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322 lines
8.4 KiB
V
322 lines
8.4 KiB
V
// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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module mt19937
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import math.bits
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import rand.util
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/*
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C++ functions for MT19937, with initialization improved 2002/2/10.
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Coded by Takuji Nishimura and Makoto Matsumoto.
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This is a faster version by taking Shawn Cokus's optimization,
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Matthe Bellew's simplification, Isaku Wada's real version.
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Copyright (C) 1997 - 2002, Makoto Matsumoto and Takuji Nishimura,
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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1. Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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3. The names of its contributors may not be used to endorse or promote
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products derived from this software without specific prior written
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permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
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CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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Any feedback is very welcome.
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http://www.math.sci.hiroshima-u.ac.jp/~m-mat/MT/emt.html
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email: m-mat @ math.sci.hiroshima-u.ac.jp (remove space)
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*/
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const (
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nn = 312
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mm = 156
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matrix_a = 0xB5026F5AA96619E9
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um = 0xFFFFFFFF80000000
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lm = 0x7FFFFFFF
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inv_f64_limit = 1.0 / 9007199254740992.0
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)
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// A generator that uses the Mersenne Twister algorithm with period 2^19937
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pub struct MT19937RNG {
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mut:
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state []u64 = calculate_state(util.time_seed_array(2), mut []u64{len: nn})
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mti int = nn
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next_rnd u32 = 0
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has_next bool = false
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}
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fn calculate_state(seed_data []u32, mut state []u64) []u64 {
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lo := u64(seed_data[0])
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hi := u64(seed_data[1])
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state[0] = u64((hi << 32) | lo)
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for j := 1; j < nn; j++ {
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state[j] = u64(6364136223846793005) * (state[j - 1] ^ (state[j - 1] >> 62)) + u64(j)
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}
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return state
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}
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// seed() - Set the seed, needs only two u32s in little endian format as [lower, higher]
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pub fn (mut rng MT19937RNG) seed(seed_data []u32) {
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if seed_data.len != 2 {
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eprintln('mt19937 needs only two 32bit integers as seed: [lower, higher]')
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exit(1)
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}
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rng.state = calculate_state(seed_data, mut rng.state)
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rng.mti = nn
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rng.next_rnd = 0
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rng.has_next = false
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}
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// rng.u32() - return a pseudorandom 32bit int in [0, 2**32)
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[inline]
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pub fn (mut rng MT19937RNG) u32() u32 {
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if rng.has_next {
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rng.has_next = false
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return rng.next_rnd
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}
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ans := rng.u64()
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rng.next_rnd = u32(ans >> 32)
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rng.has_next = true
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return u32(ans & 0xffffffff)
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}
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// rng.u64() - return a pseudorandom 64bit int in [0, 2**64)
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[inline]
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pub fn (mut rng MT19937RNG) u64() u64 {
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mag01 := [u64(0), u64(matrix_a)]
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mut x := u64(0)
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mut i := int(0)
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if rng.mti >= nn {
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for i = 0; i < nn - mm; i++ {
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x = (rng.state[i] & um) | (rng.state[i + 1] & lm)
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rng.state[i] = rng.state[i + mm] ^ (x >> 1) ^ mag01[int(x & 1)]
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}
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for i < nn - 1 {
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x = (rng.state[i] & um) | (rng.state[i + 1] & lm)
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rng.state[i] = rng.state[i + (mm - nn)] ^ (x >> 1) ^ mag01[int(x & 1)]
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i++
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}
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x = (rng.state[nn - 1] & um) | (rng.state[0] & lm)
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rng.state[nn - 1] = rng.state[mm - 1] ^ (x >> 1) ^ mag01[int(x & 1)]
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rng.mti = 0
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}
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x = rng.state[rng.mti]
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rng.mti++
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x ^= (x >> 29) & 0x5555555555555555
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x ^= (x << 17) & 0x71D67FFFEDA60000
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x ^= (x << 37) & 0xFFF7EEE000000000
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x ^= (x >> 43)
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return x
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}
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// rng.int() - return a 32-bit signed (possibly negative) int
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[inline]
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pub fn (mut rng MT19937RNG) int() int {
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return int(rng.u32())
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}
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// rng.i64() - return a 64-bit signed (possibly negative) i64
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[inline]
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pub fn (mut rng MT19937RNG) i64() i64 {
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return i64(rng.u64())
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}
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// rng.int31() - return a 31bit positive pseudorandom integer
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[inline]
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pub fn (mut rng MT19937RNG) int31() int {
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return int(rng.u32() >> 1)
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}
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// rng.int63() - return a 63bit positive pseudorandom integer
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[inline]
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pub fn (mut rng MT19937RNG) int63() i64 {
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return i64(rng.u64() >> 1)
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}
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// rng.u32n(max) - return a 32bit u32 in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) u32n(max u32) u32 {
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if max == 0 {
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eprintln('max must be positive integer')
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exit(1)
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}
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// Check SysRNG in system_rng.c.v for explanation
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bit_len := bits.len_32(max)
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if bit_len == 32 {
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for {
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value := rng.u32()
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if value < max {
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return value
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}
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}
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} else {
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mask := (u32(1) << (bit_len + 1)) - 1
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for {
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value := rng.u32() & mask
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if value < max {
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return value
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}
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}
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}
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return u32(0)
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}
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// rng.u64n(max) - return a 64bit u64 in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) u64n(max u64) u64 {
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if max == 0 {
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eprintln('max must be positive integer')
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exit(1)
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}
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bit_len := bits.len_64(max)
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if bit_len == 64 {
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for {
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value := rng.u64()
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if value < max {
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return value
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}
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}
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} else {
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mask := (u64(1) << (bit_len + 1)) - 1
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for {
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value := rng.u64() & mask
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if value < max {
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return value
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}
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}
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}
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return u64(0)
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}
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// rng.u32n(min, max) returns a pseudorandom u32 value that is guaranteed to be in [min, max)
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[inline]
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pub fn (mut rng MT19937RNG) u32_in_range(min, max u32) u32 {
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if max <= min {
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eprintln('max must be greater than min')
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exit(1)
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}
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return min + rng.u32n(max - min)
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}
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// rng.u64n(min, max) returns a pseudorandom u64 value that is guaranteed to be in [min, max)
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[inline]
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pub fn (mut rng MT19937RNG) u64_in_range(min, max u64) u64 {
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if max <= min {
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eprintln('max must be greater than min')
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exit(1)
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}
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return min + rng.u64n(max - min)
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}
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// rng.intn(max) - return a 32bit positive int in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) intn(max int) int {
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if max <= 0 {
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eprintln('max has to be positive.')
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exit(1)
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}
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return int(rng.u32n(u32(max)))
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}
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// rng.i64n(max) - return a 64bit positive i64 in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) i64n(max i64) i64 {
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if max <= 0 {
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eprintln('max has to be positive.')
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exit(1)
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}
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return i64(rng.u64n(u64(max)))
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}
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// rng.int_in_range(min, max) - return a 32bit positive int in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) int_in_range(min, max int) int {
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if max <= min {
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eprintln('max must be greater than min.')
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exit(1)
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}
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return min + rng.intn(max - min)
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}
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// rng.i64_in_range(min, max) - return a 64bit positive i64 in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) i64_in_range(min, max i64) i64 {
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if max <= min {
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eprintln('max must be greater than min.')
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exit(1)
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}
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return min + rng.i64n(max - min)
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}
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// rng.f32() - return a 32bit real in [0, 1)
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[inline]
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pub fn (mut rng MT19937RNG) f32() f32 {
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return f32(rng.f64())
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}
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// rng.f64() - return 64bit real in [0, 1)
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[inline]
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pub fn (mut rng MT19937RNG) f64() f64 {
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return f64(rng.u64() >> 11) * inv_f64_limit
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}
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// rng.f32n(max) - return 64bit real in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) f32n(max f32) f32 {
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if max <= 0 {
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eprintln('max has to be positive.')
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exit(1)
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}
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return rng.f32() * max
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}
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// rng.f64n(max) - return 64bit real in [0, max)
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[inline]
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pub fn (mut rng MT19937RNG) f64n(max f64) f64 {
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if max <= 0 {
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eprintln('max has to be positive.')
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exit(1)
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}
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return rng.f64() * max
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}
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// rng.f32_in_range(min, max) returns a pseudorandom f32 that lies in [min, max)
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[inline]
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pub fn (mut rng MT19937RNG) f32_in_range(min, max f32) f32 {
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if max <= min {
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eprintln('max must be greater than min')
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exit(1)
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}
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return min + rng.f32n(max - min)
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}
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// rng.i64_in_range(min, max) returns a pseudorandom i64 that lies in [min, max)
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[inline]
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pub fn (mut rng MT19937RNG) f64_in_range(min, max f64) f64 {
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if max <= min {
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eprintln('max must be greater than min')
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exit(1)
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}
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return min + rng.f64n(max - min)
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}
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