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I wonder why cbegin and cend were introduced in C++11?

What are cases when calling these methods makes a difference from const overloads of begin and end?

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6 Answers 6

up vote 111 down vote accepted

It's quite simple. Say I have a vector:

std::vector<int> vec;

I fill it with some data. Then I want to get some iterators to it. Maybe pass them around. Maybe to std::for_each:

std::for_each(vec.begin(), vec.end(), SomeFunctor());

In C++03, SomeFunctor was free to be able to modify the parameter it gets. Sure, SomeFunctor could take its parameter by value or by const&, but there's no way to ensure that it does. Not without doing something silly like this:

const std::vector<int> &vec_ref = vec;
std::for_each(vec_ref.begin(), vec_ref.end(), SomeFunctor());

Now, we introduce cbegin/cend:

std::for_each(vec.cbegin(), vec.cend(), SomeFunctor());

Now, we have syntactic assurances that SomeFunctor cannot modify the elements of the vector (without a const-cast, of course). We explicitly get const_iterators, and therefore SomeFunctor::operator() will be called with const int &. If it takes it's parameters as int &, C++ will issue a compiler error.

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I thought the new protocol was cbegin(vec) rather than vec.cbegin(). –  Kaz Dragon Aug 17 '12 at 12:41
@Kaz: There are no std::cbegin/cend free functions the way that std::begin/std::end exist. It was an oversight by the committee. If those functions did exist, that would generally be the way to use them. –  Nicol Bolas Aug 17 '12 at 13:10
Ah, I see. Roll on C++1x! –  Kaz Dragon Aug 17 '12 at 13:20
Apparently, std::cbegin/cend will be added in C++14. See en.cppreference.com/w/cpp/iterator/begin –  Adi Shavit Nov 6 '13 at 15:59

Beyond what Nicol Bolas said in his answer, consider the new auto keyword:

auto iterator = container.begin();

With auto, there's no way to make sure that begin() returns a constant operator for a non-constant container reference. So now you do:

auto const_iterator = container.cbegin();
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Couldn't you do const auto const_iterator = container.begin()? –  allyourcode Jan 8 '13 at 20:49
@allyourcode: Doesn't help. To the compiler, const_iterator is just another identifier. Neither version uses a lookup of the usual member typedefs decltype(container)::iterator or decltype(container)::const_iterator. –  aschepler Jan 8 '13 at 21:15
@aschepler I don't understand your second sentence, but I think you missed the "const" in front of "auto" in my question. Whatever auto comes to, seems that const_iterator should be const. –  allyourcode Jan 11 '13 at 19:18
@allyourcode: That would give you an iterator which is constant, but that's very different from an iterator to constant data. –  aschepler Jan 11 '13 at 19:56

Take this as a practical usecase

void SomeClass::f(const vector<int>& a) {
  auto it = someNonConstMemberVector.begin();
  it = a.begin();

The assignment fails because it is a nonconst iterator. If you used cbegin initially, the iterator would have had the right type.

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From http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2004/n1674.pdf:

so that a programmer can directly obtain a const_iterator from even a non-const container

They gave this example

vector<MyType> v;

// fill v ...
typedef vector<MyType>::iterator iter;
for( iter it = v.begin(); it != v.end(); ++it ) {
    // use *it ...

However, when a container traversal is intended for inspection only, it is a generally preferred practice to use a const_iterator in order to permit the compiler to diagnose const-correctness violations

Note that the working paper also mentions adapter templates, that now have been finalized as std::begin() and std::end() and that also work with native arrays. The corresponding std::cbegin() and std::cend() are curiously missing as of this time, but they might also be added.

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Just stumbled upon this question... I know it's alredy answerd and it's just a side node...

auto const it = container.begin() is a different type then auto it = container.cbegin()

the difference for int[5] (using pointer, which i know don't have the begin method but show nicely the difference... but would work in c++14 for std::cbegin() and std::cend(), which is essentially what one should use when it's here)...

int numbers = array[7];
const auto it = begin(numbers); // type is int* const -> pointer is const
auto it = cbegin(numbers);      // type is int const* -> value is const
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iterator and const_iterator have inheritance relationship and an implicit conversion occurs when compared with or assigned to the other type.

class T {} MyT1, MyT2, MyT3;
std::vector<T> MyVector = {MyT1, MyT2, MyT3};
for (std::vector<T>::const_iterator it=MyVector.begin(); it!=MyVector.end(); ++it)
    // ...

Using cbegin() and cend() will increase performance in this case.

for (std::vector<T>::const_iterator it=MyVector.cbegin(); it!=MyVector.cend(); ++it)
    // ...
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