Clean up *_iterator code in media/mp4.
Make functions const if needed and reformat the code using clang-format. Change-Id: If2848ef6c3b61df5358286687d80213533125856
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@ -40,24 +40,27 @@ bool ChunkInfoIterator::AdvanceSample() {
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return true;
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}
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bool ChunkInfoIterator::IsValid() {
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return iterator_ != chunk_info_table_.end()
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&& chunk_sample_index_ < iterator_->samples_per_chunk;
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bool ChunkInfoIterator::IsValid() const {
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return iterator_ != chunk_info_table_.end() &&
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chunk_sample_index_ < iterator_->samples_per_chunk;
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}
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uint32 ChunkInfoIterator::NumSamples(uint32 start_chunk, uint32 end_chunk) {
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DCHECK(start_chunk <= end_chunk);
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uint32 ChunkInfoIterator::NumSamples(uint32 start_chunk,
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uint32 end_chunk) const {
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DCHECK_LE(start_chunk, end_chunk);
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uint32 last_chunk = 0;
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uint32 num_samples = 0;
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for (std::vector<ChunkInfo>::const_iterator it = chunk_info_table_.begin();
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it != chunk_info_table_.end(); ++it) {
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last_chunk = (
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(it + 1 == chunk_info_table_.end()) ?
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std::numeric_limits<uint32>::max() : (it + 1)->first_chunk) - 1;
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it != chunk_info_table_.end();
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++it) {
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last_chunk = (it + 1 == chunk_info_table_.end())
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? std::numeric_limits<uint32>::max()
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: (it + 1)->first_chunk - 1;
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if (last_chunk >= start_chunk) {
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num_samples += (std::min(end_chunk, last_chunk)
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- std::max(start_chunk, it->first_chunk) + 1)
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* it->samples_per_chunk;
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num_samples += (std::min(end_chunk, last_chunk) -
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std::max(start_chunk, it->first_chunk) + 1) *
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it->samples_per_chunk;
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if (last_chunk >= end_chunk)
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break;
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}
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@ -31,32 +31,27 @@ class ChunkInfoIterator {
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bool AdvanceSample();
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// Return whether the current chunk is valid.
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bool IsValid();
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bool IsValid() const;
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// Return current chunk.
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uint32 current_chunk() {
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return current_chunk_;
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}
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uint32 current_chunk() const { return current_chunk_; }
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// Return samples per chunk for current chunk.
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uint32 samples_per_chunk() {
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return iterator_->samples_per_chunk;
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}
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uint32 samples_per_chunk() const { return iterator_->samples_per_chunk; }
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// Return sample description index for current chunk.
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uint32 sample_description_index() {
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uint32 sample_description_index() const {
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return iterator_->sample_description_index;
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}
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// Return number of samples from start_chunk to end_chunk, both 1-based,
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// inclusive.
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uint32 NumSamples(uint32 start_chunk, uint32 end_chunk);
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uint32 NumSamples(uint32 start_chunk, uint32 end_chunk) const;
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// Return the last first_chunk in chunk_info_table.
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uint32 LastFirstChunk() {
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if (chunk_info_table_.size() == 0)
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return 0;
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return (chunk_info_table_.end() - 1)->first_chunk;
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uint32 LastFirstChunk() const {
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return chunk_info_table_.empty() ? 0
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: chunk_info_table_.back().first_chunk;
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}
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private:
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@ -15,8 +15,7 @@ CompositionOffsetIterator::CompositionOffsetIterator(
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const CompositionTimeToSample& composition_time_to_sample)
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: sample_index_(0),
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composition_offset_table_(composition_time_to_sample.composition_offset),
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iterator_(composition_offset_table_.begin()) {
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}
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iterator_(composition_offset_table_.begin()) {}
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bool CompositionOffsetIterator::AdvanceSample() {
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++sample_index_;
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@ -29,12 +28,12 @@ bool CompositionOffsetIterator::AdvanceSample() {
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return true;
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}
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bool CompositionOffsetIterator::IsValid() {
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return iterator_ != composition_offset_table_.end()
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&& sample_index_ < iterator_->sample_count;
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bool CompositionOffsetIterator::IsValid() const {
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return iterator_ != composition_offset_table_.end() &&
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sample_index_ < iterator_->sample_count;
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}
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uint32 CompositionOffsetIterator::SampleOffset(uint32 sample) {
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uint32 CompositionOffsetIterator::SampleOffset(uint32 sample) const {
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uint32 current_sample = 0;
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std::vector<CompositionOffset>::const_iterator it =
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composition_offset_table_.begin();
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@ -47,7 +46,7 @@ uint32 CompositionOffsetIterator::SampleOffset(uint32 sample) {
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return 0;
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}
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uint32 CompositionOffsetIterator::NumSamples() {
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uint32 CompositionOffsetIterator::NumSamples() const {
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uint32 num_samples = 0;
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std::vector<CompositionOffset>::const_iterator it =
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composition_offset_table_.begin();
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@ -29,18 +29,16 @@ class CompositionOffsetIterator {
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bool AdvanceSample();
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// Return whether the current sample is valid.
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bool IsValid();
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bool IsValid() const;
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// Return sample offset for current sample.
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uint32 sample_offset() {
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return iterator_->sample_offset;
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}
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uint32 sample_offset() const { return iterator_->sample_offset; }
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// Return sample offset @ sample, 1-based.
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uint32 SampleOffset(uint32 sample);
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uint32 SampleOffset(uint32 sample) const;
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// Return total number of samples.
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uint32 NumSamples();
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uint32 NumSamples() const;
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private:
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uint32 sample_index_;
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@ -17,8 +17,7 @@ DecodingTimeIterator::DecodingTimeIterator(
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const DecodingTimeToSample& decoding_time_to_sample)
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: sample_index_(0),
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decoding_time_table_(decoding_time_to_sample.decoding_time),
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iterator_(decoding_time_table_.begin()) {
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}
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iterator_(decoding_time_table_.begin()) {}
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bool DecodingTimeIterator::AdvanceSample() {
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++sample_index_;
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@ -31,13 +30,14 @@ bool DecodingTimeIterator::AdvanceSample() {
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return true;
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}
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bool DecodingTimeIterator::IsValid() {
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return iterator_ != decoding_time_table_.end()
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&& sample_index_ < iterator_->sample_count;
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bool DecodingTimeIterator::IsValid() const {
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return iterator_ != decoding_time_table_.end() &&
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sample_index_ < iterator_->sample_count;
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}
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uint64 DecodingTimeIterator::Duration(uint32 start_sample, uint32 end_sample) {
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DCHECK(start_sample <= end_sample);
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uint64 DecodingTimeIterator::Duration(uint32 start_sample,
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uint32 end_sample) const {
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DCHECK_LE(start_sample, end_sample);
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uint32 current_sample = 0;
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uint32 prev_sample = 0;
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uint64 duration = 0;
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@ -45,8 +45,9 @@ uint64 DecodingTimeIterator::Duration(uint32 start_sample, uint32 end_sample) {
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for (; it != decoding_time_table_.end(); ++it) {
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current_sample += it->sample_count;
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if (current_sample >= start_sample) {
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duration += (std::min(end_sample, current_sample)
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- std::max(start_sample, prev_sample + 1) + 1) * it->sample_delta;
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duration += (std::min(end_sample, current_sample) -
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std::max(start_sample, prev_sample + 1) + 1) *
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it->sample_delta;
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if (current_sample >= end_sample)
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break;
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}
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@ -55,7 +56,7 @@ uint64 DecodingTimeIterator::Duration(uint32 start_sample, uint32 end_sample) {
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return duration;
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}
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uint32 DecodingTimeIterator::NumSamples() {
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uint32 DecodingTimeIterator::NumSamples() const {
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uint32 num_samples = 0;
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std::vector<DecodingTime>::const_iterator it = decoding_time_table_.begin();
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for (; it != decoding_time_table_.end(); ++it) {
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@ -29,18 +29,16 @@ class DecodingTimeIterator {
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bool AdvanceSample();
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// Return whether the current sample is valid.
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bool IsValid();
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bool IsValid() const;
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// Return sample delta for current sample.
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uint32 sample_delta() {
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return iterator_->sample_delta;
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}
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uint32 sample_delta() const { return iterator_->sample_delta; }
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// Return duration from start_sample to end_sample, both 1-based, inclusive.
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uint64 Duration(uint32 start_sample, uint32 end_sample);
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uint64 Duration(uint32 start_sample, uint32 end_sample) const;
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// Return total number of samples in the table.
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uint32 NumSamples();
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uint32 NumSamples() const;
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private:
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uint32 sample_index_;
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@ -15,8 +15,7 @@ SyncSampleIterator::SyncSampleIterator(const SyncSample& sync_sample)
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: sample_number_(1),
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sync_sample_vector_(sync_sample.sample_number),
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iterator_(sync_sample_vector_.begin()),
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is_empty_(iterator_ == sync_sample_vector_.end()) {
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}
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is_empty_(iterator_ == sync_sample_vector_.end()) {}
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bool SyncSampleIterator::AdvanceSample() {
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if (iterator_ != sync_sample_vector_.end() && sample_number_ == *iterator_)
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@ -25,19 +24,19 @@ bool SyncSampleIterator::AdvanceSample() {
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return true;
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}
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bool SyncSampleIterator::IsSyncSample() {
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bool SyncSampleIterator::IsSyncSample() const {
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// If the sync sample box is not present, every sample is a sync sample.
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if (is_empty_)
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return true;
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return iterator_ != sync_sample_vector_.end() && sample_number_ == *iterator_;
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}
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bool SyncSampleIterator::IsSyncSample(uint32 sample) {
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bool SyncSampleIterator::IsSyncSample(uint32 sample) const {
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// If the sync sample box is not present, every sample is a sync sample.
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if (is_empty_)
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return true;
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return std::binary_search(sync_sample_vector_.begin(),
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sync_sample_vector_.end(), sample);
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return std::binary_search(
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sync_sample_vector_.begin(), sync_sample_vector_.end(), sample);
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}
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} // namespace mp4
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@ -27,10 +27,10 @@ class SyncSampleIterator {
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bool AdvanceSample();
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// Return whether the current sample is a sync sample.
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bool IsSyncSample();
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bool IsSyncSample() const;
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// Return whether sample (1-based) is a sync sample.
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bool IsSyncSample(uint32 sample);
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bool IsSyncSample(uint32 sample) const;
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private:
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uint32 sample_number_;
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