22 General utilities library [utilities]

22.4 Tuples [tuple]

22.4.4 Class template tuple [tuple.tuple]

22.4.4.2 Construction [tuple.cnstr]

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In the descriptions that follow, let i be in the range [0, sizeof...(Types)) in order, be the type in Types, and be the type in a template parameter pack named UTypes, where indexing is zero-based.
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For each tuple constructor, an exception is thrown only if the construction of one of the types in Types throws an exception.
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The defaulted move and copy constructor, respectively, of tuple is a constexpr function if and only if all required element-wise initializations for move and copy, respectively, would be constexpr-suitable ([dcl.constexpr]).
The defaulted move and copy constructor of tuple<> are constexpr functions.
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If is_trivially_destructible_v<> is true for all , then the destructor of tuple is trivial.
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The default constructor of tuple<> is trivial.
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constexpr explicit(see below) tuple();
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Constraints: is_default_constructible_v<> is true for all i.
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Effects: Value-initializes each element.
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Remarks: The expression inside explicit evaluates to true if and only if is not copy-list-initializable from an empty list for at least one i.
[Note 1: 
This behavior can be implemented with a trait that checks whether a const & can be initialized with {}.
— end note]
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constexpr explicit(see below) tuple(const Types&...);
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Constraints: sizeof...(Types)  ≥ 1 and is_copy_constructible_v<> is true for all i.
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Effects: Initializes each element with the value of the corresponding parameter.
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Remarks: The expression inside explicit is equivalent to: !conjunction_v<is_convertible<const Types&, Types>...>
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template<class... UTypes> constexpr explicit(see below) tuple(UTypes&&... u);
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Let disambiguating-constraint be:
  • (12.1)
    negation<is_same<remove_cvref_t<>, tuple>> if sizeof...(Types) is 1;
  • (12.2)
    otherwise, bool_constant<!is_same_v<remove_cvref_t<>, allocator_arg_t> || is_-
    same_v<remove_cvref_t<>, allocator_arg_t>>     if sizeof...(Types) is 2 or 3;
  • (12.3)
    otherwise, true_type.
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Constraints:
  • (13.1)
    sizeof...(Types) equals sizeof...(UTypes),
  • (13.2)
    sizeof...(Types)  ≥ 1, and
  • (13.3)
    conjunction_v<disambiguating-constraint, is_constructible<Types, UTypes>...> is
    true.
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Effects: Initializes the elements in the tuple with the corresponding value in std​::​forward<UTypes>(u).
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Remarks: The expression inside explicit is equivalent to: !conjunction_v<is_convertible<UTypes, Types>...>
This constructor is defined as deleted if (reference_constructs_from_temporary_v<Types, UTypes&&> || ...) is true.
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tuple(const tuple& u) = default;
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Mandates: is_copy_constructible_v<> is true for all i.
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Effects: Initializes each element of *this with the corresponding element of u.
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tuple(tuple&& u) = default;
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Constraints: is_move_constructible_v<> is true for all i.
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Effects: For all i, initializes the element of *this with std​::​forward<>(get<i>(u)).
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template<class... UTypes> constexpr explicit(see below) tuple(tuple<UTypes...>& u); template<class... UTypes> constexpr explicit(see below) tuple(const tuple<UTypes...>& u); template<class... UTypes> constexpr explicit(see below) tuple(tuple<UTypes...>&& u); template<class... UTypes> constexpr explicit(see below) tuple(const tuple<UTypes...>&& u);
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Let I be the pack 0, 1, ..., (sizeof...(Types) - 1).

Let FWD(u) be static_cast<decltype(u)>(u).
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Constraints:
  • (21.1)
    sizeof...(Types) equals sizeof...(UTypes), and
  • (21.2)
    (is_constructible_v<Types, decltype(get<I>(FWD(u)))> && ...) is true, and
  • (21.3)
    either sizeof...(Types) is not 1, or (when Types... expands to T and UTypes... expands to U) is_convertible_v<decltype(u), T>, is_constructible_v<T, decltype(u)>, and is_same_v<T, U> are all false.
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Effects: For all i, initializes the element of *this with get<i>(FWD(u)).
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Remarks: The expression inside explicit is equivalent to: !(is_convertible_v<decltype(get<I>(FWD(u))), Types> && ...)
The constructor is defined as deleted if (reference_constructs_from_temporary_v<Types, decltype(get<I>(FWD(u)))> || ...) is true.
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template<class U1, class U2> constexpr explicit(see below) tuple(pair<U1, U2>& u); template<class U1, class U2> constexpr explicit(see below) tuple(const pair<U1, U2>& u); template<class U1, class U2> constexpr explicit(see below) tuple(pair<U1, U2>&& u); template<class U1, class U2> constexpr explicit(see below) tuple(const pair<U1, U2>&& u);
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Let FWD(u) be static_cast<decltype(u)>(u).
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Constraints:
  • (25.1)
    sizeof...(Types) is 2,
  • (25.2)
    is_constructible_v<, decltype(get<0>(FWD(u)))> is true, and
  • (25.3)
    is_constructible_v<, decltype(get<1>(FWD(u)))> is true.
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Effects: Initializes the first element with get<0>(FWD(u)) and the second element with get<1>(FWD(​u)).
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Remarks: The expression inside explicit is equivalent to: !is_convertible_v<decltype(get<0>(FWD(u))), > || !is_convertible_v<decltype(get<1>(FWD(u))), >
The constructor is defined as deleted if reference_constructs_from_temporary_v<, decltype(get<0>(FWD(u)))> || reference_constructs_from_temporary_v<, decltype(get<1>(FWD(u)))> is true.
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template<tuple-like UTuple> constexpr explicit(see below) tuple(UTuple&& u);
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Let I be the pack 0, 1, …, (sizeof...(Types) - 1).
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Constraints:
  • (29.1)
    different-from<UTuple, tuple> ([range.utility.helpers]) is true,
  • (29.2)
    remove_cvref_t<UTuple> is not a specialization of ranges​::​subrange,
  • (29.3)
    sizeof...(Types) equals tuple_size_v<remove_cvref_t<UTuple>>,
  • (29.4)
    (is_constructible_v<Types, decltype(get<I>(std​::​forward<UTuple>(u)))> && ...) is
    true, and
  • (29.5)
    either sizeof...(Types) is not 1, or (when Types... expands to T) is_convertible_v<UTuple, T> and is_constructible_v<T, UTuple> are both false.
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Effects: For all i, initializes the element of *this with get<i>(std​::​forward<UTuple>(u)).
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Remarks: The expression inside explicit is equivalent to: !(is_convertible_v<decltype(get<I>(std::forward<UTuple>(u))), Types> && ...)
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template<class Alloc> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a); template<class Alloc> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, const Types&...); template<class Alloc, class... UTypes> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, UTypes&&...); template<class Alloc> constexpr tuple(allocator_arg_t, const Alloc& a, const tuple&); template<class Alloc> constexpr tuple(allocator_arg_t, const Alloc& a, tuple&&); template<class Alloc, class... UTypes> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, tuple<UTypes...>&); template<class Alloc, class... UTypes> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, const tuple<UTypes...>&); template<class Alloc, class... UTypes> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, tuple<UTypes...>&&); template<class Alloc, class... UTypes> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, const tuple<UTypes...>&&); template<class Alloc, class U1, class U2> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, pair<U1, U2>&); template<class Alloc, class U1, class U2> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, const pair<U1, U2>&); template<class Alloc, class U1, class U2> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, pair<U1, U2>&&); template<class Alloc, class U1, class U2> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, const pair<U1, U2>&&); template<class Alloc, tuple-like UTuple> constexpr explicit(see below) tuple(allocator_arg_t, const Alloc& a, UTuple&&);
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Preconditions: Alloc meets the Cpp17Allocator requirements ([allocator.requirements.general]).
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Effects: Equivalent to the preceding constructors except that each element is constructed with uses-allocator construction.