Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose I have foo which is a populated std::vector<double>.

I need to operate on the elements of this vector. I'm motivated to write

for (auto it : foo){
   /*ToDo - Operate on 'it'*/
}

But it appears that this will not write back to foo since it is a value type: a deep copy of the vector element has been taken.

Can I give some guidance to auto to make it a reference type? Then I could operate directly on it.

I suspect I'm missing some trivial syntax.

share|improve this question
1  
This is a very basic question. Something like "how do I declare an integer in C++". You should read a book on C++ basics instead of asking the question because I fear you will have thousands more if you don't. I would close this question as "lacks minimum understanding" but I lack the rep for that and the close reason has been removed. –  nwp Aug 6 at 14:12
3  
A very basic question? The questions I used to ask my general relativity professor were probably considered by him to be basic. This question seems quite advanced to me. –  Bathsheba Aug 6 at 16:51

4 Answers 4

up vote 22 down vote accepted

A minimal auto reference

The loop can be declared as follows:

for (auto& it : foo) {
   //    ^ the additional & is needed
   /*ToDo - Operate on 'it'*/
}

This will allow it to be a reference to each element in foo.

There is some debate as to the "canonical form" of these loops, but the auto& should do the trick in this case.

General auto reference

In a more general sense (outside the specifics of the container), the following loop works (and may well be preferable).

for (auto&& it : container) {
   //    ^ && used here
}

The auto&& allows for bindings to lvalues and rvalues. When used in a generic or general (e.g. template situation) this form may strike the desired balance (i.e. references, copies, prvalue/xvalue returns (e.g. proxy objects) etc.).

Favour the general auto&&, but if you have to be specific about the form, then use a more specific variation (e.g. auto, auto const& etc.).

Why is auto&& better?

As noted in other answers here and the comments. Why is auto&& better? Simply it will do what you think it should in most cases, see this proposal and its update.

As always, Scott Meyers' blog about this also makes for a good read.

share|improve this answer
    
That's perfect. So in many respects it works in a similar way to template specialisations. –  Slodge Monster Aug 6 at 11:29
    
auto&& is preferable. –  Puppy Aug 6 at 11:31
    
Why...........? –  Slodge Monster Aug 6 at 11:32
2  
@YogiBear: to manage proxy as in std::vector<bool> for example –  Jarod42 Aug 6 at 11:33
2  
For those wondering why auto&& is preferable, I highly suggest reading Scott Meyers article on Universal References: isocpp.org/blog/2012/11/… Basically, auto&& will become auto& when necessary, but also allows for the r-value optimization of auto&& –  AndyG Aug 6 at 12:00

I would use auto&&:

for (auto&& it : foo) {
    // bla
}

The reason is spelt out in N3994 "Range-Based For-Loops: The Next Generation (Revision 1)" that it would better work with proxy objects (such as those coming from std::vector<bool>).

In fact, that proposal for C++1z (supported already by Clang 3.5 SVN in -std=c++1z mode) proposes the syntax:

// c++1z only
for (it : foo) { 
    // bla
}

as a short-hand for for (auto&& it : foo).

share|improve this answer

You may use:

for (auto&& it : foo){

}

auto && is prefered to auto & to manage proxy iterator as for std::vector<bool>.

share|improve this answer

In many ways this confusion is arising from the convention that's grown up over the years to bind a * or a & to the type as opposed to the variable.

For example int* a is really int *a; i.e. a is a pointer to a value of type int.

The same applies to references: in the case of int& a, a is a reference to a value of type int.

So what you really want to do is write for (auto &it : foo) so it is a reference to the type inferred by auto. Then you can use it to manipulate the underlying vector elements. More often than not this will be written as

for (auto& it : foo)

Moving forward, you might want to use an r-value reference: for (auto&& it : foo) which is probably the best general form.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.