#[cfg(feature = "std")]
use std::time::Duration;
#[cfg(not(feature = "std"))]
use core::time::Duration;
use crate::Rng;
use crate::distributions::Distribution;
use crate::distributions::float::IntoFloat;
use crate::distributions::utils::{WideningMultiply, FloatSIMDUtils, FloatAsSIMD, BoolAsSIMD};
#[cfg(not(feature = "std"))]
#[allow(unused_imports)]
use crate::distributions::utils::Float;
#[cfg(feature="simd_support")]
use packed_simd::*;
#[derive(Clone, Copy, Debug)]
pub struct Uniform<X: SampleUniform> {
inner: X::Sampler,
}
impl<X: SampleUniform> Uniform<X> {
pub fn new<B1, B2>(low: B1, high: B2) -> Uniform<X>
where B1: SampleBorrow<X> + Sized,
B2: SampleBorrow<X> + Sized
{
Uniform { inner: X::Sampler::new(low, high) }
}
pub fn new_inclusive<B1, B2>(low: B1, high: B2) -> Uniform<X>
where B1: SampleBorrow<X> + Sized,
B2: SampleBorrow<X> + Sized
{
Uniform { inner: X::Sampler::new_inclusive(low, high) }
}
}
impl<X: SampleUniform> Distribution<X> for Uniform<X> {
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> X {
self.inner.sample(rng)
}
}
pub trait SampleUniform: Sized {
type Sampler: UniformSampler<X = Self>;
}
pub trait UniformSampler: Sized {
type X;
fn new<B1, B2>(low: B1, high: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized;
fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized;
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X;
fn sample_single<R: Rng + ?Sized, B1, B2>(low: B1, high: B2, rng: &mut R)
-> Self::X
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let uniform: Self = UniformSampler::new(low, high);
uniform.sample(rng)
}
}
impl<X: SampleUniform> From<::core::ops::Range<X>> for Uniform<X> {
fn from(r: ::core::ops::Range<X>) -> Uniform<X> {
Uniform::new(r.start, r.end)
}
}
impl<X: SampleUniform> From<::core::ops::RangeInclusive<X>> for Uniform<X> {
fn from(r: ::core::ops::RangeInclusive<X>) -> Uniform<X> {
Uniform::new_inclusive(r.start(), r.end())
}
}
pub trait SampleBorrow<Borrowed> {
fn borrow(&self) -> &Borrowed;
}
impl<Borrowed> SampleBorrow<Borrowed> for Borrowed where Borrowed: SampleUniform {
#[inline(always)]
fn borrow(&self) -> &Borrowed { self }
}
impl<'a, Borrowed> SampleBorrow<Borrowed> for &'a Borrowed where Borrowed: SampleUniform {
#[inline(always)]
fn borrow(&self) -> &Borrowed { *self }
}
#[derive(Clone, Copy, Debug)]
pub struct UniformInt<X> {
low: X,
range: X,
z: X,
}
macro_rules! uniform_int_impl {
($ty:ty, $unsigned:ident, $u_large:ident) => {
impl SampleUniform for $ty {
type Sampler = UniformInt<$ty>;
}
impl UniformSampler for UniformInt<$ty> {
type X = $ty;
#[inline]
fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low < high, "Uniform::new called with `low >= high`");
UniformSampler::new_inclusive(low, high - 1)
}
#[inline]
fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low <= high,
"Uniform::new_inclusive called with `low > high`");
let unsigned_max = ::core::$u_large::MAX;
let range = high.wrapping_sub(low).wrapping_add(1) as $unsigned;
let ints_to_reject =
if range > 0 {
let range = range as $u_large;
(unsigned_max - range + 1) % range
} else {
0
};
UniformInt {
low: low,
range: range as $ty,
z: ints_to_reject as $unsigned as $ty
}
}
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
let range = self.range as $unsigned as $u_large;
if range > 0 {
let unsigned_max = ::core::$u_large::MAX;
let zone = unsigned_max - (self.z as $unsigned as $u_large);
loop {
let v: $u_large = rng.gen();
let (hi, lo) = v.wmul(range);
if lo <= zone {
return self.low.wrapping_add(hi as $ty);
}
}
} else {
rng.gen()
}
}
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R)
-> Self::X
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low < high,
"UniformSampler::sample_single: low >= high");
let range = high.wrapping_sub(low) as $unsigned as $u_large;
let zone =
if ::core::$unsigned::MAX <= ::core::u16::MAX as $unsigned {
let unsigned_max: $u_large = ::core::$u_large::MAX;
let ints_to_reject = (unsigned_max - range + 1) % range;
unsigned_max - ints_to_reject
} else {
(range << range.leading_zeros()).wrapping_sub(1)
};
loop {
let v: $u_large = rng.gen();
let (hi, lo) = v.wmul(range);
if lo <= zone {
return low.wrapping_add(hi as $ty);
}
}
}
}
}
}
uniform_int_impl! { i8, u8, u32 }
uniform_int_impl! { i16, u16, u32 }
uniform_int_impl! { i32, u32, u32 }
uniform_int_impl! { i64, u64, u64 }
#[cfg(not(target_os = "emscripten"))]
uniform_int_impl! { i128, u128, u128 }
uniform_int_impl! { isize, usize, usize }
uniform_int_impl! { u8, u8, u32 }
uniform_int_impl! { u16, u16, u32 }
uniform_int_impl! { u32, u32, u32 }
uniform_int_impl! { u64, u64, u64 }
uniform_int_impl! { usize, usize, usize }
#[cfg(not(target_os = "emscripten"))]
uniform_int_impl! { u128, u128, u128 }
#[cfg(all(feature = "simd_support", feature = "nightly"))]
macro_rules! uniform_simd_int_impl {
($ty:ident, $unsigned:ident, $u_scalar:ident) => {
impl SampleUniform for $ty {
type Sampler = UniformInt<$ty>;
}
impl UniformSampler for UniformInt<$ty> {
type X = $ty;
#[inline]
fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low.lt(high).all(), "Uniform::new called with `low >= high`");
UniformSampler::new_inclusive(low, high - 1)
}
#[inline]
fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low.le(high).all(),
"Uniform::new_inclusive called with `low > high`");
let unsigned_max = ::core::$u_scalar::MAX;
let range: $unsigned = ((high - low) + 1).cast();
let not_full_range = range.gt($unsigned::splat(0));
let modulo = not_full_range.select(range, $unsigned::splat(unsigned_max));
let ints_to_reject = (unsigned_max - range + 1) % modulo;
let zone = unsigned_max - ints_to_reject;
UniformInt {
low: low,
range: range.cast(),
z: zone.cast(),
}
}
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
let range: $unsigned = self.range.cast();
let zone: $unsigned = self.z.cast();
let mut v: $unsigned = rng.gen();
loop {
let (hi, lo) = v.wmul(range);
let mask = lo.le(zone);
if mask.all() {
let hi: $ty = hi.cast();
let result = self.low + hi;
let v: $ty = v.cast();
return range.gt($unsigned::splat(0)).select(result, v);
}
v = mask.select(v, rng.gen());
}
}
}
};
($(($unsigned:ident, $signed:ident),)+ $u_scalar:ident) => {
$(
uniform_simd_int_impl!($unsigned, $unsigned, $u_scalar);
uniform_simd_int_impl!($signed, $unsigned, $u_scalar);
)+
};
}
#[cfg(all(feature = "simd_support", feature = "nightly"))]
uniform_simd_int_impl! {
(u64x2, i64x2),
(u64x4, i64x4),
(u64x8, i64x8),
u64
}
#[cfg(all(feature = "simd_support", feature = "nightly"))]
uniform_simd_int_impl! {
(u32x2, i32x2),
(u32x4, i32x4),
(u32x8, i32x8),
(u32x16, i32x16),
u32
}
#[cfg(all(feature = "simd_support", feature = "nightly"))]
uniform_simd_int_impl! {
(u16x2, i16x2),
(u16x4, i16x4),
(u16x8, i16x8),
(u16x16, i16x16),
(u16x32, i16x32),
u16
}
#[cfg(all(feature = "simd_support", feature = "nightly"))]
uniform_simd_int_impl! {
(u8x2, i8x2),
(u8x4, i8x4),
(u8x8, i8x8),
(u8x16, i8x16),
(u8x32, i8x32),
(u8x64, i8x64),
u8
}
#[derive(Clone, Copy, Debug)]
pub struct UniformFloat<X> {
low: X,
scale: X,
}
macro_rules! uniform_float_impl {
($ty:ty, $uty:ident, $f_scalar:ident, $u_scalar:ident, $bits_to_discard:expr) => {
impl SampleUniform for $ty {
type Sampler = UniformFloat<$ty>;
}
impl UniformSampler for UniformFloat<$ty> {
type X = $ty;
fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low.all_lt(high),
"Uniform::new called with `low >= high`");
assert!(low.all_finite() && high.all_finite(),
"Uniform::new called with non-finite boundaries");
let max_rand = <$ty>::splat((::core::$u_scalar::MAX >> $bits_to_discard)
.into_float_with_exponent(0) - 1.0);
let mut scale = high - low;
loop {
let mask = (scale * max_rand + low).ge_mask(high);
if mask.none() {
break;
}
scale = scale.decrease_masked(mask);
}
debug_assert!(<$ty>::splat(0.0).all_le(scale));
UniformFloat { low, scale }
}
fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low.all_le(high),
"Uniform::new_inclusive called with `low > high`");
assert!(low.all_finite() && high.all_finite(),
"Uniform::new_inclusive called with non-finite boundaries");
let max_rand = <$ty>::splat((::core::$u_scalar::MAX >> $bits_to_discard)
.into_float_with_exponent(0) - 1.0);
let mut scale = (high - low) / max_rand;
loop {
let mask = (scale * max_rand + low).gt_mask(high);
if mask.none() {
break;
}
scale = scale.decrease_masked(mask);
}
debug_assert!(<$ty>::splat(0.0).all_le(scale));
UniformFloat { low, scale }
}
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
let value1_2 = (rng.gen::<$uty>() >> $bits_to_discard)
.into_float_with_exponent(0);
let value0_1 = value1_2 - 1.0;
value0_1 * self.scale + self.low
}
#[inline]
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R)
-> Self::X
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low.all_lt(high),
"UniformSampler::sample_single: low >= high");
let mut scale = high - low;
loop {
let value1_2 = (rng.gen::<$uty>() >> $bits_to_discard)
.into_float_with_exponent(0);
let value0_1 = value1_2 - 1.0;
let res = value0_1 * scale + low;
debug_assert!(low.all_le(res) || !scale.all_finite());
if res.all_lt(high) {
return res;
}
let mask = !scale.finite_mask();
if mask.any() {
assert!(low.all_finite() && high.all_finite(),
"Uniform::sample_single: low and high must be finite");
scale = scale.decrease_masked(mask);
}
}
}
}
}
}
uniform_float_impl! { f32, u32, f32, u32, 32 - 23 }
uniform_float_impl! { f64, u64, f64, u64, 64 - 52 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f32x2, u32x2, f32, u32, 32 - 23 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f32x4, u32x4, f32, u32, 32 - 23 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f32x8, u32x8, f32, u32, 32 - 23 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f32x16, u32x16, f32, u32, 32 - 23 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f64x2, u64x2, f64, u64, 64 - 52 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f64x4, u64x4, f64, u64, 64 - 52 }
#[cfg(feature="simd_support")]
uniform_float_impl! { f64x8, u64x8, f64, u64, 64 - 52 }
#[derive(Clone, Copy, Debug)]
pub struct UniformDuration {
mode: UniformDurationMode,
offset: u32,
}
#[derive(Debug, Copy, Clone)]
enum UniformDurationMode {
Small {
secs: u64,
nanos: Uniform<u32>,
},
Medium {
nanos: Uniform<u64>,
},
Large {
max_secs: u64,
max_nanos: u32,
secs: Uniform<u64>,
}
}
impl SampleUniform for Duration {
type Sampler = UniformDuration;
}
impl UniformSampler for UniformDuration {
type X = Duration;
#[inline]
fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low < high, "Uniform::new called with `low >= high`");
UniformDuration::new_inclusive(low, high - Duration::new(0, 1))
}
#[inline]
fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
let low = *low_b.borrow();
let high = *high_b.borrow();
assert!(low <= high, "Uniform::new_inclusive called with `low > high`");
let low_s = low.as_secs();
let low_n = low.subsec_nanos();
let mut high_s = high.as_secs();
let mut high_n = high.subsec_nanos();
if high_n < low_n {
high_s = high_s - 1;
high_n = high_n + 1_000_000_000;
}
let mode = if low_s == high_s {
UniformDurationMode::Small {
secs: low_s,
nanos: Uniform::new_inclusive(low_n, high_n),
}
} else {
let max = high_s
.checked_mul(1_000_000_000)
.and_then(|n| n.checked_add(high_n as u64));
if let Some(higher_bound) = max {
let lower_bound = low_s * 1_000_000_000 + low_n as u64;
UniformDurationMode::Medium {
nanos: Uniform::new_inclusive(lower_bound, higher_bound),
}
} else {
let max_nanos = high_n - low_n;
UniformDurationMode::Large {
max_secs: high_s,
max_nanos,
secs: Uniform::new_inclusive(low_s, high_s),
}
}
};
UniformDuration {
mode,
offset: low_n,
}
}
#[inline]
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Duration {
match self.mode {
UniformDurationMode::Small { secs, nanos } => {
let n = nanos.sample(rng);
Duration::new(secs, n)
}
UniformDurationMode::Medium { nanos } => {
let nanos = nanos.sample(rng);
Duration::new(nanos / 1_000_000_000, (nanos % 1_000_000_000) as u32)
}
UniformDurationMode::Large { max_secs, max_nanos, secs } => {
let nano_range = Uniform::new(0, 1_000_000_000);
loop {
let s = secs.sample(rng);
let n = nano_range.sample(rng);
if !(s == max_secs && n > max_nanos) {
let sum = n + self.offset;
break Duration::new(s, sum);
}
}
}
}
}
}
#[cfg(test)]
mod tests {
use crate::Rng;
use crate::rngs::mock::StepRng;
use crate::distributions::uniform::Uniform;
use crate::distributions::utils::FloatAsSIMD;
#[cfg(feature="simd_support")] use packed_simd::*;
#[should_panic]
#[test]
fn test_uniform_bad_limits_equal_int() {
Uniform::new(10, 10);
}
#[test]
fn test_uniform_good_limits_equal_int() {
let mut rng = crate::test::rng(804);
let dist = Uniform::new_inclusive(10, 10);
for _ in 0..20 {
assert_eq!(rng.sample(dist), 10);
}
}
#[should_panic]
#[test]
fn test_uniform_bad_limits_flipped_int() {
Uniform::new(10, 5);
}
#[test]
#[cfg(not(miri))]
fn test_integers() {
use core::{i8, i16, i32, i64, isize};
use core::{u8, u16, u32, u64, usize};
#[cfg(not(target_os = "emscripten"))]
use core::{i128, u128};
let mut rng = crate::test::rng(251);
macro_rules! t {
($ty:ident, $v:expr, $le:expr, $lt:expr) => {{
for &(low, high) in $v.iter() {
let my_uniform = Uniform::new(low, high);
for _ in 0..1000 {
let v: $ty = rng.sample(my_uniform);
assert!($le(low, v) && $lt(v, high));
}
let my_uniform = Uniform::new_inclusive(low, high);
for _ in 0..1000 {
let v: $ty = rng.sample(my_uniform);
assert!($le(low, v) && $le(v, high));
}
let my_uniform = Uniform::new(&low, high);
for _ in 0..1000 {
let v: $ty = rng.sample(my_uniform);
assert!($le(low, v) && $lt(v, high));
}
let my_uniform = Uniform::new_inclusive(&low, &high);
for _ in 0..1000 {
let v: $ty = rng.sample(my_uniform);
assert!($le(low, v) && $le(v, high));
}
for _ in 0..1000 {
let v: $ty = rng.gen_range(low, high);
assert!($le(low, v) && $lt(v, high));
}
}
}};
($($ty:ident),*) => {{
$(t!(
$ty,
[(0, 10), (10, 127), ($ty::MIN, $ty::MAX)],
|x, y| x <= y,
|x, y| x < y
);)*
}};
($($ty:ident),* => $scalar:ident) => {{
$(t!(
$ty,
[
($ty::splat(0), $ty::splat(10)),
($ty::splat(10), $ty::splat(127)),
($ty::splat($scalar::MIN), $ty::splat($scalar::MAX)),
],
|x: $ty, y| x.le(y).all(),
|x: $ty, y| x.lt(y).all()
);)*
}};
}
t!(i8, i16, i32, i64, isize,
u8, u16, u32, u64, usize);
#[cfg(not(target_os = "emscripten"))]
t!(i128, u128);
#[cfg(all(feature = "simd_support", feature = "nightly"))]
{
t!(u8x2, u8x4, u8x8, u8x16, u8x32, u8x64 => u8);
t!(i8x2, i8x4, i8x8, i8x16, i8x32, i8x64 => i8);
t!(u16x2, u16x4, u16x8, u16x16, u16x32 => u16);
t!(i16x2, i16x4, i16x8, i16x16, i16x32 => i16);
t!(u32x2, u32x4, u32x8, u32x16 => u32);
t!(i32x2, i32x4, i32x8, i32x16 => i32);
t!(u64x2, u64x4, u64x8 => u64);
t!(i64x2, i64x4, i64x8 => i64);
}
}
#[test]
#[cfg(not(miri))]
fn test_floats() {
let mut rng = crate::test::rng(252);
let mut zero_rng = StepRng::new(0, 0);
let mut max_rng = StepRng::new(0xffff_ffff_ffff_ffff, 0);
macro_rules! t {
($ty:ty, $f_scalar:ident, $bits_shifted:expr) => {{
let v: &[($f_scalar, $f_scalar)]=
&[(0.0, 100.0),
(-1e35, -1e25),
(1e-35, 1e-25),
(-1e35, 1e35),
(<$f_scalar>::from_bits(0), <$f_scalar>::from_bits(3)),
(-<$f_scalar>::from_bits(10), -<$f_scalar>::from_bits(1)),
(-<$f_scalar>::from_bits(5), 0.0),
(-<$f_scalar>::from_bits(7), -0.0),
(10.0, ::core::$f_scalar::MAX),
(-100.0, ::core::$f_scalar::MAX),
(-::core::$f_scalar::MAX / 5.0, ::core::$f_scalar::MAX),
(-::core::$f_scalar::MAX, ::core::$f_scalar::MAX / 5.0),
(-::core::$f_scalar::MAX * 0.8, ::core::$f_scalar::MAX * 0.7),
(-::core::$f_scalar::MAX, ::core::$f_scalar::MAX),
];
for &(low_scalar, high_scalar) in v.iter() {
for lane in 0..<$ty>::lanes() {
let low = <$ty>::splat(0.0 as $f_scalar).replace(lane, low_scalar);
let high = <$ty>::splat(1.0 as $f_scalar).replace(lane, high_scalar);
let my_uniform = Uniform::new(low, high);
let my_incl_uniform = Uniform::new_inclusive(low, high);
for _ in 0..100 {
let v = rng.sample(my_uniform).extract(lane);
assert!(low_scalar <= v && v < high_scalar);
let v = rng.sample(my_incl_uniform).extract(lane);
assert!(low_scalar <= v && v <= high_scalar);
let v = rng.gen_range(low, high).extract(lane);
assert!(low_scalar <= v && v < high_scalar);
}
assert_eq!(rng.sample(Uniform::new_inclusive(low, low)).extract(lane), low_scalar);
assert_eq!(zero_rng.sample(my_uniform).extract(lane), low_scalar);
assert_eq!(zero_rng.sample(my_incl_uniform).extract(lane), low_scalar);
assert_eq!(zero_rng.gen_range(low, high).extract(lane), low_scalar);
assert!(max_rng.sample(my_uniform).extract(lane) < high_scalar);
assert!(max_rng.sample(my_incl_uniform).extract(lane) <= high_scalar);
if (high_scalar - low_scalar) > 0.0001 {
let mut lowering_max_rng =
StepRng::new(0xffff_ffff_ffff_ffff,
(-1i64 << $bits_shifted) as u64);
assert!(lowering_max_rng.gen_range(low, high).extract(lane) < high_scalar);
}
}
}
assert_eq!(rng.sample(Uniform::new_inclusive(::core::$f_scalar::MAX,
::core::$f_scalar::MAX)),
::core::$f_scalar::MAX);
assert_eq!(rng.sample(Uniform::new_inclusive(-::core::$f_scalar::MAX,
-::core::$f_scalar::MAX)),
-::core::$f_scalar::MAX);
}}
}
t!(f32, f32, 32 - 23);
t!(f64, f64, 64 - 52);
#[cfg(feature="simd_support")]
{
t!(f32x2, f32, 32 - 23);
t!(f32x4, f32, 32 - 23);
t!(f32x8, f32, 32 - 23);
t!(f32x16, f32, 32 - 23);
t!(f64x2, f64, 64 - 52);
t!(f64x4, f64, 64 - 52);
t!(f64x8, f64, 64 - 52);
}
}
#[test]
#[cfg(all(feature="std",
not(target_arch = "wasm32"),
not(target_arch = "asmjs")))]
#[cfg(not(miri))]
fn test_float_assertions() {
use std::panic::catch_unwind;
use super::SampleUniform;
fn range<T: SampleUniform>(low: T, high: T) {
let mut rng = crate::test::rng(253);
rng.gen_range(low, high);
}
macro_rules! t {
($ty:ident, $f_scalar:ident) => {{
let v: &[($f_scalar, $f_scalar)] =
&[(::std::$f_scalar::NAN, 0.0),
(1.0, ::std::$f_scalar::NAN),
(::std::$f_scalar::NAN, ::std::$f_scalar::NAN),
(1.0, 0.5),
(::std::$f_scalar::MAX, -::std::$f_scalar::MAX),
(::std::$f_scalar::INFINITY, ::std::$f_scalar::INFINITY),
(::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::NEG_INFINITY),
(::std::$f_scalar::NEG_INFINITY, 5.0),
(5.0, ::std::$f_scalar::INFINITY),
(::std::$f_scalar::NAN, ::std::$f_scalar::INFINITY),
(::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::NAN),
(::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::INFINITY),
];
for &(low_scalar, high_scalar) in v.iter() {
for lane in 0..<$ty>::lanes() {
let low = <$ty>::splat(0.0 as $f_scalar).replace(lane, low_scalar);
let high = <$ty>::splat(1.0 as $f_scalar).replace(lane, high_scalar);
assert!(catch_unwind(|| range(low, high)).is_err());
assert!(catch_unwind(|| Uniform::new(low, high)).is_err());
assert!(catch_unwind(|| Uniform::new_inclusive(low, high)).is_err());
assert!(catch_unwind(|| range(low, low)).is_err());
assert!(catch_unwind(|| Uniform::new(low, low)).is_err());
}
}
}}
}
t!(f32, f32);
t!(f64, f64);
#[cfg(feature="simd_support")]
{
t!(f32x2, f32);
t!(f32x4, f32);
t!(f32x8, f32);
t!(f32x16, f32);
t!(f64x2, f64);
t!(f64x4, f64);
t!(f64x8, f64);
}
}
#[test]
#[cfg(not(miri))]
fn test_durations() {
#[cfg(feature = "std")]
use std::time::Duration;
#[cfg(not(feature = "std"))]
use core::time::Duration;
let mut rng = crate::test::rng(253);
let v = &[(Duration::new(10, 50000), Duration::new(100, 1234)),
(Duration::new(0, 100), Duration::new(1, 50)),
(Duration::new(0, 0), Duration::new(u64::max_value(), 999_999_999))];
for &(low, high) in v.iter() {
let my_uniform = Uniform::new(low, high);
for _ in 0..1000 {
let v = rng.sample(my_uniform);
assert!(low <= v && v < high);
}
}
}
#[test]
fn test_custom_uniform() {
use crate::distributions::uniform::{UniformSampler, UniformFloat, SampleUniform, SampleBorrow};
#[derive(Clone, Copy, PartialEq, PartialOrd)]
struct MyF32 {
x: f32,
}
#[derive(Clone, Copy, Debug)]
struct UniformMyF32 {
inner: UniformFloat<f32>,
}
impl UniformSampler for UniformMyF32 {
type X = MyF32;
fn new<B1, B2>(low: B1, high: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
UniformMyF32 {
inner: UniformFloat::<f32>::new(low.borrow().x, high.borrow().x),
}
}
fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
where B1: SampleBorrow<Self::X> + Sized,
B2: SampleBorrow<Self::X> + Sized
{
UniformSampler::new(low, high)
}
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
MyF32 { x: self.inner.sample(rng) }
}
}
impl SampleUniform for MyF32 {
type Sampler = UniformMyF32;
}
let (low, high) = (MyF32{ x: 17.0f32 }, MyF32{ x: 22.0f32 });
let uniform = Uniform::new(low, high);
let mut rng = crate::test::rng(804);
for _ in 0..100 {
let x: MyF32 = rng.sample(uniform);
assert!(low <= x && x < high);
}
}
#[test]
fn test_uniform_from_std_range() {
let r = Uniform::from(2u32..7);
assert_eq!(r.inner.low, 2);
assert_eq!(r.inner.range, 5);
let r = Uniform::from(2.0f64..7.0);
assert_eq!(r.inner.low, 2.0);
assert_eq!(r.inner.scale, 5.0);
}
#[test]
fn test_uniform_from_std_range_inclusive() {
let r = Uniform::from(2u32..=6);
assert_eq!(r.inner.low, 2);
assert_eq!(r.inner.range, 5);
let r = Uniform::from(2.0f64..=7.0);
assert_eq!(r.inner.low, 2.0);
assert!(r.inner.scale > 5.0);
assert!(r.inner.scale < 5.0 + 1e-14);
}
}