geode/loader/include/Geode/utils/MiniFunction.hpp

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#pragma once
#include <Geode/DefaultInclude.hpp>
#include <memory>
namespace geode::utils {
template <class FunctionType>
class MiniFunction;
template <class Ret, class... Args>
class MiniFunctionStateBase {
public:
virtual ~MiniFunctionStateBase() = default;
virtual Ret call(Args... args) const = 0;
virtual MiniFunctionStateBase* clone() const = 0;
};
template <class Type, class Ret, class... Args>
class MiniFunctionState final : public MiniFunctionStateBase<Ret, Args...> {
public:
Type m_func;
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explicit MiniFunctionState(Type func) : m_func(func) {}
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Ret call(Args... args) const override {
return const_cast<Type&>(m_func)(args...);
}
MiniFunctionStateBase<Ret, Args...>* clone() const override {
return new MiniFunctionState(*this);
}
};
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template <class Type, class Ret, class... Args>
class MiniFunctionStatePointer final : public MiniFunctionStateBase<Ret, Args...> {
public:
Type m_func;
explicit MiniFunctionStatePointer(Type func) : m_func(func) {}
Ret call(Args... args) const override {
return const_cast<Type&>(*m_func)(args...);
}
MiniFunctionStateBase<Ret, Args...>* clone() const override {
return new MiniFunctionStatePointer(*this);
}
};
template <class Type, class Ret, class Class, class... Args>
class MiniFunctionStateMemberPointer final : public MiniFunctionStateBase<Ret, Class, Args...> {
public:
Type m_func;
explicit MiniFunctionStateMemberPointer(Type func) : m_func(func) {}
Ret call(Class self, Args... args) const override {
return const_cast<Type&>(self->*m_func)(args...);
}
MiniFunctionStateBase<Ret, Class, Args...>* clone() const override {
return new MiniFunctionStateMemberPointer(*this);
}
};
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template <class Callable, class Ret, class... Args>
concept MiniFunctionCallable = requires(Callable&& func, Args... args) {
{ func(args...) } -> std::same_as<Ret>;
};
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template <class Ret, class... Args>
class MiniFunction<Ret(Args...)> {
public:
using FunctionType = Ret(Args...);
using StateType = MiniFunctionStateBase<Ret, Args...>;
private:
StateType* m_state;
public:
MiniFunction() : m_state(nullptr) {}
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MiniFunction(std::nullptr_t) : MiniFunction() {}
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MiniFunction(MiniFunction const& other) :
m_state(other.m_state ? other.m_state->clone() : nullptr) {}
MiniFunction(MiniFunction&& other) : m_state(other.m_state) {
other.m_state = nullptr;
}
~MiniFunction() {
delete m_state;
}
template <class Callable>
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requires(MiniFunctionCallable<Callable, Ret, Args...> && !std::is_same_v<std::decay_t<Callable>, MiniFunction<FunctionType>>)
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MiniFunction(Callable&& func) :
m_state(new MiniFunctionState<std::decay_t<Callable>, Ret, Args...>(std::forward<Callable>(func))) {}
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template <class FunctionPointer>
requires(!MiniFunctionCallable<FunctionPointer, Ret, Args...> && std::is_pointer_v<FunctionPointer> && std::is_function_v<std::remove_pointer_t<FunctionPointer>>)
MiniFunction(FunctionPointer func) :
m_state(new MiniFunctionStatePointer<FunctionPointer, Ret, Args...>(func)) {}
template <class MemberFunctionPointer>
requires(std::is_member_function_pointer_v<MemberFunctionPointer>)
MiniFunction(MemberFunctionPointer func) :
m_state(new MiniFunctionStateMemberPointer<MemberFunctionPointer, Ret, Args...>(func)) {}
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MiniFunction& operator=(MiniFunction const& other) {
delete m_state;
m_state = other.m_state ? other.m_state->clone() : nullptr;
return *this;
}
MiniFunction& operator=(MiniFunction&& other) {
delete m_state;
m_state = other.m_state;
other.m_state = nullptr;
return *this;
}
Ret operator()(Args... args) const {
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if (!m_state) return Ret();
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return m_state->call(args...);
}
explicit operator bool() const {
return m_state;
}
};
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}