Count of replacements required to make the sum of all Pairs of given type from the Array equal

Given an integer array arr of length N and an integer K, the task is to find the number of array elements to be replaced by a value from the range [1, K] such that each pair (arr[i], arr[N – 1 – i] have equal sum.

Examples :

Input: arr[] = {1, 2, 2, 1}, K = 3 
Output: 1 
Explanation: 
Replace arr[0] with 3, so that the array becomes {3, 2, 2, 1}. 
Now, it can be seen that arr[0] + arr[3] = arr[1] + arr[2] = 4.

Input: arr[] = {1, 2, 1, 2, 1, 2} 
Output: 0 
Explanation: 
No need to make any changes as arr[0] + arr[5] = arr[1] + arr[4] = arr[2] + arr[3] = 3

Naive Approach : 
The simplest approach to this problem could be like iterate for all possible values of X, which can be any number in the range 1 to 2*K, and find the number of operation require to achieve pair sum equal to X. And finally return the minimum numbers of replacement from all operations. 

Time Complexity : O (N * K) 
Auxiliary Space : O (1)

Efficient Approach: The above approach can be optimized by the following observations:

• X can clearly take values in the range [2, 2 * K].
• Considering pairs arr[i] and arr[N – i – 1], it can be observed that the sum of any pair can be made equal to X in 0, 1 or 2 replacements.
• Let the maximum of these two numbers be mx and minimum be mn. In one replacement, the sum of this pair will be in the range [mn + 1, mx + K].
• The pair for which mx is less than ( X – K) and mn is greater than or equal to X will need 2 replacements.
• Simply insert mx and mn for all pairs in two different vectors, sort them and apply binary search to find the number of pairs for which 2 replacements are required.
• Find the pairs which do not need any replacement by using Map by storing the frequencies of each sum.
• Finally number of pairs which require one replacement can be calculated by the equation (N / 2 – (pairs which need 2 replacements + pairs which need no replacement) ).

Follow these steps to find the solve the problem: 

1. Find maximum and minimum for all pairs arr [ i ], arr [ N – i – 1 ] and store them in max_values and min_values vectors respectively. Also store the frequencies of sum of all such pairs in a map.
2. Sort the vectors max_values and min_values.
3. Iterate from X = 2 to X = 2 * K, and for every value of X find the total number of replacements as described in the approach above. Update the answer as:

 answer = min ( answer, 2 * (number of pairs for which we need to make 2 replacements) + (number of pairs for which we need to make one replacement) ).

Illustration : 
arr[] = { 1, 2, 2, 1 }, K = 3
max_values = {1, 2} 
min_values = {1, 2} 
map = {{2, 1}, {4, 1}}
At X = 4, minimum replacement is required, that is, only 1 replacement, either conversion arr[0] to 3 or arr[3] to 3, is required to make the sum of all pairs equal to 4.

Below is the implementation of the above approach: 

1

Time Complexity: O(NlogN) 
Auxiliary Space: O(N)