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std::hash<Key>::operator()

Specializations of std::hash should define an operator() that:

  • Takes a single argument key of type Key.
  • Returns a value of type std::size_t that represents the hash value of key.
  • For two parameters k1 and k2 that are equal, std::hash<Key>()(k1) == std::hash<Key>()(k2).
  • For two different parameters k1 and k2 that are not equal, the probability that std::hash<Key>()(k1) == std::hash<Key>()(k2) should be very small, approaching 1.0/std::numeric_limits<size_t>::max().

Parameters

key - the object to be hashed

Return value

a std::size_t representing the hash value.

Exceptions

Hash functions should not throw exceptions.

Example

The following code shows how to specialize the std::hash template for a custom class. The hash function uses Fowler–Noll–Vo hash algorithm.

#include <cstdint>
#include <functional>
#include <iostream>
#include <string>
 
struct Employee
{
    std::string name;
    std::uint64_t ID;
};
 
namespace std {
template <>
class hash<Employee>
{
public:
    std::uint64_t operator()(const Employee& employee) const
    {
        // computes the hash of an employee using a variant
        // of the Fowler-Noll-Vo hash function
        constexpr std::uint64_t prime { 0x100000001B3 };
        std::uint64_t result { 0xcbf29ce484222325 };
 
        for (std::uint64_t i{}, ie = employee.name.size(); i != ie; ++i)
            result = (result * prime) ^ employee.name[i];
 
        return result ^ (employee.ID << 1);
    }
};
}
 
int main()
{
    Employee employee;
    employee.name = "Zaphod Beeblebrox";
    employee.ID = 42;
 
    std::hash<Employee> hash_fn;
    std::cout << hash_fn(employee) << '\n';
}

Output:

12615575401975788567

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