ref: ad69b23d21b20df735bb9fb2bccad7ab0c907f07
dir: /LEAF/Inc/leaf-filter.h/
/*============================================================================== leaf-filter.h Created: 20 Jan 2017 12:01:10pm Author: Michael R Mulshine ==============================================================================*/ #ifndef LEAF_FILTER_H_INCLUDED #define LEAF_FILTER_H_INCLUDED #ifdef __cplusplus extern "C" { #endif //============================================================================== #include "leaf-globals.h" #include "leaf-math.h" #include "leaf-delay.h" #include "leaf-wavetables.h" //============================================================================== /* tAllpass: Schroeder allpass. Comb-filter with feedforward and feedback. */ typedef struct _tAllpass { float gain; tDelayL delay; float lastOut; } tAllpass; void tAllpass_init (tAllpass* const, float initDelay, uint32_t maxDelay); void tAllpass_free (tAllpass* const); float tAllpass_tick (tAllpass* const, float input); void tAllpass_setGain (tAllpass* const, float gain); void tAllpass_setDelay (tAllpass* const f, float delay); //============================================================================== /* tOnePole: OnePole filter, reimplemented from STK (Cook and Scavone). */ typedef struct _tOnePole { float gain; float a0,a1; float b0,b1; float coef; float freq; float lastIn, lastOut; } tOnePole; void tOnePole_init (tOnePole* const, float thePole); void tOnePole_free (tOnePole* 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; void tTwoPole_init (tTwoPole* const); void tTwoPole_free (tTwoPole* 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; void tOneZero_init (tOneZero* const, float theZero); void tOneZero_free (tOneZero* 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; void tTwoZero_init (tTwoZero* const); void tTwoZero_free (tTwoZero* 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; void tPoleZero_init (tPoleZero* const); void tPoleZero_free (tPoleZero* 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; void tBiQuad_init (tBiQuad* const); void tBiQuad_free (tBiQuad* 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, } SVFType; typedef struct _tSVF { SVFType type; float cutoff, Q; float ic1eq,ic2eq; float g,k,a1,a2,a3; } tSVF; void tSVF_init (tSVF* const, SVFType type, float freq, float Q); void tSVF_free (tSVF* const); float tSVF_tick (tSVF* const, float v0); int tSVF_setFreq (tSVF* const, float freq); int tSVF_setQ (tSVF* const, float Q); //============================================================================== /* Efficient State Variable Filter for 14-bit control input, [0, 4096). */ typedef struct _tSVFE { SVFType type; float cutoff, Q; float ic1eq,ic2eq; float g,k,a1,a2,a3; } tSVFE; void tSVFE_init (tSVFE* const, SVFType type, uint16_t controlFreq, float Q); void tSVFE_free (tSVFE* const); float tSVFE_tick (tSVFE* const, float v0); int tSVFE_setFreq (tSVFE* const, uint16_t controlFreq); int tSVFE_setQ (tSVFE* const, float Q); //============================================================================== /* Simple Highpass filter. */ typedef struct _tHighpass { float xs, ys, R; float frequency; } tHighpass; void tHighpass_init (tHighpass* const, float freq); void tHighpass_free (tHighpass* 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; float N; tSVF low[NUM_SVF_BW]; tSVF high[NUM_SVF_BW]; float f1,f2; } tButterworth; void tButterworth_init (tButterworth* const, int N, float f1, float f2); void tButterworth_free (tButterworth* 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); //============================================================================== #ifdef __cplusplus } #endif #endif // LEAF_FILTER_H_INCLUDED //==============================================================================