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mpir/tune/speed.h

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/* Header for speed and threshold things.
Copyright 1999, 2000, 2001, 2002, 2003, 2005, 2006 Free Software Foundation,
Inc.
This file is part of the GNU MP Library.
The GNU MP Library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or (at your
option) any later version.
The GNU MP Library 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 Lesser General Public
License for more details.
You should have received a copy of the GNU Lesser General Public License
along with the GNU MP Library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA. */
#ifndef __SPEED_H__
#define __SPEED_H__
/* Pad ptr,oldsize with zero limbs (at the most significant end) to make it
newsize long. */
#define MPN_ZERO_EXTEND(ptr, oldsize, newsize) \
do { \
ASSERT ((newsize) >= (oldsize)); \
MPN_ZERO ((ptr)+(oldsize), (newsize)-(oldsize)); \
} while (0)
/* A mask of the least significant n bits. Note 1<<32 doesn't give zero on
x86 family CPUs, hence the separate case for BITS_PER_MP_LIMB. */
#define MP_LIMB_T_LOWBITMASK(n) \
((n) == BITS_PER_MP_LIMB ? MP_LIMB_T_MAX : ((mp_limb_t) 1 << (n)) - 1)
/* align must be a power of 2 here, usually CACHE_LINE_SIZE is a good choice */
#define TMP_ALLOC_ALIGNED(bytes, align) \
align_pointer (TMP_ALLOC ((bytes) + (align)-1), (align))
#define TMP_ALLOC_LIMBS_ALIGNED(limbs, align) \
((mp_ptr) TMP_ALLOC_ALIGNED ((limbs)*sizeof(mp_limb_t), align))
/* CACHE_LINE_SIZE is our default alignment for speed operands, and the
limit on what s->align_xp etc and then request for off-alignment. Maybe
this should be an option of some sort, but in any case here are some line
sizes,
bytes
32 pentium
64 athlon
64 itanium-2 L1
128 itanium-2 L2
*/
#define CACHE_LINE_SIZE 64 /* bytes */
#define SPEED_TMP_ALLOC_ADJUST_MASK (CACHE_LINE_SIZE/BYTES_PER_MP_LIMB - 1)
/* Set ptr to a TMP_ALLOC block of the given limbs, with the given limb
alignment. */
#define SPEED_TMP_ALLOC_LIMBS(ptr, limbs, align) \
do { \
mp_ptr __ptr; \
mp_size_t __ptr_align, __ptr_add; \
\
ASSERT ((CACHE_LINE_SIZE % BYTES_PER_MP_LIMB) == 0); \
__ptr = TMP_ALLOC_LIMBS ((limbs) + SPEED_TMP_ALLOC_ADJUST_MASK); \
__ptr_align = (__ptr - (mp_ptr) NULL); \
__ptr_add = ((align) - __ptr_align) & SPEED_TMP_ALLOC_ADJUST_MASK; \
(ptr) = __ptr + __ptr_add; \
} while (0)
/* This is the size for s->xp_block and s->yp_block, used in certain
routines that want to run across many different data values and use
s->size for a different purpose, eg. SPEED_ROUTINE_MPN_GCD_1.
512 means 2kbytes of data for each of xp_block and yp_block, making 4k
total, which should fit easily in any L1 data cache. */
#define SPEED_BLOCK_SIZE 512 /* limbs */
extern double speed_unittime;
extern double speed_cycletime;
extern int speed_precision;
extern char speed_time_string[];
void speed_time_init _PROTO ((void));
void speed_cycletime_fail _PROTO ((const char *str));
void speed_cycletime_init _PROTO ((void));
void speed_cycletime_need_cycles _PROTO ((void));
void speed_cycletime_need_seconds _PROTO ((void));
void speed_starttime _PROTO ((void));
double speed_endtime _PROTO ((void));
struct speed_params {
unsigned reps; /* how many times to run the routine */
mp_ptr xp; /* first argument */
mp_ptr yp; /* second argument */
mp_size_t size; /* size of both arguments */
mp_limb_t r; /* user supplied parameter */
mp_size_t align_xp; /* alignment of xp */
mp_size_t align_yp; /* alignment of yp */
mp_size_t align_wp; /* intended alignment of wp */
mp_size_t align_wp2; /* intended alignment of wp2 */
mp_ptr xp_block; /* first special SPEED_BLOCK_SIZE block */
mp_ptr yp_block; /* second special SPEED_BLOCK_SIZE block */
double time_divisor; /* optionally set by the speed routine */
/* used by the cache priming things */
int cache;
unsigned src_num, dst_num;
struct {
mp_ptr ptr;
mp_size_t size;
} src[2], dst[3];
};
typedef double (*speed_function_t) _PROTO ((struct speed_params *s));
double speed_measure _PROTO ((speed_function_t fun, struct speed_params *s));
/* Prototypes for speed measuring routines */
double speed_back_to_back _PROTO ((struct speed_params *s));
double speed_count_leading_zeros _PROTO ((struct speed_params *s));
double speed_count_trailing_zeros _PROTO ((struct speed_params *s));
double speed_find_a _PROTO ((struct speed_params *s));
double speed_gmp_allocate_free _PROTO ((struct speed_params *s));
double speed_gmp_allocate_reallocate_free _PROTO ((struct speed_params *s));
double speed_invert_limb _PROTO ((struct speed_params *s));
double speed_malloc_free _PROTO ((struct speed_params *s));
double speed_malloc_realloc_free _PROTO ((struct speed_params *s));
double speed_memcpy _PROTO ((struct speed_params *s));
double speed_modlimb_invert _PROTO ((struct speed_params *s));
double speed_modlimb_invert_mul1 _PROTO ((struct speed_params *s));
double speed_modlimb_invert_loop _PROTO ((struct speed_params *s));
double speed_modlimb_invert_cond _PROTO ((struct speed_params *s));
double speed_modlimb_invert_arith _PROTO ((struct speed_params *s));
double speed_mpf_init_clear _PROTO ((struct speed_params *s));
double speed_mpn_add_n _PROTO ((struct speed_params *s));
double speed_mpn_addlsh1_n _PROTO ((struct speed_params *s));
double speed_mpn_addsub_n _PROTO ((struct speed_params *s));
double speed_mpn_and_n _PROTO ((struct speed_params *s));
double speed_mpn_andn_n _PROTO ((struct speed_params *s));
double speed_mpn_addmul_1 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_2 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_3 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_4 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_5 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_6 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_7 _PROTO ((struct speed_params *s));
double speed_mpn_addmul_8 _PROTO ((struct speed_params *s));
double speed_mpn_com_n _PROTO ((struct speed_params *s));
double speed_mpn_copyd _PROTO ((struct speed_params *s));
double speed_mpn_copyi _PROTO ((struct speed_params *s));
double speed_mpn_dc_divrem_n _PROTO ((struct speed_params *s));
double speed_mpn_dc_divrem_sb _PROTO ((struct speed_params *s));
double speed_mpn_dc_divrem_sb_div _PROTO ((struct speed_params *s));
double speed_mpn_dc_divrem_sb_inv _PROTO ((struct speed_params *s));
double speed_mpn_dc_tdiv_qr _PROTO ((struct speed_params *s));
double speed_MPN_COPY _PROTO ((struct speed_params *s));
double speed_MPN_COPY_DECR _PROTO ((struct speed_params *s));
double speed_MPN_COPY_INCR _PROTO ((struct speed_params *s));
double speed_mpn_divexact_1 _PROTO ((struct speed_params *s));
double speed_mpn_divexact_by3 _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1 _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1f _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1c _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1cf _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1_div _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1f_div _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1_inv _PROTO ((struct speed_params *s));
double speed_mpn_divrem_1f_inv _PROTO ((struct speed_params *s));
double speed_mpn_divrem_2 _PROTO ((struct speed_params *s));
double speed_mpn_divrem_2_div _PROTO ((struct speed_params *s));
double speed_mpn_divrem_2_inv _PROTO ((struct speed_params *s));
double speed_mpn_fib2_ui _PROTO ((struct speed_params *s));
double speed_mpn_hgcd _PROTO ((struct speed_params *s));
double speed_mpn_hgcd_lehmer _PROTO ((struct speed_params *s));
double speed_mpn_gcd _PROTO ((struct speed_params *s));
double speed_mpn_gcd_1 _PROTO ((struct speed_params *s));
double speed_mpn_gcd_1N _PROTO ((struct speed_params *s));
double speed_mpn_gcd_binary _PROTO ((struct speed_params *s));
double speed_mpn_gcd_accel _PROTO ((struct speed_params *s));
double speed_mpn_gcd_finda _PROTO ((struct speed_params *s));
double speed_mpn_gcdext _PROTO ((struct speed_params *s));
double speed_mpn_gcdext_double _PROTO ((struct speed_params *s));
double speed_mpn_gcdext_one_double _PROTO ((struct speed_params *s));
double speed_mpn_gcdext_one_single _PROTO ((struct speed_params *s));
double speed_mpn_gcdext_single _PROTO ((struct speed_params *s));
double speed_mpn_get_str _PROTO ((struct speed_params *s));
double speed_mpn_hamdist _PROTO ((struct speed_params *s));
double speed_mpn_ior_n _PROTO ((struct speed_params *s));
double speed_mpn_iorn_n _PROTO ((struct speed_params *s));
double speed_mpn_jacobi_base _PROTO ((struct speed_params *s));
double speed_mpn_jacobi_base_1 _PROTO ((struct speed_params *s));
double speed_mpn_jacobi_base_2 _PROTO ((struct speed_params *s));
double speed_mpn_jacobi_base_3 _PROTO ((struct speed_params *s));
double speed_mpn_kara_mul_n _PROTO ((struct speed_params *s));
double speed_mpn_kara_sqr_n _PROTO ((struct speed_params *s));
double speed_mpn_lshift _PROTO ((struct speed_params *s));
double speed_mpn_mod_1 _PROTO ((struct speed_params *s));
double speed_mpn_mod_1c _PROTO ((struct speed_params *s));
double speed_mpn_mod_1_div _PROTO ((struct speed_params *s));
double speed_mpn_mod_1_inv _PROTO ((struct speed_params *s));
double speed_mpn_mod_34lsub1 _PROTO ((struct speed_params *s));
double speed_mpn_modexact_1_odd _PROTO ((struct speed_params *s));
double speed_mpn_modexact_1c_odd _PROTO ((struct speed_params *s));
double speed_mpn_mul_1 _PROTO ((struct speed_params *s));
double speed_mpn_mul_1_inplace _PROTO ((struct speed_params *s));
double speed_mpn_mul_2 _PROTO ((struct speed_params *s));
double speed_mpn_mul_basecase _PROTO ((struct speed_params *s));
double speed_mpn_mul_fft _PROTO ((struct speed_params *s));
double speed_mpn_mul_fft_sqr _PROTO ((struct speed_params *s));
double speed_mpn_mul_fft_full _PROTO ((struct speed_params *s));
double speed_mpn_mul_fft_full_sqr _PROTO ((struct speed_params *s));
double speed_mpn_mul_n _PROTO ((struct speed_params *s));
double speed_mpn_mul_n_sqr _PROTO ((struct speed_params *s));
double speed_mpn_mullow_n _PROTO ((struct speed_params *s));
double speed_mpn_mullow_basecase _PROTO ((struct speed_params *s));
double speed_mpn_nand_n _PROTO ((struct speed_params *s));
double speed_mpn_nior_n _PROTO ((struct speed_params *s));
double speed_mpn_popcount _PROTO ((struct speed_params *s));
double speed_mpn_preinv_divrem_1 _PROTO ((struct speed_params *s));
double speed_mpn_preinv_divrem_1f _PROTO ((struct speed_params *s));
double speed_mpn_preinv_mod_1 _PROTO ((struct speed_params *s));
double speed_redc _PROTO ((struct speed_params *s));
double speed_mpn_rsh1add_n _PROTO ((struct speed_params *s));
double speed_mpn_rsh1sub_n _PROTO ((struct speed_params *s));
double speed_mpn_rshift _PROTO ((struct speed_params *s));
double speed_mpn_sb_divrem_m3 _PROTO ((struct speed_params *s));
double speed_mpn_sb_divrem_m3_div _PROTO ((struct speed_params *s));
double speed_mpn_sb_divrem_m3_inv _PROTO ((struct speed_params *s));
double speed_mpn_set_str _PROTO ((struct speed_params *s));
double speed_mpn_set_str_basecase _PROTO ((struct speed_params *s));
double speed_mpn_set_str_subquad _PROTO ((struct speed_params *s));
double speed_mpn_sqr_basecase _PROTO ((struct speed_params *s));
double speed_mpn_sqr_diagonal _PROTO ((struct speed_params *s));
double speed_mpn_sqr_n _PROTO ((struct speed_params *s));
double speed_mpn_sqrtrem _PROTO ((struct speed_params *s));
double speed_mpn_rootrem _PROTO ((struct speed_params *s));
double speed_mpn_sub_n _PROTO ((struct speed_params *s));
double speed_mpn_sublsh1_n _PROTO ((struct speed_params *s));
double speed_mpn_submul_1 _PROTO ((struct speed_params *s));
double speed_mpn_toom3_mul_n _PROTO ((struct speed_params *s));
double speed_mpn_toom3_sqr_n _PROTO ((struct speed_params *s));
double speed_mpn_udiv_qrnnd _PROTO ((struct speed_params *s));
double speed_mpn_udiv_qrnnd_r _PROTO ((struct speed_params *s));
double speed_mpn_umul_ppmm _PROTO ((struct speed_params *s));
double speed_mpn_umul_ppmm_r _PROTO ((struct speed_params *s));
double speed_mpn_xnor_n _PROTO ((struct speed_params *s));
double speed_mpn_xor_n _PROTO ((struct speed_params *s));
double speed_MPN_ZERO _PROTO ((struct speed_params *s));
double speed_mpq_init_clear _PROTO ((struct speed_params *s));
double speed_mpz_add _PROTO ((struct speed_params *s));
double speed_mpz_bin_uiui _PROTO ((struct speed_params *s));
double speed_mpz_fac_ui _PROTO ((struct speed_params *s));
double speed_mpz_fib_ui _PROTO ((struct speed_params *s));
double speed_mpz_fib2_ui _PROTO ((struct speed_params *s));
double speed_mpz_init_clear _PROTO ((struct speed_params *s));
double speed_mpz_init_realloc_clear _PROTO ((struct speed_params *s));
double speed_mpz_jacobi _PROTO ((struct speed_params *s));
double speed_mpz_lucnum_ui _PROTO ((struct speed_params *s));
double speed_mpz_lucnum2_ui _PROTO ((struct speed_params *s));
double speed_mpz_mod _PROTO ((struct speed_params *s));
double speed_mpz_powm _PROTO ((struct speed_params *s));
double speed_mpz_powm_mod _PROTO ((struct speed_params *s));
double speed_mpz_powm_redc _PROTO ((struct speed_params *s));
double speed_mpz_powm_ui _PROTO ((struct speed_params *s));
double speed_mpz_urandomb _PROTO ((struct speed_params *s));
double speed_gmp_randseed _PROTO ((struct speed_params *s));
double speed_gmp_randseed_ui _PROTO ((struct speed_params *s));
double speed_noop _PROTO ((struct speed_params *s));
double speed_noop_wxs _PROTO ((struct speed_params *s));
double speed_noop_wxys _PROTO ((struct speed_params *s));
double speed_operator_div _PROTO ((struct speed_params *s));
double speed_operator_mod _PROTO ((struct speed_params *s));
double speed_udiv_qrnnd _PROTO ((struct speed_params *s));
double speed_udiv_qrnnd_preinv1 _PROTO ((struct speed_params *s));
double speed_udiv_qrnnd_preinv2 _PROTO ((struct speed_params *s));
double speed_udiv_qrnnd_c _PROTO ((struct speed_params *s));
double speed_umul_ppmm _PROTO ((struct speed_params *s));
/* Prototypes for other routines */
/* low 32-bits in p[0], high 32-bits in p[1] */
void speed_cyclecounter _PROTO ((unsigned p[2]));
void mftb_function _PROTO ((unsigned p[2]));
/* In i386 gcc -fPIC, ebx is a fixed register and can't be declared a dummy
output or a clobber for the cpuid, hence an explicit save and restore. A
clobber as such doesn't provoke an error unfortunately (gcc 3.0), so use
the dummy output style in non-PIC, so there's an error if somehow -fPIC
is used without a -DPIC to tell us about it. */
#if defined(__GNUC__) && ! defined (NO_ASM) \
&& (defined (__i386__) || defined (__i486__))
#ifdef PIC
#define speed_cyclecounter(p) \
do { \
int __speed_cyclecounter__save_ebx; \
int __speed_cyclecounter__dummy; \
__asm__ __volatile__ ("movl %%ebx, %1\n" \
"cpuid\n" \
"movl %1, %%ebx\n" \
"rdtsc" \
: "=a" ((p)[0]), \
"=&rm" (__speed_cyclecounter__save_ebx), \
"=c" (__speed_cyclecounter__dummy), \
"=d" ((p)[1])); \
} while (0)
#else
#define speed_cyclecounter(p) \
do { \
int __speed_cyclecounter__dummy1; \
int __speed_cyclecounter__dummy2; \
__asm__ __volatile__ ("cpuid\n" \
"rdtsc" \
: "=a" ((p)[0]), \
"=b" (__speed_cyclecounter__dummy1), \
"=c" (__speed_cyclecounter__dummy2), \
"=d" ((p)[1])); \
} while (0)
#endif
#endif
double speed_cyclecounter_diff _PROTO ((const unsigned end[2],
const unsigned start[2]));
int gettimeofday_microseconds_p _PROTO ((void));
int getrusage_microseconds_p _PROTO ((void));
int cycles_works_p _PROTO ((void));
long clk_tck _PROTO ((void));
double freq_measure _PROTO ((const char *, double (*)(void)));
int double_cmp_ptr _PROTO ((const double *p, const double *q));
void pentium_wbinvd _PROTO ((void));
typedef int (*qsort_function_t) _PROTO ((const void *, const void *));
void noop _PROTO ((void));
void noop_1 _PROTO ((mp_limb_t n));
void noop_wxs _PROTO ((mp_ptr wp, mp_srcptr xp, mp_size_t size));
void noop_wxys _PROTO ((mp_ptr wp, mp_srcptr xp, mp_srcptr yp,
mp_size_t size));
void mpn_cache_fill _PROTO ((mp_srcptr ptr, mp_size_t size));
void mpn_cache_fill_dummy _PROTO ((mp_limb_t n));
void speed_cache_fill _PROTO ((struct speed_params *s));
void speed_operand_src _PROTO ((struct speed_params *s,
mp_ptr ptr, mp_size_t size));
void speed_operand_dst _PROTO ((struct speed_params *s,
mp_ptr ptr, mp_size_t size));
extern int speed_option_addrs;
extern int speed_option_verbose;
void speed_option_set _PROTO((const char *s));
mp_limb_t mpn_divrem_1_div _PROTO ((mp_ptr qp, mp_size_t xsize,
mp_srcptr ap, mp_size_t size,
mp_limb_t d));
mp_limb_t mpn_divrem_1_inv _PROTO ((mp_ptr qp, mp_size_t xsize,
mp_srcptr ap, mp_size_t size,
mp_limb_t d));
mp_limb_t mpn_divrem_2_div _PROTO ((mp_ptr qp, mp_size_t qxn,
mp_ptr np, mp_size_t nsize,
mp_srcptr dp));
mp_limb_t mpn_divrem_2_inv _PROTO ((mp_ptr qp, mp_size_t qxn,
mp_ptr np, mp_size_t nsize,
mp_srcptr dp));
int mpn_jacobi_base_1 _PROTO ((mp_limb_t a, mp_limb_t b, int result_bit1));
int mpn_jacobi_base_2 _PROTO ((mp_limb_t a, mp_limb_t b, int result_bit1));
int mpn_jacobi_base_3 _PROTO ((mp_limb_t a, mp_limb_t b, int result_bit1));
mp_limb_t mpn_mod_1_div _PROTO ((mp_srcptr ap, mp_size_t size, mp_limb_t d));
mp_limb_t mpn_mod_1_inv _PROTO ((mp_srcptr ap, mp_size_t size, mp_limb_t d));
mp_size_t mpn_gcd_binary
_PROTO ((mp_ptr gp, mp_ptr up, mp_size_t usize, mp_ptr vp, mp_size_t vsize));
mp_size_t mpn_gcd_accel
_PROTO ((mp_ptr gp, mp_ptr up, mp_size_t usize, mp_ptr vp, mp_size_t vsize));
mp_size_t mpn_gcdext_one_double
_PROTO ((mp_ptr gp, mp_ptr s0p, mp_size_t *s0size,
mp_ptr up, mp_size_t size, mp_ptr vp, mp_size_t vsize));
mp_size_t mpn_gcdext_one_single
_PROTO ((mp_ptr gp, mp_ptr s0p, mp_size_t *s0size,
mp_ptr up, mp_size_t size, mp_ptr vp, mp_size_t vsize));
mp_size_t mpn_gcdext_single
_PROTO ((mp_ptr gp, mp_ptr s0p, mp_size_t *s0size,
mp_ptr up, mp_size_t size, mp_ptr vp, mp_size_t vsize));
mp_size_t mpn_gcdext_double
_PROTO ((mp_ptr gp, mp_ptr s0p, mp_size_t *s0size,
mp_ptr up, mp_size_t size, mp_ptr vp, mp_size_t vsize));
mp_limb_t mpn_sb_divrem_mn_div _PROTO ((mp_ptr qp,
mp_ptr np, mp_size_t nsize,
mp_srcptr dp, mp_size_t dsize));
mp_limb_t mpn_sb_divrem_mn_inv _PROTO ((mp_ptr qp,
mp_ptr np, mp_size_t nsize,
mp_srcptr dp, mp_size_t dsize));
mp_size_t mpn_set_str_basecase _PROTO ((mp_ptr, const unsigned char *, size_t, int));
mp_size_t mpn_set_str_subquad _PROTO ((mp_ptr, const unsigned char *, size_t, int));
void mpn_toom3_mul_n_open _PROTO ((mp_ptr, mp_srcptr, mp_srcptr, mp_size_t,
mp_ptr));
void mpn_toom3_sqr_n_open _PROTO ((mp_ptr, mp_srcptr, mp_size_t, mp_ptr));
void mpn_toom3_mul_n_mpn _PROTO ((mp_ptr, mp_srcptr, mp_srcptr, mp_size_t,
mp_ptr));
void mpn_toom3_sqr_n_mpn _PROTO((mp_ptr, mp_srcptr, mp_size_t, mp_ptr));
void mpz_powm_mod _PROTO ((mpz_ptr res, mpz_srcptr base, mpz_srcptr e,
mpz_srcptr mod));
void mpz_powm_redc _PROTO ((mpz_ptr res, mpz_srcptr base, mpz_srcptr e,
mpz_srcptr mod));
void redc _PROTO ((mp_ptr cp, mp_srcptr mp, mp_size_t n, mp_limb_t Nprim,
mp_ptr tp));
int speed_routine_count_zeros_setup _PROTO ((struct speed_params *s,
mp_ptr xp, int leading,
int zero));
/* "get" is called repeatedly until it ticks over, just in case on a fast
processor it takes less than a microsecond, though this is probably
unlikely if it's a system call.
speed_cyclecounter is called on the same side of the "get" for the start
and end measurements. It doesn't matter how long it takes from the "get"
sample to the cycles sample, since that period will cancel out in the
difference calculation (assuming it's the same each time).
Letting the test run for more than a process time slice is probably only
going to reduce accuracy, especially for getrusage when the cycle counter
is real time, or for gettimeofday if the cycle counter is in fact process
time. Use CLK_TCK/2 as a reasonable stop.
It'd be desirable to be quite accurate here. The default speed_precision
for a cycle counter is 10000 cycles, so to mix that with getrusage or
gettimeofday the frequency should be at least that accurate. But running
measurements for 10000 microseconds (or more) is too long. Be satisfied
with just a half clock tick (5000 microseconds usually). */
#define FREQ_MEASURE_ONE(name, type, get, getc, sec, usec) \
do { \
type st1, st, et1, et; \
unsigned sc[2], ec[2]; \
long dt, half_tick; \
double dc, cyc; \
\
half_tick = (1000000L / clk_tck()) / 2; \
\
get (st1); \
do { \
get (st); \
} while (usec(st) == usec(st1) && sec(st) == sec(st1)); \
\
getc (sc); \
\
for (;;) \
{ \
get (et1); \
do { \
get (et); \
} while (usec(et) == usec(et1) && sec(et) == sec(et1)); \
\
getc (ec); \
\
dc = speed_cyclecounter_diff (ec, sc); \
\
/* allow secs to cancel before multiplying */ \
dt = sec(et) - sec(st); \
dt = dt * 1000000L + (usec(et) - usec(st)); \
\
if (dt >= half_tick) \
break; \
} \
\
cyc = dt * 1e-6 / dc; \
\
if (speed_option_verbose >= 2) \
printf ("freq_measure_%s_one() dc=%.6g dt=%ld cyc=%.6g\n", \
name, dc, dt, cyc); \
\
return dt * 1e-6 / dc; \
\
} while (0)
/* The measuring routines use these big macros to save duplication for
similar forms. They also get used for some automatically generated
measuring of new implementations of functions.
Having something like SPEED_ROUTINE_BINARY_N as a subroutine accepting a
function pointer is considered undesirable since it's not the way a
normal application will be calling, and some processors might do
different things with an indirect call, like not branch predicting, or
doing a full pipe flush. At least some of the "functions" measured are
actually macros too.
The net effect is to bloat the object code, possibly in a big way, but
only what's being measured is being run, so that doesn't matter.
The loop forms don't try to cope with __GMP_ATTRIBUTE_PURE or
ATTRIBUTE_CONST on the called functions. Adding a cast to a non-pure
function pointer doesn't work in gcc 3.2. Using an actual non-pure
function pointer variable works, but stands a real risk of a
non-optimizing compiler generating unnecessary overheads in the call.
Currently the best idea is not to use those attributes for a timing
program build. __GMP_NO_ATTRIBUTE_CONST_PURE will tell gmp.h and
gmp-impl.h to omit them from routines there. */
#define SPEED_RESTRICT_COND(cond) if (!(cond)) return -1.0;
/* For mpn_copy or similar. */
#define SPEED_ROUTINE_MPN_COPY(function) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_COPYC(function) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, s->size, 0); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* s->size is still in limbs, and it's limbs which are copied, but
"function" takes a size in bytes not limbs. */
#define SPEED_ROUTINE_MPN_COPY_BYTES(function) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, s->size * BYTES_PER_MP_LIMB); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* For mpn_add_n, mpn_sub_n, or similar. */
#define SPEED_ROUTINE_MPN_BINARY_N_CALL(call) \
{ \
mp_ptr wp; \
mp_ptr xp, yp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
xp = s->xp; \
yp = s->yp; \
\
if (s->r == 0) ; \
else if (s->r == 1) { xp = wp; } \
else if (s->r == 2) { yp = wp; } \
else if (s->r == 3) { xp = wp; yp = wp; } \
else if (s->r == 4) { yp = xp; } \
else { \
TMP_FREE; \
return -1.0; \
} \
\
/* initialize wp if operand overlap */ \
if (xp == wp || yp == wp) \
MPN_COPY (wp, s->xp, s->size); \
\
speed_operand_src (s, xp, s->size); \
speed_operand_src (s, yp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* For mpn_add_n, mpn_sub_n, or similar. */
#define SPEED_ROUTINE_MPN_ADDSUB_N_CALL(call) \
{ \
mp_ptr ap, sp; \
mp_ptr xp, yp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (ap, s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (sp, s->size, s->align_wp); \
\
xp = s->xp; \
yp = s->yp; \
\
if ((s->r & 1) != 0) { xp = ap; } \
if ((s->r & 2) != 0) { yp = ap; } \
if ((s->r & 4) != 0) { xp = sp; } \
if ((s->r & 8) != 0) { yp = sp; } \
if ((s->r & 3) == 3 || (s->r & 12) == 12) \
{ \
TMP_FREE; \
return -1.0; \
} \
\
/* initialize ap if operand overlap */ \
if (xp == ap || yp == ap) \
MPN_COPY (ap, s->xp, s->size); \
/* initialize sp if operand overlap */ \
if (xp == sp || yp == sp) \
MPN_COPY (sp, s->xp, s->size); \
\
speed_operand_src (s, xp, s->size); \
speed_operand_src (s, yp, s->size); \
speed_operand_dst (s, ap, s->size); \
speed_operand_dst (s, sp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_BINARY_N(function) \
SPEED_ROUTINE_MPN_BINARY_N_CALL ((*function) (wp, xp, yp, s->size))
#define SPEED_ROUTINE_MPN_BINARY_NC(function) \
SPEED_ROUTINE_MPN_BINARY_N_CALL ((*function) (wp, xp, yp, s->size, 0))
/* For mpn_lshift, mpn_rshift, mpn_mul_1, with r, or similar. */
#define SPEED_ROUTINE_MPN_UNARY_1_CALL(call) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_UNARY_1(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, s->xp, s->size, s->r))
#define SPEED_ROUTINE_MPN_UNARY_1C(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, s->xp, s->size, s->r, 0))
/* FIXME: wp is uninitialized here, should start it off from xp */
#define SPEED_ROUTINE_MPN_UNARY_1_INPLACE(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, wp, s->size, s->r))
#define SPEED_ROUTINE_MPN_DIVEXACT_1(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, s->xp, s->size, s->r))
#define SPEED_ROUTINE_MPN_DIVREM_1(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, 0, s->xp, s->size, s->r))
#define SPEED_ROUTINE_MPN_DIVREM_1C(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, 0, s->xp, s->size, s->r, 0))
#define SPEED_ROUTINE_MPN_DIVREM_1F(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, s->size, s->xp, 0, s->r))
#define SPEED_ROUTINE_MPN_DIVREM_1CF(function) \
SPEED_ROUTINE_MPN_UNARY_1_CALL ((*function) (wp, s->size, s->xp, 0, s->r, 0))
#define SPEED_ROUTINE_MPN_PREINV_DIVREM_1_CALL(call) \
{ \
unsigned shift; \
mp_limb_t dinv; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
SPEED_RESTRICT_COND (s->r != 0); \
\
count_leading_zeros (shift, s->r); \
invert_limb (dinv, s->r << shift); \
\
SPEED_ROUTINE_MPN_UNARY_1_CALL (call); \
} \
#define SPEED_ROUTINE_MPN_PREINV_DIVREM_1(function) \
SPEED_ROUTINE_MPN_PREINV_DIVREM_1_CALL \
((*function) (wp, 0, s->xp, s->size, s->r, dinv, shift))
/* s->size limbs worth of fraction part */
#define SPEED_ROUTINE_MPN_PREINV_DIVREM_1F(function) \
SPEED_ROUTINE_MPN_PREINV_DIVREM_1_CALL \
((*function) (wp, s->size, s->xp, 0, s->r, dinv, shift))
/* s->r is duplicated to form the multiplier, defaulting to
MP_BASES_BIG_BASE_10. Not sure if that's particularly useful, but at
least it provides some control. */
#define SPEED_ROUTINE_MPN_UNARY_N(function,N) \
{ \
mp_ptr wp; \
mp_size_t wn; \
unsigned i; \
double t; \
mp_limb_t yp[N]; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= N); \
\
TMP_MARK; \
wn = s->size + N-1; \
SPEED_TMP_ALLOC_LIMBS (wp, wn, s->align_wp); \
for (i = 0; i < N; i++) \
yp[i] = (s->r != 0 ? s->r : MP_BASES_BIG_BASE_10); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, yp, (mp_size_t) N); \
speed_operand_dst (s, wp, wn); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, s->size, yp); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_UNARY_2(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 2)
#define SPEED_ROUTINE_MPN_UNARY_3(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 3)
#define SPEED_ROUTINE_MPN_UNARY_4(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 4)
#define SPEED_ROUTINE_MPN_UNARY_5(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 5)
#define SPEED_ROUTINE_MPN_UNARY_6(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 6)
#define SPEED_ROUTINE_MPN_UNARY_7(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 7)
#define SPEED_ROUTINE_MPN_UNARY_8(function) \
SPEED_ROUTINE_MPN_UNARY_N (function, 8)
/* For mpn_mul_basecase, xsize=r, ysize=s->size. */
#define SPEED_ROUTINE_MPN_MUL_BASECASE(function) \
{ \
mp_ptr wp; \
mp_size_t size1; \
unsigned i; \
double t; \
TMP_DECL; \
\
size1 = (s->r == 0 ? s->size : s->r); \
\
SPEED_RESTRICT_COND (s->size >= 1); \
SPEED_RESTRICT_COND (size1 >= s->size); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, size1 + s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, size1); \
speed_operand_src (s, s->yp, s->size); \
speed_operand_dst (s, wp, size1 + s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, size1, s->yp, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_MUL_N_CALL(call) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, 2*s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, s->yp, s->size); \
speed_operand_dst (s, wp, 2*s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_MUL_N(function) \
SPEED_ROUTINE_MPN_MUL_N_CALL (function (wp, s->xp, s->yp, s->size));
#define SPEED_ROUTINE_MPN_MULLOW_N_CALL(call) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, s->yp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_MULLOW_N(function) \
SPEED_ROUTINE_MPN_MULLOW_N_CALL (function (wp, s->xp, s->yp, s->size));
/* For mpn_mul_basecase, xsize=r, ysize=s->size. */
#define SPEED_ROUTINE_MPN_MULLOW_BASECASE(function) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, s->yp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, s->xp, s->yp, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_MUL_N_TSPACE(call, tsize, minsize) \
{ \
mp_ptr wp, tspace; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= minsize); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, 2*s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (tspace, tsize, s->align_wp2); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, s->yp, s->size); \
speed_operand_dst (s, wp, 2*s->size); \
speed_operand_dst (s, tspace, tsize); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_KARA_MUL_N(function) \
SPEED_ROUTINE_MPN_MUL_N_TSPACE \
(function (wp, s->xp, s->xp, s->size, tspace), \
MPN_KARA_MUL_N_TSIZE (s->size), \
MPN_KARA_MUL_N_MINSIZE)
#define SPEED_ROUTINE_MPN_TOOM3_MUL_N(function) \
SPEED_ROUTINE_MPN_MUL_N_TSPACE \
(function (wp, s->xp, s->yp, s->size, tspace), \
MPN_TOOM3_MUL_N_TSIZE (s->size), \
MPN_TOOM3_MUL_N_MINSIZE)
#define SPEED_ROUTINE_MPN_SQR_CALL(call) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, 2*s->size, s->align_wp); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, 2*s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_SQR(function) \
SPEED_ROUTINE_MPN_SQR_CALL (function (wp, s->xp, s->size))
#define SPEED_ROUTINE_MPN_SQR_DIAGONAL(function) \
SPEED_ROUTINE_MPN_SQR (function)
#define SPEED_ROUTINE_MPN_SQR_TSPACE(call, tsize, minsize) \
{ \
mp_ptr wp, tspace; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= minsize); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, 2*s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (tspace, tsize, s->align_wp2); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, 2*s->size); \
speed_operand_dst (s, tspace, tsize); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_KARA_SQR_N(function) \
SPEED_ROUTINE_MPN_SQR_TSPACE (function (wp, s->xp, s->size, tspace), \
MPN_KARA_SQR_N_TSIZE (s->size), \
MPN_KARA_SQR_N_MINSIZE)
#define SPEED_ROUTINE_MPN_TOOM3_SQR_N(function) \
SPEED_ROUTINE_MPN_SQR_TSPACE (function (wp, s->xp, s->size, tspace), \
MPN_TOOM3_SQR_N_TSIZE (s->size), \
MPN_TOOM3_SQR_N_MINSIZE)
#define SPEED_ROUTINE_MPN_MOD_CALL(call) \
{ \
unsigned i; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
speed_operand_src (s, s->xp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
\
return speed_endtime (); \
}
#define SPEED_ROUTINE_MPN_MOD_1(function) \
SPEED_ROUTINE_MPN_MOD_CALL ((*function) (s->xp, s->size, s->r))
#define SPEED_ROUTINE_MPN_MOD_1C(function) \
SPEED_ROUTINE_MPN_MOD_CALL ((*function)(s->xp, s->size, s->r, CNST_LIMB(0)))
#define SPEED_ROUTINE_MPN_MODEXACT_1_ODD(function) \
SPEED_ROUTINE_MPN_MOD_CALL (function (s->xp, s->size, s->r));
#define SPEED_ROUTINE_MPN_MODEXACT_1C_ODD(function) \
SPEED_ROUTINE_MPN_MOD_CALL (function (s->xp, s->size, s->r, CNST_LIMB(0)));
#define SPEED_ROUTINE_MPN_MOD_34LSUB1(function) \
SPEED_ROUTINE_MPN_MOD_CALL ((*function) (s->xp, s->size))
#define SPEED_ROUTINE_MPN_PREINV_MOD_1(function) \
{ \
unsigned i; \
mp_limb_t inv; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
SPEED_RESTRICT_COND (s->r & GMP_LIMB_HIGHBIT); \
\
invert_limb (inv, s->r); \
speed_operand_src (s, s->xp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
(*function) (s->xp, s->size, s->r, inv); \
while (--i != 0); \
\
return speed_endtime (); \
}
/* A division of 2*s->size by s->size limbs */
#define SPEED_ROUTINE_MPN_DC_DIVREM_CALL(call) \
{ \
unsigned i; \
mp_ptr a, d, q, r; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (a, 2*s->size, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (d, s->size, s->align_yp); \
SPEED_TMP_ALLOC_LIMBS (q, s->size+1, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (r, s->size, s->align_wp2); \
\
MPN_COPY (a, s->xp, s->size); \
MPN_COPY (a+s->size, s->xp, s->size); \
\
MPN_COPY (d, s->yp, s->size); \
\
/* normalize the data */ \
d[s->size-1] |= GMP_NUMB_HIGHBIT; \
a[2*s->size-1] = d[s->size-1] - 1; \
\
speed_operand_src (s, a, 2*s->size); \
speed_operand_src (s, d, s->size); \
speed_operand_dst (s, q, s->size+1); \
speed_operand_dst (s, r, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_DC_DIVREM_N(function) \
SPEED_ROUTINE_MPN_DC_DIVREM_CALL((*function) (q, a, d, s->size))
#define SPEED_ROUTINE_MPN_DC_DIVREM_SB(function) \
SPEED_ROUTINE_MPN_DC_DIVREM_CALL \
((*function) (q, a, 2*s->size, d, s->size))
#define SPEED_ROUTINE_MPN_DC_TDIV_QR(function) \
SPEED_ROUTINE_MPN_DC_DIVREM_CALL \
((*function) (q, r, 0, a, 2*s->size, d, s->size))
/* A division of s->size by 3 limbs */
#define SPEED_ROUTINE_MPN_SB_DIVREM_M3(function) \
{ \
unsigned i; \
mp_ptr a, d, q; \
mp_size_t qsize; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 3); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (a, s->size, s->align_xp); \
\
SPEED_TMP_ALLOC_LIMBS (d, 3, s->align_yp); \
MPN_COPY (d, s->yp, 3); \
d[2] |= GMP_NUMB_HIGHBIT; \
\
qsize = s->size - 3; \
SPEED_TMP_ALLOC_LIMBS (q, qsize, s->align_wp); \
\
speed_operand_dst (s, a, s->size); \
speed_operand_src (s, d, 3); \
speed_operand_dst (s, q, qsize); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
MPN_COPY (a, s->xp, s->size); \
function (q, a, s->size, d, 3); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* A remainder 2*s->size by s->size limbs */
#define SPEED_ROUTINE_MPZ_MOD(function) \
{ \
unsigned i; \
mpz_t a, d, r; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
mpz_init_set_n (d, s->yp, s->size); \
\
/* high part less than d, low part a duplicate copied in */ \
mpz_init_set_n (a, s->xp, s->size); \
mpz_mod (a, a, d); \
mpz_mul_2exp (a, a, BITS_PER_MP_LIMB * s->size); \
MPN_COPY (PTR(a), s->xp, s->size); \
\
mpz_init (r); \
\
speed_operand_src (s, PTR(a), SIZ(a)); \
speed_operand_src (s, PTR(d), SIZ(d)); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (r, a, d); \
while (--i != 0); \
return speed_endtime (); \
}
#define SPEED_ROUTINE_REDC(function) \
{ \
unsigned i; \
mp_ptr cp, mp, tp, ap; \
mp_limb_t Nprim; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (ap, 2*s->size+1, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (mp, s->size, s->align_yp); \
SPEED_TMP_ALLOC_LIMBS (cp, s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (tp, 2*s->size+1, s->align_wp2); \
\
MPN_COPY (ap, s->xp, s->size); \
MPN_COPY (ap+s->size, s->xp, s->size); \
\
/* modulus must be odd */ \
MPN_COPY (mp, s->yp, s->size); \
mp[0] |= 1; \
modlimb_invert (Nprim, mp[0]); \
\
speed_operand_src (s, ap, 2*s->size+1); \
speed_operand_dst (s, tp, 2*s->size+1); \
speed_operand_src (s, mp, s->size); \
speed_operand_dst (s, cp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do { \
MPN_COPY (tp, ap, 2*s->size); \
function (cp, mp, s->size, Nprim, tp); \
} while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_POPCOUNT(function) \
{ \
unsigned i; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
speed_operand_src (s, s->xp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (s->xp, s->size); \
while (--i != 0); \
\
return speed_endtime (); \
}
#define SPEED_ROUTINE_MPN_HAMDIST(function) \
{ \
unsigned i; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_src (s, s->yp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (s->xp, s->yp, s->size); \
while (--i != 0); \
\
return speed_endtime (); \
}
#define SPEED_ROUTINE_MPZ_UI(function) \
{ \
mpz_t z; \
unsigned i; \
double t; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
mpz_init (z); \
\
speed_starttime (); \
i = s->reps; \
do \
function (z, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
mpz_clear (z); \
return t; \
}
#define SPEED_ROUTINE_MPZ_FAC_UI(function) SPEED_ROUTINE_MPZ_UI(function)
#define SPEED_ROUTINE_MPZ_FIB_UI(function) SPEED_ROUTINE_MPZ_UI(function)
#define SPEED_ROUTINE_MPZ_LUCNUM_UI(function) SPEED_ROUTINE_MPZ_UI(function)
#define SPEED_ROUTINE_MPZ_2_UI(function) \
{ \
mpz_t z, z2; \
unsigned i; \
double t; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
mpz_init (z); \
mpz_init (z2); \
\
speed_starttime (); \
i = s->reps; \
do \
function (z, z2, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
mpz_clear (z); \
mpz_clear (z2); \
return t; \
}
#define SPEED_ROUTINE_MPZ_FIB2_UI(function) SPEED_ROUTINE_MPZ_2_UI(function)
#define SPEED_ROUTINE_MPZ_LUCNUM2_UI(function) SPEED_ROUTINE_MPZ_2_UI(function)
#define SPEED_ROUTINE_MPN_FIB2_UI(function) \
{ \
mp_ptr fp, f1p; \
mp_size_t alloc; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
alloc = MPN_FIB2_SIZE (s->size); \
SPEED_TMP_ALLOC_LIMBS (fp, alloc, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (f1p, alloc, s->align_yp); \
\
speed_starttime (); \
i = s->reps; \
do \
function (fp, f1p, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* Calculate b^e mod m for random b and m of s->size limbs and random e of 6
limbs. m is forced to odd so that redc can be used. e is limited in
size so the calculation doesn't take too long. */
#define SPEED_ROUTINE_MPZ_POWM(function) \
{ \
mpz_t r, b, e, m; \
unsigned i; \
double t; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
mpz_init (r); \
mpz_init_set_n (b, s->xp, s->size); \
mpz_init_set_n (m, s->yp, s->size); \
mpz_setbit (m, 0); /* force m to odd */ \
mpz_init_set_n (e, s->xp_block, 6); \
\
speed_starttime (); \
i = s->reps; \
do \
function (r, b, e, m); \
while (--i != 0); \
t = speed_endtime (); \
\
mpz_clear (r); \
mpz_clear (b); \
mpz_clear (e); \
mpz_clear (m); \
return t; \
}
/* (m-2)^0xAAAAAAAA mod m */
#define SPEED_ROUTINE_MPZ_POWM_UI(function) \
{ \
mpz_t r, b, m; \
unsigned long e = (~ (unsigned long) 0) / 3; \
unsigned i; \
double t; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
mpz_init (r); \
\
/* force m to odd */ \
mpz_init (m); \
mpz_set_n (m, s->xp, s->size); \
PTR(m)[0] |= 1; \
\
mpz_init_set (b, m); \
mpz_sub_ui (b, b, 2); \
/* printf ("%X\n", mpz_get_ui(m)); */ \
i = s->reps; \
speed_starttime (); \
do \
function (r, b, e, m); \
while (--i != 0); \
t = speed_endtime (); \
\
mpz_clear (r); \
mpz_clear (b); \
mpz_clear (m); \
return t; \
}
#define SPEED_ROUTINE_MPN_ADDSUB_CALL(call) \
{ \
mp_ptr wp, wp2, xp, yp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (wp2, s->size, s->align_wp2); \
xp = s->xp; \
yp = s->yp; \
\
if (s->r == 0) ; \
else if (s->r == 1) { xp = wp; } \
else if (s->r == 2) { yp = wp2; } \
else if (s->r == 3) { xp = wp; yp = wp2; } \
else if (s->r == 4) { xp = wp2; yp = wp; } \
else { \
TMP_FREE; \
return -1.0; \
} \
if (xp != s->xp) MPN_COPY (xp, s->xp, s->size); \
if (yp != s->yp) MPN_COPY (yp, s->yp, s->size); \
\
speed_operand_src (s, xp, s->size); \
speed_operand_src (s, yp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_operand_dst (s, wp2, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_ADDSUB_N(function) \
SPEED_ROUTINE_MPN_ADDSUB_CALL \
(function (wp, wp2, xp, yp, s->size));
#define SPEED_ROUTINE_MPN_ADDSUB_NC(function) \
SPEED_ROUTINE_MPN_ADDSUB_CALL \
(function (wp, wp2, xp, yp, s->size, 0));
/* Doing an Nx1 gcd with the given r. */
#define SPEED_ROUTINE_MPN_GCD_1N(function) \
{ \
mp_ptr xp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
SPEED_RESTRICT_COND (s->r != 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (xp, s->size, s->align_xp); \
MPN_COPY (xp, s->xp, s->size); \
xp[0] |= refmpn_zero_p (xp, s->size); \
\
speed_operand_src (s, s->xp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (xp, s->size, s->r); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* SPEED_BLOCK_SIZE many one GCDs of s->size bits each. */
#define SPEED_ROUTINE_MPN_GCD_1_CALL(setup, call) \
{ \
unsigned i, j; \
mp_ptr px, py; \
mp_limb_t x_mask, y_mask; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
SPEED_RESTRICT_COND (s->size <= mp_bits_per_limb); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (px, SPEED_BLOCK_SIZE, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (py, SPEED_BLOCK_SIZE, s->align_yp); \
MPN_COPY (px, s->xp_block, SPEED_BLOCK_SIZE); \
MPN_COPY (py, s->yp_block, SPEED_BLOCK_SIZE); \
\
x_mask = MP_LIMB_T_LOWBITMASK (s->size); \
y_mask = MP_LIMB_T_LOWBITMASK (s->r != 0 ? s->r : s->size); \
for (i = 0; i < SPEED_BLOCK_SIZE; i++) \
{ \
px[i] &= x_mask; px[i] += (px[i] == 0); \
py[i] &= y_mask; py[i] += (py[i] == 0); \
setup; \
} \
\
speed_operand_src (s, px, SPEED_BLOCK_SIZE); \
speed_operand_src (s, py, SPEED_BLOCK_SIZE); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = SPEED_BLOCK_SIZE; \
do \
{ \
call; \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
\
s->time_divisor = SPEED_BLOCK_SIZE; \
return t; \
}
#define SPEED_ROUTINE_MPN_GCD_1(function) \
SPEED_ROUTINE_MPN_GCD_1_CALL( , function (&px[j-1], 1, py[j-1]))
#define SPEED_ROUTINE_MPN_JACBASE(function) \
SPEED_ROUTINE_MPN_GCD_1_CALL \
({ \
/* require x<y, y odd, y!=1 */ \
px[i] %= py[i]; \
px[i] |= 1; \
py[i] |= 1; \
if (py[i]==1) py[i]=3; \
}, \
function (px[j-1], py[j-1], 0))
/* Run some GCDs of s->size limbs each. The number of different data values
is decreased as s->size**2, since GCD is a quadratic algorithm.
SPEED_ROUTINE_MPN_GCD runs more times than SPEED_ROUTINE_MPN_GCDEXT
though, because the plain gcd is about twice as fast as gcdext. */
#define SPEED_ROUTINE_MPN_GCD_CALL(datafactor, call) \
{ \
unsigned i; \
mp_size_t j, pieces, psize; \
mp_ptr wp, wp2, xtmp, ytmp, px, py; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (xtmp, s->size+1, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (ytmp, s->size+1, s->align_yp); \
SPEED_TMP_ALLOC_LIMBS (wp, s->size+1, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (wp2, s->size+1, s->align_wp2); \
\
pieces = SPEED_BLOCK_SIZE * datafactor / s->size / s->size; \
pieces = MIN (pieces, SPEED_BLOCK_SIZE / s->size); \
pieces = MAX (pieces, 1); \
\
psize = pieces * s->size; \
px = TMP_ALLOC_LIMBS (psize); \
py = TMP_ALLOC_LIMBS (psize); \
MPN_COPY (px, pieces==1 ? s->xp : s->xp_block, psize); \
MPN_COPY (py, pieces==1 ? s->yp : s->yp_block, psize); \
\
/* Requirements: x >= y, y must be odd, high limbs != 0. \
No need to ensure random numbers are really great. */ \
for (j = 0; j < pieces; j++) \
{ \
mp_ptr x = px + j * s->size; \
mp_ptr y = py + j * s->size; \
if (x[s->size - 1] == 0) x[s->size - 1] = 1; \
if (y[s->size - 1] == 0) y[s->size - 1] = 1; \
\
if (x[s->size - 1] < y[s->size - 1]) \
MP_LIMB_T_SWAP (x[s->size - 1], y[s->size - 1]); \
else if (x[s->size - 1] == y[s->size - 1]) \
{ \
x[s->size - 1] = 2; \
y[s->size - 1] = 1; \
} \
y[0] |= 1; \
} \
\
speed_operand_src (s, px, psize); \
speed_operand_src (s, py, psize); \
speed_operand_dst (s, xtmp, s->size); \
speed_operand_dst (s, ytmp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = pieces; \
do \
{ \
MPN_COPY (xtmp, px+(j - 1)*s->size, s->size); \
MPN_COPY (ytmp, py+(j - 1)*s->size, s->size); \
call; \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
\
s->time_divisor = pieces; \
return t; \
}
#define SPEED_ROUTINE_MPN_GCD(function) \
SPEED_ROUTINE_MPN_GCD_CALL (8, function (wp, xtmp, s->size, ytmp, s->size))
#define SPEED_ROUTINE_MPN_GCDEXT(function) \
SPEED_ROUTINE_MPN_GCD_CALL \
(4, { mp_size_t wp2size; \
function (wp, wp2, &wp2size, xtmp, s->size, ytmp, s->size); })
#define SPEED_ROUTINE_MPN_GCDEXT_ONE(function) \
{ \
unsigned i; \
mp_size_t j, pieces, psize, wp2size; \
mp_ptr wp, wp2, xtmp, ytmp, px, py; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
\
SPEED_TMP_ALLOC_LIMBS (xtmp, s->size+1, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (ytmp, s->size+1, s->align_yp); \
MPN_COPY (xtmp, s->xp, s->size); \
MPN_COPY (ytmp, s->yp, s->size); \
\
SPEED_TMP_ALLOC_LIMBS (wp, s->size+1, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (wp2, s->size+1, s->align_wp2); \
\
pieces = SPEED_BLOCK_SIZE / 3; \
psize = 3 * pieces; \
px = TMP_ALLOC_LIMBS (psize); \
py = TMP_ALLOC_LIMBS (psize); \
MPN_COPY (px, s->xp_block, psize); \
MPN_COPY (py, s->yp_block, psize); \
\
/* x must have at least as many bits as y, \
high limbs must be non-zero */ \
for (j = 0; j < pieces; j++) \
{ \
mp_ptr x = px+3*j; \
mp_ptr y = py+3*j; \
x[2] += (x[2] == 0); \
y[2] += (y[2] == 0); \
if (x[2] < y[2]) \
MP_LIMB_T_SWAP (x[2], y[2]); \
} \
\
speed_operand_src (s, px, psize); \
speed_operand_src (s, py, psize); \
speed_operand_dst (s, xtmp, s->size); \
speed_operand_dst (s, ytmp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
mp_ptr x = px; \
mp_ptr y = py; \
mp_ptr xth = &xtmp[s->size-3]; \
mp_ptr yth = &ytmp[s->size-3]; \
j = pieces; \
do \
{ \
xth[0] = x[0], xth[1] = x[1], xth[2] = x[2]; \
yth[0] = y[0], yth[1] = y[1], yth[2] = y[2]; \
\
ytmp[0] |= 1; /* y must be odd, */ \
\
function (wp, wp2, &wp2size, xtmp, s->size, ytmp, s->size); \
\
x += 3; \
y += 3; \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
\
s->time_divisor = pieces; \
return t; \
}
#define SPEED_ROUTINE_MPZ_JACOBI(function) \
{ \
mpz_t a, b; \
unsigned i; \
mp_size_t j, pieces, psize; \
mp_ptr px, py; \
double t; \
TMP_DECL; \
\
TMP_MARK; \
pieces = SPEED_BLOCK_SIZE / MAX (s->size, 1); \
pieces = MAX (pieces, 1); \
s->time_divisor = pieces; \
\
psize = pieces * s->size; \
px = TMP_ALLOC_LIMBS (psize); \
py = TMP_ALLOC_LIMBS (psize); \
MPN_COPY (px, pieces==1 ? s->xp : s->xp_block, psize); \
MPN_COPY (py, pieces==1 ? s->yp : s->yp_block, psize); \
\
for (j = 0; j < pieces; j++) \
{ \
mp_ptr x = px+j*s->size; \
mp_ptr y = py+j*s->size; \
\
/* y odd */ \
y[0] |= 1; \
\
/* high limbs non-zero */ \
if (x[s->size-1] == 0) x[s->size-1] = 1; \
if (y[s->size-1] == 0) y[s->size-1] = 1; \
} \
\
SIZ(a) = s->size; \
SIZ(b) = s->size; \
\
speed_operand_src (s, px, psize); \
speed_operand_src (s, py, psize); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = pieces; \
do \
{ \
PTR(a) = px+(j-1)*s->size; \
PTR(b) = py+(j-1)*s->size; \
function (a, b); \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_DIVREM_2(function) \
{ \
mp_ptr wp, xp; \
mp_limb_t yp[2]; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 2); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (xp, s->size, s->align_xp); \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
\
/* source is destroyed */ \
MPN_COPY (xp, s->xp, s->size); \
\
/* divisor must be normalized */ \
MPN_COPY (yp, s->yp_block, 2); \
yp[1] |= GMP_NUMB_HIGHBIT; \
\
speed_operand_src (s, xp, s->size); \
speed_operand_src (s, yp, 2); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, 0, xp, s->size, yp); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MODLIMB_INVERT(function) \
{ \
unsigned i, j; \
mp_ptr xp; \
mp_limb_t n = 1; \
double t; \
\
xp = s->xp_block-1; \
\
speed_operand_src (s, s->xp_block, SPEED_BLOCK_SIZE); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = SPEED_BLOCK_SIZE; \
do \
{ \
/* randomized but successively dependent */ \
n += (xp[j] << 1); \
\
function (n, n); \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
/* make sure the compiler won't optimize away n */ \
noop_1 (n); \
\
s->time_divisor = SPEED_BLOCK_SIZE; \
return t; \
}
#define SPEED_ROUTINE_MPN_SQRTREM(function) \
{ \
mp_ptr wp, wp2; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (wp2, s->size, s->align_wp2); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_operand_dst (s, wp2, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, wp2, s->xp, s->size); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_ROOTREM(function) \
{ \
mp_ptr wp, wp2; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
SPEED_TMP_ALLOC_LIMBS (wp2, s->size, s->align_wp2); \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, wp, s->size); \
speed_operand_dst (s, wp2, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, wp2, s->xp, s->size, s->r); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* s->size controls the number of limbs in the input, s->r is the base, or
decimal by default. */
#define SPEED_ROUTINE_MPN_GET_STR(function) \
{ \
unsigned char *wp; \
mp_size_t wn; \
mp_ptr xp; \
int base; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
base = s->r == 0 ? 10 : s->r; \
SPEED_RESTRICT_COND (base >= 2 && base <= 256); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (xp, s->size + 1, s->align_xp); \
\
MPN_SIZEINBASE (wn, s->xp, s->size, base); \
wp = TMP_ALLOC (wn); \
\
/* use this during development to guard against overflowing wp */ \
/* \
MPN_COPY (xp, s->xp, s->size); \
ASSERT_ALWAYS (mpn_get_str (wp, base, xp, s->size) <= wn); \
*/ \
\
speed_operand_src (s, s->xp, s->size); \
speed_operand_dst (s, xp, s->size); \
speed_operand_dst (s, (mp_ptr) wp, wn/BYTES_PER_MP_LIMB); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
MPN_COPY (xp, s->xp, s->size); \
function (wp, base, xp, s->size); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* s->size controls the number of digits in the input, s->r is the base, or
decimal by default. */
#define SPEED_ROUTINE_MPN_SET_STR(function) \
{ \
unsigned char *xp; \
mp_ptr wp; \
mp_size_t wn; \
unsigned i; \
int base; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 1); \
\
base = s->r == 0 ? 10 : s->r; \
SPEED_RESTRICT_COND (base >= 2 && base <= 256); \
\
TMP_MARK; \
\
xp = TMP_ALLOC (s->size); \
for (i = 0; i < s->size; i++) \
xp[i] = s->xp[i] % base; \
\
wn = ((mp_size_t) (s->size / __mp_bases[base].chars_per_bit_exactly)) \
/ BITS_PER_MP_LIMB + 2; \
SPEED_TMP_ALLOC_LIMBS (wp, wn, s->align_wp); \
\
/* use this during development to check wn is big enough */ \
/* \
ASSERT_ALWAYS (mpn_set_str (wp, xp, s->size, base) <= wn); \
*/ \
\
speed_operand_src (s, (mp_ptr) xp, s->size/BYTES_PER_MP_LIMB); \
speed_operand_dst (s, wp, wn); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
function (wp, xp, s->size, base); \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
/* Run an accel gcd find_a() function over various data values. A set of
values is used in case some run particularly fast or slow. The size
parameter is ignored, the amount of data tested is fixed. */
#define SPEED_ROUTINE_MPN_GCD_FINDA(function) \
{ \
unsigned i, j; \
mp_limb_t cp[SPEED_BLOCK_SIZE][2]; \
double t; \
TMP_DECL; \
\
TMP_MARK; \
\
/* low must be odd, high must be non-zero */ \
for (i = 0; i < SPEED_BLOCK_SIZE; i++) \
{ \
cp[i][0] = s->xp_block[i] | 1; \
cp[i][1] = s->yp_block[i] + (s->yp_block[i] == 0); \
} \
\
speed_operand_src (s, &cp[0][0], 2*SPEED_BLOCK_SIZE); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = SPEED_BLOCK_SIZE; \
do \
{ \
function (cp[j-1]); \
} \
while (--j != 0); \
} \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
\
s->time_divisor = SPEED_BLOCK_SIZE; \
return t; \
}
/* "call" should do "count_foo_zeros(c,n)".
Give leading=1 if foo is leading zeros, leading=0 for trailing.
Give zero=1 if n=0 is allowed in the call, zero=0 if not. */
#define SPEED_ROUTINE_COUNT_ZEROS_A(leading, zero) \
{ \
mp_ptr xp; \
int i, c; \
unsigned j; \
mp_limb_t n; \
double t; \
TMP_DECL; \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (xp, SPEED_BLOCK_SIZE, s->align_xp); \
\
if (! speed_routine_count_zeros_setup (s, xp, leading, zero)) \
return -1.0; \
speed_operand_src (s, xp, SPEED_BLOCK_SIZE); \
speed_cache_fill (s); \
\
c = 0; \
speed_starttime (); \
j = s->reps; \
do { \
for (i = 0; i < SPEED_BLOCK_SIZE; i++) \
{ \
n = xp[i]; \
n ^= c; \
#define SPEED_ROUTINE_COUNT_ZEROS_B() \
} \
} while (--j != 0); \
t = speed_endtime (); \
\
/* don't let c go dead */ \
noop_1 (c); \
\
s->time_divisor = SPEED_BLOCK_SIZE; \
\
TMP_FREE; \
return t; \
} \
#define SPEED_ROUTINE_COUNT_ZEROS_C(call, leading, zero) \
do { \
SPEED_ROUTINE_COUNT_ZEROS_A (leading, zero); \
call; \
SPEED_ROUTINE_COUNT_ZEROS_B (); \
} while (0) \
#define SPEED_ROUTINE_COUNT_LEADING_ZEROS_C(call,zero) \
SPEED_ROUTINE_COUNT_ZEROS_C (call, 1, zero)
#define SPEED_ROUTINE_COUNT_LEADING_ZEROS(fun) \
SPEED_ROUTINE_COUNT_ZEROS_C (fun (c, n), 1, 0)
#define SPEED_ROUTINE_COUNT_TRAILING_ZEROS_C(call,zero) \
SPEED_ROUTINE_COUNT_ZEROS_C (call, 0, zero)
#define SPEED_ROUTINE_COUNT_TRAILING_ZEROS(call) \
SPEED_ROUTINE_COUNT_ZEROS_C (fun (c, n), 0, 0)
#define SPEED_ROUTINE_INVERT_LIMB_CALL(call) \
{ \
unsigned i, j; \
mp_limb_t d, dinv=0; \
mp_ptr xp = s->xp_block - 1; \
\
s->time_divisor = SPEED_BLOCK_SIZE; \
\
speed_starttime (); \
i = s->reps; \
do \
{ \
j = SPEED_BLOCK_SIZE; \
do \
{ \
d = dinv ^ xp[j]; \
d |= GMP_LIMB_HIGHBIT; \
do { call; } while (0); \
} \
while (--j != 0); \
} \
while (--i != 0); \
\
/* don't let the compiler optimize everything away */ \
noop_1 (dinv); \
\
return speed_endtime(); \
}
#endif
#define SPEED_ROUTINE_MPN_BACK_TO_BACK(function) \
{ \
unsigned i; \
speed_starttime (); \
i = s->reps; \
do \
function (); \
while (--i != 0); \
return speed_endtime (); \
}
#define SPEED_ROUTINE_MPN_ZERO_CALL(call) \
{ \
mp_ptr wp; \
unsigned i; \
double t; \
TMP_DECL; \
\
SPEED_RESTRICT_COND (s->size >= 0); \
\
TMP_MARK; \
SPEED_TMP_ALLOC_LIMBS (wp, s->size, s->align_wp); \
speed_operand_dst (s, wp, s->size); \
speed_cache_fill (s); \
\
speed_starttime (); \
i = s->reps; \
do \
call; \
while (--i != 0); \
t = speed_endtime (); \
\
TMP_FREE; \
return t; \
}
#define SPEED_ROUTINE_MPN_ZERO(function) \
SPEED_ROUTINE_MPN_ZERO_CALL (function (wp, s->size))
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