/* * Copyright (c) 1997-1999 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 * */ #include #include /********************** prototypes for rexec2 routines **********************/ extern void rfftw_hc2c(int n, fftw_real *in, fftw_complex *out, int ostride); extern void rfftw_c2hc(int n, fftw_complex *in, int istride, fftw_real *out); extern void rfftw_real2c_aux(fftw_plan plan, int howmany, fftw_real *in, int istride, int idist, fftw_complex *out, int ostride, int odist, fftw_real *work); extern void rfftw_c2real_aux(fftw_plan plan, int howmany, fftw_complex *in, int istride, int idist, fftw_real *out, int ostride, int odist, fftw_real *work); extern void rfftw_real2c_overlap_aux(fftw_plan plan, int howmany, fftw_real *in, int istride, int idist, fftw_complex *out, int ostride, int odist, fftw_real *work); extern void rfftw_c2real_overlap_aux(fftw_plan plan, int howmany, fftw_complex *in, int istride, int idist, fftw_real *out, int ostride, int odist, fftw_real *work); /***************************************************************************/ typedef struct { fftw_plan plan; void *in; int istride, idist; void *out; int ostride, odist; fftw_real *work; } rexec2_thread_data; static void *real2c_aux_thread(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; rfftw_real2c_aux(d->plan, ldata->max - ldata->min, ldata->min * d->idist + (fftw_real *) d->in, d->istride, d->idist, ldata->min * d->odist + (fftw_complex *) d->out, d->ostride, d->odist, d->work + d->plan->n * ldata->thread_num); return 0; } static void *c2real_aux_thread(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; rfftw_c2real_aux(d->plan, ldata->max - ldata->min, ldata->min * d->idist + (fftw_complex *) d->in, d->istride, d->idist, ldata->min * d->odist + (fftw_real *) d->out, d->ostride, d->odist, d->work + d->plan->n * ldata->thread_num); return 0; } static void *real2c_overlap_aux_thread1(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; int n = d->plan->n; rfftw(d->plan, ldata->max - ldata->min, ldata->min * d->idist + (fftw_real *) d->in, d->istride, d->idist, d->work + n * ldata->min, 1, n); return 0; } static void *real2c_overlap_aux_thread2(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; int min = ldata->min, max = ldata->max; int n = d->plan->n; fftw_complex *out = (fftw_complex *) d->out; int ostride = d->ostride, odist = d->odist; fftw_real *work = d->work; for (; min < max; ++min) rfftw_hc2c(n, work + min*n, out + min*odist, ostride); return 0; } static void *c2real_overlap_aux_thread2(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; int n = d->plan->n; rfftw(d->plan, ldata->max - ldata->min, d->work + n * ldata->min, 1, n, ldata->min * d->odist + (fftw_real *) d->out, d->ostride, d->odist); return 0; } static void *c2real_overlap_aux_thread1(fftw_loop_data *ldata) { rexec2_thread_data *d = (rexec2_thread_data *) ldata->data; int min = ldata->min, max = ldata->max; int n = d->plan->n; fftw_complex *in = (fftw_complex *) d->in; int istride = d->istride, idist = d->idist; fftw_real *work = d->work; for (; min < max; ++min) rfftw_c2hc(n, in + min*idist, istride, work + min*n); return 0; } void rfftw_real2c_threads_aux(fftw_plan plan, int howmany, fftw_real *in, int istride, int idist, fftw_complex *out, int ostride, int odist, fftw_real *work, int nthreads) { rexec2_thread_data d; d.plan = plan; d.in = in; d.istride = istride; d.idist = idist; d.out = out; d.ostride = ostride; d.odist = odist; d.work = work; fftw_thread_spawn_loop(howmany, nthreads, real2c_aux_thread, &d); } void rfftw_c2real_threads_aux(fftw_plan plan, int howmany, fftw_complex *in, int istride, int idist, fftw_real *out, int ostride, int odist, fftw_real *work, int nthreads) { rexec2_thread_data d; d.plan = plan; d.in = in; d.istride = istride; d.idist = idist; d.out = out; d.ostride = ostride; d.odist = odist; d.work = work; fftw_thread_spawn_loop(howmany, nthreads, c2real_aux_thread, &d); } void rfftw_real2c_overlap_threads_aux(fftw_plan plan, int howmany, fftw_real *in, int istride, int idist, fftw_complex *out, int ostride, int odist, fftw_real *work, int nthreads) { rexec2_thread_data d; d.plan = plan; d.in = in; d.istride = istride; d.idist = idist; d.out = out; d.ostride = ostride; d.odist = odist; d.work = work; fftw_thread_spawn_loop(howmany, nthreads, real2c_overlap_aux_thread1, &d); fftw_thread_spawn_loop(howmany, nthreads, real2c_overlap_aux_thread2, &d); } void rfftw_c2real_overlap_threads_aux(fftw_plan plan, int howmany, fftw_complex *in, int istride, int idist, fftw_real *out, int ostride, int odist, fftw_real *work, int nthreads) { rexec2_thread_data d; d.plan = plan; d.in = in; d.istride = istride; d.idist = idist; d.out = out; d.ostride = ostride; d.odist = odist; d.work = work; fftw_thread_spawn_loop(howmany, nthreads, c2real_overlap_aux_thread1, &d); fftw_thread_spawn_loop(howmany, nthreads, c2real_overlap_aux_thread2, &d); }