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annotate dsp/signalconditioning/Framer.cpp @ 276:4c901426b9f3

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* Do not calculate CQ sparse kernel when chromagram is constructed: only when it's actually used * Pre-calculate CQ sparse kernels in the sizes required for the default configurations of some of our transforms
author Chris Cannam <c.cannam@qmul.ac.uk>
date Thu, 04 Dec 2008 11:59:29 +0000
parents 49844bc8a895
children e5907ae6de17
rev   line source
c@225 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
c@225 2
c@225 3 /*
c@225 4 QM DSP Library
c@225 5
c@225 6 Centre for Digital Music, Queen Mary, University of London.
c@225 7 This file copyright 2005-2006 Christian Landone.
c@225 8 All rights reserved.
c@225 9 */
c@225 10
c@225 11 #include "Framer.h"
c@225 12 #include <math.h>
c@225 13
c@225 14 //////////////////////////////////////////////////////////////////////
c@225 15 // Construction/Destruction
c@225 16 //////////////////////////////////////////////////////////////////////
c@225 17
c@225 18 Framer::Framer()
c@225 19 {
c@225 20 m_dataFrame = NULL;
c@225 21 m_strideFrame = NULL;
c@225 22 }
c@225 23
c@225 24 Framer::~Framer()
c@225 25 {
c@225 26 if( m_dataFrame != NULL )
c@225 27 delete [] m_dataFrame;
c@225 28
c@225 29 if( m_strideFrame != NULL )
c@225 30 delete [] m_strideFrame;
c@225 31 }
c@225 32
c@225 33 void Framer::configure( unsigned int frameLength, unsigned int hop )
c@225 34 {
c@225 35 m_frameLength = frameLength;
c@225 36 m_stepSize = hop;
c@225 37
c@225 38 resetCounters();
c@225 39
c@225 40 if( m_dataFrame != NULL )
c@225 41 {
c@225 42 delete [] m_dataFrame;
c@225 43 m_dataFrame = NULL;
c@225 44 }
c@225 45 m_dataFrame = new double[ m_frameLength ];
c@225 46
c@225 47 if( m_strideFrame != NULL )
c@225 48 {
c@225 49 delete [] m_strideFrame;
c@225 50 m_strideFrame = NULL;
c@225 51 }
c@225 52 m_strideFrame = new double[ m_stepSize ];
c@225 53 }
c@225 54
c@225 55 void Framer::getFrame(double *dst)
c@225 56 {
c@225 57
c@225 58 if( (m_ulSrcIndex + ( m_frameLength) ) < m_ulSampleLen )
c@225 59 {
c@225 60 for( unsigned int u = 0; u < m_frameLength; u++)
c@225 61 {
c@225 62 dst[ u ] = m_srcBuffer[ m_ulSrcIndex++ ];
c@225 63 }
c@225 64 m_ulSrcIndex -= ( m_frameLength - m_stepSize );
c@225 65 }
c@225 66 else
c@225 67 {
c@225 68 unsigned int rem = (m_ulSampleLen - m_ulSrcIndex );
c@225 69 unsigned int zero = m_frameLength - rem;
c@225 70
c@225 71 for( unsigned int u = 0; u < rem; u++ )
c@225 72 {
c@225 73 dst[ u ] = m_srcBuffer[ m_ulSrcIndex++ ];
c@225 74 }
c@225 75
c@225 76 for( unsigned int u = 0; u < zero; u++ )
c@225 77 {
c@225 78 dst[ rem + u ] = 0;
c@225 79 }
c@225 80
c@225 81 m_ulSrcIndex -= (( rem - m_stepSize ) );
c@225 82 }
c@225 83
c@225 84 m_framesRead++;
c@225 85 }
c@225 86
c@225 87 void Framer::resetCounters()
c@225 88 {
c@225 89 m_framesRead = 0;
c@225 90 m_ulSrcIndex = 0;
c@225 91 }
c@225 92
c@225 93 unsigned int Framer::getMaxNoFrames()
c@225 94 {
c@225 95 return m_maxFrames;
c@225 96 }
c@225 97
c@225 98 void Framer::setSource(double *src, unsigned int length)
c@225 99 {
c@225 100 m_srcBuffer = src;
c@225 101 m_ulSampleLen = length;
c@225 102
c@225 103 m_maxFrames = (unsigned int)ceil( (double)m_ulSampleLen/(double)m_stepSize ) ;
c@225 104 }