做Sliding Window的方法是:将其拆解为“加一个元素,和减一个元素”。注意,有的时候最好先减再加,有的时候最好先加再减。而另外一个点是:很多情况下,并不用分类讨论 window size >= array size的情况,如下面两题。
Lintcode 360:
Sliding Window找median。这道题最好先减再加,用的是基本的two priority queue的方法。
class Solution {
public:
/**
* @param nums: A list of integers.
* @return: The median of the element inside the window at each moving
*/
void insert(int num){
if(m1.empty() || num <= *m1.begin()){
m1.insert(num);
}else{
m2.insert(num);
}
balanceSet();
}
void balanceSet(){
if(m1.size() > m2.size() + 1){
int cur = *m1.begin();
m1.erase(m1.begin());
m2.insert(cur);
}
if(m2.size() > m1.size()){
int cur = *m2.begin();
m2.erase(m2.begin());
m1.insert(cur);
}
}
void erase(int num){
if(num <= *m1.begin()){
m1.erase(m1.find(num));
}else{
m2.erase(m2.find(num));
}
balanceSet();
}
vector<int> medianSlidingWindow(vector<int> &nums, int k) {
// write your code here
vector<int> ret;
if(nums.empty() || k <= 0) return ret;
int idx = min(k, (int)nums.size());
for(int i=0; i<idx; i++){
insert(nums[i]);
}
ret.push_back(*m1.begin());
for(int i=idx; i<nums.size(); i++){
erase(nums[i - k]);
insert(nums[i]);
ret.push_back(*m1.begin());
}
return ret;
}
private:
multiset<int, greater<int>> m1;
multiset<int> m2;
};
Sliding Window Maxium:
这道题用Deque解,而最好先加后减的顺序。基本思路是:记录一个max,如果这个max即将被deque pop出去,则扫一遍deque,找新的max。
vector<int> maxSlidingWindow(vector<int>& nums, int k) {
vector<int> ret;
deque<int> dq;
if(nums.empty() || k <= 0) return ret;
int max_num = nums[0];
for(int i=0; i<min(k, (int)nums.size()); i++){
dq.push_back(nums[i]);
if(nums[i] > max_num) max_num = nums[i];
}
ret.push_back(max_num);
for(int i=k; i<nums.size(); i++){
if(nums[i] >= max_num){
max_num = nums[i];
dq.push_back(nums[i]);
dq.pop_front();
}else{
dq.push_back(nums[i]);
int cur = dq.front(); dq.pop_front();
if(cur == max_num){
max_num = INT_MIN;
for(auto it : dq){
if(it > max_num) max_num = it;
}
}
}
ret.push_back(max_num);
}
return ret;
}
