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The recommended way (eg: sorting a vector in descending order) of sorting a container in reverse seems to be:

std::sort(numbers.begin(), numbers.end(), std::greater<int>());

I understand the third argument is a function or a functor that helps sort() make the comparisons, and that std::greater is a template functor, but I don't understand what's going on here. My C++ is quite rusty so please bear with me if these are stupid questions: Why are there parentheses after std::greater<int> there? Are we creating a new std::greater object here? In that case, why don't we need the new keyword here?

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I hope you don't associate new with creating objects. –  Rapptz Aug 4 '13 at 19:30
new returns a pointer, not an object. –  0x499602D2 Aug 4 '13 at 19:31
I've been through quite a few languages after C++ that new means many things to me, I think that was the reason for the confusion. In C++ new is only needed only for dynamically allocated objects, otherwise you can call the constructor directly, is that correct? –  sundar Aug 4 '13 at 19:35
@sundar Correct. Do not use new unless you're dynamically allocating, and even then just use a smart pointer. –  Rapptz Aug 4 '13 at 19:35

1 Answer 1

up vote 5 down vote accepted

Why are there parentheses after std::greater there? Are we creating a new std::greater object here?

That's correct. The expression std::greater<int>() corresponds to creating an object of type std::greater<int>.

In that case, why don't we need the new keyword here?

We don't need the new keyword because the object is being created on the stack, rather than on the heap. Only objects created dynamically need to be on the heap. The difference is clearly explained here.

Basically, at compile time, the compiler already knows how much memory to allocate for the object, as well as when it should be destroyed (which is when the std::sort function goes out of scope). new should be used whenever

  • this information is not available -- a simple example is when you want to create an array of objects, but you don't know how many objects, until the program actually runs; and/or
  • you want objects to have persistent storage duration, i.e. you want the object to outlast the lifetime of the scope where it was created.
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exactly what i started writing. +1 –  Ran Eldan Aug 4 '13 at 19:40
Thanks for the nice explanation. One clarification: "a simple example is when you want to create an array of objects, but you don't know when;" - do you meant to say "don't know how many;" here? If not, I'm afraid I don't get what that part means. –  sundar Aug 4 '13 at 19:49
@sundar Sorry you're right, I meant "you don't know how many" –  maditya Aug 4 '13 at 19:50
(2) From here, and from the interface to std::sort, I believe it does get copied. In fact, now I'm curious why it isn't simply passed by reference. I may ask this as a question myself, if you don't :) –  maditya Aug 4 '13 at 20:18
You're right that the object is not placed on the heap; that doesn't imply it is placed on the stack, however. In this case it's probably only used for type information during compilation, and optimized away completely. –  Ben Voigt Aug 4 '13 at 20:40

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