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30
third_party/tinymt32/LICENCE.txt vendored Normal file
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Copyright (c) 2011, 2013 Mutsuo Saito, Makoto Matsumoto,
Hiroshima University and The University of Tokyo.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following
disclaimer in the documentation and/or other materials provided
with the distribution.
* Neither the name of the Hiroshima University nor the names of
its contributors may be used to endorse or promote products
derived from this software without specific prior written
permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

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third_party/tinymt32/LICENSE vendored Normal file
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Copyright (c) 2011, 2013 Mutsuo Saito, Makoto Matsumoto,
Hiroshima University and The University of Tokyo.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following
disclaimer in the documentation and/or other materials provided
with the distribution.
* Neither the name of the Hiroshima University nor the names of
its contributors may be used to endorse or promote products
derived from this software without specific prior written
permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

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third_party/tinymt32/tinymt32.c vendored Normal file
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/**
* @file tinymt32.c
*
* @brief Tiny Mersenne Twister only 127 bit internal state
*
* @author Mutsuo Saito (Hiroshima University)
* @author Makoto Matsumoto (The University of Tokyo)
*
* Copyright (C) 2011 Mutsuo Saito, Makoto Matsumoto,
* Hiroshima University and The University of Tokyo.
* All rights reserved.
*
* The 3-clause BSD License is applied to this software, see
* LICENSE.txt
*/
#include "tinymt32.h"
#define MIN_LOOP 8
#define PRE_LOOP 8
/**
* This function represents a function used in the initialization
* by init_by_array
* @param x 32-bit integer
* @return 32-bit integer
*/
static uint32_t ini_func1(uint32_t x) {
return (x ^ (x >> 27)) * UINT32_C(1664525);
}
/**
* This function represents a function used in the initialization
* by init_by_array
* @param x 32-bit integer
* @return 32-bit integer
*/
static uint32_t ini_func2(uint32_t x) {
return (x ^ (x >> 27)) * UINT32_C(1566083941);
}
/**
* This function certificate the period of 2^127-1.
* @param random tinymt state vector.
*/
static void period_certification(tinymt32_t * random) {
if ((random->status[0] & TINYMT32_MASK) == 0 &&
random->status[1] == 0 &&
random->status[2] == 0 &&
random->status[3] == 0) {
random->status[0] = 'T';
random->status[1] = 'I';
random->status[2] = 'N';
random->status[3] = 'Y';
}
}
/**
* This function initializes the internal state array with a 32-bit
* unsigned integer seed.
* @param random tinymt state vector.
* @param seed a 32-bit unsigned integer used as a seed.
*/
void tinymt32_init(tinymt32_t * random, uint32_t seed) {
random->status[0] = seed;
random->status[1] = random->mat1;
random->status[2] = random->mat2;
random->status[3] = random->tmat;
for (int i = 1; i < MIN_LOOP; i++) {
random->status[i & 3] ^= i + UINT32_C(1812433253)
* (random->status[(i - 1) & 3]
^ (random->status[(i - 1) & 3] >> 30));
}
period_certification(random);
for (int i = 0; i < PRE_LOOP; i++) {
tinymt32_next_state(random);
}
}
/**
* This function initializes the internal state array,
* with an array of 32-bit unsigned integers used as seeds
* @param random tinymt state vector.
* @param init_key the array of 32-bit integers, used as a seed.
* @param key_length the length of init_key.
*/
void tinymt32_init_by_array(tinymt32_t * random, uint32_t init_key[],
int key_length) {
const int lag = 1;
const int mid = 1;
const int size = 4;
int i, j;
int count;
uint32_t r;
uint32_t * st = &random->status[0];
st[0] = 0;
st[1] = random->mat1;
st[2] = random->mat2;
st[3] = random->tmat;
if (key_length + 1 > MIN_LOOP) {
count = key_length + 1;
} else {
count = MIN_LOOP;
}
r = ini_func1(st[0] ^ st[mid % size]
^ st[(size - 1) % size]);
st[mid % size] += r;
r += key_length;
st[(mid + lag) % size] += r;
st[0] = r;
count--;
for (i = 1, j = 0; (j < count) && (j < key_length); j++) {
r = ini_func1(st[i % size]
^ st[(i + mid) % size]
^ st[(i + size - 1) % size]);
st[(i + mid) % size] += r;
r += init_key[j] + i;
st[(i + mid + lag) % size] += r;
st[i % size] = r;
i = (i + 1) % size;
}
for (; j < count; j++) {
r = ini_func1(st[i % size]
^ st[(i + mid) % size]
^ st[(i + size - 1) % size]);
st[(i + mid) % size] += r;
r += i;
st[(i + mid + lag) % size] += r;
st[i % size] = r;
i = (i + 1) % size;
}
for (j = 0; j < size; j++) {
r = ini_func2(st[i % size]
+ st[(i + mid) % size]
+ st[(i + size - 1) % size]);
st[(i + mid) % size] ^= r;
r -= i;
st[(i + mid + lag) % size] ^= r;
st[i % size] = r;
i = (i + 1) % size;
}
period_certification(random);
for (i = 0; i < PRE_LOOP; i++) {
tinymt32_next_state(random);
}
}

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#ifndef TINYMT32_H
#define TINYMT32_H
/**
* @file tinymt32.h
*
* @brief Tiny Mersenne Twister only 127 bit internal state
*
* @author Mutsuo Saito (Hiroshima University)
* @author Makoto Matsumoto (University of Tokyo)
*
* Copyright (C) 2011 Mutsuo Saito, Makoto Matsumoto,
* Hiroshima University and The University of Tokyo.
* All rights reserved.
*
* The 3-clause BSD License is applied to this software, see
* LICENSE.txt
*/
#include <stdint.h>
#include <inttypes.h>
#define TINYMT32_MEXP 127
#define TINYMT32_SH0 1
#define TINYMT32_SH1 10
#define TINYMT32_SH8 8
#define TINYMT32_MASK UINT32_C(0x7fffffff)
#define TINYMT32_MUL (1.0f / 16777216.0f)
#if defined(__cplusplus)
extern "C" {
#endif
/**
* tinymt32 internal state vector and parameters
*/
struct TINYMT32_T {
uint32_t status[4];
uint32_t mat1;
uint32_t mat2;
uint32_t tmat;
};
typedef struct TINYMT32_T tinymt32_t;
void tinymt32_init(tinymt32_t * random, uint32_t seed);
void tinymt32_init_by_array(tinymt32_t * random, uint32_t init_key[],
int key_length);
#if defined(__GNUC__)
/**
* This function always returns 127
* @param random not used
* @return always 127
*/
inline static int tinymt32_get_mexp(
tinymt32_t * random __attribute__((unused))) {
return TINYMT32_MEXP;
}
#else
inline static int tinymt32_get_mexp(tinymt32_t * random) {
return TINYMT32_MEXP;
}
#endif
/**
* This function changes internal state of tinymt32.
* Users should not call this function directly.
* @param random tinymt internal status
*/
inline static void tinymt32_next_state(tinymt32_t * random) {
uint32_t x;
uint32_t y;
y = random->status[3];
x = (random->status[0] & TINYMT32_MASK)
^ random->status[1]
^ random->status[2];
x ^= (x << TINYMT32_SH0);
y ^= (y >> TINYMT32_SH0) ^ x;
random->status[0] = random->status[1];
random->status[1] = random->status[2];
random->status[2] = x ^ (y << TINYMT32_SH1);
random->status[3] = y;
random->status[1] ^= -((int32_t)(y & 1)) & random->mat1;
random->status[2] ^= -((int32_t)(y & 1)) & random->mat2;
}
/**
* This function outputs 32-bit unsigned integer from internal state.
* Users should not call this function directly.
* @param random tinymt internal status
* @return 32-bit unsigned pseudorandom number
*/
inline static uint32_t tinymt32_temper(tinymt32_t * random) {
uint32_t t0, t1;
t0 = random->status[3];
#if defined(LINEARITY_CHECK)
t1 = random->status[0]
^ (random->status[2] >> TINYMT32_SH8);
#else
t1 = random->status[0]
+ (random->status[2] >> TINYMT32_SH8);
#endif
t0 ^= t1;
t0 ^= -((int32_t)(t1 & 1)) & random->tmat;
return t0;
}
/**
* This function outputs floating point number from internal state.
* Users should not call this function directly.
* @param random tinymt internal status
* @return floating point number r (1.0 <= r < 2.0)
*/
inline static float tinymt32_temper_conv(tinymt32_t * random) {
uint32_t t0, t1;
union {
uint32_t u;
float f;
} conv;
t0 = random->status[3];
#if defined(LINEARITY_CHECK)
t1 = random->status[0]
^ (random->status[2] >> TINYMT32_SH8);
#else
t1 = random->status[0]
+ (random->status[2] >> TINYMT32_SH8);
#endif
t0 ^= t1;
conv.u = ((t0 ^ (-((int32_t)(t1 & 1)) & random->tmat)) >> 9)
| UINT32_C(0x3f800000);
return conv.f;
}
/**
* This function outputs floating point number from internal state.
* Users should not call this function directly.
* @param random tinymt internal status
* @return floating point number r (1.0 < r < 2.0)
*/
inline static float tinymt32_temper_conv_open(tinymt32_t * random) {
uint32_t t0, t1;
union {
uint32_t u;
float f;
} conv;
t0 = random->status[3];
#if defined(LINEARITY_CHECK)
t1 = random->status[0]
^ (random->status[2] >> TINYMT32_SH8);
#else
t1 = random->status[0]
+ (random->status[2] >> TINYMT32_SH8);
#endif
t0 ^= t1;
conv.u = ((t0 ^ (-((int32_t)(t1 & 1)) & random->tmat)) >> 9)
| UINT32_C(0x3f800001);
return conv.f;
}
/**
* This function outputs 32-bit unsigned integer from internal state.
* @param random tinymt internal status
* @return 32-bit unsigned integer r (0 <= r < 2^32)
*/
inline static uint32_t tinymt32_generate_uint32(tinymt32_t * random) {
tinymt32_next_state(random);
return tinymt32_temper(random);
}
/**
* This function outputs floating point number from internal state.
* This function is implemented using multiplying by (1 / 2^24).
* floating point multiplication is faster than using union trick in
* my Intel CPU.
* @param random tinymt internal status
* @return floating point number r (0.0 <= r < 1.0)
*/
inline static float tinymt32_generate_float(tinymt32_t * random) {
tinymt32_next_state(random);
return (tinymt32_temper(random) >> 8) * TINYMT32_MUL;
}
/**
* This function outputs floating point number from internal state.
* This function is implemented using union trick.
* @param random tinymt internal status
* @return floating point number r (1.0 <= r < 2.0)
*/
inline static float tinymt32_generate_float12(tinymt32_t * random) {
tinymt32_next_state(random);
return tinymt32_temper_conv(random);
}
/**
* This function outputs floating point number from internal state.
* This function is implemented using union trick.
* @param random tinymt internal status
* @return floating point number r (0.0 <= r < 1.0)
*/
inline static float tinymt32_generate_float01(tinymt32_t * random) {
tinymt32_next_state(random);
return tinymt32_temper_conv(random) - 1.0f;
}
/**
* This function outputs floating point number from internal state.
* This function may return 1.0 and never returns 0.0.
* @param random tinymt internal status
* @return floating point number r (0.0 < r <= 1.0)
*/
inline static float tinymt32_generate_floatOC(tinymt32_t * random) {
tinymt32_next_state(random);
return 1.0f - tinymt32_generate_float(random);
}
/**
* This function outputs floating point number from internal state.
* This function returns neither 0.0 nor 1.0.
* @param random tinymt internal status
* @return floating point number r (0.0 < r < 1.0)
*/
inline static float tinymt32_generate_floatOO(tinymt32_t * random) {
tinymt32_next_state(random);
return tinymt32_temper_conv_open(random) - 1.0f;
}
/**
* This function outputs double precision floating point number from
* internal state. The returned value has 32-bit precision.
* In other words, this function makes one double precision floating point
* number from one 32-bit unsigned integer.
* @param random tinymt internal status
* @return floating point number r (0.0 < r <= 1.0)
*/
inline static double tinymt32_generate_32double(tinymt32_t * random) {
tinymt32_next_state(random);
return tinymt32_temper(random) * (1.0 / 4294967296.0);
}
#if defined(__cplusplus)
}
#endif
#endif

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def configure(conf):
pass
def build(bld):
bld.stlib(source=['tinymt32.c'],
target='tinymt32',
use='pblibc')
# vim:filetype=python