ref: 44000f7c080d0ab0702ffb79a3858df84b583370
dir: /LEAF/Inc/leaf-analysis.h/
/*============================================================================== leaf-analysis.h Created: 25 Oct 2019 10:30:52am Author: Matthew Wang ==============================================================================*/ #ifndef LEAF_ANALYSIS_H_INCLUDED #define LEAF_ANALYSIS_H_INCLUDED #ifdef __cplusplus extern "C" { #endif //============================================================================== #include "leaf-global.h" #include "leaf-mempool.h" #include "leaf-math.h" #include "leaf-filters.h" #include "leaf-envelopes.h" //============================================================================== /* Envelope Follower */ typedef struct _tEnvelopeFollower { float y; float a_thresh; float d_coeff; } _tEnvelopeFollower; typedef _tEnvelopeFollower* tEnvelopeFollower; void tEnvelopeFollower_init (tEnvelopeFollower* const, float attackThreshold, float decayCoeff); void tEnvelopeFollower_free (tEnvelopeFollower* const); void tEnvelopeFollower_initToPool (tEnvelopeFollower* const, float attackThreshold, float decayCoeff, tMempool* const); void tEnvelopeFollower_freeFromPool (tEnvelopeFollower* const, tMempool* const); float tEnvelopeFollower_tick (tEnvelopeFollower* const, float x); int tEnvelopeFollower_decayCoeff (tEnvelopeFollower* const, float decayCoeff); int tEnvelopeFollower_attackThresh (tEnvelopeFollower* const, float attackThresh); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ /* PowerEnvelopeFollower */ typedef struct _tPowerFollower { float factor, oneminusfactor; float curr; } _tPowerFollower; typedef _tPowerFollower* tPowerFollower; void tPowerFollower_init (tPowerFollower* const, float factor); void tPowerFollower_free (tPowerFollower* const); void tPowerFollower_initToPool (tPowerFollower* const, float factor, tMempool* const); void tPowerFollower_freeFromPool (tPowerFollower* const, tMempool* const); float tPowerFollower_tick (tPowerFollower* const, float input); float tPowerFollower_sample (tPowerFollower* const); int tPowerFollower_setFactor (tPowerFollower* const, float factor); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ // ENV~ from PD, modified for LEAF #define MAXOVERLAP 32 #define INITVSTAKEN 64 #define ENV_WINDOW_SIZE 1024 #define ENV_HOP_SIZE 256 typedef struct _tEnvPD { float buf[ENV_WINDOW_SIZE + INITVSTAKEN]; uint16_t x_phase; /* number of points since last output */ uint16_t x_period; /* requested period of output */ uint16_t x_realperiod; /* period rounded up to vecsize multiple */ uint16_t x_npoints; /* analysis window size in samples */ float x_result; /* result to output */ float x_sumbuf[MAXOVERLAP]; /* summing buffer */ float x_f; uint16_t windowSize, hopSize, blockSize; uint16_t x_allocforvs; /* extra buffer for DSP vector size */ } _tEnvPD; typedef _tEnvPD* tEnvPD; void tEnvPD_init (tEnvPD* const, int windowSize, int hopSize, int blockSize); void tEnvPD_free (tEnvPD* const); void tEnvPD_initToPool (tEnvPD* const, int windowSize, int hopSize, int blockSize, tMempool* const); void tEnvPD_freeFromPool (tEnvPD* const, tMempool* const); float tEnvPD_tick (tEnvPD* const); void tEnvPD_processBlock (tEnvPD* const, float* in); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ /* tAttackDetection */ #define DEFBLOCKSIZE 1024 #define DEFTHRESHOLD 6 #define DEFATTACK 10 #define DEFRELEASE 10 typedef struct _tAttackDetection { float env; //Attack & Release times in msec int atk; int rel; //Attack & Release coefficients based on times float atk_coeff; float rel_coeff; int blocksize; int samplerate; //RMS amplitude of previous block - used to decide if attack is present float prevAmp; float threshold; } _tAttackDetection; typedef _tAttackDetection* tAttackDetection; void tAttackDetection_init (tAttackDetection* const, int blocksize, int atk, int rel); void tAttackDetection_free (tAttackDetection* const); void tAttackDetection_initToPool (tAttackDetection* const, int blocksize, int atk, int rel, tMempool* const); void tAttackDetection_freeFromPool (tAttackDetection* const, tMempool* const); // set expected input blocksize void tAttackDetection_setBlocksize (tAttackDetection* const, int size); // change atkDetector sample rate void tAttackDetection_setSamplerate (tAttackDetection* const, int inRate); // set attack time and coeff void tAttackDetection_setAttack (tAttackDetection* const, int inAtk); // set release time and coeff void tAttackDetection_setRelease (tAttackDetection* const, int inRel); // set level above which values are identified as attacks void tAttackDetection_setThreshold (tAttackDetection* const, float thres); // find largest transient in input block, return index of attack int tAttackDetection_detect (tAttackDetection* const, float *in); //============================================================================== // tSNAC: period detector // from Katja Vetters http://www.katjaas.nl/helmholtz/helmholtz.html #define SNAC_FRAME_SIZE 1024 // default analysis framesize // should be the same as (or smaller than?) PS_FRAME_SIZE #define DEFOVERLAP 1 // default overlap #define DEFBIAS 0.2f // default bias #define DEFMINRMS 0.003f // default minimum RMS #define SEEK 0.85f // seek-length as ratio of framesize typedef struct _tSNAC { float* inputbuf; float* processbuf; float* spectrumbuf; float* biasbuf; uint16_t timeindex; uint16_t framesize; uint16_t overlap; uint16_t periodindex; float periodlength; float fidelity; float biasfactor; float minrms; } _tSNAC; typedef _tSNAC* tSNAC; void tSNAC_init (tSNAC* const, int overlaparg); void tSNAC_free (tSNAC* const); void tSNAC_initToPool (tSNAC* const, int overlaparg, tMempool* const); void tSNAC_freeFromPool (tSNAC* const, tMempool* const); void tSNAC_ioSamples (tSNAC *s, float *in, float *out, int size); void tSNAC_setOverlap (tSNAC *s, int lap); void tSNAC_setBias (tSNAC *s, float bias); void tSNAC_setMinRMS (tSNAC *s, float rms); /*To get freq, perform SAMPLE_RATE/snac_getperiod() */ float tSNAC_getPeriod (tSNAC *s); float tSNAC_getFidelity (tSNAC *s); #define DEFPITCHRATIO 2.0f #define DEFTIMECONSTANT 100.0f #define DEFHOPSIZE 64 #define DEFWINDOWSIZE 64 #define FBA 20 #define HPFREQ 40.0f // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ // Period detection typedef struct _tPeriodDetection { tEnvPD env; tSNAC snac; float* inBuffer; float* outBuffer; int frameSize; int bufSize; int framesPerBuffer; int curBlock; int lastBlock; int i; int indexstore; int iLast; int index; float period; uint16_t hopSize; uint16_t windowSize; uint8_t fba; float timeConstant; float radius; float max; float lastmax; float deltamax; float fidelityThreshold; } _tPeriodDetection; typedef _tPeriodDetection* tPeriodDetection; void tPeriodDetection_init (tPeriodDetection* const, float* in, float* out, int bufSize, int frameSize); void tPeriodDetection_free (tPeriodDetection* const); void tPeriodDetection_initToPool (tPeriodDetection* const, float* in, float* out, int bufSize, int frameSize, tMempool* const); void tPeriodDetection_freeFromPool (tPeriodDetection* const, tMempool* const); float tPeriodDetection_tick (tPeriodDetection* const, float sample); float tPeriodDetection_getPeriod (tPeriodDetection* const); void tPeriodDetection_setHopSize (tPeriodDetection* const, int hs); void tPeriodDetection_setWindowSize (tPeriodDetection* const, int ws); void tPeriodDetection_setFidelityThreshold(tPeriodDetection* const, float threshold); //============================================================================== #ifdef __cplusplus } #endif #endif // LEAF_ANALYSIS_H_INCLUDED //==============================================================================