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use super::WeightedError;
#[cfg(not(feature = "std"))]
use crate::alloc::vec::Vec;
#[cfg(not(feature = "std"))]
use crate::alloc::vec;
use core::fmt;
use core::iter::Sum;
use core::ops::{Add, AddAssign, Div, DivAssign, Mul, MulAssign, Sub, SubAssign};
use crate::distributions::uniform::SampleUniform;
use crate::distributions::Distribution;
use crate::distributions::Uniform;
use crate::Rng;
pub struct WeightedIndex<W: Weight> {
aliases: Vec<u32>,
no_alias_odds: Vec<W>,
uniform_index: Uniform<u32>,
uniform_within_weight_sum: Uniform<W>,
}
impl<W: Weight> WeightedIndex<W> {
pub fn new(weights: Vec<W>) -> Result<Self, WeightedError> {
let n = weights.len();
if n == 0 {
return Err(WeightedError::NoItem);
} else if n > ::core::u32::MAX as usize {
return Err(WeightedError::TooMany);
}
let n = n as u32;
let max_weight_size = W::try_from_u32_lossy(n)
.map(|n| W::MAX / n)
.unwrap_or(W::ZERO);
if !weights
.iter()
.all(|&w| W::ZERO <= w && w <= max_weight_size)
{
return Err(WeightedError::InvalidWeight);
}
let weight_sum = Weight::sum(weights.as_slice());
let weight_sum = if weight_sum > W::MAX {
W::MAX
} else {
weight_sum
};
if weight_sum == W::ZERO {
return Err(WeightedError::AllWeightsZero);
}
let n_converted = W::try_from_u32_lossy(n).unwrap();
let mut no_alias_odds = weights;
for odds in no_alias_odds.iter_mut() {
*odds *= n_converted;
*odds = if *odds > W::MAX { W::MAX } else { *odds };
}
struct Aliases {
aliases: Vec<u32>,
smalls_head: u32,
bigs_head: u32,
}
impl Aliases {
fn new(size: u32) -> Self {
Aliases {
aliases: vec![0; size as usize],
smalls_head: ::core::u32::MAX,
bigs_head: ::core::u32::MAX,
}
}
fn push_small(&mut self, idx: u32) {
self.aliases[idx as usize] = self.smalls_head;
self.smalls_head = idx;
}
fn push_big(&mut self, idx: u32) {
self.aliases[idx as usize] = self.bigs_head;
self.bigs_head = idx;
}
fn pop_small(&mut self) -> u32 {
let popped = self.smalls_head;
self.smalls_head = self.aliases[popped as usize];
popped
}
fn pop_big(&mut self) -> u32 {
let popped = self.bigs_head;
self.bigs_head = self.aliases[popped as usize];
popped
}
fn smalls_is_empty(&self) -> bool {
self.smalls_head == ::core::u32::MAX
}
fn bigs_is_empty(&self) -> bool {
self.bigs_head == ::core::u32::MAX
}
fn set_alias(&mut self, idx: u32, alias: u32) {
self.aliases[idx as usize] = alias;
}
}
let mut aliases = Aliases::new(n);
for (index, &odds) in no_alias_odds.iter().enumerate() {
if odds < weight_sum {
aliases.push_small(index as u32);
} else {
aliases.push_big(index as u32);
}
}
while !aliases.smalls_is_empty() && !aliases.bigs_is_empty() {
let s = aliases.pop_small();
let b = aliases.pop_big();
aliases.set_alias(s, b);
no_alias_odds[b as usize] = no_alias_odds[b as usize]
- weight_sum
+ no_alias_odds[s as usize];
if no_alias_odds[b as usize] < weight_sum {
aliases.push_small(b);
} else {
aliases.push_big(b);
}
}
while !aliases.smalls_is_empty() {
no_alias_odds[aliases.pop_small() as usize] = weight_sum;
}
while !aliases.bigs_is_empty() {
no_alias_odds[aliases.pop_big() as usize] = weight_sum;
}
let uniform_index = Uniform::new(0, n);
let uniform_within_weight_sum = Uniform::new(W::ZERO, weight_sum);
Ok(Self {
aliases: aliases.aliases,
no_alias_odds,
uniform_index,
uniform_within_weight_sum,
})
}
}
impl<W: Weight> Distribution<usize> for WeightedIndex<W> {
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> usize {
let candidate = rng.sample(self.uniform_index);
if rng.sample(&self.uniform_within_weight_sum) < self.no_alias_odds[candidate as usize] {
candidate as usize
} else {
self.aliases[candidate as usize] as usize
}
}
}
impl<W: Weight> fmt::Debug for WeightedIndex<W>
where
W: fmt::Debug,
Uniform<W>: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("WeightedIndex")
.field("aliases", &self.aliases)
.field("no_alias_odds", &self.no_alias_odds)
.field("uniform_index", &self.uniform_index)
.field("uniform_within_weight_sum", &self.uniform_within_weight_sum)
.finish()
}
}
impl<W: Weight> Clone for WeightedIndex<W>
where
Uniform<W>: Clone,
{
fn clone(&self) -> Self {
Self {
aliases: self.aliases.clone(),
no_alias_odds: self.no_alias_odds.clone(),
uniform_index: self.uniform_index.clone(),
uniform_within_weight_sum: self.uniform_within_weight_sum.clone(),
}
}
}
pub trait Weight:
Sized
+ Copy
+ SampleUniform
+ PartialOrd
+ Add<Output = Self>
+ AddAssign
+ Sub<Output = Self>
+ SubAssign
+ Mul<Output = Self>
+ MulAssign
+ Div<Output = Self>
+ DivAssign
+ Sum
{
const MAX: Self;
const ZERO: Self;
fn try_from_u32_lossy(n: u32) -> Option<Self>;
fn sum(values: &[Self]) -> Self {
values.iter().map(|x| *x).sum()
}
}
macro_rules! impl_weight_for_float {
($T: ident) => {
impl Weight for $T {
const MAX: Self = ::core::$T::MAX;
const ZERO: Self = 0.0;
fn try_from_u32_lossy(n: u32) -> Option<Self> {
Some(n as $T)
}
fn sum(values: &[Self]) -> Self {
pairwise_sum(values)
}
}
};
}
fn pairwise_sum<T: Weight>(values: &[T]) -> T {
if values.len() <= 32 {
values.iter().map(|x| *x).sum()
} else {
let mid = values.len() / 2;
let (a, b) = values.split_at(mid);
pairwise_sum(a) + pairwise_sum(b)
}
}
macro_rules! impl_weight_for_int {
($T: ident) => {
impl Weight for $T {
const MAX: Self = ::core::$T::MAX;
const ZERO: Self = 0;
fn try_from_u32_lossy(n: u32) -> Option<Self> {
let n_converted = n as Self;
if n_converted >= Self::ZERO && n_converted as u32 == n {
Some(n_converted)
} else {
None
}
}
}
};
}
impl_weight_for_float!(f64);
impl_weight_for_float!(f32);
impl_weight_for_int!(usize);
#[cfg(not(target_os = "emscripten"))]
impl_weight_for_int!(u128);
impl_weight_for_int!(u64);
impl_weight_for_int!(u32);
impl_weight_for_int!(u16);
impl_weight_for_int!(u8);
impl_weight_for_int!(isize);
#[cfg(not(target_os = "emscripten"))]
impl_weight_for_int!(i128);
impl_weight_for_int!(i64);
impl_weight_for_int!(i32);
impl_weight_for_int!(i16);
impl_weight_for_int!(i8);
#[cfg(test)]
mod test {
use super::*;
#[test]
#[cfg(not(miri))]
fn test_weighted_index_f32() {
test_weighted_index(f32::into);
assert_eq!(
WeightedIndex::new(vec![::core::f32::INFINITY]).unwrap_err(),
WeightedError::InvalidWeight
);
assert_eq!(
WeightedIndex::new(vec![-0_f32]).unwrap_err(),
WeightedError::AllWeightsZero
);
assert_eq!(
WeightedIndex::new(vec![-1_f32]).unwrap_err(),
WeightedError::InvalidWeight
);
assert_eq!(
WeightedIndex::new(vec![-::core::f32::INFINITY]).unwrap_err(),
WeightedError::InvalidWeight
);
assert_eq!(
WeightedIndex::new(vec![::core::f32::NAN]).unwrap_err(),
WeightedError::InvalidWeight
);
}
#[cfg(not(target_os = "emscripten"))]
#[test]
#[cfg(not(miri))]
fn test_weighted_index_u128() {
test_weighted_index(|x: u128| x as f64);
}
#[cfg(all(rustc_1_26, not(target_os = "emscripten")))]
#[test]
#[cfg(not(miri))]
fn test_weighted_index_i128() {
test_weighted_index(|x: i128| x as f64);
assert_eq!(
WeightedIndex::new(vec![-1_i128]).unwrap_err(),
WeightedError::InvalidWeight
);
assert_eq!(
WeightedIndex::new(vec![::core::i128::MIN]).unwrap_err(),
WeightedError::InvalidWeight
);
}
#[test]
#[cfg(not(miri))]
fn test_weighted_index_u8() {
test_weighted_index(u8::into);
}
#[test]
#[cfg(not(miri))]
fn test_weighted_index_i8() {
test_weighted_index(i8::into);
assert_eq!(
WeightedIndex::new(vec![-1_i8]).unwrap_err(),
WeightedError::InvalidWeight
);
assert_eq!(
WeightedIndex::new(vec![::core::i8::MIN]).unwrap_err(),
WeightedError::InvalidWeight
);
}
fn test_weighted_index<W: Weight, F: Fn(W) -> f64>(w_to_f64: F)
where
WeightedIndex<W>: fmt::Debug,
{
const NUM_WEIGHTS: u32 = 10;
const ZERO_WEIGHT_INDEX: u32 = 3;
const NUM_SAMPLES: u32 = 15000;
let mut rng = crate::test::rng(0x9c9fa0b0580a7031);
let weights = {
let mut weights = Vec::with_capacity(NUM_WEIGHTS as usize);
let random_weight_distribution = crate::distributions::Uniform::new_inclusive(
W::ZERO,
W::MAX / W::try_from_u32_lossy(NUM_WEIGHTS).unwrap(),
);
for _ in 0..NUM_WEIGHTS {
weights.push(rng.sample(&random_weight_distribution));
}
weights[ZERO_WEIGHT_INDEX as usize] = W::ZERO;
weights
};
let weight_sum = weights.iter().map(|w| *w).sum::<W>();
let expected_counts = weights
.iter()
.map(|&w| w_to_f64(w) / w_to_f64(weight_sum) * NUM_SAMPLES as f64)
.collect::<Vec<f64>>();
let weight_distribution = WeightedIndex::new(weights).unwrap();
let mut counts = vec![0; NUM_WEIGHTS as usize];
for _ in 0..NUM_SAMPLES {
counts[rng.sample(&weight_distribution)] += 1;
}
assert_eq!(counts[ZERO_WEIGHT_INDEX as usize], 0);
for (count, expected_count) in counts.into_iter().zip(expected_counts) {
let difference = (count as f64 - expected_count).abs();
let max_allowed_difference = NUM_SAMPLES as f64 / NUM_WEIGHTS as f64 * 0.1;
assert!(difference <= max_allowed_difference);
}
assert_eq!(
WeightedIndex::<W>::new(vec![]).unwrap_err(),
WeightedError::NoItem
);
assert_eq!(
WeightedIndex::new(vec![W::ZERO]).unwrap_err(),
WeightedError::AllWeightsZero
);
assert_eq!(
WeightedIndex::new(vec![W::MAX, W::MAX]).unwrap_err(),
WeightedError::InvalidWeight
);
}
}