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feat(templates): add initializer_list overloads to the in place constructor and emplace

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This commit is contained in:
_Redstone_c_ 2022-12-31 19:19:30 +08:00
parent b0e7c01f13
commit 38ec8f6571
5 changed files with 219 additions and 28 deletions
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40
Redcraft.Utility/Source/Private/Testing/TemplatesTesting.cpp
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@ -173,6 +173,13 @@ void TestOptional()
always_check(TempB <= TempC); always_check(TempB <= TempC);
always_check(TempA <=> TempB == partial_ordering::unordered); always_check(TempA <=> TempB == partial_ordering::unordered);
} }
{
struct FTest { FTest(initializer_list<int32>, int32) { } };
TOptional<FTest> Temp(InPlace, { 0, 1, 2 }, 3);
Temp.Emplace({ 0, 1, 2 }, 3);
}
} }
void TestVariant() void TestVariant()
@ -186,8 +193,8 @@ void TestVariant()
// TVariant<int32> TempF(0.0); // TVariant<int32> TempF(0.0);
TVariant<int32> TempG(TempA); TVariant<int32> TempG(TempA);
TVariant<int32> TempH(TempD); TVariant<int32> TempH(TempD);
TVariant<int32> TempI(TVariant<int32>(0)); TVariant<int32> TempI = TVariant<int32>(0);
TVariant<int32> TempJ(TVariant<int32>(Invalid)); TVariant<int32> TempJ = TVariant<int32>(Invalid);
TVariant<int32> TempK, TempL, TempM, TempN; TVariant<int32> TempK, TempL, TempM, TempN;
TempK = TempA; TempK = TempA;
@ -423,6 +430,16 @@ void TestVariant()
always_check(TempD >= TempC); always_check(TempD >= TempC);
always_check(TempA <=> TempB == partial_ordering::unordered); always_check(TempA <=> TempB == partial_ordering::unordered);
} }
{
struct FTest { FTest(initializer_list<int32>, int32) { } };
TVariant<FTest> TempA(InPlaceIndex<0>, { 0, 1, 2 }, 3);
TempA.Emplace<0>({ 0, 1, 2 }, 3);
TVariant<FTest> TempB(InPlaceType<FTest>, { 0, 1, 2 }, 3);
TempB.Emplace<FTest>({ 0, 1, 2 }, 3);
}
} }
void TestAny() void TestAny()
@ -630,6 +647,12 @@ void TestAny()
TempZ = FTracker(); TempZ = FTracker();
} }
{
struct FTest { FTest(initializer_list<int32>, int32) { } };
FAny Temp(InPlaceType<FTest>, { 0, 1, 2 }, 3);
Temp.Emplace<FTest>({ 0, 1, 2 }, 3);
}
} }
void TestTuple() void TestTuple()
@ -1235,6 +1258,19 @@ void TestFunction()
always_check(NotIdentity(false)); always_check(NotIdentity(false));
} }
{
struct FTest
{
FTest(initializer_list<int32>, int32) { }
void operator()() { }
};
TFunction<void()> TempA(InPlaceType<FTest>, { 0, 1, 2 }, 3);
TempA.Emplace<FTest>({ 0, 1, 2 }, 3);
TUniqueFunction<void()> TempB(InPlaceType<FTest>, { 0, 1, 2 }, 3);
TempB.Emplace<FTest>({ 0, 1, 2 }, 3);
}
} }
void TestAtomic() void TestAtomic()

26
Redcraft.Utility/Source/Public/Templates/Any.h
View File

@ -106,6 +106,13 @@ public:
{ {
EmplaceImpl<T>(Forward<Ts>(Args)...); EmplaceImpl<T>(Forward<Ts>(Args)...);
} }
/** Constructs an object with initial content an object of type TDecay<T>, direct-non-list-initialized from IL, Forward<Ts>(Args).... */
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::CFAnyPlaceable<T> && CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts&&...>)
FORCEINLINE explicit FAny(TInPlaceType<T>, initializer_list<U> IL, Ts&&... Args)
{
EmplaceImpl<T>(IL, Forward<Ts>(Args)...);
}
/** Destroys the contained object, if any, as if by a call to Reset(). */ /** Destroys the contained object, if any, as if by a call to Reset(). */
FORCEINLINE ~FAny() FORCEINLINE ~FAny()
@ -275,7 +282,7 @@ public:
* First destroys the current contained object (if any) by Reset(), then constructs an object of type * First destroys the current contained object (if any) by Reset(), then constructs an object of type
* TDecay<T>, direct-non-list-initialized from Forward<Ts>(Args)..., as the contained object. * TDecay<T>, direct-non-list-initialized from Forward<Ts>(Args)..., as the contained object.
* *
* @param Args - The arguments to be passed to the constructor of the contained object. * @param Args - The arguments to be passed to the constructor of the contained object.
* *
* @return A reference to the new contained object. * @return A reference to the new contained object.
*/ */
@ -287,6 +294,23 @@ public:
return GetValue<TDecay<T>>(); return GetValue<TDecay<T>>();
} }
/**
* Changes the contained object to one of type TDecay<T> constructed from the arguments.
* First destroys the current contained object (if any) by Reset(), then constructs an object of type
* TDecay<T>, direct-non-list-initialized from IL, Forward<Ts>(Args)..., as the contained object.
*
* @param IL, Args - The arguments to be passed to the constructor of the contained object.
*
* @return A reference to the new contained object.
*/
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::CFAnyPlaceable<T> && CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts&&...>)
FORCEINLINE TDecay<T>& Emplace(initializer_list<U> IL, Ts&&... Args)
{
Destroy();
EmplaceImpl<T>(IL, Forward<Ts>(Args)...);
return GetValue<TDecay<T>>();
}
/** @return The typeid of the contained value if instance is non-empty, otherwise typeid(void). */ /** @return The typeid of the contained value if instance is non-empty, otherwise typeid(void). */
NODISCARD FORCEINLINE constexpr const type_info& GetTypeInfo() const { return IsValid() ? GetTypeInfoImpl() : typeid(void); } NODISCARD FORCEINLINE constexpr const type_info& GetTypeInfo() const { return IsValid() ? GetTypeInfoImpl() : typeid(void); }

99
Redcraft.Utility/Source/Public/Templates/Function.h
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@ -506,8 +506,8 @@ protected:
FORCEINLINE constexpr void Invalidate() { Storage.Invalidate(); } FORCEINLINE constexpr void Invalidate() { Storage.Invalidate(); }
// Make sure you call this function after you have destroyed the held object using Destroy(). // Make sure you call this function after you have destroyed the held object using Destroy().
template <typename T, typename... ArgTypes> template <typename T, typename... Us>
FORCEINLINE constexpr TDecay<T>& Emplace(ArgTypes&&... Args) FORCEINLINE constexpr TDecay<T>& Emplace(Us&&... Args)
{ {
using DecayedType = TDecay<T>; using DecayedType = TDecay<T>;
@ -525,7 +525,7 @@ protected:
Storage.template Emplace<DecayedType>( Storage.template Emplace<DecayedType>(
reinterpret_cast<uintptr>(Callable), reinterpret_cast<uintptr>(Callable),
Forward<ArgTypes>(Args)... Forward<Us>(Args)...
); );
return *reinterpret_cast<DecayedType*>(Storage.GetValuePtr()); return *reinterpret_cast<DecayedType*>(Storage.GetValuePtr());
@ -641,12 +641,24 @@ public:
* Constructs an TFunction with initial content an function object of type TDecay<T>, * Constructs an TFunction with initial content an function object of type TDecay<T>,
* direct-non-list-initialized from Forward<Ts>(Args).... * direct-non-list-initialized from Forward<Ts>(Args)....
*/ */
template <typename T, typename... ArgTypes> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value template <typename T, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, ArgTypes...> && CCopyConstructible<TDecay<T>> && CConstructibleFrom<TDecay<T>, Ts...> && CCopyConstructible<TDecay<T>>
&& CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>) && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE explicit TFunction(TInPlaceType<T>, ArgTypes&&... Args) FORCEINLINE explicit TFunction(TInPlaceType<T>, Ts&&... Args)
{ {
Impl::template Emplace<T>(Forward<ArgTypes>(Args)...); Impl::template Emplace<T>(Forward<Ts>(Args)...);
}
/**
* Constructs an TFunction with initial content an function object of type TDecay<T>,
* direct-non-list-initialized from IL, Forward<Ts>(Args)....
*/
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts...> && CCopyConstructible<TDecay<T>>
&& CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE explicit TFunction(TInPlaceType<T>, initializer_list<U> IL, Ts&&... Args)
{
Impl::template Emplace<T>(IL, Forward<Ts>(Args)...);
} }
/** Removes any bound callable from the TFunction, restoring it to the default empty state. */ /** Removes any bound callable from the TFunction, restoring it to the default empty state. */
@ -670,17 +682,35 @@ public:
* First destroys the current function object (if any) by Reset(), then constructs an object of type * First destroys the current function object (if any) by Reset(), then constructs an object of type
* TDecay<T>, direct-non-list-initialized from Forward<Ts>(Args)..., as the function object. * TDecay<T>, direct-non-list-initialized from Forward<Ts>(Args)..., as the function object.
* *
* @param Args - The arguments to be passed to the constructor of the function object. * @param Args - The arguments to be passed to the constructor of the function object.
* *
* @return A reference to the new function object. * @return A reference to the new function object.
*/ */
template <typename T, typename... ArgTypes> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value template <typename T, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, ArgTypes...> && CCopyConstructible<TDecay<T>> && CConstructibleFrom<TDecay<T>, Ts...> && CCopyConstructible<TDecay<T>>
&& CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>) && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE TDecay<T>& Emplace(ArgTypes&&... Args) FORCEINLINE TDecay<T>& Emplace(Ts&&... Args)
{ {
Impl::Destroy(); Impl::Destroy();
return Impl::template Emplace<T>(Forward<ArgTypes>(Args)...); return Impl::template Emplace<T>(Forward<Ts>(Args)...);
}
/**
* Changes the function object to one of type TDecay<T> constructed from the arguments.
* First destroys the current function object (if any) by Reset(), then constructs an object of type
* TDecay<T>, direct-non-list-initialized from IL, Forward<Ts>(Args)..., as the function object.
*
* @param IL, Args - The arguments to be passed to the constructor of the function object.
*
* @return A reference to the new function object.
*/
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts...> && CCopyConstructible<TDecay<T>>
&& CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE TDecay<T>& Emplace(initializer_list<U> IL, Ts&&... Args)
{
Impl::Destroy();
return Impl::template Emplace<T>(IL, Forward<Ts>(Args)...);
} }
/** Removes any bound callable from the TFunction, restoring it to the default empty state. */ /** Removes any bound callable from the TFunction, restoring it to the default empty state. */
@ -765,11 +795,22 @@ public:
* Constructs an TUniqueFunction with initial content an function object of type TDecay<T>, * Constructs an TUniqueFunction with initial content an function object of type TDecay<T>,
* direct-non-list-initialized from Forward<Ts>(Args).... * direct-non-list-initialized from Forward<Ts>(Args)....
*/ */
template <typename T, typename... ArgTypes> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value template <typename T, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, ArgTypes...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>) && CConstructibleFrom<TDecay<T>, Ts...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE explicit TUniqueFunction(TInPlaceType<T>, ArgTypes&&... Args) FORCEINLINE explicit TUniqueFunction(TInPlaceType<T>, Ts&&... Args)
{ {
Impl::template Emplace<T>(Forward<ArgTypes>(Args)...); Impl::template Emplace<T>(Forward<Ts>(Args)...);
}
/**
* Constructs an TUniqueFunction with initial content an function object of type TDecay<T>,
* direct-non-list-initialized from IL, Forward<Ts>(Args)....
*/
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE explicit TUniqueFunction(TInPlaceType<T>, initializer_list<U> IL, Ts&&... Args)
{
Impl::template Emplace<T>(IL, Forward<Ts>(Args)...);
} }
/** Removes any bound callable from the TUniqueFunction, restoring it to the default empty state. */ /** Removes any bound callable from the TUniqueFunction, restoring it to the default empty state. */
@ -795,13 +836,31 @@ public:
* *
* @return A reference to the new function object. * @return A reference to the new function object.
*/ */
template <typename T, typename... ArgTypes> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value template <typename T, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, ArgTypes...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>) && CConstructibleFrom<TDecay<T>, Ts...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE TDecay<T>& Emplace(ArgTypes&&... Args) FORCEINLINE TDecay<T>& Emplace(Ts&&... Args)
{ {
Impl::Destroy(); Impl::Destroy();
using DecayedType = TDecay<T>; using DecayedType = TDecay<T>;
return Impl::template Emplace<T>(Forward<ArgTypes>(Args)...); return Impl::template Emplace<T>(Forward<Ts>(Args)...);
}
/**
* Changes the function object to one of type TDecay<T> constructed from the arguments.
* First destroys the current function object (if any) by Reset(), then constructs an object of type
* TDecay<T>, direct-non-list-initialized from IL, Forward<Ts>(Args)..., as the function object.
*
* @param IL, Args - The arguments to be passed to the constructor of the function object.
*
* @return A reference to the new function object.
*/
template <typename T, typename U, typename... Ts> requires (NAMESPACE_PRIVATE::TIsInvocableSignature<F, TDecay<T>>::Value
&& CConstructibleFrom<TDecay<T>, initializer_list<U>, Ts...> && CMoveConstructible<TDecay<T>> && CDestructible<TDecay<T>>)
FORCEINLINE TDecay<T>& Emplace(initializer_list<U> IL, Ts&&... Args)
{
Impl::Destroy();
using DecayedType = TDecay<T>;
return Impl::template Emplace<T>(IL, Forward<Ts>(Args)...);
} }
/** Removes any bound callable from the TUniqueFunction, restoring it to the default empty state. */ /** Removes any bound callable from the TUniqueFunction, restoring it to the default empty state. */

36
Redcraft.Utility/Source/Public/Templates/Optional.h
View File

@ -66,6 +66,14 @@ public:
{ {
new (&Value) OptionalType(Forward<Ts>(Args)...); new (&Value) OptionalType(Forward<Ts>(Args)...);
} }
/** Constructs an object with initial content an object, direct-non-list-initialized from IL, Forward<Ts>(Args).... */
template <typename U, typename... Ts> requires (CConstructibleFrom<OptionalType, initializer_list<U>, Ts...>)
FORCEINLINE constexpr explicit TOptional(FInPlace, initializer_list<U> IL, Ts&&... Args)
: bIsValid(true)
{
new (&Value) OptionalType(IL, Forward<Ts>(Args)...);
}
/** Copies content of other into a new instance. */ /** Copies content of other into a new instance. */
FORCEINLINE constexpr TOptional(const TOptional& InValue) requires (CTriviallyCopyConstructible<OptionalType>) = default; FORCEINLINE constexpr TOptional(const TOptional& InValue) requires (CTriviallyCopyConstructible<OptionalType>) = default;
@ -258,16 +266,36 @@ public:
* First destroys the current contained object (if any) by Reset(), * 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. * 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. * @param Args - The arguments to be passed to the constructor of the object.
* *
* @return A reference to the new object. * @return A reference to the new object.
*/ */
template <typename... ArgTypes> requires (CConstructibleFrom<OptionalType, ArgTypes...>) template <typename... Ts> requires (CConstructibleFrom<OptionalType, Ts...>)
FORCEINLINE constexpr OptionalType& Emplace(ArgTypes&&... Args) FORCEINLINE constexpr OptionalType& Emplace(Ts&&... Args)
{ {
Reset(); Reset();
OptionalType* Result = new (&Value) OptionalType(Forward<ArgTypes>(Args)...); OptionalType* Result = new (&Value) OptionalType(Forward<Ts>(Args)...);
bIsValid = true;
return *Result;
}
/**
* 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 IL, Forward<Ts>(Args)..., as the contained object.
*
* @param IL, Args - The arguments to be passed to the constructor of the object.
*
* @return A reference to the new object.
*/
template <typename U, typename... Ts> requires (CConstructibleFrom<OptionalType, initializer_list<U>, Ts...>)
FORCEINLINE constexpr OptionalType& Emplace(initializer_list<U> IL, Ts&&... Args)
{
Reset();
OptionalType* Result = new (&Value) OptionalType(IL, Forward<Ts>(Args)...);
bIsValid = true; bIsValid = true;
return *Result; return *Result;

46
Redcraft.Utility/Source/Public/Templates/Variant.h
View File

@ -142,6 +142,22 @@ public:
using SelectedType = TVariantAlternative<I, TVariant<Ts...>>; using SelectedType = TVariantAlternative<I, TVariant<Ts...>>;
new (&Value) SelectedType(Forward<Us>(Args)...); new (&Value) SelectedType(Forward<Us>(Args)...);
} }
/** Constructs a variant with the specified alternative T and initializes the contained value with the arguments IL, Forward<Us>(Args).... */
template <typename T, typename U, typename... Us> requires (CConstructibleFrom<T, initializer_list<U>, Us...>)
FORCEINLINE constexpr explicit TVariant(TInPlaceType<T>, initializer_list<U> IL, Us&&... Args)
: TVariant(InPlaceIndex<TVariantIndex<T, TVariant<Ts...>>>, IL, Forward<Us>(Args)...)
{ }
/** Constructs a variant with the alternative T specified by the index I and initializes the contained value with the arguments IL, Forward<Us>(Args).... */
template <size_t I, typename T, typename... Us> requires (I < sizeof...(Ts)
&& CConstructibleFrom<TVariantAlternative<I, TVariant<Ts...>>, initializer_list<T>, Us...>)
FORCEINLINE constexpr explicit TVariant(TInPlaceIndex<I>, initializer_list<T> IL, Us&&... Args)
: TypeIndex(I)
{
using SelectedType = TVariantAlternative<I, TVariant<Ts...>>;
new (&Value) SelectedType(IL, Forward<Us>(Args)...);
}
/** Destroys the contained object, if any, as if by a call to Reset(). */ /** Destroys the contained object, if any, as if by a call to Reset(). */
FORCEINLINE constexpr ~TVariant() requires (true && ... && CTriviallyDestructible<Ts>) = default; FORCEINLINE constexpr ~TVariant() requires (true && ... && CTriviallyDestructible<Ts>) = default;
@ -273,7 +289,7 @@ public:
* First, destroys the currently contained value if any. * First, destroys the currently contained value if any.
* Then direct-initializes the contained value as if constructing a value of type T with the arguments Forward<Us>(Args).... * Then direct-initializes the contained value as if constructing a value of type T with the arguments Forward<Us>(Args)....
* *
* @param Args - The arguments to be passed to the constructor of the contained object. * @param Args - The arguments to be passed to the constructor of the contained object.
* *
* @return A reference to the new contained object. * @return A reference to the new contained object.
*/ */
@ -289,6 +305,34 @@ public:
return *Result; return *Result;
} }
/** Equivalent to Emplace<I>(IL, Forward<Us>(Args)...), where I is the zero-based index of T in Types.... */
template <typename T, typename U, typename... Us> requires (CConstructibleFrom<T, initializer_list<U>, Us...>)
FORCEINLINE constexpr T& Emplace(initializer_list<U> IL, Us&&... Args)
{
return Emplace<TVariantIndex<T, TVariant<Ts...>>>(IL, Forward<Us>(Args)...);
}
/**
* First, destroys the currently contained value if any.
* Then direct-initializes the contained value as if constructing a value of type T with the arguments IL, Forward<Us>(Args)....
*
* @param IL, Args - The arguments to be passed to the constructor of the contained object.
*
* @return A reference to the new contained object.
*/
template <size_t I, typename T, typename... Us> requires (I < sizeof...(Ts)
&& CConstructibleFrom<TVariantAlternative<I, TVariant<Ts...>>, initializer_list<T>, Us...>)
FORCEINLINE constexpr TVariantAlternative<I, TVariant<Ts...>>& Emplace(initializer_list<T> IL, Us&&... Args)
{
Reset();
using SelectedType = TVariantAlternative<I, TVariant<Ts...>>;
SelectedType* Result = new (&Value) SelectedType(IL, Forward<Us>(Args)...);
TypeIndex = I;
return *Result;
}
/** @return The typeid of the contained value if instance is non-empty, otherwise typeid(void). */ /** @return The typeid of the contained value if instance is non-empty, otherwise typeid(void). */
NODISCARD FORCEINLINE constexpr const type_info& GetTypeInfo() const { return IsValid() ? *TypeInfos[GetIndex()] : typeid(void); } NODISCARD FORCEINLINE constexpr const type_info& GetTypeInfo() const { return IsValid() ? *TypeInfos[GetIndex()] : typeid(void); }