media/gpu/h264_decoder.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 #ifndef MEDIA_GPU_H264_DECODER_H_
 #define MEDIA_GPU_H264_DECODER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <vector>

 #include "base/containers/span.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "media/base/limits.h"
 #include "media/base/subsample_entry.h"
 #include "media/gpu/accelerated_video_decoder.h"
 #include "media/gpu/h264_dpb.h"
 #include "media/gpu/media_gpu_export.h"
 #include "media/video/h264_parser.h"
 #include "ui/gfx/geometry/rect.h"
 #include "ui/gfx/geometry/size.h"

 namespace media {

 // Clients of this class are expected to pass H264 Annex-B byte stream
 // and are expected to provide an implementation of H264Accelerator for
 // offloading final steps of the decoding process.
 //
 // This class must be created, called and destroyed on a single thread, and
 // does nothing internally on any other thread.
 class MEDIA_GPU_EXPORT H264Decoder : public AcceleratedVideoDecoder {
  public:
   class MEDIA_GPU_EXPORT H264Accelerator {
    public:
     // Methods may return kTryAgain if they need additional data (provided
     // independently) in order to proceed. Examples are things like not having
     // an appropriate key to decode encrypted content, or needing to wait
     // until hardware buffers are available. This is not considered an
     // unrecoverable error, but rather a pause to allow an application to
     // independently provide the required data. When H264Decoder::Decode()
     // is called again, it will attempt to resume processing of the stream
     // by calling the same method again.
     enum class Status {
       // Operation completed successfully.
       kOk,

       // Operation failed.
       kFail,

       // Operation failed because some external data is missing. Retry the same
       // operation later, once the data has been provided.
       kTryAgain,

       // Operation is not supported. Used by SetStream() and ParseSliceHeader()
       // to indicate that the Accelerator can not handle this operation.
       kNotSupported,
     };

     H264Accelerator();
     virtual ~H264Accelerator();

     // Create a new H264Picture that the decoder client can use for decoding
     // and pass back to this accelerator for decoding or reference.
     // When the picture is no longer needed by decoder, it will just drop
     // its reference to it, and it may do so at any time.
     // Note that this may return nullptr if accelerator is not able to provide
     // any new pictures at given time. The decoder is expected to handle
     // this situation as normal and return from Decode() with kRanOutOfSurfaces.
     virtual scoped_refptr<H264Picture> CreateH264Picture() = 0;

     // Submit metadata for the current frame, providing the current |sps| and
     // |pps| for it, |dpb| has to contain all the pictures in DPB for current
     // frame, and |ref_pic_p0/b0/b1| as specified in the H264 spec. Note that
     // depending on the frame type, either p0, or b0 and b1 are used. |pic|
     // contains information about the picture for the current frame.
     // Note that this does not run decode in the accelerator and the decoder
     // is expected to follow this call with one or more SubmitSlice() calls
     // before calling SubmitDecode().
     // Returns kOk if successful, kFail if there are errors, or kTryAgain if
     // the accelerator needs additional data before being able to proceed.
     virtual Status SubmitFrameMetadata(
         const H264SPS* sps,
         const H264PPS* pps,
         const H264DPB& dpb,
         const H264Picture::Vector& ref_pic_listp0,
         const H264Picture::Vector& ref_pic_listb0,
         const H264Picture::Vector& ref_pic_listb1,
         const scoped_refptr<H264Picture>& pic) = 0;

     // Submit one slice for the current frame, passing the current |pps| and
     // |pic| (same as in SubmitFrameMetadata()), the parsed header for the
     // current slice in |slice_hdr|, and the reordered |ref_pic_listX|,
     // as per H264 spec.
     // |data| pointing to the full slice (including the unparsed header) of
     // |size| in bytes.
     // |subsamples| specifies which part of the slice data is encrypted.
     // This must be called one or more times per frame, before SubmitDecode().
     // Note that |data| does not have to remain valid after this call returns.
     // Returns kOk if successful, kFail if there are errors, or kTryAgain if
     // the accelerator needs additional data before being able to proceed.
     virtual Status SubmitSlice(
         const H264PPS* pps,
         const H264SliceHeader* slice_hdr,
         const H264Picture::Vector& ref_pic_list0,
         const H264Picture::Vector& ref_pic_list1,
         const scoped_refptr<H264Picture>& pic,
         const uint8_t* data,
         size_t size,
         const std::vector<SubsampleEntry>& subsamples) = 0;

     // Execute the decode in hardware for |pic|, using all the slices and
     // metadata submitted via SubmitFrameMetadata() and SubmitSlice() since
     // the previous call to SubmitDecode().
     // Returns kOk if successful, kFail if there are errors, or kTryAgain if
     // the accelerator needs additional data before being able to proceed.
     virtual Status SubmitDecode(const scoped_refptr<H264Picture>& pic) = 0;

     // Schedule output (display) of |pic|. Note that returning from this
     // method does not mean that |pic| has already been outputted (displayed),
     // but guarantees that all pictures will be outputted in the same order
     // as this method was called for them. Decoder may drop its reference
     // to |pic| after calling this method.
     // Return true if successful.
     virtual bool OutputPicture(const scoped_refptr<H264Picture>& pic) = 0;

     // Reset any current state that may be cached in the accelerator, dropping
     // any cached parameters/slices that have not been committed yet.
     virtual void Reset() = 0;

     // Notifies the accelerator whenever there is a new stream to process.
     // |stream| is the data in annex B format, which may include SPS and PPS
     // NALUs when there is a configuration change. The first frame must contain
     // the SPS and PPS NALUs. SPS and PPS NALUs may not be encrypted.
     // |decrypt_config| is the config for decrypting the stream. The accelerator
     // should use |decrypt_config| to keep track of the parts of |stream| that
     // are encrypted. If kTryAgain is returned, the decoder will retry this call
     // later. This method has a default implementation that returns
     // kNotSupported.
     virtual Status SetStream(base::span<const uint8_t> stream,
                              const DecryptConfig* decrypt_config);

     // Parse a slice header, returning it in |*slice_header|. |slice_nalu| must
     // be a slice NALU. On success, this populates |*slice_header|. If the
     // Accelerator doesn't handle this slice header, then it should return
     // kNotSupported. This method has a default implementation that returns
     // kNotSupported.
     virtual Status ParseSliceHeader(const H264NALU& slice_nalu,
                                     H264SliceHeader* slice_header);

    private:
     DISALLOW_COPY_AND_ASSIGN(H264Accelerator);
   };

   H264Decoder(std::unique_ptr<H264Accelerator> accelerator,
               const VideoColorSpace& container_color_space = VideoColorSpace());
   ~H264Decoder() override;

   // AcceleratedVideoDecoder implementation.
   void SetStream(int32_t id,
                  const uint8_t* ptr,
                  size_t size,
                  const DecryptConfig* decrypt_config = nullptr) override;
   bool Flush() override WARN_UNUSED_RESULT;
   void Reset() override;
   DecodeResult Decode() override WARN_UNUSED_RESULT;
   gfx::Size GetPicSize() const override;
   size_t GetRequiredNumOfPictures() const override;
   size_t GetNumReferenceFrames() const override;

   // Return true if we need to start a new picture.
   static bool IsNewPrimaryCodedPicture(const H264Picture* curr_pic,
                                        int curr_pps_id,
                                        const H264SPS* sps,
                                        const H264SliceHeader& slice_hdr);

   // Fill a H264Picture in |pic| from given |sps| and |slice_hdr|. Return false
   // when there is an error.
   static bool FillH264PictureFromSliceHeader(const H264SPS* sps,
                                              const H264SliceHeader& slice_hdr,
                                              H264Picture* pic);

  private:
   // Internal state of the decoder.
   enum State {
     // After initialization, need an SPS.
     kNeedStreamMetadata,
     // Ready to decode from any point.
     kDecoding,
     // After Reset(), need a resume point.
     kAfterReset,
     // The following keep track of what step is next in Decode() processing
     // in order to resume properly after H264Decoder::kTryAgain (or another
     // retryable error) is returned. The next time Decode() is called the call
     // that previously failed will be retried and execution continues from
     // there (if possible).
     kTryPreprocessCurrentSlice,
     kEnsurePicture,
     kTryNewFrame,
     kTryCurrentSlice,
     // Error in decode, can't continue.
     kError,
   };

   // Process H264 stream structures.
   bool ProcessSPS(int sps_id, bool* need_new_buffers);
   // Process current slice header to discover if we need to start a new picture,
   // finishing up the current one.
   H264Accelerator::Status PreprocessCurrentSlice();
   // Process current slice as a slice of the current picture.
   H264Accelerator::Status ProcessCurrentSlice();

   // Initialize the current picture according to data in |slice_hdr|.
   bool InitCurrPicture(const H264SliceHeader* slice_hdr);

   // Initialize |pic| as a "non-existing" picture (see spec) with |frame_num|,
   // to be used for frame gap concealment.
   bool InitNonexistingPicture(scoped_refptr<H264Picture> pic, int frame_num);

   // Calculate picture order counts for |pic| on initialization
   // of a new frame (see spec).
   bool CalculatePicOrderCounts(scoped_refptr<H264Picture> pic);

   // Update PicNum values in pictures stored in DPB on creation of
   // a picture with |frame_num|.
   void UpdatePicNums(int frame_num);

   bool UpdateMaxNumReorderFrames(const H264SPS* sps);

   // Prepare reference picture lists for the current frame.
   void PrepareRefPicLists(const H264SliceHeader* slice_hdr);
   // Prepare reference picture lists for the given slice.
   bool ModifyReferencePicLists(const H264SliceHeader* slice_hdr,
                                H264Picture::Vector* ref_pic_list0,
                                H264Picture::Vector* ref_pic_list1);

   // Construct initial reference picture lists for use in decoding of
   // P and B pictures (see 8.2.4 in spec).
   void ConstructReferencePicListsP(const H264SliceHeader* slice_hdr);
   void ConstructReferencePicListsB(const H264SliceHeader* slice_hdr);

   // Helper functions for reference list construction, per spec.
   int PicNumF(const scoped_refptr<H264Picture>& pic);
   int LongTermPicNumF(const scoped_refptr<H264Picture>& pic);

   // Perform the reference picture lists' modification (reordering), as
   // specified in spec (8.2.4).
   //
   // |list| indicates list number and should be either 0 or 1.
   bool ModifyReferencePicList(const H264SliceHeader* slice_hdr,
                               int list,
                               H264Picture::Vector* ref_pic_listx);

   // Perform reference picture memory management operations (marking/unmarking
   // of reference pictures, long term picture management, discarding, etc.).
   // See 8.2.5 in spec.
   bool HandleMemoryManagementOps(scoped_refptr<H264Picture> pic);
   bool ReferencePictureMarking(scoped_refptr<H264Picture> pic);
   bool SlidingWindowPictureMarking();

   // Handle a gap in frame_num in the stream up to |frame_num|, by creating
   // "non-existing" pictures (see spec).
   bool HandleFrameNumGap(int frame_num);

   // Start processing a new frame.
   H264Accelerator::Status StartNewFrame(const H264SliceHeader* slice_hdr);

   // All data for a frame received, process it and decode.
   H264Accelerator::Status FinishPrevFrameIfPresent();

   // Called after we are done processing |pic|. Performs all operations to be
   // done after decoding, including DPB management, reference picture marking
   // and memory management operations.
   // This will also output pictures if any have become ready to be outputted
   // after processing |pic|.
   bool FinishPicture(scoped_refptr<H264Picture> pic);

   // Clear DPB contents and remove all surfaces in DPB from *in_use_ list.
   // Cleared pictures will be made available for decode, unless they are
   // at client waiting to be displayed.
   void ClearDPB();

   // Commits all pending data for HW decoder and starts HW decoder.
   H264Accelerator::Status DecodePicture();

   // Notifies client that a picture is ready for output.
   void OutputPic(scoped_refptr<H264Picture> pic);

   // Output all pictures in DPB that have not been outputted yet.
   bool OutputAllRemainingPics();

   // Decoder state.
   State state_;

   // The colorspace for the h264 container.
   const VideoColorSpace container_color_space_;

   // Parser in use.
   H264Parser parser_;

   // Most recent call to SetStream().
   const uint8_t* current_stream_ = nullptr;
   size_t current_stream_size_ = 0;

   // Decrypting config for the most recent data passed to SetStream().
   std::unique_ptr<DecryptConfig> current_decrypt_config_;

   // Keep track of when SetStream() is called so that
   // H264Accelerator::SetStream() can be called.
   bool current_stream_has_been_changed_ = false;

   // DPB in use.
   H264DPB dpb_;

   // Current stream buffer id; to be assigned to pictures decoded from it.
   int32_t stream_id_ = -1;

   // Picture currently being processed/decoded.
   scoped_refptr<H264Picture> curr_pic_;

   // Reference picture lists, constructed for each frame.
   H264Picture::Vector ref_pic_list_p0_;
   H264Picture::Vector ref_pic_list_b0_;
   H264Picture::Vector ref_pic_list_b1_;

   // Global state values, needed in decoding. See spec.
   int max_frame_num_;
   int max_pic_num_;
   int max_long_term_frame_idx_;
   size_t max_num_reorder_frames_;

   int prev_frame_num_;
   int prev_ref_frame_num_;
   int prev_frame_num_offset_;
   bool prev_has_memmgmnt5_;

   // Values related to previously decoded reference picture.
   bool prev_ref_has_memmgmnt5_;
   int prev_ref_top_field_order_cnt_;
   int prev_ref_pic_order_cnt_msb_;
   int prev_ref_pic_order_cnt_lsb_;
   H264Picture::Field prev_ref_field_;

   // Currently active SPS and PPS.
   int curr_sps_id_;
   int curr_pps_id_;

   // Current NALU and slice header being processed.
   std::unique_ptr<H264NALU> curr_nalu_;
   std::unique_ptr<H264SliceHeader> curr_slice_hdr_;

   // Output picture size.
   gfx::Size pic_size_;
   // Output visible cropping rect.
   gfx::Rect visible_rect_;

   // PicOrderCount of the previously outputted frame.
   int last_output_poc_;

   const std::unique_ptr<H264Accelerator> accelerator_;

   DISALLOW_COPY_AND_ASSIGN(H264Decoder);
 };

 }  // namespace media

 #endif  // MEDIA_GPU_H264_DECODER_H_
	// Copyright (c) 2012 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.

	#ifndef MEDIA_GPU_H264_DECODER_H_
	#define MEDIA_GPU_H264_DECODER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <vector>

	#include "base/containers/span.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "media/base/limits.h"
	#include "media/base/subsample_entry.h"
	#include "media/gpu/accelerated_video_decoder.h"
	#include "media/gpu/h264_dpb.h"
	#include "media/gpu/media_gpu_export.h"
	#include "media/video/h264_parser.h"
	#include "ui/gfx/geometry/rect.h"
	#include "ui/gfx/geometry/size.h"

	namespace media {

	// Clients of this class are expected to pass H264 Annex-B byte stream
	// and are expected to provide an implementation of H264Accelerator for
	// offloading final steps of the decoding process.
	//
	// This class must be created, called and destroyed on a single thread, and
	// does nothing internally on any other thread.
	class MEDIA_GPU_EXPORT H264Decoder : public AcceleratedVideoDecoder {
	public:
	class MEDIA_GPU_EXPORT H264Accelerator {
	public:
	// Methods may return kTryAgain if they need additional data (provided
	// independently) in order to proceed. Examples are things like not having
	// an appropriate key to decode encrypted content, or needing to wait
	// until hardware buffers are available. This is not considered an
	// unrecoverable error, but rather a pause to allow an application to
	// independently provide the required data. When H264Decoder::Decode()
	// is called again, it will attempt to resume processing of the stream
	// by calling the same method again.
	enum class Status {
	// Operation completed successfully.
	kOk,

	// Operation failed.
	kFail,

	// Operation failed because some external data is missing. Retry the same
	// operation later, once the data has been provided.
	kTryAgain,

	// Operation is not supported. Used by SetStream() and ParseSliceHeader()
	// to indicate that the Accelerator can not handle this operation.
	kNotSupported,
	};

	H264Accelerator();
	virtual ~H264Accelerator();

	// Create a new H264Picture that the decoder client can use for decoding
	// and pass back to this accelerator for decoding or reference.
	// When the picture is no longer needed by decoder, it will just drop
	// its reference to it, and it may do so at any time.
	// Note that this may return nullptr if accelerator is not able to provide
	// any new pictures at given time. The decoder is expected to handle
	// this situation as normal and return from Decode() with kRanOutOfSurfaces.
	virtual scoped_refptr<H264Picture> CreateH264Picture() = 0;

	// Submit metadata for the current frame, providing the current \|sps\| and
	// \|pps\| for it, \|dpb\| has to contain all the pictures in DPB for current
	// frame, and \|ref_pic_p0/b0/b1\| as specified in the H264 spec. Note that
	// depending on the frame type, either p0, or b0 and b1 are used. \|pic\|
	// contains information about the picture for the current frame.
	// Note that this does not run decode in the accelerator and the decoder
	// is expected to follow this call with one or more SubmitSlice() calls
	// before calling SubmitDecode().
	// Returns kOk if successful, kFail if there are errors, or kTryAgain if
	// the accelerator needs additional data before being able to proceed.
	virtual Status SubmitFrameMetadata(
	const H264SPS* sps,
	const H264PPS* pps,
	const H264DPB& dpb,
	const H264Picture::Vector& ref_pic_listp0,
	const H264Picture::Vector& ref_pic_listb0,
	const H264Picture::Vector& ref_pic_listb1,
	const scoped_refptr<H264Picture>& pic) = 0;

	// Submit one slice for the current frame, passing the current \|pps\| and
	// \|pic\| (same as in SubmitFrameMetadata()), the parsed header for the
	// current slice in \|slice_hdr\|, and the reordered \|ref_pic_listX\|,
	// as per H264 spec.
	// \|data\| pointing to the full slice (including the unparsed header) of
	// \|size\| in bytes.
	// \|subsamples\| specifies which part of the slice data is encrypted.
	// This must be called one or more times per frame, before SubmitDecode().
	// Note that \|data\| does not have to remain valid after this call returns.
	// Returns kOk if successful, kFail if there are errors, or kTryAgain if
	// the accelerator needs additional data before being able to proceed.
	virtual Status SubmitSlice(
	const H264PPS* pps,
	const H264SliceHeader* slice_hdr,
	const H264Picture::Vector& ref_pic_list0,
	const H264Picture::Vector& ref_pic_list1,
	const scoped_refptr<H264Picture>& pic,
	const uint8_t* data,
	size_t size,
	const std::vector<SubsampleEntry>& subsamples) = 0;

	// Execute the decode in hardware for \|pic\|, using all the slices and
	// metadata submitted via SubmitFrameMetadata() and SubmitSlice() since
	// the previous call to SubmitDecode().
	// Returns kOk if successful, kFail if there are errors, or kTryAgain if
	// the accelerator needs additional data before being able to proceed.
	virtual Status SubmitDecode(const scoped_refptr<H264Picture>& pic) = 0;

	// Schedule output (display) of \|pic\|. Note that returning from this
	// method does not mean that \|pic\| has already been outputted (displayed),
	// but guarantees that all pictures will be outputted in the same order
	// as this method was called for them. Decoder may drop its reference
	// to \|pic\| after calling this method.
	// Return true if successful.
	virtual bool OutputPicture(const scoped_refptr<H264Picture>& pic) = 0;

	// Reset any current state that may be cached in the accelerator, dropping
	// any cached parameters/slices that have not been committed yet.
	virtual void Reset() = 0;

	// Notifies the accelerator whenever there is a new stream to process.
	// \|stream\| is the data in annex B format, which may include SPS and PPS
	// NALUs when there is a configuration change. The first frame must contain
	// the SPS and PPS NALUs. SPS and PPS NALUs may not be encrypted.
	// \|decrypt_config\| is the config for decrypting the stream. The accelerator
	// should use \|decrypt_config\| to keep track of the parts of \|stream\| that
	// are encrypted. If kTryAgain is returned, the decoder will retry this call
	// later. This method has a default implementation that returns
	// kNotSupported.
	virtual Status SetStream(base::span<const uint8_t> stream,
	const DecryptConfig* decrypt_config);

	// Parse a slice header, returning it in \|*slice_header\|. \|slice_nalu\| must
	// be a slice NALU. On success, this populates \|*slice_header\|. If the
	// Accelerator doesn't handle this slice header, then it should return
	// kNotSupported. This method has a default implementation that returns
	// kNotSupported.
	virtual Status ParseSliceHeader(const H264NALU& slice_nalu,
	H264SliceHeader* slice_header);

	private:
	DISALLOW_COPY_AND_ASSIGN(H264Accelerator);
	};

	H264Decoder(std::unique_ptr<H264Accelerator> accelerator,
	const VideoColorSpace& container_color_space = VideoColorSpace());
	~H264Decoder() override;

	// AcceleratedVideoDecoder implementation.
	void SetStream(int32_t id,
	const uint8_t* ptr,
	size_t size,
	const DecryptConfig* decrypt_config = nullptr) override;
	bool Flush() override WARN_UNUSED_RESULT;
	void Reset() override;
	DecodeResult Decode() override WARN_UNUSED_RESULT;
	gfx::Size GetPicSize() const override;
	size_t GetRequiredNumOfPictures() const override;
	size_t GetNumReferenceFrames() const override;

	// Return true if we need to start a new picture.
	static bool IsNewPrimaryCodedPicture(const H264Picture* curr_pic,
	int curr_pps_id,
	const H264SPS* sps,
	const H264SliceHeader& slice_hdr);

	// Fill a H264Picture in \|pic\| from given \|sps\| and \|slice_hdr\|. Return false
	// when there is an error.
	static bool FillH264PictureFromSliceHeader(const H264SPS* sps,
	const H264SliceHeader& slice_hdr,
	H264Picture* pic);

	private:
	// Internal state of the decoder.
	enum State {
	// After initialization, need an SPS.
	kNeedStreamMetadata,
	// Ready to decode from any point.
	kDecoding,
	// After Reset(), need a resume point.
	kAfterReset,
	// The following keep track of what step is next in Decode() processing
	// in order to resume properly after H264Decoder::kTryAgain (or another
	// retryable error) is returned. The next time Decode() is called the call
	// that previously failed will be retried and execution continues from
	// there (if possible).
	kTryPreprocessCurrentSlice,
	kEnsurePicture,
	kTryNewFrame,
	kTryCurrentSlice,
	// Error in decode, can't continue.
	kError,
	};

	// Process H264 stream structures.
	bool ProcessSPS(int sps_id, bool* need_new_buffers);
	// Process current slice header to discover if we need to start a new picture,
	// finishing up the current one.
	H264Accelerator::Status PreprocessCurrentSlice();
	// Process current slice as a slice of the current picture.
	H264Accelerator::Status ProcessCurrentSlice();

	// Initialize the current picture according to data in \|slice_hdr\|.
	bool InitCurrPicture(const H264SliceHeader* slice_hdr);

	// Initialize \|pic\| as a "non-existing" picture (see spec) with \|frame_num\|,
	// to be used for frame gap concealment.
	bool InitNonexistingPicture(scoped_refptr<H264Picture> pic, int frame_num);

	// Calculate picture order counts for \|pic\| on initialization
	// of a new frame (see spec).
	bool CalculatePicOrderCounts(scoped_refptr<H264Picture> pic);

	// Update PicNum values in pictures stored in DPB on creation of
	// a picture with \|frame_num\|.
	void UpdatePicNums(int frame_num);

	bool UpdateMaxNumReorderFrames(const H264SPS* sps);

	// Prepare reference picture lists for the current frame.
	void PrepareRefPicLists(const H264SliceHeader* slice_hdr);
	// Prepare reference picture lists for the given slice.
	bool ModifyReferencePicLists(const H264SliceHeader* slice_hdr,
	H264Picture::Vector* ref_pic_list0,
	H264Picture::Vector* ref_pic_list1);

	// Construct initial reference picture lists for use in decoding of
	// P and B pictures (see 8.2.4 in spec).
	void ConstructReferencePicListsP(const H264SliceHeader* slice_hdr);
	void ConstructReferencePicListsB(const H264SliceHeader* slice_hdr);

	// Helper functions for reference list construction, per spec.
	int PicNumF(const scoped_refptr<H264Picture>& pic);
	int LongTermPicNumF(const scoped_refptr<H264Picture>& pic);

	// Perform the reference picture lists' modification (reordering), as
	// specified in spec (8.2.4).
	//
	// \|list\| indicates list number and should be either 0 or 1.
	bool ModifyReferencePicList(const H264SliceHeader* slice_hdr,
	int list,
	H264Picture::Vector* ref_pic_listx);

	// Perform reference picture memory management operations (marking/unmarking
	// of reference pictures, long term picture management, discarding, etc.).
	// See 8.2.5 in spec.
	bool HandleMemoryManagementOps(scoped_refptr<H264Picture> pic);
	bool ReferencePictureMarking(scoped_refptr<H264Picture> pic);
	bool SlidingWindowPictureMarking();

	// Handle a gap in frame_num in the stream up to \|frame_num\|, by creating
	// "non-existing" pictures (see spec).
	bool HandleFrameNumGap(int frame_num);

	// Start processing a new frame.
	H264Accelerator::Status StartNewFrame(const H264SliceHeader* slice_hdr);

	// All data for a frame received, process it and decode.
	H264Accelerator::Status FinishPrevFrameIfPresent();

	// Called after we are done processing \|pic\|. Performs all operations to be
	// done after decoding, including DPB management, reference picture marking
	// and memory management operations.
	// This will also output pictures if any have become ready to be outputted
	// after processing \|pic\|.
	bool FinishPicture(scoped_refptr<H264Picture> pic);

	// Clear DPB contents and remove all surfaces in DPB from *in_use_ list.
	// Cleared pictures will be made available for decode, unless they are
	// at client waiting to be displayed.
	void ClearDPB();

	// Commits all pending data for HW decoder and starts HW decoder.
	H264Accelerator::Status DecodePicture();

	// Notifies client that a picture is ready for output.
	void OutputPic(scoped_refptr<H264Picture> pic);

	// Output all pictures in DPB that have not been outputted yet.
	bool OutputAllRemainingPics();

	// Decoder state.
	State state_;

	// The colorspace for the h264 container.
	const VideoColorSpace container_color_space_;

	// Parser in use.
	H264Parser parser_;

	// Most recent call to SetStream().
	const uint8_t* current_stream_ = nullptr;
	size_t current_stream_size_ = 0;

	// Decrypting config for the most recent data passed to SetStream().
	std::unique_ptr<DecryptConfig> current_decrypt_config_;

	// Keep track of when SetStream() is called so that
	// H264Accelerator::SetStream() can be called.
	bool current_stream_has_been_changed_ = false;

	// DPB in use.
	H264DPB dpb_;

	// Current stream buffer id; to be assigned to pictures decoded from it.
	int32_t stream_id_ = -1;

	// Picture currently being processed/decoded.
	scoped_refptr<H264Picture> curr_pic_;

	// Reference picture lists, constructed for each frame.
	H264Picture::Vector ref_pic_list_p0_;
	H264Picture::Vector ref_pic_list_b0_;
	H264Picture::Vector ref_pic_list_b1_;

	// Global state values, needed in decoding. See spec.
	int max_frame_num_;
	int max_pic_num_;
	int max_long_term_frame_idx_;
	size_t max_num_reorder_frames_;

	int prev_frame_num_;
	int prev_ref_frame_num_;
	int prev_frame_num_offset_;
	bool prev_has_memmgmnt5_;

	// Values related to previously decoded reference picture.
	bool prev_ref_has_memmgmnt5_;
	int prev_ref_top_field_order_cnt_;
	int prev_ref_pic_order_cnt_msb_;
	int prev_ref_pic_order_cnt_lsb_;
	H264Picture::Field prev_ref_field_;

	// Currently active SPS and PPS.
	int curr_sps_id_;
	int curr_pps_id_;

	// Current NALU and slice header being processed.
	std::unique_ptr<H264NALU> curr_nalu_;
	std::unique_ptr<H264SliceHeader> curr_slice_hdr_;

	// Output picture size.
	gfx::Size pic_size_;
	// Output visible cropping rect.
	gfx::Rect visible_rect_;

	// PicOrderCount of the previously outputted frame.
	int last_output_poc_;

	const std::unique_ptr<H264Accelerator> accelerator_;

	DISALLOW_COPY_AND_ASSIGN(H264Decoder);
	};

	} // namespace media

	#endif // MEDIA_GPU_H264_DECODER_H_