forked from xiaozhi/xiaozhi-esp32
Upgrade esp-sr to 2.0.2, improve performance
This commit is contained in:
Terrence
@@ -11,7 +11,7 @@
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static const char* TAG = "WakeWordDetect";
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WakeWordDetect::WakeWordDetect()
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: afe_detection_data_(nullptr),
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: afe_data_(nullptr),
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wake_word_pcm_(),
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wake_word_opus_() {
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@@ -19,8 +19,8 @@ WakeWordDetect::WakeWordDetect()
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}
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WakeWordDetect::~WakeWordDetect() {
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if (afe_detection_data_ != nullptr) {
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esp_afe_sr_v1.destroy(afe_detection_data_);
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if (afe_data_ != nullptr) {
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afe_iface_->destroy(afe_data_);
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}
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if (wake_word_encode_task_stack_ != nullptr) {
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@@ -50,39 +50,22 @@ void WakeWordDetect::Initialize(int channels, bool reference) {
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}
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}
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afe_config_t afe_config = {
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.aec_init = reference_,
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.se_init = true,
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.vad_init = true,
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.wakenet_init = true,
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.voice_communication_init = false,
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.voice_communication_agc_init = false,
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.voice_communication_agc_gain = 10,
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.vad_mode = VAD_MODE_3,
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.wakenet_model_name = wakenet_model_,
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.wakenet_model_name_2 = NULL,
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.wakenet_mode = DET_MODE_90,
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.afe_mode = SR_MODE_HIGH_PERF,
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.afe_perferred_core = 1,
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.afe_perferred_priority = 1,
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.afe_ringbuf_size = 50,
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.memory_alloc_mode = AFE_MEMORY_ALLOC_MORE_PSRAM,
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.afe_linear_gain = 1.0,
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.agc_mode = AFE_MN_PEAK_AGC_MODE_2,
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.pcm_config = {
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.total_ch_num = channels_,
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.mic_num = channels_ - ref_num,
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.ref_num = ref_num,
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.sample_rate = 16000
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},
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.debug_init = false,
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.debug_hook = {{ AFE_DEBUG_HOOK_MASE_TASK_IN, NULL }, { AFE_DEBUG_HOOK_FETCH_TASK_IN, NULL }},
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.afe_ns_mode = NS_MODE_SSP,
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.afe_ns_model_name = NULL,
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.fixed_first_channel = true,
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};
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afe_detection_data_ = esp_afe_sr_v1.create_from_config(&afe_config);
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std::string input_format;
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for (int i = 0; i < channels_ - ref_num; i++) {
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input_format.push_back('M');
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}
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for (int i = 0; i < ref_num; i++) {
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input_format.push_back('R');
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}
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afe_config_t* afe_config = afe_config_init(input_format.c_str(), models, AFE_TYPE_SR, AFE_MODE_HIGH_PERF);
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afe_config->aec_init = reference_;
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afe_config->aec_mode = AEC_MODE_SR_HIGH_PERF;
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afe_config->afe_perferred_core = 1;
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afe_config->afe_perferred_priority = 1;
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afe_config->memory_alloc_mode = AFE_MEMORY_ALLOC_MORE_PSRAM;
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afe_iface_ = esp_afe_handle_from_config(afe_config);
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afe_data_ = afe_iface_->create_from_config(afe_config);
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xTaskCreate([](void* arg) {
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auto this_ = (WakeWordDetect*)arg;
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@@ -95,16 +78,13 @@ void WakeWordDetect::OnWakeWordDetected(std::function<void(const std::string& wa
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wake_word_detected_callback_ = callback;
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}
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void WakeWordDetect::OnVadStateChange(std::function<void(bool speaking)> callback) {
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vad_state_change_callback_ = callback;
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}
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void WakeWordDetect::StartDetection() {
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xEventGroupSetBits(event_group_, DETECTION_RUNNING_EVENT);
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}
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void WakeWordDetect::StopDetection() {
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xEventGroupClearBits(event_group_, DETECTION_RUNNING_EVENT);
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afe_iface_->reset_buffer(afe_data_);
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}
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bool WakeWordDetect::IsDetectionRunning() {
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@@ -114,23 +94,23 @@ bool WakeWordDetect::IsDetectionRunning() {
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void WakeWordDetect::Feed(const std::vector<int16_t>& data) {
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input_buffer_.insert(input_buffer_.end(), data.begin(), data.end());
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auto feed_size = esp_afe_sr_v1.get_feed_chunksize(afe_detection_data_) * channels_;
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auto feed_size = afe_iface_->get_feed_chunksize(afe_data_) * channels_;
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while (input_buffer_.size() >= feed_size) {
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esp_afe_sr_v1.feed(afe_detection_data_, input_buffer_.data());
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afe_iface_->feed(afe_data_, input_buffer_.data());
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input_buffer_.erase(input_buffer_.begin(), input_buffer_.begin() + feed_size);
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}
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}
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void WakeWordDetect::AudioDetectionTask() {
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auto fetch_size = esp_afe_sr_v1.get_fetch_chunksize(afe_detection_data_);
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auto feed_size = esp_afe_sr_v1.get_feed_chunksize(afe_detection_data_);
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auto fetch_size = afe_iface_->get_fetch_chunksize(afe_data_);
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auto feed_size = afe_iface_->get_feed_chunksize(afe_data_);
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ESP_LOGI(TAG, "Audio detection task started, feed size: %d fetch size: %d",
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feed_size, fetch_size);
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while (true) {
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xEventGroupWaitBits(event_group_, DETECTION_RUNNING_EVENT, pdFALSE, pdTRUE, portMAX_DELAY);
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auto res = esp_afe_sr_v1.fetch(afe_detection_data_);
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auto res = afe_iface_->fetch_with_delay(afe_data_, portMAX_DELAY);
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if (res == nullptr || res->ret_value == ESP_FAIL) {
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continue;;
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}
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@@ -138,17 +118,6 @@ void WakeWordDetect::AudioDetectionTask() {
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// Store the wake word data for voice recognition, like who is speaking
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StoreWakeWordData((uint16_t*)res->data, res->data_size / sizeof(uint16_t));
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// VAD state change
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if (vad_state_change_callback_) {
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if (res->vad_state == AFE_VAD_SPEECH && !is_speaking_) {
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is_speaking_ = true;
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vad_state_change_callback_(true);
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} else if (res->vad_state == AFE_VAD_SILENCE && is_speaking_) {
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is_speaking_ = false;
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vad_state_change_callback_(false);
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}
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}
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if (res->wakeup_state == WAKENET_DETECTED) {
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StopDetection();
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last_detected_wake_word_ = wake_words_[res->wake_word_index - 1];
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