#ifndef MXATOM_H #define MXATOM_H #include "mxstl/stlcompat.h" #include "mxstring.h" #include "mxtypes.h" // Counts the number of existing MxAtomId objects based // on the matching char* string. A seems fit for purpose here: // We have an MxString as a key and MxU16 as the value. // And yet a is the best match. The malloc in MxOmni::Create // for the _Nil node asks for more bytes than a regular node if a // is used, but all nodes are 20 bytes wide with a . // Also: the increment/decrement methods suggest a custom type was used // for the combined key_value_pair, which doesn't seem possible with . // SIZE 0x14 class MxAtom { public: // always inlined // FUNCTION: BETA10 0x10123720 MxAtom(const char* p_str) { m_key = p_str; m_value = 0; } void Inc(); void Dec(); // FUNCTION: BETA10 0x101236d0 MxString& GetKey() { return m_key; } // SYNTHETIC: BETA10 0x10124a50 // MxAtom::`scalar deleting destructor' private: MxString m_key; // 0x00 MxU16 m_value; // 0x10 }; struct MxAtomCompare { // FUNCTION: LEGO1 0x100ad120 // FUNCTION: BETA10 0x10123980 int operator()(MxAtom* const& p_val0, MxAtom* const& p_val1) const { return strcmp(p_val0->GetKey().GetData(), p_val1->GetKey().GetData()) > 0; } }; class MxAtomSet : public set {}; enum LookupMode { e_exact = 0, e_lowerCase, e_upperCase, e_lowerCase2, }; // SIZE 0x04 class MxAtomId { public: MxAtomId(const char*, LookupMode); ~MxAtomId(); MxAtomId& operator=(const MxAtomId& p_atomId); // FUNCTION: BETA10 0x100178d0 MxBool operator==(const MxAtomId& p_atomId) const { return this->m_internal == p_atomId.m_internal; } #ifdef COMPAT_MODE // Required for modern compilers. // MSVC 4.20 uses a synthetic function from INCLUDE/UTILITY that inverts operator== MxBool operator!=(const MxAtomId& p_atomId) const { return this->m_internal != p_atomId.m_internal; } #endif // FUNCTION: BETA10 0x10025d40 MxAtomId() { this->m_internal = 0; } void Clear(); // FUNCTION: BETA10 0x100735e0 const char* GetInternal() const { return m_internal; } private: // FUNCTION: BETA10 0x101236f0 MxAtomId& operator=(const MxString& p_key) { m_internal = p_key.GetData(); return *this; } MxAtom* GetAtom(const char*, LookupMode); void Destroy(); const char* m_internal; // 0x00 }; // SYNTHETIC: BETA10 0x1002b520 // ??9@YAHABVMxAtomId@@0@Z // aka MxAtomId::operator!= // SYNTHETIC: LEGO1 0x100ad170 // MxAtom::~MxAtom // clang-format off // TEMPLATE: LEGO1 0x100ad480 // _Tree >::_Kfn,MxAtomCompare,allocator >::iterator::_Dec // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100ad780 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Lbound // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100ad4d0 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Insert // clang-format on // clang-format off // TEMPLATE: BETA10 0x101237a0 // _Tree >::_Kfn,MxAtomCompare,allocator >::const_iterator::operator* // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100af6d0 // TEMPLATE: BETA10 0x10131170 // _Tree >::_Kfn,MxAtomCompare,allocator >::~_Tree >::_Kfn,MxAtomCompare,allocator > // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100af7a0 // _Tree >::_Kfn,MxAtomCompare,allocator >::iterator::_Inc // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100af7e0 // TEMPLATE: BETA10 0x10131210 // _Tree >::_Kfn,MxAtomCompare,allocator >::erase // clang-format on // TEMPLATE: BETA10 0x10131460 // _Tree >::_Kfn,MxAtomCompare,allocator // >::size // clang-format off // TEMPLATE: LEGO1 0x100afc40 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Erase // clang-format on // clang-format off // TEMPLATE: LEGO1 0x100afc80 // TEMPLATE: BETA10 0x10132080 // set >::~set > // clang-format on // TEMPLATE: LEGO1 0x100afe40 // TEMPLATE: BETA10 0x101320e0 // Set::~Set // TEMPLATE: BETA10 0x10132140 // set >::begin // clang-format off // GLOBAL: LEGO1 0x101013f0 // GLOBAL: BETA10 0x10201264 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Nil // clang-format on // TEMPLATE: BETA10 0x10132170 // _Tree >::_Kfn,MxAtomCompare,allocator // >::begin // TEMPLATE: BETA10 0x101321d0 // set >::size // TEMPLATE: BETA10 0x101321f0 // set >::erase // TEMPLATE: BETA10 0x101237f0 // set >::end // TEMPLATE: BETA10 0x101238b0 // set >::find // clang-format off // TEMPLATE: BETA10 0x101238e0 // _Tree >::_Kfn,MxAtomCompare,allocator >::find // clang-format on // SYNTHETIC: BETA10 0x10123bf0 // MxAtom::~MxAtom // TEMPLATE: BETA10 0x10123c50 // set >::insert // SYNTHETIC: BETA10 0x10130fc0 // MxAtomSet::MxAtomSet // TEMPLATE: BETA10 0x10131030 // Set::Set // clang-format off // TEMPLATE: BETA10 0x101310a0 // set >::set > // TEMPLATE: BETA10 0x10131120 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Tree >::_Kfn,MxAtomCompare,allocator > // TEMPLATE: BETA10 0x10131f30 // _Tree >::_Kfn,MxAtomCompare,allocator >::_Init // clang-format on // SYNTHETIC: BETA10 0x101322a0 // MxAtomSet::`scalar deleting destructor' // SYNTHETIC: BETA10 0x101322e0 // MxAtomSet::~MxAtomSet #endif // MXATOM_H