177 lines
5.6 KiB
C
177 lines
5.6 KiB
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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#ifndef __RDFT_H__
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#define __RDFT_H__
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#include "kernel/ifftw.h"
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#include "rdft/codelet-rdft.h"
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#ifdef __cplusplus
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extern "C"
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{
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#endif /* __cplusplus */
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/* problem.c: */
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typedef struct {
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problem super;
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tensor *sz, *vecsz;
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R *I, *O;
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#if defined(STRUCT_HACK_KR)
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rdft_kind kind[1];
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#elif defined(STRUCT_HACK_C99)
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rdft_kind kind[];
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#else
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rdft_kind *kind;
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#endif
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} problem_rdft;
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void X(rdft_zerotens)(tensor *sz, R *I);
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problem *X(mkproblem_rdft)(const tensor *sz, const tensor *vecsz,
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R *I, R *O, const rdft_kind *kind);
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problem *X(mkproblem_rdft_d)(tensor *sz, tensor *vecsz,
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R *I, R *O, const rdft_kind *kind);
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problem *X(mkproblem_rdft_0_d)(tensor *vecsz, R *I, R *O);
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problem *X(mkproblem_rdft_1)(const tensor *sz, const tensor *vecsz,
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R *I, R *O, rdft_kind kind);
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problem *X(mkproblem_rdft_1_d)(tensor *sz, tensor *vecsz,
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R *I, R *O, rdft_kind kind);
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const char *X(rdft_kind_str)(rdft_kind kind);
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/* solve.c: */
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void X(rdft_solve)(const plan *ego_, const problem *p_);
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/* plan.c: */
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typedef void (*rdftapply) (const plan *ego, R *I, R *O);
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typedef struct {
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plan super;
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rdftapply apply;
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} plan_rdft;
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plan *X(mkplan_rdft)(size_t size, const plan_adt *adt, rdftapply apply);
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#define MKPLAN_RDFT(type, adt, apply) \
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(type *)X(mkplan_rdft)(sizeof(type), adt, apply)
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/* various solvers */
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solver *X(mksolver_rdft_r2c_direct)(kr2c k, const kr2c_desc *desc);
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solver *X(mksolver_rdft_r2c_directbuf)(kr2c k, const kr2c_desc *desc);
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solver *X(mksolver_rdft_r2r_direct)(kr2r k, const kr2r_desc *desc);
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void X(rdft_rank0_register)(planner *p);
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void X(rdft_vrank3_transpose_register)(planner *p);
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void X(rdft_rank_geq2_register)(planner *p);
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void X(rdft_indirect_register)(planner *p);
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void X(rdft_vrank_geq1_register)(planner *p);
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void X(rdft_buffered_register)(planner *p);
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void X(rdft_generic_register)(planner *p);
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void X(rdft_rader_hc2hc_register)(planner *p);
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void X(rdft_dht_register)(planner *p);
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void X(dht_r2hc_register)(planner *p);
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void X(dht_rader_register)(planner *p);
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void X(dft_r2hc_register)(planner *p);
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void X(rdft_nop_register)(planner *p);
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void X(hc2hc_generic_register)(planner *p);
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/****************************************************************************/
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/* problem2.c: */
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/*
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An RDFT2 problem transforms a 1d real array r[n] with stride is/os
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to/from an "unpacked" complex array {rio,iio}[n/2 + 1] with stride
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os/is. R0 points to the first even element of the real array.
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R1 points to the first odd element of the real array.
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Strides on the real side of the transform express distances
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between consecutive elements of the same array (even or odd).
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E.g., for a contiguous input
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R0 R1 R2 R3 ...
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the input stride would be 2, not 1. This convention is necessary
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for hc2c codelets to work, since they transpose even/odd with
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real/imag.
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Multidimensional transforms use complex DFTs for the
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noncontiguous dimensions. vecsz has the usual interpretation.
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*/
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typedef struct {
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problem super;
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tensor *sz;
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tensor *vecsz;
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R *r0, *r1;
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R *cr, *ci;
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rdft_kind kind; /* assert(kind < DHT) */
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} problem_rdft2;
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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, rdft_kind kind);
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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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problem *X(mkproblem_rdft2_d_3pointers)(tensor *sz, tensor *vecsz,
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R *r, R *cr, R *ci, rdft_kind kind);
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int X(rdft2_inplace_strides)(const problem_rdft2 *p, int vdim);
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INT X(rdft2_tensor_max_index)(const tensor *sz, rdft_kind k);
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void X(rdft2_strides)(rdft_kind kind, const iodim *d, INT *rs, INT *cs);
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INT X(rdft2_complex_n)(INT real_n, rdft_kind kind);
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/* verify.c: */
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void X(rdft2_verify)(plan *pln, const problem_rdft2 *p, int rounds);
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/* solve.c: */
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void X(rdft2_solve)(const plan *ego_, const problem *p_);
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/* plan.c: */
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typedef void (*rdft2apply) (const plan *ego, R *r0, R *r1, R *cr, R *ci);
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typedef struct {
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plan super;
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rdft2apply apply;
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} plan_rdft2;
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plan *X(mkplan_rdft2)(size_t size, const plan_adt *adt, rdft2apply apply);
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#define MKPLAN_RDFT2(type, adt, apply) \
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(type *)X(mkplan_rdft2)(sizeof(type), adt, apply)
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/* various solvers */
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solver *X(mksolver_rdft2_direct)(kr2c k, const kr2c_desc *desc);
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void X(rdft2_vrank_geq1_register)(planner *p);
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void X(rdft2_buffered_register)(planner *p);
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void X(rdft2_rdft_register)(planner *p);
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void X(rdft2_nop_register)(planner *p);
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void X(rdft2_rank0_register)(planner *p);
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void X(rdft2_rank_geq2_register)(planner *p);
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/****************************************************************************/
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/* configurations */
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void X(rdft_conf_standard)(planner *p);
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#ifdef __cplusplus
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} /* extern "C" */
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#endif /* __cplusplus */
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#endif /* __RDFT_H__ */
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