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ladybird/AK/Retained.h

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#pragma once
#include <AK/Assertions.h>
#include <AK/Types.h>
#ifdef __clang__
# define CONSUMABLE(initial_state) __attribute__((consumable(initial_state)))
# define CALLABLE_WHEN(...) __attribute__((callable_when(__VA_ARGS__)))
# define SET_TYPESTATE(state) __attribute__((set_typestate(state)))
# define RETURN_TYPESTATE(state) __attribute__((return_typestate(state)))
#else
# define CONSUMABLE(initial_state)
# define CALLABLE_WHEN(state)
# define SET_TYPESTATE(state)
# define RETURN_TYPESTATE(state)
#endif
namespace AK {
template<typename T>
inline void retain_if_not_null(T* ptr)
{
if (ptr)
ptr->retain();
}
template<typename T>
inline void release_if_not_null(T* ptr)
{
if (ptr)
ptr->release();
}
template<typename T>
class CONSUMABLE(unconsumed) Retained {
public:
enum AdoptTag {
Adopt
};
RETURN_TYPESTATE(unconsumed)
Retained(const T& object)
: m_ptr(const_cast<T*>(&object))
{
m_ptr->retain();
}
RETURN_TYPESTATE(unconsumed)
Retained(T& object)
: m_ptr(&object)
{
m_ptr->retain();
}
template<typename U>
RETURN_TYPESTATE(unconsumed)
Retained(U& object)
: m_ptr(&static_cast<T&>(object))
{
m_ptr->retain();
}
RETURN_TYPESTATE(unconsumed)
Retained(AdoptTag, T& object)
: m_ptr(&object)
{
}
RETURN_TYPESTATE(unconsumed)
Retained(Retained& other)
: m_ptr(&other.copy_ref().leak_ref())
{
}
RETURN_TYPESTATE(unconsumed)
Retained(Retained&& other)
: m_ptr(&other.leak_ref())
{
}
template<typename U>
RETURN_TYPESTATE(unconsumed)
Retained(Retained<U>&& other)
: m_ptr(static_cast<T*>(&other.leak_ref()))
{
}
RETURN_TYPESTATE(unconsumed)
Retained(const Retained& other)
: m_ptr(&const_cast<Retained&>(other).copy_ref().leak_ref())
{
}
template<typename U>
RETURN_TYPESTATE(unconsumed)
Retained(const Retained<U>& other)
: m_ptr(&const_cast<Retained<U>&>(other).copy_ref().leak_ref())
{
}
~Retained()
{
release_if_not_null(m_ptr);
m_ptr = nullptr;
#ifdef SANITIZE_PTRS
if constexpr (sizeof(T*) == 8)
m_ptr = (T*)(0xb0b0b0b0b0b0b0b0);
else
m_ptr = (T*)(0xb0b0b0b0);
#endif
}
CALLABLE_WHEN(unconsumed)
Retained& operator=(Retained&& other)
{
if (this != &other) {
release_if_not_null(m_ptr);
m_ptr = &other.leak_ref();
}
return *this;
}
template<typename U>
CALLABLE_WHEN(unconsumed)
Retained& operator=(Retained<U>&& other)
{
if (this != static_cast<void*>(&other)) {
release_if_not_null(m_ptr);
m_ptr = &other.leak_ref();
}
return *this;
}
CALLABLE_WHEN(unconsumed)
Retained& operator=(T& object)
{
if (m_ptr != &object)
release_if_not_null(m_ptr);
m_ptr = &object;
m_ptr->retain();
return *this;
}
CALLABLE_WHEN(unconsumed)
Retained copy_ref() const
{
return Retained(*m_ptr);
}
CALLABLE_WHEN(unconsumed)
SET_TYPESTATE(consumed)
T& leak_ref()
{
ASSERT(m_ptr);
T* leakedPtr = m_ptr;
m_ptr = nullptr;
return *leakedPtr;
}
CALLABLE_WHEN(unconsumed)
T* ptr()
{
ASSERT(m_ptr);
return m_ptr;
}
CALLABLE_WHEN(unconsumed)
const T* ptr() const
{
ASSERT(m_ptr);
return m_ptr;
}
CALLABLE_WHEN(unconsumed)
T* operator->()
{
ASSERT(m_ptr);
return m_ptr;
}
CALLABLE_WHEN(unconsumed)
const T* operator->() const
{
ASSERT(m_ptr);
return m_ptr;
}
CALLABLE_WHEN(unconsumed)
T& operator*()
{
ASSERT(m_ptr);
return *m_ptr;
}
CALLABLE_WHEN(unconsumed)
const T& operator*() const
{
ASSERT(m_ptr);
return *m_ptr;
}
CALLABLE_WHEN(unconsumed)
operator T*()
{
ASSERT(m_ptr);
return m_ptr;
}
CALLABLE_WHEN(unconsumed)
operator const T*() const
{
ASSERT(m_ptr);
return m_ptr;
}
private:
Retained() {}
T* m_ptr { nullptr };
};
template<typename T>
inline Retained<T> adopt(T& object)
{
return Retained<T>(Retained<T>::Adopt, object);
}
}
using AK::adopt;
using AK::Retained;
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