# Multi-Key Custom Sorting in C++

Problem Statement:

I want to sort an `std::vector` of a structure using my custom sorting criteria.

The structure is:

``````struct Node
{
int x;
int y;
float value;
}
``````

I have a vector

`std::vector<Node> vec;`

My custom sorting criteria is that the vector should first be sorted by `y` and then by `x`. (Just like in Microsoft Excel)

# Example:

Input

``````x y

5 6
2 4
1 1
1 0
8 10
4 7
7 1
5 4
6 1
1 4
3 10
7 2
``````

Output:

``````x y

1 0
1 1
6 1
7 1
7 2
1 4
2 4
5 4
5 6
4 7
3 10
8 10
``````

Can the above mentioned sorting be achieved through any of the C++ Standard Library sorting functions? If not, then is there any other library which I can use?

-
yes, you can use `std::sort` with a custom functor. See example here cplusplus.com/reference/algorithm/sort –  user1773602 Nov 21 '12 at 15:46

Yes, you can do it using `std::sort` using a comparison function.

``````bool comparison(const Node& node1, const Node& node2)
{
if (node1.y < node2.y) return true;
if (node1.y == node2.y) return node1.x < node2.x;

return false;
}

int main() {
std::sort(vec.begin(), vec.end(), comparison);
}
``````
-
Swap `x` and `y` over. –  Joseph Mansfield Nov 21 '12 at 15:49
@sftrabbit: Good catch. Thanks! Fixed it –  Aamir Mansoor Nov 21 '12 at 15:51
I would add remarks that you can use any functor (and with C++11 lambda functions) –  phresnel Nov 21 '12 at 15:59
wow, thankyou so much. I tried with a comparator function but did not think of this logic for comparison. :) –  sgarizvi Nov 21 '12 at 16:29

`std::sort` takes a custom comparison function. I haven't tested this, but yours might look something like:

``````bool cmp (const Node& lhs, const Node& rhs)
{
if ( lhs.y < rhs.y ) return true;
else if ( lhs.y == rhs.y ) return ( lhs.x < rhs.x );
else return false;
}
``````
-

In general, implementing comparison operators (and functions) for multiple fields is more clearly expressed in terms of tie when lexicographical ordering is required.

``````static bool compare(Node const& l, Node const& r) {
// Note the alignment so that both expressions only differ in their `l` and `r` ?
return std::tie(l.y, l.x)
< std::tie(r.y, r.x);
}
``````

However, even that leaves some duplication and route for inconsistency. The following helper sees to that:

``````static std::tuple<int&,int&> tuplize(Node const& n) { return std::tie(n.y, n.x); }
``````

which can then be applied simply:

``````static bool compare(Node const& l, Node const& r) {
return tuplize(l) < tuplize(r);
}
``````