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224
fftw-3.3.10/rdft/problem2.c
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224
fftw-3.3.10/rdft/problem2.c
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/*
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* Copyright (c) 2003, 2007-14 Matteo Frigo
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* Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
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*
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* This program 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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* This program 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 this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*/
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#include "dft/dft.h"
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#include "rdft/rdft.h"
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#include <stddef.h>
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static void destroy(problem *ego_)
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{
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problem_rdft2 *ego = (problem_rdft2 *) ego_;
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X(tensor_destroy2)(ego->vecsz, ego->sz);
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X(ifree)(ego_);
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}
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static void hash(const problem *p_, md5 *m)
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{
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const problem_rdft2 *p = (const problem_rdft2 *) p_;
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X(md5puts)(m, "rdft2");
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X(md5int)(m, p->r0 == p->cr);
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X(md5INT)(m, p->r1 - p->r0);
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X(md5INT)(m, p->ci - p->cr);
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X(md5int)(m, X(ialignment_of)(p->r0));
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X(md5int)(m, X(ialignment_of)(p->r1));
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X(md5int)(m, X(ialignment_of)(p->cr));
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X(md5int)(m, X(ialignment_of)(p->ci));
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X(md5int)(m, p->kind);
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X(tensor_md5)(m, p->sz);
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X(tensor_md5)(m, p->vecsz);
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}
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static void print(const problem *ego_, printer *p)
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{
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const problem_rdft2 *ego = (const problem_rdft2 *) ego_;
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p->print(p, "(rdft2 %d %d %T %T)",
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(int)(ego->cr == ego->r0),
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(int)(ego->kind),
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ego->sz,
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ego->vecsz);
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}
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static void recur(const iodim *dims, int rnk, R *I0, R *I1)
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{
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if (rnk == RNK_MINFTY)
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return;
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else if (rnk == 0)
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I0[0] = K(0.0);
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else if (rnk > 0) {
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INT i, n = dims[0].n, is = dims[0].is;
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if (rnk == 1) {
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for (i = 0; i < n - 1; i += 2) {
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*I0 = *I1 = K(0.0);
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I0 += is; I1 += is;
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}
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if (i < n)
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*I0 = K(0.0);
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} else {
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for (i = 0; i < n; ++i)
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recur(dims + 1, rnk - 1, I0 + i * is, I1 + i * is);
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}
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}
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}
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static void vrecur(const iodim *vdims, int vrnk,
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const iodim *dims, int rnk, R *I0, R *I1)
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{
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if (vrnk == RNK_MINFTY)
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return;
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else if (vrnk == 0)
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recur(dims, rnk, I0, I1);
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else if (vrnk > 0) {
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INT i, n = vdims[0].n, is = vdims[0].is;
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for (i = 0; i < n; ++i)
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vrecur(vdims + 1, vrnk - 1,
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dims, rnk, I0 + i * is, I1 + i * is);
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}
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}
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INT X(rdft2_complex_n)(INT real_n, rdft_kind kind)
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{
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switch (kind) {
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case R2HC:
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case HC2R:
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return (real_n / 2) + 1;
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case R2HCII:
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case HC2RIII:
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return (real_n + 1) / 2;
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default:
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/* can't happen */
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A(0);
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return 0;
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}
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}
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static void zero(const problem *ego_)
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{
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const problem_rdft2 *ego = (const problem_rdft2 *) ego_;
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if (R2HC_KINDP(ego->kind)) {
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/* FIXME: can we avoid the double recursion somehow? */
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vrecur(ego->vecsz->dims, ego->vecsz->rnk,
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ego->sz->dims, ego->sz->rnk,
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UNTAINT(ego->r0), UNTAINT(ego->r1));
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} else {
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tensor *sz;
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tensor *sz2 = X(tensor_copy)(ego->sz);
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int rnk = sz2->rnk;
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if (rnk > 0) /* ~half as many complex outputs */
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sz2->dims[rnk-1].n =
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X(rdft2_complex_n)(sz2->dims[rnk-1].n, ego->kind);
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sz = X(tensor_append)(ego->vecsz, sz2);
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X(tensor_destroy)(sz2);
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X(dft_zerotens)(sz, UNTAINT(ego->cr), UNTAINT(ego->ci));
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X(tensor_destroy)(sz);
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}
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}
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static const problem_adt padt =
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{
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PROBLEM_RDFT2,
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hash,
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zero,
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print,
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destroy
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};
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problem *X(mkproblem_rdft2)(const tensor *sz, const tensor *vecsz,
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R *r0, R *r1, R *cr, R *ci,
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rdft_kind kind)
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{
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problem_rdft2 *ego;
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A(kind == R2HC || kind == R2HCII || kind == HC2R || kind == HC2RIII);
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A(X(tensor_kosherp)(sz));
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A(X(tensor_kosherp)(vecsz));
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A(FINITE_RNK(sz->rnk));
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/* require in-place problems to use r0 == cr */
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if (UNTAINT(r0) == UNTAINT(ci))
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return X(mkproblem_unsolvable)();
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/* FIXME: should check UNTAINT(r1) == UNTAINT(cr) but
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only if odd elements exist, which requires compressing the
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tensors first */
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if (UNTAINT(r0) == UNTAINT(cr))
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r0 = cr = JOIN_TAINT(r0, cr);
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ego = (problem_rdft2 *)X(mkproblem)(sizeof(problem_rdft2), &padt);
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if (sz->rnk > 1) { /* have to compress rnk-1 dims separately, ugh */
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tensor *szc = X(tensor_copy_except)(sz, sz->rnk - 1);
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tensor *szr = X(tensor_copy_sub)(sz, sz->rnk - 1, 1);
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tensor *szcc = X(tensor_compress)(szc);
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if (szcc->rnk > 0)
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ego->sz = X(tensor_append)(szcc, szr);
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else
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ego->sz = X(tensor_compress)(szr);
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X(tensor_destroy2)(szc, szr); X(tensor_destroy)(szcc);
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} else {
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ego->sz = X(tensor_compress)(sz);
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}
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ego->vecsz = X(tensor_compress_contiguous)(vecsz);
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ego->r0 = r0;
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ego->r1 = r1;
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ego->cr = cr;
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ego->ci = ci;
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ego->kind = kind;
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A(FINITE_RNK(ego->sz->rnk));
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return &(ego->super);
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}
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/* Same as X(mkproblem_rdft2), but also destroy input tensors. */
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problem *X(mkproblem_rdft2_d)(tensor *sz, tensor *vecsz,
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R *r0, R *r1, R *cr, R *ci, rdft_kind kind)
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{
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problem *p = X(mkproblem_rdft2)(sz, vecsz, r0, r1, cr, ci, kind);
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X(tensor_destroy2)(vecsz, sz);
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return p;
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}
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/* Same as X(mkproblem_rdft2_d), but with only one R pointer.
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Used by the API. */
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problem *X(mkproblem_rdft2_d_3pointers)(tensor *sz, tensor *vecsz,
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R *r0, R *cr, R *ci, rdft_kind kind)
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{
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problem *p;
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int rnk = sz->rnk;
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R *r1;
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if (rnk == 0)
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r1 = r0;
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else if (R2HC_KINDP(kind)) {
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r1 = r0 + sz->dims[rnk-1].is;
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sz->dims[rnk-1].is *= 2;
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} else {
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r1 = r0 + sz->dims[rnk-1].os;
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sz->dims[rnk-1].os *= 2;
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}
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p = X(mkproblem_rdft2)(sz, vecsz, r0, r1, cr, ci, kind);
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X(tensor_destroy2)(vecsz, sz);
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return p;
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}
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