The problem is:

The algorithm I came up with is something like:

```
pair<bool, bitmask>[n][A] memo;
// memo[i][j].first will be true if its possible to
// use up to i-th denomination for amt j
// memo[i][j].second will contain info on which
// denominations are used
for i = 0 to n:
for j = 1 to A:
if (i==j): C[i][j] = {true, {i}}
else if (C[i-1][j].first == true): C[i][j] = C[i-1][j]]
else if (...see recurrance relation...):
C[i][j] = {true, C[i-1][j]+{denom[i]}}
else: C[i][j] = false
```

Is it correct so far? But I am not sure how I might proof its correctness ... My attempt looks like just rewriting the code in english ...

For 1st if: we can always use 1 coin of the denomination i to solve amt=i. For 1st else if: if we have a solution for the amt without using the current denomination, we can reuse, that solution. For 2nd else if: if the current denomination can be used (<= amt), and the denomination is not used, we can ...

For complexity: Table is of size nA. And each cell takes O(1) time to fill. Can someone help point me in the right direction?