src/cobalt/media/filters/h264_bitstream_buffer.h - cobalt - Git at Google

 // Copyright 2014 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.
 //
 // This file contains an implementation of a H264BitstreamBuffer class for
 // constructing raw bitstream buffers containing NAL units in
 // H.264 Annex-B stream format.
 // See H.264 spec Annex B and chapter 7for more details.

 #ifndef COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_
 #define COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_

 #include "base/gtest_prod_util.h"
 #include "cobalt/media/base/media_export.h"
 #include "cobalt/media/filters/h264_parser.h"
 #include "starboard/types.h"

 namespace cobalt {
 namespace media {

 // Holds one or more NALUs as a raw bitstream buffer in H.264 Annex-B format.
 // Note that this class currently does NOT insert emulation prevention
 // three-byte sequences (spec 7.3.1).
 class MEDIA_EXPORT H264BitstreamBuffer {
  public:
   H264BitstreamBuffer();
   ~H264BitstreamBuffer();

   // Discard all data and reset the buffer for reuse.
   void Reset();

   // Append |num_bits| bits to the stream from |val|.
   // |val| is interpreted in the host endianness.
   template <typename T>
   void AppendBits(size_t num_bits, T val) {
     AppendU64(num_bits, static_cast<uint64_t>(val));
   }

   void AppendBits(size_t num_bits, bool val) {
     DCHECK_EQ(num_bits, 1ul);
     AppendBool(val);
   }

   // Append a one-bit bool/flag value |val| to the stream.
   void AppendBool(bool val);

   // Append a signed value in |val| in Exp-Golomb code.
   void AppendSE(int val);

   // Append an unsigned value in |val| in Exp-Golomb code.
   void AppendUE(unsigned int val);

   // Start a new NALU of type |nalu_type| and with given |nal_ref_idc|
   // (see spec). Note, that until FinishNALU() is called, some of the bits
   // may not be flushed into the buffer and the data will not be correctly
   // aligned with trailing bits.
   void BeginNALU(H264NALU::Type nalu_type, int nal_ref_idc);

   // Finish current NALU. This will flush any cached bits and correctly align
   // the buffer with RBSP trailing bits. This MUST be called for the stream
   // returned by data() to be correct.
   void FinishNALU();

   // Return number of full bytes in the stream. Note that FinishNALU() has to
   // be called to flush cached bits, or the return value will not include them.
   size_t BytesInBuffer();

   // Return a pointer to the stream. FinishNALU() must be called before
   // accessing the stream, otherwise some bits may still be cached and not
   // in the buffer.
   uint8_t* data();

  private:
   FRIEND_TEST_ALL_PREFIXES(H264BitstreamBufferAppendBitsTest,
                            AppendAndVerifyBits);

   // Allocate additional memory (kGrowBytes bytes) for the buffer.
   void Grow();

   // Append |num_bits| bits from U64 value |val| (in host endianness).
   void AppendU64(size_t num_bits, uint64_t val);

   // Flush any cached bits in the reg with byte granularity, i.e. enough
   // bytes to flush all pending bits, but not more.
   void FlushReg();

   typedef uint64_t RegType;
   enum {
     // Sizes of reg_.
     kRegByteSize = sizeof(RegType),
     kRegBitSize = kRegByteSize * 8,
     // Amount of bytes to grow the buffer by when we run out of
     // previously-allocated memory for it.
     kGrowBytes = 4096,
   };

   COMPILE_ASSERT(kGrowBytes >= kRegByteSize,
                  kGrowBytes_must_be_larger_than_kRegByteSize);

   // Unused bits left in reg_.
   size_t bits_left_in_reg_;

   // Cache for appended bits. Bits are flushed to data_ with kRegByteSize
   // granularity, i.e. when reg_ becomes full, or when an explicit FlushReg()
   // is called.
   RegType reg_;

   // Current capacity of data_, in bytes.
   size_t capacity_;

   // Current byte offset in data_ (points to the start of unwritten bits).
   size_t pos_;

   // Buffer for stream data.
   uint8_t* data_;
 };

 }  // namespace media
 }  // namespace cobalt

 #endif  // COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_
	// Copyright 2014 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.
	//
	// This file contains an implementation of a H264BitstreamBuffer class for
	// constructing raw bitstream buffers containing NAL units in
	// H.264 Annex-B stream format.
	// See H.264 spec Annex B and chapter 7for more details.

	#ifndef COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_
	#define COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_

	#include "base/gtest_prod_util.h"
	#include "cobalt/media/base/media_export.h"
	#include "cobalt/media/filters/h264_parser.h"
	#include "starboard/types.h"

	namespace cobalt {
	namespace media {

	// Holds one or more NALUs as a raw bitstream buffer in H.264 Annex-B format.
	// Note that this class currently does NOT insert emulation prevention
	// three-byte sequences (spec 7.3.1).
	class MEDIA_EXPORT H264BitstreamBuffer {
	public:
	H264BitstreamBuffer();
	~H264BitstreamBuffer();

	// Discard all data and reset the buffer for reuse.
	void Reset();

	// Append \|num_bits\| bits to the stream from \|val\|.
	// \|val\| is interpreted in the host endianness.
	template <typename T>
	void AppendBits(size_t num_bits, T val) {
	AppendU64(num_bits, static_cast<uint64_t>(val));
	}

	void AppendBits(size_t num_bits, bool val) {
	DCHECK_EQ(num_bits, 1ul);
	AppendBool(val);
	}

	// Append a one-bit bool/flag value \|val\| to the stream.
	void AppendBool(bool val);

	// Append a signed value in \|val\| in Exp-Golomb code.
	void AppendSE(int val);

	// Append an unsigned value in \|val\| in Exp-Golomb code.
	void AppendUE(unsigned int val);

	// Start a new NALU of type \|nalu_type\| and with given \|nal_ref_idc\|
	// (see spec). Note, that until FinishNALU() is called, some of the bits
	// may not be flushed into the buffer and the data will not be correctly
	// aligned with trailing bits.
	void BeginNALU(H264NALU::Type nalu_type, int nal_ref_idc);

	// Finish current NALU. This will flush any cached bits and correctly align
	// the buffer with RBSP trailing bits. This MUST be called for the stream
	// returned by data() to be correct.
	void FinishNALU();

	// Return number of full bytes in the stream. Note that FinishNALU() has to
	// be called to flush cached bits, or the return value will not include them.
	size_t BytesInBuffer();

	// Return a pointer to the stream. FinishNALU() must be called before
	// accessing the stream, otherwise some bits may still be cached and not
	// in the buffer.
	uint8_t* data();

	private:
	FRIEND_TEST_ALL_PREFIXES(H264BitstreamBufferAppendBitsTest,
	AppendAndVerifyBits);

	// Allocate additional memory (kGrowBytes bytes) for the buffer.
	void Grow();

	// Append \|num_bits\| bits from U64 value \|val\| (in host endianness).
	void AppendU64(size_t num_bits, uint64_t val);

	// Flush any cached bits in the reg with byte granularity, i.e. enough
	// bytes to flush all pending bits, but not more.
	void FlushReg();

	typedef uint64_t RegType;
	enum {
	// Sizes of reg_.
	kRegByteSize = sizeof(RegType),
	kRegBitSize = kRegByteSize * 8,
	// Amount of bytes to grow the buffer by when we run out of
	// previously-allocated memory for it.
	kGrowBytes = 4096,
	};

	COMPILE_ASSERT(kGrowBytes >= kRegByteSize,
	kGrowBytes_must_be_larger_than_kRegByteSize);

	// Unused bits left in reg_.
	size_t bits_left_in_reg_;

	// Cache for appended bits. Bits are flushed to data_ with kRegByteSize
	// granularity, i.e. when reg_ becomes full, or when an explicit FlushReg()
	// is called.
	RegType reg_;

	// Current capacity of data_, in bytes.
	size_t capacity_;

	// Current byte offset in data_ (points to the start of unwritten bits).
	size_t pos_;

	// Buffer for stream data.
	uint8_t* data_;
	};

	} // namespace media
	} // namespace cobalt

	#endif // COBALT_MEDIA_FILTERS_H264_BITSTREAM_BUFFER_H_