mirror of
https://github.com/tildearrow/furnace.git
synced 2024-11-06 12:55:05 +00:00
54e93db207
not reliable yet
259 lines
6.8 KiB
C
259 lines
6.8 KiB
C
/* fftw hook to be used in the benchmark program.
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We keep it in a separate file because
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1) bench.c is supposed to test the API---we do not want to #include
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"ifftw.h" and accidentally use internal symbols/macros.
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2) this code is a royal mess. The messiness is due to
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A) confusion between internal fftw tensors and bench_tensor's
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(which we want to keep separate because the benchmark
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program tests other routines too)
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B) despite A), our desire to recycle the libbench verifier.
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*/
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#include <stdio.h>
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#include "libbench2/bench-user.h"
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#define CALLING_FFTW /* hack for Windows DLL nonsense */
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#include "api/api.h"
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#include "dft/dft.h"
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#include "rdft/rdft.h"
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extern int paranoid; /* in bench.c */
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extern X(plan) the_plan; /* in bench.c */
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/*
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transform an fftw tensor into a bench_tensor.
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*/
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static bench_tensor *fftw_tensor_to_bench_tensor(tensor *t)
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{
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bench_tensor *bt = mktensor(t->rnk);
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if (FINITE_RNK(t->rnk)) {
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int i;
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for (i = 0; i < t->rnk; ++i) {
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/* FIXME: 64-bit unclean because of INT -> int conversion */
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bt->dims[i].n = t->dims[i].n;
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bt->dims[i].is = t->dims[i].is;
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bt->dims[i].os = t->dims[i].os;
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BENCH_ASSERT(bt->dims[i].n == t->dims[i].n);
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BENCH_ASSERT(bt->dims[i].is == t->dims[i].is);
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BENCH_ASSERT(bt->dims[i].os == t->dims[i].os);
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}
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}
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return bt;
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}
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/*
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transform an fftw problem into a bench_problem.
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*/
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static bench_problem *fftw_problem_to_bench_problem(planner *plnr,
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const problem *p_)
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{
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bench_problem *bp = 0;
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switch (p_->adt->problem_kind) {
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case PROBLEM_DFT:
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{
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const problem_dft *p = (const problem_dft *) p_;
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if (!p->ri || !p->ii)
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abort();
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bp = (bench_problem *) bench_malloc(sizeof(bench_problem));
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bp->kind = PROBLEM_COMPLEX;
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bp->sign = FFT_SIGN;
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bp->split = 1; /* tensor strides are in R's, not C's */
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bp->in = UNTAINT(p->ri);
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bp->out = UNTAINT(p->ro);
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bp->ini = UNTAINT(p->ii);
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bp->outi = UNTAINT(p->io);
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bp->inphys = bp->outphys = 0;
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bp->iphyssz = bp->ophyssz = 0;
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bp->in_place = p->ri == p->ro;
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bp->sz = fftw_tensor_to_bench_tensor(p->sz);
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bp->vecsz = fftw_tensor_to_bench_tensor(p->vecsz);
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bp->k = 0;
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break;
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}
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case PROBLEM_RDFT:
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{
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const problem_rdft *p = (const problem_rdft *) p_;
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int i;
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if (!p->I || !p->O)
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abort();
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for (i = 0; i < p->sz->rnk; ++i)
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switch (p->kind[i]) {
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case R2HC01:
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case R2HC10:
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case R2HC11:
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case HC2R01:
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case HC2R10:
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case HC2R11:
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return bp;
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default:
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;
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}
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bp = (bench_problem *) bench_malloc(sizeof(bench_problem));
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bp->kind = PROBLEM_R2R;
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bp->sign = FFT_SIGN;
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bp->split = 0;
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bp->in = UNTAINT(p->I);
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bp->out = UNTAINT(p->O);
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bp->ini = bp->outi = 0;
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bp->inphys = bp->outphys = 0;
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bp->iphyssz = bp->ophyssz = 0;
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bp->in_place = p->I == p->O;
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bp->sz = fftw_tensor_to_bench_tensor(p->sz);
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bp->vecsz = fftw_tensor_to_bench_tensor(p->vecsz);
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bp->k = (r2r_kind_t *) bench_malloc(sizeof(r2r_kind_t) * p->sz->rnk);
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for (i = 0; i < p->sz->rnk; ++i)
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switch (p->kind[i]) {
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case R2HC: bp->k[i] = R2R_R2HC; break;
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case HC2R: bp->k[i] = R2R_HC2R; break;
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case DHT: bp->k[i] = R2R_DHT; break;
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case REDFT00: bp->k[i] = R2R_REDFT00; break;
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case REDFT01: bp->k[i] = R2R_REDFT01; break;
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case REDFT10: bp->k[i] = R2R_REDFT10; break;
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case REDFT11: bp->k[i] = R2R_REDFT11; break;
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case RODFT00: bp->k[i] = R2R_RODFT00; break;
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case RODFT01: bp->k[i] = R2R_RODFT01; break;
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case RODFT10: bp->k[i] = R2R_RODFT10; break;
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case RODFT11: bp->k[i] = R2R_RODFT11; break;
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default: CK(0);
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}
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break;
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}
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case PROBLEM_RDFT2:
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{
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const problem_rdft2 *p = (const problem_rdft2 *) p_;
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int rnk = p->sz->rnk;
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if (!p->r0 || !p->r1 || !p->cr || !p->ci)
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abort();
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/* give up verifying rdft2 R2HCII */
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if (p->kind != R2HC && p->kind != HC2R)
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return bp;
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if (rnk > 0) {
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/* can't verify separate even/odd arrays for now */
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if (2 * (p->r1 - p->r0) !=
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((p->kind == R2HC) ?
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p->sz->dims[rnk-1].is : p->sz->dims[rnk-1].os))
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return bp;
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}
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bp = (bench_problem *) bench_malloc(sizeof(bench_problem));
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bp->kind = PROBLEM_REAL;
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bp->sign = p->kind == R2HC ? FFT_SIGN : -FFT_SIGN;
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bp->split = 1; /* tensor strides are in R's, not C's */
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if (p->kind == R2HC) {
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bp->sign = FFT_SIGN;
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bp->in = UNTAINT(p->r0);
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bp->out = UNTAINT(p->cr);
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bp->ini = 0;
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bp->outi = UNTAINT(p->ci);
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}
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else {
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bp->sign = -FFT_SIGN;
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bp->out = UNTAINT(p->r0);
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bp->in = UNTAINT(p->cr);
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bp->outi = 0;
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bp->ini = UNTAINT(p->ci);
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}
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bp->inphys = bp->outphys = 0;
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bp->iphyssz = bp->ophyssz = 0;
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bp->in_place = p->r0 == p->cr;
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bp->sz = fftw_tensor_to_bench_tensor(p->sz);
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if (rnk > 0) {
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if (p->kind == R2HC)
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bp->sz->dims[rnk-1].is /= 2;
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else
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bp->sz->dims[rnk-1].os /= 2;
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}
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bp->vecsz = fftw_tensor_to_bench_tensor(p->vecsz);
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bp->k = 0;
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break;
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}
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default:
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abort();
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}
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bp->userinfo = 0;
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bp->pstring = 0;
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bp->destroy_input = !NO_DESTROY_INPUTP(plnr);
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return bp;
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}
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static void hook(planner *plnr, plan *pln, const problem *p_, int optimalp)
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{
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int rounds = 5;
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double tol = SINGLE_PRECISION ? 1.0e-3 : 1.0e-10;
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UNUSED(optimalp);
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if (verbose > 5) {
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printer *pr = X(mkprinter_file)(stdout);
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pr->print(pr, "%P:%(%p%)\n", p_, pln);
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X(printer_destroy)(pr);
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printf("cost %g \n\n", pln->pcost);
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}
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if (paranoid) {
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bench_problem *bp;
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bp = fftw_problem_to_bench_problem(plnr, p_);
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if (bp) {
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X(plan) the_plan_save = the_plan;
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the_plan = (apiplan *) MALLOC(sizeof(apiplan), PLANS);
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the_plan->pln = pln;
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the_plan->prb = (problem *) p_;
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X(plan_awake)(pln, AWAKE_SQRTN_TABLE);
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verify_problem(bp, rounds, tol);
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X(plan_awake)(pln, SLEEPY);
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X(ifree)(the_plan);
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the_plan = the_plan_save;
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problem_destroy(bp);
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}
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}
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}
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static void paranoid_checks(void)
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{
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/* FIXME: assumes char = 8 bits, which is false on at least one
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DSP I know of. */
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#if 0
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/* if flags_t is not 64 bits i want to know it. */
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CK(sizeof(flags_t) == 8);
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CK(sizeof(md5uint) >= 4);
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#endif
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CK(sizeof(uintptr_t) >= sizeof(R *));
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CK(sizeof(INT) >= sizeof(R *));
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}
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void install_hook(void)
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{
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planner *plnr = X(the_planner)();
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plnr->hook = hook;
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paranoid_checks();
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}
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void uninstall_hook(void)
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{
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planner *plnr = X(the_planner)();
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plnr->hook = 0;
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}
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