scummvm/video/paco_decoder.cpp
2022-03-06 18:34:52 +02:00

584 lines
15 KiB
C++

/* 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 <http://www.gnu.org/licenses/>.
*
*/
#include "common/endian.h"
#include "common/rect.h"
#include "common/stream.h"
#include "common/system.h"
#include "common/textconsole.h"
#include "graphics/surface.h"
#include "video/qt_data.h"
#include "video/paco_decoder.h"
#include "audio/audiostream.h"
#include "audio/decoders/raw.h"
namespace Video {
enum frameTypes {
NOP = 0, // nop
// 1 - old initialisation data?
PALLETE = 2, // - new initialisation data (usually 0x30 0x00 0x00 ... meaning 8-bit with default QuickTime palette)
DELAY = 3, // - delay information
AUDIO = 4, // - audio data (8-bit unsigned PCM)
// 5 - should not be present
// 6 - should not be present
// 7 - unknown
VIDEO = 8, // - video frame
// 9 - unknown
// 10 - dummy?
EOC = 11 // - end of chunk marker
};
PacoDecoder::PacoDecoder() {
}
PacoDecoder::~PacoDecoder() {
close();
}
bool PacoDecoder::loadStream(Common::SeekableReadStream *stream) {
close();
_curFrame = 0;
stream->readUint16BE(); // 1
stream->readUint16BE(); // 0x26
uint16 width = stream->readUint16BE();
uint16 height = stream->readUint16BE();
int16 frameRate = stream->readUint16BE();
frameRate = ABS(frameRate); // Negative framerate is indicative of audio, but not always
uint16 flags = stream->readUint16BE();
bool hasAudio = (flags & 0x100) == 0x100;
stream->readUint32BE(); // maxChunksize
stream->readUint32BE(); // always 0
stream->readUint32BE(); // audio related flags
uint16 frameCount = stream->readUint16BE();
stream->readUint16BE(); // copy of frameCount
stream->readUint16BE(); // always 8?
stream->readUint16BE(); // always 0x600?
stream->readUint32BE(); // flags
stream->readUint16BE(); // 0
for (uint i = 0; i < frameCount; i++) {
_frameSizes[i] = stream->readUint32BE();
}
_fileStream = stream;
_videoTrack = new PacoVideoTrack(frameRate, frameCount, width, height);
addTrack(_videoTrack);
if (hasAudio) {
_audioTrack = new PacoAudioTrack(getAudioSamplingRate());
addTrack(_audioTrack);
}
return true;
}
int PacoDecoder::getAudioSamplingRate() {
/**
* SamplingRate is found inside the audio packets
* Search for the first audio packet and use it.
*/
const Common::Array<int> samplingRates = {5563, 7418, 11127, 22254};
int index;
int64 startPos = _fileStream->pos();
while (true){
int64 currentPos = _fileStream->pos();
int frameType = _fileStream->readByte();
int v = _fileStream->readByte();
uint32 chunkSize = (v << 16 ) | _fileStream->readUint16BE();
if (frameType != AUDIO) {
_fileStream->seek(currentPos + chunkSize);
continue;
}
uint16 header = _fileStream->readUint16BE();
_fileStream->readUint16BE();
index = (header >> 10) & 7;
break;
}
_fileStream->seek(startPos);
return samplingRates[index];
}
const Common::List<Common::Rect> *PacoDecoder::getDirtyRects() const {
const Track *track = getTrack(0);
if (track)
return ((const PacoVideoTrack *)track)->getDirtyRects();
return 0;
}
void PacoDecoder::clearDirtyRects() {
Track *track = getTrack(0);
if (track)
((PacoVideoTrack *)track)->clearDirtyRects();
}
void PacoDecoder::copyDirtyRectsToBuffer(uint8 *dst, uint pitch) {
Track *track = getTrack(0);
if (track)
((PacoVideoTrack *)track)->copyDirtyRectsToBuffer(dst, pitch);
}
const byte* PacoDecoder::getPalette(){
Track *track = getTrack(0);
if (track)
return ((PacoVideoTrack *)track)->getPalette();
return nullptr;
}
const byte* PacoDecoder::PacoVideoTrack::getPalette() const {
_dirtyPalette = false;
return _palette;
}
PacoDecoder::PacoVideoTrack::PacoVideoTrack(
uint16 frameRate, uint16 frameCount, uint16 width, uint16 height) {
_curFrame = 0;
_frameRate = frameRate;
_frameCount = frameCount;
_surface = new Graphics::Surface();
_surface->create(width, height, Graphics::PixelFormat::createFormatCLUT8());
_palette = const_cast<byte *>(quickTimeDefaultPalette256);
_dirtyPalette = true;
}
PacoDecoder::PacoVideoTrack::~PacoVideoTrack() {
_surface->free();
delete _surface;
}
bool PacoDecoder::PacoVideoTrack::endOfTrack() const {
return getCurFrame() >= getFrameCount();
}
uint16 PacoDecoder::PacoVideoTrack::getWidth() const {
return _surface->w;
}
uint16 PacoDecoder::PacoVideoTrack::getHeight() const {
return _surface->h;
}
Graphics::PixelFormat PacoDecoder::PacoVideoTrack::getPixelFormat() const {
return _surface->format;
}
void PacoDecoder::readNextPacket() {
uint32 nextFrame = _fileStream->pos() + _frameSizes[_curFrame];
debug(2, " frame %3d size %d @ %lX", _curFrame, _frameSizes[_curFrame], long(_fileStream->pos()));
_curFrame++;
while (_fileStream->pos() < nextFrame) {
int64 currentPos = _fileStream->pos();
int frameType = _fileStream->readByte();
int v = _fileStream->readByte();
uint32 chunkSize = (v << 16 ) | _fileStream->readUint16BE();
debug(2, " slot type %d size %d @ %lX", frameType, chunkSize, long(_fileStream->pos() - 4));
switch (frameType) {
case AUDIO:
_audioTrack->queueSound(_fileStream, chunkSize - 4);
break;
case VIDEO:
_videoTrack->handleFrame(_fileStream, chunkSize - 4, _curFrame);
break;
case PALLETE:
_videoTrack->handlePalette(_fileStream);
break;
case EOC:
break;
default:
error("PacoDecoder::decodeFrame(): unknown main chunk type (type = 0x%02X)", frameType);
break;
}
_fileStream->seek(currentPos + chunkSize);
}
}
const Graphics::Surface *PacoDecoder::PacoVideoTrack::decodeNextFrame() {
return _surface;
}
void PacoDecoder::PacoVideoTrack::handlePalette(Common::SeekableReadStream *fileStream) {
uint32 header = fileStream->readUint32BE();
if (header == 0x30000000) { // default quicktime palette
_palette = const_cast<byte *>(quickTimeDefaultPalette256);
} else {
fileStream->readUint32BE(); // 4 bytes of 00
_palette = new byte[256 * 3]();
for (int i = 0; i < 256 * 3; i++){
_palette[i] = fileStream->readByte();
}
}
_dirtyPalette = true;
}
enum {
COPY = 0, // raw copy pixels
RLE, // RLE
PRLE, // pair RLE (read a pair of pixels and repeat it the specified number of times)
QRLE, // quad RLE (read four pixels and repeat it the specified number of times)
SKIP, // skip
ENDCURRENTLINE, // end current line and skip additional len lines
EOFRAME = 15 // not real opcode but 00 F0 00 00 is often seen at the end of frame and can serve as an end marker
};
#define ADJUST_LINE \
if (compr == 1) \
ypos2 = ypos; \
else { \
ypos2 = ypos * 2 - y; \
if (ypos2 >= y + bh) { \
ypos2 -= bh; \
if (!(bh & 1)) \
ypos2++; \
} \
}
#define PUTPIX(pix) \
do { \
*dst++ = pix; \
xpos++; \
} while(0);
#define SKIP() \
do { \
dst++; \
xpos++; \
} while(0);
void PacoDecoder::PacoVideoTrack::handleFrame(Common::SeekableReadStream *fileStream, uint32 chunkSize, int curFrame) {
_curFrame = curFrame;
uint16 w = getWidth();
uint16 x = fileStream->readUint16BE(); // x offset of the updated area
uint16 y = fileStream->readUint16BE(); // y offset of the updated area
uint16 bw = fileStream->readUint16BE(); // updated area width
uint16 bh = fileStream->readUint16BE(); // updated area height
uint compr = fileStream->readByte(); // compression method and flags
fileStream->readByte(); // padding
debug(5, " +%d,%d - %dx%d compr %X", x, y, bw, bh, compr);
compr = compr & 0xF;
uint8 *fdata = new uint8[1048576]; // 0x100000 copied from original pacodec
fileStream->read(fdata, chunkSize - 10); // remove header length
debug(5, "pos: %ld", long(fileStream->pos()));
int16 xpos = x, ypos = y, ypos2 = y;
byte *dst = (byte *)_surface->getPixels() + x + y * w;
const uint8 *src = fdata;
int16 i, c, c1, c2, c3, c4;
uint8 clrs[16];
while (ypos < y + bh) {
c = *src++;
debug(5, "debug info: ypos %d y %d bh %d src: %d", ypos, y, bh, c);
if (c == 0 ){ // long operation
int16 op = src[0] >> 4;
int16 len = ((src[0] & 0xF) << 8) | src[1];
src += 2;
debug(5, " long operation: opcode: %d", op);
switch (op) {
case COPY:
while (len--)
PUTPIX(*src++);
break;
case RLE:
c1 = *src++;
while (len--)
PUTPIX(c1);
break;
case PRLE:
c1 = *src++;
c2 = *src++;
while (len--){
PUTPIX(c1);
PUTPIX(c2);
}
break;
case QRLE:
c1 = *src++;
c2 = *src++;
c3 = *src++;
c4 = *src++;
while (len--) {
PUTPIX(c1);
PUTPIX(c2);
PUTPIX(c3);
PUTPIX(c4);
}
break;
case SKIP:
while (len--)
SKIP();
break;
case ENDCURRENTLINE:
xpos = x;
ypos += len + 1;
ADJUST_LINE;
dst = (byte *)_surface->getPixels() + xpos + ypos2 * w;
break;
case EOFRAME:
xpos = x;
ypos = y + bh;
break;
default:
PUTPIX(0xFF);
debug(5, "PacoDecoder::PacoVideoTrack::handleFrame: Long op: 0x0 op %d", op);
}
} else if (c < 128) { // copy the same amount of pixels
debug(5, " copy pixels: %d", c);
while (c--)
PUTPIX(*src++);
} else if (c < 254) { // repeat the following value 256 - op times
debug(5, " copy pixels -op: %d", 256 - c);
c1 = *src++;
c = 256 - c;
while (c--)
PUTPIX(c1);
} else if (c < 255) {
// next byte is either the number of pixels to skip (if non-zero) or
// a signal of compact RLE mode
c = *src++;
if (!c) { // compact RLE mode
unsigned mask = (src[0] << 8) | src[1];
src += 2;
debug(5, "debug info compact RLE: c: %d mask: %d", c, mask);
for (i = 0; i < 16; i++, mask >>= 1) {
if (mask & 1)
clrs[i] = *src++;
}
while (xpos < x + bw) {
int16 op = *src++;
int16 len = op & 0xF;
op >>= 4;
if (op == 0) { // low nibble....
op = len;
len = *src++;
debug(5, "debug info compact: op: %d", op);
switch (op) {
case COPY:
debug(5, "debug info COPY: %d", len);
while (len--) {
c = *src++;
PUTPIX(clrs[c >> 4]);
if (!len)
break;
len--;
PUTPIX(clrs[c & 0xF]);
}
break;
case RLE:
debug(5, "debug info RLE: %d", len);
c = *src++;
while (len--)
PUTPIX(clrs[c & 0xF]);
break;
case PRLE:
debug(5, "debug info PRLE: %d", len);
c = *src++;
c1 = clrs[c >> 4];
c2 = clrs[c & 0xF];
while (len--) {
PUTPIX(c1);
PUTPIX(c2);
}
break;
case QRLE:
debug(5, "debug info QRLE: %d", len);
c = *src++;
c1 = clrs[c >> 4];
c2 = clrs[c & 0xF];
c = *src++;
c3 = clrs[c >> 4];
c4 = clrs[c & 0xF];
while (len--) {
PUTPIX(c1);
PUTPIX(c2);
PUTPIX(c3);
PUTPIX(c4);
}
break;
case SKIP:
debug(5, "debug info SKIP: %d", len);
while (len--)
SKIP();
break;
case ENDCURRENTLINE:
debug(5, "debug info ENDCURRENTLINE: %d", len);
xpos = x + bw;
break;
default:
warning("PacoDecoder::PacoVideoTrack::handleFrame: Compact RLE mode: 0x0 op %d", op);
}
} else if (op < 8) { // copy 1-7 colors
debug(5, "debug info copy 1-7 colors: %d", len);
PUTPIX(clrs[len]);
op--;
while (op--) {
c = *src++;
PUTPIX(clrs[c >> 4]);
if (!op)
break;
op--;
PUTPIX(clrs[c & 0xF]);
}
} else if (op < 14) { // repeat color
debug(5, "debug info Repeat color: %d", len);
op = 16 - op;
while (op--)
PUTPIX(clrs[len]);
} else if (op < 15) { // skip number of pixels in low nibbel
debug(5, "debug info Skip number of pixels: %d", len);
while (len--)
SKIP();
} else {
if (len < 8) { // Pair run
debug(5, "debug info pair run: %d", len);
c = *src++;
c1 = clrs[c >> 4];
c2 = clrs[c & 0xF];
while (len--) {
PUTPIX(c1);
PUTPIX(c2);
}
} else { // Quad run
debug(5, "debug info quad run: %d", len);
len = 16 - len;
c = *src++;
c1 = clrs[c >> 4];
c2 = clrs[c & 0xF];
c = *src++;
c3 = clrs[c >> 4];
c4 = clrs[c & 0xF];
while (len--) {
PUTPIX(c1);
PUTPIX(c2);
PUTPIX(c3);
PUTPIX(c4);
}
}
}
}
} else {
debug(5, "debug info SKIP: %d", c);
while (c--)
SKIP();
}
} else {
// pair or quad run. Read the next byte and if it is below 128 then read and
// repeat a pair of pixels len times, otherwise read and repeat four pixels
// (but 256 - len times)
c = *src++;
if (c < 128) { // pair run
debug(5, "debug info PAIR RUN: %d", c);
c1 = *src++;
c2 = *src++;
while (c--) {
PUTPIX(c1);
PUTPIX(c2);
}
} else { // quad run
debug(5, "debug info QUAD RUN: %d", c);
c = 256 - c;
c1 = *src++;
c2 = *src++;
c3 = *src++;
c4 = *src++;
while (c--) {
PUTPIX(c1);
PUTPIX(c2);
PUTPIX(c3);
PUTPIX(c4);
}
}
}
if (xpos > x + bw) debug(5, "!!!");
if (xpos >= x + bw) {
debug(5, "debug info ADJUST LINE");
xpos = x;
ypos++;
ADJUST_LINE;
dst = (byte *)_surface->getPixels() + x + ypos2 * w;
}
}
_dirtyRects.clear();
_dirtyRects.push_back(Common::Rect(x, y, x + bw, y + bh));
}
void PacoDecoder::PacoVideoTrack::copyDirtyRectsToBuffer(uint8 *dst, uint pitch) {
for (Common::List<Common::Rect>::const_iterator it = _dirtyRects.begin(); it != _dirtyRects.end(); ++it) {
for (int y = (*it).top; y < (*it).bottom; ++y) {
const int x = (*it).left;
memcpy(dst + y * pitch + x, (byte *)_surface->getBasePtr(x, y), (*it).right - x);
}
}
clearDirtyRects();
}
PacoDecoder::PacoAudioTrack::PacoAudioTrack(int samplingRate)
: AudioTrack(Audio::Mixer::kPlainSoundType) {
_samplingRate = samplingRate;
byte audioFlags = Audio::FLAG_UNSIGNED;
_packetStream = Audio::makePacketizedRawStream(samplingRate, audioFlags);
}
void PacoDecoder::PacoAudioTrack::queueSound(Common::SeekableReadStream *fileStream, uint32 chunkSize) {
const Common::Array<int> samplingRates = {5563, 7418, 11127, 22254};
uint16 header = fileStream->readUint16BE();
fileStream->readUint16BE();
int index = (header >> 10) & 7;
int currentRate = samplingRates[index];
if ( currentRate != _samplingRate)
warning("PacoDecoder::PacoAudioTrack: Sampling rate differs from first frame: %i != %i", currentRate, _samplingRate);
_packetStream->queuePacket(fileStream->readStream(chunkSize - 4));
}
} // End of namespace Video