ref: 6dcc4aeffb487193bb072797444d354fd7ded848
dir: /LEAF/Inc/leaf-filters.h/
/*============================================================================== leaf-filters.h Created: 20 Jan 2017 12:01:10pm Author: Michael R Mulshine ==============================================================================*/ #ifndef LEAF_FILTERS_H_INCLUDED #define LEAF_FILTERS_H_INCLUDED #ifdef __cplusplus extern "C" { #endif //============================================================================== #include "leaf-math.h" #include "leaf-mempool.h" #include "leaf-delay.h" #include "leaf-tables.h" /*! * @internal * Header. * @include basic-oscillators.h * @example basic-oscillators.c * An example. */ //============================================================================== /* tAllpass: Schroeder allpass. Comb-filter with feedforward and feedback. */ typedef struct _tAllpass { float gain; tLinearDelay delay; float lastOut; } _tAllpass; typedef _tAllpass* tAllpass; void tAllpass_init (tAllpass* const, float initDelay, uint32_t maxDelay); void tAllpass_free (tAllpass* const); void tAllpass_initToPool (tAllpass* const, float initDelay, uint32_t maxDelay, tMempool* const); void tAllpass_freeFromPool (tAllpass* const, tMempool* const); float tAllpass_tick (tAllpass* const, float input); void tAllpass_setGain (tAllpass* const, float gain); void tAllpass_setDelay (tAllpass* const, float delay); //============================================================================== /* tOnePole: OnePole filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tOnePole { float gain; float a0,a1; float b0,b1; float lastIn, lastOut; } _tOnePole; typedef _tOnePole* tOnePole; void tOnePole_init (tOnePole* const, float thePole); void tOnePole_free (tOnePole* const); void tOnePole_initToPool (tOnePole* const, float thePole, tMempool* const); void tOnePole_freeFromPool (tOnePole* const, tMempool* const); float tOnePole_tick (tOnePole* const, float input); void tOnePole_setB0 (tOnePole* const, float b0); void tOnePole_setA1 (tOnePole* const, float a1); void tOnePole_setPole (tOnePole* const, float thePole); void tOnePole_setFreq (tOnePole* const, float freq); void tOnePole_setCoefficients(tOnePole* const, float b0, float a1); void tOnePole_setGain (tOnePole* const, float gain); //============================================================================== /* TwoPole filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tTwoPole { float gain; float a0, a1, a2; float b0; float radius, frequency; oBool normalize; float lastOut[2]; } _tTwoPole; typedef _tTwoPole* tTwoPole; void tTwoPole_init (tTwoPole* const); void tTwoPole_free (tTwoPole* const); void tTwoPole_initToPool (tTwoPole* const, tMempool* const); void tTwoPole_freeFromPool (tTwoPole* const, tMempool* const); float tTwoPole_tick (tTwoPole* const, float input); void tTwoPole_setB0 (tTwoPole* const, float b0); void tTwoPole_setA1 (tTwoPole* const, float a1); void tTwoPole_setA2 (tTwoPole* const, float a2); void tTwoPole_setResonance (tTwoPole* const, float freq, float radius, oBool normalize); void tTwoPole_setCoefficients(tTwoPole* const, float b0, float a1, float a2); void tTwoPole_setGain (tTwoPole* const, float gain); //============================================================================== /* OneZero filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tOneZero { float gain; float b0,b1; float lastIn, lastOut, frequency; } _tOneZero; typedef _tOneZero* tOneZero; void tOneZero_init (tOneZero* const, float theZero); void tOneZero_free (tOneZero* const); void tOneZero_initToPool (tOneZero* const, float theZero, tMempool* const); void tOneZero_freeFromPool (tOneZero* const, tMempool* const); float tOneZero_tick (tOneZero* const, float input); void tOneZero_setB0 (tOneZero* const, float b0); void tOneZero_setB1 (tOneZero* const, float b1); void tOneZero_setZero (tOneZero* const, float theZero); void tOneZero_setCoefficients(tOneZero* const, float b0, float b1); void tOneZero_setGain (tOneZero* const, float gain); float tOneZero_getPhaseDelay (tOneZero *f, float frequency ); //============================================================================== /* TwoZero filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tTwoZero { float gain; float b0, b1, b2; float frequency, radius; float lastIn[2]; } _tTwoZero; typedef _tTwoZero* tTwoZero; void tTwoZero_init (tTwoZero* const); void tTwoZero_free (tTwoZero* const); void tTwoZero_initToPool (tTwoZero* const, tMempool* const); void tTwoZero_freeFromPool (tTwoZero* const, tMempool* const); float tTwoZero_tick (tTwoZero* const, float input); void tTwoZero_setB0 (tTwoZero* const, float b0); void tTwoZero_setB1 (tTwoZero* const, float b1); void tTwoZero_setB2 (tTwoZero* const, float b2); void tTwoZero_setNotch (tTwoZero* const, float frequency, float radius); void tTwoZero_setCoefficients(tTwoZero* const, float b0, float b1, float b2); void tTwoZero_setGain (tTwoZero* const, float gain); //============================================================================== /* PoleZero filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tPoleZero { float gain; float a0,a1; float b0,b1; float lastIn, lastOut; } _tPoleZero; typedef _tPoleZero* tPoleZero; void tPoleZero_init (tPoleZero* const); void tPoleZero_free (tPoleZero* const); void tPoleZero_initToPool (tPoleZero* const, tMempool* const); void tPoleZero_freeFromPool (tPoleZero* const, tMempool* const); float tPoleZero_tick (tPoleZero* const, float input); void tPoleZero_setB0 (tPoleZero* const, float b0); void tPoleZero_setB1 (tPoleZero* const, float b1); void tPoleZero_setA1 (tPoleZero* const, float a1); void tPoleZero_setCoefficients (tPoleZero* const, float b0, float b1, float a1); void tPoleZero_setAllpass (tPoleZero* const, float coeff); void tPoleZero_setBlockZero (tPoleZero* const, float thePole); void tPoleZero_setGain (tPoleZero* const, float gain); //============================================================================== /* BiQuad filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tBiQuad { float gain; float a0, a1, a2; float b0, b1, b2; float lastIn[2]; float lastOut[2]; float frequency, radius; oBool normalize; } _tBiQuad; typedef _tBiQuad* tBiQuad; void tBiQuad_init (tBiQuad* const); void tBiQuad_free (tBiQuad* const); void tBiQuad_initToPool (tBiQuad* const, tMempool* const); void tBiQuad_freeFromPool (tBiQuad* const, tMempool* const); float tBiQuad_tick (tBiQuad* const, float input); void tBiQuad_setB0 (tBiQuad* const, float b0); void tBiQuad_setB1 (tBiQuad* const, float b1); void tBiQuad_setB2 (tBiQuad* const, float b2); void tBiQuad_setA1 (tBiQuad* const, float a1); void tBiQuad_setA2 (tBiQuad* const, float a2); void tBiQuad_setNotch (tBiQuad* const, float freq, float radius); void tBiQuad_setResonance (tBiQuad* const, float freq, float radius, oBool normalize); void tBiQuad_setCoefficients(tBiQuad* const, float b0, float b1, float b2, float a1, float a2); void tBiQuad_setGain (tBiQuad* const, float gain); //============================================================================== /* State Variable Filter, algorithm from Andy Simper. */ typedef enum SVFType { SVFTypeHighpass = 0, SVFTypeLowpass, SVFTypeBandpass, SVFTypeNotch, SVFTypePeak, SVFTypeLowShelf, SVFTypeHighShelf } SVFType; typedef struct _tSVF { SVFType type; float cutoff, Q; float ic1eq,ic2eq; float g,k,a1,a2,a3,cH,cB,cL,cBK; } _tSVF; typedef _tSVF* tSVF; void tSVF_init (tSVF* const, SVFType type, float freq, float Q); void tSVF_free (tSVF* const); void tSVF_initToPool (tSVF* const, SVFType type, float freq, float Q, tMempool* const); void tSVF_freeFromPool (tSVF* const, tMempool* const); float tSVF_tick (tSVF* const, float v0); void tSVF_setFreq (tSVF* const, float freq); void tSVF_setQ (tSVF* const, float Q); void tSVF_setFreqAndQ (tSVF* const svff, float freq, float Q); //============================================================================== /* Efficient State Variable Filter for 14-bit control input, [0, 4096). */ typedef struct _tEfficientSVF { SVFType type; float cutoff, Q; float ic1eq,ic2eq; float g,k,a1,a2,a3; } _tEfficientSVF; typedef _tEfficientSVF* tEfficientSVF; void tEfficientSVF_init (tEfficientSVF* const, SVFType type, uint16_t input, float Q); void tEfficientSVF_free (tEfficientSVF* const); void tEfficientSVF_initToPool (tEfficientSVF* const, SVFType type, uint16_t input, float Q, tMempool* const); void tEfficientSVF_freeFromPool (tEfficientSVF* const, tMempool* const); float tEfficientSVF_tick (tEfficientSVF* const, float v0); void tEfficientSVF_setFreq (tEfficientSVF* const, uint16_t controlFreq); void tEfficientSVF_setQ (tEfficientSVF* const, float Q); //============================================================================== /* Simple Highpass filter. */ typedef struct _tHighpass { float xs, ys, R; float frequency; } _tHighpass; typedef _tHighpass* tHighpass; void tHighpass_init (tHighpass* const, float freq); void tHighpass_free (tHighpass* const); void tHighpass_initToPool (tHighpass* const, float freq, tMempool* const); void tHighpass_freeFromPool (tHighpass* const, tMempool* const); float tHighpass_tick (tHighpass* const, float x); void tHighpass_setFreq (tHighpass* const, float freq); float tHighpass_getFreq (tHighpass* const); //============================================================================== // Butterworth Filter #define NUM_SVF_BW 16 typedef struct _tButterworth { float gain; int N; tSVF low[NUM_SVF_BW]; tSVF high[NUM_SVF_BW]; float f1,f2; } _tButterworth; typedef _tButterworth* tButterworth; void tButterworth_init (tButterworth* const, int N, float f1, float f2); void tButterworth_free (tButterworth* const); void tButterworth_initToPool (tButterworth* const, int N, float f1, float f2, tMempool* const); void tButterworth_freeFromPool (tButterworth* const, tMempool* const); float tButterworth_tick (tButterworth* const, float input); void tButterworth_setF1 (tButterworth* const, float in); void tButterworth_setF2 (tButterworth* const, float in); void tButterworth_setFreqs (tButterworth* const, float f1, float f2); //============================================================================== typedef struct _tFIR { float* past; float* coeff; int numTaps; } _tFIR; typedef _tFIR* tFIR; void tFIR_init (tFIR* const, float* coeffs, int numTaps); void tFIR_free (tFIR* const); void tFIR_initToPool (tFIR* const, float* coeffs, int numTaps, tMempool* const); void tFIR_freeFromPool (tFIR* const, tMempool* const); float tFIR_tick (tFIR* const, float input); //============================================================================== typedef struct _tMedianFilter { float* val; int* age; int m; int size; int middlePosition; int last; int pos; } _tMedianFilter; typedef _tMedianFilter* tMedianFilter; void tMedianFilter_init (tMedianFilter* const, int size); void tMedianFilter_free (tMedianFilter* const); void tMedianFilter_initToPool (tMedianFilter* const, int size, tMempool* const); void tMedianFilter_freeFromPool (tMedianFilter* const, tMempool* const); float tMedianFilter_tick (tMedianFilter* const, float input); //Vadim Zavalishin style from VA book (from implementation in RSlib posted to kvr forum) typedef enum VZFilterType { Highpass = 0, Lowpass, BandpassSkirt, BandpassPeak, BandReject, Bell, Lowshelf, Highshelf, Morph, Bypass, Allpass } VZFilterType; typedef struct _tVZFilter { VZFilterType type; // state: float s1, s2; // filter coefficients: float g; // embedded integrator gain float R2; // twice the damping coefficient (R2 == 2*R == 1/Q) float h; // factor for feedback (== 1/(1+2*R*g+g*g)) float cL, cB, cH; // coefficients for low-, band-, and highpass signals // parameters: float fs; // sample-rate float fc; // characteristic frequency float G; // gain float invG; //1/gain float B; // bandwidth (in octaves) float m; // morph parameter (0...1) float sr; //local sampling rate of filter (may be different from leaf sr if oversampled) float inv_sr; } _tVZFilter; typedef _tVZFilter* tVZFilter; void tVZFilter_init (tVZFilter* const, VZFilterType type, float freq, float Q); void tVZFilter_free (tVZFilter* const); void tVZFilter_initToPool (tVZFilter* const, VZFilterType type, float freq, float Q, tMempool* const); void tVZFilter_freeFromPool (tVZFilter* const, tMempool* const); void tVZFilter_setSampleRate (tVZFilter* const, float sampleRate); float tVZFilter_tick (tVZFilter* const, float input); float tVZFilter_tickEfficient (tVZFilter* const vf, float in); void tVZFilter_calcCoeffs (tVZFilter* const); void tVZFilter_setBandwidth (tVZFilter* const, float bandWidth); void tVZFilter_setFreq (tVZFilter* const, float freq); void tVZFilter_setFreqAndBandwidth (tVZFilter* const vf, float freq, float bw); void tVZFilter_setGain (tVZFilter* const, float gain); void tVZFilter_setType (tVZFilter* const, VZFilterType type); float tVZFilter_BandwidthToR (tVZFilter* const vf, float B); //diode ladder filter typedef struct _tDiodeFilter { float f; float r; float Vt; float n; float gamma; float zi; float g0inv; float g1inv; float g2inv; float s0, s1, s2, s3; } _tDiodeFilter; typedef _tDiodeFilter* tDiodeFilter; void tDiodeFilter_init (tDiodeFilter* const, float freq, float Q); void tDiodeFilter_free (tDiodeFilter* const); void tDiodeFilter_initToPool (tDiodeFilter* const, float freq, float Q, tMempool* const); void tDiodeFilter_freeFromPool (tDiodeFilter* const, tMempool* const); float tDiodeFilter_tick (tDiodeFilter* const, float input); void tDiodeFilter_setFreq (tDiodeFilter* const vf, float cutoff); void tDiodeFilter_setQ (tDiodeFilter* const vf, float resonance); #ifdef __cplusplus } #endif #endif // LEAF_FILTERS_H_INCLUDED //==============================================================================