// Copyright 2018 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 #include namespace shaka { namespace media { namespace { const uint64_t kStreamIndex = 0; } // namespace TextPadder::TextPadder(int64_t zero_start_bias_ms) : zero_start_bias_ms_(zero_start_bias_ms) {} Status TextPadder::InitializeInternal() { return Status::OK; } Status TextPadder::Process(std::unique_ptr data) { DCHECK_EQ(data->stream_index, kStreamIndex); const bool is_text_sample = data->stream_data_type == StreamDataType::kTextSample; return is_text_sample ? OnTextSample(std::move(data)) : Dispatch(std::move(data)); } Status TextPadder::OnTextSample(std::unique_ptr data) { const TextSample& sample = *data->text_sample; // If this is the first sample we have seen, we need to check if we should // start at time zero. if (max_end_time_ms_ < 0) { max_end_time_ms_ = sample.start_time() > zero_start_bias_ms_ ? sample.start_time() : 0; } // Check if there will be a gap between samples if we just dispatch this // sample right away. If there will be one, create an empty sample that will // fill in that gap. if (sample.start_time() > max_end_time_ms_) { const std::string kNoId = ""; auto filler = std::make_shared(kNoId, max_end_time_ms_, sample.start_time(), TextSettings{}, TextFragment{}); RETURN_IF_ERROR( MediaHandler::DispatchTextSample(kStreamIndex, std::move(filler))); } max_end_time_ms_ = std::max(max_end_time_ms_, sample.EndTime()); return Dispatch(std::move(data)); } } // namespace media } // namespace shaka