A simple no_std, non-hashing, constant-capacity, constant-memory-usage LRU cache.
The data structure is backed by a couple of const-generic arrays, resulting in all required memory being allocated up-front.
The LRU cache struct is laid out in a struct-of-arrays format: all keys are in 1 array, all values are in another array.
A sorted index over the keys is also stored in the struct to allow for O(log N)
lookup times using binary search.
LRU-ordering is implemented using a doubly-linked list, but with array indices instead of pointers. Following the struct-of-arrays format, all the next-link array indices are in one array while all the prev-link array indices are in another array.
To maximize space-efficiency, the last optional generic I
specifies the index type, which can be set to an unsigned primitive int type with smaller bitwidth than usize
, as long as it's wide enough to store the cache's capacity.
use const_lru::ConstLru;
use core::mem;
assert_eq!(mem::align_of::<ConstLru<u8, u8, 255>>(), 8);
assert_eq!(mem::size_of::<ConstLru<u8, u8, 255>>(), 6656);
assert_eq!(mem::align_of::<ConstLru<u8, u8, 255, u8>>(), 1);
assert_eq!(mem::size_of::<ConstLru<u8, u8, 255, u8>>(), 1278);
where N
is number of elements:
- Retrieval:
O(log N)
lookup using the sorted index - Insertion:
O(log N)
lookup using the sorted index +O(N)
to modify the sorted index (bitwise-copy of index types similar toVec
) - Deletion:
O(log N)
lookup using the sorted index +O(N)
to modify the sorted index (bitwise-copy of index types similar toVec
) - Length fetching:
O(1)
since it's stored in the struct - Retrieving MRU element:
O(1)
using.iter().next()
- Retrieving LRU element:
O(1)
using.iter().next_back()
- Retrieving entry of smallest key:
O(1)
using.iter_key_order().next()
- Retrieving entry of largest key:
O(1)
using.iter_key_order().next_back()
Most, if not all, general LRU cache implementations (including but not limited to associative-cache, caches, clru, hashlink, lru) rely on one-or-more hashmaps to give O(1)
op times. While fast, this makes their usage less well-suited for memory-constrained environments like embedded systems since hashmaps may rehash and reallocate more memory.
ConstLru
on the other hand is designed to have a fixed size known at compile-time, but gives up a O(1)
hashing-based lookup for a O(log N)
binary-search-based lookup and O(N)
inserts and removes.
uluru is another fixed-capacity LRU-cache implementation that uses less memory but has O(n)
lookup times.