Hello, I'm learning how to implement BFS using C++ STL and I don't get this part :
// Enqueue all adjacent of f and mark them visited for (auto i = g[f].begin(); i != g[f].end(); i++) { if (!v[*i]) { q.push(*i); v[*i] = true; } }
here, v is the bool vector used to maintain the info about whether a vertex has been visited or not and g is a vector of vectors used to represent the adjacency list.
my question is, why do I need to use v[*i] , that is why do I need to use a pointer of i ? And why would it not work if i do not use it and instead just use v[i]
i will contain an iterator into the current node's vector of neighbors. Outside of that vector, it doesn't mean anything. From the looks of thing, they have one centralized v for all the nodes in the graph, and they need a unique identifier for each node to index into it.
I understand that 'i' is an iterator for the vector of the nodes ( representing adjacency list ). But how is that then being used as an index to a different vector 'v'?
@Tanuj i is an iterator into the neighbor vector. *i is then a reference to the actual neighboring node. From there, they have a couple of choices about the type of v. It could be something like a map<node, bool>, and they're using the node directly to index into the map. Or, a node could support an implicit conversion to something like an unsigned long, so they (for example) assign each node a serial number as it's created, and return that serial number in the conversion.
In that case, v would probably be a simple vector<bool>.
@Tanuj I guess that doesn't surprise me much. I don't think it's great code. In a typical graph, you'd have a struct for each node, containing data about whatever that node represents. But in this case, they leave that out, and represent each node a only a vector of vector<int>, representing its neighbors. So v is just a vector<vector<int>>, so if n is some node number, then v[n] is a vector of all that node's neighbors (and the node doesn't contain anything else).
@Tanuj whenever using iterators always cache the value of .end() instead of calling .end() every single time. This can have significant overhead on some compilers because they don't hoist the call because they can't prove you aren't modifying the collection in the loop. The best choice however is to just use a ranged-for loop.
