# 1269_E. K Integers

## Problem Description
You are given a permutation p_1, p_2, …, p_n.

In one move you can swap two adjacent values.

You want to perform a minimum number of moves, such that in the end there will exist a subsegment 1,2,…, k, in other words in the end there should be an integer i, 1 ≤ i ≤ n-k+1 such that p_i = 1, p_{i+1} = 2, …, p_{i+k-1}=k.

Let f(k) be the minimum number of moves that you need to make a subsegment with values 1,2,…,k appear in the permutation.

You need to find f(1), f(2), …, f(n).

Input

The first line of input contains one integer n (1 ≤ n ≤ 200 000): the number of elements in the permutation.

The next line of input contains n integers p_1, p_2, …, p_n: given permutation (1 ≤ p_i ≤ n).

Output

Print n integers, the minimum number of moves that you need to make a subsegment with values 1,2,…,k appear in the permutation, for k=1, 2, …, n.

Examples

Input


5
5 4 3 2 1


Output


0 1 3 6 10 


Input


3
1 2 3


Output


0 0 0 

## Contest Information
- **Contest ID**: 1269
- **Problem Index**: E
- **Points**: 1500.0
- **Rating**: 2300
- **Tags**: binary search, data structures
- **Time Limit**: {'seconds': 3, 'nanos': 0} seconds
- **Memory Limit**: 256000000 bytes

## Task
Solve this competitive programming problem. Provide a complete solution that handles all the given constraints and edge cases.