The problem statement is following:
Given `N`

. We need to find `x1`

,`x2`

,`..`

,`xp`

such that `N = x1 + x2 + .. + xp`

, p must be minimum(means number of terms in the sum) and we also must be able to get all the numbers from 1 to (N-1) from the sum of the subset of (x1,x2,x3..xp).And numbers in the set might be repeated also.

For example if N=7.

`7 = 1+2+4`

And `6= (2,4)`

, `5= (4,1)`

, `4 = (4)`

,`3=(1,2)`

and so on.

Example 2:
`8 = 1+2+4+1`

Example 3:(invalid) 8 = 1+2+5 But we can't get 4 from the subset of (1,2,5).So (1,2,5) is not a valid combination

My approach is if 'N-1'can be written as sum of p terms than 'N' either have p or p+1 terms. But that approach will require to check all possible combinations which sums up to "N-1" and have "p" terms. Can anyone has better solution other than this?

Solution:

Step1:
Assume that we got "K" entries in our set as our answer. Therefore we can obtain 2^K different numbers of sums from these numbers because each entry either will appear or not appear in the sum. And also if the the number is "N", we need to compute the sum for '1' to 'N'. Therefore

(2^K -1) = N

K=log(N+1)

Step2:

After the step1, we know that our answer must include "K" entries but what these entries actual are? Assume that our entries are (a1,a2,a3...ak). So number P can be written as
P = a1*b1 + a2*b2 + a3*b3....+ ak*bk. Where all b[i] = 0 or 1. Here, we can see P as a decimal representation of binary number (b1 b2 b3 bk), therefore we can take a[i] = 2^(i-1).

uniquenumbers such that they add to 8 and can be combined to make every number from 1 to 8. In fact, it's only possible for numbers that are one less than a power of two. – llb Jul 13 '13 at 2:18`N = x1 + .. + xp`

– RiaD Jul 13 '13 at 3:05