// 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. #include "media/base/stream_parser.h" #include "media/base/buffers.h" #include "media/base/stream_parser_buffer.h" namespace media { StreamParser::InitParameters::InitParameters(base::TimeDelta duration) : duration(duration), auto_update_timestamp_offset(false), liveness(Demuxer::LIVENESS_UNKNOWN) { } StreamParser::StreamParser() {} StreamParser::~StreamParser() {} static bool MergeBufferQueuesInternal( const std::vector<const StreamParser::BufferQueue*>& buffer_queues, StreamParser::BufferQueue* merged_buffers) { // Instead of std::merge usage, this method implements a custom merge because: // 1) |buffer_queues| may contain N queues, // 2) we must detect and return false if any of the queues in |buffer_queues| // is unsorted, and // 3) we must detect and return false if any of the buffers in |buffer_queues| // has a decode timestamp prior to the last, if any, buffer in // |merged_buffers|. // TODO(wolenetz/acolwell): Refactor stream parsers to eliminate need for // this large grain merge. See http://crbug.com/338484. // Done if no inputs to merge. if (buffer_queues.empty()) return true; // Build a vector of iterators, one for each input, to traverse inputs. // The union of these iterators points to the set of candidate buffers // for being appended to |merged_buffers|. size_t num_itrs = buffer_queues.size(); std::vector<StreamParser::BufferQueue::const_iterator> itrs(num_itrs); for (size_t i = 0; i < num_itrs; ++i) itrs[i] = buffer_queues[i]->begin(); // |last_decode_timestamp| tracks the lower bound, if any, that all candidate // buffers must not be less than. If |merged_buffers| already has buffers, // initialize |last_decode_timestamp| to the decode timestamp of the last // buffer in it. base::TimeDelta last_decode_timestamp = kNoTimestamp(); if (!merged_buffers->empty()) last_decode_timestamp = merged_buffers->back()->GetDecodeTimestamp(); // Repeatedly select and append the next buffer from the candidate buffers // until either: // 1) returning false, to indicate detection of decreasing DTS in some queue, // when a candidate buffer has decode timestamp below // |last_decode_timestamp|, which means either an input buffer wasn't // sorted correctly or had a buffer with decode timestamp below the last // buffer, if any, in |merged_buffers|, or // 2) returning true when all buffers have been merged successfully; // equivalently, when all of the iterators in |itrs| have reached the end // of their respective queue from |buffer_queues|. // TODO(wolenetz/acolwell): Ideally, we would use a heap to store the head of // all queues and pop the head with lowest decode timestamp in log(N) time. // However, N will typically be small and usage of this implementation is // meant to be short-term. See http://crbug.com/338484. while (true) { // Tracks which queue's iterator is pointing to the candidate buffer to // append next, or -1 if no candidate buffers found. This indexes |itrs|. int index_of_queue_with_next_decode_timestamp = -1; base::TimeDelta next_decode_timestamp = kNoTimestamp(); // Scan each of the iterators for |buffer_queues| to find the candidate // buffer, if any, that has the lowest decode timestamp. for (size_t i = 0; i < num_itrs; ++i) { if (itrs[i] == buffer_queues[i]->end()) continue; // Extract the candidate buffer's decode timestamp. base::TimeDelta ts = (*itrs[i])->GetDecodeTimestamp(); if (last_decode_timestamp != kNoTimestamp() && ts < last_decode_timestamp) return false; if (ts < next_decode_timestamp || next_decode_timestamp == kNoTimestamp()) { // Remember the decode timestamp and queue iterator index for this // potentially winning candidate buffer. next_decode_timestamp = ts; index_of_queue_with_next_decode_timestamp = i; } } // All done if no further candidate buffers exist. if (index_of_queue_with_next_decode_timestamp == -1) return true; // Otherwise, append the winning candidate buffer to |merged_buffers|, // remember its decode timestamp as |last_decode_timestamp| now that it is // the last buffer in |merged_buffers|, advance the corresponding // input BufferQueue iterator, and continue. scoped_refptr<StreamParserBuffer> buffer = *itrs[index_of_queue_with_next_decode_timestamp]; last_decode_timestamp = buffer->GetDecodeTimestamp(); merged_buffers->push_back(buffer); ++itrs[index_of_queue_with_next_decode_timestamp]; } } bool MergeBufferQueues(const StreamParser::BufferQueue& audio_buffers, const StreamParser::BufferQueue& video_buffers, const StreamParser::TextBufferQueueMap& text_buffers, StreamParser::BufferQueue* merged_buffers) { DCHECK(merged_buffers); // Prepare vector containing pointers to any provided non-empty buffer queues. std::vector<const StreamParser::BufferQueue*> buffer_queues; if (!audio_buffers.empty()) buffer_queues.push_back(&audio_buffers); if (!video_buffers.empty()) buffer_queues.push_back(&video_buffers); for (StreamParser::TextBufferQueueMap::const_iterator map_itr = text_buffers.begin(); map_itr != text_buffers.end(); map_itr++) { if (!map_itr->second.empty()) buffer_queues.push_back(&(map_itr->second)); } // Do the merge. return MergeBufferQueuesInternal(buffer_queues, merged_buffers); } } // namespace media