# Hard Coding Depth First Search Results (or Optimizing?)

I need to get all possible paths of a tree so I implemented a DFS like this:

``````void bisearch(std::vector<int> path, int steps,
int node, std::vector<std::vector<int>> *paths) {
int sum = 0;
if (path.size() == steps) {
for(std::vector<int>::iterator it=path.begin(); it != path.end(); ++it) {
sum += (*it);
}
if (sum == node)
paths->push_back(path);
}
else {
std::vector<int> uPath(path);
uPath.push_back(1);
bisearch(uPath, steps, node, paths);
std::vector<int> dPath(path);
dPath.push_back(0);
bisearch(dPath, steps, node, paths);
}
}
``````

The above code gives me all paths to some ending node for a tree of length "steps". I then loop through all ending nodes and run this to get every path. Issue is it takes forever! I was thinking of maybe hardcoding all the possible combinations to speed it up, of course I couldn't do this by hand since for instance a tree with 25 steps would have 2^25 ~= 35 million possible combinations, but maybe I could print the output from the search and use that to hardcode? Or does anyone see any easy optimizations I could make that would make a big difference on the performance? Thanks.

EDIT: Let me clarify a little. I need the path, that is the sequence of movements along the tree where 1 represents a right hand move and 0 a left (or up/down whichever you prefer). So for instance a 2 step tree I need the four ordered pairs (1,0) (0,1) (1,1) (0,0).

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