Redcraft/Redcraft.Utility/Source/Public/Templates/Optional.h

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#pragma once
#include "CoreTypes.h"
#include "Templates/Utility.h"
#include "Templates/TypeHash.h"
#include "TypeTraits/TypeTraits.h"
#include "Miscellaneous/Compare.h"
#include "Miscellaneous/AssertionMacros.h"
NAMESPACE_REDCRAFT_BEGIN
NAMESPACE_MODULE_BEGIN(Redcraft)
NAMESPACE_MODULE_BEGIN(Utility)
template <typename OptionalType> requires (CDestructible<OptionalType>)
class TOptional;
NAMESPACE_PRIVATE_BEGIN
template <typename T> struct TIsTOptional : FFalse { };
template <typename T> struct TIsTOptional<TOptional<T>> : FTrue { };
template <typename T, typename U>
concept CTOptionalAllowUnwrappable =
!(CConstructibleFrom<U, TOptional<T>& >
|| CConstructibleFrom<U, const TOptional<T>& >
|| CConstructibleFrom<U, TOptional<T>&&>
|| CConstructibleFrom<U, const TOptional<T>&&>
|| CConvertibleTo< TOptional<T>&, U>
|| CConvertibleTo<const TOptional<T>&, U>
|| CConvertibleTo< TOptional<T>&&, U>
|| CConvertibleTo<const TOptional<T>&&, U>
|| CAssignableFrom<U&, TOptional<T>& >
|| CAssignableFrom<U&, const TOptional<T>& >
|| CAssignableFrom<U&, TOptional<T>&&>
|| CAssignableFrom<U&, const TOptional<T>&&>);
NAMESPACE_PRIVATE_END
template <typename T> concept CTOptional = NAMESPACE_PRIVATE::TIsTOptional<TRemoveCV<T>>::Value;
/** The class template manages an optional contained value, i.e. a value that may or may not be present. */
template <typename OptionalType> requires (CDestructible<OptionalType>)
class TOptional
{
public:
using ValueType = OptionalType;
/** Constructs an object that does not contain a value. */
FORCEINLINE constexpr TOptional() : bIsValid(false) { }
/** Constructs an object that does not contain a value. */
FORCEINLINE constexpr TOptional(FInvalid) : TOptional() { }
/** Constructs an object with initial content an object, direct-initialized from Forward<T>(InValue). */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, T&&>)
&& (!CSameAs<TRemoveCVRef<T>, FInPlace>) && (!CSameAs<TOptional, TRemoveCVRef<T>>)
FORCEINLINE constexpr explicit (!CConvertibleTo<T&&, OptionalType>) TOptional(T&& InValue)
: TOptional(InPlace, Forward<T>(InValue))
{ }
/** Constructs an object with initial content an object, direct-non-list-initialized from Forward<Ts>(Args).... */
template <typename... Ts> requires (CConstructibleFrom<OptionalType, Ts...>)
FORCEINLINE constexpr explicit TOptional(FInPlace, Ts&&... Args)
: bIsValid(true)
{
new (&Value) OptionalType(Forward<Ts>(Args)...);
}
/** Copies content of other into a new instance. */
FORCEINLINE constexpr TOptional(const TOptional& InValue) requires (CTriviallyCopyConstructible<OptionalType>) = default;
/** Copies content of other into a new instance. */
FORCEINLINE constexpr TOptional(const TOptional& InValue) requires (CCopyConstructible<OptionalType> && !CTriviallyCopyConstructible<OptionalType>)
: bIsValid(InValue.IsValid())
{
if (InValue.IsValid()) new (&Value) OptionalType(InValue.GetValue());
}
/** Moves content of other into a new instance. */
FORCEINLINE constexpr TOptional(TOptional&& InValue) requires (CTriviallyMoveConstructible<OptionalType>) = default;
/** Moves content of other into a new instance. */
FORCEINLINE constexpr TOptional(TOptional&& InValue) requires (CMoveConstructible<OptionalType> && !CTriviallyMoveConstructible<OptionalType>)
: bIsValid(InValue.IsValid())
{
if (InValue.IsValid()) new (&Value) OptionalType(MoveTemp(InValue.GetValue()));
}
/** Converting copy constructor. */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, const T&> && NAMESPACE_PRIVATE::CTOptionalAllowUnwrappable<T, OptionalType>)
FORCEINLINE constexpr explicit (!CConvertibleTo<const T&, OptionalType>) TOptional(const TOptional<T>& InValue)
: bIsValid(InValue.IsValid())
{
if (InValue.IsValid()) new (&Value) OptionalType(InValue.GetValue());
}
/** Converting move constructor. */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, T&&> && NAMESPACE_PRIVATE::CTOptionalAllowUnwrappable<T, OptionalType>)
FORCEINLINE constexpr explicit (!CConvertibleTo<T&&, OptionalType>) TOptional(TOptional<T>&& InValue)
: bIsValid(InValue.IsValid())
{
if (InValue.IsValid()) new (&Value) OptionalType(MoveTemp(InValue.GetValue()));
}
/** Destroys the contained object, if any, as if by a call to Reset(). */
FORCEINLINE constexpr ~TOptional() requires (CTriviallyDestructible<OptionalType>) = default;
/** Destroys the contained object, if any, as if by a call to Reset(). */
FORCEINLINE constexpr ~TOptional() requires (!CTriviallyDestructible<OptionalType>)
{
Reset();
}
/** Assigns by copying the state of 'InValue'. */
FORCEINLINE constexpr TOptional& operator=(const TOptional& InValue) requires (CTriviallyCopyConstructible<OptionalType> && CTriviallyCopyAssignable<OptionalType>) = default;
/** Assigns by copying the state of 'InValue'. */
constexpr TOptional& operator=(const TOptional& InValue) requires (CCopyConstructible<OptionalType> && CCopyAssignable<OptionalType>
&& !CTriviallyCopyConstructible<OptionalType> && !CTriviallyCopyAssignable<OptionalType>)
{
if (&InValue == this) return *this;
if (!InValue.IsValid())
{
Reset();
return *this;
}
if (IsValid()) GetValue() = InValue.GetValue();
else
{
new (&Value) OptionalType(InValue.GetValue());
bIsValid = true;
}
return *this;
}
/** Assigns by moving the state of 'InValue'. */
FORCEINLINE constexpr TOptional& operator=(TOptional&& InValue) requires (CTriviallyMoveConstructible<OptionalType> && CTriviallyMoveAssignable<OptionalType>) = default;
/** Assigns by moving the state of 'InValue'. */
constexpr TOptional& operator=(TOptional&& InValue) requires (CMoveConstructible<OptionalType> && CMoveAssignable<OptionalType>
&& !CTriviallyMoveConstructible<OptionalType> && !CTriviallyMoveAssignable<OptionalType>)
{
if (&InValue == this) return *this;
if (!InValue.IsValid())
{
Reset();
return *this;
}
if (IsValid()) GetValue() = MoveTemp(InValue.GetValue());
else
{
new (&Value) OptionalType(MoveTemp(InValue.GetValue()));
bIsValid = true;
}
return *this;
}
/** Assigns by copying the state of 'InValue'. */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, const T&>
&& CAssignableFrom<OptionalType&, const T&> && NAMESPACE_PRIVATE::CTOptionalAllowUnwrappable<T, OptionalType>)
constexpr TOptional& operator=(const TOptional<T>& InValue)
{
if (!InValue.IsValid())
{
Reset();
return *this;
}
if (IsValid()) GetValue() = InValue.GetValue();
else
{
new (&Value) OptionalType(InValue.GetValue());
bIsValid = true;
}
return *this;
}
/** Assigns by moving the state of 'InValue'. */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, T&&>
&& CAssignableFrom<OptionalType&, T&&> && NAMESPACE_PRIVATE::CTOptionalAllowUnwrappable<T, OptionalType>)
constexpr TOptional& operator=(TOptional<T>&& InValue)
{
if (!InValue.IsValid())
{
Reset();
return *this;
}
if (IsValid()) GetValue() = MoveTemp(InValue.GetValue());
else
{
new (&Value) OptionalType(MoveTemp(InValue.GetValue()));
bIsValid = true;
}
return *this;
}
/** Assigns the value of 'InValue'. */
template <typename T = OptionalType> requires (CConstructibleFrom<OptionalType, T&&> && CAssignableFrom<OptionalType&, T&&>)
FORCEINLINE constexpr TOptional& operator=(T&& InValue)
{
if (IsValid()) GetValue() = Forward<T>(InValue);
else
{
new (&Value) OptionalType(Forward<T>(InValue));
bIsValid = true;
}
return *this;
}
/** Check if the two optional are equivalent. */
template <typename T = OptionalType> requires (CWeaklyEqualityComparable<OptionalType, T>)
NODISCARD friend FORCEINLINE constexpr bool operator==(const TOptional& LHS, const TOptional<T>& RHS)
{
if (LHS.IsValid() != RHS.IsValid()) return false;
if (LHS.IsValid() == false) return true;
return *LHS == *RHS;
}
/** Check the order relationship between two optional. */
template <typename T = OptionalType> requires (CSynthThreeWayComparable<OptionalType, T>)
NODISCARD friend FORCEINLINE constexpr partial_ordering operator<=>(const TOptional& LHS, const TOptional<T>& RHS)
{
if (LHS.IsValid() != RHS.IsValid()) return partial_ordering::unordered;
if (LHS.IsValid() == false) return partial_ordering::equivalent;
return SynthThreeWayCompare(*LHS, *RHS);
}
/** Check if the optional value is equivalent to 'InValue'. */
template <typename T = OptionalType> requires (!CTOptional<T>&& CWeaklyEqualityComparable<OptionalType, T>)
NODISCARD FORCEINLINE constexpr bool operator==(const T& InValue) const&
{
return IsValid() ? GetValue() == InValue : false;
}
/** Check that the optional value is in ordered relationship with 'InValue'. */
template <typename T = OptionalType> requires (!CTOptional<T>&& CSynthThreeWayComparable<OptionalType, T>)
NODISCARD FORCEINLINE constexpr partial_ordering operator<=>(const T& InValue) const&
{
return IsValid() ? SynthThreeWayCompare(GetValue(), InValue) : partial_ordering::unordered;
}
/** @return true if instance does not contain a value, otherwise false. */
NODISCARD FORCEINLINE constexpr bool operator==(FInvalid) const& { return !IsValid(); }
/**
* Changes the contained object to one constructed from the arguments.
* First destroys the current contained object (if any) by Reset(),
* then constructs an object, direct-non-list-initialized from Forward<Ts>(Args)..., as the contained object.
*
* @param Args - The arguments to be passed to the constructor of the object.
*
* @return A reference to the new object.
*/
template <typename... ArgTypes> requires (CConstructibleFrom<OptionalType, ArgTypes...>)
FORCEINLINE constexpr OptionalType& Emplace(ArgTypes&&... Args)
{
Reset();
OptionalType* Result = new (&Value) OptionalType(Forward<ArgTypes>(Args)...);
bIsValid = true;
return *Result;
}
/** @return true if instance contains a value, otherwise false. */
NODISCARD FORCEINLINE constexpr bool IsValid() const { return bIsValid; }
NODISCARD FORCEINLINE constexpr explicit operator bool() const { return bIsValid; }
/** @return The contained object. */
NODISCARD FORCEINLINE constexpr OptionalType& GetValue() & { checkf(IsValid(), TEXT("It is an error to call GetValue() on an unset TOptional. Please either check IsValid() or use Get(DefaultValue) instead.")); return *reinterpret_cast< OptionalType*>(&Value); }
NODISCARD FORCEINLINE constexpr OptionalType&& GetValue() && { checkf(IsValid(), TEXT("It is an error to call GetValue() on an unset TOptional. Please either check IsValid() or use Get(DefaultValue) instead.")); return MoveTemp(*reinterpret_cast< OptionalType*>(&Value)); }
NODISCARD FORCEINLINE constexpr const OptionalType& GetValue() const& { checkf(IsValid(), TEXT("It is an error to call GetValue() on an unset TOptional. Please either check IsValid() or use Get(DefaultValue) instead.")); return *reinterpret_cast<const OptionalType*>(&Value); }
NODISCARD FORCEINLINE constexpr const OptionalType&& GetValue() const&& { checkf(IsValid(), TEXT("It is an error to call GetValue() on an unset TOptional. Please either check IsValid() or use Get(DefaultValue) instead.")); return MoveTemp(*reinterpret_cast<const OptionalType*>(&Value)); }
/** @return The pointer to the contained object. */
NODISCARD FORCEINLINE constexpr const OptionalType* operator->() const { return &GetValue(); }
NODISCARD FORCEINLINE constexpr OptionalType* operator->() { return &GetValue(); }
/** @return The contained object. */
NODISCARD FORCEINLINE constexpr OptionalType& operator*() & { return GetValue(); }
NODISCARD FORCEINLINE constexpr OptionalType&& operator*() && { return GetValue(); }
NODISCARD FORCEINLINE constexpr const OptionalType& operator*() const& { return GetValue(); }
NODISCARD FORCEINLINE constexpr const OptionalType&& operator*() const&& { return GetValue(); }
/** @return The contained object when IsValid() returns true, 'DefaultValue' otherwise. */
NODISCARD FORCEINLINE constexpr OptionalType& Get( OptionalType& DefaultValue) & { return IsValid() ? GetValue() : DefaultValue; }
NODISCARD FORCEINLINE constexpr const OptionalType& Get(const OptionalType& DefaultValue) const& { return IsValid() ? GetValue() : DefaultValue; }
/** If not empty, destroys the contained object. */
FORCEINLINE constexpr void Reset()
{
if (bIsValid)
{
bIsValid = false;
typedef OptionalType DestructOptionalType;
((OptionalType*)&Value)->DestructOptionalType::~DestructOptionalType();
}
}
/** Overloads the GetTypeHash algorithm for TOptional. */
NODISCARD friend FORCEINLINE constexpr size_t GetTypeHash(const TOptional& A) requires (CHashable<OptionalType>)
{
if (!A.IsValid()) return 2824517378;
return GetTypeHash(A.GetValue());
}
/** Overloads the Swap algorithm for TOptional. */
friend constexpr void Swap(TOptional& A, TOptional& B) requires (CMoveConstructible<OptionalType> && CSwappable<OptionalType>)
{
if (!A.IsValid() && !B.IsValid()) return;
if (A.IsValid() && !B.IsValid())
{
B = MoveTemp(A);
A.Reset();
}
else if (!A.IsValid() && B.IsValid())
{
A = MoveTemp(B);
B.Reset();
}
else
{
Swap(A.GetValue(), B.GetValue());
}
}
private:
TAlignedStorage<sizeof(OptionalType), alignof(OptionalType)> Value;
bool bIsValid;
};
template <typename T>
TOptional(T) -> TOptional<T>;
/** Creates an optional object that does not contain a value. */
template <typename T> requires (CDestructible<T>)
NODISCARD FORCEINLINE constexpr TOptional<TDecay<T>> MakeOptional(FInvalid)
{
return TOptional<TDecay<T>>(Invalid);
}
/** Creates an optional object from value. */
template <typename T> requires (CDestructible<T> && CConstructibleFrom<T, T&&>)
NODISCARD FORCEINLINE constexpr TOptional<T> MakeOptional(T&& InValue)
{
return TOptional<T>(Forward<T>(InValue));
}
/** Creates an optional object constructed in-place from args.... */
template <typename T, typename... Ts> requires (CDestructible<T> && CConstructibleFrom<T, Ts...>)
NODISCARD FORCEINLINE constexpr TOptional<T> MakeOptional(Ts&&... Args)
{
return TOptional<T>(InPlace, Forward<T>(Args)...);
}
NAMESPACE_MODULE_END(Utility)
NAMESPACE_MODULE_END(Redcraft)
NAMESPACE_REDCRAFT_END