Document number: P0077R1
Supersedes: P0077R0, N4446
Date: 2016-02-12
Project: Programming Language C++, Library Working Group
Reply-to: Agustín Bergé agustinberge@gmail.com
is_callable
, the missing INVOKE
related trait
0. History
Changes from P0077R0:
- Add type trait variables
is_callable_v
,is_nothrow_callable_v
. - Adjust feature-testing macro for C++17.
- Add appendix on addressing LWG2393 with
is_callable
.
Changes from N4446:
- Add discussion on alternative syntax.
- Add discussion on additional nothrow trait, add
is_nothrow_callable
. - Add feature-testing macro recomendation.
- Remove discussion on naming.
1. Introduction
This paper proposes to introduce a new trait to determine whether an
INVOKE
expression is well formed.
2. Motivation
Starting with C++11, the library introduced the pseudo-macro INVOKE
as a
way to uniformly handle function objects and member pointers as call
expressions. The trait result_of
was made to follow INVOKE
semantics
as well. This left users —who want to follow the precedent set forth by
the standard library— with the correct result type but no direct way of
obtaining such result, and invoke
implementations proliferated.
This was recently rectified by the introduction of invoke
to the working
draft [N4169]. However, there is still one piece of the puzzle missing, and is
the ability to query whether an INVOKE
expression is well formed when
treated as an unevaluated operand. Such functionality is currently present in
the form of C++14 SFINAE-friendly result_of
, albeit in a non user-friendly
way, and it should be made readily available in trait form for the same
reasons invoke
was introduced into the library.
The following is an artist depiction of such trait:
template < class T, class R = void , class = void > struct is_callable : false_type {}; template < class T> struct is_callable<T, void , void_t<result_of_t<T>>> : true_type {}; template < class T, class R> struct is_callable<T, R, void_t<result_of_t<T>>> : is_convertible<result_of_t<T>, R> {}; |
This trait is implemented in the wild under different names, and the check for a compatible result type is not always present. This post [call-me-maybe] shows how the implementation of such trait has been both improved and simplified by every new standard.
3. Design questions
3.1 Compatible return types
INVOKE
comes in two flavors, the primary INVOKE(f, t1, t2, ..., tN)
and INVOKE(f, t1, t2, ..., tN, R)
defined as INVOKE(f, t1, t2, ..., tN)
implicitly converted to R
. Both flavors can be supported with a defaulted
template argument:
template < class , class R = void > struct is_callable; // not defined template < class Fn, class ... ArgTypes, class R> struct is_callable<Fn(ArgTypes...), R>; |
However, if only one of those flavors were to be supported there would be no missing functionality, only more work for the user.
3.2 Alternative parameter syntax
Someone suggests alternative parameter syntax,
is_callable<Fn, R(Args...)>
.Do we want AB to add consideration of the alternative syntax in the paper?
SF F N A SA 0 6 5 0 0 But consistency between this and invocation_traits (in Fundamentals v1) is important.
The syntax used by the invocation traits in the Library Fundamentals TS is
Fn(Args...)
, which is consistent with the syntax used by std::result_of
.
The optional trailing R
for a checked compatible return type is consistent
with the alternative flavor of INVOKE
.
template < class Fn, class ... ArgTypes> struct invocation_type<Fn(ArgTypes...)>; template < class Fn, class ... ArgTypes> struct result_of<Fn(ArgTypes...)>; |
For consistency with the rest of the standard library, the suggested syntax is
Fn(ArgTypes...)
to represent an instance of a callable Fn
invoked with
arguments of type ArgTypes...
.
3.3 Additional nothrow trait
Add
is_noexcept_callable
?
SF F N A SA 1 4 4 2 0
Traits that check whether certain expressions involving special member
functions are well-formed also ship an additional nothrow
trait, that
reports the result of applying the noexcept
operator to the expression. It
is reasonable to provide a similar additional nothrow trait for is_callable
,
is_nothrow_callable
, that reports whether the given INVOKE
expression is
known not to throw any exceptions.
It should be noted that the standard library does not specify an exception
specification for its callable types (like reference_wrapper
), but a
conforming implementation may add a non-throwing noexcept-specification.
The result of is_nothrow_callable
when a standard library callable type is
involved is thus implementation defined.
4. Feature-testing
For the purposes of SG10, we recommend a feature-testing macro named
__cpp_lib_is_callable
.
5. Proposed Wording
This wording is relative to [N4567].
Change 20.10.2 [meta.type.synop], header <type_traits>
synopsis, as
indicated
namespace std { [...] // 20.10.4.3, type properties: [...] template < class T> struct has_virtual_destructor; template < class , class R = void > struct is_callable; // not defined template < class Fn, class ... ArgTypes, class R> struct is_callable<Fn(ArgTypes...), R>; template < class , class R = void > struct is_nothrow_callable; // not defined template < class Fn, class ... ArgTypes, class R> struct is_nothrow_callable<Fn(ArgTypes...), R>; [...] // 20.10.4.3, type properties [...] template < class T> constexpr bool has_virtual_destructor_v = has_virtual_destructor<T>::value; template < class T, class R = void > constexpr bool is_callable_v = is_callable<T, R>::value; template < class T, class R = void > constexpr bool is_nothrow_callable_v = is_nothrow_callable<T, R>::value; [...] } |
Change 20.10.4.3 [meta.unary.prop], Table 49 — Type property predicates, add new rows with the following content:
Template:
template
<
class
Fn,
class
... ArgTypes,
class
R>
struct
is_callable<Fn(ArgTypes...), R>;
Condition:
The expression
INVOKE(declval<Fn>(), declval<ArgTypes>()..., R)
is well formed when treated as an unevaluated operand.
Preconditions:
Fn
and all types in the parameter packArgTypes
shall be complete types, (possibly cv-qualified)void
, or arrays of unknown bound.
Template:
template
<
class
Fn,
class
... ArgTypes,
class
R>
struct
is_nothrow_callable<Fn(ArgTypes...), R>;
Condition:
is_callable<Fn(ArgTypes...), R>::value
istrue
and the expressionINVOKE(declval<Fn>(), declval<ArgTypes>()..., R)
is known not to throw any exception.
Preconditions:
Fn
and all types in the parameter packArgTypes
shall be complete types, (possibly cv-qualified)void
, or arrays of unknown bound.
6. References
-
[N4567] ISO/IEC JTC1 SC22 WG21, Programming Languages - C++, working draft, November 2015 http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2015/n4567.pdf
-
[call-me-maybe] True Story: Call Me Maybe - Tales of C++ http://talesofcpp.fusionfenix.com/post-11/true-story-call-me-maybe
-
[N4169] A proposal to add invoke function template (Revision 1) - Tomasz Kaminski http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2014/n4169.html
A. An alternative resolution for LWG2393 (informative)
In LWG2132
is_callable
is suggested as an alternative to Callable in order to make
the wording clear:
STL strongly wants to see an
is_callable
type trait to clarify the proposed wording.
In LWG2393 the definition of Callable is fixed and renamed to
Lvalue-Callable. Here is how the proposed resolution would look like if it
were to use is_callable
instead, as suggested:
Change 20.9.12.2 [func.wrap.func] p2, as indicated:
A callable objectf
of typeF
is Callable for argument typesArgTypes
and return typeR
if the expressionINVOKE(f, declval<ArgTypes>()..., R)
, considered as an unevaluated operand (Clause 5), is well formed (20.9.2).
Change 20.9.12.2.1 [func.wrap.func.con] p8+p21, as indicated:
template
<
class
F> function(F f);
template
<
class
F,
class
A> function(allocator_arg_t,
const
A& a, F f);
Remarks: These constructors shall not participate in overload resolution unless
f
is Callable (20.9.12.2) for argument typesArgTypes...
and return typeR
is_callable<F&(ArgTypes...), R>::value
istrue
.
template
<
class
F> function&
operator
=(F&& f);
Remarks: This assignment operator shall not participate in overload resolution unless
declval<decay_t<F>&>()
is Callable (20.9.12.2) for argument typesArgTypes...
and return typeR
is_callable<decay_t<F>&(ArgTypes...), R>::value
istrue
.
Change 20.9.12.2.5 [func.wrap.func.targ] p2, as indicated:
template
<
class
T> T* target()
noexcept
;
template
<
class
T>
const
T* target()
const
noexcept
;
Requires:
T
shall be a type that is Callable (20.9.12.2) for parameter typesArgTypes
and return typeR
is_callable<remove_cv_t<T>&(ArgTypes...), R>::value
shall betrue
.Returns: If
target_type() == typeid(T)
a pointer to the stored function target; otherwise a null pointer.
Note that remove_cv_t
is needed here in order to match typeid(T)
, which
strips references and cv-qualifiers but does not decay
. Otherwise, it is
possible to run into situations in which the target_type() == typeid(T)
check returns true
but a subsequent target<T>()
call yields undefined
behavior:
struct foo { int operator ()() { return 0; } void operator ()() const {} }; int main() { std::function < int ()> fun = foo{}; assert (fun.target_type() == typeid (foo const )); // holds fun.target<foo const >(); // undefined behavior } |
There is no need for remove_reference_t
given that the return type T*
already makes these functions ill-formed for reference types.