Searched for other problems -- and there are similar ones, but none that deal with this particular heuristic.

I have working code for a problem which asks to take a vector into some function, determine whether any values in that vector sum up to a given target value, and then returns whether it does or not (boolean). This is simple.

I have to use the backtracking heuristic supplied to create this function (below), which is working correctly in principle. I have to ensure that my function is not generating combinations which have been generated before (ABC is the same as BAC, for instance). How do I prevent my code from doing this? I cannot change the parameters going into the function **(so the function prototype has to remain as it is below)**, but wrapper or helper functions are OK.

Here is the heuristic:

```
bool Solve(configuration conf) {
if (no more choices) // BASE CASE
return (conf is goal state);
for (all available choices) {
try one choice c;
// recursively solve after making choice
ok = Solve(conf with choice c made);
if (ok) return true;
else unmake choice c;
}
return false; // tried all choices, no soln found
}
```

My code:

```
bool CanMakeSum(Vector<int> & nums, int targetSum) {
if (nums.isEmpty()) {
cout << "you've reached the target sum" << endl;
return true;
} else {
for (int i = 0; i < nums.size(); i++) {
element = nums[i];
Vector<int> rest = nums;
cout << "list the subset: " << listSubset(rest) << endl;
rest.removeAt(i);
// try one
int new_target_sum = targetSum - element;
CanMakeSum(rest, new_target_sum);
if (new_target_sum == 0) {
return true;
} else {
new_target_sum = targetSum + element;
}
}
}
return false;
}
string listSubset(Vector<int> &partial_solution) {
string solution = " ";
for (int i = 0; i < partial_solution.size(); i++) {
solution += IntegerToString(partial_solution[i]) + " ";
}
return solution;
}
```

`return (conf is goal state);`

and`ok = Solve(conf with choice c made);`

correctly. – Jarod42 May 16 '14 at 15:32