/***************************************************/ /*! \class Clarinet \brief STK clarinet physical model class. This class implements a simple clarinet physical model, as discussed by Smith (1986), McIntyre, Schumacher, Woodhouse (1983), and others. This is a digital waveguide model, making its use possibly subject to patents held by Stanford University, Yamaha, and others. Control Change Numbers: - Reed Stiffness = 2 - Noise Gain = 4 - Vibrato Frequency = 11 - Vibrato Gain = 1 - Breath Pressure = 128 by Perry R. Cook and Gary P. Scavone, 1995 - 2002. */ /***************************************************/ #if !defined(__CLARINET_H) #define __CLARINET_H #include "Instrmnt.h" #include "DelayL.h" #include "ReedTabl.h" #include "OneZero.h" #include "Envelope.h" #include "Noise.h" #include "WaveLoop.h" class Clarinet : public Instrmnt { public: //! Class constructor, taking the lowest desired playing frequency. Clarinet(MY_FLOAT lowestFrequency); //! Class destructor. ~Clarinet(); //! Reset and clear all internal state. void clear(); //! Set instrument parameters for a particular frequency. void setFrequency(MY_FLOAT frequency); //! Apply breath pressure to instrument with given amplitude and rate of increase. void startBlowing(MY_FLOAT amplitude, MY_FLOAT rate); //! Decrease breath pressure with given rate of decrease. void stopBlowing(MY_FLOAT rate); //! Start a note with the given frequency and amplitude. void noteOn(MY_FLOAT frequency, MY_FLOAT amplitude); //! Stop a note with the given amplitude (speed of decay). void noteOff(MY_FLOAT amplitude); //! Compute one output sample. MY_FLOAT tick(); //! Perform the control change specified by \e number and \e value (0.0 - 128.0). void controlChange(int number, MY_FLOAT value); protected: DelayL *delayLine; ReedTabl *reedTable; OneZero *filter; Envelope *envelope; Noise *noise; WaveLoop *vibrato; long length; MY_FLOAT outputGain; MY_FLOAT noiseGain; MY_FLOAT vibratoGain; }; #endif