This page is a snapshot from the LWG issues list, see the Library Active Issues List for more information and the meaning of WP status.
Section: 22.14.8.1 [format.arg] Status: WP Submitter: Tim Song Opened: 2021-11-03 Last modified: 2023-02-13
Priority: 3
View all other issues in [format.arg].
View all issues with WP status.
Discussion:
P2418R2 changed basic_format_arg's constructor to take a forwarding reference but didn't change 22.14.8.1 [format.arg]/5 which inspects various properties of T. Now that the deduced type can be cvref-qualified, they need to be removed before the checks.
[2022-01-29; Reflector poll]
Set priority to 3 after reflector poll.
Two suggestions to just change it to be T& because we don't need forwarding references here, and only accepting lvalues prevents forming dangling references.
Previous resolution [SUPERSEDED]:
This wording is relative to N4901.
Modify 22.14.8.1 [format.arg] as indicated:
template<class T> explicit basic_format_arg(T&& v) noexcept;-?- Let TD be remove_cvref_t<T>.
-4- Constraints: The template specializationtypename Context::template formatter_type<remove_cvref_t<T>TD>meets the BasicFormatter requirements (22.14.6.1 [formatter.requirements]). The extent to which an implementation determines that the specialization meets the BasicFormatter requirements is unspecified, except that as a minimum the expression
typename Context::template formatter_type<remove_cvref_t<T>TD>() .format(declval<T&>(), declval<Context&>())shall be well-formed when treated as an unevaluated operand (7.2.3 [expr.context]).
-5- Effects:
(5.1) — if TD is bool or char_type, initializes value with v;
(5.2) — otherwise, if TD is char and char_type is wchar_t, initializes value with static_cast<wchar_t>(v);
(5.3) — otherwise, if TD is a signed integer type (6.8.2 [basic.fundamental]) and sizeof(TD) <= sizeof(int), initializes value with static_cast<int>(v);
(5.4) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned int), initializes value with static_cast<unsigned int>(v);
(5.5) — otherwise, if TD is a signed integer type and sizeof(TD) <= sizeof(long long int), initializes value with static_cast<long long int>(v);
(5.6) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned long long int), initializes value with static_cast<unsigned long long int>(v);
(5.7) — otherwise, initializes value with handle(v).
[2022-10-19; Jonathan provides improved wording]
During reflector prioritization it was pointed out that forwarding references are unnecessary (arguments are always lvalues), and so using T& would be simpler.
In order to resolve the overload ambiguities discussed in 3718 replace all unary constructor overloads with a single constructor that works for any formattable type.
Previous resolution [SUPERSEDED]:
This wording is relative to N4917.
Modify 22.14.8.1 [format.arg] as indicated:
template<class T> explicit basic_format_arg(T&&v) noexcept;-4- Constraints: T satisfies formattable<char_type>.
The template specializationtypename Context::template formatter_type<remove_cvref_t<T>>
meets the BasicFormatter requirements (22.14.6.1 [formatter.requirements]). The extent to which an implementation determines that the specialization meets the BasicFormatter requirements is unspecified, except that as a minimum the expressiontypename Context::template formatter_type<remove_cvref_t<T>>() .format(declval<T&>(), declval<Context&>())
shall be well-formed when treated as an unevaluated operand (7.2.3 [expr.context]).-?- Preconditions: If decay_t<T> is char_type* or const char_type*, static_cast<const char_type*>(v) points to a NTCTS (3.36 [defns.ntcts]).
-5- Effects: Let TD be remove_const_t<T>.
(5.1) — if TD is bool or char_type, initializes value with v;
(5.2) — otherwise, if TD is char and char_type is wchar_t, initializes value with static_cast<wchar_t>(v);
(5.3) — otherwise, if TD is a signed integer type (6.8.2 [basic.fundamental]) and sizeof(TD) <= sizeof(int), initializes value with static_cast<int>(v);
(5.4) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned int), initializes value with static_cast<unsigned int>(v);
(5.5) — otherwise, if TD is a signed integer type and sizeof(TD) <= sizeof(long long int), initializes value with static_cast<long long int>(v);
(5.6) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned long long int), initializes value with static_cast<unsigned long long int>(v);
(5.?) — otherwise, if TD is a standard floating-point type, initializes value with v;
(5.?) — otherwise, if TD is a specialization of basic_string_view or basic_string and TD::value_type is char_type, initializes value with basic_string_view<char_type>(v.data(), v.size());
(5.?) — otherwise, if decay_t<TD> is char_type* or const char_type*, initializes value with static_cast<const char_type*>(v);
(5.?) — otherwise, if is_void_v<remove_pointer_t<TD>> is true or is_null_pointer_v<TD> is true, initializes value with static_cast<const void*>(v);
(5.7) — otherwise, initializes value with handle(v).
-?- [Note: Constructing basic_format_arg from a pointer to a member is ill-formed unless the user provides an enabled specialization of formatter for that pointer to member type. — end note]
explicit basic_format_arg(float n) noexcept; explicit basic_format_arg(double n) noexcept; explicit basic_format_arg(long double n) noexcept;
-6- Effects: Initializes value with n.explicit basic_format_arg(const char_type* s) noexcept;
-7- Preconditions: s points to a NTCTS (3.36 [defns.ntcts]).
-8- Effects: Initializes value with s.template<class traits>> explicit basic_format_arg(basic_string_view<char_type, traits> s) noexcept;
-9- Effects: Initializes value with basic_string_view<char_type>(s.data(), s.size()).template<class traits, class Allocator>> explicit basic_format_arg( const basic_string<char_type, traits, Allocator>& s) noexcept;
-10- Effects: Initializes value with basic_string_view<char_type>(s.data(), s.size()).explicit basic_format_arg(nullptr_t) noexcept;
-11- Effects: Initializes value with static_cast<const void*>(nullptr).template<class T> explicit basic_format_arg(T* p) noexcept;
-12- Constraints: is_void_v<T> is true.
-13- Effects: Initializes value with p.
-14- [Note: Constructing basic_format_arg from a pointer to a member is ill-formed unless the user provides an enabled specialization of formatter for that pointer to member type. — end note]Modify 22.14.8.1 [format.arg] p17 and p18 as indicated:
template<class T> explicit handle(T&&v) noexcept;-17- Let
— (17.1) TD be remove_
cvrefconst_t<T>,
— (17.2) const-formattable be true if typename Context::template formatter_type<TD>().format(declval<const TD&>(), declval<Context&>()) is well-formed, otherwise false,— (17.3) TQ be const TD if
const-formattable is trueconst TD satisfies formattable<char_type> and TD otherwise.-18- Mandates:
const-formattableformattable<const TD, char_type> || !is_const_v<remove_reference_t<T>is true.-19- Effects: Initializes ptr_ with addressof(val) and format_ with
[](basic_format_parse_context<char_type>& parse_ctx, Context& format_ctx, const void* ptr) { typename Context::template formatter_type<TD> f; parse_ctx.advance_to(f.parse(parse_ctx)); format_ctx.advance_to(f.format(*const_cast<TQ*>(static_cast<const TD*>(ptr)), format_ctx)); }
[2022-11-10; Jonathan provides improved wording]
[2022-11-29; Casey expands the issue to also cover make_format_args]
[2023-01-11; Jonathan adds the missing edits to the class synopsis]
[Issaquah 2023-02-07; LWG]
Edited proposed resolution to remove extra = in concept definition and capitialize start of (5.1). Move to Immediate for C++23
[2023-02-13 Status changed: Immediate → WP.]
Proposed resolution:
This wording is relative to N4917.
Modify 22.14.6.2 [format.formattable] as indicated:
-1- Let fmt-iter-for<charT> be an unspecified type that models output_iterator<const charT&> (25.3.4.10 [iterator.concept.output]).
template<class T, class Context,
class Formatter = typename Context::template formatter_type<remove_const_t<T>>>
concept formattable-with = // exposition only
semiregular<Formatter> &&
requires (Formatter& f, const Formatter& cf, T&& t, Context fc,
basic_format_parse_context<typename Context::char_type> pc)
{
{ f.parse(pc) } -> same_as<typename decltype(pc)::iterator>;
{ cf.format(t, fc) } -> same_as<typename Context::iterator>;
};
template<class T, class charT>
concept formattable =
semiregular<formatter<remove_cvref_t<T>, charT>> &&
requires(formatter<remove_cvref_t<T>, charT> f,
const formatter<remove_cvref_t<T>, charT> cf,
T t,
basic_format_context<fmt-iter-for<charT>, charT> fc,
basic_format_parse_context<charT> pc) {
{ f.parse(pc) } -> same_as<basic_format_parse_context<charT>::iterator>;
{ cf.format(t, fc) } -> same_as<fmt-iter-for<charT>>;
};
formattable-with<remove_reference_t<T>, basic_format_context<fmt-iter-for<charT>>>;
Modify 22.14.8.1 [format.arg] as indicated:
namespace std {
template<class Context>
class basic_format_arg {
public:
class handle;
private:
using char_type = typename Context::char_type; // exposition only
variant<monostate, bool, char_type,
int, unsigned int, long long int, unsigned long long int,
float, double, long double,
const char_type*, basic_string_view<char_type>,
const void*, handle> value; // exposition only
template<class T> explicit basic_format_arg(T&& v) noexcept; // exposition only
explicit basic_format_arg(float n) noexcept; // exposition only
explicit basic_format_arg(double n) noexcept; // exposition only
explicit basic_format_arg(long double n) noexcept; // exposition only
explicit basic_format_arg(const char_type* s); // exposition only
template<class traits>
explicit basic_format_arg(
basic_string_view<char_type, traits> s) noexcept; // exposition only
template<class traits, class Allocator>
explicit basic_format_arg(
const basic_string<char_type, traits, Allocator>& s) noexcept; // exposition only
explicit basic_format_arg(nullptr_t) noexcept; // exposition only
template<class T>
explicit basic_format_arg(T* p) noexcept; // exposition only
…
template<class T> explicit basic_format_arg(T&&v) noexcept;-4- Constraints: T satisfies formattable-with<Context>.
The template specializationtypename Context::template formatter_type<remove_cvref_t<T>>
meets the BasicFormatter requirements (22.14.6.1 [formatter.requirements]). The extent to which an implementation determines that the specialization meets the BasicFormatter requirements is unspecified, except that as a minimum the expressiontypename Context::template formatter_type<remove_cvref_t<T>>() .format(declval<T&>(), declval<Context&>())
shall be well-formed when treated as an unevaluated operand (7.2.3 [expr.context]).-?- Preconditions: If decay_t<T> is char_type* or const char_type*, static_cast<const char_type*>(v) points to a NTCTS (3.36 [defns.ntcts]).
-5- Effects: Let TD be remove_const_t<T>.
(5.1) — If
ifTD is bool or char_type, initializes value with v;(5.2) — otherwise, if TD is char and char_type is wchar_t, initializes value with static_cast<wchar_t>(v);
(5.3) — otherwise, if TD is a signed integer type (6.8.2 [basic.fundamental]) and sizeof(TD) <= sizeof(int), initializes value with static_cast<int>(v);
(5.4) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned int), initializes value with static_cast<unsigned int>(v);
(5.5) — otherwise, if TD is a signed integer type and sizeof(TD) <= sizeof(long long int), initializes value with static_cast<long long int>(v);
(5.6) — otherwise, if TD is an unsigned integer type and sizeof(TD) <= sizeof(unsigned long long int), initializes value with static_cast<unsigned long long int>(v);
(5.?) — otherwise, if TD is a standard floating-point type, initializes value with v;
(5.?) — otherwise, if TD is a specialization of basic_string_view or basic_string and TD::value_type is char_type, initializes value with basic_string_view<char_type>(v.data(), v.size());
(5.?) — otherwise, if decay_t<TD> is char_type* or const char_type*, initializes value with static_cast<const char_type*>(v);
(5.?) — otherwise, if is_void_v<remove_pointer_t<TD>> is true or is_null_pointer_v<TD> is true, initializes value with static_cast<const void*>(v);
(5.7) — otherwise, initializes value with handle(v).
-?- [Note: Constructing basic_format_arg from a pointer to a member is ill-formed unless the user provides an enabled specialization of formatter for that pointer to member type. — end note]
explicit basic_format_arg(float n) noexcept; explicit basic_format_arg(double n) noexcept; explicit basic_format_arg(long double n) noexcept;
-6- Effects: Initializes value with n.explicit basic_format_arg(const char_type* s) noexcept;
-7- Preconditions: s points to a NTCTS (3.36 [defns.ntcts]).
-8- Effects: Initializes value with s.template<class traits>> explicit basic_format_arg(basic_string_view<char_type, traits> s) noexcept;
-9- Effects: Initializes value with basic_string_view<char_type>(s.data(), s.size()).template<class traits, class Allocator>> explicit basic_format_arg( const basic_string<char_type, traits, Allocator>& s) noexcept;
-10- Effects: Initializes value with basic_string_view<char_type>(s.data(), s.size()).explicit basic_format_arg(nullptr_t) noexcept;
-11- Effects: Initializes value with static_cast<const void*>(nullptr).template<class T> explicit basic_format_arg(T* p) noexcept;
-12- Constraints: is_void_v<T> is true.
-13- Effects: Initializes value with p.
-14- [Note: Constructing basic_format_arg from a pointer to a member is ill-formed unless the user provides an enabled specialization of formatter for that pointer to member type. — end note]
Modify 22.14.8.1 [format.arg] p17 and p18 as indicated:
template<class T> explicit handle(T&&v) noexcept;-17- Let
— (17.1) TD be remove_
cvrefconst_t<T>,
— (17.2) const-formattable be true if typename Context::template formatter_type<TD>().format(declval<const TD&>(), declval<Context&>()) is well-formed, otherwise false,— (17.3) TQ be const TD if
const-formattable is trueconst TD satisfies formattable-with<Context> and TD otherwise.-18- Mandates:
const-formattable || !is_const_v<remove_reference_t<T>> is true.TQ satisfies formattable-with<Context>.-19- Effects: Initializes ptr_ with addressof(val) and format_ with
[](basic_format_parse_context<char_type>& parse_ctx, Context& format_ctx, const void* ptr) { typename Context::template formatter_type<TD> f; parse_ctx.advance_to(f.parse(parse_ctx)); format_ctx.advance_to(f.format(*const_cast<TQ*>(static_cast<const TD*>(ptr)), format_ctx)); }
Modify 22.14.8.2 [format.arg.store] p2 as indicated:
template<class Context = format_context, class... Args> format-arg-store<Context, Args...> make_format_args(Args&&... fmt_args);-2- Preconditions: The type typename Context::template formatter_type<remove_cvref_t<Ti>> meets the BasicFormatter requirements (22.14.6.1 [formatter.requirements]) for each Ti in Args.