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If a number is given as an input find sum of all the digits of number till that number

For example 11 is input then answer is 1+2....+9+(1+0)+(1+1) The Brute-force method would be to calculate sum of digits of all the numbers that are less than a number.I have implemented that method iam wondering if there is any other way to do it without actually calculating sum of digits of every number

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1 Answer 1

up vote 8 down vote accepted

You can do that faster (in O(log n) operations). Let S(n) be the sum of the digits of all numbers 0 <= k < n. Then

S(10*n) = 10*S(n) + 45*n

because among the numbers less than 10*n, each k < n appears as the initial part of a number 10 times, with last digits 0, 1, ..., 9. So that contributes 45 for the sum of the last digits, and 10 times the sum of the digits of k.

Reversing that, we find

S(n) = 10*S(n/10) + 45*(n/10) + (n%10)*DS(n/10) + (n%10)*((n%10)-1)/2

where DS(k) is the plain digit sum of k. The first two terms come from the above, the remaining two come from the sum of the digits of n - n%10, ..., n - n%10 + (n%10 + 1).

Start is S(n) = 0 for n <= 1.

To include the upper bound, call it as S(n+1).

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please explain how did u arrive with these two terms (n%10)*DS(n/10) + (n%10)*((n%10)-1)/2 –  Rakesh12 Sep 11 '12 at 15:03
Say n = 10*k + r. Then we need the digit sums of 10*k, 10*k + 1, ..., 10*k + (r-1). Those are r = n%10 numbers, all starting with k. That part gives the (n%10)*DS(n/10) = r*DS(k). The last is the sum of the final digits, 0, ..., r-1, which is r*(r-1)/2. –  Daniel Fischer Sep 11 '12 at 15:08

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