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ad68f71d9a
This fixes thread-safety issues and various other minor issues. Our previous version was about 13 years old. Fixes https://gitlab.freedesktop.org/gstreamer/gst-plugins-base/issues/715
154 lines
4.4 KiB
C
154 lines
4.4 KiB
C
/*
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* Copyright (c) 2003-2004, Mark Borgerding. All rights reserved.
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* This file is part of KISS FFT - https://github.com/mborgerding/kissfft
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*
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* SPDX-License-Identifier: BSD-3-Clause
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* See COPYING file for more information.
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*/
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#include "kiss_fftr_f64.h"
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#include "_kiss_fft_guts_f64.h"
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struct kiss_fftr_f64_state
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{
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kiss_fft_f64_cfg substate;
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kiss_fft_f64_cpx *tmpbuf;
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kiss_fft_f64_cpx *super_twiddles;
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#ifdef USE_SIMD
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void *pad;
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#endif
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};
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kiss_fftr_f64_cfg
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kiss_fftr_f64_alloc (int nfft, int inverse_fft, void *mem, size_t * lenmem)
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{
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int i;
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kiss_fftr_f64_cfg st = NULL;
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size_t subsize = 0, memneeded;
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g_return_val_if_fail ((nfft & 1) == 0, NULL);
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nfft >>= 1;
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kiss_fft_f64_alloc (nfft, inverse_fft, NULL, &subsize);
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memneeded =
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ALIGN_STRUCT (sizeof (struct kiss_fftr_f64_state)) +
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ALIGN_STRUCT (subsize) + sizeof (kiss_fft_f64_cpx) * (nfft * 3 / 2);
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if (lenmem == NULL) {
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st = (kiss_fftr_f64_cfg) KISS_FFT_F64_MALLOC (memneeded);
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} else {
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if (*lenmem >= memneeded)
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st = (kiss_fftr_f64_cfg) mem;
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*lenmem = memneeded;
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}
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if (!st)
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return NULL;
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st->substate = (kiss_fft_f64_cfg) (((char *) st) + ALIGN_STRUCT (sizeof (struct kiss_fftr_f64_state))); /*just beyond kiss_fftr_f64_state struct */
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st->tmpbuf =
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(kiss_fft_f64_cpx *) (((char *) st->substate) + ALIGN_STRUCT (subsize));
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st->super_twiddles = st->tmpbuf + nfft;
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kiss_fft_f64_alloc (nfft, inverse_fft, st->substate, &subsize);
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for (i = 0; i < nfft / 2; ++i) {
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double phase =
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-3.14159265358979323846264338327 * ((double) (i + 1) / nfft + .5);
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if (inverse_fft)
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phase *= -1;
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kf_cexp (st->super_twiddles + i, phase);
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}
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return st;
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}
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void
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kiss_fftr_f64 (kiss_fftr_f64_cfg st, const kiss_fft_f64_scalar * timedata,
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kiss_fft_f64_cpx * freqdata)
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{
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/* input buffer timedata is stored row-wise */
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int k, ncfft;
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kiss_fft_f64_cpx fpnk, fpk, f1k, f2k, tw, tdc;
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g_return_if_fail (!st->substate->inverse);
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ncfft = st->substate->nfft;
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/*perform the parallel fft of two real signals packed in real,imag */
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kiss_fft_f64 (st->substate, (const kiss_fft_f64_cpx *) timedata, st->tmpbuf);
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/* The real part of the DC element of the frequency spectrum in st->tmpbuf
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* contains the sum of the even-numbered elements of the input time sequence
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* The imag part is the sum of the odd-numbered elements
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*
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* The sum of tdc.r and tdc.i is the sum of the input time sequence.
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* yielding DC of input time sequence
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* The difference of tdc.r - tdc.i is the sum of the input (dot product) [1,-1,1,-1...
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* yielding Nyquist bin of input time sequence
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*/
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tdc.r = st->tmpbuf[0].r;
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tdc.i = st->tmpbuf[0].i;
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C_FIXDIV (tdc, 2);
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CHECK_OVERFLOW_OP (tdc.r, +, tdc.i);
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CHECK_OVERFLOW_OP (tdc.r, -, tdc.i);
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freqdata[0].r = tdc.r + tdc.i;
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freqdata[ncfft].r = tdc.r - tdc.i;
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#ifdef USE_SIMD
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freqdata[ncfft].i = freqdata[0].i = _mm_set1_ps (0);
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#else
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freqdata[ncfft].i = freqdata[0].i = 0;
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#endif
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for (k = 1; k <= ncfft / 2; ++k) {
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fpk = st->tmpbuf[k];
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fpnk.r = st->tmpbuf[ncfft - k].r;
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fpnk.i = -st->tmpbuf[ncfft - k].i;
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C_FIXDIV (fpk, 2);
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C_FIXDIV (fpnk, 2);
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C_ADD (f1k, fpk, fpnk);
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C_SUB (f2k, fpk, fpnk);
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C_MUL (tw, f2k, st->super_twiddles[k - 1]);
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freqdata[k].r = HALF_OF (f1k.r + tw.r);
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freqdata[k].i = HALF_OF (f1k.i + tw.i);
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freqdata[ncfft - k].r = HALF_OF (f1k.r - tw.r);
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freqdata[ncfft - k].i = HALF_OF (tw.i - f1k.i);
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}
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}
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void
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kiss_fftri_f64 (kiss_fftr_f64_cfg st, const kiss_fft_f64_cpx * freqdata,
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kiss_fft_f64_scalar * timedata)
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{
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/* input buffer timedata is stored row-wise */
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int k, ncfft;
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g_return_if_fail (st->substate->inverse);
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ncfft = st->substate->nfft;
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st->tmpbuf[0].r = freqdata[0].r + freqdata[ncfft].r;
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st->tmpbuf[0].i = freqdata[0].r - freqdata[ncfft].r;
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C_FIXDIV (st->tmpbuf[0], 2);
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for (k = 1; k <= ncfft / 2; ++k) {
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kiss_fft_f64_cpx fk, fnkc, fek, fok, tmp;
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fk = freqdata[k];
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fnkc.r = freqdata[ncfft - k].r;
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fnkc.i = -freqdata[ncfft - k].i;
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C_FIXDIV (fk, 2);
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C_FIXDIV (fnkc, 2);
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C_ADD (fek, fk, fnkc);
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C_SUB (tmp, fk, fnkc);
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C_MUL (fok, tmp, st->super_twiddles[k - 1]);
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C_ADD (st->tmpbuf[k], fek, fok);
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C_SUB (st->tmpbuf[ncfft - k], fek, fok);
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#ifdef USE_SIMD
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st->tmpbuf[ncfft - k].i *= _mm_set1_ps (-1.0);
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#else
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st->tmpbuf[ncfft - k].i *= -1;
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#endif
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}
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kiss_fft_f64 (st->substate, st->tmpbuf, (kiss_fft_f64_cpx *) timedata);
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}
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