1 /* 2 * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. 3 * 4 * Use of this source code is governed by a BSD-style license 5 * that can be found in the LICENSE file in the root of the source 6 * tree. An additional intellectual property rights grant can be found 7 * in the file PATENTS. All contributing project authors may 8 * be found in the AUTHORS file in the root of the source tree. 9 */ 10 11 #ifndef WEBRTC_MODULES_AUDIO_PROCESSING_NS_MAIN_SOURCE_NSX_CORE_H_ 12 #define WEBRTC_MODULES_AUDIO_PROCESSING_NS_MAIN_SOURCE_NSX_CORE_H_ 13 14 #include "typedefs.h" 15 #include "signal_processing_library.h" 16 17 #include "nsx_defines.h" 18 19 #ifdef NS_FILEDEBUG 20 #include <stdio.h> 21 #endif 22 23 typedef struct NsxInst_t_ { 24 WebRtc_UWord32 fs; 25 26 const WebRtc_Word16* window; 27 WebRtc_Word16 analysisBuffer[ANAL_BLOCKL_MAX]; 28 WebRtc_Word16 synthesisBuffer[ANAL_BLOCKL_MAX]; 29 WebRtc_UWord16 noiseSupFilter[HALF_ANAL_BLOCKL]; 30 WebRtc_UWord16 overdrive; /* Q8 */ 31 WebRtc_UWord16 denoiseBound; /* Q14 */ 32 const WebRtc_Word16* factor2Table; 33 WebRtc_Word16 noiseEstLogQuantile[SIMULT* HALF_ANAL_BLOCKL]; 34 WebRtc_Word16 noiseEstDensity[SIMULT* HALF_ANAL_BLOCKL]; 35 WebRtc_Word16 noiseEstCounter[SIMULT]; 36 WebRtc_Word16 noiseEstQuantile[HALF_ANAL_BLOCKL]; 37 38 WebRtc_Word16 anaLen; 39 int anaLen2; 40 int magnLen; 41 int aggrMode; 42 int stages; 43 int initFlag; 44 int gainMap; 45 46 WebRtc_Word32 maxLrt; 47 WebRtc_Word32 minLrt; 48 WebRtc_Word32 logLrtTimeAvgW32[HALF_ANAL_BLOCKL]; //log lrt factor with time-smoothing in Q8 49 WebRtc_Word32 featureLogLrt; 50 WebRtc_Word32 thresholdLogLrt; 51 WebRtc_Word16 weightLogLrt; 52 53 WebRtc_UWord32 featureSpecDiff; 54 WebRtc_UWord32 thresholdSpecDiff; 55 WebRtc_Word16 weightSpecDiff; 56 57 WebRtc_UWord32 featureSpecFlat; 58 WebRtc_UWord32 thresholdSpecFlat; 59 WebRtc_Word16 weightSpecFlat; 60 61 WebRtc_Word32 avgMagnPause[HALF_ANAL_BLOCKL]; //conservative estimate of noise spectrum 62 WebRtc_UWord32 magnEnergy; 63 WebRtc_UWord32 sumMagn; 64 WebRtc_UWord32 curAvgMagnEnergy; 65 WebRtc_UWord32 timeAvgMagnEnergy; 66 WebRtc_UWord32 timeAvgMagnEnergyTmp; 67 68 WebRtc_UWord32 whiteNoiseLevel; //initial noise estimate 69 WebRtc_UWord32 initMagnEst[HALF_ANAL_BLOCKL];//initial magnitude spectrum estimate 70 WebRtc_Word32 pinkNoiseNumerator; //pink noise parameter: numerator 71 WebRtc_Word32 pinkNoiseExp; //pink noise parameter: power of freq 72 int minNorm; //smallest normalization factor 73 int zeroInputSignal; //zero input signal flag 74 75 WebRtc_UWord32 prevNoiseU32[HALF_ANAL_BLOCKL]; //noise spectrum from previous frame 76 WebRtc_UWord16 prevMagnU16[HALF_ANAL_BLOCKL]; //magnitude spectrum from previous frame 77 WebRtc_Word16 priorNonSpeechProb; //prior speech/noise probability // Q14 78 79 int blockIndex; //frame index counter 80 int modelUpdate; //parameter for updating or estimating thresholds/weights for prior model 81 int cntThresUpdate; 82 83 //histograms for parameter estimation 84 WebRtc_Word16 histLrt[HIST_PAR_EST]; 85 WebRtc_Word16 histSpecFlat[HIST_PAR_EST]; 86 WebRtc_Word16 histSpecDiff[HIST_PAR_EST]; 87 88 //quantities for high band estimate 89 WebRtc_Word16 dataBufHBFX[ANAL_BLOCKL_MAX]; /* Q0 */ 90 91 int qNoise; 92 int prevQNoise; 93 int prevQMagn; 94 int blockLen10ms; 95 96 WebRtc_Word16 real[ANAL_BLOCKL_MAX]; 97 WebRtc_Word16 imag[ANAL_BLOCKL_MAX]; 98 WebRtc_Word32 energyIn; 99 int scaleEnergyIn; 100 int normData; 101 102 } NsxInst_t; 103 104 #ifdef __cplusplus 105 extern "C" 106 { 107 #endif 108 109 /**************************************************************************** 110 * WebRtcNsx_InitCore(...) 111 * 112 * This function initializes a noise suppression instance 113 * 114 * Input: 115 * - inst : Instance that should be initialized 116 * - fs : Sampling frequency 117 * 118 * Output: 119 * - inst : Initialized instance 120 * 121 * Return value : 0 - Ok 122 * -1 - Error 123 */ 124 WebRtc_Word32 WebRtcNsx_InitCore(NsxInst_t* inst, WebRtc_UWord32 fs); 125 126 /**************************************************************************** 127 * WebRtcNsx_set_policy_core(...) 128 * 129 * This changes the aggressiveness of the noise suppression method. 130 * 131 * Input: 132 * - inst : Instance that should be initialized 133 * - mode : 0: Mild (6 dB), 1: Medium (10 dB), 2: Aggressive (15 dB) 134 * 135 * Output: 136 * - inst : Initialized instance 137 * 138 * Return value : 0 - Ok 139 * -1 - Error 140 */ 141 int WebRtcNsx_set_policy_core(NsxInst_t* inst, int mode); 142 143 /**************************************************************************** 144 * WebRtcNsx_ProcessCore 145 * 146 * Do noise suppression. 147 * 148 * Input: 149 * - inst : Instance that should be initialized 150 * - inFrameLow : Input speech frame for lower band 151 * - inFrameHigh : Input speech frame for higher band 152 * 153 * Output: 154 * - inst : Updated instance 155 * - outFrameLow : Output speech frame for lower band 156 * - outFrameHigh : Output speech frame for higher band 157 * 158 * Return value : 0 - OK 159 * -1 - Error 160 */ 161 int WebRtcNsx_ProcessCore(NsxInst_t* inst, 162 short* inFrameLow, 163 short* inFrameHigh, 164 short* outFrameLow, 165 short* outFrameHigh); 166 167 /**************************************************************************** 168 * Some function pointers, for internal functions shared by ARM NEON and 169 * generic C code. 170 */ 171 // Noise Estimation. 172 typedef void (*NoiseEstimation)(NsxInst_t* inst, 173 uint16_t* magn, 174 uint32_t* noise, 175 int16_t* q_noise); 176 extern NoiseEstimation WebRtcNsx_NoiseEstimation; 177 178 // Filter the data in the frequency domain, and create spectrum. 179 typedef void (*PrepareSpectrum)(NsxInst_t* inst, 180 int16_t* freq_buff); 181 extern PrepareSpectrum WebRtcNsx_PrepareSpectrum; 182 183 // For the noise supression process, synthesis, read out fully processed 184 // segment, and update synthesis buffer. 185 typedef void (*SynthesisUpdate)(NsxInst_t* inst, 186 int16_t* out_frame, 187 int16_t gain_factor); 188 extern SynthesisUpdate WebRtcNsx_SynthesisUpdate; 189 190 // Update analysis buffer for lower band, and window data before FFT. 191 typedef void (*AnalysisUpdate)(NsxInst_t* inst, 192 int16_t* out, 193 int16_t* new_speech); 194 extern AnalysisUpdate WebRtcNsx_AnalysisUpdate; 195 196 // Denormalize the input buffer. 197 typedef void (*Denormalize)(NsxInst_t* inst, 198 int16_t* in, 199 int factor); 200 extern Denormalize WebRtcNsx_Denormalize; 201 202 // Create a complex number buffer, as the intput interleaved with zeros, 203 // and normalize it. 204 typedef void (*CreateComplexBuffer)(NsxInst_t* inst, 205 int16_t* in, 206 int16_t* out); 207 extern CreateComplexBuffer WebRtcNsx_CreateComplexBuffer; 208 209 /**************************************************************************** 210 * Initialization of the above function pointers for ARM Neon. 211 */ 212 void WebRtcNsx_InitNeon(void); 213 214 extern const WebRtc_Word16 WebRtcNsx_kLogTable[9]; 215 extern const WebRtc_Word16 WebRtcNsx_kLogTableFrac[256]; 216 extern const WebRtc_Word16 WebRtcNsx_kCounterDiv[201]; 217 218 #ifdef __cplusplus 219 } 220 #endif 221 222 #endif // WEBRTC_MODULES_AUDIO_PROCESSING_NS_MAIN_SOURCE_NSX_CORE_H_ 223
