Trait frame_support::storage::IterableStorageNMap
source · pub trait IterableStorageNMap<K: ReversibleKeyGenerator, V: FullCodec>: StorageNMap<K, V> {
type KeyIterator: Iterator<Item = K::Key>;
type Iterator: Iterator<Item = (K::Key, V)>;
// Required methods
fn iter_prefix<KP>(
kp: KP
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘ
where K: HasReversibleKeyPrefix<KP>;
fn iter_prefix_from<KP>(
kp: KP,
starting_raw_key: Vec<u8>
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘ
where K: HasReversibleKeyPrefix<KP>;
fn iter_key_prefix<KP>(
kp: KP
) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘ
where K: HasReversibleKeyPrefix<KP>;
fn iter_key_prefix_from<KP>(
kp: KP,
starting_raw_key: Vec<u8>
) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘ
where K: HasReversibleKeyPrefix<KP>;
fn drain_prefix<KP>(
kp: KP
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘ
where K: HasReversibleKeyPrefix<KP>;
fn iter() -> Self::Iterator;
fn iter_from(starting_raw_key: Vec<u8>) -> Self::Iterator;
fn iter_keys() -> Self::KeyIterator;
fn iter_keys_from(starting_raw_key: Vec<u8>) -> Self::KeyIterator;
fn drain() -> Self::Iterator;
fn translate<O: Decode, F: FnMut(K::Key, O) -> Option<V>>(f: F);
}Expand description
A strongly-typed map with arbitrary number of keys in storage whose keys and values can be iterated over.
Required Associated Types§
sourcetype KeyIterator: Iterator<Item = K::Key>
type KeyIterator: Iterator<Item = K::Key>
The type that iterates over all (key1, key2, key3, ... keyN) tuples.
Required Methods§
sourcefn iter_prefix<KP>(
kp: KP
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere
K: HasReversibleKeyPrefix<KP>,
fn iter_prefix<KP>( kp: KP ) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere K: HasReversibleKeyPrefix<KP>,
Enumerate all elements in the map with prefix key kp in lexicographical order of the
encoded key. If you add or remove values whose prefix is kp to the map while doing this,
you’ll get undefined results.
sourcefn iter_prefix_from<KP>(
kp: KP,
starting_raw_key: Vec<u8>
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere
K: HasReversibleKeyPrefix<KP>,
fn iter_prefix_from<KP>( kp: KP, starting_raw_key: Vec<u8> ) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere K: HasReversibleKeyPrefix<KP>,
Enumerate all elements in the map with prefix key kp after a specified starting_raw_key
in lexicographical order of the encoded key. If you add or remove values whose prefix is
kp to the map while doing this, you’ll get undefined results.
sourcefn iter_key_prefix<KP>(
kp: KP
) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘwhere
K: HasReversibleKeyPrefix<KP>,
fn iter_key_prefix<KP>( kp: KP ) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘwhere K: HasReversibleKeyPrefix<KP>,
Enumerate all suffix keys in the map with prefix key kp in lexicographical order of the
encoded key. If you add or remove values whose prefix is kp to the map while doing this,
you’ll get undefined results.
sourcefn iter_key_prefix_from<KP>(
kp: KP,
starting_raw_key: Vec<u8>
) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘwhere
K: HasReversibleKeyPrefix<KP>,
fn iter_key_prefix_from<KP>( kp: KP, starting_raw_key: Vec<u8> ) -> KeyPrefixIterator<<K as HasKeyPrefix<KP>>::Suffix> ⓘwhere K: HasReversibleKeyPrefix<KP>,
Enumerate all suffix keys in the map with prefix key kp after a specified
starting_raw_key in lexicographical order of the encoded key. If you add or remove values
whose prefix is kp to the map while doing this, you’ll get undefined results.
sourcefn drain_prefix<KP>(
kp: KP
) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere
K: HasReversibleKeyPrefix<KP>,
fn drain_prefix<KP>( kp: KP ) -> PrefixIterator<(<K as HasKeyPrefix<KP>>::Suffix, V)> ⓘwhere K: HasReversibleKeyPrefix<KP>,
Remove all elements from the map with prefix key kp and iterate through them in
lexicographical order of the encoded key. If you add elements with prefix key kp to the
map while doing this, you’ll get undefined results.
sourcefn iter() -> Self::Iterator
fn iter() -> Self::Iterator
Enumerate all elements in the map in lexicographical order of the encoded key. If you add or remove values to the map while doing this, you’ll get undefined results.
sourcefn iter_from(starting_raw_key: Vec<u8>) -> Self::Iterator
fn iter_from(starting_raw_key: Vec<u8>) -> Self::Iterator
Enumerate all elements in the map after a specified starting_raw_key in lexicographical
order of the encoded key. If you add or remove values to the map while doing this, you’ll
get undefined results.
sourcefn iter_keys() -> Self::KeyIterator
fn iter_keys() -> Self::KeyIterator
Enumerate all keys in the map in lexicographical order of the encoded key. If you add or remove values to the map while doing this, you’ll get undefined results.
sourcefn iter_keys_from(starting_raw_key: Vec<u8>) -> Self::KeyIterator
fn iter_keys_from(starting_raw_key: Vec<u8>) -> Self::KeyIterator
Enumerate all keys in the map after starting_raw_key in lexicographical order of the
encoded key. If you add or remove values to the map while doing this, you’ll get undefined
results.
sourcefn drain() -> Self::Iterator
fn drain() -> Self::Iterator
Remove all elements from the map and iterate through them in lexicographical order of the encoded key. If you add elements to the map while doing this, you’ll get undefined results.
sourcefn translate<O: Decode, F: FnMut(K::Key, O) -> Option<V>>(f: F)
fn translate<O: Decode, F: FnMut(K::Key, O) -> Option<V>>(f: F)
Translate the values of all elements by a function f, in the map in lexicographical order
of the encoded key.
By returning None from f for an element, you’ll remove it from the map.
NOTE: If a value fail to decode because storage is corrupted then it is skipped.