/***************************************************/ /*! \class Saxofony \brief STK faux conical bore reed instrument class. This class implements a "hybrid" digital waveguide instrument that can generate a variety of wind-like sounds. It has also been referred to as the "blowed string" model. The waveguide section is essentially that of a string, with one rigid and one lossy termination. The non-linear function is a reed table. The string can be "blown" at any point between the terminations, though just as with strings, it is impossible to excite the system at either end. If the excitation is placed at the string mid-point, the sound is that of a clarinet. At points closer to the "bridge", the sound is closer to that of a saxophone. See Scavone (2002) for more details. 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 - Reed Aperture = 26 - Noise Gain = 4 - Blow Position = 11 - Vibrato Frequency = 29 - Vibrato Gain = 1 - Breath Pressure = 128 by Perry R. Cook and Gary P. Scavone, 1995 - 2005. */ /***************************************************/ #ifndef STK_SAXOFONY_H #define STK_SAXOFONY_H #include "Instrmnt.h" #include "DelayL.h" #include "ReedTable.h" #include "OneZero.h" #include "Envelope.h" #include "Noise.h" #include "SineWave.h" namespace Nyq { class Saxofony : public Instrmnt { public: //! Class constructor, taking the lowest desired playing frequency. /*! An StkError will be thrown if the rawwave path is incorrectly set. */ Saxofony(StkFloat lowestFrequency); //! Class destructor. ~Saxofony(); //! Reset and clear all internal state. void clear(); //! Set instrument parameters for a particular frequency. void setFrequency(StkFloat frequency); //! Set the "blowing" position between the air column terminations (0.0 - 1.0). void setBlowPosition(StkFloat aPosition); //! Apply breath pressure to instrument with given amplitude and rate of increase. void startBlowing(StkFloat amplitude, StkFloat rate); //! Decrease breath pressure with given rate of decrease. void stopBlowing(StkFloat rate); //! Start a note with the given frequency and amplitude. void noteOn(StkFloat frequency, StkFloat amplitude); //! Stop a note with the given amplitude (speed of decay). void noteOff(StkFloat amplitude); //! Perform the control change specified by \e number and \e value (0.0 - 128.0). void controlChange(int number, StkFloat value); protected: StkFloat computeSample( void ); DelayL delays_[2]; ReedTable reedTable_; OneZero filter_; Envelope envelope_; Noise noise_; SineWave vibrato_; unsigned long length_; StkFloat outputGain_; StkFloat noiseGain_; StkFloat vibratoGain_; StkFloat position_; }; } // namespace Nyq #endif