static CGImageRef CreateCGImageFromPixelBuffer(QTPixelBuffer buffer)
{
#if USE(ACCELERATED_COMPOSITING)
CGDataProviderRef provider = 0;
CGColorSpaceRef colorSpace = 0;
CGImageRef image = 0;
size_t bitsPerComponent = 0;
size_t bitsPerPixel = 0;
CGImageAlphaInfo alphaInfo = kCGImageAlphaNone;
if (buffer.pixelFormatIs32BGRA()) {
bitsPerComponent = 8;
bitsPerPixel = 32;
alphaInfo = (CGImageAlphaInfo)(kCGImageAlphaNoneSkipFirst | kCGBitmapByteOrder32Little);
} else if (buffer.pixelFormatIs32ARGB()) {
bitsPerComponent = 8;
bitsPerPixel = 32;
alphaInfo = (CGImageAlphaInfo)(kCGImageAlphaNoneSkipLast | kCGBitmapByteOrder32Big);
} else {
// All other pixel formats are currently unsupported:
ASSERT_NOT_REACHED();
}
CGDataProviderDirectAccessCallbacks callbacks = {
&QTPixelBuffer::dataProviderGetBytePointerCallback,
&QTPixelBuffer::dataProviderReleaseBytePointerCallback,
&QTPixelBuffer::dataProviderGetBytesAtPositionCallback,
&QTPixelBuffer::dataProviderReleaseInfoCallback,
};
// Colorspace should be device, so that Quartz does not have to do an extra render.
colorSpace = CGColorSpaceCreateDeviceRGB();
require(colorSpace, Bail);
provider = CGDataProviderCreateDirectAccess(buffer.pixelBufferRef(), buffer.dataSize(), &callbacks);
require(provider, Bail);
// CGDataProvider does not retain the buffer, but it will release it later, so do an extra retain here:
QTPixelBuffer::retainCallback(buffer.pixelBufferRef());
image = CGImageCreate(buffer.width(), buffer.height(), bitsPerComponent, bitsPerPixel, buffer.bytesPerRow(), colorSpace, alphaInfo, provider, 0, false, kCGRenderingIntentDefault);
Bail:
// Once the image is created we can release our reference to the provider and the colorspace, they are retained by the image
if (provider)
CGDataProviderRelease(provider);
if (colorSpace)
CGColorSpaceRelease(colorSpace);
return image;
#else
return 0;
#endif
}
QTPixelBuffer QTDecompressionSession::decompress(QTPixelBuffer inBuffer)
{
if (!canDecompress(inBuffer))
return QTPixelBuffer();
inBuffer.lockBaseAddress();
ICMDecompressionSessionDecodeFrame(m_session,
static_cast<UInt8*>(inBuffer.baseAddress()),
inBuffer.dataSize(),
0, // frameOptions
0, // frameTime
0); // sourceFrameRefCon
// Because we passed in 0 for frameTime, the above function
// is synchronous, and the client callback will have been
// called before the function returns, and m_latestFrame
// will contain the newly decompressed frame.
return m_latestFrame;
}
void MediaPlayerPrivateQuickTimeVisualContext::retrieveCurrentImage()
{
if (!m_visualContext)
return;
#if USE(ACCELERATED_COMPOSITING)
if (m_qtVideoLayer) {
QTPixelBuffer buffer = m_visualContext->imageForTime(0);
if (!buffer.pixelBufferRef())
return;
WKCACFLayer* layer = static_cast<WKCACFLayer*>(m_qtVideoLayer->platformLayer());
if (!buffer.lockBaseAddress()) {
if (requiredDllsAvailable()) {
if (!m_imageQueue) {
m_imageQueue = new WKCAImageQueue(buffer.width(), buffer.height(), 30);
m_imageQueue->setFlags(WKCAImageQueue::Fill, WKCAImageQueue::Fill);
layer->setContents(m_imageQueue->get());
}
// Debug QuickTime links against a non-Debug version of CoreFoundation, so the
// CFDictionary attached to the CVPixelBuffer cannot be directly passed on into the
// CAImageQueue without being converted to a non-Debug CFDictionary. Additionally,
// old versions of QuickTime used a non-AAS CoreFoundation, so the types are not
// interchangable even in the release case.
RetainPtr<CFDictionaryRef> attachments(AdoptCF, QTCFDictionaryCreateCopyWithDataCallback(kCFAllocatorDefault, buffer.attachments(), &QTCFDictionaryCreateWithDataCallback));
CFTimeInterval imageTime = QTMovieVisualContext::currentHostTime();
m_imageQueue->collect();
uint64_t imageId = m_imageQueue->registerPixelBuffer(buffer.baseAddress(), buffer.dataSize(), buffer.bytesPerRow(), buffer.width(), buffer.height(), buffer.pixelFormatType(), attachments.get(), 0);
if (m_imageQueue->insertImage(imageTime, WKCAImageQueue::Buffer, imageId, WKCAImageQueue::Opaque | WKCAImageQueue::Flush, &QTPixelBuffer::imageQueueReleaseCallback, buffer.pixelBufferRef())) {
// Retain the buffer one extra time so it doesn't dissappear before CAImageQueue decides to release it:
QTPixelBuffer::retainCallback(buffer.pixelBufferRef());
}
} else {
CGImageRef image = CreateCGImageFromPixelBuffer(buffer);
layer->setContents(image);
CGImageRelease(image);
}
buffer.unlockBaseAddress();
layer->rootLayer()->setNeedsRender();
}
} else
#endif
m_player->repaint();
m_visualContext->task();
}
