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lfu-cache.cpp
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lfu-cache.cpp
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// Time: O(1), per operation.
// Space: O(k), k is the capacity of cache.
#include <list>
class LFUCache{
public:
// @param capacity, an integer
LFUCache(int capacity) : capa_(capacity) {
}
int get(int key) {
if (map_.find(key) != map_.end() && capa_) {
// It key exists, update it.
const auto value = map_[key]->value;
update(key, value);
return value;
} else {
return -1;
}
}
void set(int key, int value)
if (!capa_) {
return;
}
// If cache is full while inserting, remove the last one.
if (map_.find(key) == map_.end() && list_.size() == capa_) {
auto del = list_.front(); list_.pop_front();
map_.erase(del.key);
}
update(key, value);
}
private:
struct node {
node(int k, int v, int f) : key(k), value(v), freq(f) {}
int key;
int value;
int freq;
};
using List = list<node>;
List list_; // key, value
unordered_map<int, List::iterator> map_; // key, list iterator
int capa_;
// Update (key, iterator of (key, value)) pair
void update(int key, int value) {
int freq = 0;
auto l_it = list_.begin();
auto it = map_.find(key);
if (it != map_.end()) {
freq = it->second->freq;
l_it = next(it->second);
list_.erase(it->second);
}
++freq;
while (l_it != list_.end() && freq >= l_it->freq) {
++l_it;
}
map_[key] = list_.emplace(l_it, node(key, value, freq));
}
};
/**
* Your LFUCache object will be instantiated and called as such:
* LFUCache obj = new LFUCache(capacity);
* int param_1 = obj.get(key);
* obj.set(key,value);
*/