qm-dsp: dsp/phasevocoder/PhaseVocoder.cpp annotate

annotate dsp/phasevocoder/PhaseVocoder.cpp @ 0:d7116e3183f8

* Queen Mary C++ DSP library

author	cannam
date	Wed, 05 Apr 2006 17:35:59 +0000
parents
children	7fe29d8a7eaf

rev	line source
cannam@0	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
cannam@0	2
cannam@0	3 /*
cannam@0	4 QM DSP Library
cannam@0	5
cannam@0	6 Centre for Digital Music, Queen Mary, University of London.
cannam@0	7 This file copyright 2005-2006 Christian Landone.
cannam@0	8 All rights reserved.
cannam@0	9 */
cannam@0	10
cannam@0	11 #include "PhaseVocoder.h"
cannam@0	12 #include "dsp/transforms/FFT.h"
cannam@0	13 #include <math.h>
cannam@0	14
cannam@0	15 //////////////////////////////////////////////////////////////////////
cannam@0	16 // Construction/Destruction
cannam@0	17 //////////////////////////////////////////////////////////////////////
cannam@0	18
cannam@0	19 PhaseVocoder::PhaseVocoder()
cannam@0	20 {
cannam@0	21
cannam@0	22 }
cannam@0	23
cannam@0	24 PhaseVocoder::~PhaseVocoder()
cannam@0	25 {
cannam@0	26
cannam@0	27 }
cannam@0	28
cannam@0	29 void PhaseVocoder::FFTShift(unsigned int size, double *src)
cannam@0	30 {
cannam@0	31 // IN-place Rotation of FFT arrays
cannam@0	32 unsigned int i;
cannam@0	33
cannam@0	34 shiftBuffer = new double[size/2];
cannam@0	35
cannam@0	36 for( i = 0; i < size/2; i++)
cannam@0	37 {
cannam@0	38 shiftBuffer[ i ] = src[ i ];
cannam@0	39 src[ i ] = src[ i + size/2];
cannam@0	40 }
cannam@0	41
cannam@0	42 for( i =size/2; i < size; i++)
cannam@0	43 {
cannam@0	44 src[ i ] = shiftBuffer[ i -(size/2)];
cannam@0	45 }
cannam@0	46
cannam@0	47 delete [] shiftBuffer;
cannam@0	48
cannam@0	49 }
cannam@0	50
cannam@0	51 void PhaseVocoder::process(unsigned int size, double src, double mag, double *theta)
cannam@0	52 {
cannam@0	53
cannam@0	54 // Primary Interface to Phase Vocoder
cannam@0	55 realOut = new double[ size ];
cannam@0	56 imagOut = new double[ size ];
cannam@0	57
cannam@0	58 FFTShift( size, src);
cannam@0	59
cannam@0	60 coreFFT( size, src, 0, realOut, imagOut);
cannam@0	61
cannam@0	62 getMagnitude( size/2, mag, realOut, imagOut);
cannam@0	63 getPhase( size/2, theta, realOut, imagOut);
cannam@0	64
cannam@0	65 delete [] realOut;
cannam@0	66 delete [] imagOut;
cannam@0	67 }
cannam@0	68
cannam@0	69
cannam@0	70 void PhaseVocoder::coreFFT( unsigned int NumSamples, double RealIn, double ImagIn, double RealOut, double ImagOut)
cannam@0	71 {
cannam@0	72 // This function is taken from a standard freeware implementation defined in FFT.h
cannam@0	73 // TODO: Use FFTW
cannam@0	74 FFT::process( NumSamples,0, RealIn, ImagIn, RealOut, ImagOut );
cannam@0	75 }
cannam@0	76
cannam@0	77 void PhaseVocoder::getMagnitude(unsigned int size, double mag, double real, double *imag)
cannam@0	78 {
cannam@0	79 unsigned int j;
cannam@0	80
cannam@0	81 for( j = 0; j < size; j++)
cannam@0	82 {
cannam@0	83 mag[ j ] = sqrt( real[ j ] * real[ j ] + imag[ j ] * imag[ j ]);
cannam@0	84 }
cannam@0	85 }
cannam@0	86
cannam@0	87 void PhaseVocoder::getPhase(unsigned int size, double theta, double real, double *imag)
cannam@0	88 {
cannam@0	89 unsigned int k;
cannam@0	90
cannam@0	91 // Phase Angle "matlab" style
cannam@0	92 //Watch out for quadrant mapping !!!
cannam@0	93 for( k = 0; k < size; k++)
cannam@0	94 {
cannam@0	95 theta[ k ] = atan2( -imag[ k ], real[ k ]);
cannam@0	96 }
cannam@0	97 }

Mercurial > hg > qm-dsp

annotate dsp/phasevocoder/PhaseVocoder.cpp @ 0:d7116e3183f8