Solution: LRU Cache
Explore how to build an LRU cache class that handles key-value pairs efficiently in C++. Understand the use of a doubly linked list combined with a hash map to provide quick access and eviction of least recently used items. This lesson helps you develop a data structure that supports constant time get and set operations while managing cache capacity effectively.
Statement
Implement an LRU cache class with the following functions:
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LRU(capacity): Initializes an LRU cache with the capacity size.
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Set(key, value): Adds a new key-value pair or updates an existing key with a new value.
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Get(key): Returns the value of the key, or if the key does not exist.
If the number of keys has reached the cache capacity, evict the least recently used key and then add the new key.
As caches use relatively expensive, faster memory, they are not designed to store very large data sets. Whenever the cache becomes full, we need to evict some data from it. There are several caching algorithms to implement a cache eviction policy. LRU is a very simple and commonly used algorithm. The core concept of the LRU algorithm is to evict the oldest data from the cache to accommodate more data.
Constraints:
- capacity