mirror of
https://github.com/tildearrow/furnace.git
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54e93db207
not reliable yet
234 lines
6.3 KiB
C
234 lines
6.3 KiB
C
/*
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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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/* solvers/plans for vectors of small RDFT's that cannot be done
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in-place directly. Use a rank-0 plan to rearrange the data
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before or after the transform. Can also change an out-of-place
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plan into a copy + in-place (where the in-place transform
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is e.g. unit stride). */
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/* FIXME: merge with rank-geq2.c(?), since this is just a special case
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of a rank split where the first/second transform has rank 0. */
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#include "rdft/rdft.h"
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typedef problem *(*mkcld_t) (const problem_rdft *p);
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typedef struct {
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rdftapply apply;
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problem *(*mkcld)(const problem_rdft *p);
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const char *nam;
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} ndrct_adt;
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typedef struct {
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solver super;
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const ndrct_adt *adt;
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} S;
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typedef struct {
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plan_rdft super;
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plan *cldcpy, *cld;
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const S *slv;
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} P;
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/*-----------------------------------------------------------------------*/
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/* first rearrange, then transform */
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static void apply_before(const plan *ego_, R *I, R *O)
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{
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const P *ego = (const P *) ego_;
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{
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plan_rdft *cldcpy = (plan_rdft *) ego->cldcpy;
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cldcpy->apply(ego->cldcpy, I, O);
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}
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{
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plan_rdft *cld = (plan_rdft *) ego->cld;
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cld->apply(ego->cld, O, O);
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}
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}
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static problem *mkcld_before(const problem_rdft *p)
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{
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return X(mkproblem_rdft_d)(X(tensor_copy_inplace)(p->sz, INPLACE_OS),
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X(tensor_copy_inplace)(p->vecsz, INPLACE_OS),
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p->O, p->O, p->kind);
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}
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static const ndrct_adt adt_before =
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{
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apply_before, mkcld_before, "rdft-indirect-before"
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};
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/*-----------------------------------------------------------------------*/
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/* first transform, then rearrange */
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static void apply_after(const plan *ego_, R *I, R *O)
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{
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const P *ego = (const P *) ego_;
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{
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plan_rdft *cld = (plan_rdft *) ego->cld;
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cld->apply(ego->cld, I, I);
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}
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{
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plan_rdft *cldcpy = (plan_rdft *) ego->cldcpy;
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cldcpy->apply(ego->cldcpy, I, O);
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}
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}
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static problem *mkcld_after(const problem_rdft *p)
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{
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return X(mkproblem_rdft_d)(X(tensor_copy_inplace)(p->sz, INPLACE_IS),
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X(tensor_copy_inplace)(p->vecsz, INPLACE_IS),
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p->I, p->I, p->kind);
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}
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static const ndrct_adt adt_after =
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{
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apply_after, mkcld_after, "rdft-indirect-after"
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};
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/*-----------------------------------------------------------------------*/
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static void destroy(plan *ego_)
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{
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P *ego = (P *) ego_;
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X(plan_destroy_internal)(ego->cld);
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X(plan_destroy_internal)(ego->cldcpy);
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}
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static void awake(plan *ego_, enum wakefulness wakefulness)
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{
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P *ego = (P *) ego_;
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X(plan_awake)(ego->cldcpy, wakefulness);
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X(plan_awake)(ego->cld, wakefulness);
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}
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static void print(const plan *ego_, printer *p)
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{
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const P *ego = (const P *) ego_;
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const S *s = ego->slv;
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p->print(p, "(%s%(%p%)%(%p%))", s->adt->nam, ego->cld, ego->cldcpy);
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}
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static int applicable0(const solver *ego_, const problem *p_,
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const planner *plnr)
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{
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const S *ego = (const S *) ego_;
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const problem_rdft *p = (const problem_rdft *) p_;
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return (1
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&& FINITE_RNK(p->vecsz->rnk)
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/* problem must be a nontrivial transform, not just a copy */
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&& p->sz->rnk > 0
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&& (0
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/* problem must be in-place & require some
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rearrangement of the data */
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|| (p->I == p->O
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&& !(X(tensor_inplace_strides2)(p->sz, p->vecsz)))
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/* or problem must be out of place, transforming
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from stride 1/2 to bigger stride, for apply_after */
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|| (p->I != p->O && ego->adt->apply == apply_after
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&& !NO_DESTROY_INPUTP(plnr)
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&& X(tensor_min_istride)(p->sz) <= 2
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&& X(tensor_min_ostride)(p->sz) > 2)
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/* or problem must be out of place, transforming
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to stride 1/2 from bigger stride, for apply_before */
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|| (p->I != p->O && ego->adt->apply == apply_before
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&& X(tensor_min_ostride)(p->sz) <= 2
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&& X(tensor_min_istride)(p->sz) > 2)
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)
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);
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}
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static int applicable(const solver *ego_, const problem *p_,
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const planner *plnr)
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{
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if (!applicable0(ego_, p_, plnr)) return 0;
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if (NO_INDIRECT_OP_P(plnr)) {
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const problem_rdft *p = (const problem_rdft *)p_;
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if (p->I != p->O) return 0;
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}
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return 1;
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}
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static plan *mkplan(const solver *ego_, const problem *p_, planner *plnr)
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{
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const problem_rdft *p = (const problem_rdft *) p_;
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const S *ego = (const S *) ego_;
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P *pln;
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plan *cld = 0, *cldcpy = 0;
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static const plan_adt padt = {
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X(rdft_solve), awake, print, destroy
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};
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if (!applicable(ego_, p_, plnr))
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return (plan *) 0;
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cldcpy = X(mkplan_d)(plnr,
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X(mkproblem_rdft_0_d)(
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X(tensor_append)(p->vecsz, p->sz),
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p->I, p->O));
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if (!cldcpy) goto nada;
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cld = X(mkplan_f_d)(plnr, ego->adt->mkcld(p), NO_BUFFERING, 0, 0);
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if (!cld) goto nada;
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pln = MKPLAN_RDFT(P, &padt, ego->adt->apply);
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pln->cld = cld;
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pln->cldcpy = cldcpy;
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pln->slv = ego;
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X(ops_add)(&cld->ops, &cldcpy->ops, &pln->super.super.ops);
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return &(pln->super.super);
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nada:
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X(plan_destroy_internal)(cld);
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X(plan_destroy_internal)(cldcpy);
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return (plan *)0;
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}
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static solver *mksolver(const ndrct_adt *adt)
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{
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static const solver_adt sadt = { PROBLEM_RDFT, mkplan, 0 };
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S *slv = MKSOLVER(S, &sadt);
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slv->adt = adt;
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return &(slv->super);
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}
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void X(rdft_indirect_register)(planner *p)
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{
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unsigned i;
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static const ndrct_adt *const adts[] = {
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&adt_before, &adt_after
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};
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for (i = 0; i < sizeof(adts) / sizeof(adts[0]); ++i)
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REGISTER_SOLVER(p, mksolver(adts[i]));
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}
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