[−][src]Struct ordered_multimap::list_ordered_multimap::ListOrderedMultimap
Implementations
impl<Key, Value> ListOrderedMultimap<Key, Value, RandomState> where
Key: Eq + Hash,
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Key: Eq + Hash,
pub fn new() -> ListOrderedMultimap<Key, Value, RandomState>
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Creates a new multimap with no initial capacity.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value1"); assert_eq!(map.get(&"key1"), Some(&"value1"));
pub fn with_capacity(
key_capacity: usize,
value_capacity: usize
) -> ListOrderedMultimap<Key, Value, RandomState>
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key_capacity: usize,
value_capacity: usize
) -> ListOrderedMultimap<Key, Value, RandomState>
Creates a new multimap with the specified capacities.
The multimap will be able to hold at least key_capacity
keys and value_capacity
values
without reallocating. A capacity of 0 will result in no allocation for the respective
container.
Examples
use ordered_multimap::ListOrderedMultimap; let map: ListOrderedMultimap<&str, &str> = ListOrderedMultimap::new(); assert_eq!(map.keys_capacity(), 0); assert_eq!(map.values_capacity(), 0); let map: ListOrderedMultimap<&str, &str> = ListOrderedMultimap::with_capacity(5, 10); assert_eq!(map.keys_capacity(), 5); assert_eq!(map.values_capacity(), 10);
impl<Key, Value, State> ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher,
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Key: Eq + Hash,
State: BuildHasher,
pub fn append(&mut self, key: Key, value: Value) -> bool
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Appends a value to the list of values associated with the given key.
If the key is not already in the multimap, this will be identical to an insert and the
return value will be false
. Otherwise, true
will be returned.
Complexity: amortized O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); let already_exists = map.append("key", "value"); assert!(!already_exists); assert_eq!(map.values_len(), 1); assert_eq!(map.get(&"key"), Some(&"value")); let already_exists = map.append("key", "value2"); assert!(already_exists); assert_eq!(map.values_len(), 2);
pub fn back(&self) -> Option<(&Key, &Value)>
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Returns an immutable reference to the first key-value pair in the multimap
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.back(), None); map.insert("key", "value"); assert_eq!(map.back(), Some((&"key", &"value")));
pub fn back_mut(&mut self) -> Option<(&Key, &mut Value)>
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Returns an immutable reference to the first key-value pair in the multimap
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.back_mut(), None); map.insert("key", "value"); assert_eq!(map.back_mut(), Some((&"key", &mut "value")));
pub fn clear(&mut self)
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Removes all keys and values from the multimap.
Complexity: O(|K| + |V|) where |K| is the number of keys and |V| is the number of values.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value"); assert_eq!(map.keys_len(), 1); assert_eq!(map.values_len(), 1); map.clear(); assert_eq!(map.keys_len(), 0); assert_eq!(map.values_len(), 0);
pub fn contains_key<KeyQuery: ?Sized>(&self, key: &KeyQuery) -> bool where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns whether the given key is in the multimap.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert!(!map.contains_key(&"key")); map.insert("key", "value"); assert!(map.contains_key(&"key"));
pub fn drain_pairs(&mut self) -> KeyValuesDrain<'_, Key, Value, State>ⓘNotable traits for KeyValuesDrain<'map, Key, Value, State>
impl<'map, Key, Value, State> Iterator for KeyValuesDrain<'map, Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher, type Item = (Key, KeyValuesEntryDrain<'map, Key, Value>);
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Notable traits for KeyValuesDrain<'map, Key, Value, State>
impl<'map, Key, Value, State> Iterator for KeyValuesDrain<'map, Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher, type Item = (Key, KeyValuesEntryDrain<'map, Key, Value>);
Returns an iterator that yields keys and all associated values with those keys as separate drain iterators. The order of yielded pairs will be the order in which the keys were first inserted into the multimap.
Regardless of whether this iterator is fully consumed, all keys and values will be removed from the map.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let mut iter = map.drain_pairs(); let (key, mut values) = iter.next().unwrap(); assert_eq!(key, "key"); assert_eq!(values.next(), Some("value1")); assert_eq!(values.next(), Some("value2")); assert_eq!(values.next(), None);
pub fn entry(&mut self, key: Key) -> Entry<'_, Key, Value, State>
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Returns whether the given key is in the multimap.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); let value = map.entry("key").or_insert("value"); assert_eq!(value, &"value"); assert_eq!(map.get(&"key"), Some(&"value"));
pub fn entry_len<KeyQuery: ?Sized>(&self, key: &KeyQuery) -> usize where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns the number of values associated with a key.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.entry_len(&"key"), 0); map.insert("key", "value1"); assert_eq!(map.entry_len(&"key"), 1); map.append(&"key", "value2"); assert_eq!(map.entry_len(&"key"), 2);
pub fn front(&self) -> Option<(&Key, &Value)>
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Returns an immutable reference to the first key-value pair in the multimap
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.front(), None); map.insert("key", "value"); assert_eq!(map.front(), Some((&"key", &"value")));
pub fn front_mut(&mut self) -> Option<(&Key, &mut Value)>
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Returns an immutable reference to the first key-value pair in the multimap
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.front_mut(), None); map.insert("key", "value"); assert_eq!(map.front_mut(), Some((&"key", &mut "value")));
pub fn get<KeyQuery: ?Sized>(&self, key: &KeyQuery) -> Option<&Value> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns an immutable reference to the first value, by insertion order, associated with the
given key, or None
if the key is not in the multimap.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map: ListOrderedMultimap<&str, &str> = ListOrderedMultimap::new(); assert_eq!(map.get(&"key"), None);
pub fn get_all<KeyQuery: ?Sized>(
&self,
key: &KeyQuery
) -> EntryValues<'_, Key, Value>ⓘNotable traits for EntryValues<'map, Key, Value>
impl<'map, Key, Value> Iterator for EntryValues<'map, Key, Value> type Item = &'map Value;
where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&self,
key: &KeyQuery
) -> EntryValues<'_, Key, Value>ⓘ
Notable traits for EntryValues<'map, Key, Value>
impl<'map, Key, Value> Iterator for EntryValues<'map, Key, Value> type Item = &'map Value;
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns an iterator that yields immutable references to all values associated with the given key by insertion order.
If the key is not in the multimap, the iterator will yield no values.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value"); map.append("key", "value2"); let mut iter = map.get_all(&"key"); assert_eq!(iter.next(), Some(&"value")); assert_eq!(iter.next(), Some(&"value2")); assert_eq!(iter.next(), None);
pub fn get_all_mut<KeyQuery: ?Sized>(
&mut self,
key: &KeyQuery
) -> EntryValuesMut<'_, Key, Value>ⓘNotable traits for EntryValuesMut<'map, Key, Value>
impl<'map, Key, Value> Iterator for EntryValuesMut<'map, Key, Value> type Item = &'map mut Value;
where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&mut self,
key: &KeyQuery
) -> EntryValuesMut<'_, Key, Value>ⓘ
Notable traits for EntryValuesMut<'map, Key, Value>
impl<'map, Key, Value> Iterator for EntryValuesMut<'map, Key, Value> type Item = &'map mut Value;
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns an iterator that yields mutable references to all values associated with the given key by insertion order.
If the key is not in the multimap, the iterator will yield no values.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let mut iter = map.get_all_mut(&"key"); let first = iter.next().unwrap(); assert_eq!(first, &mut "value1"); *first = "value3"; assert_eq!(iter.next(), Some(&mut "value2")); assert_eq!(iter.next(), None); assert_eq!(map.get(&"key"), Some(&"value3"));
pub fn get_mut<KeyQuery: ?Sized>(
&mut self,
key: &KeyQuery
) -> Option<&mut Value> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&mut self,
key: &KeyQuery
) -> Option<&mut Value> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Returns a mutable reference to the first value, by insertion order, associated with the
given key, or None
if the key is not in the multimap.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.get(&"key"), None); map.insert("key", "value"); assert_eq!(map.get(&"key"), Some(&"value")); let mut value = map.get_mut(&"key").unwrap(); *value = "value2"; assert_eq!(map.get(&"key"), Some(&"value2"));
pub fn hasher(&self) -> &State
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Returns a reference to the multimap's BuildHasher
.
Examples
use ordered_multimap::ListOrderedMultimap; let map: ListOrderedMultimap<&str, &str> = ListOrderedMultimap::new(); let hasher = map.hasher();
pub fn insert(&mut self, key: Key, value: Value) -> Option<Value>
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Inserts the key-value pair into the multimap and returns the first value, by insertion order, that was already associated with the key.
If the key is not already in the multimap, None
will be returned. If the key is already in
the multimap, the insertion ordering of the keys will remain unchanged.
Complexity: O(1) amortized
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert!(map.is_empty()); let old_value = map.insert("key", "value"); assert!(old_value.is_none()); assert_eq!(map.values_len(), 1); assert_eq!(map.get(&"key"), Some(&"value")); let old_value = map.insert("key", "value2"); assert_eq!(old_value, Some("value")); assert_eq!(map.values_len(), 1); assert_eq!(map.get(&"key"), Some(&"value2"));
pub fn insert_all(
&mut self,
key: Key,
value: Value
) -> EntryValuesDrain<'_, Key, Value>ⓘNotable traits for EntryValuesDrain<'_, Key, Value>
impl<Key, Value, '_> Iterator for EntryValuesDrain<'_, Key, Value> type Item = Value;
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&mut self,
key: Key,
value: Value
) -> EntryValuesDrain<'_, Key, Value>ⓘ
Notable traits for EntryValuesDrain<'_, Key, Value>
impl<Key, Value, '_> Iterator for EntryValuesDrain<'_, Key, Value> type Item = Value;
Inserts the key-value pair into the multimap and returns an iterator that yields all values previously associated with the key by insertion order.
If the key is not already in the multimap, the iterator will yield no values.If the key is already in the multimap, the insertion ordering of the keys will remain unchanged.
Complexity: O(1) amortized
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert!(map.is_empty()); { let mut old_values = map.insert_all("key", "value"); assert_eq!(old_values.next(), None); } assert_eq!(map.values_len(), 1); assert_eq!(map.get(&"key"), Some(&"value")); map.append("key", "value2"); { let mut old_values = map.insert_all("key", "value3"); assert_eq!(old_values.next(), Some("value")); assert_eq!(old_values.next(), Some("value2")); assert_eq!(old_values.next(), None); } assert_eq!(map.values_len(), 1); assert_eq!(map.get(&"key"), Some(&"value3"));
pub fn is_empty(&self) -> bool
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Returns whether the multimap is empty.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert!(map.is_empty()); map.insert("key1", "value"); assert!(!map.is_empty()); map.remove(&"key1"); assert!(map.is_empty());
pub fn iter(&self) -> Iter<'_, Key, Value>ⓘ
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Returns an iterator that yields immutable references to all key-value pairs in the multimap by insertion order.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value1"); map.insert("key2", "value1"); map.append(&"key1", "value2"); map.append(&"key2", "value2"); let mut iter = map.iter(); assert_eq!(iter.size_hint(), (4, Some(4))); assert_eq!(iter.next(), Some((&"key1", &"value1"))); assert_eq!(iter.next(), Some((&"key2", &"value1"))); assert_eq!(iter.next(), Some((&"key1", &"value2"))); assert_eq!(iter.next(), Some((&"key2", &"value2"))); assert_eq!(iter.next(), None);
pub fn iter_mut(&mut self) -> IterMut<'_, Key, Value>ⓘ
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Returns an iterator that yields mutable references to all key-value pairs in the multimap by insertion order.
Only the values are mutable, the keys are immutable.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value1"); map.insert("key2", "value1"); map.append(&"key1", "value2"); map.append(&"key2", "value2"); let mut iter = map.iter_mut(); assert_eq!(iter.size_hint(), (4, Some(4))); let first = iter.next().unwrap(); assert_eq!(first, (&"key1", &mut "value1")); *first.1 = "value3"; assert_eq!(iter.next(), Some((&"key2", &mut "value1"))); assert_eq!(iter.next(), Some((&"key1", &mut "value2"))); assert_eq!(iter.next(), Some((&"key2", &mut "value2"))); assert_eq!(iter.next(), None); assert_eq!(map.get(&"key1"), Some(&"value3"));
pub fn keys(&self) -> Keys<'_, Key>ⓘ
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Returns an iterator that yields immutable references to all keys in the multimap by insertion order.
Insertion order of keys is determined by the order in which a given key is first inserted into the multimap with a value. Any subsequent insertions with that key without first removing it will not affect its ordering.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value"); map.insert("key2", "value"); map.insert("key3", "value"); let mut keys = map.keys(); assert_eq!(keys.next(), Some(&"key1")); assert_eq!(keys.next(), Some(&"key2")); assert_eq!(keys.next(), Some(&"key3")); assert_eq!(keys.next(), None);
pub fn keys_capacity(&self) -> usize
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Returns the number of keys the multimap can hold without reallocating.
This number is a lower bound, and the multimap may be able to hold more.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.keys_capacity(), 0); map.insert("key", "value"); assert!(map.keys_capacity() > 0);
pub fn keys_len(&self) -> usize
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Returns the number of keys in the multimap.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.keys_len(), 0); map.insert("key1", "value"); map.insert("key2", "value"); map.insert("key3", "value"); assert_eq!(map.keys_len(), 3);
pub fn pack_to(
&mut self,
keys_minimum_capacity: usize,
values_minimum_capacity: usize
) where
State: Default,
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&mut self,
keys_minimum_capacity: usize,
values_minimum_capacity: usize
) where
State: Default,
Reorganizes the multimap to ensure maximum spatial locality and changes the key and value capacities to the provided values.
This function can be used to actually increase the capacity of the multimap.
Complexity: O(|K| + |V|) where |K| is the number of keys and |V| is the number of values.
Panics
Panics if either of the given minimum capacities are less than their current respective lengths.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::with_capacity(10, 10); map.insert("key1", "value1"); map.insert("key2", "value2"); map.append("key2", "value3"); map.append("key1", "value4"); map.pack_to(5, 5); assert_eq!(map.keys_capacity(), 5); assert_eq!(map.keys_len(), 2); assert_eq!(map.values_capacity(), 5); assert_eq!(map.values_len(), 4);
pub fn pack_to_fit(&mut self) where
State: Default,
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State: Default,
Reorganizes the multimap to ensure maximum spatial locality and removes any excess key and value capacity.
Complexity: O(|K| + |V|) where |K| is the number of keys and |V| is the number of values.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::with_capacity(5, 5); map.insert("key1", "value1"); map.insert("key2", "value2"); map.append("key2", "value3"); map.append("key1", "value4"); map.pack_to_fit(); assert_eq!(map.keys_capacity(), 2); assert_eq!(map.keys_len(), 2); assert_eq!(map.values_capacity(), 4); assert_eq!(map.values_len(), 4);
pub fn pairs(&self) -> KeyValues<'_, Key, Value, State>ⓘ
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Returns an iterator that yields immutable references to keys and all associated values with those keys as separate iterators. The order of yielded pairs will be the order in which the keys were first inserted into the multimap.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let mut iter = map.pairs(); let (key, mut values) = iter.next().unwrap(); assert_eq!(key, &"key"); assert_eq!(values.next(), Some(&"value1")); assert_eq!(values.next(), Some(&"value2")); assert_eq!(values.next(), None);
pub fn pairs_mut(&mut self) -> KeyValuesMut<'_, Key, Value, State>ⓘNotable traits for KeyValuesMut<'map, Key, Value, State>
impl<'map, Key, Value, State> Iterator for KeyValuesMut<'map, Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher, type Item = (&'map Key, EntryValuesMut<'map, Key, Value>);
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Notable traits for KeyValuesMut<'map, Key, Value, State>
impl<'map, Key, Value, State> Iterator for KeyValuesMut<'map, Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher, type Item = (&'map Key, EntryValuesMut<'map, Key, Value>);
Returns an iterator that yields immutable references to keys and mutable references to all associated values with those keys as separate iterators. The order of yielded pairs will be the order in which the keys were first inserted into the multimap.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let mut iter = map.pairs_mut(); let (key, mut values) = iter.next().unwrap(); assert_eq!(key, &"key"); assert_eq!(values.next(), Some(&mut "value1")); assert_eq!(values.next(), Some(&mut "value2")); assert_eq!(values.next(), None);
pub fn pop_back(&mut self) -> Option<(KeyWrapper<'_, Key>, Value)>
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Removes the last key-value pair to have been inserted.
Because a single key can be associated with many values, the key returned by this function
is a KeyWrapper
which can be either owned or borrowed. If the value removed was the only
value associated with the key, then the key will be returned. Otherwise, a reference to the
key will be returned.
This function along with ListOrderedMultimap::pop_front
act as replacements for a drain
iterator since an iterator cannot be done over KeyWrapper
.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; use ordered_multimap::list_ordered_multimap::KeyWrapper; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let (key, value) = map.pop_back().unwrap(); assert_eq!(key, KeyWrapper::Borrowed(&"key")); assert_eq!(&value, &"value2"); let (key, value) = map.pop_back().unwrap(); assert_eq!(key, KeyWrapper::Owned("key")); assert_eq!(&value, &"value1");
pub fn pop_front(&mut self) -> Option<(KeyWrapper<'_, Key>, Value)>
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Removes the first key-value pair to have been inserted.
Because a single key can be associated with many values, the key returned by this function
is a KeyWrapper
which can be either owned or borrowed. If the value removed was the only
value associated with the key, then the key will be returned. Otherwise, a reference to the
key will be returned.
This function along with ListOrderedMultimap::pop_back
act as replacements for a drain
iterator since an iterator cannot be done over KeyWrapper
.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; use ordered_multimap::list_ordered_multimap::KeyWrapper; let mut map = ListOrderedMultimap::new(); map.insert("key", "value1"); map.append("key", "value2"); let (key, value) = map.pop_front().unwrap(); assert_eq!(key, KeyWrapper::Borrowed(&"key")); assert_eq!(&value, &"value1"); let (key, value) = map.pop_front().unwrap(); assert_eq!(key, KeyWrapper::Owned("key")); assert_eq!(&value, &"value2");
pub fn remove<KeyQuery: ?Sized>(&mut self, key: &KeyQuery) -> Option<Value> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Removes all values associated with the given key from the map and returns the first value by insertion order.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); let removed_value = map.remove(&"key"); assert_eq!(removed_value, None); map.insert("key", "value"); assert_eq!(map.get(&"key"), Some(&"value")); let removed_value = map.remove(&"key"); assert_eq!(removed_value, Some("value")); assert_eq!(map.get(&"key"), None);
pub fn remove_all<KeyQuery: ?Sized>(
&mut self,
key: &KeyQuery
) -> EntryValuesDrain<'_, Key, Value>ⓘNotable traits for EntryValuesDrain<'_, Key, Value>
impl<Key, Value, '_> Iterator for EntryValuesDrain<'_, Key, Value> type Item = Value;
where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&mut self,
key: &KeyQuery
) -> EntryValuesDrain<'_, Key, Value>ⓘ
Notable traits for EntryValuesDrain<'_, Key, Value>
impl<Key, Value, '_> Iterator for EntryValuesDrain<'_, Key, Value> type Item = Value;
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Removes all values associated with the given key from the map and returns an iterator that yields those values.
If the key is not already in the map, the iterator will yield no values.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); { let mut removed_values = map.remove_all(&"key"); assert_eq!(removed_values.next(), None); } map.insert("key", "value1"); map.append("key", "value2"); assert_eq!(map.get(&"key"), Some(&"value1")); { let mut removed_values = map.remove_all(&"key"); assert_eq!(removed_values.next(), Some("value1")); assert_eq!(removed_values.next(), Some("value2")); assert_eq!(removed_values.next(), None); } assert_eq!(map.get(&"key"), None);
pub fn remove_entry<KeyQuery: ?Sized>(
&mut self,
key: &KeyQuery
) -> Option<(Key, Value)> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&mut self,
key: &KeyQuery
) -> Option<(Key, Value)> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Removes all values associated with the given key from the map and returns the key and first value.
If the key is not already in the map, then None
will be returned.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); let entry = map.remove_entry(&"key"); assert_eq!(entry, None); map.insert("key", "value"); assert_eq!(map.get(&"key"), Some(&"value")); let entry = map.remove_entry(&"key"); assert_eq!(entry, Some(("key", "value"))); assert_eq!(map.get(&"key"), None);
pub fn remove_entry_all<KeyQuery: ?Sized>(
&mut self,
key: &KeyQuery
) -> Option<(Key, EntryValuesDrain<'_, Key, Value>)> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
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&mut self,
key: &KeyQuery
) -> Option<(Key, EntryValuesDrain<'_, Key, Value>)> where
Key: Borrow<KeyQuery>,
KeyQuery: Eq + Hash,
Removes all values associated with the given key from the map and returns the key and an iterator that yields those values.
If the key is not already in the map, then None
will be returned.
Complexity: O(1)
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); { let entry = map.remove_entry_all(&"key"); assert!(entry.is_none()); } map.insert("key", "value1"); map.append("key", "value2"); assert_eq!(map.get(&"key"), Some(&"value1")); { let (key, mut iter) = map.remove_entry_all(&"key").unwrap(); assert_eq!(key, "key"); assert_eq!(iter.next(), Some("value1")); assert_eq!(iter.next(), Some("value2")); assert_eq!(iter.next(), None); } assert_eq!(map.get(&"key"), None);
pub fn reserve_keys(&mut self, additional_capacity: usize)
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Reserves additional capacity such that more keys can be stored in the multimap.
If the existing capacity minus the current length is enough to satisfy the additional capacity, the capacity will remain unchanged.
If the capacity is increased, the capacity may be increased by more than what was requested.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::with_capacity(1, 1); map.insert("key", "value"); assert_eq!(map.keys_capacity(), 1); map.reserve_keys(10); assert!(map.keys_capacity() >= 11); assert_eq!(map.get(&"key"), Some(&"value"));
pub fn reserve_values(&mut self, additional_capacity: usize)
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Reserves additional capacity such that more values can be stored in the multimap.
If the existing capacity minus the current length is enough to satisfy the additional capacity, the capacity will remain unchanged.
If the capacity is increased, the capacity may be increased by more than what was requested.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::with_capacity(1, 1); map.insert("key", "value"); assert_eq!(map.values_capacity(), 1); map.reserve_values(10); assert!(map.values_capacity() >= 11);
pub fn retain<Function>(&mut self, function: Function) where
Function: FnMut(&Key, &mut Value) -> bool,
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Function: FnMut(&Key, &mut Value) -> bool,
Keeps all key-value pairs that satisfy the given predicate function.
Complexity: O(|V|) where |V| is the number of values
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", 1); map.insert("key2", 5); map.append("key1", -1); map.insert("key3", -10); map.retain(|_, &mut value| value >= 0); let mut iter = map.iter(); assert_eq!(iter.next(), Some((&"key1", &1))); assert_eq!(iter.next(), Some((&"key2", &5))); assert_eq!(iter.next(), None);
pub fn values(&self) -> Values<'_, Key, Value>ⓘ
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Returns an iterator that yields immutable references to all values in the multimap by insertion order.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value1"); map.insert("key2", "value1"); map.append(&"key1", "value2"); map.append(&"key2", "value2"); let mut iter = map.values(); assert_eq!(iter.size_hint(), (4, Some(4))); assert_eq!(iter.next(), Some(&"value1")); assert_eq!(iter.next(), Some(&"value1")); assert_eq!(iter.next(), Some(&"value2")); assert_eq!(iter.next(), Some(&"value2")); assert_eq!(iter.next(), None);
pub fn values_mut(&mut self) -> ValuesMut<'_, Key, Value>ⓘ
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Returns an iterator that yields mutable references to all values in the multimap by insertion order.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); map.insert("key1", "value1"); map.insert("key2", "value1"); map.append(&"key1", "value2"); map.append(&"key2", "value2"); let mut iter = map.values_mut(); assert_eq!(iter.size_hint(), (4, Some(4))); let first = iter.next().unwrap(); assert_eq!(first, &mut "value1"); *first = "value3"; assert_eq!(iter.next(), Some(&mut "value1")); assert_eq!(iter.next(), Some(&mut "value2")); assert_eq!(iter.next(), Some(&mut "value2")); assert_eq!(iter.next(), None); assert_eq!(map.get(&"key1"), Some(&"value3"));
pub fn values_capacity(&self) -> usize
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Returns the number of values the multimap can hold without reallocating.
This number is a lower bound, and the multimap may be able to hold more.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.values_capacity(), 0); map.insert("key", "value"); assert!(map.values_capacity() > 0);
pub fn values_len(&self) -> usize
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Returns the total number of values in the multimap across all keys.
Examples
use ordered_multimap::ListOrderedMultimap; let mut map = ListOrderedMultimap::new(); assert_eq!(map.values_len(), 0); map.insert("key1", "value1"); assert_eq!(map.values_len(), 1); map.append("key1", "value2"); assert_eq!(map.values_len(), 2);
pub fn with_capacity_and_hasher(
key_capacity: usize,
value_capacity: usize,
state: State
) -> ListOrderedMultimap<Key, Value, State>
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key_capacity: usize,
value_capacity: usize,
state: State
) -> ListOrderedMultimap<Key, Value, State>
Creates a new multimap with the specified capacities and the given hash builder to hash keys.
The multimap will be able to hold at least key_capacity
keys and value_capacity
values
without reallocating. A capacity of 0 will result in no allocation for the respective
container.
The state
is normally randomly generated and is designed to allow multimaps 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.
Examples
use ordered_multimap::ListOrderedMultimap; use std::collections::hash_map::RandomState; let state = RandomState::new(); let mut map = ListOrderedMultimap::with_capacity_and_hasher(10, 10, state); map.insert("key", "value"); assert_eq!(map.keys_capacity(), 10); assert_eq!(map.values_capacity(), 10);
pub fn with_hasher(state: State) -> ListOrderedMultimap<Key, Value, State>
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Creates a new multimap with no capacity which will use the given hash builder to hash keys.
The state
is normally randomly generated and is designed to allow multimaps 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.
Examples
use ordered_multimap::ListOrderedMultimap; use std::collections::hash_map::RandomState; let state = RandomState::new(); let mut map = ListOrderedMultimap::with_hasher(state); map.insert("key", "value");
Trait Implementations
impl<Key: Clone, Value: Clone, State: Clone> Clone for ListOrderedMultimap<Key, Value, State>
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fn clone(&self) -> ListOrderedMultimap<Key, Value, State>
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fn clone_from(&mut self, source: &Self)
1.0.0[src]
impl<Key, Value, State> Debug for ListOrderedMultimap<Key, Value, State> where
Key: Debug + Eq + Hash,
Value: Debug,
State: BuildHasher,
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Key: Debug + Eq + Hash,
Value: Debug,
State: BuildHasher,
impl<Key, Value> Default for ListOrderedMultimap<Key, Value, RandomState> where
Key: Eq + Hash,
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Key: Eq + Hash,
impl<Key, Value, State> Eq for ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
Value: PartialEq,
State: BuildHasher,
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Key: Eq + Hash,
Value: PartialEq,
State: BuildHasher,
impl<'a, Key, Value, State> Extend<(&'a Key, &'a Value)> for ListOrderedMultimap<Key, Value, State> where
Key: Copy + Eq + Hash,
Value: Copy,
State: BuildHasher,
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Key: Copy + Eq + Hash,
Value: Copy,
State: BuildHasher,
fn extend<Iter>(&mut self, iter: Iter) where
Iter: IntoIterator<Item = (&'a Key, &'a Value)>,
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Iter: IntoIterator<Item = (&'a Key, &'a Value)>,
fn extend_one(&mut self, item: A)
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fn extend_reserve(&mut self, additional: usize)
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impl<Key, Value, State> Extend<(Key, Value)> for ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher,
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Key: Eq + Hash,
State: BuildHasher,
fn extend<Iter>(&mut self, iter: Iter) where
Iter: IntoIterator<Item = (Key, Value)>,
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Iter: IntoIterator<Item = (Key, Value)>,
fn extend_one(&mut self, item: A)
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fn extend_reserve(&mut self, additional: usize)
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impl<Key, Value, State> FromIterator<(Key, Value)> for ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher + Default,
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Key: Eq + Hash,
State: BuildHasher + Default,
fn from_iter<Iter>(iter: Iter) -> Self where
Iter: IntoIterator<Item = (Key, Value)>,
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Iter: IntoIterator<Item = (Key, Value)>,
impl<Key, Value, State> IntoIterator for ListOrderedMultimap<Key, Value, State> where
Key: Clone + Eq + Hash,
State: BuildHasher,
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Key: Clone + Eq + Hash,
State: BuildHasher,
type IntoIter = IntoIter<Key, Value>
Which kind of iterator are we turning this into?
type Item = (Key, Value)
The type of the elements being iterated over.
fn into_iter(self) -> Self::IntoIter
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impl<'map, Key, Value, State> IntoIterator for &'map ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher,
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Key: Eq + Hash,
State: BuildHasher,
type IntoIter = Iter<'map, Key, Value>
Which kind of iterator are we turning this into?
type Item = (&'map Key, &'map Value)
The type of the elements being iterated over.
fn into_iter(self) -> Self::IntoIter
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impl<'map, Key, Value, State> IntoIterator for &'map mut ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
State: BuildHasher,
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Key: Eq + Hash,
State: BuildHasher,
type IntoIter = IterMut<'map, Key, Value>
Which kind of iterator are we turning this into?
type Item = (&'map Key, &'map mut Value)
The type of the elements being iterated over.
fn into_iter(self) -> Self::IntoIter
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impl<Key, Value, State> PartialEq<ListOrderedMultimap<Key, Value, State>> for ListOrderedMultimap<Key, Value, State> where
Key: Eq + Hash,
Value: PartialEq,
State: BuildHasher,
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Key: Eq + Hash,
Value: PartialEq,
State: BuildHasher,
Auto Trait Implementations
impl<Key, Value, State> RefUnwindSafe for ListOrderedMultimap<Key, Value, State> where
Key: RefUnwindSafe,
State: RefUnwindSafe,
Value: RefUnwindSafe,
Key: RefUnwindSafe,
State: RefUnwindSafe,
Value: RefUnwindSafe,
impl<Key, Value, State> Send for ListOrderedMultimap<Key, Value, State> where
Key: Send,
State: Send,
Value: Send,
Key: Send,
State: Send,
Value: Send,
impl<Key, Value, State> Sync for ListOrderedMultimap<Key, Value, State> where
Key: Sync,
State: Sync,
Value: Sync,
Key: Sync,
State: Sync,
Value: Sync,
impl<Key, Value, State> Unpin for ListOrderedMultimap<Key, Value, State> where
Key: Unpin,
State: Unpin,
Value: Unpin,
Key: Unpin,
State: Unpin,
Value: Unpin,
impl<Key, Value, State> UnwindSafe for ListOrderedMultimap<Key, Value, State> where
Key: UnwindSafe,
State: UnwindSafe,
Value: UnwindSafe,
Key: UnwindSafe,
State: UnwindSafe,
Value: UnwindSafe,
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
pub fn borrow_mut(&mut self) -> &mut T
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impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<I> IntoIterator for I where
I: Iterator,
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I: Iterator,
type Item = <I as Iterator>::Item
The type of the elements being iterated over.
type IntoIter = I
Which kind of iterator are we turning this into?
pub fn into_iter(self) -> I
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impl<T> ToOwned for T where
T: Clone,
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T: Clone,
type Owned = T
The resulting type after obtaining ownership.
pub fn to_owned(&self) -> T
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pub fn clone_into(&self, target: &mut T)
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
pub fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,
type Error = <U as TryFrom<T>>::Error
The type returned in the event of a conversion error.
pub fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>
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impl<V, T> VZip<V> for T where
V: MultiLane<T>,
V: MultiLane<T>,