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+// Copyright (c) 2019-2021 Alexander Medvednikov. All rights reserved.
+// Use of this source code is governed by an MIT license
+// that can be found in the LICENSE file.
+module musl
+
+import math.bits
+import rand.seed
+import rand.constants
+
+// MuslRNG ported from https://git.musl-libc.org/cgit/musl/tree/src/prng/rand_r.c
+pub struct MuslRNG {
+mut:
+ state u32 = seed.time_seed_32()
+}
+
+// seed sets the current random state based on `seed_data`.
+// seed expects `seed_data` to be only one `u32`.
+pub fn (mut rng MuslRNG) seed(seed_data []u32) {
+ if seed_data.len != 1 {
+ eprintln('MuslRNG needs only one unsigned 32-bit integer as a seed.')
+ exit(1)
+ }
+ rng.state = seed_data[0]
+}
+
+// temper returns a tempered value based on `prev` value.
+[inline]
+fn temper(prev u32) u32 {
+ mut x := prev
+ x ^= x >> 11
+ x ^= (x << 7) & 0x9D2C5680
+ x ^= (x << 15) & 0xEFC60000
+ x ^= (x >> 18)
+ return x
+}
+
+// u32 returns a pseudorandom 32-bit unsigned integer (`u32`).
+[inline]
+pub fn (mut rng MuslRNG) u32() u32 {
+ rng.state = rng.state * 1103515245 + 12345
+ // We are not dividing by 2 (or shifting right by 1)
+ // because we want all 32-bits of random data
+ return temper(rng.state)
+}
+
+// u64 returns a pseudorandom 64-bit unsigned integer (`u64`).
+[inline]
+pub fn (mut rng MuslRNG) u64() u64 {
+ return u64(rng.u32()) | (u64(rng.u32()) << 32)
+}
+
+// u32n returns a pseudorandom 32-bit unsigned integer `u32` in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) u32n(max u32) u32 {
+ if max == 0 {
+ eprintln('max must be positive integer.')
+ exit(1)
+ }
+ // Check SysRNG in system_rng.c.v for explanation
+ bit_len := bits.len_32(max)
+ if bit_len == 32 {
+ for {
+ value := rng.u32()
+ if value < max {
+ return value
+ }
+ }
+ } else {
+ mask := (u32(1) << (bit_len + 1)) - 1
+ for {
+ value := rng.u32() & mask
+ if value < max {
+ return value
+ }
+ }
+ }
+ return u32(0)
+}
+
+// u64n returns a pseudorandom 64-bit unsigned integer (`u64`) in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) u64n(max u64) u64 {
+ if max == 0 {
+ eprintln('max must be positive integer.')
+ exit(1)
+ }
+ bit_len := bits.len_64(max)
+ if bit_len == 64 {
+ for {
+ value := rng.u64()
+ if value < max {
+ return value
+ }
+ }
+ } else {
+ mask := (u64(1) << (bit_len + 1)) - 1
+ for {
+ value := rng.u64() & mask
+ if value < max {
+ return value
+ }
+ }
+ }
+ return u64(0)
+}
+
+// u32_in_range returns a pseudorandom 32-bit unsigned integer (`u32`) in range `[min, max)`.
+[inline]
+pub fn (mut rng MuslRNG) u32_in_range(min u32, max u32) u32 {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.u32n(u32(max - min))
+}
+
+// u64_in_range returns a pseudorandom 64-bit unsigned integer (`u64`) in range `[min, max)`.
+[inline]
+pub fn (mut rng MuslRNG) u64_in_range(min u64, max u64) u64 {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.u64n(max - min)
+}
+
+// int returns a 32-bit signed (possibly negative) integer (`int`).
+[inline]
+pub fn (mut rng MuslRNG) int() int {
+ return int(rng.u32())
+}
+
+// i64 returns a 64-bit signed (possibly negative) integer (`i64`).
+[inline]
+pub fn (mut rng MuslRNG) i64() i64 {
+ return i64(rng.u64())
+}
+
+// int31 returns a 31-bit positive pseudorandom integer (`int`).
+[inline]
+pub fn (mut rng MuslRNG) int31() int {
+ return int(rng.u32() >> 1)
+}
+
+// int63 returns a 63-bit positive pseudorandom integer (`i64`).
+[inline]
+pub fn (mut rng MuslRNG) int63() i64 {
+ return i64(rng.u64() >> 1)
+}
+
+// intn returns a 32-bit positive int in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) intn(max int) int {
+ if max <= 0 {
+ eprintln('max has to be positive.')
+ exit(1)
+ }
+ return int(rng.u32n(u32(max)))
+}
+
+// i64n returns a 64-bit positive integer `i64` in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) i64n(max i64) i64 {
+ if max <= 0 {
+ eprintln('max has to be positive.')
+ exit(1)
+ }
+ return i64(rng.u64n(u64(max)))
+}
+
+// int_in_range returns a 32-bit positive integer `int` in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) int_in_range(min int, max int) int {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.intn(max - min)
+}
+
+// i64_in_range returns a 64-bit positive integer `i64` in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) i64_in_range(min i64, max i64) i64 {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.i64n(max - min)
+}
+
+// f32 returns a pseudorandom `f32` value in range `[0, 1)`.
+[inline]
+pub fn (mut rng MuslRNG) f32() f32 {
+ return f32(rng.u32()) / constants.max_u32_as_f32
+}
+
+// f64 returns a pseudorandom `f64` value in range `[0, 1)`.
+[inline]
+pub fn (mut rng MuslRNG) f64() f64 {
+ return f64(rng.u64()) / constants.max_u64_as_f64
+}
+
+// f32n returns a pseudorandom `f32` value in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) f32n(max f32) f32 {
+ if max <= 0 {
+ eprintln('max has to be positive.')
+ exit(1)
+ }
+ return rng.f32() * max
+}
+
+// f64n returns a pseudorandom `f64` value in range `[0, max)`.
+[inline]
+pub fn (mut rng MuslRNG) f64n(max f64) f64 {
+ if max <= 0 {
+ eprintln('max has to be positive.')
+ exit(1)
+ }
+ return rng.f64() * max
+}
+
+// f32_in_range returns a pseudorandom `f32` in range `[min, max)`.
+[inline]
+pub fn (mut rng MuslRNG) f32_in_range(min f32, max f32) f32 {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.f32n(max - min)
+}
+
+// i64_in_range returns a pseudorandom `i64` in range `[min, max)`.
+[inline]
+pub fn (mut rng MuslRNG) f64_in_range(min f64, max f64) f64 {
+ if max <= min {
+ eprintln('max must be greater than min.')
+ exit(1)
+ }
+ return min + rng.f64n(max - min)
+}