Struct UniformInt
struct UniformInt<X> { ... }The back-end implementing UniformSampler for integer types.
Unless you are implementing UniformSampler for your own type, this type
should not be used directly, use Uniform instead.
Implementation notes
For simplicity, we use the same generic struct UniformInt<X> for all
integer types X. This gives us only one field type, X; to store unsigned
values of this size, we take use the fact that these conversions are no-ops.
For a closed range, the number of possible numbers we should generate is
range = (high - low + 1). To avoid bias, we must ensure that the size of
our sample space, zone, is a multiple of range; other values must be
rejected (by replacing with a new random sample).
As a special case, we use range = 0 to represent the full range of the
result type (i.e. for new_inclusive($ty::MIN, $ty::MAX)).
The optimum zone is the largest product of range which fits in our
(unsigned) target type. We calculate this by calculating how many numbers we
must reject: reject = (MAX + 1) % range = (MAX - range + 1) % range. Any (large)
product of range will suffice, thus in sample_single we multiply by a
power of 2 via bit-shifting (faster but may cause more rejections).
The smallest integer PRNGs generate is u32. For 8- and 16-bit outputs we
use u32 for our zone and samples (because it's not slower and because
it reduces the chance of having to reject a sample). In this case we cannot
store zone in the target type since it is too large, however we know
ints_to_reject < range <= $uty::MAX.
An alternative to using a modulus is widening multiply: After a widening
multiply by range, the result is in the high word. Then comparing the low
word against zone makes sure our distribution is uniform.
Bias
Unless the unbiased feature flag is used, outputs may have a small bias.
In the worst case, bias affects 1 in 2^n samples where n is
56 (i8 and u8), 48 (i16 and u16), 96 (i32 and u32), 64 (i64
and u64), 128 (i128 and u128).
Implementations
impl UniformSampler for UniformInt<i128>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<i16>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<i32>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<i64>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<i8>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<u128>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<u16>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<u32>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<u64>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl UniformSampler for UniformInt<u8>
fn new<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Result<Self, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample<R: Rng + ?Sized>(self: &Self, rng: &mut R) -> <Self as >::XSample from distribution, Lemire's method, unbiased
fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + Sizedfn sample_single_inclusive<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R) -> Result<<Self as >::X, Error> where B1: SampleBorrow<<Self as >::X> + Sized, B2: SampleBorrow<<Self as >::X> + SizedSample single value, Canon's method, biased
In the worst case, bias affects 1 in
2^nsamples where n is 56 (i8), 48 (i16), 96 (i32), 64 (i64), 128 (i128).
impl<'de, X> Deserialize for UniformInt<X>
fn deserialize<__D>(__deserializer: __D) -> Result<Self, <__D as >::Error> where __D: Deserializer<'de>
impl<T> Any for UniformInt<X>
fn type_id(self: &Self) -> TypeId
impl<T> Borrow for UniformInt<X>
fn borrow(self: &Self) -> &T
impl<T> BorrowMut for UniformInt<X>
fn borrow_mut(self: &mut Self) -> &mut T
impl<T> CloneToUninit for UniformInt<X>
unsafe fn clone_to_uninit(self: &Self, dest: *mut u8)
impl<T> DeserializeOwned for UniformInt<X>
impl<T> From for UniformInt<X>
fn from(t: T) -> TReturns the argument unchanged.
impl<T> ToOwned for UniformInt<X>
fn to_owned(self: &Self) -> Tfn clone_into(self: &Self, target: &mut T)
impl<T, U> Into for UniformInt<X>
fn into(self: Self) -> UCalls
U::from(self).That is, this conversion is whatever the implementation of
[From]<T> for Uchooses to do.
impl<T, U> TryFrom for UniformInt<X>
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
impl<T, U> TryInto for UniformInt<X>
fn try_into(self: Self) -> Result<U, <U as TryFrom<T>>::Error>
impl<V, T> VZip for UniformInt<X>
fn vzip(self: Self) -> V
impl<X> Freeze for UniformInt<X>
impl<X> RefUnwindSafe for UniformInt<X>
impl<X> Send for UniformInt<X>
impl<X> Serialize for UniformInt<X>
fn serialize<__S>(self: &Self, __serializer: __S) -> Result<<__S as >::Ok, <__S as >::Error> where __S: Serializer
impl<X> StructuralPartialEq for UniformInt<X>
impl<X> Sync for UniformInt<X>
impl<X> Unpin for UniformInt<X>
impl<X> UnsafeUnpin for UniformInt<X>
impl<X> UnwindSafe for UniformInt<X>
impl<X: $crate::clone::Clone> Clone for UniformInt<X>
fn clone(self: &Self) -> UniformInt<X>
impl<X: $crate::cmp::Eq> Eq for UniformInt<X>
impl<X: $crate::cmp::PartialEq> PartialEq for UniformInt<X>
fn eq(self: &Self, other: &UniformInt<X>) -> bool
impl<X: $crate::fmt::Debug> Debug for UniformInt<X>
fn fmt(self: &Self, f: &mut Formatter<'_>) -> Result