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Given my variable being a pointer, if I assign it to a variable of "auto" type, do I specify the "*" ?

std::vector<MyClass> *getVector(); //returns populated vector

std::vector<MyClass> *myvector = getVector();  //assume has n items in it
auto newvar1 = myvector;

// vs:
auto *newvar2 = myvector;

//goal is to behave like this assignment:
std::vector<MyClass> *newvar3 = getVector();

I'm a bit confused on how this auto works in c++11 (this is a new feature to c++11, right?)

Update: I revised the above to better clarify how my vector is really populated in a function, and I'm just trying to assign the returned pointer to a variable. Sorry for the confusion

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The goal doesn't make sense; that assignment will not compile in C++. –  Nicol Bolas Oct 7 '12 at 22:10
auto_ptr is deprecated now... –  Kerrek SB Oct 7 '12 at 22:20
I should have clarified that I'm creating (on heap) and populating a vector in a function, then returning a pointer to that vector, and want to create a variable to store the pointer. I've edited my question to elaborate. –  Dolan Antenucci Oct 8 '12 at 3:16

2 Answers 2

up vote 10 down vote accepted
auto newvar1 = myvector;

// vs:
auto *newvar2 = myvector;

Both of these are the same and will declare a pointer to std::vector<MyClass> (pointing to random location, since myvector is uninitialized in your example and likely contains garbage). So basically you can use any one of them. I would prefer auto var = getVector(), but you may go for auto* var = getVector() if you think it stresses the intent (that var is a pointer) better.

I must say I never dreamt of similar uncertainity using auto. I thought people would just use auto and not think about it, which is correct 99 % of the time - the need to decorate auto with something only comes with references and cv-qualifiers.

However, there is slight difference between the two when modifies slightly:

auto newvar1 = myvector, newvar2 = something;

In this case, newvar2 will be a pointer (and something must be too).

auto *newvar1 = myvector, newvar2 = something;

Here, newvar2 is the pointee type, eg. std::vector<MyClass>, and the initializer must be adequate.

In general, if the initializer is not a braced initializer list, the compiler processes auto like this:

  1. It produces an artificial function template declaration with one argument of the exact form of the declarator, with auto replaced by the template parameter. So for auto* x = ..., it uses

    template <class T> void foo(T*);
  2. It tries to resolve the call foo(initializer), and looks what gets deduced for T. This gets substituted back in place of auto.

  3. If there are more declarators in a single declarations, this is done for all of them. The deduced T must be the same for all of them...

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I revised my question to clarify that I'm looking to assign a pointer to a populated vector to this variable. Can you check to see if your answer still applies that the two syntaxes are the same? Thanks! –  Dolan Antenucci Oct 8 '12 at 3:28
@dolan: Yes, they have the same semantics. –  jpalecek Oct 8 '12 at 11:13
@ildjarn empirical evidence appears to disagree with you. I get the same results on Clang 3.4 and gcc 4.8.3. Furthermore, it obeys template type deduction: if a primary template deduces T=int*, then a specialization for pointers would deduce T=int. For auto* p = &i; the deduced int type is then 'enhanced' with the pointer declarator part of auto*, producing the same type as in auto p = &i. –  boycy Nov 25 at 14:10
@boycy : You're correct, I don't know what I was thinking (references and cv-qualifiers I guess). Thanks for speaking up, downvote removed. :-] –  ildjarn Nov 26 at 0:58
auto newvar1 = *myvector;

This is probably what you want, which creates a copy of the actual vector. If you want to have a reference instead write auto& newvar1 = *myvector; or to create another pointer to the same vector use auto newvar1 = myvector;. The difference to your other attempt auto *newvar1 = myvector; is that the latter once forces myvector to be of pointer type, so the following code fails:

std::vector<int> v1;
auto* v2 = v1; // error: unable to deduce ‘auto*’ from ‘v1’
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Any advice on how to avoid not copying (note: my question has been revised to clarify what I'm looking to do -- sorry for not being clear before) –  Dolan Antenucci Oct 8 '12 at 3:30
As told, use auto& newvar1 = *myvector; This does not copy. –  Jagannath Oct 8 '12 at 6:40

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