*
* erand48.cpp
*
* This file supplies pg_erand48(), pg_lrand48(), and pg_srand48(), which
* are just like erand48(), lrand48(), and srand48() except that we use
* our own implementation rather than the one provided by the operating
* system. We used to test for an operating system version rather than
* unconditionally using our own, but (1) some versions of Cygwin have a
* buggy erand48() that always returns zero and (2) as of 2011, glibc's
* erand48() is strangely coded to be almost-but-not-quite thread-safe,
* which doesn't matter for the backend but is important for pgbench.
*
*
* Copyright (c) 1993 Martin Birgmeier
* All rights reserved.
*
* You may redistribute unmodified or modified versions of this source
* code provided that the above copyright notice and this and the
* following conditions are retained.
*
* This software is provided ``as is'', and comes with no warranties
* of any kind. I shall in no event be liable for anything that happens
* to anyone/anything when using this software.
*
* IDENTIFICATION
* src/common/port/erand48.cpp
*
* -------------------------------------------------------------------------
*/
#include "c.h"
#include <math.h>
#define RAND48_SEED_0 0x330e
#define RAND48_SEED_1 0xabcd
#define RAND48_SEED_2 0x1234
#define RAND48_MULT_0 0xe66d
#define RAND48_MULT_1 0xdeec
#define RAND48_MULT_2 0x0005
#define RAND48_ADD 0x000b
static THR_LOCAL unsigned short _rand48_seed[3] = {RAND48_SEED_0, RAND48_SEED_1, RAND48_SEED_2};
static THR_LOCAL unsigned short _rand48_mult[3] = {RAND48_MULT_0, RAND48_MULT_1, RAND48_MULT_2};
static THR_LOCAL unsigned short _rand48_add = RAND48_ADD;
static void _dorand48(unsigned short xseed[3])
{
unsigned long accu;
unsigned short temp[2];
accu = (unsigned long)_rand48_mult[0] * (unsigned long)xseed[0] + (unsigned long)_rand48_add;
temp[0] = (unsigned short)accu;
accu >>= sizeof(unsigned short) * 8;
accu += (unsigned long)_rand48_mult[0] * (unsigned long)xseed[1] +
(unsigned long)_rand48_mult[1] * (unsigned long)xseed[0];
temp[1] = (unsigned short)accu;
accu >>= sizeof(unsigned short) * 8;
accu += _rand48_mult[0] * xseed[2] + _rand48_mult[1] * xseed[1] + _rand48_mult[2] * xseed[0];
xseed[0] = temp[0];
xseed[1] = temp[1];
xseed[2] = (unsigned short)accu;
}
double pg_erand48(unsigned short xseed[3])
{
_dorand48(xseed);
return ldexp((double)xseed[0], -48) + ldexp((double)xseed[1], -32) + ldexp((double)xseed[2], -16);
}
long pg_lrand48(unsigned short rand48_seed[3])
{
unsigned short *rand_seed = rand48_seed == NULL ? _rand48_seed : rand48_seed;
_dorand48(rand_seed);
return ((long)rand_seed[2] << 15) + ((long)rand_seed[1] >> 1);
}
void pg_srand48(long seed, unsigned short rand48_seed[3])
{
unsigned short *rand_seed = rand48_seed == NULL ? _rand48_seed : rand48_seed;
rand_seed[0] = RAND48_SEED_0;
rand_seed[1] = (unsigned short)seed;
rand_seed[2] = (unsigned short)((unsigned long)seed >> 16);
_rand48_mult[0] = RAND48_MULT_0;
_rand48_mult[1] = RAND48_MULT_1;
_rand48_mult[2] = RAND48_MULT_2;
_rand48_add = RAND48_ADD;
}
void pg_reset_srand48(unsigned short xseed[3])
{
_rand48_seed[0] = xseed[0];
_rand48_seed[1] = xseed[1];
_rand48_seed[2] = xseed[2];
}
unsigned short* pg_get_srand48()
{
return _rand48_seed;
}
void pg_srand48_default(unsigned short rand48_seed[3])
{
rand48_seed[0] = RAND48_SEED_0;
rand48_seed[1] = RAND48_SEED_1;
rand48_seed[2] = RAND48_SEED_2;
}
