godot-cpp/include/godot_cpp/core/method_bind.hpp

/*************************************************************************/
/*  method_bind.hpp                                                      */
/*************************************************************************/
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#ifndef GODOT_METHOD_BIND_HPP
#define GODOT_METHOD_BIND_HPP

#include <godot_cpp/core/binder_common.hpp>
#include <godot_cpp/core/type_info.hpp>

#include <godot_cpp/core/memory.hpp>

#include <godot/gdextension_interface.h>

#include <godot_cpp/classes/global_constants.hpp>

#include <string>
#include <vector>

#include <iostream>

namespace godot {

class MethodBind {
	StringName name;
	StringName instance_class;
	int argument_count = 0;
	uint32_t hint_flags = METHOD_FLAGS_DEFAULT;

	bool _static = false;
	bool _is_const = false;
	bool _has_return = false;
	bool _vararg = false;

	std::vector<StringName> argument_names;
	GDExtensionVariantType *argument_types = nullptr;
	std::vector<Variant> default_arguments;

protected:
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const = 0;
	virtual PropertyInfo gen_argument_type_info(int p_arg) const = 0;
	void generate_argument_types(int p_count);
	void set_const(bool p_const);
	void set_return(bool p_return);
	void set_static(bool p_static);
	void set_vararg(bool p_vararg);
	void set_argument_count(int p_count);

public:
	StringName get_name() const;
	void set_name(const StringName &p_name);
	_FORCE_INLINE_ int get_default_argument_count() const { return (int)default_arguments.size(); }
	_FORCE_INLINE_ const std::vector<Variant> &get_default_arguments() const { return default_arguments; }
	_FORCE_INLINE_ Variant has_default_argument(int p_arg) const {
		int idx = p_arg - (argument_count - (int)default_arguments.size());

		if (idx < 0 || idx >= default_arguments.size()) {
			return false;
		} else {
			return true;
		}
	}
	_FORCE_INLINE_ Variant get_default_argument(int p_arg) const {
		int idx = p_arg - (argument_count - (int)default_arguments.size());

		if (idx < 0 || idx >= default_arguments.size()) {
			return Variant();
		} else {
			return default_arguments[idx];
		}
	}
	_FORCE_INLINE_ StringName get_instance_class() const { return instance_class; }
	_FORCE_INLINE_ void set_instance_class(StringName p_class) { instance_class = p_class; }

	_FORCE_INLINE_ int get_argument_count() const { return argument_count; }
	_FORCE_INLINE_ bool is_const() const { return _is_const; }
	_FORCE_INLINE_ bool is_static() const { return _static; }
	_FORCE_INLINE_ bool is_vararg() const { return _vararg; }
	_FORCE_INLINE_ bool has_return() const { return _has_return; }
	_FORCE_INLINE_ uint32_t get_hint_flags() const { return hint_flags | (is_const() ? GDEXTENSION_METHOD_FLAG_CONST : 0) | (is_vararg() ? GDEXTENSION_METHOD_FLAG_VARARG : 0) | (is_static() ? GDEXTENSION_METHOD_FLAG_STATIC : 0); }
	_FORCE_INLINE_ void set_hint_flags(uint32_t p_hint_flags) { hint_flags = p_hint_flags; }
	void set_argument_names(const std::vector<StringName> &p_names);
	std::vector<StringName> get_argument_names() const;
	void set_default_arguments(const std::vector<Variant> &p_default_arguments) { default_arguments = p_default_arguments; }

	_FORCE_INLINE_ GDExtensionVariantType get_argument_type(int p_argument) const {
		ERR_FAIL_COND_V(p_argument < -1 || p_argument > argument_count, GDEXTENSION_VARIANT_TYPE_NIL);
		return argument_types[p_argument + 1];
	}

	PropertyInfo get_argument_info(int p_argument) const;
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_argument) const = 0;

	std::vector<PropertyInfo> get_arguments_info_list() const {
		std::vector<PropertyInfo> vec;
		// First element is return value
		vec.reserve(argument_count + 1);
		for (int i = 0; i < argument_count + 1; i++) {
			vec.push_back(get_argument_info(i - 1));
		}
		return vec;
	}
	std::vector<GDExtensionClassMethodArgumentMetadata> get_arguments_metadata_list() const {
		std::vector<GDExtensionClassMethodArgumentMetadata> vec;
		// First element is return value
		vec.reserve(argument_count + 1);
		for (int i = 0; i < argument_count; i++) {
			vec.push_back(get_argument_metadata(i - 1));
		}
		return vec;
	}

	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const = 0;
	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_return) const = 0;

	static void bind_call(void *p_method_userdata, GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionVariantPtr r_return, GDExtensionCallError *r_error);
	static void bind_ptrcall(void *p_method_userdata, GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_return);

	virtual ~MethodBind();
};

template <class Derived, class T, class R, bool should_returns>
class MethodBindVarArgBase : public MethodBind {
protected:
	R(T::*method)
	(const Variant **, GDExtensionInt, GDExtensionCallError &);
	std::vector<PropertyInfo> arguments;

public:
	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		if (p_arg < 0) {
			return _gen_return_type_info();
		} else if (p_arg < arguments.size()) {
			return arguments[p_arg];
		} else {
			return make_property_info(Variant::Type::NIL, "vararg", PROPERTY_HINT_NONE, "", PROPERTY_USAGE_DEFAULT | PROPERTY_USAGE_NIL_IS_VARIANT);
		}
	}

	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		return static_cast<GDExtensionVariantType>(gen_argument_type_info(p_arg).type);
	}

	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int) const {
		return GDEXTENSION_METHOD_ARGUMENT_METADATA_NONE;
	}

	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_return) const {
		ERR_FAIL(); // Can't call.
	}

	MethodBindVarArgBase(
			R (T::*p_method)(const Variant **, GDExtensionInt, GDExtensionCallError &),
			const MethodInfo &p_method_info,
			bool p_return_nil_is_variant) :
			method(p_method) {
		set_vararg(true);
		set_const(true);
		set_argument_count(p_method_info.arguments.size());
		if (p_method_info.arguments.size()) {
			arguments = p_method_info.arguments;

			std::vector<StringName> names;
			names.reserve(p_method_info.arguments.size());
			for (int i = 0; i < p_method_info.arguments.size(); i++) {
				names.push_back(p_method_info.arguments[i].name);
			}
			set_argument_names(names);
		}

		generate_argument_types((int)p_method_info.arguments.size());
		set_return(should_returns);
	}

	~MethodBindVarArgBase() {}

private:
	PropertyInfo _gen_return_type_info() const {
		return reinterpret_cast<const Derived *>(this)->_gen_return_type_info_impl();
	}
};

template <class T>
class MethodBindVarArgT : public MethodBindVarArgBase<MethodBindVarArgT<T>, T, void, false> {
	friend class MethodBindVarArgBase<MethodBindVarArgT<T>, T, void, false>;

public:
	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
		(static_cast<T *>(p_instance)->*MethodBindVarArgBase<MethodBindVarArgT<T>, T, void, false>::method)((const Variant **)p_args, p_argument_count, r_error);
		return {};
	}

	MethodBindVarArgT(
			void (T::*p_method)(const Variant **, GDExtensionInt, GDExtensionCallError &),
			const MethodInfo &p_method_info,
			bool p_return_nil_is_variant) :
			MethodBindVarArgBase<MethodBindVarArgT<T>, T, void, false>(p_method, p_method_info, p_return_nil_is_variant) {
	}

private:
	PropertyInfo _gen_return_type_info_impl() const {
		return {};
	}
};

template <class T>
MethodBind *create_vararg_method_bind(void (T::*p_method)(const Variant **, GDExtensionInt, GDExtensionCallError &), const MethodInfo &p_info, bool p_return_nil_is_variant) {
	MethodBind *a = memnew((MethodBindVarArgT<T>)(p_method, p_info, p_return_nil_is_variant));
	a->set_instance_class(T::get_class_static());
	return a;
}

template <class T, class R>
class MethodBindVarArgTR : public MethodBindVarArgBase<MethodBindVarArgTR<T, R>, T, R, true> {
	friend class MethodBindVarArgBase<MethodBindVarArgTR<T, R>, T, R, true>;

public:
	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
		return (static_cast<T *>(p_instance)->*MethodBindVarArgBase<MethodBindVarArgTR<T, R>, T, R, true>::method)((const Variant **)p_args, p_argument_count, r_error);
	}

	MethodBindVarArgTR(
			R (T::*p_method)(const Variant **, GDExtensionInt, GDExtensionCallError &),
			const MethodInfo &p_info,
			bool p_return_nil_is_variant) :
			MethodBindVarArgBase<MethodBindVarArgTR<T, R>, T, R, true>(p_method, p_info, p_return_nil_is_variant) {
	}

private:
	PropertyInfo _gen_return_type_info_impl() const {
		return GetTypeInfo<R>::get_class_info();
	}
};

template <class T, class R>
MethodBind *create_vararg_method_bind(R (T::*p_method)(const Variant **, GDExtensionInt, GDExtensionCallError &), const MethodInfo &p_info, bool p_return_nil_is_variant) {
	MethodBind *a = memnew((MethodBindVarArgTR<T, R>)(p_method, p_info, p_return_nil_is_variant));
	a->set_instance_class(T::get_class_static());
	return a;
}

#ifndef TYPED_METHOD_BIND
class ___UnexistingClass;
#define MB_T ___UnexistingClass
#else
#define MB_T T
#endif

// No return, not const.

#ifdef TYPED_METHOD_BIND
template <class T, class... P>
#else
template <class... P>
#endif // TYPED_METHOD_BIND
class MethodBindT : public MethodBind {
	void (MB_T::*method)(P...);

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDEXTENSION_VARIANT_TYPE_NIL;
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		PropertyInfo pi;
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			call_get_argument_type_info<P...>(p_arg, pi);
		} else {
			pi = PropertyInfo();
		}
		return pi;
	}
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_argument) const {
		return call_get_argument_metadata<P...>(p_argument);
	}

	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
#ifdef TYPED_METHOD_BIND
		call_with_variant_args_dv(static_cast<T *>(p_instance), method, p_args, (int)p_argument_count, r_error, get_default_arguments());
#else
		call_with_variant_args_dv(reinterpret_cast<MB_T *>(p_instance), method, p_args, p_argument_count, r_error, get_default_arguments());
#endif
		return Variant();
	}
	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
#ifdef TYPED_METHOD_BIND
		call_with_ptr_args<T, P...>(static_cast<T *>(p_instance), method, p_args, nullptr);
#else
		call_with_ptr_args<MB_T, P...>(reinterpret_cast<MB_T *>(p_instance), method, p_args, nullptr);
#endif // TYPED_METHOD_BIND
	}

	MethodBindT(void (MB_T::*p_method)(P...)) {
		method = p_method;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
	}
};

template <class T, class... P>
MethodBind *create_method_bind(void (T::*p_method)(P...)) {
#ifdef TYPED_METHOD_BIND
	MethodBind *a = memnew((MethodBindT<T, P...>)(p_method));
#else
	MethodBind *a = memnew((MethodBindT<P...>)(reinterpret_cast<void (MB_T::*)(P...)>(p_method)));
#endif // TYPED_METHOD_BIND
	a->set_instance_class(T::get_class_static());
	return a;
}

// No return, const.

#ifdef TYPED_METHOD_BIND
template <class T, class... P>
#else
template <class... P>
#endif // TYPED_METHOD_BIND
class MethodBindTC : public MethodBind {
	void (MB_T::*method)(P...) const;

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDEXTENSION_VARIANT_TYPE_NIL;
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		PropertyInfo pi;
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			call_get_argument_type_info<P...>(p_arg, pi);
		} else {
			pi = PropertyInfo();
		}
		return pi;
	}
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_argument) const {
		return call_get_argument_metadata<P...>(p_argument);
	}

	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
#ifdef TYPED_METHOD_BIND
		call_with_variant_argsc_dv(static_cast<T *>(p_instance), method, p_args, (int)p_argument_count, r_error, get_default_arguments());
#else
		call_with_variant_argsc_dv(reinterpret_cast<MB_T *>(p_instance), method, p_args, p_argument_count, r_error, get_default_arguments());
#endif
		return Variant();
	}
	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
#ifdef TYPED_METHOD_BIND
		call_with_ptr_args<T, P...>(static_cast<T *>(p_instance), method, p_args, nullptr);
#else
		call_with_ptr_args<MB_T, P...>(reinterpret_cast<MB_T *>(p_instance), method, p_args, nullptr);
#endif // TYPED_METHOD_BIND
	}

	MethodBindTC(void (MB_T::*p_method)(P...) const) {
		method = p_method;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
	}
};

template <class T, class... P>
MethodBind *create_method_bind(void (T::*p_method)(P...) const) {
#ifdef TYPED_METHOD_BIND
	MethodBind *a = memnew((MethodBindTC<T, P...>)(p_method));
#else
	MethodBind *a = memnew((MethodBindTC<P...>)(reinterpret_cast<void (MB_T::*)(P...) const>(p_method)));
#endif // TYPED_METHOD_BIND
	a->set_instance_class(T::get_class_static());
	return a;
}

// Return, not const.

#ifdef TYPED_METHOD_BIND
template <class T, class R, class... P>
#else
template <class R, class... P>
#endif // TYPED_METHOD_BIND
class MethodBindTR : public MethodBind {
	R(MB_T::*method)
	(P...);

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDExtensionVariantType(GetTypeInfo<R>::VARIANT_TYPE);
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			PropertyInfo pi;
			call_get_argument_type_info<P...>(p_arg, pi);
			return pi;
		} else {
			return GetTypeInfo<R>::get_class_info();
		}
	}
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_argument) const {
		if (p_argument >= 0) {
			return call_get_argument_metadata<P...>(p_argument);
		} else {
			return GetTypeInfo<R>::METADATA;
		}
	}

	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
		Variant ret;
#ifdef TYPED_METHOD_BIND
		call_with_variant_args_ret_dv(static_cast<T *>(p_instance), method, p_args, (int)p_argument_count, ret, r_error, get_default_arguments());
#else
		call_with_variant_args_ret_dv((MB_T *)p_instance, method, p_args, p_argument_count, ret, r_error, get_default_arguments());
#endif
		return ret;
	}
	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
#ifdef TYPED_METHOD_BIND
		call_with_ptr_args<T, R, P...>(static_cast<T *>(p_instance), method, p_args, r_ret);
#else
		call_with_ptr_args<MB_T, R, P...>(reinterpret_cast<MB_T *>(p_instance), method, p_args, r_ret);
#endif // TYPED_METHOD_BIND
	}

	MethodBindTR(R (MB_T::*p_method)(P...)) {
		method = p_method;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
		set_return(true);
	}
};

template <class T, class R, class... P>
MethodBind *create_method_bind(R (T::*p_method)(P...)) {
#ifdef TYPED_METHOD_BIND
	MethodBind *a = memnew((MethodBindTR<T, R, P...>)(p_method));
#else
	MethodBind *a = memnew((MethodBindTR<R, P...>)(reinterpret_cast<R (MB_T::*)(P...)>(p_method)));
#endif // TYPED_METHOD_BIND
	a->set_instance_class(T::get_class_static());
	return a;
}

// Return, const.

#ifdef TYPED_METHOD_BIND
template <class T, class R, class... P>
#else
template <class R, class... P>
#endif // TYPED_METHOD_BIND
class MethodBindTRC : public MethodBind {
	R(MB_T::*method)
	(P...) const;

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDExtensionVariantType(GetTypeInfo<R>::VARIANT_TYPE);
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			PropertyInfo pi;
			call_get_argument_type_info<P...>(p_arg, pi);
			return pi;
		} else {
			return GetTypeInfo<R>::get_class_info();
		}
	}
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_argument) const {
		if (p_argument >= 0) {
			return call_get_argument_metadata<P...>(p_argument);
		} else {
			return GetTypeInfo<R>::METADATA;
		}
	}

	virtual Variant call(GDExtensionClassInstancePtr p_instance, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_argument_count, GDExtensionCallError &r_error) const {
		Variant ret;
#ifdef TYPED_METHOD_BIND
		call_with_variant_args_retc_dv(static_cast<T *>(p_instance), method, p_args, (int)p_argument_count, ret, r_error, get_default_arguments());
#else
		call_with_variant_args_retc_dv((MB_T *)p_instance, method, p_args, p_argument_count, ret, r_error, get_default_arguments());
#endif
		return ret;
	}
	virtual void ptrcall(GDExtensionClassInstancePtr p_instance, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
#ifdef TYPED_METHOD_BIND
		call_with_ptr_args<T, R, P...>(static_cast<T *>(p_instance), method, p_args, r_ret);
#else
		call_with_ptr_args<MB_T, R, P...>(reinterpret_cast<MB_T *>(p_instance), method, p_args, r_ret);
#endif // TYPED_METHOD_BIND
	}

	MethodBindTRC(R (MB_T::*p_method)(P...) const) {
		method = p_method;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
		set_return(true);
	}
};

template <class T, class R, class... P>
MethodBind *create_method_bind(R (T::*p_method)(P...) const) {
#ifdef TYPED_METHOD_BIND
	MethodBind *a = memnew((MethodBindTRC<T, R, P...>)(p_method));
#else
	MethodBind *a = memnew((MethodBindTRC<R, P...>)(reinterpret_cast<R (MB_T::*)(P...) const>(p_method)));
#endif // TYPED_METHOD_BIND
	a->set_instance_class(T::get_class_static());
	return a;
}

// STATIC BINDS

// no return

template <class... P>
class MethodBindTS : public MethodBind {
	void (*function)(P...);

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDEXTENSION_VARIANT_TYPE_NIL;
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		PropertyInfo pi;
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			call_get_argument_type_info<P...>(p_arg, pi);
		} else {
			pi = PropertyInfo();
		}
		return pi;
	}
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_arg) const {
		return call_get_argument_metadata<P...>(p_arg);
	}

	virtual Variant call(GDExtensionClassInstancePtr p_object, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_arg_count, GDExtensionCallError &r_error) const {
		(void)p_object; // unused
		call_with_variant_args_static_dv(function, p_args, p_arg_count, r_error, get_default_arguments());
		return Variant();
	}

	virtual void ptrcall(GDExtensionClassInstancePtr p_object, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
		(void)p_object;
		(void)r_ret;
		call_with_ptr_args_static_method(function, p_args);
	}

	MethodBindTS(void (*p_function)(P...)) {
		function = p_function;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
		set_static(true);
	}
};

template <class... P>
MethodBind *create_static_method_bind(void (*p_method)(P...)) {
	MethodBind *a = memnew((MethodBindTS<P...>)(p_method));
	return a;
}

// return

template <class R, class... P>
class MethodBindTRS : public MethodBind {
	R(*function)
	(P...);

protected:
// GCC raises warnings in the case P = {} as the comparison is always false...
#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wlogical-op"
#endif
	virtual GDExtensionVariantType gen_argument_type(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			return call_get_argument_type<P...>(p_arg);
		} else {
			return GDExtensionVariantType(GetTypeInfo<R>::VARIANT_TYPE);
		}
	}

	virtual PropertyInfo gen_argument_type_info(int p_arg) const {
		if (p_arg >= 0 && p_arg < (int)sizeof...(P)) {
			PropertyInfo pi;
			call_get_argument_type_info<P...>(p_arg, pi);
			return pi;
		} else {
			return GetTypeInfo<R>::get_class_info();
		}
	}

#if defined(__GNUC__) && !defined(__clang__)
#pragma GCC diagnostic pop
#endif

public:
	virtual GDExtensionClassMethodArgumentMetadata get_argument_metadata(int p_arg) const {
		if (p_arg >= 0) {
			return call_get_argument_metadata<P...>(p_arg);
		} else {
			return GetTypeInfo<R>::METADATA;
		}
	}

	virtual Variant call(GDExtensionClassInstancePtr p_object, GDExtensionConstVariantPtr *p_args, GDExtensionInt p_arg_count, GDExtensionCallError &r_error) const {
		Variant ret;
		call_with_variant_args_static_ret_dv(function, p_args, p_arg_count, ret, r_error, get_default_arguments());
		return ret;
	}

	virtual void ptrcall(GDExtensionClassInstancePtr p_object, GDExtensionConstTypePtr *p_args, GDExtensionTypePtr r_ret) const {
		(void)p_object;
		call_with_ptr_args_static_method_ret(function, p_args, r_ret);
	}

	MethodBindTRS(R (*p_function)(P...)) {
		function = p_function;
		generate_argument_types(sizeof...(P));
		set_argument_count(sizeof...(P));
		set_static(true);
		set_return(true);
	}
};

template <class R, class... P>
MethodBind *create_static_method_bind(R (*p_method)(P...)) {
	MethodBind *a = memnew((MethodBindTRS<R, P...>)(p_method));
	return a;
}

} // namespace godot

#endif // GODOT_METHOD_BIND_HPP