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Why decltype can't be implicitly added to an expression when type was expected?

template <class X, class Y, class Z>
auto foo(X x, Y y, Z z){
    std::vector<decltype(x+y*z)> values;  // valid in c++11/c++14
    //std::vector<x+y*z> values;            // invalid
    return values;                        // type deduced from expression - OK

In c++14 compilers will able to deduce function return type based on return expressions. Why this can't be extended to any 'expression -> type' conversion?

The same apply to declval, why I have to write:

std::vector<decltype(declval<X>() + declval<Y>() * declval<Z>())> values;

instead of:

std::vector<X+Y*Z> values;
share|improve this question
I am pretty sure that it may introduce ambiguous parsing... – Jarod42 Jul 27 '14 at 13:33
... for very little benefit. There's already whole bunch of implicit stuff going on in C++. Explicit = good, implicit = bad. – jrok Jul 27 '14 at 13:33
@jrok: That's too over-generalized. Or do you want to code in assembler? – Deduplicator Jul 27 '14 at 13:52
@Deduplicator Apply common sense :) I don't like to over-generalize myself, in fact. – jrok Jul 27 '14 at 14:00
@Deduplicator: you are mistaking explicit for low-level. Looking past C++, Rust has taken a rather extreme point of view on the explicit vs implicit scale (for example explicit integer casts even in non-lossy contexts) and yet it has functional programming concepts baked in. – Matthieu M. Jul 27 '14 at 14:38

If implicit addition of decltype would be allowed, some very common templates would become ambiguous, or even impossible to express.

Consider the following example :

struct tp 
    template<typename T>
    void foo() { cout << "Type parameter\n"; }   

    template<int Value>
    void foo() { cout << "Value parameter\n"; }   

int main() 
  const int x = 1;
  const int y = 2;
  const int z = 3;

  tp t1;<x*y+z>();<decltype(x*y+z)>(); // Oops ! different version of foo()<int>();

  return 0;


Value parameter

Type parameter

Type parameter

If decltype is implicitly added to<x*y+z>();, the wrong version of foo() is called.

  • C++ policy for expressing what you do, and avoid when possible any implicit work by the compiler is IMHO a very good thing. It makes things easier to read, to understand, and to maintain.
  • After all, decltype is only 8 letters

Live demo here.

share|improve this answer
First, your example ill-formated because x,y,z are not constexpr. Second this may me one of rare cases when decltype will be really needed. – p2rkw Jul 27 '14 at 14:02
@p2rkw They're not constexpr, yet they're constant expressions. – jrok Jul 27 '14 at 14:03
Examples of "implicit things done by compiler": default+copy+move ctor, copy+move assignment-operator, ... – Deduplicator Jul 27 '14 at 14:03
@Deduplicator: The implicit generation was recognized a mistake though, and that is why even in C++11 the copy constructor (for example) is not generated if a move constructor is specified. There was talk of actually not generating the copy constructor automatically any longer, but it would have broken backward compatibility (something C++ is very loathe to do)... however it does demonstrate that the committee recognized this implicit generation as an issue rather than a solution. – Matthieu M. Jul 27 '14 at 14:42
@p2rkw no, the constexpr specifier is not magically added. You are missunderstanding constexpr. constexpr specifies that an entity (Variable/function) is preferred to be accessible/computed at compile-time, is not an specifier to say a variable/value is a constant expression. Being a constant expression is a property of values. Think of constexpr as a hint for the compiler, something like "Try to compute this at compile time". Note, for example, parameters inside a constexpr function are not considered constexpr, even if the values passed as parameters where constant expressions. – Manu343726 Jul 27 '14 at 17:25

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