# Quickest way to compute the number of shared elements between two vectors

Suppose I have two vectors of the same size `vector< pair<float, NodeDataID> > v1, v2;` I want to compute how many elements from both v1 and v2 have the same NodeDataID. For example if `v1 = {<3.7, 22>, <2.22, 64>, <1.9, 29>, <0.8, 7>}`, and `v2 = {<1.66, 7>, <0.03, 9>, <5.65, 64>, <4.9, 11>}`, then I want to return 2 because there are two elements from v1 and v2 that share the same NodeDataIDs: 7 and 64.

What is the quickest way to do that in C++ ?

Just for information, note that the type `NodeDataIDs` is defined as I use boost as:

``````typedef adjacency_list<setS, setS, undirectedS, NodeData, EdgeData> myGraph;
typedef myGraph::vertex_descriptor NodeDataID;
``````

But it is not important since we can compare two NodeDataID using the operator == (that is, possible to do `v1[i].second == v2[j].second`)

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What about usingstl algorithm std::set_intersection and get its size? sgi.com/tech/stl/set_intersection.html –  linello Nov 9 '12 at 21:56
If you had a sorted collection of each of the vector's `NodeDataID` components, you could iterate one and do a bisection search (i.e. `std::equal_range`, paired with `std::distance`) on the second. –  Kerrek SB Nov 9 '12 at 22:03
@linello `std::set_intersection` expects the elements to be ordered and can therefore, in general, not be used on `std::vector`. –  Oswald Nov 9 '12 at 22:08
@KerrekSB however, as you can see, it is not sorted ! –  shn Nov 9 '12 at 22:21
@shn: Sorting the to vectors is O(n*log(n)), and then the count is O(n). That's still better than the O(n^2) for the unsorted, naive solution. –  Kerrek SB Nov 9 '12 at 22:23

The simplest solution is just to put elements of the first vector in a set then for the second vector we insert each element in this set (ret = myset.insert(an_id)) and if ret.second is false then the element exists, thus we increase a counter.

``````set<NodeDataID> myset;
int counter = 0;

for(int i = 0; i < v1.size(); ++i)
myset.insert(v1[i].second);

for(int i = 0; i < v2.size(); ++i)
{
pair<set<NodeDataID>::iterator,bool> ret = myset.insert(v2[i].second);
if(ret.second == false)
++counter;
}
``````
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