pub struct ZeroMap2d<'a, K0, K1, V>{ /* private fields */ }
Expand description
A zero-copy, two-dimensional map datastructure .
This is an extension of ZeroMap
that supports two layers of keys. For example,
to map a pair of an integer and a string to a buffer, you can write:
let _: ZeroMap2d<u32, str, [u8]> = unimplemented!();
Internally, ZeroMap2d
stores four zero-copy vectors, one for each type argument plus
one more to match between the two vectors of keys.
§Examples
use zerovec::ZeroMap2d;
// Example byte buffer representing the map { 1: {2: "three" } }
let BINCODE_BYTES: &[u8; 51] = &[
2, 0, 0, 0, 0, 0, 0, 0, 1, 0, 4, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 2, 0,
0, 0, 0, 0, 0, 0, 2, 0, 11, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 116,
104, 114, 101, 101,
];
// Deserializing to ZeroMap requires no heap allocations.
let zero_map: ZeroMap2d<u16, u16, str> =
bincode::deserialize(BINCODE_BYTES)
.expect("Should deserialize successfully");
assert_eq!(zero_map.get_2d(&1, &2), Some("three"));
Implementations§
Source§impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
Sourcepub fn new() -> Self
pub fn new() -> Self
Creates a new, empty ZeroMap2d
.
§Examples
use zerovec::ZeroMap2d;
let zm: ZeroMap2d<u16, str, str> = ZeroMap2d::new();
assert!(zm.is_empty());
Sourcepub fn with_capacity(capacity: usize) -> Self
pub fn with_capacity(capacity: usize) -> Self
Construct a new ZeroMap2d
with a given capacity
Sourcepub fn as_borrowed(&'a self) -> ZeroMap2dBorrowed<'a, K0, K1, V>
pub fn as_borrowed(&'a self) -> ZeroMap2dBorrowed<'a, K0, K1, V>
Obtain a borrowed version of this map
Sourcepub fn reserve(&mut self, additional: usize)
pub fn reserve(&mut self, additional: usize)
Reserve capacity for additional
more elements to be inserted into
the ZeroMap2d
to avoid frequent reallocations.
See Vec::reserve()
for more information.
Sourcepub fn iter0<'l>(
&'l self,
) -> impl Iterator<Item = ZeroMap2dCursor<'l, 'a, K0, K1, V>> + 'l
pub fn iter0<'l>( &'l self, ) -> impl Iterator<Item = ZeroMap2dCursor<'l, 'a, K0, K1, V>> + 'l
Produce an ordered iterator over keys0, which can then be used to get an iterator over keys1 for a particular key0.
§Example
Loop over all elements of a ZeroMap2d:
use zerovec::ZeroMap2d;
let mut map: ZeroMap2d<u16, u16, str> = ZeroMap2d::new();
map.insert(&1, &1, "foo");
map.insert(&2, &3, "bar");
map.insert(&2, &4, "baz");
let mut total_value = 0;
for cursor in map.iter0() {
for (key1, value) in cursor.iter1() {
// This code runs for every (key0, key1) pair
total_value += cursor.key0().as_unsigned_int() as usize;
total_value += key1.as_unsigned_int() as usize;
total_value += value.len();
}
}
assert_eq!(total_value, 22);
Source§impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
Sourcepub fn get_2d(&self, key0: &K0, key1: &K1) -> Option<&V::GetType>
pub fn get_2d(&self, key0: &K0, key1: &K1) -> Option<&V::GetType>
Get the value associated with key0
and key1
, if it exists.
For more fine-grained error handling, use ZeroMap2d::get0
.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
map.insert(&1, "one", "foo");
map.insert(&2, "one", "bar");
map.insert(&2, "two", "baz");
assert_eq!(map.get_2d(&1, "one"), Some("foo"));
assert_eq!(map.get_2d(&1, "two"), None);
assert_eq!(map.get_2d(&2, "one"), Some("bar"));
assert_eq!(map.get_2d(&2, "two"), Some("baz"));
assert_eq!(map.get_2d(&3, "three"), None);
Sourcepub fn insert(
&mut self,
key0: &K0,
key1: &K1,
value: &V,
) -> Option<V::OwnedType>
pub fn insert( &mut self, key0: &K0, key1: &K1, value: &V, ) -> Option<V::OwnedType>
Insert value
with key
, returning the existing value if it exists.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
assert_eq!(map.insert(&0, "zero", "foo"), None,);
assert_eq!(map.insert(&1, "one", "bar"), None,);
assert_eq!(map.insert(&1, "one", "baz").as_deref(), Some("bar"),);
assert_eq!(map.get_2d(&1, "one").as_deref(), Some("baz"));
assert_eq!(map.len(), 2);
Sourcepub fn remove(&mut self, key0: &K0, key1: &K1) -> Option<V::OwnedType>
pub fn remove(&mut self, key0: &K0, key1: &K1) -> Option<V::OwnedType>
Remove the value at key
, returning it if it exists.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
map.insert(&1, "one", "foo");
map.insert(&2, "two", "bar");
assert_eq!(
map.remove(&1, "one"),
Some("foo".to_owned().into_boxed_str())
);
assert_eq!(map.get_2d(&1, "one"), None);
assert_eq!(map.remove(&1, "one"), None);
Sourcepub fn try_append<'b>(
&mut self,
key0: &'b K0,
key1: &'b K1,
value: &'b V,
) -> Option<(&'b K0, &'b K1, &'b V)>
pub fn try_append<'b>( &mut self, key0: &'b K0, key1: &'b K1, value: &'b V, ) -> Option<(&'b K0, &'b K1, &'b V)>
Appends value
with key
to the end of the underlying vector, returning
key
and value
if it failed. Useful for extending with an existing
sorted list.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
assert!(map.try_append(&1, "one", "uno").is_none());
assert!(map.try_append(&3, "three", "tres").is_none());
let unsuccessful = map.try_append(&3, "three", "tres-updated");
assert!(unsuccessful.is_some(), "append duplicate of last key");
let unsuccessful = map.try_append(&2, "two", "dos");
assert!(unsuccessful.is_some(), "append out of order");
assert_eq!(map.get_2d(&1, "one"), Some("uno"));
// contains the original value for the key: 3
assert_eq!(map.get_2d(&3, "three"), Some("tres"));
// not appended since it wasn't in order
assert_eq!(map.get_2d(&2, "two"), None);
Source§impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
Sourcepub fn get0<'l>(
&'l self,
key0: &K0,
) -> Option<ZeroMap2dCursor<'l, 'a, K0, K1, V>>
pub fn get0<'l>( &'l self, key0: &K0, ) -> Option<ZeroMap2dCursor<'l, 'a, K0, K1, V>>
Gets a cursor for key0
. If None
, then key0
is not in the map. If Some
,
then key0
is in the map, and key1
can be queried.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
map.insert(&1u32, "one", "foo");
map.insert(&2, "one", "bar");
map.insert(&2, "two", "baz");
assert_eq!(map.get0(&1).unwrap().get1("one").unwrap(), "foo");
assert_eq!(map.get0(&1).unwrap().get1("two"), None);
assert_eq!(map.get0(&2).unwrap().get1("one").unwrap(), "bar");
assert_eq!(map.get0(&2).unwrap().get1("two").unwrap(), "baz");
assert_eq!(map.get0(&3), None);
Sourcepub fn get0_by<'l>(
&'l self,
predicate: impl FnMut(&K0) -> Ordering,
) -> Option<ZeroMap2dCursor<'l, 'a, K0, K1, V>>
pub fn get0_by<'l>( &'l self, predicate: impl FnMut(&K0) -> Ordering, ) -> Option<ZeroMap2dCursor<'l, 'a, K0, K1, V>>
Binary search the map for key0
, returning a cursor.
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
map.insert(&1, "one", "foo");
map.insert(&2, "two", "bar");
assert!(matches!(map.get0_by(|probe| probe.cmp(&1)), Some(_)));
assert!(matches!(map.get0_by(|probe| probe.cmp(&3)), None));
Sourcepub fn contains_key0(&self, key0: &K0) -> bool
pub fn contains_key0(&self, key0: &K0) -> bool
Returns whether key0
is contained in this map
use zerovec::ZeroMap2d;
let mut map = ZeroMap2d::new();
map.insert(&1, "one", "foo");
map.insert(&2, "two", "bar");
assert!(map.contains_key0(&1));
assert!(!map.contains_key0(&3));
Source§impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
impl<'a, K0, K1, V> ZeroMap2d<'a, K0, K1, V>
Sourcepub fn get_copied_2d(&self, key0: &K0, key1: &K1) -> Option<V>
pub fn get_copied_2d(&self, key0: &K0, key1: &K1) -> Option<V>
For cases when V
is fixed-size, obtain a direct copy of V
instead of V::ULE
§Examples
let mut map: ZeroMap2d<u16, u16, u16> = ZeroMap2d::new();
map.insert(&1, &2, &3);
map.insert(&1, &4, &5);
map.insert(&6, &7, &8);
assert_eq!(map.get_copied_2d(&6, &7), Some(8));
Trait Implementations§
Source§impl<'a, K0, K1, V> From<ZeroMap2dBorrowed<'a, K0, K1, V>> for ZeroMap2d<'a, K0, K1, V>
impl<'a, K0, K1, V> From<ZeroMap2dBorrowed<'a, K0, K1, V>> for ZeroMap2d<'a, K0, K1, V>
Source§fn from(other: ZeroMap2dBorrowed<'a, K0, K1, V>) -> Self
fn from(other: ZeroMap2dBorrowed<'a, K0, K1, V>) -> Self
Source§impl<'a, A, B, C, K0, K1, V> FromIterator<(A, B, C)> for ZeroMap2d<'a, K0, K1, V>
impl<'a, A, B, C, K0, K1, V> FromIterator<(A, B, C)> for ZeroMap2d<'a, K0, K1, V>
Source§impl<'a, 'b, K0, K1, V> PartialEq<ZeroMap2d<'b, K0, K1, V>> for ZeroMap2d<'a, K0, K1, V>where
K0: for<'c> ZeroMapKV<'c> + ?Sized,
K1: for<'c> ZeroMapKV<'c> + ?Sized,
V: for<'c> ZeroMapKV<'c> + ?Sized,
<K0 as ZeroMapKV<'a>>::Container: PartialEq<<K0 as ZeroMapKV<'b>>::Container>,
<K1 as ZeroMapKV<'a>>::Container: PartialEq<<K1 as ZeroMapKV<'b>>::Container>,
<V as ZeroMapKV<'a>>::Container: PartialEq<<V as ZeroMapKV<'b>>::Container>,
impl<'a, 'b, K0, K1, V> PartialEq<ZeroMap2d<'b, K0, K1, V>> for ZeroMap2d<'a, K0, K1, V>where
K0: for<'c> ZeroMapKV<'c> + ?Sized,
K1: for<'c> ZeroMapKV<'c> + ?Sized,
V: for<'c> ZeroMapKV<'c> + ?Sized,
<K0 as ZeroMapKV<'a>>::Container: PartialEq<<K0 as ZeroMapKV<'b>>::Container>,
<K1 as ZeroMapKV<'a>>::Container: PartialEq<<K1 as ZeroMapKV<'b>>::Container>,
<V as ZeroMapKV<'a>>::Container: PartialEq<<V as ZeroMapKV<'b>>::Container>,
Source§impl<'a, K0, K1, V> Yokeable<'a> for ZeroMap2d<'static, K0, K1, V>where
K0: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
K1: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
V: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
<K0 as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
<K1 as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
<V as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
impl<'a, K0, K1, V> Yokeable<'a> for ZeroMap2d<'static, K0, K1, V>where
K0: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
K1: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
V: 'static + for<'b> ZeroMapKV<'b> + ?Sized,
<K0 as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
<K1 as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
<V as ZeroMapKV<'static>>::Container: for<'b> Yokeable<'b>,
This impl requires enabling the optional yoke
Cargo feature of the zerovec
crate
Source§type Output = ZeroMap2d<'a, K0, K1, V>
type Output = ZeroMap2d<'a, K0, K1, V>
Self
with the 'static
replaced with 'a
, i.e. Self<'a>