easy way to maintain a min heap with stl?

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for user defined struct, as I understand, it's easy. Just overload the operator <. However, for int/float etc.., do I really need to overload operator < for int? Here is what I tried:

       #include <iostream>
       #include <algorithm>
       #include <vector>
       using namespace std;

       bool comp(const int& a, const int& b)
       {
          return a<b?false:true;
       }

       int main () 
       {
         int myints[] = {10,20,30,5,15};
         vector<int> v(myints,myints+5);
         vector<int>::iterator it;
         make_heap(v.begin(), v.end(), comp);
         cout << "initial min heap   : " << v.front() << endl;
         for (unsigned i=0; i<v.size(); i++) cout << " " << v[i];
         cout<<endl;

         pop_heap (v.begin(),v.end());
         v.pop_back();
         for (unsigned i=0; i<v.size(); i++) cout << " " << v[i];
         cout<<endl;
       }

the results are:

        initial min heap   : 5
        5 10 30 20 15
        30 10 15 20

now pop_heap, push_heap won't maintain the min-heap correctly? is there any easier way to achieve this? Thanks!

Edit: sorry, I didn't check the manual carefully. yes, passing comp to pop_heap or push_heap should do the trick. However, what do you mean, I should not use an external comparator? If it's not the right way, what's the common way to achieve this?

3

There are 3 answers

12
K-ballo On BEST ANSWER

You shouldn't need to overload operator < for int (you can't, actually). If you use an external comparator, you should be passing the same Comparator comp to pop_head as well.

* Edit: *

As ildjarn pointed out, your comparison operator does not implement a strict-weak-ordering relation.

a < b ? false : true; --> a >= b
b < a ? true : false; --> a > b
0
erol yeniaras On

The answers are good, so I just wanted to add a small example. Say you have the following array:

array<int, 10> A{5,2,8,3,4,1,9,12,0,7};

and you want to create a min heap. The quickest way to do that is to use make_heap algorithm. However, that creates a max heap by default. In other words, if you call:

make_heap(A.begin(), A.end());

A becomes a max heap. To have a min heap, on the other hand, you need to add a comparator but do not need to implement one. Instead call the method as follows:

make_heap(A.begin(), A.end(), greater<int>());

This call will make your array a min heap.

PS: #include <algorithm> is necessary to use std::make_heap. Same operations apply to the vector as well.

HTH!

0
Steve Jessop On

Use std::greater<int>() as the comparator(to all of make_heap, push_heap, pop_heap). The () are important - std::greater<int> is a functor class not a function, so you need an instance of it.