/* * 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. */ #ifndef MODULES_AUDIO_CODING_NETEQ_BACKGROUND_NOISE_H_ #define MODULES_AUDIO_CODING_NETEQ_BACKGROUND_NOISE_H_ #include // size_t #include #include "api/array_view.h" namespace webrtc { // Forward declarations. class AudioMultiVector; class PostDecodeVad; // This class handles estimation of background noise parameters. class BackgroundNoise { public: // TODO(hlundin): For 48 kHz support, increase kMaxLpcOrder to 10. // Will work anyway, but probably sound a little worse. static constexpr size_t kMaxLpcOrder = 8; // 32000 / 8000 + 4. explicit BackgroundNoise(size_t num_channels); virtual ~BackgroundNoise(); BackgroundNoise(const BackgroundNoise&) = delete; BackgroundNoise& operator=(const BackgroundNoise&) = delete; void Reset(); // Updates the parameter estimates based on the signal currently in the // `sync_buffer`, and on the latest decision in `vad` if it is running. // Returns true if the filter parameters are updated. bool Update(const AudioMultiVector& sync_buffer, const PostDecodeVad& vad); // Generates background noise given a random vector and writes the output to // `buffer`. void GenerateBackgroundNoise(rtc::ArrayView random_vector, size_t channel, int mute_slope, bool too_many_expands, size_t num_noise_samples, int16_t* buffer); // Returns `energy_` for `channel`. int32_t Energy(size_t channel) const; // Sets the value of `mute_factor_` for `channel` to `value`. void SetMuteFactor(size_t channel, int16_t value); // Returns `mute_factor_` for `channel`. int16_t MuteFactor(size_t channel) const; // Returns a pointer to `filter_` for `channel`. const int16_t* Filter(size_t channel) const; // Returns a pointer to `filter_state_` for `channel`. const int16_t* FilterState(size_t channel) const; // Copies `input` to the filter state. Will not copy more than `kMaxLpcOrder` // elements. void SetFilterState(size_t channel, rtc::ArrayView input); // Returns `scale_` for `channel`. int16_t Scale(size_t channel) const; // Returns `scale_shift_` for `channel`. int16_t ScaleShift(size_t channel) const; // Accessors. bool initialized() const { return initialized_; } private: static const int kThresholdIncrement = 229; // 0.0035 in Q16. static const size_t kVecLen = 256; static const int kLogVecLen = 8; // log2(kVecLen). static const size_t kResidualLength = 64; static const int16_t kLogResidualLength = 6; // log2(kResidualLength) struct ChannelParameters { // Constructor. ChannelParameters() { Reset(); } void Reset() { energy = 2500; max_energy = 0; energy_update_threshold = 500000; low_energy_update_threshold = 0; memset(filter_state, 0, sizeof(filter_state)); memset(filter, 0, sizeof(filter)); filter[0] = 4096; mute_factor = 0; scale = 20000; scale_shift = 24; } int32_t energy; int32_t max_energy; int32_t energy_update_threshold; int32_t low_energy_update_threshold; int16_t filter_state[kMaxLpcOrder]; int16_t filter[kMaxLpcOrder + 1]; int16_t mute_factor; int16_t scale; int16_t scale_shift; }; int32_t CalculateAutoCorrelation(const int16_t* signal, size_t length, int32_t* auto_correlation) const; // Increments the energy threshold by a factor 1 + `kThresholdIncrement`. void IncrementEnergyThreshold(size_t channel, int32_t sample_energy); // Updates the filter parameters. void SaveParameters(size_t channel, const int16_t* lpc_coefficients, const int16_t* filter_state, int32_t sample_energy, int32_t residual_energy); size_t num_channels_; std::unique_ptr channel_parameters_; bool initialized_; }; } // namespace webrtc #endif // MODULES_AUDIO_CODING_NETEQ_BACKGROUND_NOISE_H_