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* Avoid trying to do explicit 32-bit-pointer alignment on 64-bit systems
author Chris Cannam
date Tue, 05 Oct 2010 17:03:27 +0100
parents fc19d45615d1
children 5f3c32dc6e17
line wrap: on
line source
#ifndef SinSynH
#define SinSynH

/*
  SinSyn.h - sinusoid synthesis routines for sinusoid modeling cycle. Functions named Sinusoid construct
  sinusoid segments whose amplitude and frequency are modeled as polynomials or linear combinations of
  basis functions; functions named SinusoidExp construct sinusoid segments whose logarithmic amplitude
  derivative and frequency are modeled thus; functions named SinusoidExpA construct sinusoid segments
  whose log amplitude and frequency are modeled thus.
*/

#include "xcomplex.h"
//--segmental synthesis routines---------------------------------------------
void Sinusoid(double* data, int T, double a1, double a2, double f1, double f2, double p1, double p2, double* a, double* f, double* p, bool ad=true);
void Sinusoid(double* data, int T, double a1, double a2, double f1, double f2, double p1, double p2, bool ad=true);
void Sinusoid(double* f, double* a, double* ph, double* da, int CountSt, int CountEn, double aa, double ab, double ac, double ad, double fa, double fb, double fc, double fd, double ph0, double ph2, bool LogA=false);
void Sinusoid(double* f, double* ph, int CountSt, int CountEn, double fa, double fb, double fc, double fd, double ph0, double ph2);
void Sinusoid(double* data, int CountSt, int CountEn, double a3, double a2, double a1, double a0, double f3, double f2, double f1, double f0, double ph0, double ph2, bool add);
void Sinusoid(double* data, int CountSt, int CountEn, double a3, double a2, double a1, double a0, double f3, double f2, double f1, double f0, double &ph, bool add);
void Sinusoid(double* datar, double* datai, int CountSt, int CountEn, double f3, double f2, double f1, double f0, double &ph);
void SinusoidExp(cdouble* data, int CountSt, int CountEn, double a3, double a2, double a1, double a0,	double omg3, double omg2, double omg1, double omg0, double &ea, double &ph, bool add);
void SinusoidExp(int T, cdouble* s, cdouble* ds, int M, cdouble* lamda, double** h, double** dih, cdouble& tmpexp);
void SinusoidExp(int T, cdouble* s, int M, cdouble* lamda, double** dih, cdouble& tmpexp);
void SinusoidExpA(cdouble* data, int CountSt, int CountEn, double a3, double a2, double a1, double a0, double omg3, double omg2, double omg1, double omg0, double &ph, bool add);
void SinusoidExpA(int T, cdouble* s, cdouble* ds, int M, double* p, double* q, double** h, double** dh, double** dih, double& tmpph);
void SinusoidExpA(int T, cdouble* s, int M, double* p, double* q, double** h, double** dih, double& tmpph);
void SinusoidExpA(int T, cdouble* s, int M, double* p, double* q, double** h, double** dih, double ph1, double ph2);

//--multi-segmental synthesis routines---------------------------------------
double* SynthesizeSinusoid(double* xrec, int dst, int den, double* phs, int Fr, double* xs, double* fs, double* as, bool add, bool* terminatetag);
double* SynthesizeSinusoidP(double* xrecm, int dst, int den, double* phs, int Fr, double* xs, double* fs, double* as, bool add);

#endif