#ifndef STK_MESH2D_H #define STK_MESH2D_H #include "Instrmnt.h" #include "OnePole.h" namespace stk { /***************************************************/ /*! \class Mesh2D \brief Two-dimensional rectilinear waveguide mesh class. This class implements a rectilinear, two-dimensional digital waveguide mesh structure. For details, see Van Duyne and Smith, "Physical Modeling with the 2-D Digital Waveguide Mesh", Proceedings of the 1993 International Computer Music Conference. This is a digital waveguide model, making its use possibly subject to patents held by Stanford University, Yamaha, and others. Control Change Numbers: - X Dimension = 2 - Y Dimension = 4 - Mesh Decay = 11 - X-Y Input Position = 1 by Julius Smith, 2000 - 2002. Revised by Gary Scavone for STK, 2002. */ /***************************************************/ const unsigned short NXMAX = 12; const unsigned short NYMAX = 12; class Mesh2D : public Instrmnt { public: //! Class constructor, taking the x and y dimensions in samples. Mesh2D( unsigned short nX, unsigned short nY ); //! Class destructor. ~Mesh2D( void ); //! Reset and clear all internal state. void clear( void ); //! Set the x dimension size in samples. void setNX( unsigned short lenX ); //! Set the y dimension size in samples. void setNY( unsigned short lenY ); //! Set the x, y input position on a 0.0 - 1.0 scale. void setInputPosition( StkFloat xFactor, StkFloat yFactor ); //! Set the loss filters gains (0.0 - 1.0). void setDecay( StkFloat decayFactor ); //! Impulse the mesh with the given amplitude (frequency ignored). void noteOn( StkFloat frequency, StkFloat amplitude ); //! Stop a note with the given amplitude (speed of decay) ... currently ignored. void noteOff( StkFloat amplitude ); //! Calculate and return the signal energy stored in the mesh. StkFloat energy( void ); //! Input a sample to the mesh and compute one output sample. StkFloat inputTick( StkFloat input ); //! Perform the control change specified by \e number and \e value (0.0 - 128.0). void controlChange( int number, StkFloat value ); //! Compute and return one output sample. StkFloat tick( unsigned int channel = 0 ); //! Fill a channel of the StkFrames object with computed outputs. /*! The \c channel argument must be less than the number of channels in the StkFrames argument (the first channel is specified by 0). However, range checking is only performed if _STK_DEBUG_ is defined during compilation, in which case an out-of-range value will trigger an StkError exception. */ StkFrames& tick( StkFrames& frames, unsigned int channel = 0 ); protected: StkFloat tick0(); StkFloat tick1(); void clearMesh(); unsigned short NX_, NY_; unsigned short xInput_, yInput_; OnePole filterX_[NXMAX]; OnePole filterY_[NYMAX]; StkFloat v_[NXMAX-1][NYMAX-1]; // junction velocities StkFloat vxp_[NXMAX][NYMAX]; // positive-x velocity wave StkFloat vxm_[NXMAX][NYMAX]; // negative-x velocity wave StkFloat vyp_[NXMAX][NYMAX]; // positive-y velocity wave StkFloat vym_[NXMAX][NYMAX]; // negative-y velocity wave // Alternate buffers StkFloat vxp1_[NXMAX][NYMAX]; // positive-x velocity wave StkFloat vxm1_[NXMAX][NYMAX]; // negative-x velocity wave StkFloat vyp1_[NXMAX][NYMAX]; // positive-y velocity wave StkFloat vym1_[NXMAX][NYMAX]; // negative-y velocity wave int counter_; // time in samples }; inline StkFrames& Mesh2D :: tick( StkFrames& frames, unsigned int channel ) { unsigned int nChannels = lastFrame_.channels(); #if defined(_STK_DEBUG_) if ( channel > frames.channels() - nChannels ) { oStream_ << "Mesh2D::tick(): channel and StkFrames arguments are incompatible!"; handleError( StkError::FUNCTION_ARGUMENT ); } #endif StkFloat *samples = &frames[channel]; unsigned int j, hop = frames.channels() - nChannels; if ( nChannels == 1 ) { for ( unsigned int i=0; i