c@436: /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ c@436: c@436: /* c@436: QM DSP Library c@436: c@436: Centre for Digital Music, Queen Mary, University of London. c@436: */ c@436: c@436: #include "FFT.h" c@436: c@436: #include "maths/MathUtilities.h" c@436: c@436: #include "kiss_fft.h" c@436: #include "kiss_fftr.h" c@436: c@436: #include c@436: c@436: #include c@436: c@436: #include c@436: c@436: class FFT::D c@436: { c@436: public: c@436: D(int n) : m_n(n) { c@436: m_planf = kiss_fft_alloc(m_n, 0, NULL, NULL); c@436: m_plani = kiss_fft_alloc(m_n, 1, NULL, NULL); c@436: m_kin = new kiss_fft_cpx[m_n]; c@436: m_kout = new kiss_fft_cpx[m_n]; c@436: } c@436: c@436: ~D() { c@436: kiss_fft_free(m_planf); c@436: kiss_fft_free(m_plani); c@436: delete[] m_kin; c@436: delete[] m_kout; c@436: } c@436: c@436: void process(bool inverse, c@436: const double *ri, c@436: const double *ii, c@436: double *ro, c@436: double *io) { c@436: c@436: for (int i = 0; i < m_n; ++i) { c@436: m_kin[i].r = ri[i]; c@436: m_kin[i].i = (ii ? ii[i] : 0.0); c@436: } c@436: c@436: if (!inverse) { c@436: c@436: kiss_fft(m_planf, m_kin, m_kout); c@436: c@436: for (int i = 0; i < m_n; ++i) { c@436: ro[i] = m_kout[i].r; c@436: io[i] = m_kout[i].i; c@436: } c@436: c@436: } else { c@436: c@436: kiss_fft(m_plani, m_kin, m_kout); c@436: c@436: double scale = 1.0 / m_n; c@436: c@436: for (int i = 0; i < m_n; ++i) { c@436: ro[i] = m_kout[i].r * scale; c@436: io[i] = m_kout[i].i * scale; c@436: } c@436: } c@436: } c@436: c@436: private: c@436: int m_n; c@436: kiss_fft_cfg m_planf; c@436: kiss_fft_cfg m_plani; c@436: kiss_fft_cpx *m_kin; c@436: kiss_fft_cpx *m_kout; c@436: }; c@436: c@436: FFT::FFT(int n) : c@436: m_d(new D(n)) c@436: { c@436: } c@436: c@436: FFT::~FFT() c@436: { c@436: delete m_d; c@436: } c@436: c@436: void c@436: FFT::process(bool inverse, c@436: const double *p_lpRealIn, const double *p_lpImagIn, c@436: double *p_lpRealOut, double *p_lpImagOut) c@436: { c@436: m_d->process(inverse, c@436: p_lpRealIn, p_lpImagIn, c@436: p_lpRealOut, p_lpImagOut); c@436: } c@436: c@436: class FFTReal::D c@436: { c@436: public: c@436: D(int n) : m_n(n) { c@436: if (n % 2) { c@436: throw std::invalid_argument c@436: ("nsamples must be even in FFTReal constructor"); c@436: } c@436: m_planf = kiss_fftr_alloc(m_n, 0, NULL, NULL); c@436: m_plani = kiss_fftr_alloc(m_n, 1, NULL, NULL); c@436: m_c = new kiss_fft_cpx[m_n]; c@436: } c@436: c@436: ~D() { c@436: kiss_fftr_free(m_planf); c@436: kiss_fftr_free(m_plani); c@436: delete[] m_c; c@436: } c@436: c@436: void forward(const double *ri, double *ro, double *io) { c@436: c@436: kiss_fftr(m_planf, ri, m_c); c@436: c@436: for (int i = 0; i <= m_n/2; ++i) { c@436: ro[i] = m_c[i].r; c@436: io[i] = m_c[i].i; c@436: } c@436: c@436: for (int i = 0; i + 1 < m_n/2; ++i) { c@436: ro[m_n - i - 1] = ro[i + 1]; c@436: io[m_n - i - 1] = -io[i + 1]; c@436: } c@436: } c@436: c@436: void forwardMagnitude(const double *ri, double *mo) { c@436: c@436: double *io = new double[m_n]; c@436: c@436: forward(ri, mo, io); c@436: c@436: for (int i = 0; i < m_n; ++i) { c@436: mo[i] = sqrt(mo[i] * mo[i] + io[i] * io[i]); c@436: } c@436: c@436: delete[] io; c@436: } c@436: c@436: void inverse(const double *ri, const double *ii, double *ro) { c@436: c@436: // kiss_fftr.h says c@436: // "input freqdata has nfft/2+1 complex points" c@436: c@436: for (int i = 0; i < m_n/2 + 1; ++i) { c@436: m_c[i].r = ri[i]; c@436: m_c[i].i = ii[i]; c@436: } c@436: c@436: kiss_fftri(m_plani, m_c, ro); c@436: c@436: double scale = 1.0 / m_n; c@436: c@436: for (int i = 0; i < m_n; ++i) { c@436: ro[i] *= scale; c@436: } c@436: } c@436: c@436: private: c@436: int m_n; c@436: kiss_fftr_cfg m_planf; c@436: kiss_fftr_cfg m_plani; c@436: kiss_fft_cpx *m_c; c@436: }; c@436: c@436: FFTReal::FFTReal(int n) : c@436: m_d(new D(n)) c@436: { c@436: } c@436: c@436: FFTReal::~FFTReal() c@436: { c@436: delete m_d; c@436: } c@436: c@436: void c@436: FFTReal::forward(const double *ri, double *ro, double *io) c@436: { c@436: m_d->forward(ri, ro, io); c@436: } c@436: c@436: void c@436: FFTReal::forwardMagnitude(const double *ri, double *mo) c@436: { c@436: m_d->forwardMagnitude(ri, mo); c@436: } c@436: c@436: void c@436: FFTReal::inverse(const double *ri, const double *ii, double *ro) c@436: { c@436: m_d->inverse(ri, ii, ro); c@436: } c@436: c@436: c@436: