using System;
using System.Collections.Generic;
namespace DataStructures.Cache;
/// <summary>
/// Least Frequently Used (LFU) cache implementation.
/// </summary>
/// <typeparam name="TKey">The type of the key (must be not null).</typeparam>
/// <typeparam name="TValue">The type of the value.</typeparam>
/// <remarks>
/// Cache keeps up to <c>capacity</c> items. When new item is added and cache is full,
/// one of the least frequently used item is removed (e.g. it keeps N items that were the most
/// frequently requested using <c>Get()</c> or <c>Put()</c> methods).
/// When there are multiple items with the same frequency, the least recently used item is removed.
///
/// Cache is built on top of two data structures:
/// - <c>Dictionary</c>. Allows items to be looked up by key in O(1) time. Another dictionary
/// is used to store the frequency of each key.
/// - <c>LinkedList</c> - Allows items with the same frequency to be ordered by the last
/// usage in O(1) time.
///
/// Useful links:
/// https://en.wikipedia.org/wiki/Cache_replacement_policies
/// https://www.enjoyalgorithms.com/blog/least-frequently-used-cache
/// https://www.educative.io/answers/what-is-least-frequently-used-cache-replace-policy
/// https://leetcode.com/problems/lfu-cache/ .
/// </remarks>
public class LfuCache<TKey, TValue> where TKey : notnull
{
private class CachedItem
{
public TKey Key { get; set; } = default!;
public TValue? Value { get; set; }
public int Frequency { get; set; }
}
private const int DefaultCapacity = 100;
private readonly int capacity;
// Note that <c>Dictionary</c> stores <c>LinkedListNode</c> as it allows
// removing the node from the <c>LinkedList</c> in O(1) time.
private readonly Dictionary<TKey, LinkedListNode<CachedItem>> cache = new();
// Map frequency (number of times the item was requested or updated)
// to the LRU linked list.
private readonly Dictionary<int, LinkedList<CachedItem>> frequencies = new();
// Track the minimum frequency with non-empty linked list in <c>frequencies</c>.
// When the last item with the minFrequency is promoted (after being requested or updated),
// the <c>minFrequency</c> is increased.
// When a new item is added, the <c>minFrequency</c> is set to 1.
private int minFrequency = -1;
/// <summary>
/// Initializes a new instance of the <see cref="LfuCache{TKey, TValue}"/> class.
/// </summary>
/// <param name="capacity">The max number of items the cache can store.</param>
public LfuCache(int capacity = DefaultCapacity)
{
this.capacity = capacity;
}
public bool Contains(TKey key) => cache.ContainsKey(key);
/// <summary>
/// Gets the cached item by key.
/// </summary>
/// <param name="key">The key of cached item.</param>
/// <returns>The cached item or <c>default</c> if item is not found.</returns>
/// <remarks> Time complexity: O(1). </remarks>
public TValue? Get(TKey key)
{
if (!cache.ContainsKey(key))
{
return default;
}
var node = cache[key];
UpdateFrequency(node, isNew: false);
return node.Value.Value;
}
/// <summary>
/// Adds or updates the value in the cache.
/// </summary>
/// <param name="key">The key of item to cache.</param>
/// <param name="value">The value to cache.</param>
/// <remarks>
/// Time complexity: O(1).
/// If the value is already cached, it is updated and the item is moved
/// to the end of the LRU list.
/// If the cache is full, one of the least frequently used items is removed.
/// </remarks>
public void Put(TKey key, TValue value)
{
if (cache.ContainsKey(key))
{
var existingNode = cache[key];
existingNode.Value.Value = value;
UpdateFrequency(existingNode, isNew: false);
return;
}
if (cache.Count >= capacity)
{
EvictOneItem();
}
var item = new CachedItem { Key = key, Value = value };
var newNode = new LinkedListNode<CachedItem>(item);
UpdateFrequency(newNode, isNew: true);
cache.Add(key, newNode);
}
private void UpdateFrequency(LinkedListNode<CachedItem> node, bool isNew)
{
var item = node.Value;
if (isNew)
{
item.Frequency = 1;
minFrequency = 1;
}
else
{
// Remove the existing node from the LRU list with its previous frequency.
var lruList = frequencies[item.Frequency];
lruList.Remove(node);
if (lruList.Count == 0 && minFrequency == item.Frequency)
{
minFrequency++;
}
item.Frequency++;
}
// Insert item to the end of the LRU list that corresponds to its new frequency.
if (!frequencies.ContainsKey(item.Frequency))
{
frequencies[item.Frequency] = new LinkedList<CachedItem>();
}
frequencies[item.Frequency].AddLast(node);
}
private void EvictOneItem()
{
var lruList = frequencies[minFrequency];
var itemToRemove = lruList.First!.Value;
lruList.RemoveFirst();
cache.Remove(itemToRemove.Key);
}
}