# How to improve recursive backtracking algorithm

I implemented backtracking based solution for my problem which I specified in my previous post: Packing items into fixed number of bins

(Bin is a simple wrapper for `vector<int>` datatype with additional methods such as sum() )

``````bool backtrack(vector<int>& items, vector<Bin>& bins, unsigned index, unsigned bin_capacity)
{
if (bin_capacity - items.front() < 0) return false;

if (index < items.size())
{
//try to put an item into all opened bins
for(unsigned i = 0; i < bins.size(); ++i)
{
if (bins[i].sum() + items[index] + items.back() <= bin_capacity || bin_capacity - bins[i].sum() == items[index])
{
return backtrack(items, bins, index + 1, bin_capacity);

}
}
//put an item without exceeding maximum number of bins
if (bins.size() < BINS)
{
Bin new_bin = Bin();
bins.push_back(new_bin);

return backtrack(items, bins, index + 1, bin_capacity);

}
}
else
{
//check if solution has been found
if  (bins.size() == BINS )
{
for (unsigned i = 0; i <bins.size(); ++i)
{
packed_items.push_back(bins[i]);
}

return true;
}
}
return false;
}
``````

Although this algorithm works quite fast, it's prone to stack overflow for large data sets.

I'm looking for any ideas and suggestions how to improve it.

Edit:

I decided to try an iterative approach with explicit stack, but my solution doesn't work as expeced - sometimes it gives incorrect results.

``````bool backtrack(vector<int>& items, vector<Bin>& bins, unsigned index, unsigned bin_capacity)
{
stack<Node> stack;
Node node, child_node;
Bin new_bin;
//init the stack
stack.push(node);
item_index++;

while(!stack.empty())
{
node = stack.top();
stack.pop();

if (item_index < items.size())
{
if (node.bins.size() < BINS)
{
child_node = node;
Bin empty;
stack.push(child_node);
}

int last_index = node.bins.size() - 1;
for (unsigned i = 0; i < node.bins.size(); i++)
{
if (node.bins[last_index - i]->get_sum() + items[item_index]+ items.back() <= bin_capacity ||
bin_capacity - node.bins[last_index - i]->get_sum() == items[item_index])
{
child_node = node;
child_node.bins[last_index - i]->push_back(items[item_index]);
stack.push(child_node);
}
}
item_index++;
}
else
{
if (node.bins() == BINS)
{
//copy solution
bins = node.bins;
return true;
}
}
}
return false;
}
``````

Any suggestions are highly appreciated.

-
In the interest of avoiding stack overflows, you may want to attempt an iterative approach. – robjb Nov 11 '11 at 18:54
@robjb: though possible, usually backtracking algorithms are transfered into iterative algorithms not trivially, and the iterative solution must consist a stack [or an equivalent powerful data structure] as well. – amit Nov 11 '11 at 19:36
@amit: very true... I would not suggest that doing so is trivial. It may be a worthwhile attempt if the goal is to reduce overflows, but I expect it will be a trade-off between performance & safety. – robjb Nov 11 '11 at 19:49
@amit if you do use an explicit stack, you can control the maximum size, as opposed to the function call stack which can be unpredictable. – jli Nov 13 '11 at 3:25
@robjb After a long break from my problem, I decided to implement an iterative solution. However, it doesn't work as I expected. – solitaire Dec 2 '11 at 16:23