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FindingMkAverage.cpp
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FindingMkAverage.cpp
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// Source : https://leetcode.com/problems/finding-mk-average/
// Author : Hao Chen
// Date : 2021-04-20
/*****************************************************************************************************
*
* You are given two integers, m and k, and a stream of integers. You are tasked to implement a data
* structure that calculates the MKAverage for the stream.
*
* The MKAverage can be calculated using these steps:
*
* If the number of the elements in the stream is less than m you should consider the
* MKAverage to be -1. Otherwise, copy the last m elements of the stream to a separate container.
* Remove the smallest k elements and the largest k elements from the container.
* Calculate the average value for the rest of the elements rounded down to the nearest
* integer.
*
* Implement the MKAverage class:
*
* MKAverage(int m, int k) Initializes the MKAverage object with an empty stream and the two
* integers m and k.
* void addElement(int num) Inserts a new element num into the stream.
* int calculateMKAverage() Calculates and returns the MKAverage for the current stream
* rounded down to the nearest integer.
*
* Example 1:
*
* Input
* ["MKAverage", "addElement", "addElement", "calculateMKAverage", "addElement", "calculateMKAverage",
* "addElement", "addElement", "addElement", "calculateMKAverage"]
* [[3, 1], [3], [1], [], [10], [], [5], [5], [5], []]
* Output
* [null, null, null, -1, null, 3, null, null, null, 5]
*
* Explanation
* MKAverage obj = new MKAverage(3, 1);
* obj.addElement(3); // current elements are [3]
* obj.addElement(1); // current elements are [3,1]
* obj.calculateMKAverage(); // return -1, because m = 3 and only 2 elements exist.
* obj.addElement(10); // current elements are [3,1,10]
* obj.calculateMKAverage(); // The last 3 elements are [3,1,10].
* // After removing smallest and largest 1 element the container will be
* [3].
* // The average of [3] equals 3/1 = 3, return 3
* obj.addElement(5); // current elements are [3,1,10,5]
* obj.addElement(5); // current elements are [3,1,10,5,5]
* obj.addElement(5); // current elements are [3,1,10,5,5,5]
* obj.calculateMKAverage(); // The last 3 elements are [5,5,5].
* // After removing smallest and largest 1 element the container will be
* [5].
* // The average of [5] equals 5/1 = 5, return 5
*
* Constraints:
*
* 3 <= m <= 10^5
* 1 <= k*2 < m
* 1 <= num <= 10^5
* At most 10^5 calls will be made to addElement and calculateMKAverage.
******************************************************************************************************/
class MKAverage {
private:
vector<int> ringBuf;
int pos;
multiset<int> left, mid, right;
long sum;
long maxmin;
int m;
int k;
private:
template <class T>
void print(T& v) {
for(auto it : v){
cout << it << "+";
}
cout <<endl;
}
int takeMax(multiset<int>& s) {
auto it = --s.end();
int n = *it;
s.erase(it);
return n;
}
int takeMin(multiset<int>& s) {
auto it = s.begin();
int n = *it;
s.erase(it);
return n;
}
public:
MKAverage(int _m, int _k): ring(_m, 0), m(_m), k(_k), sum(0), pos(0), maxmin(0) {
}
void ins(int n) {
left.insert(n);
maxmin += n;
if (left.size() > k ) {
int n = takeMax(left);
right.insert(n);
if (right.size() > k) {
int n = takeMin(right);
maxmin -= n;
mid.insert(n);
}
}
}
void del(int n) {
if (n <= *(left.rbegin())) {
left.erase(left.find(n));
int n1 = takeMin(mid);
left.insert(n1);
maxmin += (n1 - n);
}else if (n >= *(right.begin())) {
right.erase(right.find(n));
int n1 = takeMax(mid);
right.insert(n1);
maxmin += (n1 - n);
}else {
mid.erase(mid.find(n));
}
}
void addElement(int num) {
pos++;
if (pos > m) {
int n = ringBuf[pos % m];
sum -= n;
del(n);
//cout << "DEL: n=" << n << ", sum=" << sum << ", maxmin=" << maxmin << endl;
//print(left); print(mid);print(right);
}
ringBuf[pos % m] = num ;
sum += num;
ins(num);
//cout << "INS: n=" << num << ", sum=" << sum << ", maxmin=" << maxmin << endl;
//print(left); print(mid);print(right);
}
int calculateMKAverage() {
if (pos < m) return -1;
//cout << "CAL: sum=" << sum << ", maxmin=" << maxmin << ", delta=" << sum - maxmin<< endl;
return (sum - maxmin) / (m-2*k);
}
};
/**
* Your MKAverage object will be instantiated and called as such:
* MKAverage* obj = new MKAverage(m, k);
* obj->addElement(num);
* int param_2 = obj->calculateMKAverage();
*/
//TLE solution - using only one array and Binary Search.
class MKAverage1 {
private:
vector<int> ring;
int pos;
vector<int> sort;
long sum;
long maxmin;
int m;
int k;
private:
template <class T>
void print(T& v) {
for(auto it : v){
cout << it << "+";
}
cout <<endl;
}
public:
MKAverage1(int _m, int _k): ring(_m,0), m(_m), k(_k), sum(0), pos(0), maxmin(0) {
}
void ins(int n) {
int low = 0, high = sort.size()-1;
int mid;
if (high < 0 || n >= sort[high]) {
sort.push_back(n);
return;
}
while(low <= high){
mid = low + (high-low)/2;
if (sort[mid] <= n ) low = mid + 1;
else high = mid - 1;
}
auto it = sort.begin() + low;
sort.insert(it, n);
}
void del(int n) {
int len = sort.size();
int low = 0, high = len -1;
int mid;
while(low <= high){
mid = low + (high-low)/2;
if (sort[mid] == n) break;
if (sort[mid] < n ) low = mid + 1;
else high = mid - 1;
}
if (low > high) return;
auto it = sort.begin() + mid;
sort.erase(it);
}
void addElement(int num) {
pos++;
if (pos > m) {
int n = ring[pos % m];
sum -= n;
int len = sort.size();
if (n <= sort[k-1] ) maxmin += (sort[k]-n);
else if (n >= sort[len-k]) maxmin += (sort[len-k-1] - n);
del(n);
//cout << "DEL: n=" << n << ", sum=" << sum << ", maxmin=" << maxmin << endl;
//print(sort);
}
ring[pos % m] = num;
sum += num;
if (sort.size() < 2*k ) {
maxmin += num;
} else {
int len = sort.size();
if (num <= sort[k-1]) maxmin += (num - sort[k-1]);
else if (num >= sort[len-k]) maxmin += (num -sort[len-k]);
}
ins(num);
//cout << "INS: n=" << num << ", sum=" << sum << ", maxmin=" << maxmin << endl;
//print(sort);
}
int calculateMKAverage() {
if ( pos < m) return -1;
//cout << "CAL: sum=" << sum << ", maxmin=" << maxmin << ", delta=" << sum - maxmin<< endl;
return (sum - maxmin) / (m-2*k);
}
};
/**
* Your MKAverage object will be instantiated and called as such:
* MKAverage* obj = new MKAverage(m, k);
* obj->addElement(num);
* int param_2 = obj->calculateMKAverage();
*/