Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I just implemented the pairing heap data structure. Pairing heap supports insert, find-min, merge in O(1) amortized time and delete, delete-min in O(logN) amortized time. But the most remarkable operation is the decrease-key, which has complexity O(log logN). More about pairing heaps can be found at http://en.wikipedia.org/wiki/Pairing_heap.

I have implemented the insert, merge, and delete-min operations, but the wikipedia article didn't say how to decrease a key of a given node, so I couldn't implement it. Could someone tell me how it actually works?

Here is my code:

template< class key_t, class compare_t=std::less< key_t > >
struct pairing_heap {
  struct node { 
    key_t key; std::vector< node* > c;
    node( key_t k=key_t() ) : key( k ), c( std::vector< node* >() ) {}
  node *root;
  compare_t cmp;
  unsigned sz;
  typedef key_t value_type;
  typedef compare_t compare_type;
  typedef pairing_heap< key_t, compare_t > self_type;

  pairing_heap() : root( 0 ) {}
  node* merge( node *x, node *y ) {
    if( !x ) return y;
    else if( !y ) return x;
    else {
      if( cmp( x->key, y->key ) ) {
        x->c.push_back( y );
        return x;
      } else {
        y->c.push_back( x );
        return y;
  node* merge_pairs( std::vector< node* > &c, unsigned i ) {
    if( c.size()==0 || i>=c.size() ) return 0;
    else if( i==c.size()-1 ) return c[ i ];
    else {
      return merge( merge( c[ i ], c[ i+1 ] ), merge_pairs( c, i+2 ) );
  void insert( key_t x ) {
    root = merge( root, new node( x ) );
  key_t delmin() {
    if( !root ) throw std::runtime_error( "std::runtime_error" );
    key_t ret=root->key;
    root = merge_pairs( root->c, 0 );
    return ret;
  bool empty() const { return root==0; }
  unsigned size() const { return sz; }
share|improve this question

1 Answer 1

up vote 3 down vote accepted

According to the original paper on pairing heaps, page 114, the decrease-key operation is implemented as follows. First, change the priority of the node whose key is to be decreased to have the new priority. If its priority is still greater than its parent (or if it's the root of the tree), you are done. Otherwise, cut the link from that node to its parent, then use the merge operation to combine the original heap with the subtree that was just cut from that tree.

Hope this helps!

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.