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annotate dsp/phasevocoder/PhaseVocoder.cpp @ 64:6cb2b3cd5356

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* Refactor FFT a little bit so as to separate construction and processing rather than have a single static method -- will make it easier to use a different implementation * pull in KissFFT implementation (not hooked up yet)
author cannam
date Wed, 13 May 2009 09:19:12 +0000
parents 7fe29d8a7eaf
children e5907ae6de17
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@64 19 PhaseVocoder::PhaseVocoder(unsigned int n) :
cannam@64 20 m_n(n)
cannam@0 21 {
cannam@64 22 m_fft = new FFTReal(m_n);
cannam@64 23 m_realOut = new double[m_n];
cannam@64 24 m_imagOut = new double[m_n];
cannam@0 25 }
cannam@0 26
cannam@0 27 PhaseVocoder::~PhaseVocoder()
cannam@0 28 {
cannam@64 29 delete [] m_realOut;
cannam@64 30 delete [] m_imagOut;
cannam@64 31 delete m_fft;
cannam@0 32 }
cannam@0 33
cannam@0 34 void PhaseVocoder::FFTShift(unsigned int size, double *src)
cannam@0 35 {
cannam@55 36 const int hs = size/2;
cannam@55 37 for (int i = 0; i < hs; ++i) {
cannam@55 38 double tmp = src[i];
cannam@55 39 src[i] = src[i + hs];
cannam@55 40 src[i + hs] = tmp;
cannam@0 41 }
cannam@0 42 }
cannam@0 43
cannam@64 44 void PhaseVocoder::process(double *src, double *mag, double *theta)
cannam@0 45 {
cannam@64 46 FFTShift( m_n, src);
cannam@64 47
cannam@64 48 m_fft->process(0, src, m_realOut, m_imagOut);
cannam@0 49
cannam@64 50 getMagnitude( m_n/2, mag, m_realOut, m_imagOut);
cannam@64 51 getPhase( m_n/2, theta, m_realOut, m_imagOut);
cannam@0 52 }
cannam@0 53
cannam@0 54 void PhaseVocoder::getMagnitude(unsigned int size, double *mag, double *real, double *imag)
cannam@0 55 {
cannam@0 56 unsigned int j;
cannam@0 57
cannam@0 58 for( j = 0; j < size; j++)
cannam@0 59 {
cannam@0 60 mag[ j ] = sqrt( real[ j ] * real[ j ] + imag[ j ] * imag[ j ]);
cannam@0 61 }
cannam@0 62 }
cannam@0 63
cannam@0 64 void PhaseVocoder::getPhase(unsigned int size, double *theta, double *real, double *imag)
cannam@0 65 {
cannam@0 66 unsigned int k;
cannam@0 67
cannam@0 68 // Phase Angle "matlab" style
cannam@0 69 //Watch out for quadrant mapping !!!
cannam@0 70 for( k = 0; k < size; k++)
cannam@0 71 {
cannam@0 72 theta[ k ] = atan2( -imag[ k ], real[ k ]);
cannam@0 73 }
cannam@0 74 }