20 Memory management library [mem]

20.4 Memory resources [mem.res]

20.4.3 Class template polymorphic_allocator [mem.poly.allocator.class]

20.4.3.1 General [mem.poly.allocator.class.general]

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A specialization of class template pmr​::​polymorphic_allocator meets the Cpp17Allocator requirements ([allocator.requirements.general]) if its template argument is a cv-unqualified object type.
Constructed with different memory resources, different instances of the same specialization of pmr​::​polymorphic_allocator can exhibit entirely different allocation behavior.
This runtime polymorphism allows objects that use polymorphic_allocator to behave as if they used different allocator types at run time even though they use the same static allocator type.
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A specialization of class template pmr​::​polymorphic_allocator meets the allocator completeness requirements ([allocator.requirements.completeness]) if its template argument is a cv-unqualified object type.
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namespace std::pmr { template<class Tp = byte> class polymorphic_allocator { memory_resource* memory_rsrc; // exposition only public: using value_type = Tp; // [mem.poly.allocator.ctor], constructors polymorphic_allocator() noexcept; polymorphic_allocator(memory_resource* r); polymorphic_allocator(const polymorphic_allocator& other) = default; template<class U> polymorphic_allocator(const polymorphic_allocator<U>& other) noexcept; polymorphic_allocator& operator=(const polymorphic_allocator&) = delete; // [mem.poly.allocator.mem], member functions [[nodiscard]] Tp* allocate(size_t n); void deallocate(Tp* p, size_t n); [[nodiscard]] void* allocate_bytes(size_t nbytes, size_t alignment = alignof(max_align_t)); void deallocate_bytes(void* p, size_t nbytes, size_t alignment = alignof(max_align_t)); template<class T> [[nodiscard]] T* allocate_object(size_t n = 1); template<class T> void deallocate_object(T* p, size_t n = 1); template<class T, class... CtorArgs> [[nodiscard]] T* new_object(CtorArgs&&... ctor_args); template<class T> void delete_object(T* p); template<class T, class... Args> void construct(T* p, Args&&... args); polymorphic_allocator select_on_container_copy_construction() const; memory_resource* resource() const; // friends friend bool operator==(const polymorphic_allocator& a, const polymorphic_allocator& b) noexcept { return *a.resource() == *b.resource(); } }; }

20.4.3.2 Constructors [mem.poly.allocator.ctor]

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polymorphic_allocator() noexcept;
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Effects: Sets memory_rsrc to get_default_resource().
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polymorphic_allocator(memory_resource* r);
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Preconditions: r is non-null.
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Effects: Sets memory_rsrc to r.
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Throws: Nothing.
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[Note 1: 
This constructor provides an implicit conversion from memory_resource*.
— end note]
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template<class U> polymorphic_allocator(const polymorphic_allocator<U>& other) noexcept;
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Effects: Sets memory_rsrc to other.resource().

20.4.3.3 Member functions [mem.poly.allocator.mem]

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[[nodiscard]] Tp* allocate(size_t n);
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Effects: If numeric_limits<size_t>​::​max() / sizeof(Tp) < n, throws bad_array_new_length.
Otherwise equivalent to: return static_cast<Tp*>(memory_rsrc->allocate(n * sizeof(Tp), alignof(Tp)));
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void deallocate(Tp* p, size_t n);
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Preconditions: p was allocated from a memory resource x, equal to *memory_rsrc, using x.allocate(n * sizeof(Tp), alignof(Tp)).
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Effects: Equivalent to memory_rsrc->deallocate(p, n * sizeof(Tp), alignof(Tp)).
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Throws: Nothing.
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[[nodiscard]] void* allocate_bytes(size_t nbytes, size_t alignment = alignof(max_align_t));
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Effects: Equivalent to: return memory_rsrc->allocate(nbytes, alignment);
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[Note 1: 
The return type is void* (rather than, e.g., byte*) to support conversion to an arbitrary pointer type U* by static_cast<U*>, thus facilitating construction of a U object in the allocated memory.
— end note]
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void deallocate_bytes(void* p, size_t nbytes, size_t alignment = alignof(max_align_t));
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Effects: Equivalent to memory_rsrc->deallocate(p, nbytes, alignment).
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template<class T> [[nodiscard]] T* allocate_object(size_t n = 1);
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Effects: Allocates memory suitable for holding an array of n objects of type T, as follows:
  • (8.1)
    if numeric_limits<size_t>​::​max() / sizeof(T) < n, throws bad_array_new_length,
  • (8.2)
    otherwise equivalent to: return static_cast<T*>(allocate_bytes(n*sizeof(T), alignof(T)));
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[Note 2: 
T is not deduced and must therefore be provided as a template argument.
— end note]
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template<class T> void deallocate_object(T* p, size_t n = 1);
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Effects: Equivalent to deallocate_bytes(p, n*sizeof(T), alignof(T)).
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template<class T, class... CtorArgs> [[nodiscard]] T* new_object(CtorArgs&&... ctor_args);
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Effects: Allocates and constructs an object of type T, as follows.

Equivalent to: T* p = allocate_object<T>(); try { construct(p, std::forward<CtorArgs>(ctor_args)...); } catch (...) { deallocate_object(p); throw; } return p;
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[Note 3: 
T is not deduced and must therefore be provided as a template argument.
— end note]
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template<class T> void delete_object(T* p);
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Effects: Equivalent to: allocator_traits<polymorphic_allocator>::destroy(*this, p); deallocate_object(p);
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template<class T, class... Args> void construct(T* p, Args&&... args);
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Mandates: Uses-allocator construction of T with allocator *this (see [allocator.uses.construction]) and constructor arguments std​::​forward<Args>(args)... is well-formed.
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Effects: Construct a T object in the storage whose address is represented by p by uses-allocator construction with allocator *this and constructor arguments std​::​forward<Args>(args)....
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Throws: Nothing unless the constructor for T throws.
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polymorphic_allocator select_on_container_copy_construction() const;
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Returns: polymorphic_allocator().
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[Note 4: 
The memory resource is not propagated.
— end note]
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memory_resource* resource() const;
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Returns: memory_rsrc.

20.4.3.4 Equality [mem.poly.allocator.eq]

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template<class T1, class T2> bool operator==(const polymorphic_allocator<T1>& a, const polymorphic_allocator<T2>& b) noexcept;
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Returns: *a.resource() == *b.resource().