/usr/include/stk/Mesh2D.h is in libstk0-dev 4.4.4-5+deb8u1.
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 | #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<frames.frames(); i++, samples += hop )
*samples++ = tick();
}
else {
for ( unsigned int i=0; i<frames.frames(); i++, samples += hop ) {
*samples++ = tick();
for ( j=1; j<nChannels; j++ )
*samples++ = lastFrame_[j];
}
}
return frames;
}
} // stk namespace
#endif
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