I am trying to understand how std::declval<T>() works. I know how to use it, and know what it does, mainly allows you to use decltype without constructing the object, like

decltype(std::declval<Foo>().some_func()) my_type; // no construction of Foo

I know from cppreference.com that std::declval<Foo> "adds" a rvalue reference to Foo, which due to reference collapsing rules ends up being either a rvalue reference or a lvalue reference. My question is why the constructor of Foo is not called? How can one implement a "toy" version of std::declval<T> without constructing the template parameter?

PS: I know it is not the same as the old trick

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    @remyabel yes, I saw that, I just don't know how to "build" my own declval
    – vsoftco
    Commented Feb 16, 2015 at 0:08
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    template< class T > typename std::add_rvalue_reference<T>::type declval(); is literally all you need. Live example
    – user3920237
    Commented Feb 16, 2015 at 0:10
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    @remyabel thanks, I understand most of it, the only thing that escapes me is why can we use the . operator to select a function from a rvalue reference to an object without constructing the object, like std::declval<Foo>().f() I know that std::declval<Foo>() is of type Foo&&, but didn't know you can "access" it's member function via the . operator, as you didn't construct the object. I thought one should have use the scope operator ::
    – vsoftco
    Commented Feb 16, 2015 at 0:22
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    @vsoftco: You're calling a non-static member function of an object. (well, you would be if the expression was evaluated) And for calling a non-static member function, you use a dot. Why would you expect that to be different in this case? Specifically, why would you expect the scope operator to be used? Commented Feb 16, 2015 at 0:43

1 Answer 1


Basically, in a sizeof or decltype expression you can call functions that aren't implemented anywhere (they need to be declared, not implemented).


class Silly { private: Silly( Silly const& ) = delete; };

auto foo() -> Silly&&;

auto main() -> int
    sizeof( foo() );

The linker should not complain about that.

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    Ahh, ok, now it makes sense why "adding a rvalue reference" does the trick. For some reason I didn't know you can use decltype on just declared functions. The only thing I'm still a bit puzzled is why can you call .f() in declval<Foo>().f(), I would have thought you need something like declval<Foo>()::f()
    – vsoftco
    Commented Feb 16, 2015 at 0:11
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    @vsoft in an unevaluated context, all that matters are types. You don't need the instance to use the instance: you just need to pretend. What, after all, is the sound of one hand falling in the forest if there are two trolly tracks? Commented Feb 16, 2015 at 0:42
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    @VioletGiraffe like above, when you do not know the type T at hand in template contexts but need to call a function of that type. You may not write T().foo(), because you can't make assumptions that T has default (or any other) constructor. Hence you need to call function through reference. I'm not sure exactly why rvalue reference is selected there.
    – Wormer
    Commented Aug 13, 2019 at 15:07
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    Does this really ansewr the question?
    – jw_
    Commented Jan 17, 2020 at 9:52
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    @Wormer, I am a year late, but this might answer why an rvalue reference is used in declval(). Commented May 30, 2020 at 14:34

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