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use crate::Rng;
use core::ops::{Bound, RangeBounds};
macro_rules! gen {
($($type:ty),+) => {
$(
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomGen<Generator, OUTPUT> for $type {
fn random(rng: &mut Generator) -> Self {
let mut bytes = [0u8; core::mem::size_of::<$type>()];
rng.fill_bytes(&mut bytes);
Self::from_ne_bytes(bytes)
}
}
)+
};
}
macro_rules! range {
($(($type:ty, $bigger:ty, $signed:ty)),+) => {
$(
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomRange<Generator, OUTPUT> for $type {
fn random_range<Bounds: RangeBounds<Self>>(rng: &mut Generator, bounds: Bounds) -> Self {
const BITS: $bigger = core::mem::size_of::<$type>() as $bigger * 8;
let lower = match bounds.start_bound() {
Bound::Included(lower) => *lower,
Bound::Excluded(lower) => lower.saturating_add(1),
Bound::Unbounded => <$type>::MIN,
};
let upper = match bounds.end_bound() {
Bound::Included(upper) => upper.saturating_add(1),
Bound::Excluded(upper) => *upper,
Bound::Unbounded => <$type>::MAX,
};
assert!(upper >= lower, "{} >= {} (lower bound was bigger than upper bound)", upper, lower);
let upper = upper.saturating_sub(lower);
let mut value = Self::random(rng);
let mut m = (upper as $bigger).wrapping_mul(value as $bigger);
if (m as $type) < upper {
let t = (!upper + 1) % upper;
while (m as $type) < t {
value = Self::random(rng);
m = (upper as $bigger).wrapping_mul(value as $bigger);
}
}
(m >> BITS) as $type + lower
}
}
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomRange<Generator, OUTPUT> for $signed {
fn random_range<Bounds: RangeBounds<Self>>(r: &mut Generator, bounds: Bounds) -> Self {
let lower = match bounds.start_bound() {
Bound::Included(lower) => *lower,
Bound::Excluded(lower) => lower.saturating_add(1),
Bound::Unbounded => <$signed>::MIN
};
let upper = match bounds.end_bound() {
Bound::Included(upper) => *upper,
Bound::Excluded(upper) => upper.saturating_sub(1),
Bound::Unbounded => <$signed>::MAX,
};
assert!(upper >= lower, "{} >= {} (lower bound was bigger than upper bound)", upper, lower);
let lower = lower.wrapping_sub(<$signed>::MIN) as $type;
let upper = upper.wrapping_sub(<$signed>::MIN) as $type;
<$type>::random_range(r, lower..=upper).wrapping_add(<$signed>::MAX as $type) as $signed
}
}
)+
}
}
pub trait RandomGen<Generator: Rng<OUTPUT>, const OUTPUT: usize> {
fn random(rng: &mut Generator) -> Self;
}
pub trait RandomRange<Generator: Rng<OUTPUT>, const OUTPUT: usize>:
RandomGen<Generator, OUTPUT>
{
fn random_range<Bounds: RangeBounds<Self>>(nng: &mut Generator, range: Bounds) -> Self;
}
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomGen<Generator, OUTPUT> for bool {
fn random(rng: &mut Generator) -> Self {
u8::random(rng) < 0b10000000
}
}
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomGen<Generator, OUTPUT> for f32 {
fn random(rng: &mut Generator) -> Self {
(u32::random(rng) as f32) / (u32::MAX as f32)
}
}
impl<Generator: Rng<OUTPUT>, const OUTPUT: usize> RandomGen<Generator, OUTPUT> for f64 {
fn random(rng: &mut Generator) -> Self {
(u64::random(rng) as f64) / (u64::MAX as f64)
}
}
gen!(i8, u8, i16, u16, i32, u32, i64, u64, i128, u128, isize, usize);
range!(
(u8, u16, i8),
(u16, u32, i16),
(u32, u64, i32),
(u64, u128, i64)
);
#[cfg(target_pointer_width = "16")]
range!((usize, u32, isize));
#[cfg(target_pointer_width = "32")]
range!((usize, u64, isize));
#[cfg(target_pointer_width = "64")]
range!((usize, u128, isize));
#[cfg(test)]
mod tests {
use crate::{Rng, WyRand};
#[test]
fn ensure_unsigned_in_range() {
let mut rng = WyRand::new();
for _ in 0..1000 {
let number = rng.generate_range(10_u64..=20);
assert!(
(10..=20).contains(&number),
"{} was outside of 10..=20",
number
);
let number = rng.generate_range(10_u64..30);
assert!(
(10..30).contains(&number),
"{} was outside of 10..30",
number
);
let number = rng.generate_range(512_u64..);
assert!((512..).contains(&number), "{} was outside of 512..", number);
let number = rng.generate_range(..1024_u64);
assert!(
(..1024).contains(&number),
"{} was outside of ..1024",
number
);
}
}
#[test]
fn ensure_signed_in_range() {
let mut rng = WyRand::new();
for _ in 0..1000 {
let number = rng.generate_range(-50..);
assert!((-50..).contains(&number), "{} was outside of -50..", number);
let number = rng.generate_range(..512);
assert!((..512).contains(&number), "{} was outside of ..512", number);
let number = rng.generate_range(..-32);
assert!((..-32).contains(&number), "{} was outside of ..-32", number);
}
}
#[test]
fn ensure_floats_generate_properly() {
let mut rng = WyRand::new();
for _ in 0..1000 {
let number = rng.generate::<f32>();
assert!(1.0 >= number, "{} was bigger than 1.0", number);
assert!(number >= 0.0, "0 was bigger than {}", number);
let number = rng.generate::<f64>();
assert!(1.0 >= number, "{} was bigger than 1.0", number);
assert!(number >= 0.0, "0 was bigger than {}", number);
}
}
#[test]
#[should_panic]
fn ensure_invalid_range_panics() {
let mut rng = WyRand::new();
#[allow(clippy::reversed_empty_ranges)]
rng.generate_range(10..=5);
}
}
