// Copyright 2017 Google LLC. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include #include namespace shaka { namespace media { namespace { const size_t kStreamIndex = 0; } // namespace TextChunker::TextChunker(double segment_duration_in_seconds) : segment_duration_in_seconds_(segment_duration_in_seconds){}; Status TextChunker::Process(std::unique_ptr data) { switch (data->stream_data_type) { case StreamDataType::kStreamInfo: return OnStreamInfo(std::move(data->stream_info)); case StreamDataType::kTextSample: return OnTextSample(data->text_sample); case StreamDataType::kCueEvent: return OnCueEvent(data->cue_event); default: return Status(error::INTERNAL_ERROR, "Invalid stream data type for this handler"); } } Status TextChunker::OnFlushRequest(size_t /*input_stream_index*/) { // Keep outputting segments until all the samples leave the system. Calling // |DispatchSegment| will remove samples over time. while (samples_in_current_segment_.size()) { RETURN_IF_ERROR(DispatchSegment(segment_duration_)); } return FlushAllDownstreams(); } Status TextChunker::OnStreamInfo(std::shared_ptr info) { time_scale_ = info->time_scale(); segment_duration_ = ScaleTime(segment_duration_in_seconds_); return DispatchStreamInfo(kStreamIndex, std::move(info)); } Status TextChunker::OnCueEvent(std::shared_ptr event) { // We are going to end the current segment prematurely using the cue event's // time as the new segment end. // Because the cue should have been inserted into the stream such that no // later sample could start before it does, we know that there should // be no later samples starting before the cue event. // Convert the event's time to be scaled to the time of each sample. const int64_t event_time = ScaleTime(event->time_in_seconds); // Output all full segments before the segment that the cue event interupts. while (segment_start_ + segment_duration_ < event_time) { RETURN_IF_ERROR(DispatchSegment(segment_duration_)); } const int64_t shorten_duration = event_time - segment_start_; RETURN_IF_ERROR(DispatchSegment(shorten_duration)); return DispatchCueEvent(kStreamIndex, std::move(event)); } Status TextChunker::OnTextSample(std::shared_ptr sample) { // Output all segments that come before our new sample. const int64_t sample_start = sample->start_time(); // If we have not seen a sample yet, base all segments off the first sample's // start time. if (segment_start_ < 0) { // Force the first segment to start at the segment that would have started // before the sample. This should allow segments from different streams to // align. segment_start_ = (sample_start / segment_duration_) * segment_duration_; } // We need to write all the segments that would have ended before the new // sample started. while (sample_start >= segment_start_ + segment_duration_) { // |DispatchSegment| will advance |segment_start_|. RETURN_IF_ERROR(DispatchSegment(segment_duration_)); } samples_in_current_segment_.push_back(std::move(sample)); return Status::OK; } Status TextChunker::DispatchSegment(int64_t duration) { DCHECK_GT(duration, 0) << "Segment duration should always be positive"; // Output all the samples that are part of the segment. for (const auto& sample : samples_in_current_segment_) { RETURN_IF_ERROR(DispatchTextSample(kStreamIndex, sample)); } // Output the segment info. std::shared_ptr info = std::make_shared(); info->start_timestamp = segment_start_; info->duration = duration; RETURN_IF_ERROR(DispatchSegmentInfo(kStreamIndex, std::move(info))); // Move onto the next segment. const int64_t new_segment_start = segment_start_ + duration; segment_start_ = new_segment_start; // Remove all samples that end before the (new) current segment started. samples_in_current_segment_.remove_if( [new_segment_start](const std::shared_ptr& sample) { // For the sample to even be in this list, it should have started // before the (new) current segment. DCHECK_LT(sample->start_time(), new_segment_start); return sample->EndTime() <= new_segment_start; }); return Status::OK; } int64_t TextChunker::ScaleTime(double seconds) const { DCHECK_GT(time_scale_, 0) << "Need positive time scale to scale time."; return static_cast(seconds * time_scale_); } } // namespace media } // namespace shaka