Assume there is a vector VA of size N, and each element is another vector of type T. There is an operation on type T and returning a new value of type T, i.e., `bool merge(T a, T b, T &ret);`

. If a and c can be merged, then store the result in `ret`

and return true; otherwise, return false. The merge operation is reflective and transitive.

A solution is found if either:

- ∃ x
_{0}, x_{1}, ..., x_{N-1}. merge(VA[0][x_{0}], VA[1][x_{1}], merge(VA[2][x_{2}], ..., merge(VA[N-2][x_{N-2}],VA[N-1][x_{N-1}], ret)...)); - any elements from N-1 (
**not N**) sub-vectors can be merged (pick any N-1 with exactly one exception).

For example: VA is of size 3. Element a can be merged with Element b with the result c. Element c can be merged with Element d with the result e.

- VA[0] = {a}
- VA[1] = {b, q}
- VA[2] = {d, r}

All solutions in the above example are: {a,b}, {a,d}, {b,d}, {a,b,d}.

The task is to find all solution in the given vector VA.

My C++ code is:

```
void findAll(unsigned int step, unsigned int size, const T pUnifier, int hole_id) {
if(step == size) printOneResult(pUnifier);
else {
_path[step] = -1;
findAll(step + 1, pUnifier, step);
}
std::vector<T> vec = VA[step];
for(std::vector<T>::const_iterator it = vec.begin(); it < vec.end(); it++) {
T nextUnifier();
if( merge( *it, pUnifier, nextUnifier )) {
_path[lit_id] = it->getID();
findAll(step + 1, nextUnifier, hole_id);
}
}
}
```

The code contains recursive calls; however, it is not tail recursive. It is running slowly in practice. In reality, the size of VA is possibly hundreds and each sub-vector size is of hundreds, too. I'm wondering whether it can be optimized.

Thank you very much.

`bool`

or`void`

? It can't be both, and if it's the former, you're missing a return statement. – ildjarn Dec 22 '12 at 1:28