iup-stack/fftw/api/mapflags.c

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2023-02-20 16:44:45 +00:00
/*
* Copyright (c) 2003, 2007-14 Matteo Frigo
* Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#include "api/api.h"
#include <math.h>
/* a flag operation: x is either a flag, in which case xm == 0, or
a mask, in which case xm == x; using this we can compactly code
the various bit operations via (flags & x) ^ xm or (flags | x) ^ xm. */
typedef struct {
unsigned x, xm;
} flagmask;
typedef struct {
flagmask flag;
flagmask op;
} flagop;
#define FLAGP(f, msk)(((f) & (msk).x) ^ (msk).xm)
#define OP(f, msk)(((f) | (msk).x) ^ (msk).xm)
#define YES(x) {x, 0}
#define NO(x) {x, x}
#define IMPLIES(predicate, consequence) { predicate, consequence }
#define EQV(a, b) IMPLIES(YES(a), YES(b)), IMPLIES(NO(a), NO(b))
#define NEQV(a, b) IMPLIES(YES(a), NO(b)), IMPLIES(NO(a), YES(b))
static void map_flags(unsigned *iflags, unsigned *oflags,
const flagop flagmap[], size_t nmap)
{
size_t i;
for (i = 0; i < nmap; ++i)
if (FLAGP(*iflags, flagmap[i].flag))
*oflags = OP(*oflags, flagmap[i].op);
}
/* encoding of the planner timelimit into a BITS_FOR_TIMELIMIT-bits
nonnegative integer, such that we can still view the integer as
``impatience'': higher means *lower* time limit, and 0 is the
highest possible value (about 1 year of calendar time) */
static unsigned timelimit_to_flags(double timelimit)
{
const double tmax = 365 * 24 * 3600;
const double tstep = 1.05;
const int nsteps = (1 << BITS_FOR_TIMELIMIT);
int x;
if (timelimit < 0 || timelimit >= tmax)
return 0;
if (timelimit <= 1.0e-10)
return nsteps - 1;
x = (int) (0.5 + (log(tmax / timelimit) / log(tstep)));
if (x < 0) x = 0;
if (x >= nsteps) x = nsteps - 1;
return x;
}
void X(mapflags)(planner *plnr, unsigned flags)
{
unsigned l, u, t;
/* map of api flags -> api flags, to implement consistency rules
and combination flags */
const flagop self_flagmap[] = {
/* in some cases (notably for halfcomplex->real transforms),
DESTROY_INPUT is the default, so we need to support
an inverse flag to disable it.
(PRESERVE, DESTROY) -> (PRESERVE, DESTROY)
(0, 0) (1, 0)
(0, 1) (0, 1)
(1, 0) (1, 0)
(1, 1) (1, 0)
*/
IMPLIES(YES(FFTW_PRESERVE_INPUT), NO(FFTW_DESTROY_INPUT)),
IMPLIES(NO(FFTW_DESTROY_INPUT), YES(FFTW_PRESERVE_INPUT)),
IMPLIES(YES(FFTW_EXHAUSTIVE), YES(FFTW_PATIENT)),
IMPLIES(YES(FFTW_ESTIMATE), NO(FFTW_PATIENT)),
IMPLIES(YES(FFTW_ESTIMATE),
YES(FFTW_ESTIMATE_PATIENT
| FFTW_NO_INDIRECT_OP
| FFTW_ALLOW_PRUNING)),
IMPLIES(NO(FFTW_EXHAUSTIVE),
YES(FFTW_NO_SLOW)),
/* a canonical set of fftw2-like impatience flags */
IMPLIES(NO(FFTW_PATIENT),
YES(FFTW_NO_VRECURSE
| FFTW_NO_RANK_SPLITS
| FFTW_NO_VRANK_SPLITS
| FFTW_NO_NONTHREADED
| FFTW_NO_DFT_R2HC
| FFTW_NO_FIXED_RADIX_LARGE_N
| FFTW_BELIEVE_PCOST))
};
/* map of (processed) api flags to internal problem/planner flags */
const flagop l_flagmap[] = {
EQV(FFTW_PRESERVE_INPUT, NO_DESTROY_INPUT),
EQV(FFTW_NO_SIMD, NO_SIMD),
EQV(FFTW_CONSERVE_MEMORY, CONSERVE_MEMORY),
EQV(FFTW_NO_BUFFERING, NO_BUFFERING),
NEQV(FFTW_ALLOW_LARGE_GENERIC, NO_LARGE_GENERIC)
};
const flagop u_flagmap[] = {
IMPLIES(YES(FFTW_EXHAUSTIVE), NO(0xFFFFFFFF)),
IMPLIES(NO(FFTW_EXHAUSTIVE), YES(NO_UGLY)),
/* the following are undocumented, "beyond-guru" flags that
require some understanding of FFTW internals */
EQV(FFTW_ESTIMATE_PATIENT, ESTIMATE),
EQV(FFTW_ALLOW_PRUNING, ALLOW_PRUNING),
EQV(FFTW_BELIEVE_PCOST, BELIEVE_PCOST),
EQV(FFTW_NO_DFT_R2HC, NO_DFT_R2HC),
EQV(FFTW_NO_NONTHREADED, NO_NONTHREADED),
EQV(FFTW_NO_INDIRECT_OP, NO_INDIRECT_OP),
EQV(FFTW_NO_RANK_SPLITS, NO_RANK_SPLITS),
EQV(FFTW_NO_VRANK_SPLITS, NO_VRANK_SPLITS),
EQV(FFTW_NO_VRECURSE, NO_VRECURSE),
EQV(FFTW_NO_SLOW, NO_SLOW),
EQV(FFTW_NO_FIXED_RADIX_LARGE_N, NO_FIXED_RADIX_LARGE_N)
};
map_flags(&flags, &flags, self_flagmap, NELEM(self_flagmap));
l = u = 0;
map_flags(&flags, &l, l_flagmap, NELEM(l_flagmap));
map_flags(&flags, &u, u_flagmap, NELEM(u_flagmap));
/* enforce l <= u */
PLNR_L(plnr) = l;
PLNR_U(plnr) = u | l;
/* assert that the conversion didn't lose bits */
A(PLNR_L(plnr) == l);
A(PLNR_U(plnr) == (u | l));
/* compute flags representation of the timelimit */
t = timelimit_to_flags(plnr->timelimit);
PLNR_TIMELIMIT_IMPATIENCE(plnr) = t;
A(PLNR_TIMELIMIT_IMPATIENCE(plnr) == t);
}