/* 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 3 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, see . * */ #include "common/memstream.h" #include "common/stream.h" #include "common/substream.h" #include "image/ani.h" namespace Image { AniDecoder::Metadata::Metadata() : numFrames(0), numSteps(0), width(0), height(0), bitCount(0), numPlanes(0), perFrameDelay(0), haveSeqData(false), isCURFormat(false) { } AniDecoder::FrameDef::FrameDef() : delay(0), imageIndex(0) { } AniDecoder::AniDecoder() : _stream(nullptr), _disposeAfterUse(DisposeAfterUse::NO) { } AniDecoder::~AniDecoder() { close(); } void AniDecoder::close() { if (_disposeAfterUse == DisposeAfterUse::YES && _stream != nullptr) delete _stream; _stream = nullptr; } const AniDecoder::Metadata &AniDecoder::getMetadata() const { return _metadata; } AniDecoder::FrameDef AniDecoder::getSequenceFrame(uint sequenceIndex) const { FrameDef frameDef; if (sequenceIndex >= _rateData.size()) frameDef.delay = _metadata.perFrameDelay; else frameDef.delay = _rateData[sequenceIndex]; if (sequenceIndex >= _seqData.size()) frameDef.imageIndex = sequenceIndex; else frameDef.imageIndex = _seqData[sequenceIndex]; return frameDef; } Common::SeekableReadStream *AniDecoder::openImageStream(uint imageIndex) const { if (imageIndex >= _frameDataLocations.size()) error("Invalid ANI image index"); const FrameDataRange &frameDataRange = _frameDataLocations[imageIndex]; return new Common::SafeSeekableSubReadStream(_stream, frameDataRange.pos, frameDataRange.pos + frameDataRange.size); } bool AniDecoder::open(Common::SeekableReadStream &stream, DisposeAfterUse::Flag disposeAfterUse) { close(); _stream = &stream; _disposeAfterUse = disposeAfterUse; bool loadedOK = load(); if (!loadedOK) close(); return loadedOK; } bool AniDecoder::load() { if (!parseRIFFChunks(*_stream, Common::Functor2Mem(this, &AniDecoder::parseTopLevelChunk))) { warning("AniDecoder::load: Failed to load ANI container"); return false; } return true; } bool AniDecoder::parseRIFFChunks(Common::SeekableReadStream &stream, const RIFFChunkParseFunc_t &callback) { int64 nextChunkStartPos = 0; int64 endPos = stream.size(); while (nextChunkStartPos < endPos) { if (!stream.seek(nextChunkStartPos)) { warning("AniDecoder::parseRIFFChunks: Failed to reset to start of RIFF chunk"); return false; } byte riffChunkHeader[8]; if (stream.read(riffChunkHeader, 8) != 8) { warning("AniDecoder::parseRIFFChunks: Failed to read RIFF chunk header"); return false; } uint32 chunkSize = READ_LE_UINT32(riffChunkHeader + 4); int64 actualChunkSize = chunkSize; if (chunkSize & 1) actualChunkSize++; int64 chunkAvailable = stream.size() - stream.pos(); if (chunkAvailable < actualChunkSize) { warning("AniDecoder::parseRIFFChunk: RIFF chunk is too large"); return false; } RIFFChunkDef chunkDef; chunkDef.id = READ_BE_UINT32(riffChunkHeader); chunkDef.size = chunkSize; Common::SeekableSubReadStream substream(&stream, static_cast(stream.pos()), static_cast(stream.pos()) + chunkSize); if (!callback(chunkDef, substream)) return false; nextChunkStartPos += actualChunkSize + 8; } return true; } bool AniDecoder::parseRIFFContainer(Common::SeekableReadStream &chunkStream, const RIFFChunkDef &chunkDef, const RIFFContainerParseFunc_t &callback) { if (chunkDef.size < 4) { warning("AniDecoder::parseRIFFContainer: RIFF container is too small"); return false; } byte containerTypeID[4]; if (chunkStream.read(containerTypeID, 4) != 4) { warning("AniDecoder::parseRIFFContainer: Failed to read RIFF container type"); return false; } RIFFContainerDef containerDef; containerDef.id = READ_BE_UINT32(containerTypeID); containerDef.size = chunkDef.size - 4; Common::SeekableSubReadStream substream(&chunkStream, 4, chunkDef.size); return callback(containerDef, substream); } bool AniDecoder::parseTopLevelChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { if (chunk.id != MKTAG('R', 'I', 'F', 'F')) { warning("AniDecoder::parseTopLevelChunk: Top-level chunk isn't RIFF"); return false; } return parseRIFFContainer(stream, chunk, Common::Functor2Mem(this, &AniDecoder::parseTopLevelContainer)); } bool AniDecoder::parseTopLevelContainer(const RIFFContainerDef &container, Common::SeekableReadStream &stream) { if (container.id == MKTAG('A', 'C', 'O', 'N')) return parseRIFFChunks(stream, Common::Functor2Mem(this, &AniDecoder::parseSecondLevelChunk)); warning("AniDecoder::parseTopLevelContainer: Top-level container isn't ACON"); return false; } bool AniDecoder::parseSecondLevelChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { if (chunk.id == MKTAG('L', 'I', 'S', 'T')) return parseRIFFContainer(stream, chunk, Common::Functor2Mem(this, &AniDecoder::parseListContainer)); if (chunk.id == MKTAG('a', 'n', 'i', 'h')) return parseAnimHeaderChunk(chunk, stream); if (chunk.id == MKTAG('s', 'e', 'q', ' ')) return parseSeqChunk(chunk, stream); if (chunk.id == MKTAG('r', 'a', 't', 'e')) return parseRateChunk(chunk, stream); return true; } bool AniDecoder::parseListContainer(const RIFFContainerDef &container, Common::SeekableReadStream &stream) { if (container.id == MKTAG('f', 'r', 'a', 'm')) return parseRIFFChunks(stream, Common::Functor2Mem(this, &AniDecoder::parseIconChunk)); return true; } bool AniDecoder::parseAnimHeaderChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { const uint32 expectedStructSize = 36; if (chunk.size < expectedStructSize) { warning("AniDecoder::parseAnimHeaderChunk: Chunk is too small"); return false; } uint32 structSize = 0; uint32 flags = 0; if (!stream.readMultipleLE(structSize, _metadata.numFrames, _metadata.numSteps, _metadata.width, _metadata.height, _metadata.bitCount, _metadata.numPlanes, _metadata.perFrameDelay, flags) || structSize < expectedStructSize) { warning("AniDecoder::parseAnimHeaderChunk: Read failed"); return false; } _metadata.isCURFormat = ((flags & 1) != 0); _metadata.haveSeqData = ((flags & 2) != 0); return true; } bool AniDecoder::parseSeqChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { uint32 numFrames = chunk.size / 4u; if (numFrames > 1000u) { warning("AniDecoder::parseRateChunk: Too many frames"); return false; } if (numFrames > _seqData.size()) _seqData.resize(numFrames); for (uint i = 0; i < numFrames; i++) { byte seqData[4]; if (stream.read(seqData, 4) != 4) { warning("AniDecoder::parseRateChunk: Failed to read sequence information"); return false; } _seqData[i] = READ_LE_UINT32(seqData); } return true; } bool AniDecoder::parseRateChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { uint32 numFrames = chunk.size / 4u; if (numFrames > 1000u) { warning("AniDecoder::parseRateChunk: Too many frames"); return false; } if (numFrames > _rateData.size()) _rateData.resize(numFrames); for (uint i = 0; i < numFrames; i++) { byte rateData[4]; if (stream.read(rateData, 4) != 4) { warning("AniDecoder::parseRateChunk: Failed to read rate information"); return false; } _rateData[i] = READ_LE_UINT32(rateData); } return true; } bool AniDecoder::parseIconChunk(const RIFFChunkDef &chunk, Common::SeekableReadStream &stream) { FrameDataRange frameDataRange; // Get the global stream position frameDataRange.pos = static_cast(_stream->pos()); frameDataRange.size = chunk.size; _frameDataLocations.push_back(frameDataRange); return true; } } // End of namespace Image