Hi there!

Consider the following problem: You're given set of n items with weights a₁, ..., a_n. How many ways are there to select k items (order of choosing matters) with total weight of m (let's denote it as b_m)? There are two main variants of the problem:

• You may take any item arbitrary number of times. In this case b_m = [x^m](x^a₁ + ... + x^a_n)^k.
• You may take each item exactly once. In this case b_m = m...(1 + yx^a_n)

First case is quite explicit and allows you to calculate answer in like as .

But what about the second? If you define P(x) = x^a₁ + ... + x^a_n and Q_k(x) = b₀ + b₁x + b₂x² + ..., you may say for example that Q₁(x) = P(x), Q₂(x) = P²(x) - P(x²) or Q₃(x) = P³(x) - 3P(x)P(x²) + 2P(x³) which allows to calculate Q_k(x) for small k quickly. But does anybody know any fast way to calculate Q_k(x)? Newton's identities seem to allow something like if I'm not mistaken. Can anybody suggest any faster algorithm?