16

In the wikipedia article about function objects it says such objects have performance advantages when used with for_each because the compiler can "inline" them.

I'm a bit foggy on exactly what this means in this context... or any context I'm embarrassed to say. Thanks for any help!

14

The last parameter of for_each template is a functor. Functor is something that can be "called" using the () operator (possibly with arguments). By defintion, there are two distinctive kinds of functors:

  1. Ordinary non-member functions are functors.
  2. Objects of class type with overloaded () operator (so called function objects) are also functors.

Now, if you wanted to use an ordinary function as a functor for for_each, it would look something like the following

inline void do_something(int &i) { /* do something */ }

int main() {
  int array[10];
  std::for_each(array, array + 10, &do_something);
}

In this case the for_each template is instantiated with [deduced] arguments <int *, void (*)(int &)>. Note that the actual functor value in this case is the function pointer &do_something passed as the function argument. From the point of view of for_each function this is a run-time value. And since it is a run-time value, the calls to the functor cannot be inlined. (Just like it is in general case impossible to inline any call made through a function pointer).

But if we use a function object instead, the code might look as follows

struct do_something {
  void operator()(int &i) { /* do something */ }
}; 

int main() {
  int array[10];
  std::for_each(array, array + 10, do_something());
}

In this case the for_each template is instantiated with [deduced] arguments <int *, do_something>. The calls to the functor from inside for_each will be directed to do_something::operator(). The target for the call is known and fixed at compile-time. Since the target function is known at compile-time, the call can easily be inlined.

In the latter case we, of course, also have a run-time value passed as an argument to for_each. It is a [possibly "dummy" temporary] instance of do_something class we create when we call for_each. But this run-time value has no effect on the target for the call (unless the operator () is virtual), so it doesn't affect inlining.

  • But the full definition of ::std::for_each is available to the compiler. To a smart compiler, it should see that it's being called with a particular argument that happens to be the address of a function that was declared inline. The compiler should be able to inline the function call just as well as if it were a class method. – Omnifarious Feb 9 '10 at 5:23
  • 2
    @Omnifarious: In my example you can call for_each with different functions having void (int&) signature and the compiler is forced to use the same, one and only one instantiation of for_each: for_each<int *, void (*)(int&). I.e. the compiler is required to use the same instantiation of for_each each time and perform an indirect call to the do_something function. Of course, a smart compiler can find a way to quietly create several inistatiations of for_each as you say, but in general case this would be a rather questionable thing to do. – AnT Feb 9 '10 at 6:48
  • 2
    For example (forget about templates), when I have function void foo(int) in my program and call it several times as foo(1); foo(2); foo(3); I generally expect the compiler to generate one function body for foo and execute the same body with different arguments: 1, 2, and 3. If I discover that the compiler instead generated 3 different bodies of foo with "inlined" constants 1, 2, and 3 respectively, I'll be unpleasantly surprised. For small foo that would be OK (if it is inlined after that), but for a larger foo this is undesirable. What you describing is essentially the same thing. – AnT Feb 9 '10 at 6:53
  • @AndreyT: Oh! slaps forhead That makes sense. And it's pretty dumb as well, but you're right, it just has to be that way, there's no way around it. I DO know a way around it though. big grin A function pointer template argument causing the name of the type to include which function you're going to use. The template's operator () just forwards to the function passed as a template argument. – Omnifarious Feb 9 '10 at 8:00
  • @Omnifarious: Yes, exactly! Function pointer as template argument would indeed work and would indeed requre no extra effort for inlining. But in case of std::for_each, the function pointer itself is function argument (not template argument). Template argument is function pointer type. – AnT Feb 9 '10 at 8:59
7

Inline is the process a compiler can replace a call to a function with the contents of the function itself. It requires the compiler to know the contents of the function when it's being compiled.

The compiler often can't do this if a function pointer is passed.

3

Inlining just means replacing every call to that function with the body of that function directly.

It's an optimization for small functions because it reduces the overhead of jumping to a new function and then returning.

3

It means that the function's definition (code) may be copied and saving you from a function call (which is considered to be expensive on some systems). Think of macro replacement.

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