path: root/third_party/flatbuffers/generated/tests/alignment_test_generated.h

// automatically generated by the FlatBuffers compiler, do not modify

#ifndef FLATBUFFERS_GENERATED_ALIGNMENTTEST_H_
#define FLATBUFFERS_GENERATED_ALIGNMENTTEST_H_

#include "flatbuffers/flatbuffers.h"

// Ensure the included flatbuffers.h is the same version as when this file was
// generated, otherwise it may not be compatible.
static_assert(FLATBUFFERS_VERSION_MAJOR == 24 && FLATBUFFERS_VERSION_MINOR == 3 &&
                  FLATBUFFERS_VERSION_REVISION == 25,
              "Non-compatible flatbuffers version included");

struct BadAlignmentSmall;

struct BadAlignmentLarge;

struct OuterLarge;
struct OuterLargeBuilder;
struct OuterLargeT;

struct BadAlignmentRoot;
struct BadAlignmentRootBuilder;
struct BadAlignmentRootT;

struct JustSmallStruct;

struct SmallStructs;
struct SmallStructsBuilder;
struct SmallStructsT;

bool operator==(const BadAlignmentSmall &lhs, const BadAlignmentSmall &rhs);
bool operator!=(const BadAlignmentSmall &lhs, const BadAlignmentSmall &rhs);
bool operator==(const BadAlignmentLarge &lhs, const BadAlignmentLarge &rhs);
bool operator!=(const BadAlignmentLarge &lhs, const BadAlignmentLarge &rhs);
bool operator==(const OuterLargeT &lhs, const OuterLargeT &rhs);
bool operator!=(const OuterLargeT &lhs, const OuterLargeT &rhs);
bool operator==(const BadAlignmentRootT &lhs, const BadAlignmentRootT &rhs);
bool operator!=(const BadAlignmentRootT &lhs, const BadAlignmentRootT &rhs);
bool operator==(const JustSmallStruct &lhs, const JustSmallStruct &rhs);
bool operator!=(const JustSmallStruct &lhs, const JustSmallStruct &rhs);
bool operator==(const SmallStructsT &lhs, const SmallStructsT &rhs);
bool operator!=(const SmallStructsT &lhs, const SmallStructsT &rhs);

inline const ::flatbuffers::TypeTable *BadAlignmentSmallTypeTable();

inline const ::flatbuffers::TypeTable *BadAlignmentLargeTypeTable();

inline const ::flatbuffers::TypeTable *OuterLargeTypeTable();

inline const ::flatbuffers::TypeTable *BadAlignmentRootTypeTable();

inline const ::flatbuffers::TypeTable *JustSmallStructTypeTable();

inline const ::flatbuffers::TypeTable *SmallStructsTypeTable();

FLATBUFFERS_MANUALLY_ALIGNED_STRUCT(4)
BadAlignmentSmall FLATBUFFERS_FINAL_CLASS
{
  private:
    uint32_t var_0_;
    uint32_t var_1_;
    uint32_t var_2_;

  public:
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable()
    {
        return BadAlignmentSmallTypeTable();
    }
    BadAlignmentSmall() : var_0_(0), var_1_(0), var_2_(0) {}
    BadAlignmentSmall(uint32_t _var_0, uint32_t _var_1, uint32_t _var_2)
        : var_0_(::flatbuffers::EndianScalar(_var_0)),
          var_1_(::flatbuffers::EndianScalar(_var_1)),
          var_2_(::flatbuffers::EndianScalar(_var_2))
    {}
    uint32_t var_0() const
    {
        return ::flatbuffers::EndianScalar(var_0_);
    }
    void mutate_var_0(uint32_t _var_0)
    {
        ::flatbuffers::WriteScalar(&var_0_, _var_0);
    }
    uint32_t var_1() const
    {
        return ::flatbuffers::EndianScalar(var_1_);
    }
    void mutate_var_1(uint32_t _var_1)
    {
        ::flatbuffers::WriteScalar(&var_1_, _var_1);
    }
    uint32_t var_2() const
    {
        return ::flatbuffers::EndianScalar(var_2_);
    }
    void mutate_var_2(uint32_t _var_2)
    {
        ::flatbuffers::WriteScalar(&var_2_, _var_2);
    }
};
FLATBUFFERS_STRUCT_END(BadAlignmentSmall, 12);

inline bool operator==(const BadAlignmentSmall &lhs, const BadAlignmentSmall &rhs)
{
    return (lhs.var_0() == rhs.var_0()) && (lhs.var_1() == rhs.var_1()) &&
           (lhs.var_2() == rhs.var_2());
}

inline bool operator!=(const BadAlignmentSmall &lhs, const BadAlignmentSmall &rhs)
{
    return !(lhs == rhs);
}

struct BadAlignmentSmall::Traits
{
    using type = BadAlignmentSmall;
};

FLATBUFFERS_MANUALLY_ALIGNED_STRUCT(8)
BadAlignmentLarge FLATBUFFERS_FINAL_CLASS
{
  private:
    uint64_t var_0_;

  public:
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable()
    {
        return BadAlignmentLargeTypeTable();
    }
    BadAlignmentLarge() : var_0_(0) {}
    BadAlignmentLarge(uint64_t _var_0) : var_0_(::flatbuffers::EndianScalar(_var_0)) {}
    uint64_t var_0() const
    {
        return ::flatbuffers::EndianScalar(var_0_);
    }
    void mutate_var_0(uint64_t _var_0)
    {
        ::flatbuffers::WriteScalar(&var_0_, _var_0);
    }
};
FLATBUFFERS_STRUCT_END(BadAlignmentLarge, 8);

inline bool operator==(const BadAlignmentLarge &lhs, const BadAlignmentLarge &rhs)
{
    return (lhs.var_0() == rhs.var_0());
}

inline bool operator!=(const BadAlignmentLarge &lhs, const BadAlignmentLarge &rhs)
{
    return !(lhs == rhs);
}

struct BadAlignmentLarge::Traits
{
    using type = BadAlignmentLarge;
};

FLATBUFFERS_MANUALLY_ALIGNED_STRUCT(1) JustSmallStruct FLATBUFFERS_FINAL_CLASS
{
  private:
    uint8_t var_0_;
    uint8_t var_1_;

  public:
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable()
    {
        return JustSmallStructTypeTable();
    }
    JustSmallStruct() : var_0_(0), var_1_(0) {}
    JustSmallStruct(uint8_t _var_0, uint8_t _var_1)
        : var_0_(::flatbuffers::EndianScalar(_var_0)), var_1_(::flatbuffers::EndianScalar(_var_1))
    {}
    uint8_t var_0() const
    {
        return ::flatbuffers::EndianScalar(var_0_);
    }
    void mutate_var_0(uint8_t _var_0)
    {
        ::flatbuffers::WriteScalar(&var_0_, _var_0);
    }
    uint8_t var_1() const
    {
        return ::flatbuffers::EndianScalar(var_1_);
    }
    void mutate_var_1(uint8_t _var_1)
    {
        ::flatbuffers::WriteScalar(&var_1_, _var_1);
    }
};
FLATBUFFERS_STRUCT_END(JustSmallStruct, 2);

inline bool operator==(const JustSmallStruct &lhs, const JustSmallStruct &rhs)
{
    return (lhs.var_0() == rhs.var_0()) && (lhs.var_1() == rhs.var_1());
}

inline bool operator!=(const JustSmallStruct &lhs, const JustSmallStruct &rhs)
{
    return !(lhs == rhs);
}

struct JustSmallStruct::Traits
{
    using type = JustSmallStruct;
};

struct OuterLargeT : public ::flatbuffers::NativeTable
{
    typedef OuterLarge TableType;
    std::unique_ptr<BadAlignmentLarge> large{};
    OuterLargeT() = default;
    OuterLargeT(const OuterLargeT &o);
    OuterLargeT(OuterLargeT &&) FLATBUFFERS_NOEXCEPT = default;
    OuterLargeT &operator=(OuterLargeT o) FLATBUFFERS_NOEXCEPT;
};

struct OuterLarge FLATBUFFERS_FINAL_CLASS : private ::flatbuffers::Table
{
    typedef OuterLargeT NativeTableType;
    typedef OuterLargeBuilder Builder;
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable() { return OuterLargeTypeTable(); }
    enum FlatBuffersVTableOffset FLATBUFFERS_VTABLE_UNDERLYING_TYPE
    {
        VT_LARGE = 4
    };
    const BadAlignmentLarge *large() const
    {
        return GetStruct<const BadAlignmentLarge *>(VT_LARGE);
    }
    BadAlignmentLarge *mutable_large() { return GetStruct<BadAlignmentLarge *>(VT_LARGE); }
    bool Verify(::flatbuffers::Verifier &verifier) const
    {
        return VerifyTableStart(verifier) &&
               VerifyField<BadAlignmentLarge>(verifier, VT_LARGE, 8) && verifier.EndTable();
    }
    OuterLargeT *UnPack(const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    void UnPackTo(OuterLargeT *_o,
                  const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    static ::flatbuffers::Offset<OuterLarge> Pack(
        ::flatbuffers::FlatBufferBuilder &_fbb,
        const OuterLargeT *_o,
        const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);
};

struct OuterLargeBuilder
{
    typedef OuterLarge Table;
    ::flatbuffers::FlatBufferBuilder &fbb_;
    ::flatbuffers::uoffset_t start_;
    void add_large(const BadAlignmentLarge *large) { fbb_.AddStruct(OuterLarge::VT_LARGE, large); }
    explicit OuterLargeBuilder(::flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb)
    {
        start_ = fbb_.StartTable();
    }
    ::flatbuffers::Offset<OuterLarge> Finish()
    {
        const auto end = fbb_.EndTable(start_);
        auto o         = ::flatbuffers::Offset<OuterLarge>(end);
        return o;
    }
};

inline ::flatbuffers::Offset<OuterLarge> CreateOuterLarge(::flatbuffers::FlatBufferBuilder &_fbb,
                                                          const BadAlignmentLarge *large = nullptr)
{
    OuterLargeBuilder builder_(_fbb);
    builder_.add_large(large);
    return builder_.Finish();
}

struct OuterLarge::Traits
{
    using type                   = OuterLarge;
    static auto constexpr Create = CreateOuterLarge;
};

::flatbuffers::Offset<OuterLarge> CreateOuterLarge(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const OuterLargeT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);

struct BadAlignmentRootT : public ::flatbuffers::NativeTable
{
    typedef BadAlignmentRoot TableType;
    std::unique_ptr<OuterLargeT> large{};
    std::vector<BadAlignmentSmall> small{};
    BadAlignmentRootT() = default;
    BadAlignmentRootT(const BadAlignmentRootT &o);
    BadAlignmentRootT(BadAlignmentRootT &&) FLATBUFFERS_NOEXCEPT = default;
    BadAlignmentRootT &operator=(BadAlignmentRootT o) FLATBUFFERS_NOEXCEPT;
};

struct BadAlignmentRoot FLATBUFFERS_FINAL_CLASS : private ::flatbuffers::Table
{
    typedef BadAlignmentRootT NativeTableType;
    typedef BadAlignmentRootBuilder Builder;
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable()
    {
        return BadAlignmentRootTypeTable();
    }
    enum FlatBuffersVTableOffset FLATBUFFERS_VTABLE_UNDERLYING_TYPE
    {
        VT_LARGE = 4,
        VT_SMALL = 6
    };
    const OuterLarge *large() const { return GetPointer<const OuterLarge *>(VT_LARGE); }
    OuterLarge *mutable_large() { return GetPointer<OuterLarge *>(VT_LARGE); }
    const ::flatbuffers::Vector<const BadAlignmentSmall *> *small() const
    {
        return GetPointer<const ::flatbuffers::Vector<const BadAlignmentSmall *> *>(VT_SMALL);
    }
    ::flatbuffers::Vector<const BadAlignmentSmall *> *mutable_small()
    {
        return GetPointer<::flatbuffers::Vector<const BadAlignmentSmall *> *>(VT_SMALL);
    }
    bool Verify(::flatbuffers::Verifier &verifier) const
    {
        return VerifyTableStart(verifier) && VerifyOffset(verifier, VT_LARGE) &&
               verifier.VerifyTable(large()) && VerifyOffset(verifier, VT_SMALL) &&
               verifier.VerifyVector(small()) && verifier.EndTable();
    }
    BadAlignmentRootT *UnPack(const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    void UnPackTo(BadAlignmentRootT *_o,
                  const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    static ::flatbuffers::Offset<BadAlignmentRoot> Pack(
        ::flatbuffers::FlatBufferBuilder &_fbb,
        const BadAlignmentRootT *_o,
        const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);
};

struct BadAlignmentRootBuilder
{
    typedef BadAlignmentRoot Table;
    ::flatbuffers::FlatBufferBuilder &fbb_;
    ::flatbuffers::uoffset_t start_;
    void add_large(::flatbuffers::Offset<OuterLarge> large)
    {
        fbb_.AddOffset(BadAlignmentRoot::VT_LARGE, large);
    }
    void add_small(::flatbuffers::Offset<::flatbuffers::Vector<const BadAlignmentSmall *>> small)
    {
        fbb_.AddOffset(BadAlignmentRoot::VT_SMALL, small);
    }
    explicit BadAlignmentRootBuilder(::flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb)
    {
        start_ = fbb_.StartTable();
    }
    ::flatbuffers::Offset<BadAlignmentRoot> Finish()
    {
        const auto end = fbb_.EndTable(start_);
        auto o         = ::flatbuffers::Offset<BadAlignmentRoot>(end);
        return o;
    }
};

inline ::flatbuffers::Offset<BadAlignmentRoot> CreateBadAlignmentRoot(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    ::flatbuffers::Offset<OuterLarge> large                                       = 0,
    ::flatbuffers::Offset<::flatbuffers::Vector<const BadAlignmentSmall *>> small = 0)
{
    BadAlignmentRootBuilder builder_(_fbb);
    builder_.add_small(small);
    builder_.add_large(large);
    return builder_.Finish();
}

struct BadAlignmentRoot::Traits
{
    using type                   = BadAlignmentRoot;
    static auto constexpr Create = CreateBadAlignmentRoot;
};

inline ::flatbuffers::Offset<BadAlignmentRoot> CreateBadAlignmentRootDirect(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    ::flatbuffers::Offset<OuterLarge> large     = 0,
    const std::vector<BadAlignmentSmall> *small = nullptr)
{
    auto small__ = small ? _fbb.CreateVectorOfStructs<BadAlignmentSmall>(*small) : 0;
    return CreateBadAlignmentRoot(_fbb, large, small__);
}

::flatbuffers::Offset<BadAlignmentRoot> CreateBadAlignmentRoot(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const BadAlignmentRootT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);

struct SmallStructsT : public ::flatbuffers::NativeTable
{
    typedef SmallStructs TableType;
    std::vector<JustSmallStruct> small_structs{};
};

struct SmallStructs FLATBUFFERS_FINAL_CLASS : private ::flatbuffers::Table
{
    typedef SmallStructsT NativeTableType;
    typedef SmallStructsBuilder Builder;
    struct Traits;
    static const ::flatbuffers::TypeTable *MiniReflectTypeTable()
    {
        return SmallStructsTypeTable();
    }
    enum FlatBuffersVTableOffset FLATBUFFERS_VTABLE_UNDERLYING_TYPE
    {
        VT_SMALL_STRUCTS = 4
    };
    const ::flatbuffers::Vector<const JustSmallStruct *> *small_structs() const
    {
        return GetPointer<const ::flatbuffers::Vector<const JustSmallStruct *> *>(VT_SMALL_STRUCTS);
    }
    ::flatbuffers::Vector<const JustSmallStruct *> *mutable_small_structs()
    {
        return GetPointer<::flatbuffers::Vector<const JustSmallStruct *> *>(VT_SMALL_STRUCTS);
    }
    bool Verify(::flatbuffers::Verifier &verifier) const
    {
        return VerifyTableStart(verifier) && VerifyOffset(verifier, VT_SMALL_STRUCTS) &&
               verifier.VerifyVector(small_structs()) && verifier.EndTable();
    }
    SmallStructsT *UnPack(const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    void UnPackTo(SmallStructsT *_o,
                  const ::flatbuffers::resolver_function_t *_resolver = nullptr) const;
    static ::flatbuffers::Offset<SmallStructs> Pack(
        ::flatbuffers::FlatBufferBuilder &_fbb,
        const SmallStructsT *_o,
        const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);
};

struct SmallStructsBuilder
{
    typedef SmallStructs Table;
    ::flatbuffers::FlatBufferBuilder &fbb_;
    ::flatbuffers::uoffset_t start_;
    void add_small_structs(
        ::flatbuffers::Offset<::flatbuffers::Vector<const JustSmallStruct *>> small_structs)
    {
        fbb_.AddOffset(SmallStructs::VT_SMALL_STRUCTS, small_structs);
    }
    explicit SmallStructsBuilder(::flatbuffers::FlatBufferBuilder &_fbb) : fbb_(_fbb)
    {
        start_ = fbb_.StartTable();
    }
    ::flatbuffers::Offset<SmallStructs> Finish()
    {
        const auto end = fbb_.EndTable(start_);
        auto o         = ::flatbuffers::Offset<SmallStructs>(end);
        return o;
    }
};

inline ::flatbuffers::Offset<SmallStructs> CreateSmallStructs(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    ::flatbuffers::Offset<::flatbuffers::Vector<const JustSmallStruct *>> small_structs = 0)
{
    SmallStructsBuilder builder_(_fbb);
    builder_.add_small_structs(small_structs);
    return builder_.Finish();
}

struct SmallStructs::Traits
{
    using type                   = SmallStructs;
    static auto constexpr Create = CreateSmallStructs;
};

inline ::flatbuffers::Offset<SmallStructs> CreateSmallStructsDirect(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const std::vector<JustSmallStruct> *small_structs = nullptr)
{
    auto small_structs__ =
        small_structs ? _fbb.CreateVectorOfStructs<JustSmallStruct>(*small_structs) : 0;
    return CreateSmallStructs(_fbb, small_structs__);
}

::flatbuffers::Offset<SmallStructs> CreateSmallStructs(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const SmallStructsT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher = nullptr);

inline bool operator==(const OuterLargeT &lhs, const OuterLargeT &rhs)
{
    return ((lhs.large == rhs.large) || (lhs.large && rhs.large && *lhs.large == *rhs.large));
}

inline bool operator!=(const OuterLargeT &lhs, const OuterLargeT &rhs)
{
    return !(lhs == rhs);
}

inline OuterLargeT::OuterLargeT(const OuterLargeT &o)
    : large((o.large) ? new BadAlignmentLarge(*o.large) : nullptr)
{}

inline OuterLargeT &OuterLargeT::operator=(OuterLargeT o) FLATBUFFERS_NOEXCEPT
{
    std::swap(large, o.large);
    return *this;
}

inline OuterLargeT *OuterLarge::UnPack(const ::flatbuffers::resolver_function_t *_resolver) const
{
    auto _o = std::make_unique<OuterLargeT>();
    UnPackTo(_o.get(), _resolver);
    return _o.release();
}

inline void OuterLarge::UnPackTo(OuterLargeT *_o,
                                 const ::flatbuffers::resolver_function_t *_resolver) const
{
    (void)_o;
    (void)_resolver;
    {
        auto _e = large();
        if (_e)
        {
            _o->large = std::unique_ptr<BadAlignmentLarge>(new BadAlignmentLarge(*_e));
        }
    }
}

inline ::flatbuffers::Offset<OuterLarge> OuterLarge::Pack(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const OuterLargeT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    return CreateOuterLarge(_fbb, _o, _rehasher);
}

inline ::flatbuffers::Offset<OuterLarge> CreateOuterLarge(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const OuterLargeT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    (void)_rehasher;
    (void)_o;
    struct _VectorArgs
    {
        ::flatbuffers::FlatBufferBuilder *__fbb;
        const OuterLargeT *__o;
        const ::flatbuffers::rehasher_function_t *__rehasher;
    } _va = {&_fbb, _o, _rehasher};
    (void)_va;
    auto _large = _o->large ? _o->large.get() : nullptr;
    return CreateOuterLarge(_fbb, _large);
}

inline bool operator==(const BadAlignmentRootT &lhs, const BadAlignmentRootT &rhs)
{
    return ((lhs.large == rhs.large) || (lhs.large && rhs.large && *lhs.large == *rhs.large)) &&
           (lhs.small == rhs.small);
}

inline bool operator!=(const BadAlignmentRootT &lhs, const BadAlignmentRootT &rhs)
{
    return !(lhs == rhs);
}

inline BadAlignmentRootT::BadAlignmentRootT(const BadAlignmentRootT &o)
    : large((o.large) ? new OuterLargeT(*o.large) : nullptr), small(o.small)
{}

inline BadAlignmentRootT &BadAlignmentRootT::operator=(BadAlignmentRootT o) FLATBUFFERS_NOEXCEPT
{
    std::swap(large, o.large);
    std::swap(small, o.small);
    return *this;
}

inline BadAlignmentRootT *BadAlignmentRoot::UnPack(
    const ::flatbuffers::resolver_function_t *_resolver) const
{
    auto _o = std::make_unique<BadAlignmentRootT>();
    UnPackTo(_o.get(), _resolver);
    return _o.release();
}

inline void BadAlignmentRoot::UnPackTo(BadAlignmentRootT *_o,
                                       const ::flatbuffers::resolver_function_t *_resolver) const
{
    (void)_o;
    (void)_resolver;
    {
        auto _e = large();
        if (_e)
        {
            if (_o->large)
            {
                _e->UnPackTo(_o->large.get(), _resolver);
            }
            else
            {
                _o->large = std::unique_ptr<OuterLargeT>(_e->UnPack(_resolver));
            }
        }
        else if (_o->large)
        {
            _o->large.reset();
        }
    }
    {
        auto _e = small();
        if (_e)
        {
            _o->small.resize(_e->size());
            for (::flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++)
            {
                _o->small[_i] = *_e->Get(_i);
            }
        }
        else
        {
            _o->small.resize(0);
        }
    }
}

inline ::flatbuffers::Offset<BadAlignmentRoot> BadAlignmentRoot::Pack(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const BadAlignmentRootT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    return CreateBadAlignmentRoot(_fbb, _o, _rehasher);
}

inline ::flatbuffers::Offset<BadAlignmentRoot> CreateBadAlignmentRoot(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const BadAlignmentRootT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    (void)_rehasher;
    (void)_o;
    struct _VectorArgs
    {
        ::flatbuffers::FlatBufferBuilder *__fbb;
        const BadAlignmentRootT *__o;
        const ::flatbuffers::rehasher_function_t *__rehasher;
    } _va = {&_fbb, _o, _rehasher};
    (void)_va;
    auto _large = _o->large ? CreateOuterLarge(_fbb, _o->large.get(), _rehasher) : 0;
    auto _small = _o->small.size() ? _fbb.CreateVectorOfStructs(_o->small) : 0;
    return CreateBadAlignmentRoot(_fbb, _large, _small);
}

inline bool operator==(const SmallStructsT &lhs, const SmallStructsT &rhs)
{
    return (lhs.small_structs == rhs.small_structs);
}

inline bool operator!=(const SmallStructsT &lhs, const SmallStructsT &rhs)
{
    return !(lhs == rhs);
}

inline SmallStructsT *SmallStructs::UnPack(
    const ::flatbuffers::resolver_function_t *_resolver) const
{
    auto _o = std::make_unique<SmallStructsT>();
    UnPackTo(_o.get(), _resolver);
    return _o.release();
}

inline void SmallStructs::UnPackTo(SmallStructsT *_o,
                                   const ::flatbuffers::resolver_function_t *_resolver) const
{
    (void)_o;
    (void)_resolver;
    {
        auto _e = small_structs();
        if (_e)
        {
            _o->small_structs.resize(_e->size());
            for (::flatbuffers::uoffset_t _i = 0; _i < _e->size(); _i++)
            {
                _o->small_structs[_i] = *_e->Get(_i);
            }
        }
        else
        {
            _o->small_structs.resize(0);
        }
    }
}

inline ::flatbuffers::Offset<SmallStructs> SmallStructs::Pack(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const SmallStructsT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    return CreateSmallStructs(_fbb, _o, _rehasher);
}

inline ::flatbuffers::Offset<SmallStructs> CreateSmallStructs(
    ::flatbuffers::FlatBufferBuilder &_fbb,
    const SmallStructsT *_o,
    const ::flatbuffers::rehasher_function_t *_rehasher)
{
    (void)_rehasher;
    (void)_o;
    struct _VectorArgs
    {
        ::flatbuffers::FlatBufferBuilder *__fbb;
        const SmallStructsT *__o;
        const ::flatbuffers::rehasher_function_t *__rehasher;
    } _va = {&_fbb, _o, _rehasher};
    (void)_va;
    auto _small_structs =
        _o->small_structs.size() ? _fbb.CreateVectorOfStructs(_o->small_structs) : 0;
    return CreateSmallStructs(_fbb, _small_structs);
}

inline const ::flatbuffers::TypeTable *BadAlignmentSmallTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[] = {{::flatbuffers::ET_UINT, 0, -1},
                                                         {::flatbuffers::ET_UINT, 0, -1},
                                                         {::flatbuffers::ET_UINT, 0, -1}};
    static const int64_t values[]                     = {0, 4, 8, 12};
    static const char *const names[]                  = {"var_0", "var_1", "var_2"};
    static const ::flatbuffers::TypeTable tt          = {
        ::flatbuffers::ST_STRUCT, 3, type_codes, nullptr, nullptr, values, names};
    return &tt;
}

inline const ::flatbuffers::TypeTable *BadAlignmentLargeTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[] = {{::flatbuffers::ET_ULONG, 0, -1}};
    static const int64_t values[]                     = {0, 8};
    static const char *const names[]                  = {"var_0"};
    static const ::flatbuffers::TypeTable tt          = {
        ::flatbuffers::ST_STRUCT, 1, type_codes, nullptr, nullptr, values, names};
    return &tt;
}

inline const ::flatbuffers::TypeTable *OuterLargeTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[]    = {{::flatbuffers::ET_SEQUENCE, 0, 0}};
    static const ::flatbuffers::TypeFunction type_refs[] = {BadAlignmentLargeTypeTable};
    static const char *const names[]                     = {"large"};
    static const ::flatbuffers::TypeTable tt             = {
        ::flatbuffers::ST_TABLE, 1, type_codes, type_refs, nullptr, nullptr, names};
    return &tt;
}

inline const ::flatbuffers::TypeTable *BadAlignmentRootTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[]    = {{::flatbuffers::ET_SEQUENCE, 0, 0},
                                                            {::flatbuffers::ET_SEQUENCE, 1, 1}};
    static const ::flatbuffers::TypeFunction type_refs[] = {OuterLargeTypeTable,
                                                            BadAlignmentSmallTypeTable};
    static const char *const names[]                     = {"large", "small"};
    static const ::flatbuffers::TypeTable tt             = {
        ::flatbuffers::ST_TABLE, 2, type_codes, type_refs, nullptr, nullptr, names};
    return &tt;
}

inline const ::flatbuffers::TypeTable *JustSmallStructTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[] = {{::flatbuffers::ET_UCHAR, 0, -1},
                                                         {::flatbuffers::ET_UCHAR, 0, -1}};
    static const int64_t values[]                     = {0, 1, 2};
    static const char *const names[]                  = {"var_0", "var_1"};
    static const ::flatbuffers::TypeTable tt          = {
        ::flatbuffers::ST_STRUCT, 2, type_codes, nullptr, nullptr, values, names};
    return &tt;
}

inline const ::flatbuffers::TypeTable *SmallStructsTypeTable()
{
    static const ::flatbuffers::TypeCode type_codes[]    = {{::flatbuffers::ET_SEQUENCE, 1, 0}};
    static const ::flatbuffers::TypeFunction type_refs[] = {JustSmallStructTypeTable};
    static const char *const names[]                     = {"small_structs"};
    static const ::flatbuffers::TypeTable tt             = {
        ::flatbuffers::ST_TABLE, 1, type_codes, type_refs, nullptr, nullptr, names};
    return &tt;
}

inline const SmallStructs *GetSmallStructs(const void *buf)
{
    return ::flatbuffers::GetRoot<SmallStructs>(buf);
}

inline const SmallStructs *GetSizePrefixedSmallStructs(const void *buf)
{
    return ::flatbuffers::GetSizePrefixedRoot<SmallStructs>(buf);
}

inline SmallStructs *GetMutableSmallStructs(void *buf)
{
    return ::flatbuffers::GetMutableRoot<SmallStructs>(buf);
}

inline SmallStructs *GetMutableSizePrefixedSmallStructs(void *buf)
{
    return ::flatbuffers::GetMutableSizePrefixedRoot<SmallStructs>(buf);
}

inline bool VerifySmallStructsBuffer(::flatbuffers::Verifier &verifier)
{
    return verifier.VerifyBuffer<SmallStructs>(nullptr);
}

inline bool VerifySizePrefixedSmallStructsBuffer(::flatbuffers::Verifier &verifier)
{
    return verifier.VerifySizePrefixedBuffer<SmallStructs>(nullptr);
}

inline void FinishSmallStructsBuffer(::flatbuffers::FlatBufferBuilder &fbb,
                                     ::flatbuffers::Offset<SmallStructs> root)
{
    fbb.Finish(root);
}

inline void FinishSizePrefixedSmallStructsBuffer(::flatbuffers::FlatBufferBuilder &fbb,
                                                 ::flatbuffers::Offset<SmallStructs> root)
{
    fbb.FinishSizePrefixed(root);
}

inline std::unique_ptr<SmallStructsT> UnPackSmallStructs(
    const void *buf,
    const ::flatbuffers::resolver_function_t *res = nullptr)
{
    return std::unique_ptr<SmallStructsT>(GetSmallStructs(buf)->UnPack(res));
}

inline std::unique_ptr<SmallStructsT> UnPackSizePrefixedSmallStructs(
    const void *buf,
    const ::flatbuffers::resolver_function_t *res = nullptr)
{
    return std::unique_ptr<SmallStructsT>(GetSizePrefixedSmallStructs(buf)->UnPack(res));
}

#endif  // FLATBUFFERS_GENERATED_ALIGNMENTTEST_H_