mirror of
https://github.com/tildearrow/furnace.git
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266 lines
8.1 KiB
C
266 lines
8.1 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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/* plans for distributed out-of-place transpose using MPI_Alltoall,
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and which destroy the input array (unless TRANSPOSED_IN is used) */
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#include "mpi-transpose.h"
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#include <string.h>
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typedef struct {
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solver super;
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int copy_transposed_in; /* whether to copy the input for TRANSPOSED_IN,
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which makes the final transpose out-of-place
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but costs an extra copy and requires us
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to destroy the input */
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} S;
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typedef struct {
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plan_mpi_transpose super;
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plan *cld1, *cld2, *cld2rest, *cld3;
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MPI_Comm comm;
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int *send_block_sizes, *send_block_offsets;
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int *recv_block_sizes, *recv_block_offsets;
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INT rest_Ioff, rest_Ooff;
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int equal_blocks;
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} P;
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static void apply(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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plan_rdft *cld1, *cld2, *cld2rest, *cld3;
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/* transpose locally to get contiguous chunks */
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cld1 = (plan_rdft *) ego->cld1;
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if (cld1) {
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cld1->apply(ego->cld1, I, O);
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/* transpose chunks globally */
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if (ego->equal_blocks)
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MPI_Alltoall(O, ego->send_block_sizes[0], FFTW_MPI_TYPE,
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I, ego->recv_block_sizes[0], FFTW_MPI_TYPE,
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ego->comm);
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else
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MPI_Alltoallv(O, ego->send_block_sizes, ego->send_block_offsets,
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FFTW_MPI_TYPE,
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I, ego->recv_block_sizes, ego->recv_block_offsets,
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FFTW_MPI_TYPE,
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ego->comm);
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}
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else { /* TRANSPOSED_IN, no need to destroy input */
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/* transpose chunks globally */
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if (ego->equal_blocks)
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MPI_Alltoall(I, ego->send_block_sizes[0], FFTW_MPI_TYPE,
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O, ego->recv_block_sizes[0], FFTW_MPI_TYPE,
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ego->comm);
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else
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MPI_Alltoallv(I, ego->send_block_sizes, ego->send_block_offsets,
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FFTW_MPI_TYPE,
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O, ego->recv_block_sizes, ego->recv_block_offsets,
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FFTW_MPI_TYPE,
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ego->comm);
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I = O; /* final transpose (if any) is in-place */
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}
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/* transpose locally, again, to get ordinary row-major */
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cld2 = (plan_rdft *) ego->cld2;
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if (cld2) {
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cld2->apply(ego->cld2, I, O);
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cld2rest = (plan_rdft *) ego->cld2rest;
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if (cld2rest) { /* leftover from unequal block sizes */
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cld2rest->apply(ego->cld2rest,
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I + ego->rest_Ioff, O + ego->rest_Ooff);
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cld3 = (plan_rdft *) ego->cld3;
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if (cld3)
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cld3->apply(ego->cld3, O, O);
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/* else TRANSPOSED_OUT is true and user wants O transposed */
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}
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}
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}
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static int applicable(const S *ego, const problem *p_,
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const planner *plnr)
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{
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const problem_mpi_transpose *p = (const problem_mpi_transpose *) p_;
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return (1
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&& p->I != p->O
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&& (!NO_DESTROY_INPUTP(plnr) ||
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((p->flags & TRANSPOSED_IN) && !ego->copy_transposed_in))
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&& ((p->flags & TRANSPOSED_IN) || !ego->copy_transposed_in)
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&& ONLY_TRANSPOSEDP(p->flags)
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);
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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->cld1, wakefulness);
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X(plan_awake)(ego->cld2, wakefulness);
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X(plan_awake)(ego->cld2rest, wakefulness);
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X(plan_awake)(ego->cld3, wakefulness);
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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(ifree0)(ego->send_block_sizes);
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MPI_Comm_free(&ego->comm);
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X(plan_destroy_internal)(ego->cld3);
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X(plan_destroy_internal)(ego->cld2rest);
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X(plan_destroy_internal)(ego->cld2);
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X(plan_destroy_internal)(ego->cld1);
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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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p->print(p, "(mpi-transpose-alltoall%s%(%p%)%(%p%)%(%p%)%(%p%))",
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ego->equal_blocks ? "/e" : "",
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ego->cld1, ego->cld2, ego->cld2rest, ego->cld3);
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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 S *ego = (const S *) ego_;
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const problem_mpi_transpose *p;
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P *pln;
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plan *cld1 = 0, *cld2 = 0, *cld2rest = 0, *cld3 = 0;
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INT b, bt, vn, rest_Ioff, rest_Ooff;
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R *I;
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int *sbs, *sbo, *rbs, *rbo;
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int pe, my_pe, n_pes;
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int equal_blocks = 1;
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static const plan_adt padt = {
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XM(transpose_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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p = (const problem_mpi_transpose *) p_;
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vn = p->vn;
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MPI_Comm_rank(p->comm, &my_pe);
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MPI_Comm_size(p->comm, &n_pes);
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b = XM(block)(p->nx, p->block, my_pe);
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if (p->flags & TRANSPOSED_IN) { /* I is already transposed */
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if (ego->copy_transposed_in) {
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cld1 = X(mkplan_f_d)(plnr,
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X(mkproblem_rdft_0_d)(X(mktensor_1d)
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(b * p->ny * vn, 1, 1),
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I = p->I, p->O),
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0, 0, NO_SLOW);
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if (XM(any_true)(!cld1, p->comm)) goto nada;
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}
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else
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I = p->O; /* final transpose is in-place */
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}
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else { /* transpose b x ny x vn -> ny x b x vn */
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cld1 = X(mkplan_f_d)(plnr,
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X(mkproblem_rdft_0_d)(X(mktensor_3d)
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(b, p->ny * vn, vn,
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p->ny, vn, b * vn,
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vn, 1, 1),
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I = p->I, p->O),
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0, 0, NO_SLOW);
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if (XM(any_true)(!cld1, p->comm)) goto nada;
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}
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if (XM(any_true)(!XM(mkplans_posttranspose)(p, plnr, I, p->O, my_pe,
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&cld2, &cld2rest, &cld3,
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&rest_Ioff, &rest_Ooff),
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p->comm)) goto nada;
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pln = MKPLAN_MPI_TRANSPOSE(P, &padt, apply);
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pln->cld1 = cld1;
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pln->cld2 = cld2;
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pln->cld2rest = cld2rest;
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pln->rest_Ioff = rest_Ioff;
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pln->rest_Ooff = rest_Ooff;
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pln->cld3 = cld3;
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MPI_Comm_dup(p->comm, &pln->comm);
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/* Compute sizes/offsets of blocks to send for all-to-all command. */
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sbs = (int *) MALLOC(4 * n_pes * sizeof(int), PLANS);
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sbo = sbs + n_pes;
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rbs = sbo + n_pes;
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rbo = rbs + n_pes;
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b = XM(block)(p->nx, p->block, my_pe);
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bt = XM(block)(p->ny, p->tblock, my_pe);
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for (pe = 0; pe < n_pes; ++pe) {
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INT db, dbt; /* destination block sizes */
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db = XM(block)(p->nx, p->block, pe);
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dbt = XM(block)(p->ny, p->tblock, pe);
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if (db != p->block || dbt != p->tblock)
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equal_blocks = 0;
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/* MPI requires type "int" here; apparently it
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has no 64-bit API? Grrr. */
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sbs[pe] = (int) (b * dbt * vn);
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sbo[pe] = (int) (pe * (b * p->tblock) * vn);
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rbs[pe] = (int) (db * bt * vn);
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rbo[pe] = (int) (pe * (p->block * bt) * vn);
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}
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pln->send_block_sizes = sbs;
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pln->send_block_offsets = sbo;
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pln->recv_block_sizes = rbs;
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pln->recv_block_offsets = rbo;
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pln->equal_blocks = equal_blocks;
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X(ops_zero)(&pln->super.super.ops);
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if (cld1) X(ops_add2)(&cld1->ops, &pln->super.super.ops);
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if (cld2) X(ops_add2)(&cld2->ops, &pln->super.super.ops);
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if (cld2rest) X(ops_add2)(&cld2rest->ops, &pln->super.super.ops);
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if (cld3) X(ops_add2)(&cld3->ops, &pln->super.super.ops);
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/* FIXME: should MPI operations be counted in "other" somehow? */
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return &(pln->super.super);
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nada:
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X(plan_destroy_internal)(cld3);
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X(plan_destroy_internal)(cld2rest);
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X(plan_destroy_internal)(cld2);
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X(plan_destroy_internal)(cld1);
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return (plan *) 0;
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}
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static solver *mksolver(int copy_transposed_in)
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{
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static const solver_adt sadt = { PROBLEM_MPI_TRANSPOSE, mkplan, 0 };
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S *slv = MKSOLVER(S, &sadt);
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slv->copy_transposed_in = copy_transposed_in;
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return &(slv->super);
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}
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void XM(transpose_alltoall_register)(planner *p)
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{
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int cti;
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for (cti = 0; cti <= 1; ++cti)
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REGISTER_SOLVER(p, mksolver(cti));
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}
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