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platform-external-webrtc/webrtc/modules/audio_processing/voice_detection_impl.cc
aluebs@webrtc.org d35a5c3506 Make ChannelBuffer aware of frequency bands 
Now the ChannelBuffer has 2 separate arrays, one for the full-band data and one for the splitted one. The corresponding accessors are added to the ChannelBuffer.
This is done to avoid having to refresh the bands pointers in AudioBuffer. It will also allow us to have a general accessor like data()[band][channel][sample].
All the files using the ChannelBuffer needed to be re-factored.
Tested with modules_unittests, common_audio_unittests, audioproc, audioproc_f, voe_cmd_test.

R=andrew@webrtc.org, kwiberg@webrtc.org

Review URL: https://webrtc-codereview.appspot.com/36999004

Cr-Commit-Position: refs/heads/master@{#8318}
git-svn-id: http://webrtc.googlecode.com/svn/trunk@8318 4adac7df-926f-26a2-2b94-8c16560cd09d
2015-02-10 22:52:43 +00:00

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/*
* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "webrtc/modules/audio_processing/voice_detection_impl.h"
#include <assert.h>
#include "webrtc/common_audio/vad/include/webrtc_vad.h"
#include "webrtc/modules/audio_processing/audio_buffer.h"
#include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
namespace webrtc {
typedef VadInst Handle;
namespace {
int MapSetting(VoiceDetection::Likelihood likelihood) {
switch (likelihood) {
case VoiceDetection::kVeryLowLikelihood:
return 3;
case VoiceDetection::kLowLikelihood:
return 2;
case VoiceDetection::kModerateLikelihood:
return 1;
case VoiceDetection::kHighLikelihood:
return 0;
}
assert(false);
return -1;
}
} // namespace
VoiceDetectionImpl::VoiceDetectionImpl(const AudioProcessing* apm,
CriticalSectionWrapper* crit)
: ProcessingComponent(),
apm_(apm),
crit_(crit),
stream_has_voice_(false),
using_external_vad_(false),
likelihood_(kLowLikelihood),
frame_size_ms_(10),
frame_size_samples_(0) {}
VoiceDetectionImpl::~VoiceDetectionImpl() {}
int VoiceDetectionImpl::ProcessCaptureAudio(AudioBuffer* audio) {
if (!is_component_enabled()) {
return apm_->kNoError;
}
if (using_external_vad_) {
using_external_vad_ = false;
return apm_->kNoError;
}
assert(audio->num_frames_per_band() <= 160);
// TODO(ajm): concatenate data in frame buffer here.
int vad_ret = WebRtcVad_Process(static_cast<Handle*>(handle(0)),
apm_->proc_split_sample_rate_hz(),
audio->mixed_low_pass_data(),
frame_size_samples_);
if (vad_ret == 0) {
stream_has_voice_ = false;
audio->set_activity(AudioFrame::kVadPassive);
} else if (vad_ret == 1) {
stream_has_voice_ = true;
audio->set_activity(AudioFrame::kVadActive);
} else {
return apm_->kUnspecifiedError;
}
return apm_->kNoError;
}
int VoiceDetectionImpl::Enable(bool enable) {
CriticalSectionScoped crit_scoped(crit_);
return EnableComponent(enable);
}
bool VoiceDetectionImpl::is_enabled() const {
return is_component_enabled();
}
int VoiceDetectionImpl::set_stream_has_voice(bool has_voice) {
using_external_vad_ = true;
stream_has_voice_ = has_voice;
return apm_->kNoError;
}
bool VoiceDetectionImpl::stream_has_voice() const {
// TODO(ajm): enable this assertion?
//assert(using_external_vad_ || is_component_enabled());
return stream_has_voice_;
}
int VoiceDetectionImpl::set_likelihood(VoiceDetection::Likelihood likelihood) {
CriticalSectionScoped crit_scoped(crit_);
if (MapSetting(likelihood) == -1) {
return apm_->kBadParameterError;
}
likelihood_ = likelihood;
return Configure();
}
VoiceDetection::Likelihood VoiceDetectionImpl::likelihood() const {
return likelihood_;
}
int VoiceDetectionImpl::set_frame_size_ms(int size) {
CriticalSectionScoped crit_scoped(crit_);
assert(size == 10); // TODO(ajm): remove when supported.
if (size != 10 &&
size != 20 &&
size != 30) {
return apm_->kBadParameterError;
}
frame_size_ms_ = size;
return Initialize();
}
int VoiceDetectionImpl::frame_size_ms() const {
return frame_size_ms_;
}
int VoiceDetectionImpl::Initialize() {
int err = ProcessingComponent::Initialize();
if (err != apm_->kNoError || !is_component_enabled()) {
return err;
}
using_external_vad_ = false;
frame_size_samples_ = frame_size_ms_ *
apm_->proc_split_sample_rate_hz() / 1000;
// TODO(ajm): intialize frame buffer here.
return apm_->kNoError;
}
void* VoiceDetectionImpl::CreateHandle() const {
Handle* handle = NULL;
if (WebRtcVad_Create(&handle) != apm_->kNoError) {
handle = NULL;
} else {
assert(handle != NULL);
}
return handle;
}
void VoiceDetectionImpl::DestroyHandle(void* handle) const {
WebRtcVad_Free(static_cast<Handle*>(handle));
}
int VoiceDetectionImpl::InitializeHandle(void* handle) const {
return WebRtcVad_Init(static_cast<Handle*>(handle));
}
int VoiceDetectionImpl::ConfigureHandle(void* handle) const {
return WebRtcVad_set_mode(static_cast<Handle*>(handle),
MapSetting(likelihood_));
}
int VoiceDetectionImpl::num_handles_required() const {
return 1;
}
int VoiceDetectionImpl::GetHandleError(void* handle) const {
// The VAD has no get_error() function.
assert(handle != NULL);
return apm_->kUnspecifiedError;
}
} // namespace webrtc
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