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Given a integer N (0 < N < 10^1000), find a minimum number M greater than N, M has the same length with N and the sum of the digits are equal. if M not exists return -1

example:

N=134 , M=143, // 1+3+4=1+4+3

N=020, M = 101, //2=1+1 it seems 0 can be added to make length equal

N=120, M = 201, //2=1+1

The question is a written test question today i did, I have no idea how to solve it in a huge scope of N.

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1 Answer 1

Represent the numbers as strings of digits. N and M are just two strings of equal length.

Let's number N's digits as Nk, where N0 is the last (rightmost) digit.

Set M0 = N0 - 1, M1 = N1 + 1, Mi = Ni otherwise. The sum of digits of M stays the same as in N, because you've just moved a 1 from one digit to another, but now M > N.

Of course, this trick does not work if N0 = 0 or if N1 = 9. In this case, shift to N1 and N2 to transfer a 1, etc.

As an exercise, prove that M created this way is really the smallest number satisfying the conditions. (Or disprove — I may be wrong, especially in the case of N0 = 0, though I don't see where I'm wrong there.)

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