source: libcfa/src/bits/random.hfa@ db4a8cf

// 
// Cforall Version 1.0.0 Copyright (C) 2022 University of Waterloo
// 
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// random.hfa -- 
// 
// Author           : Peter A. Buhr
// Created On       : Fri Jan 14 07:18:11 2022
// Last Modified By : Peter A. Buhr
// Last Modified On : Fri Jan 14 07:18:58 2022
// Update Count     : 1
// 

#pragma once

#include <stdint.h>

// Pipelined to allow out-of-order overlap with reduced dependencies. Critically, the current random state is returned
// (copied), and then compute and store the next random value.

#if defined(__SIZEOF_INT128__)
//--------------------------------------------------
        static inline uint64_t lehmer64( __uint128_t & state ) {
                __uint128_t ret = state;
                state *= 0xda942042e4dd58b5;
                return ret >> 64;
        }

//--------------------------------------------------
        static inline uint64_t wyhash64( uint64_t & state ) {
                state += 0x60bee2bee120fc15;
                __uint128_t tmp;
                tmp = (__uint128_t) state * 0xa3b195354a39b70d;
                uint64_t m1 = (tmp >> 64) ^ tmp;
                tmp = (__uint128_t)m1 * 0x1b03738712fad5c9;
                uint64_t m2 = (tmp >> 64) ^ tmp;
                return m2;
        }
#endif

//--------------------------------------------------
static inline uint64_t xorshift_13_7_17( uint64_t & state ) {
        uint64_t ret = state;
        state ^= state << 13;
        state ^= state >> 7;
        state ^= state << 17;
        return ret;
}

//--------------------------------------------------
static inline uint32_t xorshift_6_21_7( uint32_t & state ) {
        uint32_t ret = state;
        state ^= state << 6;
        state ^= state >> 21;
        state ^= state << 7;
        return ret;
} // xorshift_6_21_7

//--------------------------------------------------
typedef struct {
  uint32_t a, b, c, d;
  uint32_t counter;
} xorwow__state_t;

// The state array must be initialized to not be all zero in the first four words.
static inline uint32_t xorwow( xorwow__state_t & state ) {
        // Algorithm "xorwow" from p. 5 of Marsaglia, "Xorshift RNGs".
        uint32_t ret = state.a + state.counter;
        uint32_t t = state.d;

        uint32_t const s = state.a;
        state.d = state.c;
        state.c = state.b;
        state.b = s;

        t ^= t >> 2;
        t ^= t << 1;
        t ^= s ^ (s << 4);
        state.a = t;

        state.counter += 362437;
        return ret;
}

//--------------------------------------------------
static inline uint32_t LCG( uint32_t & state ) {                // linear congruential generator
        uint32_t ret = state;
        state = 36969 * (state & 65535) + (state >> 16);        // 36969 is NOT prime! No not change it!
        return ret;
} // LCG

//--------------------------------------------------
#define M  (1_l64u << 48_l64u)
#define A  (25214903917_l64u)
#define AI (18446708753438544741_l64u)
#define C  (11_l64u)
#define D  (16_l64u)

// Bi-directional LCG random-number generator
static inline uint32_t LCGBI_fwd( uint64_t & state ) {
        state = (A * state + C) & (M - 1);
        return state >> D;
}

static inline uint32_t LCGBI_bck( uint64_t & state ) {
        unsigned int r = state >> D;
        state = AI * (state - C) & (M - 1);
        return r;
}

#undef M
#undef A
#undef AI
#undef C
#undef D