292 lines
6.8 KiB
C
292 lines
6.8 KiB
C
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/*
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* This file is part of libfftpack.
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*
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* libfftpack is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* libfftpack is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with libfftpack; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/*
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* libfftpack is being developed at the Max-Planck-Institut fuer Astrophysik
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* and financially supported by the Deutsches Zentrum fuer Luft- und Raumfahrt
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* (DLR).
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*/
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/*
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* Copyright (C) 2005 Max-Planck-Society
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* \author Martin Reinecke
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*/
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#include <stdlib.h>
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#include <math.h>
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#include <string.h>
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#include "bluestein.h"
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#include "fftpack.h"
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#include "ls_fft.h"
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complex_plan make_complex_plan (size_t length)
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{
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complex_plan plan = RALLOC(complex_plan_i,1);
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size_t pfsum = prime_factor_sum(length);
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double comp1 = (double)(length*pfsum);
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double comp2 = 2*3*length*log(3.*length);
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comp2*=3.; /* fudge factor that appears to give good overall performance */
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plan->length=length;
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plan->bluestein = (comp2<comp1);
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if (plan->bluestein)
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bluestein_i (length,&(plan->work),&(plan->worksize));
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else
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{
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plan->worksize=4*length+15;
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plan->work=RALLOC(double,4*length+15);
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cffti(length, plan->work);
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}
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return plan;
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}
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complex_plan copy_complex_plan (complex_plan plan)
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{
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if (!plan) return NULL;
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{
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complex_plan newplan = RALLOC(complex_plan_i,1);
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*newplan = *plan;
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newplan->work=RALLOC(double,newplan->worksize);
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memcpy(newplan->work,plan->work,sizeof(double)*newplan->worksize);
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return newplan;
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}
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}
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void kill_complex_plan (complex_plan plan)
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{
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DEALLOC(plan->work);
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DEALLOC(plan);
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}
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void complex_plan_forward (complex_plan plan, double *data)
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{
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if (plan->bluestein)
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bluestein (plan->length, data, plan->work, -1);
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else
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cfftf (plan->length, data, plan->work);
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}
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void complex_plan_backward (complex_plan plan, double *data)
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{
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if (plan->bluestein)
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bluestein (plan->length, data, plan->work, 1);
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else
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cfftb (plan->length, data, plan->work);
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}
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real_plan make_real_plan (size_t length)
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{
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real_plan plan = RALLOC(real_plan_i,1);
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size_t pfsum = prime_factor_sum(length);
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double comp1 = .5*length*pfsum;
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double comp2 = 2*3*length*log(3.*length);
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comp2*=3; /* fudge factor that appears to give good overall performance */
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plan->length=length;
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plan->bluestein = (comp2<comp1);
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if (plan->bluestein)
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bluestein_i (length,&(plan->work),&(plan->worksize));
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else
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{
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plan->worksize=2*length+15;
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plan->work=RALLOC(double,2*length+15);
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rffti(length, plan->work);
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}
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return plan;
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}
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real_plan copy_real_plan (real_plan plan)
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{
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if (!plan) return NULL;
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{
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real_plan newplan = RALLOC(real_plan_i,1);
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*newplan = *plan;
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newplan->work=RALLOC(double,newplan->worksize);
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memcpy(newplan->work,plan->work,sizeof(double)*newplan->worksize);
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return newplan;
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}
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}
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void kill_real_plan (real_plan plan)
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{
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DEALLOC(plan->work);
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DEALLOC(plan);
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}
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void real_plan_forward_fftpack (real_plan plan, double *data)
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{
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if (plan->bluestein)
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{
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size_t m;
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size_t n=plan->length;
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double *tmp = RALLOC(double,2*n);
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for (m=0; m<n; ++m)
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{
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tmp[2*m] = data[m];
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tmp[2*m+1] = 0.;
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}
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bluestein(n,tmp,plan->work,-1);
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data[0] = tmp[0];
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memcpy (data+1, tmp+2, (n-1)*sizeof(double));
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DEALLOC(tmp);
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}
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else
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rfftf (plan->length, data, plan->work);
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}
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static void fftpack2halfcomplex (double *data, size_t n)
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{
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size_t m;
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double *tmp = RALLOC(double,n);
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tmp[0]=data[0];
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for (m=1; m<(n+1)/2; ++m)
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{
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tmp[m]=data[2*m-1];
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tmp[n-m]=data[2*m];
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}
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if (!(n&1))
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tmp[n/2]=data[n-1];
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memcpy (data,tmp,n*sizeof(double));
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DEALLOC(tmp);
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}
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static void halfcomplex2fftpack (double *data, size_t n)
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{
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size_t m;
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double *tmp = RALLOC(double,n);
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tmp[0]=data[0];
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for (m=1; m<(n+1)/2; ++m)
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{
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tmp[2*m-1]=data[m];
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tmp[2*m]=data[n-m];
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}
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if (!(n&1))
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tmp[n-1]=data[n/2];
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memcpy (data,tmp,n*sizeof(double));
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DEALLOC(tmp);
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}
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void real_plan_forward_fftw (real_plan plan, double *data)
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{
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real_plan_forward_fftpack (plan, data);
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fftpack2halfcomplex (data,plan->length);
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}
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void real_plan_backward_fftpack (real_plan plan, double *data)
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{
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if (plan->bluestein)
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{
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size_t m;
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size_t n=plan->length;
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double *tmp = RALLOC(double,2*n);
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tmp[0]=data[0];
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tmp[1]=0.;
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memcpy (tmp+2,data+1, (n-1)*sizeof(double));
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if ((n&1)==0) tmp[n+1]=0.;
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for (m=2; m<n; m+=2)
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{
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tmp[2*n-m]=tmp[m];
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tmp[2*n-m+1]=-tmp[m+1];
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}
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bluestein (n, tmp, plan->work, 1);
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for (m=0; m<n; ++m)
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data[m] = tmp[2*m];
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DEALLOC(tmp);
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}
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else
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rfftb (plan->length, data, plan->work);
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}
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void real_plan_backward_fftw (real_plan plan, double *data)
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{
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halfcomplex2fftpack (data,plan->length);
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real_plan_backward_fftpack (plan, data);
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}
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void real_plan_forward_c (real_plan plan, double *data)
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{
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size_t m;
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size_t n=plan->length;
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if (plan->bluestein)
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{
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for (m=1; m<2*n; m+=2)
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data[m]=0;
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bluestein (plan->length, data, plan->work, -1);
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data[1]=0;
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for (m=2; m<n; m+=2)
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{
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double avg;
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avg = 0.5*(data[2*n-m]+data[m]);
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data[2*n-m] = data[m] = avg;
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avg = 0.5*(data[2*n-m+1]-data[m+1]);
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data[2*n-m+1] = avg;
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data[m+1] = -avg;
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}
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if ((n&1)==0) data[n+1] = 0.;
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}
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else
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{
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/* using "m+m" instead of "2*m" to avoid a nasty bug in Intel's compiler */
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for (m=0; m<n; ++m) data[m+1] = data[m+m];
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rfftf (n, data+1, plan->work);
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data[0] = data[1];
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data[1] = 0;
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for (m=2; m<n; m+=2)
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{
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data[2*n-m] = data[m];
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data[2*n-m+1] = -data[m+1];
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}
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if ((n&1)==0) data[n+1] = 0.;
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}
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}
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void real_plan_backward_c (real_plan plan, double *data)
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{
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size_t n=plan->length;
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if (plan->bluestein)
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{
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size_t m;
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data[1]=0;
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for (m=2; m<n; m+=2)
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{
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double avg;
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avg = 0.5*(data[2*n-m]+data[m]);
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data[2*n-m] = data[m] = avg;
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avg = 0.5*(data[2*n-m+1]-data[m+1]);
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data[2*n-m+1] = avg;
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data[m+1] = -avg;
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}
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if ((n&1)==0) data[n+1] = 0.;
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bluestein (plan->length, data, plan->work, 1);
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for (m=1; m<2*n; m+=2)
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data[m]=0;
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}
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else
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{
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ptrdiff_t m;
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data[1] = data[0];
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rfftb (n, data+1, plan->work);
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for (m=n-1; m>=0; --m)
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{
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data[2*m] = data[m+1];
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data[2*m+1] = 0.;
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}
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}
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}
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