Find a number K having sum of numbers obtained by repeated removal of last digit of K is N

Given an integer N, the task is to find an integer K such that the sum of the numbers formed by repeated removal of the last digit of K is equal to N.

Examples:

Input: N = 136
Output: 123
Explanation: 
 

The numbers formed by repeatedly removing the last digit of 123 are {123, 12, 1}.
Therefore, the sum of these numbers = 123 + 12 + 1 = 136( = N).

Input: N = 107
Output: 98
Explanation:
The numbers formed by repeatedly removing the last digit of 98 are {98, 9}.
Therefore, the sum of these numbers = 98 + 7 = 107( = N).

Naive approach:

 Here’s a step-by-step explanation of the brute-force approach to solving this problem:

• The function findK takes an integer N as input and initializes a variable K to 1.
• The function enters a loop that iterates over all possible values of K from 1 to N.
• For each value of K, the function initializes a variable sum to 0 and a variable tempK to the current value of K.
• The function enters an inner loop that calculates the sum of the numbers formed by repeated removal of the last digit of tempK.
• In each iteration of the inner loop, the function adds the current value of tempK to sum and updates tempK to remove its last digit by dividing it by 10.
• The inner loop continues until tempK becomes 0.
• After the inner loop exits, the function checks if the calculated value of sum is equal to N.
• If sum is equal to N, the function returns the current value of K.
• If sum is not equal to N, the function increments K and continues to the next iteration of the outer loop.
• If no value of K is found that satisfies the given condition, the function returns -1.

123

Time Complexity: O(N*log(N)), where N is the input value. This is because in the worst case, the outer loop iterates N times and the inner loop iterates log(N) times for each iteration of the outer loop.
Auxiliary Space: O(1), as it uses a constant amount of additional space to store variables such as K, sum, and tempK.

Efficient Approach: The approach is based on the following observations:

• Consider K = 123.
• The possible numbers formed from 123 are 1, 12, and 123.
• Now, 123 can be expressed as 100 + 20 + 3. If all the other numbers are expressed similarly, then the idea is to know the position and frequency of each digit in all the numbers combined, to get the total sum as N. 
   

Digit	Frequency of each digit			Sum
	units	tens	hundreds
1	1	1	1	1*1 + 1*10 + 1*100 = 111
2	1	1		2*1 + 2*10 = 22
3	1			3*1 = 3

• Now, for the given number N of length L. Divide the number with L number of 1s to get the highest place digit.
• Calculate the remainder which will be our newly formed N.
• Again divide the newly formed N with (L – 1) number of 1s to get 2nd highest place digit and continue till the L becomes 0.

Follow the steps below to solve the problem:

• Let L be the count of digits in the given number N.
• Initialize string str as L numbers of 1s in it.
• Initialize a variable ans as zero that will store the resultant number K.
• Iterate until the string str is not empty and follow the steps below:
  • Convert the string str to number using the function stoi() and store it in M.
  • Divide N by M and update ans as: 
     

ans = ans*10 + (N/M) 
 

• Update N to N % M.
• Remove the last character from the string str.
• After the above steps, print the value stored in the ans which is the required value of K.

Below is the implementation of the above approach:

123

Time Complexity: O(log₁₀N)
Auxiliary Space: O(1)