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[C++11:]: The type denoted by decltype(e) is defined as follows:

  • if e is an unparenthesized id-expression or an unparenthesized class member access (5.2.5), decltype(e) is the type of the entity named by e. If there is no such entity, or if e names a set of overloaded functions, the program is ill-formed;
  • otherwise, if e is an xvalue, decltype(e) is T&&, where T is the type of e;
  • otherwise, if e is an lvalue, decltype(e) is T&, where T is the type of e;
  • otherwise, decltype(e) is the type of e.

The operand of the decltype specifier is an unevaluated operand (Clause 5).

The second, third and fourth cases clearly refer to the type of the expression, which would not include any polymorphism considerations.

However, and I'm not entirely sure what "entity" means here, the first case appears to be naming the object refered to by the expression e. It is ambiguous to me as to whether "the type of the entity" means its runtime type, or its static type.

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Oh, look! It's the "answer your own question"-jealousy police. –  Lightness Races in Orbit Apr 9 '13 at 10:23
Don't mind them, I got downvoted for the same reason. Future readers may want to have a look at this. –  Andy Prowl Apr 9 '13 at 10:30
-1, in C++ all types are static and exist only in compile time. –  Abyx Apr 9 '13 at 10:36
@Abyx: No, "dynamic types" exist. That is, the type of the object rather than the expression that yields access to it. Consider A* a = new B() and you know what the dynamic type of the object referred to by *a is. See [C++11: 10.3/9] for example, where this term is used. –  Lightness Races in Orbit Apr 9 '13 at 10:39
An even more obvious answer: the last sentence you quote. If the operand of decltype is not evaluated, there is no such thing as dynamic type. decltype is a compile time evaluation (like sizeof), and so can only use the static type. –  James Kanze Apr 9 '13 at 11:06

3 Answers 3

up vote 8 down vote accepted

It's actually impossible to run into this problem, due to the restraints of that first case.


struct A     {};
struct B : A {};

int main()
   A* x = new B();
   // What is `decltype(*x)`?

The use of * makes us fall through to the third case.

And for references?

struct A     {};
struct B : A {};

int main()
   A& x = *(new B());
   // What is `decltype(x)`?

x is a reference with type A&, and it is this "entity" whose type results.

The only way to use the first case is by directly naming an object, and we cannot do that in a way that hides a runtime type:

struct A     {};
struct B : A { void foo() {} };

int main()
   A x = B();     // well, you've sliced it now, innit?

   decltype(x) y;
   y.foo();       // error: ‘struct A’ has no member named ‘foo’

This is why, according to these answers, it is always the static type of an object that is used.

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In the first example, wouldn't *x be an lvalue (triggering the third case, rather than the fourth)? –  Mankarse Apr 9 '13 at 10:45
@BЈовић: Corrected; thank you. –  Lightness Races in Orbit Apr 9 '13 at 10:47
Your answer looks to me like the question is rather what the term "type" means in the standard, when it's not explicitly "static type" or "dynamic type", like [expr.unary.op]/1 or in "types of the arguments" for function calls. –  dyp Apr 9 '13 at 11:22
@DyP: Well, partially. I can see how you might interpret it that way, at least. However, I am asking solely for decltype's behaviour given that apparent ambiguity, as re-inforced by the content of the question's title. –  Lightness Races in Orbit Apr 9 '13 at 11:25
I don't think that it make sense to say that an object has a "static" type. An object simply has a type. An expression can have a static and a dynamic type (and always has a type). A static type is simply its type. And a dynamic type (only for glvalues) is the type of the most derived object to which the glvalue refers. –  Johannes Schaub - litb Apr 9 '13 at 17:08

You don't have to look into the individual points: the results of decltype are a type known to the compiler, which pretty much excludes any dynamic typing. And the last line that you quote couldn't be more explicit: the specifier is not evaluated, which also excludes any dynamic typing.

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the specifier is not evaluated, which also excludes any dynamic typing Do we have to rely on common sense for this, or is it stated someplace? –  Lightness Races in Orbit Apr 9 '13 at 11:26
This doesn't really answer the question. It could be that decltype actually introduces dynamic typing to C++ (without specific reason to think otherwise). –  Mankarse Apr 9 '13 at 11:31
@Mankarse Occam's razor says otherwise, though. –  Sebastian Redl Apr 9 '13 at 12:06
@SebastianRedl: Occam's Razor is not codified in the standard. –  Lightness Races in Orbit Apr 9 '13 at 12:23
@SebastianRedl I'm tempted to say that large parts of the standard are contrary to Occam's razor. In this case, however, the standard clearly defines dynamic typing as a result of evaluating an expression, and that the expression in decltype is not evaluated. –  James Kanze Apr 9 '13 at 12:47

It's basically a question of what "entity" means here (the possible meanings are defined in clause 3). Consider

struct A {
  int a;

int main() {
  A a = {};
  const A b = {};

  const A *aptr = (rand() % 42) ? &a : &b;
  decltype(aptr->a) x = 0;
  decltype((aptr->a)) y = 0;

Is x's type const int or int? If you take entity to mean "member", it is int because the member A::a has type int. If you take the entity kind "object", then the type is either const int or int, depending on the result of rand(). Objects, their existence and properties (including their type in general) is a runtime issue.

I say that this is not a real ambiguity. Because everyone knows what is meant and because the Standard uses the phrase "named by e" rather than "referred to by e" or "denoted by e" indicating that it is only the name lookup result that it is consulted.

Note that the type of y is always const int&, because the type of the expression aptr->a is const int and it is an lvalue.

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"Everyone knows what is meant" does not inherently resolve an ambiguity. It represents a common attempt at resolving the ambiguity. –  Lightness Races in Orbit Apr 10 '13 at 9:14
@LightnessRacesinOrbit i agree. feel free to do a defect report. –  Johannes Schaub - litb Apr 10 '13 at 13:59

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