src/cobalt/media/base/stream_parser_unittest.cc - 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.

 #include <algorithm>
 #include <map>
 #include <sstream>

 #include "base/basictypes.h"
 #include "cobalt/media/base/stream_parser.h"
 #include "cobalt/media/base/stream_parser_buffer.h"
 #include "starboard/types.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace cobalt {
 namespace media {

 typedef StreamParser::TrackId TrackId;
 typedef StreamParser::BufferQueue BufferQueue;

 const int kEnd = -1;
 const uint8_t kFakeData[] = {0xFF};
 const TrackId kAudioTrackId = 0;
 const TrackId kVideoTrackId = 1;
 const TrackId kTextTrackIdA = 2;
 const TrackId kTextTrackIdB = 3;

 static bool IsAudio(scoped_refptr<StreamParserBuffer> buffer) {
   return buffer->type() == DemuxerStream::AUDIO;
 }

 static bool IsVideo(scoped_refptr<StreamParserBuffer> buffer) {
   return buffer->type() == DemuxerStream::VIDEO;
 }

 static bool IsText(scoped_refptr<StreamParserBuffer> buffer) {
   return buffer->type() == DemuxerStream::TEXT;
 }

 // Creates and appends a sequence of StreamParserBuffers to the provided
 // |queue|. |decode_timestamps| determines the number of appended buffers and
 // their sequence of decode timestamps; a |kEnd| timestamp indicates the
 // end of the sequence and no buffer is appended for it. Each new buffer's
 // type will be |type| with track ID set to |track_id|.
 static void GenerateBuffers(const int* decode_timestamps,
                             StreamParserBuffer::Type type, TrackId track_id,
                             BufferQueue* queue) {
   DCHECK(decode_timestamps);
   DCHECK(queue);
   DCHECK_NE(type, DemuxerStream::UNKNOWN);
   DCHECK_LT(type, DemuxerStream::NUM_TYPES);
   for (int i = 0; decode_timestamps[i] != kEnd; ++i) {
     scoped_refptr<StreamParserBuffer> buffer = StreamParserBuffer::CopyFrom(
         kFakeData, sizeof(kFakeData), true, type, track_id);
     buffer->SetDecodeTimestamp(
         DecodeTimestamp::FromMicroseconds(decode_timestamps[i]));
     queue->push_back(buffer);
   }
 }

 class StreamParserTest : public testing::Test {
  protected:
   StreamParserTest() {}

   // Returns the number of buffers in |merged_buffers_| for which |predicate|
   // returns true.
   size_t CountMatchingMergedBuffers(
       bool (*predicate)(scoped_refptr<StreamParserBuffer> buffer)) {
     return static_cast<size_t>(
         count_if(merged_buffers_.begin(), merged_buffers_.end(), predicate));
   }

   // Appends test audio buffers in the sequence described by |decode_timestamps|
   // to |audio_buffers_|. See GenerateBuffers() for |decode_timestamps| format.
   void GenerateAudioBuffers(const int* decode_timestamps) {
     GenerateBuffers(decode_timestamps, DemuxerStream::AUDIO, kAudioTrackId,
                     &buffer_queue_map_[kAudioTrackId]);
   }

   // Appends test video buffers in the sequence described by |decode_timestamps|
   // to |video_buffers_|. See GenerateBuffers() for |decode_timestamps| format.
   void GenerateVideoBuffers(const int* decode_timestamps) {
     GenerateBuffers(decode_timestamps, DemuxerStream::VIDEO, kVideoTrackId,
                     &buffer_queue_map_[kVideoTrackId]);
   }

   // Current tests only need up to two distinct text BufferQueues. This helper
   // conditionally appends buffers to the underlying |buffer_queue_map_| keyed
   // by the respective track ID. If |decode_timestamps_{a,b}|
   // is NULL, then the corresponding BufferQueue is not changed at all.
   // Note that key collision on map insertion does not replace the previous
   // value.
   void GenerateTextBuffers(const int* decode_timestamps_a,
                            const int* decode_timestamps_b) {
     if (decode_timestamps_a) {
       GenerateBuffers(decode_timestamps_a, DemuxerStream::TEXT, kTextTrackIdA,
                       &buffer_queue_map_[kTextTrackIdA]);
     }

     if (decode_timestamps_b) {
       GenerateBuffers(decode_timestamps_b, DemuxerStream::TEXT, kTextTrackIdB,
                       &buffer_queue_map_[kTextTrackIdB]);
     }
   }

   // Returns a string that describes the sequence of buffers in
   // |merged_buffers_|. The string is a concatenation of space-delimited buffer
   // descriptors in the same sequence as |merged_buffers_|. Each descriptor is
   // the concatenation of
   // 1) a single character that describes the buffer's type(), e.g. A, V, or T
   //    for audio, video, or text, respectively
   // 2) the buffer's track_id()
   // 3) ":"
   // 4) the buffer's decode timestamp.
   // If |include_type_and_text_track| is false, then items 1, 2, and 3 are
   // not included in descriptors. This is useful when buffers with different
   // media types but the same decode timestamp are expected, and the exact
   // sequence of media types for the tying timestamps is not subject to
   // verification.
   std::string MergedBufferQueueString(bool include_type_and_text_track) {
     std::stringstream results_stream;
     for (BufferQueue::const_iterator itr = merged_buffers_.begin();
          itr != merged_buffers_.end(); ++itr) {
       if (itr != merged_buffers_.begin()) results_stream << " ";
       const StreamParserBuffer& buffer = *(itr->get());
       if (include_type_and_text_track) {
         switch (buffer.type()) {
           case DemuxerStream::AUDIO:
             results_stream << "A";
             break;
           case DemuxerStream::VIDEO:
             results_stream << "V";
             break;
           case DemuxerStream::TEXT:
             results_stream << "T";

             break;
           default:
             NOTREACHED();
         }
         results_stream << buffer.track_id() << ":";
       }
       results_stream << buffer.GetDecodeTimestamp().InMicroseconds();
     }

     return results_stream.str();
   }

   // Verifies that MergeBufferQueues() of the current |audio_buffers_|,
   // |video_buffers_|, |text_map_|, and |merged_buffers_| returns true and
   // results in an updated |merged_buffers_| that matches expectation. The
   // expectation, specified in |expected|, is compared to the string resulting
   // from MergedBufferQueueString() (see comments for that method) with
   // |verify_type_and_text_track_sequence| passed. |merged_buffers_| is appended
   // to by the merge, and may be setup by the caller to have some pre-existing
   // buffers; it is both an input and output of this method.
   // Regardless of |verify_type_and_text_track_sequence|, the marginal number
   // of buffers of each type (audio, video, text) resulting from the merge is
   // also verified to match the number of buffers in |audio_buffers_|,
   // |video_buffers_|, and |text_map_|, respectively.
   void VerifyMergeSuccess(const std::string& expected,
                           bool verify_type_and_text_track_sequence) {
     // |merged_buffers| may already have some buffers. Count them by type for
     // later inclusion in verification.
     size_t original_audio_in_merged = CountMatchingMergedBuffers(IsAudio);
     size_t original_video_in_merged = CountMatchingMergedBuffers(IsVideo);
     size_t original_text_in_merged = CountMatchingMergedBuffers(IsText);

     EXPECT_TRUE(MergeBufferQueues(buffer_queue_map_, &merged_buffers_));

     // Verify resulting contents of |merged_buffers| matches |expected|.
     EXPECT_EQ(expected,
               MergedBufferQueueString(verify_type_and_text_track_sequence));

     // Verify that the correct number of each type of buffer is in the merge
     // result.
     size_t audio_in_merged = CountMatchingMergedBuffers(IsAudio);
     size_t video_in_merged = CountMatchingMergedBuffers(IsVideo);
     size_t text_in_merged = CountMatchingMergedBuffers(IsText);

     EXPECT_GE(audio_in_merged, original_audio_in_merged);
     EXPECT_GE(video_in_merged, original_video_in_merged);
     EXPECT_GE(text_in_merged, original_text_in_merged);

     EXPECT_EQ(buffer_queue_map_[kAudioTrackId].size(),
               audio_in_merged - original_audio_in_merged);
     if (buffer_queue_map_[kAudioTrackId].empty())
       buffer_queue_map_.erase(kAudioTrackId);
     EXPECT_EQ(buffer_queue_map_[kVideoTrackId].size(),
               video_in_merged - original_video_in_merged);
     if (buffer_queue_map_[kVideoTrackId].empty())
       buffer_queue_map_.erase(kVideoTrackId);

     size_t expected_text_buffer_count = 0;
     expected_text_buffer_count += buffer_queue_map_[kTextTrackIdA].size();
     if (buffer_queue_map_[kTextTrackIdA].empty())
       buffer_queue_map_.erase(kTextTrackIdA);
     expected_text_buffer_count += buffer_queue_map_[kTextTrackIdB].size();
     if (buffer_queue_map_[kTextTrackIdB].empty())
       buffer_queue_map_.erase(kTextTrackIdB);
     EXPECT_EQ(expected_text_buffer_count,
               text_in_merged - original_text_in_merged);
   }

   // Verifies that MergeBufferQueues() of the current |buffer_queue_map_| and
   // |merged_buffers_| returns false.
   void VerifyMergeFailure() {
     EXPECT_FALSE(MergeBufferQueues(buffer_queue_map_, &merged_buffers_));
   }

   // Helper to allow tests to clear all the input BufferQueues (except
   // |merged_buffers_|) and the BufferQueueMap that are used in
   // VerifyMerge{Success/Failure}().
   void ClearBufferQueuesButKeepAnyMergedBuffers() { buffer_queue_map_.clear(); }

  private:
   StreamParser::BufferQueueMap buffer_queue_map_;
   BufferQueue merged_buffers_;

   DISALLOW_COPY_AND_ASSIGN(StreamParserTest);
 };

 TEST_F(StreamParserTest, MergeBufferQueues_AllEmpty) {
   std::string expected = "";
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_SingleAudioBuffer) {
   std::string expected = "A0:100";
   int audio_timestamps[] = {100, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_SingleVideoBuffer) {
   std::string expected = "V1:100";
   int video_timestamps[] = {100, kEnd};
   GenerateVideoBuffers(video_timestamps);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_SingleTextBuffer) {
   std::string expected = "T2:100";
   int text_timestamps[] = {100, kEnd};
   GenerateTextBuffers(text_timestamps, NULL);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_OverlappingAudioVideo) {
   std::string expected = "A0:100 V1:101 V1:102 A0:103 A0:104 V1:105";
   int audio_timestamps[] = {100, 103, 104, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {101, 102, 105, kEnd};
   GenerateVideoBuffers(video_timestamps);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_OverlappingMultipleText) {
   std::string expected = "T2:100 T2:101 T3:103 T2:104 T3:105 T3:106";
   int text_timestamps_a[] = {100, 101, 104, kEnd};
   int text_timestamps_b[] = {103, 105, 106, kEnd};
   GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_OverlappingAudioVideoText) {
   std::string expected =
       "A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
       "T2:107";
   int audio_timestamps[] = {100, 105, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {101, 103, 106, kEnd};
   GenerateVideoBuffers(video_timestamps);
   int text_timestamps_a[] = {102, 107, kEnd};
   int text_timestamps_b[] = {104, kEnd};
   GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_NonDecreasingNoCrossMediaDuplicate) {
   std::string expected =
       "A0:100 A0:100 A0:100 V1:101 V1:101 V1:101 A0:102 "
       "V1:103 V1:103";
   int audio_timestamps[] = {100, 100, 100, 102, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {101, 101, 101, 103, 103, kEnd};
   GenerateVideoBuffers(video_timestamps);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_CrossStreamDuplicates) {
   // Interface keeps the choice undefined of which stream's buffer wins the
   // selection when timestamps are tied. Verify at least the right number of
   // each kind of buffer results, and that buffers are in nondecreasing order.
   std::string expected = "100 100 100 100 100 100 102 102 102 102 102 102 102";
   int audio_timestamps[] = {100, 100, 100, 102, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {100, 100, 102, 102, 102, kEnd};
   GenerateVideoBuffers(video_timestamps);
   int text_timestamps[] = {100, 102, 102, 102, kEnd};
   GenerateTextBuffers(text_timestamps, NULL);
   VerifyMergeSuccess(expected, false);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_InvalidDecreasingSingleStream) {
   int audio_timestamps[] = {101, 102, 100, 103, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   VerifyMergeFailure();
 }

 TEST_F(StreamParserTest, MergeBufferQueues_InvalidDecreasingMultipleStreams) {
   int audio_timestamps[] = {101, 102, 100, 103, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {104, 100, kEnd};
   GenerateVideoBuffers(video_timestamps);
   VerifyMergeFailure();
 }

 TEST_F(StreamParserTest, MergeBufferQueues_ValidAppendToExistingMerge) {
   std::string expected =
       "A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
       "T2:107";
   int audio_timestamps[] = {100, 105, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {101, 103, 106, kEnd};
   GenerateVideoBuffers(video_timestamps);
   int text_timestamps_a[] = {102, 107, kEnd};
   int text_timestamps_b[] = {104, kEnd};
   GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
   VerifyMergeSuccess(expected, true);

   ClearBufferQueuesButKeepAnyMergedBuffers();

   expected =
       "A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 T2:107 "
       "A0:107 V1:111 T2:112 V1:113 T3:114 A0:115 V1:116 T2:117";
   int more_audio_timestamps[] = {107, 115, kEnd};
   GenerateAudioBuffers(more_audio_timestamps);
   int more_video_timestamps[] = {111, 113, 116, kEnd};
   GenerateVideoBuffers(more_video_timestamps);
   int more_text_timestamps_a[] = {112, 117, kEnd};
   int more_text_timestamps_b[] = {114, kEnd};
   GenerateTextBuffers(more_text_timestamps_a, more_text_timestamps_b);
   VerifyMergeSuccess(expected, true);
 }

 TEST_F(StreamParserTest, MergeBufferQueues_InvalidAppendToExistingMerge) {
   std::string expected =
       "A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
       "T2:107";
   int audio_timestamps[] = {100, 105, kEnd};
   GenerateAudioBuffers(audio_timestamps);
   int video_timestamps[] = {101, 103, 106, kEnd};
   GenerateVideoBuffers(video_timestamps);
   int text_timestamps_a[] = {102, 107, kEnd};
   int text_timestamps_b[] = {104, kEnd};
   GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
   VerifyMergeSuccess(expected, true);

   // Appending empty buffers to pre-existing merge result should succeed and not
   // change the existing result.
   ClearBufferQueuesButKeepAnyMergedBuffers();
   VerifyMergeSuccess(expected, true);

   // But appending something with a lower timestamp than the last timestamp
   // in the pre-existing merge result should fail.
   int more_audio_timestamps[] = {106, kEnd};
   GenerateAudioBuffers(more_audio_timestamps);
   VerifyMergeFailure();
 }

 }  // namespace media
 }  // namespace cobalt
	// 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.

	#include <algorithm>
	#include <map>
	#include <sstream>

	#include "base/basictypes.h"
	#include "cobalt/media/base/stream_parser.h"
	#include "cobalt/media/base/stream_parser_buffer.h"
	#include "starboard/types.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace cobalt {
	namespace media {

	typedef StreamParser::TrackId TrackId;
	typedef StreamParser::BufferQueue BufferQueue;

	const int kEnd = -1;
	const uint8_t kFakeData[] = {0xFF};
	const TrackId kAudioTrackId = 0;
	const TrackId kVideoTrackId = 1;
	const TrackId kTextTrackIdA = 2;
	const TrackId kTextTrackIdB = 3;

	static bool IsAudio(scoped_refptr<StreamParserBuffer> buffer) {
	return buffer->type() == DemuxerStream::AUDIO;
	}

	static bool IsVideo(scoped_refptr<StreamParserBuffer> buffer) {
	return buffer->type() == DemuxerStream::VIDEO;
	}

	static bool IsText(scoped_refptr<StreamParserBuffer> buffer) {
	return buffer->type() == DemuxerStream::TEXT;
	}

	// Creates and appends a sequence of StreamParserBuffers to the provided
	// \|queue\|. \|decode_timestamps\| determines the number of appended buffers and
	// their sequence of decode timestamps; a \|kEnd\| timestamp indicates the
	// end of the sequence and no buffer is appended for it. Each new buffer's
	// type will be \|type\| with track ID set to \|track_id\|.
	static void GenerateBuffers(const int* decode_timestamps,
	StreamParserBuffer::Type type, TrackId track_id,
	BufferQueue* queue) {
	DCHECK(decode_timestamps);
	DCHECK(queue);
	DCHECK_NE(type, DemuxerStream::UNKNOWN);
	DCHECK_LT(type, DemuxerStream::NUM_TYPES);
	for (int i = 0; decode_timestamps[i] != kEnd; ++i) {
	scoped_refptr<StreamParserBuffer> buffer = StreamParserBuffer::CopyFrom(
	kFakeData, sizeof(kFakeData), true, type, track_id);
	buffer->SetDecodeTimestamp(
	DecodeTimestamp::FromMicroseconds(decode_timestamps[i]));
	queue->push_back(buffer);
	}
	}

	class StreamParserTest : public testing::Test {
	protected:
	StreamParserTest() {}

	// Returns the number of buffers in \|merged_buffers_\| for which \|predicate\|
	// returns true.
	size_t CountMatchingMergedBuffers(
	bool (*predicate)(scoped_refptr<StreamParserBuffer> buffer)) {
	return static_cast<size_t>(
	count_if(merged_buffers_.begin(), merged_buffers_.end(), predicate));
	}

	// Appends test audio buffers in the sequence described by \|decode_timestamps\|
	// to \|audio_buffers_\|. See GenerateBuffers() for \|decode_timestamps\| format.
	void GenerateAudioBuffers(const int* decode_timestamps) {
	GenerateBuffers(decode_timestamps, DemuxerStream::AUDIO, kAudioTrackId,
	&buffer_queue_map_[kAudioTrackId]);
	}

	// Appends test video buffers in the sequence described by \|decode_timestamps\|
	// to \|video_buffers_\|. See GenerateBuffers() for \|decode_timestamps\| format.
	void GenerateVideoBuffers(const int* decode_timestamps) {
	GenerateBuffers(decode_timestamps, DemuxerStream::VIDEO, kVideoTrackId,
	&buffer_queue_map_[kVideoTrackId]);
	}

	// Current tests only need up to two distinct text BufferQueues. This helper
	// conditionally appends buffers to the underlying \|buffer_queue_map_\| keyed
	// by the respective track ID. If \|decode_timestamps_{a,b}\|
	// is NULL, then the corresponding BufferQueue is not changed at all.
	// Note that key collision on map insertion does not replace the previous
	// value.
	void GenerateTextBuffers(const int* decode_timestamps_a,
	const int* decode_timestamps_b) {
	if (decode_timestamps_a) {
	GenerateBuffers(decode_timestamps_a, DemuxerStream::TEXT, kTextTrackIdA,
	&buffer_queue_map_[kTextTrackIdA]);
	}

	if (decode_timestamps_b) {
	GenerateBuffers(decode_timestamps_b, DemuxerStream::TEXT, kTextTrackIdB,
	&buffer_queue_map_[kTextTrackIdB]);
	}
	}

	// Returns a string that describes the sequence of buffers in
	// \|merged_buffers_\|. The string is a concatenation of space-delimited buffer
	// descriptors in the same sequence as \|merged_buffers_\|. Each descriptor is
	// the concatenation of
	// 1) a single character that describes the buffer's type(), e.g. A, V, or T
	// for audio, video, or text, respectively
	// 2) the buffer's track_id()
	// 3) ":"
	// 4) the buffer's decode timestamp.
	// If \|include_type_and_text_track\| is false, then items 1, 2, and 3 are
	// not included in descriptors. This is useful when buffers with different
	// media types but the same decode timestamp are expected, and the exact
	// sequence of media types for the tying timestamps is not subject to
	// verification.
	std::string MergedBufferQueueString(bool include_type_and_text_track) {
	std::stringstream results_stream;
	for (BufferQueue::const_iterator itr = merged_buffers_.begin();
	itr != merged_buffers_.end(); ++itr) {
	if (itr != merged_buffers_.begin()) results_stream << " ";
	const StreamParserBuffer& buffer = *(itr->get());
	if (include_type_and_text_track) {
	switch (buffer.type()) {
	case DemuxerStream::AUDIO:
	results_stream << "A";
	break;
	case DemuxerStream::VIDEO:
	results_stream << "V";
	break;
	case DemuxerStream::TEXT:
	results_stream << "T";

	break;
	default:
	NOTREACHED();
	}
	results_stream << buffer.track_id() << ":";
	}
	results_stream << buffer.GetDecodeTimestamp().InMicroseconds();
	}

	return results_stream.str();
	}

	// Verifies that MergeBufferQueues() of the current \|audio_buffers_\|,
	// \|video_buffers_\|, \|text_map_\|, and \|merged_buffers_\| returns true and
	// results in an updated \|merged_buffers_\| that matches expectation. The
	// expectation, specified in \|expected\|, is compared to the string resulting
	// from MergedBufferQueueString() (see comments for that method) with
	// \|verify_type_and_text_track_sequence\| passed. \|merged_buffers_\| is appended
	// to by the merge, and may be setup by the caller to have some pre-existing
	// buffers; it is both an input and output of this method.
	// Regardless of \|verify_type_and_text_track_sequence\|, the marginal number
	// of buffers of each type (audio, video, text) resulting from the merge is
	// also verified to match the number of buffers in \|audio_buffers_\|,
	// \|video_buffers_\|, and \|text_map_\|, respectively.
	void VerifyMergeSuccess(const std::string& expected,
	bool verify_type_and_text_track_sequence) {
	// \|merged_buffers\| may already have some buffers. Count them by type for
	// later inclusion in verification.
	size_t original_audio_in_merged = CountMatchingMergedBuffers(IsAudio);
	size_t original_video_in_merged = CountMatchingMergedBuffers(IsVideo);
	size_t original_text_in_merged = CountMatchingMergedBuffers(IsText);

	EXPECT_TRUE(MergeBufferQueues(buffer_queue_map_, &merged_buffers_));

	// Verify resulting contents of \|merged_buffers\| matches \|expected\|.
	EXPECT_EQ(expected,
	MergedBufferQueueString(verify_type_and_text_track_sequence));

	// Verify that the correct number of each type of buffer is in the merge
	// result.
	size_t audio_in_merged = CountMatchingMergedBuffers(IsAudio);
	size_t video_in_merged = CountMatchingMergedBuffers(IsVideo);
	size_t text_in_merged = CountMatchingMergedBuffers(IsText);

	EXPECT_GE(audio_in_merged, original_audio_in_merged);
	EXPECT_GE(video_in_merged, original_video_in_merged);
	EXPECT_GE(text_in_merged, original_text_in_merged);

	EXPECT_EQ(buffer_queue_map_[kAudioTrackId].size(),
	audio_in_merged - original_audio_in_merged);
	if (buffer_queue_map_[kAudioTrackId].empty())
	buffer_queue_map_.erase(kAudioTrackId);
	EXPECT_EQ(buffer_queue_map_[kVideoTrackId].size(),
	video_in_merged - original_video_in_merged);
	if (buffer_queue_map_[kVideoTrackId].empty())
	buffer_queue_map_.erase(kVideoTrackId);

	size_t expected_text_buffer_count = 0;
	expected_text_buffer_count += buffer_queue_map_[kTextTrackIdA].size();
	if (buffer_queue_map_[kTextTrackIdA].empty())
	buffer_queue_map_.erase(kTextTrackIdA);
	expected_text_buffer_count += buffer_queue_map_[kTextTrackIdB].size();
	if (buffer_queue_map_[kTextTrackIdB].empty())
	buffer_queue_map_.erase(kTextTrackIdB);
	EXPECT_EQ(expected_text_buffer_count,
	text_in_merged - original_text_in_merged);
	}

	// Verifies that MergeBufferQueues() of the current \|buffer_queue_map_\| and
	// \|merged_buffers_\| returns false.
	void VerifyMergeFailure() {
	EXPECT_FALSE(MergeBufferQueues(buffer_queue_map_, &merged_buffers_));
	}

	// Helper to allow tests to clear all the input BufferQueues (except
	// \|merged_buffers_\|) and the BufferQueueMap that are used in
	// VerifyMerge{Success/Failure}().
	void ClearBufferQueuesButKeepAnyMergedBuffers() { buffer_queue_map_.clear(); }

	private:
	StreamParser::BufferQueueMap buffer_queue_map_;
	BufferQueue merged_buffers_;

	DISALLOW_COPY_AND_ASSIGN(StreamParserTest);
	};

	TEST_F(StreamParserTest, MergeBufferQueues_AllEmpty) {
	std::string expected = "";
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_SingleAudioBuffer) {
	std::string expected = "A0:100";
	int audio_timestamps[] = {100, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_SingleVideoBuffer) {
	std::string expected = "V1:100";
	int video_timestamps[] = {100, kEnd};
	GenerateVideoBuffers(video_timestamps);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_SingleTextBuffer) {
	std::string expected = "T2:100";
	int text_timestamps[] = {100, kEnd};
	GenerateTextBuffers(text_timestamps, NULL);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_OverlappingAudioVideo) {
	std::string expected = "A0:100 V1:101 V1:102 A0:103 A0:104 V1:105";
	int audio_timestamps[] = {100, 103, 104, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {101, 102, 105, kEnd};
	GenerateVideoBuffers(video_timestamps);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_OverlappingMultipleText) {
	std::string expected = "T2:100 T2:101 T3:103 T2:104 T3:105 T3:106";
	int text_timestamps_a[] = {100, 101, 104, kEnd};
	int text_timestamps_b[] = {103, 105, 106, kEnd};
	GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_OverlappingAudioVideoText) {
	std::string expected =
	"A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
	"T2:107";
	int audio_timestamps[] = {100, 105, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {101, 103, 106, kEnd};
	GenerateVideoBuffers(video_timestamps);
	int text_timestamps_a[] = {102, 107, kEnd};
	int text_timestamps_b[] = {104, kEnd};
	GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_NonDecreasingNoCrossMediaDuplicate) {
	std::string expected =
	"A0:100 A0:100 A0:100 V1:101 V1:101 V1:101 A0:102 "
	"V1:103 V1:103";
	int audio_timestamps[] = {100, 100, 100, 102, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {101, 101, 101, 103, 103, kEnd};
	GenerateVideoBuffers(video_timestamps);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_CrossStreamDuplicates) {
	// Interface keeps the choice undefined of which stream's buffer wins the
	// selection when timestamps are tied. Verify at least the right number of
	// each kind of buffer results, and that buffers are in nondecreasing order.
	std::string expected = "100 100 100 100 100 100 102 102 102 102 102 102 102";
	int audio_timestamps[] = {100, 100, 100, 102, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {100, 100, 102, 102, 102, kEnd};
	GenerateVideoBuffers(video_timestamps);
	int text_timestamps[] = {100, 102, 102, 102, kEnd};
	GenerateTextBuffers(text_timestamps, NULL);
	VerifyMergeSuccess(expected, false);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_InvalidDecreasingSingleStream) {
	int audio_timestamps[] = {101, 102, 100, 103, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	VerifyMergeFailure();
	}

	TEST_F(StreamParserTest, MergeBufferQueues_InvalidDecreasingMultipleStreams) {
	int audio_timestamps[] = {101, 102, 100, 103, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {104, 100, kEnd};
	GenerateVideoBuffers(video_timestamps);
	VerifyMergeFailure();
	}

	TEST_F(StreamParserTest, MergeBufferQueues_ValidAppendToExistingMerge) {
	std::string expected =
	"A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
	"T2:107";
	int audio_timestamps[] = {100, 105, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {101, 103, 106, kEnd};
	GenerateVideoBuffers(video_timestamps);
	int text_timestamps_a[] = {102, 107, kEnd};
	int text_timestamps_b[] = {104, kEnd};
	GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
	VerifyMergeSuccess(expected, true);

	ClearBufferQueuesButKeepAnyMergedBuffers();

	expected =
	"A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 T2:107 "
	"A0:107 V1:111 T2:112 V1:113 T3:114 A0:115 V1:116 T2:117";
	int more_audio_timestamps[] = {107, 115, kEnd};
	GenerateAudioBuffers(more_audio_timestamps);
	int more_video_timestamps[] = {111, 113, 116, kEnd};
	GenerateVideoBuffers(more_video_timestamps);
	int more_text_timestamps_a[] = {112, 117, kEnd};
	int more_text_timestamps_b[] = {114, kEnd};
	GenerateTextBuffers(more_text_timestamps_a, more_text_timestamps_b);
	VerifyMergeSuccess(expected, true);
	}

	TEST_F(StreamParserTest, MergeBufferQueues_InvalidAppendToExistingMerge) {
	std::string expected =
	"A0:100 V1:101 T2:102 V1:103 T3:104 A0:105 V1:106 "
	"T2:107";
	int audio_timestamps[] = {100, 105, kEnd};
	GenerateAudioBuffers(audio_timestamps);
	int video_timestamps[] = {101, 103, 106, kEnd};
	GenerateVideoBuffers(video_timestamps);
	int text_timestamps_a[] = {102, 107, kEnd};
	int text_timestamps_b[] = {104, kEnd};
	GenerateTextBuffers(text_timestamps_a, text_timestamps_b);
	VerifyMergeSuccess(expected, true);

	// Appending empty buffers to pre-existing merge result should succeed and not
	// change the existing result.
	ClearBufferQueuesButKeepAnyMergedBuffers();
	VerifyMergeSuccess(expected, true);

	// But appending something with a lower timestamp than the last timestamp
	// in the pre-existing merge result should fail.
	int more_audio_timestamps[] = {106, kEnd};
	GenerateAudioBuffers(more_audio_timestamps);
	VerifyMergeFailure();
	}

	} // namespace media
	} // namespace cobalt