Atmosphere/libraries/libvapours/include/vapours/util/util_parent_of_member.hpp

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/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "../defines.hpp"
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#include "util_typed_storage.hpp"
namespace ams::util {
namespace impl {
template<size_t MaxDepth>
struct OffsetOfUnionHolder {
template<typename ParentType, typename MemberType, size_t Offset>
union UnionImpl {
using PaddingMember = std::array<char, alignof(ParentType)>;
static constexpr size_t GetOffset() { return Offset; }
struct {
PaddingMember padding[Offset];
MemberType members[(sizeof(ParentType) / sizeof(MemberType)) + 1];
} data;
UnionImpl<ParentType, MemberType, Offset + 1> next_union;
};
template<typename ParentType, typename MemberType>
union UnionImpl<ParentType, MemberType, 0> {
static constexpr size_t GetOffset() { return 0; }
struct {
MemberType members[(sizeof(ParentType) / sizeof(MemberType)) + 1];
} data;
UnionImpl<ParentType, MemberType, 1> next_union;
};
template<typename ParentType, typename MemberType>
union UnionImpl<ParentType, MemberType, MaxDepth> { /* Empty */ };
};
template<typename ParentType, typename MemberType>
struct OffsetOfCalculator {
using UnionHolder = typename OffsetOfUnionHolder<sizeof(MemberType) / alignof(MemberType) + 1>::template UnionImpl<ParentType, MemberType, 0>;
union Union {
char c;
UnionHolder first_union;
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TYPED_STORAGE(ParentType) parent;
/* This coerces the active member to be c. */
constexpr Union() : c() { /* ... */ }
};
static constexpr Union U = {};
static constexpr const MemberType *GetNextAddress(const MemberType *start, const MemberType *target) {
while (start < target) {
start++;
}
return start;
}
static constexpr std::ptrdiff_t GetDifference(const MemberType *start, const MemberType *target) {
return (target - start) * sizeof(MemberType);
}
template<typename CurUnion>
static constexpr std::ptrdiff_t OffsetOfImpl(MemberType ParentType::*member, CurUnion &cur_union) {
constexpr size_t Offset = CurUnion::GetOffset();
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const auto target = std::addressof(GetPointer(U.parent)->*member);
const auto start = std::addressof(cur_union.data.members[0]);
const auto next = GetNextAddress(start, target);
if (next != target) {
if constexpr (Offset < sizeof(MemberType) / alignof(MemberType)) {
return OffsetOfImpl(member, cur_union.next_union);
} else {
std::abort();
}
}
return (next - start) * sizeof(MemberType) + Offset * alignof(MemberType);
}
static constexpr std::ptrdiff_t OffsetOf(MemberType ParentType::*member) {
return OffsetOfImpl(member, U.first_union);
}
};
template<typename T>
struct GetMemberPointerTraits;
template<typename P, typename M>
struct GetMemberPointerTraits<M P::*> {
using Parent = P;
using Member = M;
};
template<auto MemberPtr>
using GetParentType = typename GetMemberPointerTraits<decltype(MemberPtr)>::Parent;
template<auto MemberPtr>
using GetMemberType = typename GetMemberPointerTraits<decltype(MemberPtr)>::Member;
template<auto MemberPtr, typename RealParentType = GetParentType<MemberPtr>>
constexpr inline std::ptrdiff_t OffsetOf = [] {
using DeducedParentType = GetParentType<MemberPtr>;
using MemberType = GetMemberType<MemberPtr>;
static_assert(std::is_base_of<DeducedParentType, RealParentType>::value || std::is_same<RealParentType, DeducedParentType>::value);
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static_assert(std::is_literal_type<MemberType>::value);
return OffsetOfCalculator<RealParentType, MemberType>::OffsetOf(MemberPtr);
}();
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType &GetParentReference(impl::GetMemberType<MemberPtr> *member) {
constexpr std::ptrdiff_t Offset = impl::OffsetOf<MemberPtr, RealParentType>;
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return *static_cast<RealParentType *>(static_cast<void *>(static_cast<uint8_t *>(static_cast<void *>(member)) - Offset));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType const &GetParentReference(impl::GetMemberType<MemberPtr> const *member) {
constexpr std::ptrdiff_t Offset = impl::OffsetOf<MemberPtr, RealParentType>;
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return *static_cast<const RealParentType *>(static_cast<const void *>(static_cast<const uint8_t *>(static_cast<const void *>(member)) - Offset));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType *GetParentPointer(impl::GetMemberType<MemberPtr> *member) {
return std::addressof(GetParentReference<MemberPtr, RealParentType>(member));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType const *GetParentPointer(impl::GetMemberType<MemberPtr> const *member) {
return std::addressof(GetParentReference<MemberPtr, RealParentType>(member));
}
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template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType &GetParentReference(impl::GetMemberType<MemberPtr> &member) {
return GetParentReference<MemberPtr, RealParentType>(std::addressof(member));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType const &GetParentReference(impl::GetMemberType<MemberPtr> const &member) {
return GetParentReference<MemberPtr, RealParentType>(std::addressof(member));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType *GetParentPointer(impl::GetMemberType<MemberPtr> &member) {
return std::addressof(GetParentReference<MemberPtr, RealParentType>(member));
}
template<auto MemberPtr, typename RealParentType = impl::GetParentType<MemberPtr>>
constexpr ALWAYS_INLINE RealParentType const *GetParentPointer(impl::GetMemberType<MemberPtr> const &member) {
return std::addressof(GetParentReference<MemberPtr, RealParentType>(member));
}
/* Defines, for use by other code. */
#define OFFSETOF(parent, member) (::ams::util::impl::OffsetOf<&parent::member, parent>)
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#define GET_PARENT_PTR(parent, member, _arg) (::ams::util::GetParentPointer<&parent::member, parent>(_arg))
#define GET_PARENT_REF(parent, member, _arg) (::ams::util::GetParentReference<&parent::member, parent>(_arg))
namespace test {
struct Struct1 {
uint32_t a;
};
struct Struct2 {
uint32_t b;
};
struct Struct3 : public Struct1, Struct2 {
uint32_t c;
};
static_assert(impl::OffsetOf<&Struct1::a> == 0);
static_assert(impl::OffsetOf<&Struct2::b> == 0);
static_assert(impl::OffsetOf<&Struct3::a> == 0);
static_assert(impl::OffsetOf<&Struct3::b> == 0);
static_assert(impl::OffsetOf<&Struct3::a, Struct3> == 0 || impl::OffsetOf<&Struct3::b, Struct3> == 0);
static_assert(impl::OffsetOf<&Struct3::a, Struct3> == sizeof(Struct2) || impl::OffsetOf<&Struct3::b, Struct3> == sizeof(Struct1));
static_assert(impl::OffsetOf<&Struct3::c> == sizeof(Struct1) + sizeof(Struct2));
constexpr Struct3 TestStruct3 = {};
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static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, a, TestStruct3.a));
static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, a, std::addressof(TestStruct3.a)));
static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, b, TestStruct3.b));
static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, b, std::addressof(TestStruct3.b)));
static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, c, TestStruct3.c));
static_assert(std::addressof(TestStruct3) == GET_PARENT_PTR(Struct3, c, std::addressof(TestStruct3.c)));
struct CharArray {
char c0;
char c1;
char c2;
char c3;
char c4;
char c5;
char c6;
char c7;
};
static_assert(impl::OffsetOf<&CharArray::c0> == 0);
static_assert(impl::OffsetOf<&CharArray::c1> == 1);
static_assert(impl::OffsetOf<&CharArray::c2> == 2);
static_assert(impl::OffsetOf<&CharArray::c3> == 3);
static_assert(impl::OffsetOf<&CharArray::c4> == 4);
static_assert(impl::OffsetOf<&CharArray::c5> == 5);
static_assert(impl::OffsetOf<&CharArray::c6> == 6);
static_assert(impl::OffsetOf<&CharArray::c7> == 7);
constexpr CharArray TestCharArray = {};
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static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c0, TestCharArray.c0));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c0, std::addressof(TestCharArray.c0)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c1, TestCharArray.c1));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c1, std::addressof(TestCharArray.c1)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c2, TestCharArray.c2));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c2, std::addressof(TestCharArray.c2)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c3, TestCharArray.c3));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c3, std::addressof(TestCharArray.c3)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c4, TestCharArray.c4));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c4, std::addressof(TestCharArray.c4)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c5, TestCharArray.c5));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c5, std::addressof(TestCharArray.c5)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c6, TestCharArray.c6));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c6, std::addressof(TestCharArray.c6)));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c7, TestCharArray.c7));
static_assert(std::addressof(TestCharArray) == GET_PARENT_PTR(CharArray, c7, std::addressof(TestCharArray.c7)));
}
}