/usr/include/stk/Granulate.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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 | #ifndef STK_GRANULATE_H
#define STK_GRANULATE_H
#include <vector>
#include "Generator.h"
#include "Envelope.h"
#include "Noise.h"
namespace stk {
/***************************************************/
/*! \class Granulate
\brief STK granular synthesis class.
This class implements a real-time granular synthesis algorithm
that operates on an input soundfile. Multi-channel files are
supported. Various functions are provided to allow control over
voice and grain parameters.
The functionality of this class is based on the program MacPod by
Chris Rolfe and Damian Keller, though there are likely to be a
number of differences in the actual implementation.
by Gary Scavone, 2005 - 2010.
*/
/***************************************************/
class Granulate: public Generator
{
public:
//! Default constructor.
Granulate( void );
//! Constructor taking input audio file and number of voices arguments.
Granulate( unsigned int nVoices, std::string fileName, bool typeRaw = false );
//! Class destructor.
~Granulate( void );
//! Load a monophonic soundfile to be "granulated".
/*!
An StkError will be thrown if the file is not found, its format
is unknown or unsupported, or the file has more than one channel.
*/
void openFile( std::string fileName, bool typeRaw = false );
//! Reset the file pointer and all existing grains to the file start.
/*!
Multiple grains are offset from one another in time by grain
duration / nVoices.
*/
void reset( void );
//! Set the number of simultaneous grain "voices" to use.
/*!
Multiple grains are offset from one another in time by grain
duration / nVoices. For this reason, it is best to set the grain
parameters before calling this function (during initialization).
*/
void setVoices( unsigned int nVoices = 1 );
//! Set the stretch factor used for grain playback (1 - 1000).
/*!
Granular synthesis allows for time-stetching without affecting
the original pitch of a sound. A stretch factor of 4 will produce
a resulting sound of length 4 times the orignal sound. The
default parameter of 1 produces no stretching.
*/
void setStretch( unsigned int stretchFactor = 1 );
//! Set global grain parameters used to determine individual grain settings.
/*!
Each grain is defined as having a length of \e duration
milliseconds which must be greater than zero. For values of \e
rampPercent (0 - 100) greater than zero, a linear envelope will be
applied to each grain. If \e rampPercent = 100, the resultant
grain "window" is triangular while \e rampPercent = 50 produces a
trapezoidal window. In addition, each grain can have a time delay
of length \e delay and a grain pointer increment of length \e
offset, which can be negative, before the next ramp onset (in
milliseconds). The \e offset parameter controls grain pointer
jumps between enveloped grain segments, while the \e delay
parameter causes grain calculations to pause between grains. The
actual values calculated for each grain will be randomized by a
factor set using the setRandomFactor() function.
*/
void setGrainParameters( unsigned int duration = 30, unsigned int rampPercent = 50,
int offset = 0, unsigned int delay = 0 );
//! This factor is used when setting individual grain parameters (0.0 - 1.0).
/*!
This random factor is applied when all grain state durations
are calculated. If set to 0.0, no randomness occurs. When
randomness = 1.0, a grain segment of length \e duration will be
randomly augmented by up to +- \e duration seconds (i.e., a 30
millisecond length will be augmented by an extra length of up to
+30 or -30 milliseconds).
*/
void setRandomFactor( StkFloat randomness = 0.1 );
//! Return the specified channel value of the last computed frame.
/*!
The \c channel argument must be less than the number of output
channels, which can be determined with the channelsOut() function
(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. \sa lastFrame()
*/
StkFloat lastOut( unsigned int channel = 0 );
//! Compute one sample frame and return the specified \c channel value.
StkFloat tick( unsigned int channel = 0 );
//! Fill the StkFrames object with computed sample frames, starting at the specified channel.
/*!
The \c channel argument plus the number of output channels 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 );
enum GrainState {
GRAIN_STOPPED,
GRAIN_FADEIN,
GRAIN_SUSTAIN,
GRAIN_FADEOUT
};
protected:
struct Grain {
StkFloat eScaler;
StkFloat eRate;
unsigned long attackCount;
unsigned long sustainCount;
unsigned long decayCount;
unsigned long delayCount;
unsigned long counter;
//unsigned long pointer;
StkFloat pointer;
unsigned long startPointer;
unsigned int repeats;
GrainState state;
// Default constructor.
Grain()
:eScaler(0.0), eRate(0.0), attackCount(0), sustainCount(0), decayCount(0),
delayCount(0), counter(0), pointer(0), startPointer(0), repeats(0), state(GRAIN_STOPPED) {}
};
void calculateGrain( Granulate::Grain& grain );
StkFrames data_;
std::vector<Grain> grains_;
Noise noise;
//long gPointer_;
StkFloat gPointer_;
// Global grain parameters.
unsigned int gDuration_;
unsigned int gRampPercent_;
unsigned int gDelay_;
unsigned int gStretch_;
unsigned int stretchCounter_;
int gOffset_;
StkFloat gRandomFactor_;
StkFloat gain_;
};
inline StkFloat Granulate :: lastOut( unsigned int channel )
{
#if defined(_STK_DEBUG_)
if ( channel >= lastFrame_.channels() ) {
oStream_ << "Granulate::lastOut(): channel argument is invalid!";
handleError( StkError::FUNCTION_ARGUMENT );
}
#endif
return lastFrame_[channel];
}
inline StkFrames& Granulate :: tick( StkFrames& frames, unsigned int channel )
{
unsigned int nChannels = lastFrame_.channels();
#if defined(_STK_DEBUG_)
if ( channel > frames.channels() - nChannels ) {
oStream_ << "Granulate::tick(): channel and StkFrames arguments are incompatible!";
handleError( StkError::FUNCTION_ARGUMENT );
}
#endif
StkFloat *samples = &frames[channel];
unsigned int j, hop = frames.channels() - nChannels;
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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