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annotate dsp/signalconditioning/FiltFilt.cpp @ 0:d7116e3183f8

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* Queen Mary C++ DSP library
author cannam
date Wed, 05 Apr 2006 17:35:59 +0000
parents
children d72fcd34d9a7
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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 "FiltFilt.h"
cannam@0 12
cannam@0 13 //////////////////////////////////////////////////////////////////////
cannam@0 14 // Construction/Destruction
cannam@0 15 //////////////////////////////////////////////////////////////////////
cannam@0 16
cannam@0 17 FiltFilt::FiltFilt( FiltFiltConfig Config )
cannam@0 18 {
cannam@0 19 m_filtScratchIn = NULL;
cannam@0 20 m_filtScratchOut = NULL;
cannam@0 21 m_ord = 0;
cannam@0 22
cannam@0 23 initialise( Config );
cannam@0 24 }
cannam@0 25
cannam@0 26 FiltFilt::~FiltFilt()
cannam@0 27 {
cannam@0 28 deInitialise();
cannam@0 29 }
cannam@0 30
cannam@0 31 void FiltFilt::initialise( FiltFiltConfig Config )
cannam@0 32 {
cannam@0 33 m_ord = Config.ord;
cannam@0 34 m_filterConfig.ord = Config.ord;
cannam@0 35 m_filterConfig.ACoeffs = Config.ACoeffs;
cannam@0 36 m_filterConfig.BCoeffs = Config.BCoeffs;
cannam@0 37
cannam@0 38 m_filter = new Filter( m_filterConfig );
cannam@0 39 }
cannam@0 40
cannam@0 41 void FiltFilt::deInitialise()
cannam@0 42 {
cannam@0 43 delete m_filter;
cannam@0 44 }
cannam@0 45
cannam@0 46
cannam@0 47 void FiltFilt::process(double *src, double *dst, unsigned int length)
cannam@0 48 {
cannam@0 49 unsigned int i;
cannam@0 50
cannam@0 51 unsigned int nFilt = m_ord + 1;
cannam@0 52 unsigned int nFact = 3 * ( nFilt - 1);
cannam@0 53 unsigned int nExt = length + 2 * nFact;
cannam@0 54
cannam@0 55
cannam@0 56 m_filtScratchIn = new double[ nExt ];
cannam@0 57 m_filtScratchOut = new double[ nExt ];
cannam@0 58
cannam@0 59
cannam@0 60 for( i = 0; i< nExt; i++ )
cannam@0 61 {
cannam@0 62 m_filtScratchIn[ i ] = 0.0;
cannam@0 63 m_filtScratchOut[ i ] = 0.0;
cannam@0 64 }
cannam@0 65
cannam@0 66 // Edge transients reflection
cannam@0 67 double sample0 = 2 * src[ 0 ];
cannam@0 68 double sampleN = 2 * src[ length - 1 ];
cannam@0 69
cannam@0 70 unsigned int index = 0;
cannam@0 71 for( i = nFact; i > 0; i-- )
cannam@0 72 {
cannam@0 73 m_filtScratchIn[ index++ ] = sample0 - src[ i ];
cannam@0 74 }
cannam@0 75 index = 0;
cannam@0 76 for( i = 0; i < nFact; i++ )
cannam@0 77 {
cannam@0 78 m_filtScratchIn[ (nExt - nFact) + index++ ] = sampleN - src[ (length - 2) - i ];
cannam@0 79 }
cannam@0 80
cannam@0 81 index = 0;
cannam@0 82 for( i = 0; i < length; i++ )
cannam@0 83 {
cannam@0 84 m_filtScratchIn[ i + nFact ] = src[ i ];
cannam@0 85 }
cannam@0 86
cannam@0 87 ////////////////////////////////
cannam@0 88 // Do 0Ph filtering
cannam@0 89 m_filter->process( m_filtScratchIn, m_filtScratchOut, nExt);
cannam@0 90
cannam@0 91 // reverse the series for FILTFILT
cannam@0 92 for ( i = 0; i < nExt; i++)
cannam@0 93 {
cannam@0 94 m_filtScratchIn[ i ] = m_filtScratchOut[ nExt - i - 1];
cannam@0 95 }
cannam@0 96
cannam@0 97 // do FILTER again
cannam@0 98 m_filter->process( m_filtScratchIn, m_filtScratchOut, nExt);
cannam@0 99
cannam@0 100 // reverse the series back
cannam@0 101 for ( i = 0; i < nExt; i++)
cannam@0 102 {
cannam@0 103 m_filtScratchIn[ i ] = m_filtScratchOut[ nExt - i - 1 ];
cannam@0 104 }
cannam@0 105 for ( i = 0;i < nExt; i++)
cannam@0 106 {
cannam@0 107 m_filtScratchOut[ i ] = m_filtScratchIn[ i ];
cannam@0 108 }
cannam@0 109
cannam@0 110 index = 0;
cannam@0 111 for( i = 0; i < length; i++ )
cannam@0 112 {
cannam@0 113 dst[ index++ ] = m_filtScratchOut[ i + nFact ];
cannam@0 114 }
cannam@0 115
cannam@0 116 delete [] m_filtScratchIn;
cannam@0 117 delete [] m_filtScratchOut;
cannam@0 118
cannam@0 119 }
cannam@0 120
cannam@0 121 void FiltFilt::reset()
cannam@0 122 {
cannam@0 123
cannam@0 124 }