geode/loader/include/Geode/platform/ItaniumCast.hpp

#pragma once

namespace geode::cast {

    struct DummyClass {
        virtual ~DummyClass() {}
    };

    struct DummySingleClass : DummyClass {};

    struct DummyClass2 {};

    struct DummyMultipleClass : DummySingleClass, DummyClass2 {};

    struct VtableType;

    struct ClassTypeinfoType {
        VtableType* m_typeinfoVtable;
        char const* m_typeinfoName;
    };

    struct SingleClassTypeinfoType : ClassTypeinfoType {
        ClassTypeinfoType* m_baseClassTypeinfo;
    };

    struct MultipleClassSingleEntryType {
        ClassTypeinfoType* m_baseClassTypeinfo;
        intptr_t m_metadata;

        uint8_t visibilityFlag() const {
            return m_metadata & 0xFF;
        }
        intptr_t offset() const {
            return m_metadata >> 8;
        }
    };

    struct MultipleClassTypeinfoType : ClassTypeinfoType {
        uint32_t m_flags;
        uint32_t m_numBaseClass;
        MultipleClassSingleEntryType m_baseClasses[0x100];
    };

    struct VtableTypeinfoType {
        intptr_t m_offset;
        ClassTypeinfoType* m_typeinfo;
    };

    struct VtableType {
        void* m_vtable[0x100];
    };

    struct CompleteVtableType : VtableTypeinfoType, VtableType {};

    inline void* traverseTypeinfoFor(
        void* ptr, ClassTypeinfoType const* typeinfo, char const* afterIdent
    ) {
        {
            auto optionIdent = typeinfo->m_typeinfoName;
            if (std::strcmp(optionIdent, afterIdent) == 0) {
                return ptr;
            }
        }
        auto typeinfoVtableName = static_cast<CompleteVtableType*>(typeinfo->m_typeinfoVtable)->m_typeinfo->m_typeinfoName;
        if (std::strcmp(typeinfoVtableName, "N10__cxxabiv120__si_class_type_infoE") == 0) {
            auto siTypeinfo = static_cast<SingleClassTypeinfoType const*>(typeinfo);
            return traverseTypeinfoFor(ptr, siTypeinfo->m_baseClassTypeinfo, afterIdent);
        }
        else if (std::strcmp(typeinfoVtableName, "N10__cxxabiv121__vmi_class_type_infoE") == 0) {
            auto vmiTypeinfo = static_cast<MultipleClassTypeinfoType const*>(typeinfo);
            for (int i = 0; i < vmiTypeinfo->m_numBaseClass; ++i) {
                auto& entry = vmiTypeinfo->m_baseClasses[i];
                auto optionPtr = reinterpret_cast<std::byte*>(ptr) + entry.offset();
                auto ret = traverseTypeinfoFor(optionPtr, entry.m_baseClassTypeinfo, afterIdent);
                if (ret != nullptr) return ret;
            }
        }

        return nullptr;
    }

    inline void* typeinfoCastInternal(void* ptr, ClassTypeinfoType const* beforeTypeinfo, ClassTypeinfoType const* afterTypeinfo, size_t hint) {
        // we're not using either because uhhh idk
        // hint is for diamond inheritance iirc which is never 
        // used in gd, so should be pretty safe to ignore
        if (!ptr) {
            return nullptr;
        }

        (void)beforeTypeinfo;
        (void)hint;

        auto vftable = *reinterpret_cast<VtableType**>(ptr);
        auto dataPointer = static_cast<VtableTypeinfoType*>(static_cast<CompleteVtableType*>(vftable));
        auto typeinfo = dataPointer->m_typeinfo;
        auto basePtr = static_cast<std::byte*>(ptr) + dataPointer->m_offset;

        auto afterIdent = afterTypeinfo->m_typeinfoName;

        return traverseTypeinfoFor(basePtr, typeinfo, afterIdent);
    }

    template <class After, class Before>
    inline After typeinfo_cast(Before ptr) {
        static_assert(
            std::is_polymorphic_v<std::remove_pointer_t<Before>> && std::is_polymorphic_v<std::remove_pointer_t<After>>, 
            "Input is not a polymorphic type"
        );
        if (!ptr) {
            return static_cast<After>(nullptr);
        }

        auto beforeTypeinfo = reinterpret_cast<ClassTypeinfoType const*>(&typeid(std::remove_pointer_t<Before>));
        auto afterTypeinfo = reinterpret_cast<ClassTypeinfoType const*>(&typeid(std::remove_pointer_t<After>));
        return static_cast<After>(typeinfoCastInternal(ptr, beforeTypeinfo, afterTypeinfo, 0));
    }
}
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`#pragma once`

			`namespace geode::cast {`

			`struct DummyClass {`
			`virtual ~DummyClass() {}`
			`};`

			`struct DummySingleClass : DummyClass {};`

			`struct DummyClass2 {};`

			`struct DummyMultipleClass : DummySingleClass, DummyClass2 {};`

fix dynamic cast 2023-10-02 09:50:10 -04:00			`struct VtableType;`

fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`struct ClassTypeinfoType {`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`VtableType* m_typeinfoVtable;`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`char const* m_typeinfoName;`
			`};`

			`struct SingleClassTypeinfoType : ClassTypeinfoType {`
			`ClassTypeinfoType* m_baseClassTypeinfo;`
			`};`

			`struct MultipleClassSingleEntryType {`
			`ClassTypeinfoType* m_baseClassTypeinfo;`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`intptr_t m_metadata;`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00
fix dynamic cast 2023-10-02 09:50:10 -04:00			`uint8_t visibilityFlag() const {`
			`return m_metadata & 0xFF;`
			`}`
			`intptr_t offset() const {`
			`return m_metadata >> 8;`
			`}`
			`};`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00
			`struct MultipleClassTypeinfoType : ClassTypeinfoType {`
			`uint32_t m_flags;`
			`uint32_t m_numBaseClass;`
			`MultipleClassSingleEntryType m_baseClasses[0x100];`
			`};`

			`struct VtableTypeinfoType {`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`intptr_t m_offset;`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`ClassTypeinfoType* m_typeinfo;`
			`};`

			`struct VtableType {`
			`void* m_vtable[0x100];`
			`};`

			`struct CompleteVtableType : VtableTypeinfoType, VtableType {};`

			`inline void* traverseTypeinfoFor(`
			`void* ptr, ClassTypeinfoType const* typeinfo, char const* afterIdent`
			`) {`
			`{`
			`auto optionIdent = typeinfo->m_typeinfoName;`
			`if (std::strcmp(optionIdent, afterIdent) == 0) {`
			`return ptr;`
			`}`
			`}`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`auto typeinfoVtableName = static_cast<CompleteVtableType*>(typeinfo->m_typeinfoVtable)->m_typeinfo->m_typeinfoName;`
			`if (std::strcmp(typeinfoVtableName, "N10__cxxabiv120__si_class_type_infoE") == 0) {`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`auto siTypeinfo = static_cast<SingleClassTypeinfoType const*>(typeinfo);`
			`return traverseTypeinfoFor(ptr, siTypeinfo->m_baseClassTypeinfo, afterIdent);`
			`}`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`else if (std::strcmp(typeinfoVtableName, "N10__cxxabiv121__vmi_class_type_infoE") == 0) {`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`auto vmiTypeinfo = static_cast<MultipleClassTypeinfoType const*>(typeinfo);`
			`for (int i = 0; i < vmiTypeinfo->m_numBaseClass; ++i) {`
			`auto& entry = vmiTypeinfo->m_baseClasses[i];`
fix dynamic cast 2023-10-02 09:50:10 -04:00			`auto optionPtr = reinterpret_cast<std::byte*>(ptr) + entry.offset();`
fix macos crash on opening (typeinfo_cast nullptr) 2023-02-26 07:22:50 -05:00			`auto ret = traverseTypeinfoFor(optionPtr, entry.m_baseClassTypeinfo, afterIdent);`
			`if (ret != nullptr) return ret;`
			`}`
			`}`

			`return nullptr;`
			`}`

			`inline void* typeinfoCastInternal(void* ptr, ClassTypeinfoType const* beforeTypeinfo, ClassTypeinfoType const* afterTypeinfo, size_t hint) {`
			`// we're not using either because uhhh idk`
			`// hint is for diamond inheritance iirc which is never`
			`// used in gd, so should be pretty safe to ignore`
			`if (!ptr) {`
			`return nullptr;`
			`}`

			`(void)beforeTypeinfo;`
			`(void)hint;`

			`auto vftable = reinterpret_cast<VtableType*>(ptr);`
			`auto dataPointer = static_cast<VtableTypeinfoType>(static_cast<CompleteVtableType>(vftable));`
			`auto typeinfo = dataPointer->m_typeinfo;`
			`auto basePtr = static_cast<std::byte*>(ptr) + dataPointer->m_offset;`

			`auto afterIdent = afterTypeinfo->m_typeinfoName;`

			`return traverseTypeinfoFor(basePtr, typeinfo, afterIdent);`
			`}`

			`template <class After, class Before>`
			`inline After typeinfo_cast(Before ptr) {`
			`static_assert(`
			`std::is_polymorphic_v<std::remove_pointer_t<Before>> && std::is_polymorphic_v<std::remove_pointer_t<After>>,`
			`"Input is not a polymorphic type"`
			`);`
			`if (!ptr) {`
			`return static_cast<After>(nullptr);`
			`}`

			`auto beforeTypeinfo = reinterpret_cast<ClassTypeinfoType const*>(&typeid(std::remove_pointer_t<Before>));`
			`auto afterTypeinfo = reinterpret_cast<ClassTypeinfoType const*>(&typeid(std::remove_pointer_t<After>));`
			`return static_cast<After>(typeinfoCastInternal(ptr, beforeTypeinfo, afterTypeinfo, 0));`
			`}`
			`}`