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SmallBitmap: Add documentation
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@ -3,22 +3,37 @@ use std::marker::PhantomData;
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use super::interner::{FixedSizeInterner, Interned};
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/// A compact set of [`Interned<T>`]
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///
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/// This set optimizes storage by storing the set of values in a bitmap, and further optimizes
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/// for bitmaps where the highest possible index (describing the limits of the "universe")
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/// is smaller than 64 by storing them as a `u64`.
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pub struct SmallBitmap<T> {
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// internals are not typed as they only represent the indexes that are set
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internal: SmallBitmapInternal,
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// restores typing with a tag
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_phantom: PhantomData<T>,
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}
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// manual implementation for when `T` is not Clone.
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impl<T> Clone for SmallBitmap<T> {
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fn clone(&self) -> Self {
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Self { internal: self.internal.clone(), _phantom: PhantomData }
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}
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}
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impl<T> SmallBitmap<T> {
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/// Constructs a new, **empty**, `SmallBitmap<T>` with an universe large enough to hold all elements
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/// from `interner`.
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///
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/// The constructed bitmap does not refer to any element in the interner, use [`from_iter`] if there should be
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/// some interned values in the bitmap after construction.
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pub fn for_interned_values_in(interner: &FixedSizeInterner<T>) -> Self {
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Self::new(interner.len())
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}
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// universe_length not stored anywhere, only used to decide between tiny/small
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// universe_length: passed 63, actual length will be rounded up 64
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// passed 66, actual 64 * xs.len() as u16 = 128, passed sized rounded up to the next 64
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/// Constructs a new, **empty**, `SmallBitmap<T>` with an universe at least as large as specified.
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///
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/// If the passed universe length is not a multiple of 64, it will be rounded up to the next multiple of 64.
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pub fn new(universe_length: u16) -> Self {
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if universe_length <= 64 {
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Self { internal: SmallBitmapInternal::Tiny(0), _phantom: PhantomData }
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@ -32,12 +47,24 @@ impl<T> SmallBitmap<T> {
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}
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}
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/// The highest index that can be set in this bitmap.
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///
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/// The universe length is always a multiple of 64, and may be higher than the value passed to [`Self::new`].
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pub fn universe_length(&self) -> u16 {
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match &self.internal {
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SmallBitmapInternal::Tiny(_) => 64,
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SmallBitmapInternal::Small(xs) => 64 * xs.len() as u16,
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}
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}
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/// Constructs a new `SmallBitmap<T>` with an universe large enough to hold all elements
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/// from `from_interner`, and containing all the `Interned<T>` produced by `xs`.
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///
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/// It is a logic error to pass an iterator producing `Interned<T>`s that don't belong to the passed interner.
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///
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/// # Panics
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///
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/// - If `xs` produces an element that doesn't fit the universe length obtained from `for_interner`.
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pub fn from_iter(
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xs: impl Iterator<Item = Interned<T>>,
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for_interner: &FixedSizeInterner<T>,
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@ -47,37 +74,96 @@ impl<T> SmallBitmap<T> {
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_phantom: PhantomData,
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}
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}
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/// Returns `true` if this bitmap does not contain any `Interned<T>`.
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pub fn is_empty(&self) -> bool {
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self.internal.is_empty()
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}
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/// Removes all `Interned<T>` from this bitmap, such that it [`is_empty`] returns `true` after this call.
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pub fn clear(&mut self) {
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self.internal.clear()
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}
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/// Whether `x` is part of the bitmap.
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///
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/// It is a logic error to pass an `Interned<T>` from a different interner that the one this bitmap references.
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///
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/// # Panics
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///
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/// - if `x` does not fit in [`universe_length`]
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pub fn contains(&self, x: Interned<T>) -> bool {
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self.internal.contains(x.into_raw())
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}
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/// Adds `x` to the bitmap, such that [`contains(x)`] returns `true` after this call.
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///
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/// It is a logic error to pass an `Interned<T>` from a different interner that the one this bitmap references.
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///
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/// # Panics
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///
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/// - if `x` does not fit in [`universe_length`]
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pub fn insert(&mut self, x: Interned<T>) {
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self.internal.insert(x.into_raw())
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}
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/// Removes `x` from the bitmap, such that [`contains(x)`] returns `false` after this call.
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///
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/// It is a logic error to pass an `Interned<T>` from a different interner that the one this bitmap references.
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///
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/// # Panics
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///
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/// - if `x` does not fit in [`universe_length`]
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pub fn remove(&mut self, x: Interned<T>) {
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self.internal.remove(x.into_raw())
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}
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/// Modifies in place this bitmap to retain only the elements that are also present in `other`.
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///
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/// # Panics
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///
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/// - if the universe lengths of `self` and `other` differ
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pub fn intersection(&mut self, other: &Self) {
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self.internal.intersection(&other.internal)
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}
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/// Modifies in place this bitmap to add the elements that are present in `other`.
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///
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/// # Panics
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///
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/// - if the universe lengths of `self` and `other` differ
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pub fn union(&mut self, other: &Self) {
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self.internal.union(&other.internal)
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}
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/// Modifies in place this bitmap to remove the elements that are also present in `other`.
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///
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/// # Panics
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///
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/// - if the universe lengths of `self` and `other` differ
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pub fn subtract(&mut self, other: &Self) {
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self.internal.subtract(&other.internal)
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}
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/// Whether all the elements of `self` are contained in `other`.
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///
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/// # Panics
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///
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/// - if the universe lengths of `self` and `other` differ
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pub fn is_subset(&self, other: &Self) -> bool {
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self.internal.is_subset(&other.internal)
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}
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/// Whether any element of `self` is contained in `other`.
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///
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/// # Panics
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///
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/// - if the universe lengths of `self` and `other` differ
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pub fn intersects(&self, other: &Self) -> bool {
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self.internal.intersects(&other.internal)
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}
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/// Returns an iterator of the `Interned<T>` that are present in this bitmap.
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pub fn iter(&self) -> impl Iterator<Item = Interned<T>> + '_ {
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self.internal.iter().map(|x| Interned::from_raw(x))
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}
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