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As the question says, I need to use std::map in such way that.

std::map<std::pair<int, int>, int*> m;

int* a_ptr = new int;
*a_ptr = 15;
m[std::make_pair(1, 2)] = a_ptr;
std::cout << *m[std::make_pair(2, 1)] << std::endl; //should output 15

Now, in my actual implementation all the keys and values are actually pointers. How should I approach this problem?

Two ideas come to my mind.

  1. One is I should write a function that every time I am using m[] to access or to write into map, I should also m.find() check the other pair combination and act according to that.

  2. Other is using std::unordered_map with a custom hasher that somehow makes no difference when pair's elements positions are switched. (I have no idea how to do this, if I multiply or add the two pointers the result won't be equal. Need some help if this is the way to go.)

If you can think a better method I will be glad to hear it, otherwise I have stated what I need help with in the second clause. (which I think is more efficient, first one does not look good)


share|improve this question
Wrap the map in a class that sorts the pair elements (so p.first < p.second) before using them as a key? –  Yakk Mar 14 '13 at 21:04
Why tag this algorithm? –  Knoothe Mar 14 '13 at 21:04
@Knoothe fixed that. Yakk, I can't believe I never thought of it. –  Etherealone Mar 14 '13 at 21:06
@Tolga You can also just XOR the pointers, that operation's commutative and won't overflow. (It might however have terrible hashing behaviour based on the layout of objects in memory.) –  millimoose Mar 14 '13 at 21:12
@millimoose this will come in handy in some other situations I can foresee. Thank you. –  Etherealone Mar 14 '13 at 21:35

4 Answers 4

up vote 6 down vote accepted

Could you simply ensure the pairs are always in the same order? Use a helper function, like:

std::pair<int,int> my_make_pair(int a, int b) 
    if ( a < b ) return std::pair<int,int>(a,b);
    else return std::pair<int,int>(b,a);

and always use it to access the map:

m[my_make_pair(1,2)] = a_ptr;
std::cout << m[my_make_pair(2, 1)] << std::endl;
share|improve this answer
+1: Or create an ordered_pair, which is also very simple. –  Zeta Mar 14 '13 at 21:06

Just use a custom comparator

[](std::pair<int, int> const& lhs, std::pair<int, int> const& rhs) {
   int lhs_min = std::min(lhs.first, lhs.second);
   int lhs_max = std::max(lhs.first, lhs.second);
   int rhs_min = std::min(rhs.first, rhs.second);
   int rhs_max = std::max(rhs.first, rhs.second);

   return lhs_min < rhs_min || (!(rhs_min < lhs_min) && lhs_max < rhs_max)

How does this work?

The first few lines deterministically order the 2 elements of a pair; that is, you can supply them in either order and lhs_min & lhs_max will be the same. We then use a standard equivalence technique for the result. All integer copies will be optimised out by the compiler and min/max will be inlined.

Note that I used C++11's lambdas for convenience of typing and have since discovered that there is no nice way of using them as the comparator for a std::map, so you would have to write a functor proper.

share|improve this answer
You can't do it like that. std::map expects a type as its third template parameter, you're giving it a lambda, which is a value. AFAIK to use a lambda as a comparator here you would've to use auto cmp = [] ... ; typedef std::map<..., decltype(cmp)> mymap; but you're still creating a global object no-one uses. Could just use a functor in the first place. –  Fiktik Mar 14 '13 at 21:26
@Fiktik Ah crap, good point! –  Alex Chamberlain Mar 14 '13 at 21:26
Also I think that the type you specify must implement function call operator ()? –  Snps Mar 14 '13 at 21:30
@snipes83 No, lambdas are essentially functors with a funky constructor and operator(). –  Alex Chamberlain Mar 14 '13 at 21:31
template<typename T, typename PairCmp = std::less<std::pair<T,T>> >
struct symmetric_pair_sort {
  bool operator()( std::pair<T,T> const& left, std::pair<T,T> const& right ) const {
    if (left.second<left.first) {
      return (*this)(std::make_pair( left.second, left.first ), right );
    if (right.second<right.first) {
      return (*this)(left, std::make_pair( right.second, right.first ) );
    return PairCmp()(left, right);

// or, the far bulkier yet more efficient:
template<typename T, typename PairCmp = std::less<std::pair<T&, T&>> >
struct symmetric_pair_sort {
  template<bool left_reversed, bool right_reversed>
  bool Helper( std::pair<T,T> const& left, std::pair<T,T> const& right ) const {
    std::pair<T&, T&> left_ordered( left_reversed?left.first:left.second, left_reversed?left.second:left.first );
    std::pair<T&, T&> right_ordered( right_reversed?right.first:right.second, right_reversed?right.second:right.first );
    return PairCmp()( left_ordered, right_ordered );
  bool operator()( std::pair<T,T> const& left, std::pair<T,T> const& right ) const {
    if (left.second<left.first) {
      if (right.second<right.first) {
        return Helper<true, true>(left, right);
      } else {
        return Helper<true, false>(left, right);
    } else {
      if (right.second<right.first) {
        return Helper<false, true>(left, right);
      } else {
        return Helper<false, false>(left, right);

std::map<std::pair<int, int>, int*, symmetric_pair_sort<int> > m;
share|improve this answer
A nice solution. This will come handy in some other scenarios, yet it will create another pair object if it fails the order, while Nate Hekman's will create one. I don't have too many places that I access to map yet so converting make_pairs to my_make_pairs will be fine now. Otherwise this would be the answer. –  Etherealone Mar 14 '13 at 21:28
-1 I don't like downvoting answers on questions I have also answered, but I don't like the recursive calls here; it is not obvious that the compiler will be able to remove them. Unfortunately, to use a custom PairCmp, it is necessary to create a new pair, but why not pass it straight to PairCmp? –  Alex Chamberlain Mar 14 '13 at 21:42
The 4 fold case looked ugly. :) it would be faster, yes. –  Yakk Mar 14 '13 at 23:10
I wrote a faster one, where PairCmp is expected to take std::pair<T&, T&> rather than `std::pair<T,T>. Much uglier, yet probably faster for non-trivial types: for simple types, I have confidence a compiler could figure out the recursion in the simple case. –  Yakk Mar 15 '13 at 3:17

An alternative solution is to use std::set<int> instead of std::pair<int,int>. Sets store their data ordered, hence there is no need to order your pair, so precisely fulfill your requirement.

On the other hand, the other answers to use a compare wrapper around pair that explicitly orders the pairs might be more practical.

share|improve this answer
std::set is ordered. –  Alex Chamberlain Mar 14 '13 at 21:10
How so? If I have set<int> a, b and insert 1,2 in a and on the opposite order in b, then a==b is true. –  eldering Mar 14 '13 at 21:14
Yeah, of course. They have the same contents. However, the std::set is an ordered structure; that is, it stores its contents in an ordered way. –  Alex Chamberlain Mar 14 '13 at 21:16
Yes, sure, and precisely because of that, they fulfill the requirement out-of-the-box: these two sets will compare equal, so lookup of {1,2} will also match the key {2,1} (note that mathematically they are simply equal). –  eldering Mar 14 '13 at 21:19
I downvoted as std::set is an ordered container, not because they wouldn't compare equal if you inserted them in arbitrary ways (which they don't, they compare equivalent). However, std::maps couldn't care less if their keys compared equal or not. All they care about is a strict weak partial ordering, normally provided by std::less and operator<. It would work, but not for the reason you stated, when apply to C++. (I studied Maths at Uni, I know what a set - in a mathematical sence - is.) –  Alex Chamberlain Mar 14 '13 at 21:25

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