/* * Copyright (c) 1997-1999, 2003 Massachusetts Institute of Technology * * This program 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 2 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ /* * twiddle.c -- compute twiddle factors * These are the twiddle factors for *direct* fft. Flip sign to get * the inverse */ /* $Id: twiddle.c,v 1.1 2008/10/17 06:13:18 scuri Exp $ */ #include "fftw-int.h" #include #include #include #ifndef TRUE #define TRUE (1 == 1) #endif #ifndef FALSE #define FALSE (1 == 0) #endif #ifdef USE_FFTW_SAFE_MULMOD /* compute (x * y) mod p, but watch out for integer overflows; we must have x, y >= 0, p > 0. This routine is slow. */ int fftw_safe_mulmod(int x, int y, int p) { if (y == 0 || x <= INT_MAX / y) return((x * y) % p); else { int y2 = y/2; return((fftw_safe_mulmod(x, y2, p) + fftw_safe_mulmod(x, y - y2, p)) % p); } } #endif /* USE_FFTW_SAFE_MULMOD */ static fftw_complex *fftw_compute_rader_twiddle(int n, int r, int g) { FFTW_TRIG_REAL twoPiOverN; int m = n / r; int i, j, gpower; fftw_complex *W; twoPiOverN = FFTW_K2PI / (FFTW_TRIG_REAL) n; W = (fftw_complex *) fftw_malloc((r - 1) * m * sizeof(fftw_complex)); for (i = 0; i < m; ++i) for (gpower = 1, j = 0; j < r - 1; ++j, gpower = MULMOD(gpower, g, r)) { int k = i * (r - 1) + j; FFTW_TRIG_REAL ij = (FFTW_TRIG_REAL) (i * gpower); c_re(W[k]) = FFTW_TRIG_COS(twoPiOverN * ij); c_im(W[k]) = FFTW_FORWARD * FFTW_TRIG_SIN(twoPiOverN * ij); } return W; } /* * compute the W coefficients (that is, powers of the root of 1) * and store them into an array. */ static fftw_complex *fftw_compute_twiddle(int n, const fftw_codelet_desc *d) { FFTW_TRIG_REAL twoPiOverN; int i, j; fftw_complex *W; twoPiOverN = FFTW_K2PI / (FFTW_TRIG_REAL) n; if (!d) { /* generic codelet, needs all twiddles in order */ W = (fftw_complex *) fftw_malloc(n * sizeof(fftw_complex)); for (i = 0; i < n; ++i) { c_re(W[i]) = FFTW_TRIG_COS(twoPiOverN * (FFTW_TRIG_REAL) i); c_im(W[i]) = FFTW_FORWARD * FFTW_TRIG_SIN(twoPiOverN * (FFTW_TRIG_REAL) i); } } else if (d->type == FFTW_RADER) W = fftw_compute_rader_twiddle(n, d->size, d->signature); else { int r = d->size; int m = n / r, m_alloc; int r1 = d->ntwiddle; int istart; if (d->type == FFTW_TWIDDLE) { istart = 0; m_alloc = m; } else if (d->type == FFTW_HC2HC) { /* * This is tricky, do not change lightly. */ m = (m + 1) / 2; m_alloc = m - 1; istart = 1; } else { fftw_die("compute_twiddle: invalid argument\n"); /* paranoia for gcc */ m_alloc = 0; istart = 0; } W = (fftw_complex *) fftw_malloc(r1 * m_alloc * sizeof(fftw_complex)); for (i = istart; i < m; ++i) for (j = 0; j < r1; ++j) { int k = (i - istart) * r1 + j; FFTW_TRIG_REAL ij = (FFTW_TRIG_REAL) (i * d->twiddle_order[j]); c_re(W[k]) = FFTW_TRIG_COS(twoPiOverN * ij); c_im(W[k]) = FFTW_FORWARD * FFTW_TRIG_SIN(twoPiOverN * ij); } } return W; } /* * these routines implement a simple reference-count-based * management of twiddle structures */ static fftw_twiddle *twlist = (fftw_twiddle *) 0; int fftw_twiddle_size = 0; /* total allocated size, for debugging */ /* true if the two codelets can share the same twiddle factors */ static int compatible(const fftw_codelet_desc *d1, const fftw_codelet_desc *d2) { int i; /* true if they are the same codelet */ if (d1 == d2) return TRUE; /* false if one is null and the other is not */ if (!d1 || !d2) return FALSE; /* false if size is different */ if (d1->size != d2->size) return FALSE; /* false if different types (FFTW_TWIDDLE/FFTW_HC2HC/FFTW_RADER) */ if (d1->type != d2->type) return FALSE; /* false if they need different # of twiddles */ if (d1->ntwiddle != d2->ntwiddle) return FALSE; /* false if the twiddle orders are different */ for (i = 0; i < d1->ntwiddle; ++i) if (d1->twiddle_order[i] != d2->twiddle_order[i]) return FALSE; return TRUE; } fftw_twiddle *fftw_create_twiddle(int n, const fftw_codelet_desc *d) { fftw_twiddle *tw; /* lookup this n in the twiddle list */ for (tw = twlist; tw; tw = tw->next) if (n == tw->n && compatible(d, tw->cdesc)) { ++tw->refcnt; return tw; } /* not found --- allocate a new struct twiddle */ tw = (fftw_twiddle *) fftw_malloc(sizeof(fftw_twiddle)); fftw_twiddle_size += n; tw->n = n; tw->cdesc = d; tw->twarray = fftw_compute_twiddle(n, d); tw->refcnt = 1; /* enqueue the new struct */ tw->next = twlist; twlist = tw; return tw; } void fftw_destroy_twiddle(fftw_twiddle * tw) { fftw_twiddle **p; --tw->refcnt; if (tw->refcnt == 0) { /* remove from the list of known twiddle factors */ for (p = &twlist; p; p = &((*p)->next)) if (*p == tw) { *p = tw->next; fftw_twiddle_size -= tw->n; fftw_free(tw->twarray); fftw_free(tw); return; } fftw_die("BUG in fftw_destroy_twiddle\n"); } }