ref: 135bc14f80c3316dd46e1a365fd98a9d0ed613df
dir: /src/spectral/dct.c/
/* Copyright (C) 2018 Paul Brossier <piem@aubio.org> This file is part of aubio. aubio is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. aubio is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with aubio. If not, see <http://www.gnu.org/licenses/>. */ /** \file Discrete Cosine Transform Functions aubio_dct_do() and aubio_dct_rdo() are equivalent to MATLAB/Octave dct() and idct() functions, as well as scipy.fftpack.dct(x, norm='ortho') and scipy.fftpack.idct(x, norm='ortho') \example spectral/test-dct.c */ #include "aubio_priv.h" #include "fvec.h" #include "spectral/dct.h" // function pointers prototypes typedef void (*aubio_dct_do_t)(aubio_dct_t * s, const fvec_t * input, fvec_t * output); typedef void (*aubio_dct_rdo_t)(aubio_dct_t * s, const fvec_t * input, fvec_t * output); typedef void (*del_aubio_dct_t)(aubio_dct_t * s); #if defined(HAVE_ACCELERATE) typedef struct _aubio_dct_accelerate_t aubio_dct_accelerate_t; extern aubio_dct_accelerate_t * new_aubio_dct_accelerate (uint_t size); extern void aubio_dct_accelerate_do(aubio_dct_accelerate_t *s, const fvec_t *input, fvec_t *output); extern void aubio_dct_accelerate_rdo(aubio_dct_accelerate_t *s, const fvec_t *input, fvec_t *output); extern void del_aubio_dct_accelerate (aubio_dct_accelerate_t *s); #elif defined(HAVE_FFTW3) typedef struct _aubio_dct_fftw_t aubio_dct_fftw_t; extern aubio_dct_fftw_t * new_aubio_dct_fftw (uint_t size); extern void aubio_dct_fftw_do(aubio_dct_fftw_t *s, const fvec_t *input, fvec_t *output); extern void aubio_dct_fftw_rdo(aubio_dct_fftw_t *s, const fvec_t *input, fvec_t *output); extern void del_aubio_dct_fftw (aubio_dct_fftw_t *s); #elif defined(HAVE_INTEL_IPP) typedef struct _aubio_dct_ipp_t aubio_dct_ipp_t; extern aubio_dct_ipp_t * new_aubio_dct_ipp (uint_t size); extern void aubio_dct_ipp_do(aubio_dct_ipp_t *s, const fvec_t *input, fvec_t *output); extern void aubio_dct_ipp_rdo(aubio_dct_ipp_t *s, const fvec_t *input, fvec_t *output); extern void del_aubio_dct_ipp (aubio_dct_ipp_t *s); #else typedef struct _aubio_dct_ooura_t aubio_dct_ooura_t; extern aubio_dct_ooura_t * new_aubio_dct_ooura (uint_t size); extern void aubio_dct_ooura_do(aubio_dct_ooura_t *s, const fvec_t *input, fvec_t *output); extern void aubio_dct_ooura_rdo(aubio_dct_ooura_t *s, const fvec_t *input, fvec_t *output); extern void del_aubio_dct_ooura (aubio_dct_ooura_t *s); #endif // plain mode typedef struct _aubio_dct_plain_t aubio_dct_plain_t; extern aubio_dct_plain_t * new_aubio_dct_plain (uint_t size); extern void aubio_dct_plain_do(aubio_dct_plain_t *s, const fvec_t *input, fvec_t *output); extern void aubio_dct_plain_rdo(aubio_dct_plain_t *s, const fvec_t *input, fvec_t *output); extern void del_aubio_dct_plain (aubio_dct_plain_t *s); struct _aubio_dct_t { void *dct; aubio_dct_do_t dct_do; aubio_dct_rdo_t dct_rdo; del_aubio_dct_t del_dct; }; aubio_dct_t* new_aubio_dct (uint_t size) { aubio_dct_t * s = AUBIO_NEW(aubio_dct_t); #if defined(HAVE_ACCELERATE) // vDSP supports sizes = f * 2 ** n, where n >= 4 and f in [1, 3, 5, 15] // see https://developer.apple.com/documentation/accelerate/1449930-vdsp_dct_createsetup { uint_t radix = size; uint_t order = 0; while ((radix >= 1) && ((radix / 2) * 2 == radix)) { radix /= 2; order++; } if (order < 4 || (radix != 1 && radix != 3 && radix != 5 && radix != 15)) { goto plain; } } s->dct = (void *)new_aubio_dct_accelerate (size); if (s->dct) { s->dct_do = (aubio_dct_do_t)aubio_dct_accelerate_do; s->dct_rdo = (aubio_dct_rdo_t)aubio_dct_accelerate_rdo; s->del_dct = (del_aubio_dct_t)del_aubio_dct_accelerate; return s; } #elif defined(HAVE_FFTW3) // fftw supports any positive integer size s->dct = (void *)new_aubio_dct_fftw (size); if (s->dct) { s->dct_do = (aubio_dct_do_t)aubio_dct_fftw_do; s->dct_rdo = (aubio_dct_rdo_t)aubio_dct_fftw_rdo; s->del_dct = (del_aubio_dct_t)del_aubio_dct_fftw; return s; } else { AUBIO_WRN("dct: unexpected error while creating dct_fftw with size %d\n", size); goto plain; } #elif defined(HAVE_INTEL_IPP) // unclear from the docs, but intel ipp seems to support any size s->dct = (void *)new_aubio_dct_ipp (size); if (s->dct) { s->dct_do = (aubio_dct_do_t)aubio_dct_ipp_do; s->dct_rdo = (aubio_dct_rdo_t)aubio_dct_ipp_rdo; s->del_dct = (del_aubio_dct_t)del_aubio_dct_ipp; return s; } else { AUBIO_WRN("dct: unexpected error while creating dct_ipp with size %d\n", size); goto plain; } #else // ooura support sizes that are power of 2 if (aubio_is_power_of_two(size) != 1 || size == 1) { goto plain; } s->dct = (void *)new_aubio_dct_ooura (size); if (s->dct) { s->dct_do = (aubio_dct_do_t)aubio_dct_ooura_do; s->dct_rdo = (aubio_dct_rdo_t)aubio_dct_ooura_rdo; s->del_dct = (del_aubio_dct_t)del_aubio_dct_ooura; return s; } #endif // falling back to plain mode AUBIO_WRN("dct: no optimised implementation could be created for size %d\n", size); plain: s->dct = (void *)new_aubio_dct_plain (size); if (s->dct) { s->dct_do = (aubio_dct_do_t)aubio_dct_plain_do; s->dct_rdo = (aubio_dct_rdo_t)aubio_dct_plain_rdo; s->del_dct = (del_aubio_dct_t)del_aubio_dct_plain; return s; } else { goto beach; } beach: AUBIO_ERROR("dct: failed creating with size %d, should be > 0\n", size); del_aubio_dct(s); return NULL; } void del_aubio_dct(aubio_dct_t *s) { if (s->dct && s->del_dct) s->del_dct (s->dct); AUBIO_FREE (s); } void aubio_dct_do(aubio_dct_t *s, const fvec_t *input, fvec_t *output) { s->dct_do ((void *)s->dct, input, output); } void aubio_dct_rdo(aubio_dct_t *s, const fvec_t *input, fvec_t *output) { s->dct_rdo ((void *)s->dct, input, output); }