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#[cfg(test)]
mod tests;
use self::Entry::*;
use hashbrown::hash_map as base;
use crate::borrow::Borrow;
use crate::cell::Cell;
use crate::collections::TryReserveError;
use crate::collections::TryReserveErrorKind;
use crate::fmt::{self, Debug};
#[allow(deprecated)]
use crate::hash::{BuildHasher, Hash, Hasher, SipHasher13};
use crate::iter::{FromIterator, FusedIterator};
use crate::ops::Index;
use crate::sys;
/// A [hash map] implemented with quadratic probing and SIMD lookup.
///
/// By default, `HashMap` uses a hashing algorithm selected to provide
/// resistance against HashDoS attacks. The algorithm is randomly seeded, and a
/// reasonable best-effort is made to generate this seed from a high quality,
/// secure source of randomness provided by the host without blocking the
/// program. Because of this, the randomness of the seed depends on the output
/// quality of the system's random number generator when the seed is created.
/// In particular, seeds generated when the system's entropy pool is abnormally
/// low such as during system boot may be of a lower quality.
///
/// The default hashing algorithm is currently SipHash 1-3, though this is
/// subject to change at any point in the future. While its performance is very
/// competitive for medium sized keys, other hashing algorithms will outperform
/// it for small keys such as integers as well as large keys such as long
/// strings, though those algorithms will typically *not* protect against
/// attacks such as HashDoS.
///
/// The hashing algorithm can be replaced on a per-`HashMap` basis using the
/// [`default`], [`with_hasher`], and [`with_capacity_and_hasher`] methods.
/// There are many alternative [hashing algorithms available on crates.io].
///
/// It is required that the keys implement the [`Eq`] and [`Hash`] traits, although
/// this can frequently be achieved by using `#[derive(PartialEq, Eq, Hash)]`.
/// If you implement these yourself, it is important that the following
/// property holds:
///
/// ```text
/// k1 == k2 -> hash(k1) == hash(k2)
/// ```
///
/// In other words, if two keys are equal, their hashes must be equal.
///
/// It is a logic error for a key to be modified in such a way that the key's
/// hash, as determined by the [`Hash`] trait, or its equality, as determined by
/// the [`Eq`] trait, changes while it is in the map. This is normally only
/// possible through [`Cell`], [`RefCell`], global state, I/O, or unsafe code.
/// The behavior resulting from such a logic error is not specified, but will
/// not result in undefined behavior. This could include panics, incorrect results,
/// aborts, memory leaks, and non-termination.
///
/// The hash table implementation is a Rust port of Google's [SwissTable].
/// The original C++ version of SwissTable can be found [here], and this
/// [CppCon talk] gives an overview of how the algorithm works.
///
/// [hash map]: crate::collections#use-a-hashmap-when
/// [hashing algorithms available on crates.io]: https://crates.io/keywords/hasher
/// [SwissTable]: https://abseil.io/blog/20180927-swisstables
/// [here]: https://github.com/abseil/abseil-cpp/blob/master/absl/container/internal/raw_hash_set.h
/// [CppCon talk]: https://www.youtube.com/watch?v=ncHmEUmJZf4
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// // Type inference lets us omit an explicit type signature (which
/// // would be `HashMap<String, String>` in this example).
/// let mut book_reviews = HashMap::new();
///
/// // Review some books.
/// book_reviews.insert(
/// "Adventures of Huckleberry Finn".to_string(),
/// "My favorite book.".to_string(),
/// );
/// book_reviews.insert(
/// "Grimms' Fairy Tales".to_string(),
/// "Masterpiece.".to_string(),
/// );
/// book_reviews.insert(
/// "Pride and Prejudice".to_string(),
/// "Very enjoyable.".to_string(),
/// );
/// book_reviews.insert(
/// "The Adventures of Sherlock Holmes".to_string(),
/// "Eye lyked it alot.".to_string(),
/// );
///
/// // Check for a specific one.
/// // When collections store owned values (String), they can still be
/// // queried using references (&str).
/// if !book_reviews.contains_key("Les Misérables") {
/// println!("We've got {} reviews, but Les Misérables ain't one.",
/// book_reviews.len());
/// }
///
/// // oops, this review has a lot of spelling mistakes, let's delete it.
/// book_reviews.remove("The Adventures of Sherlock Holmes");
///
/// // Look up the values associated with some keys.
/// let to_find = ["Pride and Prejudice", "Alice's Adventure in Wonderland"];
/// for &book in &to_find {
/// match book_reviews.get(book) {
/// Some(review) => println!("{}: {}", book, review),
/// None => println!("{} is unreviewed.", book)
/// }
/// }
///
/// // Look up the value for a key (will panic if the key is not found).
/// println!("Review for Jane: {}", book_reviews["Pride and Prejudice"]);
///
/// // Iterate over everything.
/// for (book, review) in &book_reviews {
/// println!("{}: \"{}\"", book, review);
/// }
/// ```
///
/// A `HashMap` with a known list of items can be initialized from an array:
///
/// ```
/// use std::collections::HashMap;
///
/// let solar_distance = HashMap::from([
/// ("Mercury", 0.4),
/// ("Venus", 0.7),
/// ("Earth", 1.0),
/// ("Mars", 1.5),
/// ]);
/// ```
///
/// `HashMap` implements an [`Entry API`](#method.entry), which allows
/// for complex methods of getting, setting, updating and removing keys and
/// their values:
///
/// ```
/// use std::collections::HashMap;
///
/// // type inference lets us omit an explicit type signature (which
/// // would be `HashMap<&str, u8>` in this example).
/// let mut player_stats = HashMap::new();
///
/// fn random_stat_buff() -> u8 {
/// // could actually return some random value here - let's just return
/// // some fixed value for now
/// 42
/// }
///
/// // insert a key only if it doesn't already exist
/// player_stats.entry("health").or_insert(100);
///
/// // insert a key using a function that provides a new value only if it
/// // doesn't already exist
/// player_stats.entry("defence").or_insert_with(random_stat_buff);
///
/// // update a key, guarding against the key possibly not being set
/// let stat = player_stats.entry("attack").or_insert(100);
/// *stat += random_stat_buff();
/// ```
///
/// The easiest way to use `HashMap` with a custom key type is to derive [`Eq`] and [`Hash`].
/// We must also derive [`PartialEq`].
///
/// [`RefCell`]: crate::cell::RefCell
/// [`Cell`]: crate::cell::Cell
/// [`default`]: Default::default
/// [`with_hasher`]: Self::with_hasher
/// [`with_capacity_and_hasher`]: Self::with_capacity_and_hasher
///
/// ```
/// use std::collections::HashMap;
///
/// #[derive(Hash, Eq, PartialEq, Debug)]
/// struct Viking {
/// name: String,
/// country: String,
/// }
///
/// impl Viking {
/// /// Creates a new Viking.
/// fn new(name: &str, country: &str) -> Viking {
/// Viking { name: name.to_string(), country: country.to_string() }
/// }
/// }
///
/// // Use a HashMap to store the vikings' health points.
/// let vikings = HashMap::from([
/// (Viking::new("Einar", "Norway"), 25),
/// (Viking::new("Olaf", "Denmark"), 24),
/// (Viking::new("Harald", "Iceland"), 12),
/// ]);
///
/// // Use derived implementation to print the status of the vikings.
/// for (viking, health) in &vikings {
/// println!("{:?} has {} hp", viking, health);
/// }
/// ```
#[cfg_attr(not(test), rustc_diagnostic_item = "HashMap")]
#[stable(feature = "rust1", since = "1.0.0")]
#[rustc_insignificant_dtor]
pub struct HashMap<K, V, S = RandomState> {
base: base::HashMap<K, V, S>,
}
impl<K, V> HashMap<K, V, RandomState> {
/// Creates an empty `HashMap`.
///
/// The hash map is initially created with a capacity of 0, so it will not allocate until it
/// is first inserted into.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// let mut map: HashMap<&str, i32> = HashMap::new();
/// ```
#[inline]
#[must_use]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn new() -> HashMap<K, V, RandomState> {
Default::default()
}
/// Creates an empty `HashMap` with the specified capacity.
///
/// The hash map will be able to hold at least `capacity` elements without
/// reallocating. If `capacity` is 0, the hash map will not allocate.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// let mut map: HashMap<&str, i32> = HashMap::with_capacity(10);
/// ```
#[inline]
#[must_use]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn with_capacity(capacity: usize) -> HashMap<K, V, RandomState> {
HashMap::with_capacity_and_hasher(capacity, Default::default())
}
}
impl<K, V, S> HashMap<K, V, S> {
/// Creates an empty `HashMap` which will use the given hash builder to hash
/// keys.
///
/// The created map has the default initial capacity.
///
/// Warning: `hash_builder` is normally randomly generated, and
/// is designed to allow HashMaps to be resistant to attacks that
/// cause many collisions and very poor performance. Setting it
/// manually using this function can expose a DoS attack vector.
///
/// The `hash_builder` passed should implement the [`BuildHasher`] trait for
/// the HashMap to be useful, see its documentation for details.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::RandomState;
///
/// let s = RandomState::new();
/// let mut map = HashMap::with_hasher(s);
/// map.insert(1, 2);
/// ```
#[inline]
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
pub fn with_hasher(hash_builder: S) -> HashMap<K, V, S> {
HashMap { base: base::HashMap::with_hasher(hash_builder) }
}
/// Creates an empty `HashMap` with the specified capacity, using `hash_builder`
/// to hash the keys.
///
/// The hash map will be able to hold at least `capacity` elements without
/// reallocating. If `capacity` is 0, the hash map will not allocate.
///
/// Warning: `hash_builder` is normally randomly generated, and
/// is designed to allow HashMaps to be resistant to attacks that
/// cause many collisions and very poor performance. Setting it
/// manually using this function can expose a DoS attack vector.
///
/// The `hash_builder` passed should implement the [`BuildHasher`] trait for
/// the HashMap to be useful, see its documentation for details.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::RandomState;
///
/// let s = RandomState::new();
/// let mut map = HashMap::with_capacity_and_hasher(10, s);
/// map.insert(1, 2);
/// ```
#[inline]
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
pub fn with_capacity_and_hasher(capacity: usize, hash_builder: S) -> HashMap<K, V, S> {
HashMap { base: base::HashMap::with_capacity_and_hasher(capacity, hash_builder) }
}
/// Returns the number of elements the map can hold without reallocating.
///
/// This number is a lower bound; the `HashMap<K, V>` might be able to hold
/// more, but is guaranteed to be able to hold at least this many.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// let map: HashMap<i32, i32> = HashMap::with_capacity(100);
/// assert!(map.capacity() >= 100);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn capacity(&self) -> usize {
self.base.capacity()
}
/// An iterator visiting all keys in arbitrary order.
/// The iterator element type is `&'a K`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// for key in map.keys() {
/// println!("{}", key);
/// }
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn keys(&self) -> Keys<'_, K, V> {
Keys { inner: self.iter() }
}
/// An iterator visiting all values in arbitrary order.
/// The iterator element type is `&'a V`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// for val in map.values() {
/// println!("{}", val);
/// }
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn values(&self) -> Values<'_, K, V> {
Values { inner: self.iter() }
}
/// An iterator visiting all values mutably in arbitrary order.
/// The iterator element type is `&'a mut V`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
///
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// for val in map.values_mut() {
/// *val = *val + 10;
/// }
///
/// for val in map.values() {
/// println!("{}", val);
/// }
/// ```
#[stable(feature = "map_values_mut", since = "1.10.0")]
pub fn values_mut(&mut self) -> ValuesMut<'_, K, V> {
ValuesMut { inner: self.iter_mut() }
}
/// An iterator visiting all key-value pairs in arbitrary order.
/// The iterator element type is `(&'a K, &'a V)`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// for (key, val) in map.iter() {
/// println!("key: {} val: {}", key, val);
/// }
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn iter(&self) -> Iter<'_, K, V> {
Iter { base: self.base.iter() }
}
/// An iterator visiting all key-value pairs in arbitrary order,
/// with mutable references to the values.
/// The iterator element type is `(&'a K, &'a mut V)`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// // Update all values
/// for (_, val) in map.iter_mut() {
/// *val *= 2;
/// }
///
/// for (key, val) in &map {
/// println!("key: {} val: {}", key, val);
/// }
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn iter_mut(&mut self) -> IterMut<'_, K, V> {
IterMut { base: self.base.iter_mut() }
}
/// Returns the number of elements in the map.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut a = HashMap::new();
/// assert_eq!(a.len(), 0);
/// a.insert(1, "a");
/// assert_eq!(a.len(), 1);
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub fn len(&self) -> usize {
self.base.len()
}
/// Returns `true` if the map contains no elements.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut a = HashMap::new();
/// assert!(a.is_empty());
/// a.insert(1, "a");
/// assert!(!a.is_empty());
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn is_empty(&self) -> bool {
self.base.is_empty()
}
/// Clears the map, returning all key-value pairs as an iterator. Keeps the
/// allocated memory for reuse.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut a = HashMap::new();
/// a.insert(1, "a");
/// a.insert(2, "b");
///
/// for (k, v) in a.drain().take(1) {
/// assert!(k == 1 || k == 2);
/// assert!(v == "a" || v == "b");
/// }
///
/// assert!(a.is_empty());
/// ```
#[inline]
#[stable(feature = "drain", since = "1.6.0")]
pub fn drain(&mut self) -> Drain<'_, K, V> {
Drain { base: self.base.drain() }
}
/// Creates an iterator which uses a closure to determine if an element should be removed.
///
/// If the closure returns true, the element is removed from the map and yielded.
/// If the closure returns false, or panics, the element remains in the map and will not be
/// yielded.
///
/// Note that `drain_filter` lets you mutate every value in the filter closure, regardless of
/// whether you choose to keep or remove it.
///
/// If the iterator is only partially consumed or not consumed at all, each of the remaining
/// elements will still be subjected to the closure and removed and dropped if it returns true.
///
/// It is unspecified how many more elements will be subjected to the closure
/// if a panic occurs in the closure, or a panic occurs while dropping an element,
/// or if the `DrainFilter` value is leaked.
///
/// # Examples
///
/// Splitting a map into even and odd keys, reusing the original map:
///
/// ```
/// #![feature(hash_drain_filter)]
/// use std::collections::HashMap;
///
/// let mut map: HashMap<i32, i32> = (0..8).map(|x| (x, x)).collect();
/// let drained: HashMap<i32, i32> = map.drain_filter(|k, _v| k % 2 == 0).collect();
///
/// let mut evens = drained.keys().copied().collect::<Vec<_>>();
/// let mut odds = map.keys().copied().collect::<Vec<_>>();
/// evens.sort();
/// odds.sort();
///
/// assert_eq!(evens, vec![0, 2, 4, 6]);
/// assert_eq!(odds, vec![1, 3, 5, 7]);
/// ```
#[inline]
#[unstable(feature = "hash_drain_filter", issue = "59618")]
pub fn drain_filter<F>(&mut self, pred: F) -> DrainFilter<'_, K, V, F>
where
F: FnMut(&K, &mut V) -> bool,
{
DrainFilter { base: self.base.drain_filter(pred) }
}
/// Clears the map, removing all key-value pairs. Keeps the allocated memory
/// for reuse.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut a = HashMap::new();
/// a.insert(1, "a");
/// a.clear();
/// assert!(a.is_empty());
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn clear(&mut self) {
self.base.clear();
}
/// Returns a reference to the map's [`BuildHasher`].
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::RandomState;
///
/// let hasher = RandomState::new();
/// let map: HashMap<i32, i32> = HashMap::with_hasher(hasher);
/// let hasher: &RandomState = map.hasher();
/// ```
#[inline]
#[stable(feature = "hashmap_public_hasher", since = "1.9.0")]
pub fn hasher(&self) -> &S {
self.base.hasher()
}
}
impl<K, V, S> HashMap<K, V, S>
where
K: Eq + Hash,
S: BuildHasher,
{
/// Reserves capacity for at least `additional` more elements to be inserted
/// in the `HashMap`. The collection may reserve more space to avoid
/// frequent reallocations.
///
/// # Panics
///
/// Panics if the new allocation size overflows [`usize`].
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// let mut map: HashMap<&str, i32> = HashMap::new();
/// map.reserve(10);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn reserve(&mut self, additional: usize) {
self.base.reserve(additional)
}
/// Tries to reserve capacity for at least `additional` more elements to be inserted
/// in the given `HashMap<K, V>`. The collection may reserve more space to avoid
/// frequent reallocations.
///
/// # Errors
///
/// If the capacity overflows, or the allocator reports a failure, then an error
/// is returned.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, isize> = HashMap::new();
/// map.try_reserve(10).expect("why is the test harness OOMing on 10 bytes?");
/// ```
#[inline]
#[stable(feature = "try_reserve", since = "1.57.0")]
pub fn try_reserve(&mut self, additional: usize) -> Result<(), TryReserveError> {
self.base.try_reserve(additional).map_err(map_try_reserve_error)
}
/// Shrinks the capacity of the map as much as possible. It will drop
/// down as much as possible while maintaining the internal rules
/// and possibly leaving some space in accordance with the resize policy.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<i32, i32> = HashMap::with_capacity(100);
/// map.insert(1, 2);
/// map.insert(3, 4);
/// assert!(map.capacity() >= 100);
/// map.shrink_to_fit();
/// assert!(map.capacity() >= 2);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn shrink_to_fit(&mut self) {
self.base.shrink_to_fit();
}
/// Shrinks the capacity of the map with a lower limit. It will drop
/// down no lower than the supplied limit while maintaining the internal rules
/// and possibly leaving some space in accordance with the resize policy.
///
/// If the current capacity is less than the lower limit, this is a no-op.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<i32, i32> = HashMap::with_capacity(100);
/// map.insert(1, 2);
/// map.insert(3, 4);
/// assert!(map.capacity() >= 100);
/// map.shrink_to(10);
/// assert!(map.capacity() >= 10);
/// map.shrink_to(0);
/// assert!(map.capacity() >= 2);
/// ```
#[inline]
#[stable(feature = "shrink_to", since = "1.56.0")]
pub fn shrink_to(&mut self, min_capacity: usize) {
self.base.shrink_to(min_capacity);
}
/// Gets the given key's corresponding entry in the map for in-place manipulation.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut letters = HashMap::new();
///
/// for ch in "a short treatise on fungi".chars() {
/// let counter = letters.entry(ch).or_insert(0);
/// *counter += 1;
/// }
///
/// assert_eq!(letters[&'s'], 2);
/// assert_eq!(letters[&'t'], 3);
/// assert_eq!(letters[&'u'], 1);
/// assert_eq!(letters.get(&'y'), None);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn entry(&mut self, key: K) -> Entry<'_, K, V> {
map_entry(self.base.rustc_entry(key))
}
/// Returns a reference to the value corresponding to the key.
///
/// The key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// assert_eq!(map.get(&1), Some(&"a"));
/// assert_eq!(map.get(&2), None);
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
#[inline]
pub fn get<Q: ?Sized>(&self, k: &Q) -> Option<&V>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.get(k)
}
/// Returns the key-value pair corresponding to the supplied key.
///
/// The supplied key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// assert_eq!(map.get_key_value(&1), Some((&1, &"a")));
/// assert_eq!(map.get_key_value(&2), None);
/// ```
#[inline]
#[stable(feature = "map_get_key_value", since = "1.40.0")]
pub fn get_key_value<Q: ?Sized>(&self, k: &Q) -> Option<(&K, &V)>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.get_key_value(k)
}
/// Returns `true` if the map contains a value for the specified key.
///
/// The key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// assert_eq!(map.contains_key(&1), true);
/// assert_eq!(map.contains_key(&2), false);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn contains_key<Q: ?Sized>(&self, k: &Q) -> bool
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.contains_key(k)
}
/// Returns a mutable reference to the value corresponding to the key.
///
/// The key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// if let Some(x) = map.get_mut(&1) {
/// *x = "b";
/// }
/// assert_eq!(map[&1], "b");
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn get_mut<Q: ?Sized>(&mut self, k: &Q) -> Option<&mut V>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.get_mut(k)
}
/// Inserts a key-value pair into the map.
///
/// If the map did not have this key present, [`None`] is returned.
///
/// If the map did have this key present, the value is updated, and the old
/// value is returned. The key is not updated, though; this matters for
/// types that can be `==` without being identical. See the [module-level
/// documentation] for more.
///
/// [module-level documentation]: crate::collections#insert-and-complex-keys
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// assert_eq!(map.insert(37, "a"), None);
/// assert_eq!(map.is_empty(), false);
///
/// map.insert(37, "b");
/// assert_eq!(map.insert(37, "c"), Some("b"));
/// assert_eq!(map[&37], "c");
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn insert(&mut self, k: K, v: V) -> Option<V> {
self.base.insert(k, v)
}
/// Tries to insert a key-value pair into the map, and returns
/// a mutable reference to the value in the entry.
///
/// If the map already had this key present, nothing is updated, and
/// an error containing the occupied entry and the value is returned.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// #![feature(map_try_insert)]
///
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// assert_eq!(map.try_insert(37, "a").unwrap(), &"a");
///
/// let err = map.try_insert(37, "b").unwrap_err();
/// assert_eq!(err.entry.key(), &37);
/// assert_eq!(err.entry.get(), &"a");
/// assert_eq!(err.value, "b");
/// ```
#[unstable(feature = "map_try_insert", issue = "82766")]
pub fn try_insert(&mut self, key: K, value: V) -> Result<&mut V, OccupiedError<'_, K, V>> {
match self.entry(key) {
Occupied(entry) => Err(OccupiedError { entry, value }),
Vacant(entry) => Ok(entry.insert(value)),
}
}
/// Removes a key from the map, returning the value at the key if the key
/// was previously in the map.
///
/// The key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// assert_eq!(map.remove(&1), Some("a"));
/// assert_eq!(map.remove(&1), None);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn remove<Q: ?Sized>(&mut self, k: &Q) -> Option<V>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.remove(k)
}
/// Removes a key from the map, returning the stored key and value if the
/// key was previously in the map.
///
/// The key may be any borrowed form of the map's key type, but
/// [`Hash`] and [`Eq`] on the borrowed form *must* match those for
/// the key type.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// # fn main() {
/// let mut map = HashMap::new();
/// map.insert(1, "a");
/// assert_eq!(map.remove_entry(&1), Some((1, "a")));
/// assert_eq!(map.remove(&1), None);
/// # }
/// ```
#[inline]
#[stable(feature = "hash_map_remove_entry", since = "1.27.0")]
pub fn remove_entry<Q: ?Sized>(&mut self, k: &Q) -> Option<(K, V)>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.base.remove_entry(k)
}
/// Retains only the elements specified by the predicate.
///
/// In other words, remove all pairs `(k, v)` such that `f(&k, &mut v)` returns `false`.
/// The elements are visited in unsorted (and unspecified) order.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<i32, i32> = (0..8).map(|x| (x, x*10)).collect();
/// map.retain(|&k, _| k % 2 == 0);
/// assert_eq!(map.len(), 4);
/// ```
#[inline]
#[stable(feature = "retain_hash_collection", since = "1.18.0")]
pub fn retain<F>(&mut self, f: F)
where
F: FnMut(&K, &mut V) -> bool,
{
self.base.retain(f)
}
/// Creates a consuming iterator visiting all the keys in arbitrary order.
/// The map cannot be used after calling this.
/// The iterator element type is `K`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// let mut vec: Vec<&str> = map.into_keys().collect();
/// // The `IntoKeys` iterator produces keys in arbitrary order, so the
/// // keys must be sorted to test them against a sorted array.
/// vec.sort_unstable();
/// assert_eq!(vec, ["a", "b", "c"]);
/// ```
#[inline]
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
pub fn into_keys(self) -> IntoKeys<K, V> {
IntoKeys { inner: self.into_iter() }
}
/// Creates a consuming iterator visiting all the values in arbitrary order.
/// The map cannot be used after calling this.
/// The iterator element type is `V`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// let mut vec: Vec<i32> = map.into_values().collect();
/// // The `IntoValues` iterator produces values in arbitrary order, so
/// // the values must be sorted to test them against a sorted array.
/// vec.sort_unstable();
/// assert_eq!(vec, [1, 2, 3]);
/// ```
#[inline]
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
pub fn into_values(self) -> IntoValues<K, V> {
IntoValues { inner: self.into_iter() }
}
}
impl<K, V, S> HashMap<K, V, S>
where
S: BuildHasher,
{
/// Creates a raw entry builder for the HashMap.
///
/// Raw entries provide the lowest level of control for searching and
/// manipulating a map. They must be manually initialized with a hash and
/// then manually searched. After this, insertions into a vacant entry
/// still require an owned key to be provided.
///
/// Raw entries are useful for such exotic situations as:
///
/// * Hash memoization
/// * Deferring the creation of an owned key until it is known to be required
/// * Using a search key that doesn't work with the Borrow trait
/// * Using custom comparison logic without newtype wrappers
///
/// Because raw entries provide much more low-level control, it's much easier
/// to put the HashMap into an inconsistent state which, while memory-safe,
/// will cause the map to produce seemingly random results. Higher-level and
/// more foolproof APIs like `entry` should be preferred when possible.
///
/// In particular, the hash used to initialized the raw entry must still be
/// consistent with the hash of the key that is ultimately stored in the entry.
/// This is because implementations of HashMap may need to recompute hashes
/// when resizing, at which point only the keys are available.
///
/// Raw entries give mutable access to the keys. This must not be used
/// to modify how the key would compare or hash, as the map will not re-evaluate
/// where the key should go, meaning the keys may become "lost" if their
/// location does not reflect their state. For instance, if you change a key
/// so that the map now contains keys which compare equal, search may start
/// acting erratically, with two keys randomly masking each other. Implementations
/// are free to assume this doesn't happen (within the limits of memory-safety).
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn raw_entry_mut(&mut self) -> RawEntryBuilderMut<'_, K, V, S> {
RawEntryBuilderMut { map: self }
}
/// Creates a raw immutable entry builder for the HashMap.
///
/// Raw entries provide the lowest level of control for searching and
/// manipulating a map. They must be manually initialized with a hash and
/// then manually searched.
///
/// This is useful for
/// * Hash memoization
/// * Using a search key that doesn't work with the Borrow trait
/// * Using custom comparison logic without newtype wrappers
///
/// Unless you are in such a situation, higher-level and more foolproof APIs like
/// `get` should be preferred.
///
/// Immutable raw entries have very limited use; you might instead want `raw_entry_mut`.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn raw_entry(&self) -> RawEntryBuilder<'_, K, V, S> {
RawEntryBuilder { map: self }
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> Clone for HashMap<K, V, S>
where
K: Clone,
V: Clone,
S: Clone,
{
#[inline]
fn clone(&self) -> Self {
Self { base: self.base.clone() }
}
#[inline]
fn clone_from(&mut self, other: &Self) {
self.base.clone_from(&other.base);
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> PartialEq for HashMap<K, V, S>
where
K: Eq + Hash,
V: PartialEq,
S: BuildHasher,
{
fn eq(&self, other: &HashMap<K, V, S>) -> bool {
if self.len() != other.len() {
return false;
}
self.iter().all(|(key, value)| other.get(key).map_or(false, |v| *value == *v))
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> Eq for HashMap<K, V, S>
where
K: Eq + Hash,
V: Eq,
S: BuildHasher,
{
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> Debug for HashMap<K, V, S>
where
K: Debug,
V: Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_map().entries(self.iter()).finish()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> Default for HashMap<K, V, S>
where
S: Default,
{
/// Creates an empty `HashMap<K, V, S>`, with the `Default` value for the hasher.
#[inline]
fn default() -> HashMap<K, V, S> {
HashMap::with_hasher(Default::default())
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, Q: ?Sized, V, S> Index<&Q> for HashMap<K, V, S>
where
K: Eq + Hash + Borrow<Q>,
Q: Eq + Hash,
S: BuildHasher,
{
type Output = V;
/// Returns a reference to the value corresponding to the supplied key.
///
/// # Panics
///
/// Panics if the key is not present in the `HashMap`.
#[inline]
fn index(&self, key: &Q) -> &V {
self.get(key).expect("no entry found for key")
}
}
#[stable(feature = "std_collections_from_array", since = "1.56.0")]
// Note: as what is currently the most convenient built-in way to construct
// a HashMap, a simple usage of this function must not *require* the user
// to provide a type annotation in order to infer the third type parameter
// (the hasher parameter, conventionally "S").
// To that end, this impl is defined using RandomState as the concrete
// type of S, rather than being generic over `S: BuildHasher + Default`.
// It is expected that users who want to specify a hasher will manually use
// `with_capacity_and_hasher`.
// If type parameter defaults worked on impls, and if type parameter
// defaults could be mixed with const generics, then perhaps
// this could be generalized.
// See also the equivalent impl on HashSet.
impl<K, V, const N: usize> From<[(K, V); N]> for HashMap<K, V, RandomState>
where
K: Eq + Hash,
{
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let map1 = HashMap::from([(1, 2), (3, 4)]);
/// let map2: HashMap<_, _> = [(1, 2), (3, 4)].into();
/// assert_eq!(map1, map2);
/// ```
fn from(arr: [(K, V); N]) -> Self {
crate::array::IntoIter::new(arr).collect()
}
}
/// An iterator over the entries of a `HashMap`.
///
/// This `struct` is created by the [`iter`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`iter`]: HashMap::iter
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter = map.iter();
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct Iter<'a, K: 'a, V: 'a> {
base: base::Iter<'a, K, V>,
}
// FIXME(#26925) Remove in favor of `#[derive(Clone)]`
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> Clone for Iter<'_, K, V> {
#[inline]
fn clone(&self) -> Self {
Iter { base: self.base.clone() }
}
}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K: Debug, V: Debug> fmt::Debug for Iter<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.clone()).finish()
}
}
/// A mutable iterator over the entries of a `HashMap`.
///
/// This `struct` is created by the [`iter_mut`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`iter_mut`]: HashMap::iter_mut
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter = map.iter_mut();
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct IterMut<'a, K: 'a, V: 'a> {
base: base::IterMut<'a, K, V>,
}
impl<'a, K, V> IterMut<'a, K, V> {
/// Returns an iterator of references over the remaining items.
#[inline]
pub(super) fn iter(&self) -> Iter<'_, K, V> {
Iter { base: self.base.rustc_iter() }
}
}
/// An owning iterator over the entries of a `HashMap`.
///
/// This `struct` is created by the [`into_iter`] method on [`HashMap`]
/// (provided by the [`IntoIterator`] trait). See its documentation for more.
///
/// [`into_iter`]: IntoIterator::into_iter
/// [`IntoIterator`]: crate::iter::IntoIterator
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter = map.into_iter();
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct IntoIter<K, V> {
base: base::IntoIter<K, V>,
}
impl<K, V> IntoIter<K, V> {
/// Returns an iterator of references over the remaining items.
#[inline]
pub(super) fn iter(&self) -> Iter<'_, K, V> {
Iter { base: self.base.rustc_iter() }
}
}
/// An iterator over the keys of a `HashMap`.
///
/// This `struct` is created by the [`keys`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`keys`]: HashMap::keys
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter_keys = map.keys();
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct Keys<'a, K: 'a, V: 'a> {
inner: Iter<'a, K, V>,
}
// FIXME(#26925) Remove in favor of `#[derive(Clone)]`
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> Clone for Keys<'_, K, V> {
#[inline]
fn clone(&self) -> Self {
Keys { inner: self.inner.clone() }
}
}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K: Debug, V> fmt::Debug for Keys<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.clone()).finish()
}
}
/// An iterator over the values of a `HashMap`.
///
/// This `struct` is created by the [`values`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`values`]: HashMap::values
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter_values = map.values();
/// ```
#[stable(feature = "rust1", since = "1.0.0")]
pub struct Values<'a, K: 'a, V: 'a> {
inner: Iter<'a, K, V>,
}
// FIXME(#26925) Remove in favor of `#[derive(Clone)]`
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> Clone for Values<'_, K, V> {
#[inline]
fn clone(&self) -> Self {
Values { inner: self.inner.clone() }
}
}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K, V: Debug> fmt::Debug for Values<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.clone()).finish()
}
}
/// A draining iterator over the entries of a `HashMap`.
///
/// This `struct` is created by the [`drain`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`drain`]: HashMap::drain
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter = map.drain();
/// ```
#[stable(feature = "drain", since = "1.6.0")]
pub struct Drain<'a, K: 'a, V: 'a> {
base: base::Drain<'a, K, V>,
}
impl<'a, K, V> Drain<'a, K, V> {
/// Returns an iterator of references over the remaining items.
#[inline]
pub(super) fn iter(&self) -> Iter<'_, K, V> {
Iter { base: self.base.rustc_iter() }
}
}
/// A draining, filtering iterator over the entries of a `HashMap`.
///
/// This `struct` is created by the [`drain_filter`] method on [`HashMap`].
///
/// [`drain_filter`]: HashMap::drain_filter
///
/// # Example
///
/// ```
/// #![feature(hash_drain_filter)]
///
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter = map.drain_filter(|_k, v| *v % 2 == 0);
/// ```
#[unstable(feature = "hash_drain_filter", issue = "59618")]
pub struct DrainFilter<'a, K, V, F>
where
F: FnMut(&K, &mut V) -> bool,
{
base: base::DrainFilter<'a, K, V, F>,
}
/// A mutable iterator over the values of a `HashMap`.
///
/// This `struct` is created by the [`values_mut`] method on [`HashMap`]. See its
/// documentation for more.
///
/// [`values_mut`]: HashMap::values_mut
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter_values = map.values_mut();
/// ```
#[stable(feature = "map_values_mut", since = "1.10.0")]
pub struct ValuesMut<'a, K: 'a, V: 'a> {
inner: IterMut<'a, K, V>,
}
/// An owning iterator over the keys of a `HashMap`.
///
/// This `struct` is created by the [`into_keys`] method on [`HashMap`].
/// See its documentation for more.
///
/// [`into_keys`]: HashMap::into_keys
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter_keys = map.into_keys();
/// ```
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
pub struct IntoKeys<K, V> {
inner: IntoIter<K, V>,
}
/// An owning iterator over the values of a `HashMap`.
///
/// This `struct` is created by the [`into_values`] method on [`HashMap`].
/// See its documentation for more.
///
/// [`into_values`]: HashMap::into_values
///
/// # Example
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// let iter_keys = map.into_values();
/// ```
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
pub struct IntoValues<K, V> {
inner: IntoIter<K, V>,
}
/// A builder for computing where in a HashMap a key-value pair would be stored.
///
/// See the [`HashMap::raw_entry_mut`] docs for usage examples.
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub struct RawEntryBuilderMut<'a, K: 'a, V: 'a, S: 'a> {
map: &'a mut HashMap<K, V, S>,
}
/// A view into a single entry in a map, which may either be vacant or occupied.
///
/// This is a lower-level version of [`Entry`].
///
/// This `enum` is constructed through the [`raw_entry_mut`] method on [`HashMap`],
/// then calling one of the methods of that [`RawEntryBuilderMut`].
///
/// [`raw_entry_mut`]: HashMap::raw_entry_mut
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub enum RawEntryMut<'a, K: 'a, V: 'a, S: 'a> {
/// An occupied entry.
Occupied(RawOccupiedEntryMut<'a, K, V, S>),
/// A vacant entry.
Vacant(RawVacantEntryMut<'a, K, V, S>),
}
/// A view into an occupied entry in a `HashMap`.
/// It is part of the [`RawEntryMut`] enum.
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub struct RawOccupiedEntryMut<'a, K: 'a, V: 'a, S: 'a> {
base: base::RawOccupiedEntryMut<'a, K, V, S>,
}
/// A view into a vacant entry in a `HashMap`.
/// It is part of the [`RawEntryMut`] enum.
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub struct RawVacantEntryMut<'a, K: 'a, V: 'a, S: 'a> {
base: base::RawVacantEntryMut<'a, K, V, S>,
}
/// A builder for computing where in a HashMap a key-value pair would be stored.
///
/// See the [`HashMap::raw_entry`] docs for usage examples.
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub struct RawEntryBuilder<'a, K: 'a, V: 'a, S: 'a> {
map: &'a HashMap<K, V, S>,
}
impl<'a, K, V, S> RawEntryBuilderMut<'a, K, V, S>
where
S: BuildHasher,
{
/// Creates a `RawEntryMut` from the given key.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_key<Q: ?Sized>(self, k: &Q) -> RawEntryMut<'a, K, V, S>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
map_raw_entry(self.map.base.raw_entry_mut().from_key(k))
}
/// Creates a `RawEntryMut` from the given key and its hash.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_key_hashed_nocheck<Q: ?Sized>(self, hash: u64, k: &Q) -> RawEntryMut<'a, K, V, S>
where
K: Borrow<Q>,
Q: Eq,
{
map_raw_entry(self.map.base.raw_entry_mut().from_key_hashed_nocheck(hash, k))
}
/// Creates a `RawEntryMut` from the given hash.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_hash<F>(self, hash: u64, is_match: F) -> RawEntryMut<'a, K, V, S>
where
for<'b> F: FnMut(&'b K) -> bool,
{
map_raw_entry(self.map.base.raw_entry_mut().from_hash(hash, is_match))
}
}
impl<'a, K, V, S> RawEntryBuilder<'a, K, V, S>
where
S: BuildHasher,
{
/// Access an entry by key.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_key<Q: ?Sized>(self, k: &Q) -> Option<(&'a K, &'a V)>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.map.base.raw_entry().from_key(k)
}
/// Access an entry by a key and its hash.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_key_hashed_nocheck<Q: ?Sized>(self, hash: u64, k: &Q) -> Option<(&'a K, &'a V)>
where
K: Borrow<Q>,
Q: Hash + Eq,
{
self.map.base.raw_entry().from_key_hashed_nocheck(hash, k)
}
/// Access an entry by hash.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn from_hash<F>(self, hash: u64, is_match: F) -> Option<(&'a K, &'a V)>
where
F: FnMut(&K) -> bool,
{
self.map.base.raw_entry().from_hash(hash, is_match)
}
}
impl<'a, K, V, S> RawEntryMut<'a, K, V, S> {
/// Ensures a value is in the entry by inserting the default if empty, and returns
/// mutable references to the key and value in the entry.
///
/// # Examples
///
/// ```
/// #![feature(hash_raw_entry)]
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// map.raw_entry_mut().from_key("poneyland").or_insert("poneyland", 3);
/// assert_eq!(map["poneyland"], 3);
///
/// *map.raw_entry_mut().from_key("poneyland").or_insert("poneyland", 10).1 *= 2;
/// assert_eq!(map["poneyland"], 6);
/// ```
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn or_insert(self, default_key: K, default_val: V) -> (&'a mut K, &'a mut V)
where
K: Hash,
S: BuildHasher,
{
match self {
RawEntryMut::Occupied(entry) => entry.into_key_value(),
RawEntryMut::Vacant(entry) => entry.insert(default_key, default_val),
}
}
/// Ensures a value is in the entry by inserting the result of the default function if empty,
/// and returns mutable references to the key and value in the entry.
///
/// # Examples
///
/// ```
/// #![feature(hash_raw_entry)]
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, String> = HashMap::new();
///
/// map.raw_entry_mut().from_key("poneyland").or_insert_with(|| {
/// ("poneyland", "hoho".to_string())
/// });
///
/// assert_eq!(map["poneyland"], "hoho".to_string());
/// ```
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn or_insert_with<F>(self, default: F) -> (&'a mut K, &'a mut V)
where
F: FnOnce() -> (K, V),
K: Hash,
S: BuildHasher,
{
match self {
RawEntryMut::Occupied(entry) => entry.into_key_value(),
RawEntryMut::Vacant(entry) => {
let (k, v) = default();
entry.insert(k, v)
}
}
}
/// Provides in-place mutable access to an occupied entry before any
/// potential inserts into the map.
///
/// # Examples
///
/// ```
/// #![feature(hash_raw_entry)]
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// map.raw_entry_mut()
/// .from_key("poneyland")
/// .and_modify(|_k, v| { *v += 1 })
/// .or_insert("poneyland", 42);
/// assert_eq!(map["poneyland"], 42);
///
/// map.raw_entry_mut()
/// .from_key("poneyland")
/// .and_modify(|_k, v| { *v += 1 })
/// .or_insert("poneyland", 0);
/// assert_eq!(map["poneyland"], 43);
/// ```
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn and_modify<F>(self, f: F) -> Self
where
F: FnOnce(&mut K, &mut V),
{
match self {
RawEntryMut::Occupied(mut entry) => {
{
let (k, v) = entry.get_key_value_mut();
f(k, v);
}
RawEntryMut::Occupied(entry)
}
RawEntryMut::Vacant(entry) => RawEntryMut::Vacant(entry),
}
}
}
impl<'a, K, V, S> RawOccupiedEntryMut<'a, K, V, S> {
/// Gets a reference to the key in the entry.
#[inline]
#[must_use]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn key(&self) -> &K {
self.base.key()
}
/// Gets a mutable reference to the key in the entry.
#[inline]
#[must_use]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn key_mut(&mut self) -> &mut K {
self.base.key_mut()
}
/// Converts the entry into a mutable reference to the key in the entry
/// with a lifetime bound to the map itself.
#[inline]
#[must_use = "`self` will be dropped if the result is not used"]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn into_key(self) -> &'a mut K {
self.base.into_key()
}
/// Gets a reference to the value in the entry.
#[inline]
#[must_use]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn get(&self) -> &V {
self.base.get()
}
/// Converts the `OccupiedEntry` into a mutable reference to the value in the entry
/// with a lifetime bound to the map itself.
#[inline]
#[must_use = "`self` will be dropped if the result is not used"]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn into_mut(self) -> &'a mut V {
self.base.into_mut()
}
/// Gets a mutable reference to the value in the entry.
#[inline]
#[must_use]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn get_mut(&mut self) -> &mut V {
self.base.get_mut()
}
/// Gets a reference to the key and value in the entry.
#[inline]
#[must_use]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn get_key_value(&mut self) -> (&K, &V) {
self.base.get_key_value()
}
/// Gets a mutable reference to the key and value in the entry.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn get_key_value_mut(&mut self) -> (&mut K, &mut V) {
self.base.get_key_value_mut()
}
/// Converts the `OccupiedEntry` into a mutable reference to the key and value in the entry
/// with a lifetime bound to the map itself.
#[inline]
#[must_use = "`self` will be dropped if the result is not used"]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn into_key_value(self) -> (&'a mut K, &'a mut V) {
self.base.into_key_value()
}
/// Sets the value of the entry, and returns the entry's old value.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn insert(&mut self, value: V) -> V {
self.base.insert(value)
}
/// Sets the value of the entry, and returns the entry's old value.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn insert_key(&mut self, key: K) -> K {
self.base.insert_key(key)
}
/// Takes the value out of the entry, and returns it.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn remove(self) -> V {
self.base.remove()
}
/// Take the ownership of the key and value from the map.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn remove_entry(self) -> (K, V) {
self.base.remove_entry()
}
}
impl<'a, K, V, S> RawVacantEntryMut<'a, K, V, S> {
/// Sets the value of the entry with the `VacantEntry`'s key,
/// and returns a mutable reference to it.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn insert(self, key: K, value: V) -> (&'a mut K, &'a mut V)
where
K: Hash,
S: BuildHasher,
{
self.base.insert(key, value)
}
/// Sets the value of the entry with the VacantEntry's key,
/// and returns a mutable reference to it.
#[inline]
#[unstable(feature = "hash_raw_entry", issue = "56167")]
pub fn insert_hashed_nocheck(self, hash: u64, key: K, value: V) -> (&'a mut K, &'a mut V)
where
K: Hash,
S: BuildHasher,
{
self.base.insert_hashed_nocheck(hash, key, value)
}
}
#[unstable(feature = "hash_raw_entry", issue = "56167")]
impl<K, V, S> Debug for RawEntryBuilderMut<'_, K, V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("RawEntryBuilder").finish_non_exhaustive()
}
}
#[unstable(feature = "hash_raw_entry", issue = "56167")]
impl<K: Debug, V: Debug, S> Debug for RawEntryMut<'_, K, V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
RawEntryMut::Vacant(ref v) => f.debug_tuple("RawEntry").field(v).finish(),
RawEntryMut::Occupied(ref o) => f.debug_tuple("RawEntry").field(o).finish(),
}
}
}
#[unstable(feature = "hash_raw_entry", issue = "56167")]
impl<K: Debug, V: Debug, S> Debug for RawOccupiedEntryMut<'_, K, V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("RawOccupiedEntryMut")
.field("key", self.key())
.field("value", self.get())
.finish_non_exhaustive()
}
}
#[unstable(feature = "hash_raw_entry", issue = "56167")]
impl<K, V, S> Debug for RawVacantEntryMut<'_, K, V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("RawVacantEntryMut").finish_non_exhaustive()
}
}
#[unstable(feature = "hash_raw_entry", issue = "56167")]
impl<K, V, S> Debug for RawEntryBuilder<'_, K, V, S> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("RawEntryBuilder").finish_non_exhaustive()
}
}
/// A view into a single entry in a map, which may either be vacant or occupied.
///
/// This `enum` is constructed from the [`entry`] method on [`HashMap`].
///
/// [`entry`]: HashMap::entry
#[stable(feature = "rust1", since = "1.0.0")]
#[cfg_attr(not(test), rustc_diagnostic_item = "HashMapEntry")]
pub enum Entry<'a, K: 'a, V: 'a> {
/// An occupied entry.
#[stable(feature = "rust1", since = "1.0.0")]
Occupied(#[stable(feature = "rust1", since = "1.0.0")] OccupiedEntry<'a, K, V>),
/// A vacant entry.
#[stable(feature = "rust1", since = "1.0.0")]
Vacant(#[stable(feature = "rust1", since = "1.0.0")] VacantEntry<'a, K, V>),
}
#[stable(feature = "debug_hash_map", since = "1.12.0")]
impl<K: Debug, V: Debug> Debug for Entry<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Vacant(ref v) => f.debug_tuple("Entry").field(v).finish(),
Occupied(ref o) => f.debug_tuple("Entry").field(o).finish(),
}
}
}
/// A view into an occupied entry in a `HashMap`.
/// It is part of the [`Entry`] enum.
#[stable(feature = "rust1", since = "1.0.0")]
pub struct OccupiedEntry<'a, K: 'a, V: 'a> {
base: base::RustcOccupiedEntry<'a, K, V>,
}
#[stable(feature = "debug_hash_map", since = "1.12.0")]
impl<K: Debug, V: Debug> Debug for OccupiedEntry<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("OccupiedEntry")
.field("key", self.key())
.field("value", self.get())
.finish_non_exhaustive()
}
}
/// A view into a vacant entry in a `HashMap`.
/// It is part of the [`Entry`] enum.
#[stable(feature = "rust1", since = "1.0.0")]
pub struct VacantEntry<'a, K: 'a, V: 'a> {
base: base::RustcVacantEntry<'a, K, V>,
}
#[stable(feature = "debug_hash_map", since = "1.12.0")]
impl<K: Debug, V> Debug for VacantEntry<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_tuple("VacantEntry").field(self.key()).finish()
}
}
/// The error returned by [`try_insert`](HashMap::try_insert) when the key already exists.
///
/// Contains the occupied entry, and the value that was not inserted.
#[unstable(feature = "map_try_insert", issue = "82766")]
pub struct OccupiedError<'a, K: 'a, V: 'a> {
/// The entry in the map that was already occupied.
pub entry: OccupiedEntry<'a, K, V>,
/// The value which was not inserted, because the entry was already occupied.
pub value: V,
}
#[unstable(feature = "map_try_insert", issue = "82766")]
impl<K: Debug, V: Debug> Debug for OccupiedError<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("OccupiedError")
.field("key", self.entry.key())
.field("old_value", self.entry.get())
.field("new_value", &self.value)
.finish_non_exhaustive()
}
}
#[unstable(feature = "map_try_insert", issue = "82766")]
impl<'a, K: Debug, V: Debug> fmt::Display for OccupiedError<'a, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(
f,
"failed to insert {:?}, key {:?} already exists with value {:?}",
self.value,
self.entry.key(),
self.entry.get(),
)
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V, S> IntoIterator for &'a HashMap<K, V, S> {
type Item = (&'a K, &'a V);
type IntoIter = Iter<'a, K, V>;
#[inline]
fn into_iter(self) -> Iter<'a, K, V> {
self.iter()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V, S> IntoIterator for &'a mut HashMap<K, V, S> {
type Item = (&'a K, &'a mut V);
type IntoIter = IterMut<'a, K, V>;
#[inline]
fn into_iter(self) -> IterMut<'a, K, V> {
self.iter_mut()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> IntoIterator for HashMap<K, V, S> {
type Item = (K, V);
type IntoIter = IntoIter<K, V>;
/// Creates a consuming iterator, that is, one that moves each key-value
/// pair out of the map in arbitrary order. The map cannot be used after
/// calling this.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map = HashMap::new();
/// map.insert("a", 1);
/// map.insert("b", 2);
/// map.insert("c", 3);
///
/// // Not possible with .iter()
/// let vec: Vec<(&str, i32)> = map.into_iter().collect();
/// ```
#[inline]
fn into_iter(self) -> IntoIter<K, V> {
IntoIter { base: self.base.into_iter() }
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V> Iterator for Iter<'a, K, V> {
type Item = (&'a K, &'a V);
#[inline]
fn next(&mut self) -> Option<(&'a K, &'a V)> {
self.base.next()
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.base.size_hint()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> ExactSizeIterator for Iter<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.base.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for Iter<'_, K, V> {}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V> Iterator for IterMut<'a, K, V> {
type Item = (&'a K, &'a mut V);
#[inline]
fn next(&mut self) -> Option<(&'a K, &'a mut V)> {
self.base.next()
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.base.size_hint()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> ExactSizeIterator for IterMut<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.base.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for IterMut<'_, K, V> {}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K, V> fmt::Debug for IterMut<'_, K, V>
where
K: fmt::Debug,
V: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.iter()).finish()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> Iterator for IntoIter<K, V> {
type Item = (K, V);
#[inline]
fn next(&mut self) -> Option<(K, V)> {
self.base.next()
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.base.size_hint()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> ExactSizeIterator for IntoIter<K, V> {
#[inline]
fn len(&self) -> usize {
self.base.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for IntoIter<K, V> {}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K: Debug, V: Debug> fmt::Debug for IntoIter<K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.iter()).finish()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V> Iterator for Keys<'a, K, V> {
type Item = &'a K;
#[inline]
fn next(&mut self) -> Option<&'a K> {
self.inner.next().map(|(k, _)| k)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.inner.size_hint()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> ExactSizeIterator for Keys<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.inner.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for Keys<'_, K, V> {}
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a, K, V> Iterator for Values<'a, K, V> {
type Item = &'a V;
#[inline]
fn next(&mut self) -> Option<&'a V> {
self.inner.next().map(|(_, v)| v)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.inner.size_hint()
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V> ExactSizeIterator for Values<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.inner.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for Values<'_, K, V> {}
#[stable(feature = "map_values_mut", since = "1.10.0")]
impl<'a, K, V> Iterator for ValuesMut<'a, K, V> {
type Item = &'a mut V;
#[inline]
fn next(&mut self) -> Option<&'a mut V> {
self.inner.next().map(|(_, v)| v)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.inner.size_hint()
}
}
#[stable(feature = "map_values_mut", since = "1.10.0")]
impl<K, V> ExactSizeIterator for ValuesMut<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.inner.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for ValuesMut<'_, K, V> {}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K, V: fmt::Debug> fmt::Debug for ValuesMut<'_, K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.inner.iter().map(|(_, val)| val)).finish()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> Iterator for IntoKeys<K, V> {
type Item = K;
#[inline]
fn next(&mut self) -> Option<K> {
self.inner.next().map(|(k, _)| k)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.inner.size_hint()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> ExactSizeIterator for IntoKeys<K, V> {
#[inline]
fn len(&self) -> usize {
self.inner.len()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> FusedIterator for IntoKeys<K, V> {}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K: Debug, V> fmt::Debug for IntoKeys<K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.inner.iter().map(|(k, _)| k)).finish()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> Iterator for IntoValues<K, V> {
type Item = V;
#[inline]
fn next(&mut self) -> Option<V> {
self.inner.next().map(|(_, v)| v)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.inner.size_hint()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> ExactSizeIterator for IntoValues<K, V> {
#[inline]
fn len(&self) -> usize {
self.inner.len()
}
}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V> FusedIterator for IntoValues<K, V> {}
#[stable(feature = "map_into_keys_values", since = "1.54.0")]
impl<K, V: Debug> fmt::Debug for IntoValues<K, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.inner.iter().map(|(_, v)| v)).finish()
}
}
#[stable(feature = "drain", since = "1.6.0")]
impl<'a, K, V> Iterator for Drain<'a, K, V> {
type Item = (K, V);
#[inline]
fn next(&mut self) -> Option<(K, V)> {
self.base.next()
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.base.size_hint()
}
}
#[stable(feature = "drain", since = "1.6.0")]
impl<K, V> ExactSizeIterator for Drain<'_, K, V> {
#[inline]
fn len(&self) -> usize {
self.base.len()
}
}
#[stable(feature = "fused", since = "1.26.0")]
impl<K, V> FusedIterator for Drain<'_, K, V> {}
#[stable(feature = "std_debug", since = "1.16.0")]
impl<K, V> fmt::Debug for Drain<'_, K, V>
where
K: fmt::Debug,
V: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_list().entries(self.iter()).finish()
}
}
#[unstable(feature = "hash_drain_filter", issue = "59618")]
impl<K, V, F> Iterator for DrainFilter<'_, K, V, F>
where
F: FnMut(&K, &mut V) -> bool,
{
type Item = (K, V);
#[inline]
fn next(&mut self) -> Option<(K, V)> {
self.base.next()
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.base.size_hint()
}
}
#[unstable(feature = "hash_drain_filter", issue = "59618")]
impl<K, V, F> FusedIterator for DrainFilter<'_, K, V, F> where F: FnMut(&K, &mut V) -> bool {}
#[unstable(feature = "hash_drain_filter", issue = "59618")]
impl<'a, K, V, F> fmt::Debug for DrainFilter<'a, K, V, F>
where
F: FnMut(&K, &mut V) -> bool,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("DrainFilter").finish_non_exhaustive()
}
}
impl<'a, K, V> Entry<'a, K, V> {
/// Ensures a value is in the entry by inserting the default if empty, and returns
/// a mutable reference to the value in the entry.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// map.entry("poneyland").or_insert(3);
/// assert_eq!(map["poneyland"], 3);
///
/// *map.entry("poneyland").or_insert(10) *= 2;
/// assert_eq!(map["poneyland"], 6);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn or_insert(self, default: V) -> &'a mut V {
match self {
Occupied(entry) => entry.into_mut(),
Vacant(entry) => entry.insert(default),
}
}
/// Ensures a value is in the entry by inserting the result of the default function if empty,
/// and returns a mutable reference to the value in the entry.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, String> = HashMap::new();
/// let s = "hoho".to_string();
///
/// map.entry("poneyland").or_insert_with(|| s);
///
/// assert_eq!(map["poneyland"], "hoho".to_string());
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn or_insert_with<F: FnOnce() -> V>(self, default: F) -> &'a mut V {
match self {
Occupied(entry) => entry.into_mut(),
Vacant(entry) => entry.insert(default()),
}
}
/// Ensures a value is in the entry by inserting, if empty, the result of the default function.
/// This method allows for generating key-derived values for insertion by providing the default
/// function a reference to the key that was moved during the `.entry(key)` method call.
///
/// The reference to the moved key is provided so that cloning or copying the key is
/// unnecessary, unlike with `.or_insert_with(|| ... )`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, usize> = HashMap::new();
///
/// map.entry("poneyland").or_insert_with_key(|key| key.chars().count());
///
/// assert_eq!(map["poneyland"], 9);
/// ```
#[inline]
#[stable(feature = "or_insert_with_key", since = "1.50.0")]
pub fn or_insert_with_key<F: FnOnce(&K) -> V>(self, default: F) -> &'a mut V {
match self {
Occupied(entry) => entry.into_mut(),
Vacant(entry) => {
let value = default(entry.key());
entry.insert(value)
}
}
}
/// Returns a reference to this entry's key.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// assert_eq!(map.entry("poneyland").key(), &"poneyland");
/// ```
#[inline]
#[stable(feature = "map_entry_keys", since = "1.10.0")]
pub fn key(&self) -> &K {
match *self {
Occupied(ref entry) => entry.key(),
Vacant(ref entry) => entry.key(),
}
}
/// Provides in-place mutable access to an occupied entry before any
/// potential inserts into the map.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// map.entry("poneyland")
/// .and_modify(|e| { *e += 1 })
/// .or_insert(42);
/// assert_eq!(map["poneyland"], 42);
///
/// map.entry("poneyland")
/// .and_modify(|e| { *e += 1 })
/// .or_insert(42);
/// assert_eq!(map["poneyland"], 43);
/// ```
#[inline]
#[stable(feature = "entry_and_modify", since = "1.26.0")]
pub fn and_modify<F>(self, f: F) -> Self
where
F: FnOnce(&mut V),
{
match self {
Occupied(mut entry) => {
f(entry.get_mut());
Occupied(entry)
}
Vacant(entry) => Vacant(entry),
}
}
/// Sets the value of the entry, and returns an `OccupiedEntry`.
///
/// # Examples
///
/// ```
/// #![feature(entry_insert)]
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, String> = HashMap::new();
/// let entry = map.entry("poneyland").insert("hoho".to_string());
///
/// assert_eq!(entry.key(), &"poneyland");
/// ```
#[inline]
#[unstable(feature = "entry_insert", issue = "65225")]
pub fn insert(self, value: V) -> OccupiedEntry<'a, K, V> {
match self {
Occupied(mut entry) => {
entry.insert(value);
entry
}
Vacant(entry) => entry.insert_entry(value),
}
}
}
impl<'a, K, V: Default> Entry<'a, K, V> {
/// Ensures a value is in the entry by inserting the default value if empty,
/// and returns a mutable reference to the value in the entry.
///
/// # Examples
///
/// ```
/// # fn main() {
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, Option<u32>> = HashMap::new();
/// map.entry("poneyland").or_default();
///
/// assert_eq!(map["poneyland"], None);
/// # }
/// ```
#[inline]
#[stable(feature = "entry_or_default", since = "1.28.0")]
pub fn or_default(self) -> &'a mut V {
match self {
Occupied(entry) => entry.into_mut(),
Vacant(entry) => entry.insert(Default::default()),
}
}
}
impl<'a, K, V> OccupiedEntry<'a, K, V> {
/// Gets a reference to the key in the entry.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
/// assert_eq!(map.entry("poneyland").key(), &"poneyland");
/// ```
#[inline]
#[stable(feature = "map_entry_keys", since = "1.10.0")]
pub fn key(&self) -> &K {
self.base.key()
}
/// Take the ownership of the key and value from the map.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// if let Entry::Occupied(o) = map.entry("poneyland") {
/// // We delete the entry from the map.
/// o.remove_entry();
/// }
///
/// assert_eq!(map.contains_key("poneyland"), false);
/// ```
#[inline]
#[stable(feature = "map_entry_recover_keys2", since = "1.12.0")]
pub fn remove_entry(self) -> (K, V) {
self.base.remove_entry()
}
/// Gets a reference to the value in the entry.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// if let Entry::Occupied(o) = map.entry("poneyland") {
/// assert_eq!(o.get(), &12);
/// }
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn get(&self) -> &V {
self.base.get()
}
/// Gets a mutable reference to the value in the entry.
///
/// If you need a reference to the `OccupiedEntry` which may outlive the
/// destruction of the `Entry` value, see [`into_mut`].
///
/// [`into_mut`]: Self::into_mut
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// assert_eq!(map["poneyland"], 12);
/// if let Entry::Occupied(mut o) = map.entry("poneyland") {
/// *o.get_mut() += 10;
/// assert_eq!(*o.get(), 22);
///
/// // We can use the same Entry multiple times.
/// *o.get_mut() += 2;
/// }
///
/// assert_eq!(map["poneyland"], 24);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn get_mut(&mut self) -> &mut V {
self.base.get_mut()
}
/// Converts the `OccupiedEntry` into a mutable reference to the value in the entry
/// with a lifetime bound to the map itself.
///
/// If you need multiple references to the `OccupiedEntry`, see [`get_mut`].
///
/// [`get_mut`]: Self::get_mut
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// assert_eq!(map["poneyland"], 12);
/// if let Entry::Occupied(o) = map.entry("poneyland") {
/// *o.into_mut() += 10;
/// }
///
/// assert_eq!(map["poneyland"], 22);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn into_mut(self) -> &'a mut V {
self.base.into_mut()
}
/// Sets the value of the entry, and returns the entry's old value.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// if let Entry::Occupied(mut o) = map.entry("poneyland") {
/// assert_eq!(o.insert(15), 12);
/// }
///
/// assert_eq!(map["poneyland"], 15);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn insert(&mut self, value: V) -> V {
self.base.insert(value)
}
/// Takes the value out of the entry, and returns it.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// map.entry("poneyland").or_insert(12);
///
/// if let Entry::Occupied(o) = map.entry("poneyland") {
/// assert_eq!(o.remove(), 12);
/// }
///
/// assert_eq!(map.contains_key("poneyland"), false);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn remove(self) -> V {
self.base.remove()
}
/// Replaces the entry, returning the old key and value. The new key in the hash map will be
/// the key used to create this entry.
///
/// # Examples
///
/// ```
/// #![feature(map_entry_replace)]
/// use std::collections::hash_map::{Entry, HashMap};
/// use std::rc::Rc;
///
/// let mut map: HashMap<Rc<String>, u32> = HashMap::new();
/// map.insert(Rc::new("Stringthing".to_string()), 15);
///
/// let my_key = Rc::new("Stringthing".to_string());
///
/// if let Entry::Occupied(entry) = map.entry(my_key) {
/// // Also replace the key with a handle to our other key.
/// let (old_key, old_value): (Rc<String>, u32) = entry.replace_entry(16);
/// }
///
/// ```
#[inline]
#[unstable(feature = "map_entry_replace", issue = "44286")]
pub fn replace_entry(self, value: V) -> (K, V) {
self.base.replace_entry(value)
}
/// Replaces the key in the hash map with the key used to create this entry.
///
/// # Examples
///
/// ```
/// #![feature(map_entry_replace)]
/// use std::collections::hash_map::{Entry, HashMap};
/// use std::rc::Rc;
///
/// let mut map: HashMap<Rc<String>, u32> = HashMap::new();
/// let known_strings: Vec<Rc<String>> = Vec::new();
///
/// // Initialise known strings, run program, etc.
///
/// reclaim_memory(&mut map, &known_strings);
///
/// fn reclaim_memory(map: &mut HashMap<Rc<String>, u32>, known_strings: &[Rc<String>] ) {
/// for s in known_strings {
/// if let Entry::Occupied(entry) = map.entry(Rc::clone(s)) {
/// // Replaces the entry's key with our version of it in `known_strings`.
/// entry.replace_key();
/// }
/// }
/// }
/// ```
#[inline]
#[unstable(feature = "map_entry_replace", issue = "44286")]
pub fn replace_key(self) -> K {
self.base.replace_key()
}
}
impl<'a, K: 'a, V: 'a> VacantEntry<'a, K, V> {
/// Gets a reference to the key that would be used when inserting a value
/// through the `VacantEntry`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
/// assert_eq!(map.entry("poneyland").key(), &"poneyland");
/// ```
#[inline]
#[stable(feature = "map_entry_keys", since = "1.10.0")]
pub fn key(&self) -> &K {
self.base.key()
}
/// Take ownership of the key.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// if let Entry::Vacant(v) = map.entry("poneyland") {
/// v.into_key();
/// }
/// ```
#[inline]
#[stable(feature = "map_entry_recover_keys2", since = "1.12.0")]
pub fn into_key(self) -> K {
self.base.into_key()
}
/// Sets the value of the entry with the `VacantEntry`'s key,
/// and returns a mutable reference to it.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// if let Entry::Vacant(o) = map.entry("poneyland") {
/// o.insert(37);
/// }
/// assert_eq!(map["poneyland"], 37);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn insert(self, value: V) -> &'a mut V {
self.base.insert(value)
}
/// Sets the value of the entry with the `VacantEntry`'s key,
/// and returns an `OccupiedEntry`.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::Entry;
///
/// let mut map: HashMap<&str, u32> = HashMap::new();
///
/// if let Entry::Vacant(o) = map.entry("poneyland") {
/// o.insert(37);
/// }
/// assert_eq!(map["poneyland"], 37);
/// ```
#[inline]
fn insert_entry(self, value: V) -> OccupiedEntry<'a, K, V> {
let base = self.base.insert_entry(value);
OccupiedEntry { base }
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> FromIterator<(K, V)> for HashMap<K, V, S>
where
K: Eq + Hash,
S: BuildHasher + Default,
{
fn from_iter<T: IntoIterator<Item = (K, V)>>(iter: T) -> HashMap<K, V, S> {
let mut map = HashMap::with_hasher(Default::default());
map.extend(iter);
map
}
}
/// Inserts all new key-values from the iterator and replaces values with existing
/// keys with new values returned from the iterator.
#[stable(feature = "rust1", since = "1.0.0")]
impl<K, V, S> Extend<(K, V)> for HashMap<K, V, S>
where
K: Eq + Hash,
S: BuildHasher,
{
#[inline]
fn extend<T: IntoIterator<Item = (K, V)>>(&mut self, iter: T) {
self.base.extend(iter)
}
#[inline]
fn extend_one(&mut self, (k, v): (K, V)) {
self.base.insert(k, v);
}
#[inline]
fn extend_reserve(&mut self, additional: usize) {
self.base.extend_reserve(additional);
}
}
#[stable(feature = "hash_extend_copy", since = "1.4.0")]
impl<'a, K, V, S> Extend<(&'a K, &'a V)> for HashMap<K, V, S>
where
K: Eq + Hash + Copy,
V: Copy,
S: BuildHasher,
{
#[inline]
fn extend<T: IntoIterator<Item = (&'a K, &'a V)>>(&mut self, iter: T) {
self.base.extend(iter)
}
#[inline]
fn extend_one(&mut self, (&k, &v): (&'a K, &'a V)) {
self.base.insert(k, v);
}
#[inline]
fn extend_reserve(&mut self, additional: usize) {
Extend::<(K, V)>::extend_reserve(self, additional)
}
}
/// `RandomState` is the default state for [`HashMap`] types.
///
/// A particular instance `RandomState` will create the same instances of
/// [`Hasher`], but the hashers created by two different `RandomState`
/// instances are unlikely to produce the same result for the same values.
///
/// # Examples
///
/// ```
/// use std::collections::HashMap;
/// use std::collections::hash_map::RandomState;
///
/// let s = RandomState::new();
/// let mut map = HashMap::with_hasher(s);
/// map.insert(1, 2);
/// ```
#[derive(Clone)]
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
pub struct RandomState {
k0: u64,
k1: u64,
}
impl RandomState {
/// Constructs a new `RandomState` that is initialized with random keys.
///
/// # Examples
///
/// ```
/// use std::collections::hash_map::RandomState;
///
/// let s = RandomState::new();
/// ```
#[inline]
#[allow(deprecated)]
// rand
#[must_use]
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
pub fn new() -> RandomState {
// Historically this function did not cache keys from the OS and instead
// simply always called `rand::thread_rng().gen()` twice. In #31356 it
// was discovered, however, that because we re-seed the thread-local RNG
// from the OS periodically that this can cause excessive slowdown when
// many hash maps are created on a thread. To solve this performance
// trap we cache the first set of randomly generated keys per-thread.
//
// Later in #36481 it was discovered that exposing a deterministic
// iteration order allows a form of DOS attack. To counter that we
// increment one of the seeds on every RandomState creation, giving
// every corresponding HashMap a different iteration order.
thread_local!(static KEYS: Cell<(u64, u64)> = {
Cell::new(sys::hashmap_random_keys())
});
KEYS.with(|keys| {
let (k0, k1) = keys.get();
keys.set((k0.wrapping_add(1), k1));
RandomState { k0, k1 }
})
}
}
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
impl BuildHasher for RandomState {
type Hasher = DefaultHasher;
#[inline]
#[allow(deprecated)]
fn build_hasher(&self) -> DefaultHasher {
DefaultHasher(SipHasher13::new_with_keys(self.k0, self.k1))
}
}
/// The default [`Hasher`] used by [`RandomState`].
///
/// The internal algorithm is not specified, and so it and its hashes should
/// not be relied upon over releases.
#[stable(feature = "hashmap_default_hasher", since = "1.13.0")]
#[allow(deprecated)]
#[derive(Clone, Debug)]
pub struct DefaultHasher(SipHasher13);
impl DefaultHasher {
/// Creates a new `DefaultHasher`.
///
/// This hasher is not guaranteed to be the same as all other
/// `DefaultHasher` instances, but is the same as all other `DefaultHasher`
/// instances created through `new` or `default`.
#[stable(feature = "hashmap_default_hasher", since = "1.13.0")]
#[allow(deprecated)]
#[must_use]
pub fn new() -> DefaultHasher {
DefaultHasher(SipHasher13::new_with_keys(0, 0))
}
}
#[stable(feature = "hashmap_default_hasher", since = "1.13.0")]
impl Default for DefaultHasher {
/// Creates a new `DefaultHasher` using [`new`].
/// See its documentation for more.
///
/// [`new`]: DefaultHasher::new
fn default() -> DefaultHasher {
DefaultHasher::new()
}
}
#[stable(feature = "hashmap_default_hasher", since = "1.13.0")]
impl Hasher for DefaultHasher {
#[inline]
fn write(&mut self, msg: &[u8]) {
self.0.write(msg)
}
#[inline]
fn finish(&self) -> u64 {
self.0.finish()
}
}
#[stable(feature = "hashmap_build_hasher", since = "1.7.0")]
impl Default for RandomState {
/// Constructs a new `RandomState`.
#[inline]
fn default() -> RandomState {
RandomState::new()
}
}
#[stable(feature = "std_debug", since = "1.16.0")]
impl fmt::Debug for RandomState {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("RandomState").finish_non_exhaustive()
}
}
#[inline]
fn map_entry<'a, K: 'a, V: 'a>(raw: base::RustcEntry<'a, K, V>) -> Entry<'a, K, V> {
match raw {
base::RustcEntry::Occupied(base) => Entry::Occupied(OccupiedEntry { base }),
base::RustcEntry::Vacant(base) => Entry::Vacant(VacantEntry { base }),
}
}
#[inline]
pub(super) fn map_try_reserve_error(err: hashbrown::TryReserveError) -> TryReserveError {
match err {
hashbrown::TryReserveError::CapacityOverflow => {
TryReserveErrorKind::CapacityOverflow.into()
}
hashbrown::TryReserveError::AllocError { layout } => {
TryReserveErrorKind::AllocError { layout, non_exhaustive: () }.into()
}
}
}
#[inline]
fn map_raw_entry<'a, K: 'a, V: 'a, S: 'a>(
raw: base::RawEntryMut<'a, K, V, S>,
) -> RawEntryMut<'a, K, V, S> {
match raw {
base::RawEntryMut::Occupied(base) => RawEntryMut::Occupied(RawOccupiedEntryMut { base }),
base::RawEntryMut::Vacant(base) => RawEntryMut::Vacant(RawVacantEntryMut { base }),
}
}
#[allow(dead_code)]
fn assert_covariance() {
fn map_key<'new>(v: HashMap<&'static str, u8>) -> HashMap<&'new str, u8> {
v
}
fn map_val<'new>(v: HashMap<u8, &'static str>) -> HashMap<u8, &'new str> {
v
}
fn iter_key<'a, 'new>(v: Iter<'a, &'static str, u8>) -> Iter<'a, &'new str, u8> {
v
}
fn iter_val<'a, 'new>(v: Iter<'a, u8, &'static str>) -> Iter<'a, u8, &'new str> {
v
}
fn into_iter_key<'new>(v: IntoIter<&'static str, u8>) -> IntoIter<&'new str, u8> {
v
}
fn into_iter_val<'new>(v: IntoIter<u8, &'static str>) -> IntoIter<u8, &'new str> {
v
}
fn keys_key<'a, 'new>(v: Keys<'a, &'static str, u8>) -> Keys<'a, &'new str, u8> {
v
}
fn keys_val<'a, 'new>(v: Keys<'a, u8, &'static str>) -> Keys<'a, u8, &'new str> {
v
}
fn values_key<'a, 'new>(v: Values<'a, &'static str, u8>) -> Values<'a, &'new str, u8> {
v
}
fn values_val<'a, 'new>(v: Values<'a, u8, &'static str>) -> Values<'a, u8, &'new str> {
v
}
fn drain<'new>(
d: Drain<'static, &'static str, &'static str>,
) -> Drain<'new, &'new str, &'new str> {
d
}
}