2d Vector Of Classes, How To Reference

Suppose I have :

class Intersection {
public:
int street;
int avenue;
double x;
double y;
double green;    // Light green times for STREET & AVENUE
double best_time;
multimap <double, Intersection *>::iterator bfsq_ptr;
};

And in my main function I have a 2d vector of:

vector<vector<Intersection *> > vvin ;
vector<vector<Intersection *> >::iterator vvit ;

And I am accessing it as such:

for (lit = City_Map::all.begin() ; lit != City_Map::all.end() ; lit++ ) {

inter = *lit ;
s = inter->street ;
a = inter->avenue ;
vvin[s][a] = inter ;
}

Where lit is a list iterator that contains all the classes. I am having difficulty accessing the 2d vector via integer index, something of which I know I have done in the past. The program is segfaulting on that exact line. Any ideas why?

Also, even

cout << vvin[i][j] << endl ; // or for that matter or  or whatever

segfaults, so I know it's not the pointer assignment.

If I am unable to access it via integer index, is there a way to use iterators in the same fashion so I can access it like a 2d array?

• Your vectors are probably empty and so you're accessing out of bounds data. – Pubby Nov 12 '11 at 3:08
• nah, did the vvin.resize(100) and still segfaulted. Having to use .push_back(inter). Not what I wanted. – FatAdama Nov 12 '11 at 3:35
• Did you resize both dimensions? – Pubby Nov 12 '11 at 3:47

You are probably accessing out of bounds. Try...

std::cout << "vvin.size() = " << vvin.size() << '\n';
for( size_t i = 0; i < vvin.size(); ++i )
{
std::cout << "vvin[" << i << "].size() = " << vvin[i].size() << '\n';
}

Or set some breakpoints and inspect the vectors that way.

First of all a plenty of pointers seems really dangerous. It's very hard to track memory deallocation for all these pointers.

So at first try to use vector<vector<Intersection> >; to remove the possibility of an invalid pointer to the Intersection structure.

If the bug is not fixed, try this simple test to be sure that you have an element to address by 2 indices:

vector<vector<Intersection> > vvin;
vvin.push_back(vector<Intersection>());
vvin.back().push_back(Intersection());
cout << vvin << endl;

If this code works normally (it must works normally!), it's obvious that you don't create an element you try to address by 2 indices.