media/gpu/vp8_decoder.cc - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/gpu/vp8_decoder.h"
 #include "media/base/limits.h"

 namespace media {

 VP8Decoder::VP8Accelerator::VP8Accelerator() {}

 VP8Decoder::VP8Accelerator::~VP8Accelerator() {}

 VP8Decoder::VP8Decoder(std::unique_ptr<VP8Accelerator> accelerator)
     : state_(kNeedStreamMetadata),
       curr_frame_start_(nullptr),
       frame_size_(0),
       accelerator_(std::move(accelerator)) {
   DCHECK(accelerator_);
 }

 VP8Decoder::~VP8Decoder() = default;

 bool VP8Decoder::Flush() {
   DVLOG(2) << "Decoder flush";
   Reset();
   return true;
 }

 void VP8Decoder::SetStream(int32_t id,
                            const uint8_t* ptr,
                            size_t size,
                            const DecryptConfig* decrypt_config) {
   DCHECK(ptr);
   DCHECK(size);
   if (decrypt_config) {
     NOTIMPLEMENTED();
     state_ = kError;
     return;
   }

   DVLOG(4) << "New input stream id: " << id << " at: " << (void*)ptr
            << " size: " << size;
   stream_id_ = id;
   curr_frame_start_ = ptr;
   frame_size_ = size;
 }

 void VP8Decoder::Reset() {
   curr_frame_hdr_ = nullptr;
   curr_frame_start_ = nullptr;
   frame_size_ = 0;

   ref_frames_.Clear();

   if (state_ == kDecoding)
     state_ = kAfterReset;
 }

 VP8Decoder::DecodeResult VP8Decoder::Decode() {
   if (!curr_frame_start_ || frame_size_ == 0)
     return kRanOutOfStreamData;

   if (!curr_frame_hdr_) {
     curr_frame_hdr_.reset(new Vp8FrameHeader());
     if (!parser_.ParseFrame(curr_frame_start_, frame_size_,
                             curr_frame_hdr_.get())) {
       DVLOG(1) << "Error during decode";
       state_ = kError;
       return kDecodeError;
     }
   }

   // The |stream_id_|s are expected to be monotonically increasing, and we've
   // lost (at least) a frame if this condition doesn't uphold.
   const bool have_skipped_frame = last_decoded_stream_id_ + 1 != stream_id_ &&
                                   last_decoded_stream_id_ != kInvalidId;
   if (curr_frame_hdr_->IsKeyframe()) {
     const gfx::Size new_picture_size(curr_frame_hdr_->width,
                                      curr_frame_hdr_->height);
     if (new_picture_size.IsEmpty())
       return kDecodeError;

     if (new_picture_size != pic_size_) {
       DVLOG(2) << "New resolution: " << new_picture_size.ToString();
       pic_size_ = new_picture_size;

       ref_frames_.Clear();
       last_decoded_stream_id_ = stream_id_;
       size_change_failure_counter_ = 0;

       return kAllocateNewSurfaces;
     }

     state_ = kDecoding;
   } else if (state_ != kDecoding || have_skipped_frame) {
     // Only trust the next frame. Otherwise, new keyframe might be missed, so
     // |pic_size_| might be stale.
     // TODO(dshwang): if rtc decoder can know the size of inter frame, change
     // this condition to check if new keyframe is missed.
     // https://crbug.com/832545
     DVLOG(4) << "Drop the frame because the size maybe stale.";
     if (have_skipped_frame &&
         ++size_change_failure_counter_ > kVPxMaxNumOfSizeChangeFailures) {
       state_ = kError;
       return kDecodeError;
     }

     // Need a resume point.
     curr_frame_hdr_ = nullptr;
     return kRanOutOfStreamData;
   }

   scoped_refptr<VP8Picture> pic = accelerator_->CreateVP8Picture();
   if (!pic)
     return kRanOutOfSurfaces;

   if (!DecodeAndOutputCurrentFrame(std::move(pic))) {
     state_ = kError;
     return kDecodeError;
   }

   last_decoded_stream_id_ = stream_id_;
   size_change_failure_counter_ = 0;
   return kRanOutOfStreamData;
 }

 bool VP8Decoder::DecodeAndOutputCurrentFrame(scoped_refptr<VP8Picture> pic) {
   DCHECK(pic);
   DCHECK(!pic_size_.IsEmpty());
   DCHECK(curr_frame_hdr_);

   pic->set_visible_rect(gfx::Rect(pic_size_));
   pic->set_bitstream_id(stream_id_);

   if (curr_frame_hdr_->IsKeyframe()) {
     horizontal_scale_ = curr_frame_hdr_->horizontal_scale;
     vertical_scale_ = curr_frame_hdr_->vertical_scale;
   } else {
     // Populate fields from decoder state instead.
     curr_frame_hdr_->width = pic_size_.width();
     curr_frame_hdr_->height = pic_size_.height();
     curr_frame_hdr_->horizontal_scale = horizontal_scale_;
     curr_frame_hdr_->vertical_scale = vertical_scale_;
   }

   const bool show_frame = curr_frame_hdr_->show_frame;
   pic->frame_hdr = std::move(curr_frame_hdr_);

   if (!accelerator_->SubmitDecode(pic, ref_frames_))
     return false;

   if (show_frame && !accelerator_->OutputPicture(pic))
     return false;

   ref_frames_.Refresh(pic);

   curr_frame_start_ = nullptr;
   frame_size_ = 0;
   return true;
 }

 gfx::Size VP8Decoder::GetPicSize() const {
   return pic_size_;
 }

 size_t VP8Decoder::GetRequiredNumOfPictures() const {
   const size_t kVP8NumFramesActive = 4;
   const size_t kPicsInPipeline = limits::kMaxVideoFrames + 2;
   return kVP8NumFramesActive + kPicsInPipeline;
 }

 }  // namespace media
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/gpu/vp8_decoder.h"
	#include "media/base/limits.h"

	namespace media {

	VP8Decoder::VP8Accelerator::VP8Accelerator() {}

	VP8Decoder::VP8Accelerator::~VP8Accelerator() {}

	VP8Decoder::VP8Decoder(std::unique_ptr<VP8Accelerator> accelerator)
	: state_(kNeedStreamMetadata),
	curr_frame_start_(nullptr),
	frame_size_(0),
	accelerator_(std::move(accelerator)) {
	DCHECK(accelerator_);
	}

	VP8Decoder::~VP8Decoder() = default;

	bool VP8Decoder::Flush() {
	DVLOG(2) << "Decoder flush";
	Reset();
	return true;
	}

	void VP8Decoder::SetStream(int32_t id,
	const uint8_t* ptr,
	size_t size,
	const DecryptConfig* decrypt_config) {
	DCHECK(ptr);
	DCHECK(size);
	if (decrypt_config) {
	NOTIMPLEMENTED();
	state_ = kError;
	return;
	}

	DVLOG(4) << "New input stream id: " << id << " at: " << (void*)ptr
	<< " size: " << size;
	stream_id_ = id;
	curr_frame_start_ = ptr;
	frame_size_ = size;
	}

	void VP8Decoder::Reset() {
	curr_frame_hdr_ = nullptr;
	curr_frame_start_ = nullptr;
	frame_size_ = 0;

	ref_frames_.Clear();

	if (state_ == kDecoding)
	state_ = kAfterReset;
	}

	VP8Decoder::DecodeResult VP8Decoder::Decode() {
	if (!curr_frame_start_ \|\| frame_size_ == 0)
	return kRanOutOfStreamData;

	if (!curr_frame_hdr_) {
	curr_frame_hdr_.reset(new Vp8FrameHeader());
	if (!parser_.ParseFrame(curr_frame_start_, frame_size_,
	curr_frame_hdr_.get())) {
	DVLOG(1) << "Error during decode";
	state_ = kError;
	return kDecodeError;
	}
	}

	// The \|stream_id_\|s are expected to be monotonically increasing, and we've
	// lost (at least) a frame if this condition doesn't uphold.
	const bool have_skipped_frame = last_decoded_stream_id_ + 1 != stream_id_ &&
	last_decoded_stream_id_ != kInvalidId;
	if (curr_frame_hdr_->IsKeyframe()) {
	const gfx::Size new_picture_size(curr_frame_hdr_->width,
	curr_frame_hdr_->height);
	if (new_picture_size.IsEmpty())
	return kDecodeError;

	if (new_picture_size != pic_size_) {
	DVLOG(2) << "New resolution: " << new_picture_size.ToString();
	pic_size_ = new_picture_size;

	ref_frames_.Clear();
	last_decoded_stream_id_ = stream_id_;
	size_change_failure_counter_ = 0;

	return kAllocateNewSurfaces;
	}

	state_ = kDecoding;
	} else if (state_ != kDecoding \|\| have_skipped_frame) {
	// Only trust the next frame. Otherwise, new keyframe might be missed, so
	// \|pic_size_\| might be stale.
	// TODO(dshwang): if rtc decoder can know the size of inter frame, change
	// this condition to check if new keyframe is missed.
	// https://crbug.com/832545
	DVLOG(4) << "Drop the frame because the size maybe stale.";
	if (have_skipped_frame &&
	++size_change_failure_counter_ > kVPxMaxNumOfSizeChangeFailures) {
	state_ = kError;
	return kDecodeError;
	}

	// Need a resume point.
	curr_frame_hdr_ = nullptr;
	return kRanOutOfStreamData;
	}

	scoped_refptr<VP8Picture> pic = accelerator_->CreateVP8Picture();
	if (!pic)
	return kRanOutOfSurfaces;

	if (!DecodeAndOutputCurrentFrame(std::move(pic))) {
	state_ = kError;
	return kDecodeError;
	}

	last_decoded_stream_id_ = stream_id_;
	size_change_failure_counter_ = 0;
	return kRanOutOfStreamData;
	}

	bool VP8Decoder::DecodeAndOutputCurrentFrame(scoped_refptr<VP8Picture> pic) {
	DCHECK(pic);
	DCHECK(!pic_size_.IsEmpty());
	DCHECK(curr_frame_hdr_);

	pic->set_visible_rect(gfx::Rect(pic_size_));
	pic->set_bitstream_id(stream_id_);

	if (curr_frame_hdr_->IsKeyframe()) {
	horizontal_scale_ = curr_frame_hdr_->horizontal_scale;
	vertical_scale_ = curr_frame_hdr_->vertical_scale;
	} else {
	// Populate fields from decoder state instead.
	curr_frame_hdr_->width = pic_size_.width();
	curr_frame_hdr_->height = pic_size_.height();
	curr_frame_hdr_->horizontal_scale = horizontal_scale_;
	curr_frame_hdr_->vertical_scale = vertical_scale_;
	}

	const bool show_frame = curr_frame_hdr_->show_frame;
	pic->frame_hdr = std::move(curr_frame_hdr_);

	if (!accelerator_->SubmitDecode(pic, ref_frames_))
	return false;

	if (show_frame && !accelerator_->OutputPicture(pic))
	return false;

	ref_frames_.Refresh(pic);

	curr_frame_start_ = nullptr;
	frame_size_ = 0;
	return true;
	}

	gfx::Size VP8Decoder::GetPicSize() const {
	return pic_size_;
	}

	size_t VP8Decoder::GetRequiredNumOfPictures() const {
	const size_t kVP8NumFramesActive = 4;
	const size_t kPicsInPipeline = limits::kMaxVideoFrames + 2;
	return kVP8NumFramesActive + kPicsInPipeline;
	}

	} // namespace media