Scumm