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Could someone explain why the following c++ code is not behaving as expected:

struct Object {   
  template< int i >
  void foo(){ } 

template<int counter>
struct Container {
  Object v[counter];

  void test(){
    // this works as expected
    Object a; a.foo<1>();

    // This works as well:
    Object *b = new Object(); b->foo<1>();

    // now try the same thing with the array:  
    v[0] = Object(); // that's fine (just testing access to the array)

# if defined BUG1
    v[0].foo<1>();   // compilation fails 
# elif defined BUG2
    (v[0]).foo<1>(); // compilation fails
# elif defined BUG3
    auto &o = v[0];
    o.foo<1>();      // compilation fails
# else
    Object &o = v[0];
    o.foo<1>();      // works
# endif

int main(){
  Container<10> container;

The code above compiles fine without flag. If one of the flag BUG1 to BUG3 is set, the compilation fails with either GCC 4.6 or 4.7 and with clang 3.2 (which seems to indicate it is not a GCC bug).

Lines 21 to 29 are doing exactly the same thing semantically (ie calling a method of the first element of the Object array), but only the last version compiles. The problem only seems to arise when I try to call a templated method from a template object.

BUG1 is just the "normal" way of writing the call.

BUG2 is the same thing, but the array access is protected by parenthesis in case there was a precedence problem (but there shouldn't be any).

BUG3 shows that type inference is not working either (needs to be compiled with c++11 support).

The last version works fine, but I don't understand why using a temporary variable to store the reference solves the problem.

I am curious to know why the other three are not valid.


share|improve this question
Try v[0].template foo<1>();. –  Kerrek SB Dec 1 '12 at 15:48
@KerrekSB: The interesting thing is why this is necessary. It seems that v[0] is not a dependent expression, so the compiler should be able to resolve its type while parsing the template. –  Vaughn Cato Dec 1 '12 at 15:51
@VaughnCato: I haven't tested it and I'm not sure, either. It was just a suggestion... The OP is not telling us what the error is, after all, and there's only so much guessing one can do. –  Kerrek SB Dec 1 '12 at 15:52
Ah, looks like v is a value-dependent name (see 14.6.2). –  Kerrek SB Dec 1 '12 at 15:57
@Thibaut: Yeah, I think that's actually a pretty easy argument: With auto, the type is deduced, and it's deduced as a dependent type (namely the type of Object[counter]()[0]). On the other branch, you say Object & explicitly, so there's nothing deduced. If you changed the name of the Object type, the auto code would continue to work, while the explicit code would break. By being explicit you're saying that you know something about how the template is going to be used that the compiler doesn't. –  Kerrek SB Dec 1 '12 at 16:15

2 Answers 2

up vote 1 down vote accepted

You have to use template as:

v[0].template foo<1>();  

auto &o = v[0];
o.template foo<1>();     

Because the declaration of v depends on the template argument, which makes v a dependent name.

Here the template keyword tells compiler that whatever follows is a template (in your case, foo is indeed a template). If foo is not a template, then the template keyword is not required (in fact, it would be an error).

The problem is that o.foo<1>() can be parsed/interpreted in two ways: one is just as you expect (a function call), the other way is this:

(o.foo) < 1  //partially parsed

that is, foo is a member data (not function), and you've comparing it with 1. So to tell the compiler that < is not used to compare o.foo with 1, rather it is used to pass template argument 1 to the function template, you're required to use template keyword.

share|improve this answer
But then why is it working if foo is not a template method? The problem doesn't seem to come from v. –  Thibaut Dec 1 '12 at 16:01
@Thibaut: Edited. –  Nawaz Dec 1 '12 at 16:02
Thanks, very clear explanation. Any idea why type inference is failing as well in the third case? I thought the auto keyword would disambiguate in the same way as declaring the type manually. –  Thibaut Dec 1 '12 at 16:12
@Thibaut: Think of auto as template parameter T. The value of these depends on context, and here you're working under dependent context: dependent on the template argument counter. –  Nawaz Dec 1 '12 at 16:13

Inside templates, expressions can be type-dependent or value-dependent. From 14.6.2:

types and expressions may depend on the type and/or value of template parameters

In your case, counter is a template argument, and the declaration of v depends on it, making v[0] a value-dependent expression. Thus the name foo is a dependent-name which you must disambiguate as a template name by saying:

v[0].template foo<1>();
share|improve this answer
Yes! The array size is value-dependent, making the array type be type-dependent, making the name v be value-dependent, making the expression v[0] be value-dependent. –  Vaughn Cato Dec 1 '12 at 16:11

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