ref: 223a8ee32c6fe93c2ecd2636e9c49fa618cc1759
dir: /LEAF/Inc/leaf-physical.h/
/* ============================================================================== leaf-physical.h Created: 30 Nov 2018 10:41:55am Author: airship ============================================================================== */ #ifndef LEAF_PHYSICAL_H_INCLUDED #define LEAF_PHYSICAL_H_INCLUDED #ifdef __cplusplus extern "C" { #endif //============================================================================== #include "leaf-global.h" #include "leaf-math.h" #include "leaf-mempool.h" #include "leaf-delay.h" #include "leaf-filters.h" #include "leaf-oscillators.h" #include "leaf-envelopes.h" #include "leaf-dynamics.h" //============================================================================== /* Karplus Strong model */ typedef struct _tPluck { tAllpassDelay delayLine; // Allpass or Linear?? big difference... tOneZero loopFilter; tOnePole pickFilter; tNoise noise; float lastOut; float loopGain; float lastFreq; float sr; } _tPluck; typedef _tPluck* tPluck; void tPluck_init (tPluck* const, float lowestFrequency); //float delayBuff[DELAY_LENGTH]); void tPluck_free (tPluck* const); void tPluck_initToPool (tPluck* const, float lowestFrequency, tMempool* const); void tPluck_freeFromPool (tPluck* const, tMempool* const); float tPluck_tick (tPluck* const); // Pluck the string. void tPluck_pluck (tPluck* const, float amplitude); // Start a note with the given frequency and amplitude.; void tPluck_noteOn (tPluck* const, float frequency, float amplitude ); // Stop a note with the given amplitude (speed of decay). void tPluck_noteOff (tPluck* const, float amplitude ); // Set instrument parameters for a particular frequency. void tPluck_setFrequency (tPluck* const, float frequency ); // Perform the control change specified by \e number and \e value (0.0 - 128.0). void tPluck_controlChange (tPluck* const, int number, float value); // tPluck Utilities. float tPluck_getLastOut (tPluck* const); //============================================================================== typedef enum SKControlType { SKPickPosition = 0, SKStringDamping, SKDetune, SKControlTypeNil } SKControlType; /* Stif Karplus Strong model */ typedef struct _tKarplusStrong { tAllpassDelay delayLine; tLinearDelay combDelay; tOneZero filter; tNoise noise; tBiQuad biquad[4]; uint32_t length; float loopGain; float baseLoopGain; float lastFrequency; float lastLength; float stretching; float pluckAmplitude; float pickupPosition; float lastOut; } _tKarplusStrong; typedef _tKarplusStrong* tKarplusStrong; void tKarplusStrong_init (tKarplusStrong* const, float lowestFrequency); // float delayBuff[2][DELAY_LENGTH]); void tKarplusStrong_free (tKarplusStrong* const); void tKarplusStrong_initToPool (tKarplusStrong* const, float lowestFrequency, tMempool* const); void tKarplusStrong_freeFromPool (tKarplusStrong* const, tMempool* const); float tKarplusStrong_tick (tKarplusStrong* const); // Pluck the string. void tKarplusStrong_pluck (tKarplusStrong* const, float amplitude); // Start a note with the given frequency and amplitude.; void tKarplusStrong_noteOn (tKarplusStrong* const, float frequency, float amplitude ); // Stop a note with the given amplitude (speed of decay). void tKarplusStrong_noteOff (tKarplusStrong* const, float amplitude ); // Set instrument parameters for a particular frequency. void tKarplusStrong_setFrequency (tKarplusStrong* const, float frequency ); // Perform the control change specified by \e number and \e value (0.0 - 128.0). // Use SKPickPosition, SKStringDamping, or SKDetune for type. void tKarplusStrong_controlChange (tKarplusStrong* const, SKControlType type, float value); // Set the stretch "factor" of the string (0.0 - 1.0). void tKarplusStrong_setStretch (tKarplusStrong* const, float stretch ); // Set the pluck or "excitation" position along the string (0.0 - 1.0). void tKarplusStrong_setPickupPosition (tKarplusStrong* const, float position ); // Set the base loop gain. void tKarplusStrong_setBaseLoopGain (tKarplusStrong* const, float aGain ); // tKarplusStrong utilities. float tKarplusStrong_getLastOut (tKarplusStrong* const); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ /* Simple Living String */ typedef struct _tSimpleLivingString { float freq, waveLengthInSamples; // the frequency of the string, determining delay length float dampFreq; // frequency for the bridge LP filter, in Hz float decay; // amplitude damping factor for the string (only active in mode 0) float levMode; float curr; tLinearDelay delayLine; tOnePole bridgeFilter; tHighpass DCblocker; tFeedbackLeveler fbLev; tExpSmooth wlSmooth; } _tSimpleLivingString; typedef _tSimpleLivingString* tSimpleLivingString; void tSimpleLivingString_init (tSimpleLivingString* const, float freq, float dampFreq, float decay, float targetLev, float levSmoothFactor, float levStrength, int levMode); void tSimpleLivingString_free (tSimpleLivingString* const); void tSimpleLivingString_initToPool (tSimpleLivingString* const, float freq, float dampFreq, float decay, float targetLev, float levSmoothFactor, float levStrength, int levMode, tMempool* const); void tSimpleLivingString_freeFromPool (tSimpleLivingString* const, tMempool* const); float tSimpleLivingString_tick (tSimpleLivingString* const, float input); float tSimpleLivingString_sample (tSimpleLivingString* const); void tSimpleLivingString_setFreq (tSimpleLivingString* const, float freq); void tSimpleLivingString_setWaveLength (tSimpleLivingString* const, float waveLength); // in samples void tSimpleLivingString_setDampFreq (tSimpleLivingString* const, float dampFreq); void tSimpleLivingString_setDecay (tSimpleLivingString* const, float decay); // should be near 1.0 void tSimpleLivingString_setTargetLev (tSimpleLivingString* const, float targetLev); void tSimpleLivingString_setLevSmoothFactor (tSimpleLivingString* const, float levSmoothFactor); void tSimpleLivingString_setLevStrength (tSimpleLivingString* const, float levStrength); void tSimpleLivingString_setLevMode (tSimpleLivingString* const, int levMode); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ /* Living String */ typedef struct _tLivingString { float freq, waveLengthInSamples; // the frequency of the whole string, determining delay length float pickPos; // the pick position, dividing the string in two, in ratio float prepIndex; // the amount of pressure on the pickpoint of the string (near 0=soft obj, near 1=hard obj) float dampFreq; // frequency for the bridge LP filter, in Hz float decay; // amplitude damping factor for the string (only active in mode 0) float levMode; float curr; tLinearDelay delLF,delUF,delUB,delLB; // delay for lower/upper/forward/backward part of the waveguide model tOnePole bridgeFilter, nutFilter, prepFilterU, prepFilterL; tHighpass DCblockerL, DCblockerU; tFeedbackLeveler fbLevU, fbLevL; tExpSmooth wlSmooth, ppSmooth; } _tLivingString; typedef _tLivingString* tLivingString; void tLivingString_init (tLivingString* const, float freq, float pickPos, float prepIndex, float dampFreq, float decay, float targetLev, float levSmoothFactor, float levStrength, int levMode); void tLivingString_free (tLivingString* const); void tLivingString_initToPool (tLivingString* const, float freq, float pickPos, float prepIndex, float dampFreq, float decay, float targetLev, float levSmoothFactor, float levStrength, int levMode, tMempool* const); void tLivingString_freeFromPool (tLivingString* const, tMempool* const); float tLivingString_tick (tLivingString* const, float input); float tLivingString_sample (tLivingString* const); void tLivingString_setFreq (tLivingString* const, float freq); void tLivingString_setWaveLength (tLivingString* const, float waveLength); // in samples void tLivingString_setPickPos (tLivingString* const, float pickPos); void tLivingString_setPrepIndex (tLivingString* const, float prepIndex); void tLivingString_setDampFreq (tLivingString* const, float dampFreq); void tLivingString_setDecay (tLivingString* const, float decay); // should be near 1.0 void tLivingString_setTargetLev (tLivingString* const, float targetLev); void tLivingString_setLevSmoothFactor (tLivingString* const, float levSmoothFactor); void tLivingString_setLevStrength (tLivingString* const, float levStrength); void tLivingString_setLevMode (tLivingString* const, int levMode); // ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ //Reed Table - borrowed from STK typedef struct _tReedTable { float offset, slope; } _tReedTable; typedef _tReedTable* tReedTable; void tReedTable_init (tReedTable* const, float offset, float slope); void tReedTable_free (tReedTable* const); void tReedTable_initToPool (tReedTable* const, float offset, float slope, tMempool* const); void tReedTable_freeFromPool (tReedTable* const, tMempool* const); float tReedTable_tick (tReedTable* const, float input); float tReedTable_tanh_tick (tReedTable* const, float input); //tanh softclip version of reed table - replacing the hard clip in original stk code void tReedTable_setOffset (tReedTable* const, float offset); void tReedTable_setSlope (tReedTable* const, float slope); //============================================================================== #ifdef __cplusplus } #endif #endif // LEAF_PHYSICAL_H_INCLUDED //==============================================================================