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I have a single depth-first search algorithm implemented to traverse my graph, given the iterator to a starting node.

Documentation summary:

  • GraphIter is a typedef for Graph::iterator
  • Graph class extends map<string, Node>
  • start->second.edges() returns set<string>

This code causes a segmentation fault if the size of start->second.edges() is 0:

(I've truncated the irrelevant pieces, including the recursive calls, for brevity.)


Bad Code

void Graph::dfs(GraphIter start)
{
    cout << "EDGES SIZE: " << start->second.edges().size() << endl;

    for (set<string>::iterator it = start->second.edges().begin();
          it != start->second.edges().end(); ++it)
    {
        GraphIter iter = this->find(*it);     // <--- SEGMENTATION FAULT
    }
}

Now watch what happens when I pull start->second.edges() into a local variable: no more segfault!

Here's the code that doesn't generate a segfault:


Good Code

void Graph::dfs(GraphIter start)
{
    set<string> edges = start->second.edges();       // <--- MAGIC TRICK
    cout << "EDGES SIZE: " << edges.size() << endl;

    for (set<string>::iterator it = edges.begin();
          it != edges.end(); ++it)
    {
        GraphIter iter = this->find(*it);
    }
}

So the difference is that in the good code, when the size of the set of strings (from the edges() method) is 0, the for loop is never entered in the second case. But in the first case, the for loop is still executed at least once until it realize that it can't dereference the it variable.

Why are these different? Don't they access the same parts of memory?

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2 Answers 2

up vote 6 down vote accepted

Because edges() returns a set by value, start->second.edges().begin() and start->second.edges().end() return iterators to different containers because each call to edges() results in a new set being returned.

By creating a single copy with a named variable you ensure that the iterators all come from the same container and you can validly iterator from begin() to end().

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That's why! Thanks. I wasn't considering that while the iterator is a pointer, the edges() method, called subsequently, is returning by value, not by reference. –  Matt Jul 28 '12 at 18:11

It could be that start->second.edges() returns an std::set<std::string> by value. That would render the iterators in the loop incompatible and lead to undefined behaviour.

Your "magic trick"

set<string> edges = start->second.edges();

ensures that you are iterating over the same container, "edges".

You could fix it by having Node::edges() return by reference:

const std::set<std::string>& edges() const { .... }
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... And change iterator to const_iterator. –  Charles Bailey Jul 28 '12 at 18:10
    
Good. Clever thinking. I wish I could accept both answers. –  Matt Jul 28 '12 at 18:12
    
@CharlesBailey ...or just use auto it = ... :) –  FredOverflow Jul 28 '12 at 18:41

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