Mercurial > hg > vamp-tempogram
view FIRFilter.cpp @ 8:4e429b9f2b4d
* Fixed memory leak bug. Issue with calculating size of spectrogram array.
* Fixed bug in Tempogram::reset() where specData wasn't reinitialised.
author | Carl Bussey <c.bussey@se10.qmul.ac.uk> |
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date | Thu, 07 Aug 2014 17:25:24 +0100 |
parents | 21147df9cb2d |
children | be59b4a73f49 |
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// // FIRFilter.cpp // Tempogram // // Created by Carl Bussey on 25/06/2014. // Copyright (c) 2014 Carl Bussey. All rights reserved. // #include "FIRFilter.h" using namespace std; using Vamp::FFT; FIRFilter::FIRFilter(const unsigned int lengthInput, const unsigned int numberOfCoefficients) : m_lengthInput(lengthInput), m_numberOfCoefficients(numberOfCoefficients), fftInput(NULL), fftCoefficients(NULL), fftReal1(NULL), fftImag1(NULL), fftReal2(NULL), fftImag2(NULL), fftFilteredReal(NULL), fftFilteredImag(NULL), fftOutputReal(NULL), fftOutputImag(NULL) { initialise(); } FIRFilter::~FIRFilter() { cleanup(); } void FIRFilter::initialise() { m_lengthFIRFFT = pow(2,(ceil(log2(m_lengthInput+m_numberOfCoefficients-1)))); fftInput = new double[m_lengthFIRFFT]; fftCoefficients = new double[m_lengthFIRFFT]; fftReal1 = new double[m_lengthFIRFFT]; fftImag1 = new double[m_lengthFIRFFT]; fftReal2 = new double[m_lengthFIRFFT]; fftImag2 = new double[m_lengthFIRFFT]; fftFilteredReal = new double[m_lengthFIRFFT]; fftFilteredImag = new double[m_lengthFIRFFT]; fftOutputReal = new double[m_lengthFIRFFT]; fftOutputImag = new double[m_lengthFIRFFT]; for(int i = 0; i < m_lengthFIRFFT; i++){ fftInput[i] = fftCoefficients[i] = fftReal1[i] = fftImag1[i] = fftReal2[i] = fftImag2[i] = fftFilteredReal[i] = fftFilteredImag[i] = fftOutputReal[i] = fftOutputImag[i] = 0.0; } } void FIRFilter::process(const float* input, const float* coefficients, float* output) { for(int i = 0; i < m_lengthFIRFFT; i++){ fftInput[i] = i < m_lengthInput ? input[i] : 0.0; fftCoefficients[i] = i < m_numberOfCoefficients ? coefficients[i] : 0.0; } FFT::forward(m_lengthFIRFFT, fftInput, NULL, fftReal1, fftImag1); FFT::forward(m_lengthFIRFFT, fftCoefficients, NULL, fftReal2, fftImag2); for (int i = 0; i < m_lengthFIRFFT; i++){ fftFilteredReal[i] = (fftReal1[i] * fftReal2[i]) - (fftImag1[i] * fftImag2[i]); fftFilteredImag[i] = (fftReal1[i] * fftImag2[i]) + (fftReal2[i] * fftImag1[i]); } FFT::inverse(m_lengthFIRFFT, fftFilteredReal, fftFilteredImag, fftOutputReal, fftOutputImag); for (int i = 0; i < m_lengthInput; i++){ output[i] = fftOutputReal[i]; } } void FIRFilter::cleanup() { delete []fftInput; delete []fftCoefficients; delete []fftReal1; delete []fftImag1; delete []fftReal2; delete []fftImag2; delete []fftFilteredReal; delete []fftFilteredImag; delete []fftOutputReal; delete []fftOutputImag; fftInput = fftCoefficients = fftReal1 = fftImag1 = fftReal2 = fftImag2 = fftFilteredReal = fftFilteredImag = fftOutputReal = fftOutputImag = NULL; }