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path: root/engines/zvision/video/rlf_decoder.cpp
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/* 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.
*
*/

#include "common/scummsys.h"

#include "zvision/video/rlf_decoder.h"

#include "common/str.h"
#include "common/file.h"
#include "common/textconsole.h"
#include "common/debug.h"
#include "common/endian.h"

namespace ZVision {

RLFDecoder::~RLFDecoder() {
	close();
}

bool RLFDecoder::loadStream(Common::SeekableReadStream *stream) {
	close();

	// Check if the stream is valid
	if (stream && !stream->err() && stream->readUint32BE() == MKTAG('F', 'E', 'L', 'R')) {
		addTrack(new RLFVideoTrack(stream));
		return true;
	} else {
		return false;
	}
}

RLFDecoder::RLFVideoTrack::RLFVideoTrack(Common::SeekableReadStream *stream)
	: _readStream(stream),
	  _lastFrameRead(0),
	  _frameCount(0),
	  _width(0),
	  _height(0),
	  _frameTime(0),
	  _frames(0),
	  _curFrame(0),
	  _frameBufferByteSize(0) {

	if (!readHeader()) {
		warning("Not a RLF animation file. Wrong magic number");
		return;
	}

	_currentFrameBuffer.create(_width, _height, getPixelFormat());
	_frameBufferByteSize = _width * _height * sizeof(uint16);

	_frames = new Frame[_frameCount];

	// Read in each frame
	for (uint i = 0; i < _frameCount; ++i) {
		_frames[i] = readNextFrame();
	}
}

RLFDecoder::RLFVideoTrack::~RLFVideoTrack() {
	for (uint i = 0; i < _frameCount; ++i) {
		delete[] _frames[i].encodedData;
	}
	delete[] _frames;
	delete _readStream;
	_currentFrameBuffer.free();
}

bool RLFDecoder::RLFVideoTrack::readHeader() {
	// Read the header
	_readStream->readUint32LE();                // Size1
	_readStream->readUint32LE();                // Unknown1
	_readStream->readUint32LE();                // Unknown2
	_frameCount = _readStream->readUint32LE();  // Frame count

	// Since we don't need any of the data, we can just seek right to the
	// entries we need rather than read in all the individual entries.
	_readStream->seek(136, SEEK_CUR);

	//// Read CIN header
	//_readStream->readUint32BE();          // Magic number FNIC
	//_readStream->readUint32LE();          // Size2
	//_readStream->readUint32LE();          // Unknown3
	//_readStream->readUint32LE();          // Unknown4
	//_readStream->readUint32LE();          // Unknown5
	//_readStream->seek(0x18, SEEK_CUR);    // VRLE
	//_readStream->readUint32LE();          // LRVD
	//_readStream->readUint32LE();          // Unknown6
	//_readStream->seek(0x18, SEEK_CUR);    // HRLE
	//_readStream->readUint32LE();          // ELHD
	//_readStream->readUint32LE();          // Unknown7
	//_readStream->seek(0x18, SEEK_CUR);    // HKEY
	//_readStream->readUint32LE();          // ELRH

	//// Read MIN info header
	//_readStream->readUint32BE();          // Magic number FNIM
	//_readStream->readUint32LE();          // Size3
	//_readStream->readUint32LE();          // OEDV
	//_readStream->readUint32LE();          // Unknown8
	//_readStream->readUint32LE();          // Unknown9
	//_readStream->readUint32LE();          // Unknown10
	_width = _readStream->readUint32LE();   // Width
	_height = _readStream->readUint32LE();  // Height

	// Read time header
	_readStream->readUint32BE();                    // Magic number EMIT
	_readStream->readUint32LE();                    // Size4
	_readStream->readUint32LE();                    // Unknown11
	_frameTime = _readStream->readUint32LE() / 10;  // Frame time in microseconds

	return true;
}

RLFDecoder::RLFVideoTrack::Frame RLFDecoder::RLFVideoTrack::readNextFrame() {
	RLFDecoder::RLFVideoTrack::Frame frame;

	_readStream->readUint32BE();                        // Magic number MARF
	uint32 size = _readStream->readUint32LE();          // Size
	_readStream->readUint32LE();                        // Unknown1
	_readStream->readUint32LE();                        // Unknown2
	uint32 type = _readStream->readUint32BE();          // Either ELHD or ELRH
	uint32 headerSize = _readStream->readUint32LE();    // Offset from the beginning of this frame to the frame data. Should always be 28
	_readStream->readUint32LE();                        // Unknown3

	frame.encodedSize = size - headerSize;
	frame.encodedData = new int8[frame.encodedSize];
	_readStream->read(frame.encodedData, frame.encodedSize);

	if (type == MKTAG('E', 'L', 'H', 'D')) {
		frame.type = Masked;
	} else if (type == MKTAG('E', 'L', 'R', 'H')) {
		frame.type = Simple;
		_completeFrames.push_back(_lastFrameRead);
	} else {
		warning("Frame %u doesn't have type that can be decoded", _lastFrameRead);
	}

	_lastFrameRead++;
	return frame;
}

bool RLFDecoder::RLFVideoTrack::seek(const Audio::Timestamp &time) {
	uint frame = getFrameAtTime(time);
	assert(frame < (int)_frameCount);

	if ((uint)_curFrame == frame)
		return true;

	int closestFrame = _curFrame;
	int distance = (int)frame - _curFrame;

	if (distance < 0) {
		for (uint i = 0; i < _completeFrames.size(); ++i) {
			if ((int)_completeFrames[i] > frame)
				break;
			closestFrame = _completeFrames[i];
		}
	} else {
		for (uint i = 0; i < _completeFrames.size(); ++i) {
			int newDistance = (int)frame - (int)(_completeFrames[i]);
			if (newDistance < 0)
				break;
			if (newDistance < distance) {
				closestFrame = _completeFrames[i];
				distance = newDistance;
			}
		}
	}

	for (uint i = closestFrame; i < frame; ++i) {
		applyFrameToCurrent(i);
	}

	_curFrame = frame;

	return true;
}

const Graphics::Surface *RLFDecoder::RLFVideoTrack::decodeNextFrame() {
	if (_curFrame == (int)_frameCount)
		return NULL;
	
	applyFrameToCurrent(_curFrame);

	_curFrame++;
	return &_currentFrameBuffer;
}

void RLFDecoder::RLFVideoTrack::applyFrameToCurrent(uint frameNumber) {
	if (_frames[frameNumber].type == Masked) {
		decodeMaskedRunLengthEncoding(_frames[frameNumber].encodedData, (int8 *)_currentFrameBuffer.getPixels(), _frames[frameNumber].encodedSize, _frameBufferByteSize);
	} else if (_frames[frameNumber].type == Simple) {
		decodeSimpleRunLengthEncoding(_frames[frameNumber].encodedData, (int8 *)_currentFrameBuffer.getPixels(), _frames[frameNumber].encodedSize, _frameBufferByteSize);
	}
}

void RLFDecoder::RLFVideoTrack::decodeMaskedRunLengthEncoding(int8 *source, int8 *dest, uint32 sourceSize, uint32 destSize) const {
	uint32 sourceOffset = 0;
	uint32 destOffset = 0;
	int16 numberOfCopy = 0;

	while (sourceOffset < sourceSize) {
		int8 numberOfSamples = source[sourceOffset];
		sourceOffset++;

		// If numberOfSamples is negative, the next abs(numberOfSamples) samples should
		// be copied directly from source to dest
		if (numberOfSamples < 0) {
			numberOfCopy = -numberOfSamples;

			while (numberOfCopy > 0) {
				if (sourceOffset + 1 >= sourceSize) {
					return;
				} else if (destOffset + 1 >= destSize) {
					debug(2, "Frame decoding overflow\n\tsourceOffset=%u\tsourceSize=%u\n\tdestOffset=%u\tdestSize=%u", sourceOffset, sourceSize, destOffset, destSize);
					return;
				}

				WRITE_UINT16(dest + destOffset, READ_LE_UINT16(source + sourceOffset));

				sourceOffset += 2;
				destOffset += 2;
				numberOfCopy--;
			}

			// If numberOfSamples is >= 0, move destOffset forward ((numberOfSamples * 2) + 2)
			// This function assumes the dest buffer has been memset with 0's.
		} else {
			if (sourceOffset + 1 >= sourceSize) {
				return;
			} else if (destOffset + 1 >= destSize) {
				debug(2, "Frame decoding overflow\n\tsourceOffset=%u\tsourceSize=%u\n\tdestOffset=%u\tdestSize=%u", sourceOffset, sourceSize, destOffset, destSize);
				return;
			}

			destOffset += (numberOfSamples * 2) + 2;
		}
	}
}

void RLFDecoder::RLFVideoTrack::decodeSimpleRunLengthEncoding(int8 *source, int8 *dest, uint32 sourceSize, uint32 destSize) const {
	uint32 sourceOffset = 0;
	uint32 destOffset = 0;
	int16 numberOfCopy = 0;

	while (sourceOffset < sourceSize) {
		int8 numberOfSamples = source[sourceOffset];
		sourceOffset++;

		// If numberOfSamples is negative, the next abs(numberOfSamples) samples should
		// be copied directly from source to dest
		if (numberOfSamples < 0) {
			numberOfCopy = -numberOfSamples;

			while (numberOfCopy > 0) {
				if (sourceOffset + 1 >= sourceSize) {
					return;
				} else if (destOffset + 1 >= destSize) {
					debug(2, "Frame decoding overflow\n\tsourceOffset=%u\tsourceSize=%u\n\tdestOffset=%u\tdestSize=%u", sourceOffset, sourceSize, destOffset, destSize);
					return;
				}

				WRITE_UINT16(dest + destOffset, READ_LE_UINT16(source + sourceOffset));

				sourceOffset += 2;
				destOffset += 2;
				numberOfCopy--;
			}

			// If numberOfSamples is >= 0, copy one sample from source to the
			// next (numberOfSamples + 2) dest spots
		} else {
			if (sourceOffset + 1 >= sourceSize) {
				return;
			}

			uint16 sampleColor = READ_LE_UINT16(source + sourceOffset);
			sourceOffset += 2;

			numberOfCopy = numberOfSamples + 2;
			while (numberOfCopy > 0) {
				if (destOffset + 1 >= destSize) {
					debug(2, "Frame decoding overflow\n\tsourceOffset=%u\tsourceSize=%u\n\tdestOffset=%u\tdestSize=%u", sourceOffset, sourceSize, destOffset, destSize);
					return;
				}

				WRITE_UINT16(dest + destOffset, sampleColor);
				destOffset += 2;
				numberOfCopy--;
			}
		}
	}
}

} // End of namespace ZVision