The default stl priority queue is a Max one (Top function returns the largest element).
Say, for simplicity, that it is a priority queue of int values.
Use std::greater
as the comparison function:
std::priority_queue<int, std::vector<int>, std::greater<int> > my_min_heap;
operator>
, which would work like charm with std::greater
. You could write your own functor also instead of std::greater
if you like.
Mar 13, 2010 at 17:45
vector
and deque
classes fulfill the requirements that an underlying container must meet for a priority_queue. You can also use a custom container class. You can find a much elaborate explanation on cplusplus.com/reference/queue/priority_queue
Jun 3, 2016 at 13:14
One way would be to define a suitable comparator with which to operate on the ordinary priority queue, such that its priority gets reversed:
#include <iostream>
#include <queue>
using namespace std;
struct compare
{
bool operator()(const int& l, const int& r)
{
return l > r;
}
};
int main()
{
priority_queue<int,vector<int>, compare > pq;
pq.push(3);
pq.push(5);
pq.push(1);
pq.push(8);
while ( !pq.empty() )
{
cout << pq.top() << endl;
pq.pop();
}
cin.get();
}
Which would output 1, 3, 5, 8 respectively.
Some examples of using priority queues via STL and Sedgewick's implementations are given here.
true
when you want to put the element at the bottom of the priority queue, and false
to put the element at the top of the priority queue. Since default implementation is std::less, that will put the smallest element at the bottom of the priority queue and therefore the largest element is at the top (max heap). To create a min heap we use std::greater
which puts the largest element at the bottom and smallest element at the top (min heap).
The third template parameter for priority_queue
is the comparator. Set it to use greater
.
e.g.
std::priority_queue<int, std::vector<int>, std::greater<int> > max_queue;
You'll need #include <functional>
for std::greater
.
You can do it in multiple ways:
1. Using greater
as comparison function :
#include <bits/stdc++.h>
using namespace std;
int main()
{
priority_queue<int,vector<int>,greater<int> >pq;
pq.push(1);
pq.push(2);
pq.push(3);
while(!pq.empty())
{
int r = pq.top();
pq.pop();
cout<<r<< " ";
}
return 0;
}
2. Inserting values by changing their sign (using minus (-) for positive number and using plus (+) for negative number :
int main()
{
priority_queue<int>pq2;
pq2.push(-1); //for +1
pq2.push(-2); //for +2
pq2.push(-3); //for +3
pq2.push(4); //for -4
while(!pq2.empty())
{
int r = pq2.top();
pq2.pop();
cout<<-r<<" ";
}
return 0;
}
3. Using custom structure or class :
struct compare
{
bool operator()(const int & a, const int & b)
{
return a>b;
}
};
int main()
{
priority_queue<int,vector<int>,compare> pq;
pq.push(1);
pq.push(2);
pq.push(3);
while(!pq.empty())
{
int r = pq.top();
pq.pop();
cout<<r<<" ";
}
return 0;
}
4. Using custom structure or class you can use priority_queue in any order. Suppose, we want to sort people in descending order according to their salary and if tie then according to their age.
struct people
{
int age,salary;
};
struct compare{
bool operator()(const people & a, const people & b)
{
if(a.salary==b.salary)
{
return a.age>b.age;
}
else
{
return a.salary>b.salary;
}
}
};
int main()
{
priority_queue<people,vector<people>,compare> pq;
people person1,person2,person3;
person1.salary=100;
person1.age = 50;
person2.salary=80;
person2.age = 40;
person3.salary = 100;
person3.age=40;
pq.push(person1);
pq.push(person2);
pq.push(person3);
while(!pq.empty())
{
people r = pq.top();
pq.pop();
cout<<r.salary<<" "<<r.age<<endl;
}
Same result can be obtained by operator overloading :
struct people
{
int age,salary;
bool operator< (const people & p)const
{
if(salary==p.salary)
{
return age>p.age;
}
else
{
return salary>p.salary;
}
}};
In main function :
priority_queue<people> pq;
people person1,person2,person3;
person1.salary=100;
person1.age = 50;
person2.salary=80;
person2.age = 40;
person3.salary = 100;
person3.age=40;
pq.push(person1);
pq.push(person2);
pq.push(person3);
while(!pq.empty())
{
people r = pq.top();
pq.pop();
cout<<r.salary<<" "<<r.age<<endl;
}
bool operator > (const people & p)const
in 5) operator overloading
Feb 27, 2018 at 7:09
<
overloaded like that, it's better to overload >
and use greater<people>
Feb 27, 2018 at 7:23
In C++11 you could also create an alias for convenience:
template<class T> using min_heap = priority_queue<T, std::vector<T>, std::greater<T>>;
And use it like this:
min_heap<int> my_heap;
One Way to solve this problem is, push the negative of each element in the priority_queue so the largest element will become the smallest element. At the time of making pop operation, take the negation of each element.
#include<bits/stdc++.h>
using namespace std;
int main(){
priority_queue<int> pq;
int i;
// push the negative of each element in priority_queue, so the largest number will become the smallest number
for (int i = 0; i < 5; i++)
{
cin>>j;
pq.push(j*-1);
}
for (int i = 0; i < 5; i++)
{
cout<<(-1)*pq.top()<<endl;
pq.pop();
}
}
Based on above all answers I created an example code for how to create priority queue. Note: It works C++11 and above compilers
#include <iostream>
#include <vector>
#include <iomanip>
#include <queue>
using namespace std;
// template for prirority Q
template<class T> using min_heap = priority_queue<T, std::vector<T>, std::greater<T>>;
template<class T> using max_heap = priority_queue<T, std::vector<T>>;
const int RANGE = 1000;
vector<int> get_sample_data(int size);
int main(){
int n;
cout << "Enter number of elements N = " ; cin >> n;
vector<int> dataset = get_sample_data(n);
max_heap<int> max_pq;
min_heap<int> min_pq;
// Push data to Priority Queue
for(int i: dataset){
max_pq.push(i);
min_pq.push(i);
}
while(!max_pq.empty() && !min_pq.empty()){
cout << setw(10) << min_pq.top()<< " | " << max_pq.top() << endl;
min_pq.pop();
max_pq.pop();
}
}
vector<int> get_sample_data(int size){
srand(time(NULL));
vector<int> dataset;
for(int i=0; i<size; i++){
dataset.push_back(rand()%RANGE);
}
return dataset;
}
Output of Above code
Enter number of elements N = 4
33 | 535
49 | 411
411 | 49
535 | 33
We can do this using several ways.
int main()
{
priority_queue<int, vector<int>, greater<int> > pq;
pq.push(40);
pq.push(320);
pq.push(42);
pq.push(65);
pq.push(12);
cout<<pq.top()<<endl;
return 0;
}
struct comp
{
bool operator () (int lhs, int rhs)
{
return lhs > rhs;
}
};
int main()
{
priority_queue<int, vector<int>, comp> pq;
pq.push(40);
pq.push(320);
pq.push(42);
pq.push(65);
pq.push(12);
cout<<pq.top()<<endl;
return 0;
}