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In page 82 of the draft of Chapter 3 : A Tour of C++: Abstraction Mechanisms the author writes:

If we also want to use the range-for loop for our Vector, we must define suitable begin() and end() functions:

template<typename T>
T∗ begin(Vector<T>& x)
    return &x[0]; // pointer to first element

template<typename T>
T∗ end(Vector<T>& x)
    return x.begin()+x.size(); // pointer to one-past-last element

Given those, we can write:

void f2(const Vector<string>& vs) // Vector of some strings
    for (auto s : vs)
        cout << s << ’\n’;

Notice that the class template Vector is defined in page 81 of the draft.

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The range based loop would also work if you defined begin() and end() as member functions. – juanchopanza Aug 1 '13 at 12:50
@juanchopanza But they are not member functions. – Belloc Aug 1 '13 at 12:52
What I mean is, you have the option of using member functions. Either way, the range based loop will work. – juanchopanza Aug 1 '13 at 12:53
up vote 5 down vote accepted

For range-based for to work, the compiler needs to find a suitable function to get the iterators.

  • If the type used is a class, it'll first look for member functions begin and end in the scope of that class.

  • If the type is not a class or the are no such member functions, it looks them up by Argument Dependent Lookup.

This is the reason range-based for works on C-arrays. Obviously, arrays can't have member functions, so standard library provides two functions defined similarly to this:

template<typename T, size_t N>
T* begin( T(&array)[N] )
    return array;

and similarly for end.

To answer your question from the title: they can be, but it's not a neccesity. You can define free functions in the same namespace as your class and they'll be found.

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Actually arrays are treated as a special case. Not great to paste Standard quotes into comments, but see 6.5.4 The range-based for statement: "if _RangeT is an array type, begin-expr and end-expr are __range and __range + __bound, respectively, where __bound is the array bound." – BoBTFish Aug 1 '13 at 13:04
@BoBTFish I believe this is subject to as-if rule. begin-expr needs to behave as if it was __range, but it's up to compiler/library how it achieves this. libstdc++, for example, does it they way I wrote. – jrok Aug 1 '13 at 13:07
"this is probably an implementation detail." Those overloads are required to exist. I don't think your link goes any way to showing that they are used in range-based-for for arrays by gcc. In fact, I see no reason not to think that range-based-for is required to work on arrays in a freestanding implementation, and looking at Freestanding implementations the <iterators> header is not required in that case. Does gcc support compiling for embedded chips and such without the library? I have no idea about such things. – BoBTFish Aug 1 '13 at 13:53
@BoBTFish You're right, these functions are required. And I don't know that either. That could be a good SO question, perhaps? – jrok Aug 1 '13 at 13:59

If it is not an array or a container with .begin() and .end() it will look up by Argument dependent name.

It is said here :

Keep in mind these facts about range-based for:

  • Automatically recognizes arrays.

  • Recognizes containers that have .begin() and .end().

  • Uses argument-dependent lookup begin() and end() for anything else.

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In such a range based for:

for ( for-range-declaration : expression ) statement

the standard says that the compiler looks for either members ((expression).begin(), (expression).end()) or free functions (begin((expression)), end((expression))) if expression is of class type.

Therefore you can either provide member functions OR free functions (which need to be in scope for argument dependant lookup).

C++11, § 6.5.4 [stmt.ranged]

This is what a ranged-based for does according to the standard:

for ( for-range-declaration : expression ) statement

range-init = ( expression )

  auto && __range = range-init;
  for ( auto __begin = begin-expr,
    __end = end-expr;
    __begin != __end;
    ++__begin ) 
    for-range-declaration = *__begin;

The begin-expr and end-expr are described as:

  • if _RangeT is an array type, begin-expr and end-expr are _range and _range + _bound, respectively, where _bound is the array bound. If _RangeT is an array of unknown size or an array of incomplete type, the program is ill-formed;

  • if _RangeT is a class type, the unqualified-ids begin and end are looked up in the scope of class _RangeT as if by class member access lookup (3.4.5), and if either (or both) finds at least one declaration, beginexpr and end-expr are __range.begin() and __range.end(), respectively;

  • otherwise, begin-expr and end-expr are begin(__range) and end(__range), respectively, where begin and end are looked up with argument-dependent lookup (3.4.2). For the purposes of this name lookup, namespace std is an associated namespace.

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So if __range.begin() is a member but both begin(__range) and end(__range) exist as free functions found via ADL, it will look for __range.end() and break? – Ben Voigt Sep 3 '13 at 14:41
@BenVoigt I guess you're right since the standard says if [...] finds at least one declaration [...]. It suggests the behaviour you describe. – Pixelchemist Sep 3 '13 at 20:05

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