I know that a functor is a function object, an overloading of () operator in a structure definition. Also the use of a functor in an algorithm seems pretty straight forward, just call this routine.

However I am not able to get a sense of comparators. Why are they used in the first place in a template argument.

Can someone please elaborate the difference between the two with a possible implementation of a template in STL like map

Edit :

I am looking for the answers to the following specifically

  1. Why is that there was a need of comparator instead of a function object ( also comparators are more commonly observed in containers ? )
  2. A possible implementation (non STL, i.e. in C++ code) of where a comparator is passed instead of a function object
  • You pass a type, rather than an object, so an entity can create a functor of that type and then it behaves as though you had used a functor – Fureeish Jul 12 '19 at 7:08
  • Ok, a bit of thinking makes me feel that its something with memory allocation, still if someone could provide an implementation it would be great – Gaurav Pant Jul 12 '19 at 7:09
  • Functors are objects - they do occupy memory. There is really no difference except for either you providing an object itself or a type so the object can be created later on. – Fureeish Jul 12 '19 at 7:10
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    A "comparator" is a function or function object that compares, nothing more. Now, C++ has a trick up its sleeve. If you pass a type rather than an object to a function template, and let the templste create the needed object, the whole thing can be optimised more readily. For this to work, you need all objects of that type to behave identically. The technique is used for all kinds of function objects, not just comparators. – n. 'pronouns' m. Jul 12 '19 at 7:36
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    @Fureeish Functor is a term from a branch of mathematics called categiry theory, look it up. It turns out that this branch is pretty important in programming too. – n. 'pronouns' m. Jul 12 '19 at 10:11

You are right about the definition of a functor - although the word doesn't exist in the language Standard itself, so there might be some slight variation in how people use it.

There are many function or class templates in the Standard Library that will take some sort of callable object - this might be a functor, or a pointer to a function (really just a function, not a class with operator()).

A comparator is an object of a type that meets the Compare requirements - that is, a function or class object that can be called with two things and returns a bool, and in particular meets some mathematical requirements called strict weak ordering.

Essentially, this means a comparator is a functor that you can use to put some numbers in the right order. (Numbers, std::strings, Customers, whatever else, as long as there is a sensible consistent way to put them in order).

So a trivial example of using a functor might be:

void print(int i)
    std::cout << i << '\n';
// ...
std::for_each(std::begin(some_ints), std::end(some_ints), print);

but if you wanted to sort some Customers by their customer id, you could do it like this:

struct Customer {
    std::string surname;
    std::string given_name;
    std::uint64_t customer_id;
bool compareById(Customer const& first, Customer const& second)
    // this function meets the Compare requirements
    return first.customer_id < second.customer_id;
// ...
std::sort(std::begin(customers), std::end(customers), compareById);

Let's say you later want to sort the customers by their names - surname first, then given name if the surnames are identical, you could provide a different function:

bool compareByName(Customer const& first, Customer const& second)
    // std::tie is an idiomatic way to correctly sort on multiple values
    return std::tie(first.surname, first.given_name)
                < std::tie(second.surname, second.given_name);
std::sort(std::begin(customers), std::end(customers), compareByName);

I'm struggling to invent an example where you would need your comparator to be a class, but let's suppose you wanted to print out all the comparisons it does to a log file; then that file would need to be state stored by the object:

struct LoggingCustomerComparator {
    std::ostream& logFile;
    LoggingCustomerComparator(std::ostream& logFile) : logFile(logFile) {}
    bool operator()(Customer const& first, Customer const& second)
        // assume we have an operator<< for Customer
        logFile << "Comparing: " << first << " and " << second << '\n';
        return first.customer_id < second.customer_id;
// ...
using OrderId = std::uint64_t;
using LCC = LoggingCustomerComparator;
std::map<Customer, OrderId, LCC> latestCustomerOrder(LCC(std::clog));
//                          ^^^ type                 ^^^ construct object with the log file we want

The above illustrates how to use function templates that take a functor or comparator, but what if you want to write such a function template? Let's implement Bogosort, in the style of a Standard Library algorithm:

template <typename RandIt, typename Comp>
void bogosort(RandIt first, RandIt last, Comp comp)
    std::random_device rd;
    std::mt19937 g(rd());

    while ( !std::is_sorted(first, last, comp) ) {
        std::shuffle(first, last, g);

To see how is_sorted might be implemented see here.

  • 1
    Good answer :) To expand upon this further you could have another function bool compareBySurname(Customer const& first, Customer const& second) { return first.surname < second.surname; } – churill Jul 12 '19 at 7:20
  • Your answer elaborates about functors, but can you please provide an example of a type where template requires a comparator type (like a possible implementation of an STL template in C++ code) – Gaurav Pant Jul 12 '19 at 8:07

In the comment section, a user has pointed the correct answer, and looking back I am just expanding on it

Basically comparators are types instead of an object, so passing types makes more sense to template classes, since its metaprogramming, that is the compiler is writing its own code, so it makes more sense that a class creates internal objects on its own rather than relying on the user to provide one.

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