Remove existing Skia suppressions
[chromium-blink-merge.git] / media / base / audio_buffer_converter.cc
blob0297ff6a3d29d585757731372da52067f4bbbb78
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "media/base/audio_buffer_converter.h"
7 #include <cmath>
9 #include "base/logging.h"
10 #include "media/base/audio_buffer.h"
11 #include "media/base/audio_bus.h"
12 #include "media/base/audio_decoder_config.h"
13 #include "media/base/audio_timestamp_helper.h"
14 #include "media/base/buffers.h"
15 #include "media/base/sinc_resampler.h"
16 #include "media/base/vector_math.h"
18 namespace media {
20 // Is the config presented by |buffer| a config change from |params|?
21 static bool IsConfigChange(const AudioParameters& params,
22 const scoped_refptr<AudioBuffer>& buffer) {
23 return buffer->sample_rate() != params.sample_rate() ||
24 buffer->channel_count() != params.channels() ||
25 buffer->channel_layout() != params.channel_layout();
28 AudioBufferConverter::AudioBufferConverter(const AudioParameters& output_params)
29 : output_params_(output_params),
30 input_params_(output_params),
31 last_input_buffer_offset_(0),
32 input_frames_(0),
33 buffered_input_frames_(0.0),
34 io_sample_rate_ratio_(1.0),
35 timestamp_helper_(output_params_.sample_rate()),
36 is_flushing_(false) {}
38 AudioBufferConverter::~AudioBufferConverter() {}
40 void AudioBufferConverter::AddInput(const scoped_refptr<AudioBuffer>& buffer) {
41 // On EOS flush any remaining buffered data.
42 if (buffer->end_of_stream()) {
43 Flush();
44 queued_outputs_.push_back(buffer);
45 return;
48 // We'll need a new |audio_converter_| if there was a config change.
49 if (IsConfigChange(input_params_, buffer))
50 ResetConverter(buffer);
52 // Pass straight through if there's no work to be done.
53 if (!audio_converter_) {
54 queued_outputs_.push_back(buffer);
55 return;
58 if (timestamp_helper_.base_timestamp() == kNoTimestamp())
59 timestamp_helper_.SetBaseTimestamp(buffer->timestamp());
61 queued_inputs_.push_back(buffer);
62 input_frames_ += buffer->frame_count();
64 ConvertIfPossible();
67 bool AudioBufferConverter::HasNextBuffer() { return !queued_outputs_.empty(); }
69 scoped_refptr<AudioBuffer> AudioBufferConverter::GetNextBuffer() {
70 DCHECK(!queued_outputs_.empty());
71 scoped_refptr<AudioBuffer> out = queued_outputs_.front();
72 queued_outputs_.pop_front();
73 return out;
76 void AudioBufferConverter::Reset() {
77 audio_converter_.reset();
78 queued_inputs_.clear();
79 queued_outputs_.clear();
80 timestamp_helper_.SetBaseTimestamp(kNoTimestamp());
81 input_params_ = output_params_;
82 input_frames_ = 0;
83 buffered_input_frames_ = 0.0;
84 last_input_buffer_offset_ = 0;
87 void AudioBufferConverter::ResetTimestampState() {
88 Flush();
89 timestamp_helper_.SetBaseTimestamp(kNoTimestamp());
92 double AudioBufferConverter::ProvideInput(AudioBus* audio_bus,
93 base::TimeDelta buffer_delay) {
94 DCHECK(is_flushing_ || input_frames_ >= audio_bus->frames());
96 int requested_frames_left = audio_bus->frames();
97 int dest_index = 0;
99 while (requested_frames_left > 0 && !queued_inputs_.empty()) {
100 scoped_refptr<AudioBuffer> input_buffer = queued_inputs_.front();
102 int frames_to_read =
103 std::min(requested_frames_left,
104 input_buffer->frame_count() - last_input_buffer_offset_);
105 input_buffer->ReadFrames(
106 frames_to_read, last_input_buffer_offset_, dest_index, audio_bus);
107 last_input_buffer_offset_ += frames_to_read;
109 if (last_input_buffer_offset_ == input_buffer->frame_count()) {
110 // We've consumed all the frames in |input_buffer|.
111 queued_inputs_.pop_front();
112 last_input_buffer_offset_ = 0;
115 requested_frames_left -= frames_to_read;
116 dest_index += frames_to_read;
119 // If we're flushing, zero any extra space, otherwise we should always have
120 // enough data to completely fulfill the request.
121 if (is_flushing_ && requested_frames_left > 0) {
122 audio_bus->ZeroFramesPartial(audio_bus->frames() - requested_frames_left,
123 requested_frames_left);
124 } else {
125 DCHECK_EQ(requested_frames_left, 0);
128 input_frames_ -= audio_bus->frames() - requested_frames_left;
129 DCHECK_GE(input_frames_, 0);
131 buffered_input_frames_ += audio_bus->frames() - requested_frames_left;
133 // Full volume.
134 return 1.0;
137 void AudioBufferConverter::ResetConverter(
138 const scoped_refptr<AudioBuffer>& buffer) {
139 Flush();
140 audio_converter_.reset();
141 input_params_.Reset(
142 input_params_.format(),
143 buffer->channel_layout(),
144 buffer->channel_count(),
145 buffer->sample_rate(),
146 input_params_.bits_per_sample(),
147 // If resampling is needed and the FIFO disabled, the AudioConverter will
148 // always request SincResampler::kDefaultRequestSize frames. Otherwise it
149 // will use the output frame size.
150 buffer->sample_rate() == output_params_.sample_rate()
151 ? output_params_.frames_per_buffer()
152 : SincResampler::kDefaultRequestSize);
154 io_sample_rate_ratio_ = static_cast<double>(input_params_.sample_rate()) /
155 output_params_.sample_rate();
157 // If |buffer| matches |output_params_| we don't need an AudioConverter at
158 // all, and can early-out here.
159 if (!IsConfigChange(output_params_, buffer))
160 return;
162 // Note: The FIFO is disabled to avoid extraneous memcpy().
163 audio_converter_.reset(
164 new AudioConverter(input_params_, output_params_, true));
165 audio_converter_->AddInput(this);
168 void AudioBufferConverter::ConvertIfPossible() {
169 DCHECK(audio_converter_);
171 int request_frames = 0;
173 if (is_flushing_) {
174 // If we're flushing we want to convert *everything* even if this means
175 // we'll have to pad some silence in ProvideInput().
176 request_frames =
177 ceil((buffered_input_frames_ + input_frames_) / io_sample_rate_ratio_);
178 } else {
179 // How many calls to ProvideInput() we can satisfy completely.
180 int chunks = input_frames_ / input_params_.frames_per_buffer();
182 // How many output frames that corresponds to:
183 request_frames = chunks * audio_converter_->ChunkSize();
186 if (!request_frames)
187 return;
189 scoped_refptr<AudioBuffer> output_buffer =
190 AudioBuffer::CreateBuffer(kSampleFormatPlanarF32,
191 output_params_.channel_layout(),
192 output_params_.channels(),
193 output_params_.sample_rate(),
194 request_frames);
195 scoped_ptr<AudioBus> output_bus =
196 AudioBus::CreateWrapper(output_buffer->channel_count());
198 int frames_remaining = request_frames;
200 // The AudioConverter wants requests of a fixed size, so we'll slide an
201 // AudioBus of that size across the |output_buffer|.
202 while (frames_remaining != 0) {
203 // It's important that this is a multiple of AudioBus::kChannelAlignment in
204 // all requests except for the last, otherwise downstream SIMD optimizations
205 // will crash on unaligned data.
206 const int frames_this_iteration = std::min(
207 static_cast<int>(SincResampler::kDefaultRequestSize), frames_remaining);
208 const int offset_into_buffer =
209 output_buffer->frame_count() - frames_remaining;
211 // Wrap the portion of the AudioBuffer in an AudioBus so the AudioConverter
212 // can fill it.
213 output_bus->set_frames(frames_this_iteration);
214 for (int ch = 0; ch < output_buffer->channel_count(); ++ch) {
215 output_bus->SetChannelData(
217 reinterpret_cast<float*>(output_buffer->channel_data()[ch]) +
218 offset_into_buffer);
221 // Do the actual conversion.
222 audio_converter_->Convert(output_bus.get());
223 frames_remaining -= frames_this_iteration;
224 buffered_input_frames_ -= frames_this_iteration * io_sample_rate_ratio_;
227 // Compute the timestamp.
228 output_buffer->set_timestamp(timestamp_helper_.GetTimestamp());
229 timestamp_helper_.AddFrames(request_frames);
231 queued_outputs_.push_back(output_buffer);
234 void AudioBufferConverter::Flush() {
235 if (!audio_converter_)
236 return;
237 is_flushing_ = true;
238 ConvertIfPossible();
239 is_flushing_ = false;
240 audio_converter_->Reset();
241 DCHECK_EQ(input_frames_, 0);
242 DCHECK_EQ(last_input_buffer_offset_, 0);
243 DCHECK_LT(buffered_input_frames_, 1.0);
244 DCHECK(queued_inputs_.empty());
245 buffered_input_frames_ = 0.0;
248 } // namespace media