min_allocator.h
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//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef MIN_ALLOCATOR_H
#define MIN_ALLOCATOR_H
#include <cstddef>
#include <cstdlib>
#include <cstddef>
#include <cassert>
#include <climits>
#include <memory>
#include "test_macros.h"
template <class T>
class bare_allocator
{
public:
typedef T value_type;
bare_allocator() TEST_NOEXCEPT {}
template <class U>
bare_allocator(bare_allocator<U>) TEST_NOEXCEPT {}
T* allocate(std::size_t n)
{
return static_cast<T*>(::operator new(n*sizeof(T)));
}
void deallocate(T* p, std::size_t)
{
return ::operator delete(static_cast<void*>(p));
}
friend bool operator==(bare_allocator, bare_allocator) {return true;}
friend bool operator!=(bare_allocator x, bare_allocator y) {return !(x == y);}
};
template <class T>
class no_default_allocator
{
#if TEST_STD_VER >= 11
no_default_allocator() = delete;
#else
no_default_allocator();
#endif
struct construct_tag {};
explicit no_default_allocator(construct_tag) {}
public:
static no_default_allocator create() {
construct_tag tag;
return no_default_allocator(tag);
}
public:
typedef T value_type;
template <class U>
no_default_allocator(no_default_allocator<U>) TEST_NOEXCEPT {}
T* allocate(std::size_t n)
{
return static_cast<T*>(::operator new(n*sizeof(T)));
}
void deallocate(T* p, std::size_t)
{
return ::operator delete(static_cast<void*>(p));
}
friend bool operator==(no_default_allocator, no_default_allocator) {return true;}
friend bool operator!=(no_default_allocator x, no_default_allocator y) {return !(x == y);}
};
struct malloc_allocator_base {
static size_t outstanding_bytes;
static size_t alloc_count;
static size_t dealloc_count;
static bool disable_default_constructor;
static size_t outstanding_alloc() {
assert(alloc_count >= dealloc_count);
return (alloc_count - dealloc_count);
}
static void reset() {
assert(outstanding_alloc() == 0);
disable_default_constructor = false;
outstanding_bytes = 0;
alloc_count = 0;
dealloc_count = 0;
}
};
size_t malloc_allocator_base::outstanding_bytes = 0;
size_t malloc_allocator_base::alloc_count = 0;
size_t malloc_allocator_base::dealloc_count = 0;
bool malloc_allocator_base::disable_default_constructor = false;
template <class T>
class malloc_allocator : public malloc_allocator_base
{
public:
typedef T value_type;
malloc_allocator() TEST_NOEXCEPT { assert(!disable_default_constructor); }
template <class U>
malloc_allocator(malloc_allocator<U>) TEST_NOEXCEPT {}
T* allocate(std::size_t n)
{
const size_t nbytes = n*sizeof(T);
++alloc_count;
outstanding_bytes += nbytes;
return static_cast<T*>(std::malloc(nbytes));
}
void deallocate(T* p, std::size_t n)
{
const size_t nbytes = n*sizeof(T);
++dealloc_count;
outstanding_bytes -= nbytes;
std::free(static_cast<void*>(p));
}
friend bool operator==(malloc_allocator, malloc_allocator) {return true;}
friend bool operator!=(malloc_allocator x, malloc_allocator y) {return !(x == y);}
};
template <class T>
struct cpp03_allocator : bare_allocator<T>
{
typedef T value_type;
typedef value_type* pointer;
static bool construct_called;
// Returned value is not used but it's not prohibited.
pointer construct(pointer p, const value_type& val)
{
::new(p) value_type(val);
construct_called = true;
return p;
}
std::size_t max_size() const
{
return UINT_MAX / sizeof(T);
}
};
template <class T> bool cpp03_allocator<T>::construct_called = false;
template <class T>
struct cpp03_overload_allocator : bare_allocator<T>
{
typedef T value_type;
typedef value_type* pointer;
static bool construct_called;
void construct(pointer p, const value_type& val)
{
construct(p, val, std::is_class<T>());
}
void construct(pointer p, const value_type& val, std::true_type)
{
::new(p) value_type(val);
construct_called = true;
}
void construct(pointer p, const value_type& val, std::false_type)
{
::new(p) value_type(val);
construct_called = true;
}
std::size_t max_size() const
{
return UINT_MAX / sizeof(T);
}
};
template <class T> bool cpp03_overload_allocator<T>::construct_called = false;
template <class T, class = std::integral_constant<size_t, 0> > class min_pointer;
template <class T, class ID> class min_pointer<const T, ID>;
template <class ID> class min_pointer<void, ID>;
template <class ID> class min_pointer<const void, ID>;
template <class T> class min_allocator;
template <class ID>
class min_pointer<const void, ID>
{
const void* ptr_;
public:
min_pointer() TEST_NOEXCEPT = default;
min_pointer(std::nullptr_t) TEST_NOEXCEPT : ptr_(nullptr) {}
template <class T>
min_pointer(min_pointer<T, ID> p) TEST_NOEXCEPT : ptr_(p.ptr_) {}
explicit operator bool() const {return ptr_ != nullptr;}
friend bool operator==(min_pointer x, min_pointer y) {return x.ptr_ == y.ptr_;}
friend bool operator!=(min_pointer x, min_pointer y) {return !(x == y);}
template <class U, class XID> friend class min_pointer;
};
template <class ID>
class min_pointer<void, ID>
{
void* ptr_;
public:
min_pointer() TEST_NOEXCEPT = default;
min_pointer(std::nullptr_t) TEST_NOEXCEPT : ptr_(nullptr) {}
template <class T,
class = typename std::enable_if
<
!std::is_const<T>::value
>::type
>
min_pointer(min_pointer<T, ID> p) TEST_NOEXCEPT : ptr_(p.ptr_) {}
explicit operator bool() const {return ptr_ != nullptr;}
friend bool operator==(min_pointer x, min_pointer y) {return x.ptr_ == y.ptr_;}
friend bool operator!=(min_pointer x, min_pointer y) {return !(x == y);}
template <class U, class XID> friend class min_pointer;
};
template <class T, class ID>
class min_pointer
{
T* ptr_;
explicit min_pointer(T* p) TEST_NOEXCEPT : ptr_(p) {}
public:
min_pointer() TEST_NOEXCEPT = default;
min_pointer(std::nullptr_t) TEST_NOEXCEPT : ptr_(nullptr) {}
explicit min_pointer(min_pointer<void, ID> p) TEST_NOEXCEPT : ptr_(static_cast<T*>(p.ptr_)) {}
explicit operator bool() const {return ptr_ != nullptr;}
typedef std::ptrdiff_t difference_type;
typedef T& reference;
typedef T* pointer;
typedef T value_type;
typedef std::random_access_iterator_tag iterator_category;
reference operator*() const {return *ptr_;}
pointer operator->() const {return ptr_;}
min_pointer& operator++() {++ptr_; return *this;}
min_pointer operator++(int) {min_pointer tmp(*this); ++ptr_; return tmp;}
min_pointer& operator--() {--ptr_; return *this;}
min_pointer operator--(int) {min_pointer tmp(*this); --ptr_; return tmp;}
min_pointer& operator+=(difference_type n) {ptr_ += n; return *this;}
min_pointer& operator-=(difference_type n) {ptr_ -= n; return *this;}
min_pointer operator+(difference_type n) const
{
min_pointer tmp(*this);
tmp += n;
return tmp;
}
friend min_pointer operator+(difference_type n, min_pointer x)
{
return x + n;
}
min_pointer operator-(difference_type n) const
{
min_pointer tmp(*this);
tmp -= n;
return tmp;
}
friend difference_type operator-(min_pointer x, min_pointer y)
{
return x.ptr_ - y.ptr_;
}
reference operator[](difference_type n) const {return ptr_[n];}
friend bool operator< (min_pointer x, min_pointer y) {return x.ptr_ < y.ptr_;}
friend bool operator> (min_pointer x, min_pointer y) {return y < x;}
friend bool operator<=(min_pointer x, min_pointer y) {return !(y < x);}
friend bool operator>=(min_pointer x, min_pointer y) {return !(x < y);}
static min_pointer pointer_to(T& t) {return min_pointer(std::addressof(t));}
friend bool operator==(min_pointer x, min_pointer y) {return x.ptr_ == y.ptr_;}
friend bool operator!=(min_pointer x, min_pointer y) {return !(x == y);}
template <class U, class XID> friend class min_pointer;
template <class U> friend class min_allocator;
};
template <class T, class ID>
class min_pointer<const T, ID>
{
const T* ptr_;
explicit min_pointer(const T* p) : ptr_(p) {}
public:
min_pointer() TEST_NOEXCEPT = default;
min_pointer(std::nullptr_t) : ptr_(nullptr) {}
min_pointer(min_pointer<T, ID> p) : ptr_(p.ptr_) {}
explicit min_pointer(min_pointer<const void, ID> p) : ptr_(static_cast<const T*>(p.ptr_)) {}
explicit operator bool() const {return ptr_ != nullptr;}
typedef std::ptrdiff_t difference_type;
typedef const T& reference;
typedef const T* pointer;
typedef const T value_type;
typedef std::random_access_iterator_tag iterator_category;
reference operator*() const {return *ptr_;}
pointer operator->() const {return ptr_;}
min_pointer& operator++() {++ptr_; return *this;}
min_pointer operator++(int) {min_pointer tmp(*this); ++ptr_; return tmp;}
min_pointer& operator--() {--ptr_; return *this;}
min_pointer operator--(int) {min_pointer tmp(*this); --ptr_; return tmp;}
min_pointer& operator+=(difference_type n) {ptr_ += n; return *this;}
min_pointer& operator-=(difference_type n) {ptr_ -= n; return *this;}
min_pointer operator+(difference_type n) const
{
min_pointer tmp(*this);
tmp += n;
return tmp;
}
friend min_pointer operator+(difference_type n, min_pointer x)
{
return x + n;
}
min_pointer operator-(difference_type n) const
{
min_pointer tmp(*this);
tmp -= n;
return tmp;
}
friend difference_type operator-(min_pointer x, min_pointer y)
{
return x.ptr_ - y.ptr_;
}
reference operator[](difference_type n) const {return ptr_[n];}
friend bool operator< (min_pointer x, min_pointer y) {return x.ptr_ < y.ptr_;}
friend bool operator> (min_pointer x, min_pointer y) {return y < x;}
friend bool operator<=(min_pointer x, min_pointer y) {return !(y < x);}
friend bool operator>=(min_pointer x, min_pointer y) {return !(x < y);}
static min_pointer pointer_to(const T& t) {return min_pointer(std::addressof(t));}
friend bool operator==(min_pointer x, min_pointer y) {return x.ptr_ == y.ptr_;}
friend bool operator!=(min_pointer x, min_pointer y) {return !(x == y);}
template <class U, class XID> friend class min_pointer;
};
template <class T, class ID>
inline
bool
operator==(min_pointer<T, ID> x, std::nullptr_t)
{
return !static_cast<bool>(x);
}
template <class T, class ID>
inline
bool
operator==(std::nullptr_t, min_pointer<T, ID> x)
{
return !static_cast<bool>(x);
}
template <class T, class ID>
inline
bool
operator!=(min_pointer<T, ID> x, std::nullptr_t)
{
return static_cast<bool>(x);
}
template <class T, class ID>
inline
bool
operator!=(std::nullptr_t, min_pointer<T, ID> x)
{
return static_cast<bool>(x);
}
template <class T>
class min_allocator
{
public:
typedef T value_type;
typedef min_pointer<T> pointer;
min_allocator() = default;
template <class U>
min_allocator(min_allocator<U>) {}
pointer allocate(std::ptrdiff_t n)
{
return pointer(static_cast<T*>(::operator new(n*sizeof(T))));
}
void deallocate(pointer p, std::ptrdiff_t)
{
return ::operator delete(p.ptr_);
}
friend bool operator==(min_allocator, min_allocator) {return true;}
friend bool operator!=(min_allocator x, min_allocator y) {return !(x == y);}
};
template <class T>
class explicit_allocator
{
public:
typedef T value_type;
explicit_allocator() TEST_NOEXCEPT {}
template <class U>
explicit explicit_allocator(explicit_allocator<U>) TEST_NOEXCEPT {}
T* allocate(std::size_t n)
{
return static_cast<T*>(::operator new(n*sizeof(T)));
}
void deallocate(T* p, std::size_t)
{
return ::operator delete(static_cast<void*>(p));
}
friend bool operator==(explicit_allocator, explicit_allocator) {return true;}
friend bool operator!=(explicit_allocator x, explicit_allocator y) {return !(x == y);}
};
#endif // MIN_ALLOCATOR_H