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FindMedianFromDataStream295.java
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/**
* Median is the middle value in an ordered integer list. If the size of the
* list is even, there is no middle value. So the median is the mean of the two
* middle value.
*
* For example,
* [2,3,4], the median is 3
*
* [2,3], the median is (2 + 3) / 2 = 2.5
*
* Design a data structure that supports the following two operations:
*
* void addNum(int num) - Add a integer number from the data stream to the data structure.
* double findMedian() - Return the median of all elements so far.
*
* Example:
* addNum(1)
* addNum(2)
* findMedian() -> 1.5
* addNum(3)
* findMedian() -> 2
*/
public class FindMedianFromDataStream295 {
class MedianFinder {
private PriorityQueue<Integer> maxQ = new PriorityQueue<>(10, (i1, i2) -> Integer.compare(i2, i1));
private PriorityQueue<Integer> minQ = new PriorityQueue<>();
/** initialize your data structure here. */
public MedianFinder() {
}
public void addNum(int num) {
if (maxQ.size() == 0 && minQ.size() == 0) {
maxQ.add(num);
} else if (maxQ.size() == 0) {
if (minQ.peek() < num) {
minQ.add(num);
} else {
maxQ.add(num);
}
} else {
if (maxQ.peek() > num) {
maxQ.add(num);
} else {
minQ.add(num);
}
}
while (maxQ.size() != 0 && maxQ.size() > minQ.size()) {
minQ.add(maxQ.poll());
}
while (minQ.size() != 0 && maxQ.size() < minQ.size()) {
maxQ.add(minQ.poll());
}
}
public double findMedian() {
if (maxQ.size() == minQ.size()) {
return (maxQ.peek() + minQ.peek()) * 1.0 / 2;
} else if (maxQ.size() > minQ.size()) {
return maxQ.peek();
} else {
return minQ.peek();
}
}
}
class MedianFinder2 {
private PriorityQueue<Integer> maxQ = new PriorityQueue<>(10, (i1, i2) -> Integer.compare(i2, i1));
private PriorityQueue<Integer> minQ = new PriorityQueue<>();
/** initialize your data structure here. */
public MedianFinder() {
}
// slower than previous solution MedianFinder, but code is clearner
public void addNum(int num) {
maxQ.add(num);
minQ.add(maxQ.pop());
while (minQ.size() != 0 && maxQ.size() < minQ.size()) {
maxQ.add(minQ.poll());
}
}
public double findMedian() {
if (maxQ.size() == minQ.size()) {
return (maxQ.peek() + minQ.peek()) * 1.0 / 2;
} else if (maxQ.size() > minQ.size()) {
return maxQ.peek();
} else {
return minQ.peek();
}
}
}
/**
* https://leetcode.com/problems/find-median-from-data-stream/discuss/74119/18ms-beats-100-Java-Solution-with-BST
*/
class MedianFinder3 {
class TreeNode{
int val;
TreeNode parent,left,right;
TreeNode(int val, TreeNode p){
this.val=val;
this.parent=p;
left=null;
right=null;
}
void add(int num){
if(num>=val){
if(right==null)
right=new TreeNode(num,this);
else
right.add(num);
}else{
if(left==null)
left=new TreeNode(num,this);
else
left.add(num);
}
}
TreeNode next(){
TreeNode ret;
if(right!=null){
ret=right;
while(ret.left!=null)
ret=ret.left;
}else{
ret=this;
while(ret.parent.right==ret)
ret=ret.parent;
ret=ret.parent;
}
return ret;
}
TreeNode prev(){
TreeNode ret;
if(left!=null){
ret=left;
while(ret.right!=null)
ret=ret.right;
}else{
ret=this;
while(ret.parent.left==ret)
ret=ret.parent;
ret=ret.parent;
}
return ret;
}
}
int n;
TreeNode root, curr;
// Adds a number into the data structure.
public void addNum(int num) {
if(root==null){
root = new TreeNode(num,null);
curr=root;
n=1;
}else{
root.add(num);
n++;
if(n%2==1){
if(curr.val<=num)
curr=curr.next();
}else
if(curr.val>num)
curr=curr.prev();
}
}
// Returns the median of current data stream
public double findMedian() {
if(n%2==0){
return ((double)curr.next().val+curr.val)/2;
}else
return curr.val;
}
};
class MedianFinder4 {
private PriorityQueue<Integer> left;
private PriorityQueue<Integer> right;
/** initialize your data structure here. */
public MedianFinder() {
left = new PriorityQueue<>((i1, i2) -> Integer.compare(i2, i1));
right = new PriorityQueue<>((i1, i2) -> Integer.compare(i1, i2));
}
public void addNum(int num) {
if (right.size() != 0 && right.peek() < num) {
right.add(num);
if (left.size() < right.size()) {
left.add(right.poll());
}
} else {
left.add(num);
if (left.size() > right.size() + 1) {
right.add(left.poll());
}
}
}
public double findMedian() {
if (left.size() == right.size()) {
return ((double) left.peek() + (double) right.peek()) / 2.0;
} else {
return (double) left.peek();
}
}
}
/**
* Your MedianFinder object will be instantiated and called as such:
* MedianFinder obj = new MedianFinder();
* obj.addNum(num);
* double param_2 = obj.findMedian();
*/
}