Atmosphere/libraries/libstratosphere/include/stratosphere/sf/sf_object_factory.hpp

/*
 * Copyright (c) Atmosphère-NX
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#pragma once
#include <vapours.hpp>
#include <stratosphere/sf/sf_common.hpp>
#include <stratosphere/sf/impl/sf_impl_template_base.hpp>
#include <stratosphere/sf/sf_object_impl_factory.hpp>
#include <stratosphere/sf/sf_memory_resource.hpp>
#include <stratosphere/sf/sf_default_allocation_policy.hpp>

namespace ams::sf {

    namespace impl {

        template<typename>
        struct IsSmartPointer : public std::false_type{};

        template<typename T>
        struct IsSmartPointer<SharedPointer<T>> : public std::true_type{};

        template<typename T>
        struct IsSmartPointer<std::shared_ptr<T>> : public std::true_type{};

        template<typename T, typename D>
        struct IsSmartPointer<std::unique_ptr<T, D>> : public std::true_type{};

        template<typename Impl>
        struct UnmanagedEmplaceImplHolderBaseGetter {
            using Type = Impl;
        };

        template<typename Impl> requires (std::is_abstract<Impl>::value)
        struct UnmanagedEmplaceImplHolderBaseGetter<Impl> {
            class Impl2 : public Impl {
                public:
                    using Impl::Impl;
                private:
                    constexpr virtual void AddReference() override { /* ... */ }
                    constexpr virtual void Release() override { /* ... */ }
            };

            using Type = Impl2;
        };

        template<typename Impl>
        class UnmanagedEmplacedImplHolder {
            template<typename, typename, typename, typename, typename>
            friend class impl::ImplTemplateBaseT;
            private:
                using Impl2 = typename UnmanagedEmplaceImplHolderBaseGetter<Impl>::Type;
                static_assert(!std::is_abstract<Impl2>::value);
            private:
                Impl2 m_impl;
            private:
                template<typename... Args>
                constexpr explicit UnmanagedEmplacedImplHolder(Args &&... args) : m_impl(std::forward<Args>(args)...) { /* ... */ }
            public:
                static constexpr Impl *GetImplPointer(UnmanagedEmplacedImplHolder *holder) {
                    return std::addressof(holder->m_impl);
                }
        };

        template<typename Impl>
        class EmplacedImplHolder : private Impl {
            template<typename, typename, typename, typename, typename>
            friend class impl::ImplTemplateBaseT;
            private:
                template<typename... Args>
                constexpr explicit EmplacedImplHolder(Args &&... args) : Impl(std::forward<Args>(args)...) { /* ... */ }
            public:
                static constexpr Impl *GetImplPointer(EmplacedImplHolder *holder) {
                    return holder;
                }

                template<typename Interface>
                static constexpr Impl *GetEmplacedImplPointerImpl(const SharedPointer<Interface> &sp) {
                    using Base = impl::ImplTemplateBase<Interface, Interface, EmplacedImplHolder, EmplacedImplHolder>;
                    return static_cast<Base *>(sp.Get());
                }
        };

        template<typename Impl> requires (IsSmartPointer<Impl>::value)
        class EmplacedImplHolder<Impl> : private Impl {
            template<typename, typename, typename, typename, typename>
            friend class impl::ImplTemplateBaseT;
            private:
                template<typename... Args>
                constexpr explicit EmplacedImplHolder(Args &&... args) : Impl(std::forward<Args>(args)...) { /* ... */ }
            public:
                static constexpr auto *GetImplPointer(EmplacedImplHolder *holder) {
                    return static_cast<Impl *>(holder)->operator ->();
                }

                template<typename Interface>
                static constexpr Impl *GetEmplacedImplPointerImpl(const SharedPointer<Interface> &sp) {
                    using Base = impl::ImplTemplateBase<Interface, Interface, EmplacedImplHolder, EmplacedImplHolder>;
                    return static_cast<Base *>(sp.Get());
                }
        };

        template<typename T>
        using SmartPointerHolder = EmplacedImplHolder<T>;

        template<typename T>
        class ManagedPointerHolder {
            template<typename, typename, typename, typename, typename>
            friend class impl::ImplTemplateBaseT;
            private:
                T *m_p;
            private:
                constexpr explicit ManagedPointerHolder(T *p) : m_p(p) { /* ... */ }
                constexpr ~ManagedPointerHolder() { m_p->Release(); }

                static constexpr T *GetImplPointer(ManagedPointerHolder *holder) {
                    return holder->m_p;
                }
        };

        template<typename T>
        class UnmanagedPointerHolder {
            template<typename, typename, typename, typename, typename>
            friend class impl::ImplTemplateBaseT;
            private:
                T *m_p;
            private:
                constexpr explicit UnmanagedPointerHolder(T *p) : m_p(p) { /* ... */ }

                static constexpr T *GetImplPointer(UnmanagedPointerHolder *holder) {
                    return holder->m_p;
                }
        };

    }

    template<typename Interface, typename Impl>
    class UnmanagedServiceObject final : public impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedEmplacedImplHolder<Impl>, impl::UnmanagedEmplacedImplHolder<Impl>> {
        private:
            using ImplBase = impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedEmplacedImplHolder<Impl>, impl::UnmanagedEmplacedImplHolder<Impl>>;
        public:
            using ImplBase::ImplBase;

            constexpr virtual void AddReference() override { /* ... */ }
            constexpr virtual void Release() override { /* ... */ }

            constexpr Impl &GetImpl() { return *impl::UnmanagedEmplacedImplHolder<Impl>::GetImplPointer(this); }

            constexpr SharedPointer<Interface> GetShared() { return SharedPointer<Interface>(this, false); }
    };

    template<typename Interface, typename T>
    class UnmanagedServiceObjectByPointer final : public impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedPointerHolder<T>, impl::UnmanagedPointerHolder<T>> {
        private:
            using ImplBase = impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedPointerHolder<T>, impl::UnmanagedPointerHolder<T>>;
        public:
            constexpr explicit UnmanagedServiceObjectByPointer(T *ptr) : ImplBase(ptr) { /* ... */ }

            constexpr virtual void AddReference() override { /* ... */ }
            constexpr virtual void Release() override { /* ... */ }

            constexpr SharedPointer<Interface> GetShared() { return SharedPointer<Interface>(this, false); }
    };

    template<typename Policy>
    class ObjectFactory;

    template<typename Interface, typename Impl>
    class EmplacedRef : public SharedPointer<Interface> {
        template<typename> friend class ObjectFactory;
        private:
            constexpr explicit EmplacedRef(Interface *ptr, bool incref) : SharedPointer<Interface>(ptr, incref) { /* ... */ }
        public:
            constexpr EmplacedRef() { /* ... */ }

            constexpr Impl &GetImpl() const {
                return *impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(*this);
            }
    };

    template<typename Policy> requires (!IsStatefulPolicy<Policy>)
    class ObjectFactory<Policy> {
        private:
            template<typename Interface, typename Holder, typename T>
            static constexpr SharedPointer<Interface> CreateSharedForPointer(T t) {
                using Base = impl::ImplTemplateBase<Interface, Interface, Holder, Holder>;
                return SharedPointer<Interface>(ObjectImplFactory<Base, Policy>::Create(std::forward<T>(t)), false);
            }
        public:
            template<typename Interface, typename Impl, typename... Args>
            static constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Args &&... args) {
                using Base = impl::ImplTemplateBase<Interface, Interface, impl::EmplacedImplHolder<Impl>, impl::EmplacedImplHolder<Impl>>;
                return EmplacedRef<Interface, Impl>(ObjectImplFactory<Base, Policy>::Create(std::forward<Args>(args)...), false);
            }

            template<typename T, typename... Args>
            static constexpr SharedPointer<T> CreateUserSharedObject(Args &&... args) {
                return SharedPointer<T>(ObjectImplFactory<T, Policy>::Create(std::forward<Args>(args)...), false);
            }

            template<typename Impl, typename Interface>
            static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {
                return impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(sp);
            }

            template<typename Interface, typename Smart>
            static constexpr SharedPointer<Interface> CreateShared(Smart &&sp) {
                return CreateSharedForPointer<Interface, impl::SmartPointerHolder<typename std::decay<decltype(sp)>::type>>(std::forward<Smart>(sp));
            }

            template<typename Interface, typename T>
            static constexpr SharedPointer<Interface> CreateShared(T *p) {
                return CreateSharedForPointer<Interface, impl::ManagedPointerHolder<T>>(p);
            }

            template<typename Interface, typename T>
            static constexpr SharedPointer<Interface> CreateSharedWithoutManagement(T *p) {
                return CreateSharedForPointer<Interface, impl::UnmanagedPointerHolder<T>>(p);
            }
    };

    template<typename Policy> requires (IsStatefulPolicy<Policy>)
    class ObjectFactory<Policy> {
        public:
            using Allocator = typename Policy::Allocator;
        private:
            template<typename Interface, typename Holder, typename T>
            static constexpr SharedPointer<Interface> CreateSharedForPointer(Allocator *a, T t) {
                using Base = impl::ImplTemplateBase<Interface, Interface, Holder, Holder>;
                return SharedPointer<Interface>(ObjectImplFactory<Base, Policy>::Create(a, std::forward<T>(t)), false);
            }
        public:
            template<typename Interface, typename Impl, typename... Args>
            static constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Allocator *a, Args &&... args) {
                using Base = impl::ImplTemplateBase<Interface, Interface, impl::EmplacedImplHolder<Impl>, impl::EmplacedImplHolder<Impl>>;
                return EmplacedRef<Interface, Impl>(ObjectImplFactory<Base, Policy>::Create(a, std::forward<Args>(args)...), false);
            }

            template<typename T, typename... Args>
            static constexpr SharedPointer<T> CreateUserSharedObject(Allocator *a, Args &&... args) {
                return SharedPointer<T>(ObjectImplFactory<T, Policy>::Create(a, std::forward<Args>(args)...), false);
            }

            template<typename Impl, typename Interface>
            static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {
                return impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(sp);
            }

            template<typename Interface, typename Smart>
            static constexpr SharedPointer<Interface> CreateShared(Allocator *a, Smart &&sp) {
                return CreateSharedForPointer<Interface, impl::SmartPointerHolder<typename std::decay<decltype(sp)>::type>>(a, std::forward<Smart>(sp));
            }

            template<typename Interface, typename T>
            static constexpr SharedPointer<Interface> CreateShared(Allocator *a, T *p) {
                return CreateSharedForPointer<Interface, impl::ManagedPointerHolder<T>>(a, p);
            }

            template<typename Interface, typename T>
            static constexpr SharedPointer<Interface> CreateSharedWithoutManagement(Allocator *a, T *p) {
                return CreateSharedForPointer<Interface, impl::UnmanagedPointerHolder<T>>(a, p);
            }
    };

    template<typename Policy>
    class StatefulObjectFactory {
        public:
            using Allocator = typename Policy::Allocator;
        private:
            using StaticObjectFactory = ObjectFactory<Policy>;
        private:
            Allocator *m_allocator;
        public:
            constexpr explicit StatefulObjectFactory(Allocator *a) : m_allocator(a) { /* ... */ }

            template<typename Interface, typename Impl, typename... Args>
            constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Args &&... args) {
                return StaticObjectFactory::template CreateSharedEmplaced<Interface, Impl>(m_allocator, std::forward<Args>(args)...);
            }

            template<typename Impl, typename Interface>
            static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {
                return StaticObjectFactory::template GetEmplacedImplPointer<Impl, Interface>(sp);
            }

            template<typename Interface, typename Smart>
            constexpr SharedPointer<Interface> CreateShared(Allocator *a, Smart &&sp) {
                AMS_UNUSED(a);
                return StaticObjectFactory::template CreateShared<Interface>(m_allocator, std::forward<Smart>(sp));
            }

            template<typename Interface, typename T>
            constexpr SharedPointer<Interface> CreateShared(Allocator *a, T *p) {
                AMS_UNUSED(a);
                return StaticObjectFactory::template CreateShared<Interface>(m_allocator, p);
            }

            template<typename Interface, typename T>
            constexpr SharedPointer<Interface> CreateSharedWithoutManagement(Allocator *a, T *p) {
                AMS_UNUSED(a);
                return StaticObjectFactory::template CreateSharedWithoutManagement<Interface>(m_allocator, p);
            }
    };

    using DefaultObjectFactory        = ObjectFactory<DefaultAllocationPolicy>;
    using MemoryResourceObjectFactory = ObjectFactory<MemoryResourceAllocationPolicy>;

    template<typename Interface, typename Impl, typename... Args>
    inline EmplacedRef<Interface, Impl> CreateSharedObjectEmplaced(Args &&... args) {
        return DefaultObjectFactory::CreateSharedEmplaced<Interface, Impl>(std::forward<Args>(args)...);
    }

    template<typename Interface, typename Impl, typename... Args>
    inline EmplacedRef<Interface, Impl> CreateSharedObjectEmplaced(MemoryResource *mr, Args &&... args) {
        return MemoryResourceObjectFactory::CreateSharedEmplaced<Interface, Impl>(mr, std::forward<Args>(args)...);
    }

    template<typename Interface, typename Smart>
    inline SharedPointer<Interface> CreateSharedObject(Smart &&sp) {
        return DefaultObjectFactory::CreateShared<Interface, Smart>(std::forward<Smart>(sp));
    }

    template<typename Interface, typename Smart>
    inline SharedPointer<Interface> CreateSharedObject(MemoryResource *mr, Smart &&sp) {
        return MemoryResourceObjectFactory::CreateShared<Interface, Smart>(mr, std::forward<Smart>(sp));
    }

    template<typename Interface, typename T>
    inline SharedPointer<Interface> CreateSharedObject(T *ptr) {
        return DefaultObjectFactory::CreateShared<Interface, T>(std::move(ptr));
    }

    template<typename Interface, typename T>
    inline SharedPointer<Interface> CreateSharedObjectWithoutManagement(T *ptr) {
        return DefaultObjectFactory::CreateSharedWithoutManagement<Interface, T>(std::move(ptr));
    }

    template<typename Interface, typename T>
    inline SharedPointer<Interface> CreateSharedObjectWithoutManagement(MemoryResource *mr, T *ptr) {
        return DefaultObjectFactory::CreateSharedWithoutManagement<Interface, T>(mr, std::move(ptr));
    }

}
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`/*`
ams: the copyright^H^H^H^H^H^H^Hmplex plane is the algebraic closure of the reals 2021-10-04 19:59:10 +00:00			`* Copyright (c) Atmosphère-NX`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`*`
			`* This program is free software; you can redistribute it and/or modify it`
			`* under the terms and conditions of the GNU General Public License,`
			`* version 2, as published by the Free Software Foundation.`
			`*`
			`* This program is distributed in the hope it will be useful, but WITHOUT`
			`* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or`
			`* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for`
			`* more details.`
			`*`
			`* You should have received a copy of the GNU General Public License`
			`* along with this program. If not, see <http://www.gnu.org/licenses/>.`
			`*/`

			`#pragma once`
			`#include <vapours.hpp>`
			`#include <stratosphere/sf/sf_common.hpp>`
			`#include <stratosphere/sf/impl/sf_impl_template_base.hpp>`
			`#include <stratosphere/sf/sf_object_impl_factory.hpp>`
			`#include <stratosphere/sf/sf_memory_resource.hpp>`
			`#include <stratosphere/sf/sf_default_allocation_policy.hpp>`

			`namespace ams::sf {`

			`namespace impl {`

			`template<typename>`
			`struct IsSmartPointer : public std::false_type{};`

			`template<typename T>`
			`struct IsSmartPointer<SharedPointer<T>> : public std::true_type{};`

			`template<typename T>`
			`struct IsSmartPointer<std::shared_ptr<T>> : public std::true_type{};`

			`template<typename T, typename D>`
			`struct IsSmartPointer<std::unique_ptr<T, D>> : public std::true_type{};`

			`template<typename Impl>`
			`struct UnmanagedEmplaceImplHolderBaseGetter {`
			`using Type = Impl;`
			`};`

tipc: first draft object allocation logic 2021-04-08 22:24:22 +00:00			`template<typename Impl> requires (std::is_abstract<Impl>::value)`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`struct UnmanagedEmplaceImplHolderBaseGetter<Impl> {`
			`class Impl2 : public Impl {`
			`public:`
			`using Impl::Impl;`
			`private:`
			`constexpr virtual void AddReference() override { /* ... */ }`
			`constexpr virtual void Release() override { /* ... */ }`
			`};`

			`using Type = Impl2;`
			`};`

			`template<typename Impl>`
			`class UnmanagedEmplacedImplHolder {`
			`template<typename, typename, typename, typename, typename>`
			`friend class impl::ImplTemplateBaseT;`
			`private:`
			`using Impl2 = typename UnmanagedEmplaceImplHolderBaseGetter<Impl>::Type;`
			`static_assert(!std::is_abstract<Impl2>::value);`
			`private:`
			`Impl2 m_impl;`
			`private:`
			`template<typename... Args>`
			`constexpr explicit UnmanagedEmplacedImplHolder(Args &&... args) : m_impl(std::forward<Args>(args)...) { /* ... */ }`
			`public:`
			`static constexpr Impl GetImplPointer(UnmanagedEmplacedImplHolder holder) {`
			`return std::addressof(holder->m_impl);`
			`}`
			`};`

			`template<typename Impl>`
			`class EmplacedImplHolder : private Impl {`
			`template<typename, typename, typename, typename, typename>`
			`friend class impl::ImplTemplateBaseT;`
			`private:`
			`template<typename... Args>`
			`constexpr explicit EmplacedImplHolder(Args &&... args) : Impl(std::forward<Args>(args)...) { /* ... */ }`
			`public:`
			`static constexpr Impl GetImplPointer(EmplacedImplHolder holder) {`
			`return holder;`
			`}`

			`template<typename Interface>`
			`static constexpr Impl *GetEmplacedImplPointerImpl(const SharedPointer<Interface> &sp) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, EmplacedImplHolder, EmplacedImplHolder>;`
			`return static_cast<Base *>(sp.Get());`
			`}`
			`};`

			`template<typename Impl> requires (IsSmartPointer<Impl>::value)`
			`class EmplacedImplHolder<Impl> : private Impl {`
			`template<typename, typename, typename, typename, typename>`
			`friend class impl::ImplTemplateBaseT;`
			`private:`
			`template<typename... Args>`
			`constexpr explicit EmplacedImplHolder(Args &&... args) : Impl(std::forward<Args>(args)...) { /* ... */ }`
			`public:`
			`static constexpr auto GetImplPointer(EmplacedImplHolder holder) {`
			`return static_cast<Impl *>(holder)->operator ->();`
			`}`

			`template<typename Interface>`
			`static constexpr Impl *GetEmplacedImplPointerImpl(const SharedPointer<Interface> &sp) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, EmplacedImplHolder, EmplacedImplHolder>;`
			`return static_cast<Base *>(sp.Get());`
			`}`
			`};`

			`template<typename T>`
			`using SmartPointerHolder = EmplacedImplHolder<T>;`

			`template<typename T>`
			`class ManagedPointerHolder {`
			`template<typename, typename, typename, typename, typename>`
			`friend class impl::ImplTemplateBaseT;`
			`private:`
			`T *m_p;`
			`private:`
			`constexpr explicit ManagedPointerHolder(T p) : m_p(p) { / ... */ }`
			`constexpr ~ManagedPointerHolder() { m_p->Release(); }`

			`static constexpr T GetImplPointer(ManagedPointerHolder holder) {`
			`return holder->m_p;`
			`}`
			`};`

			`template<typename T>`
			`class UnmanagedPointerHolder {`
			`template<typename, typename, typename, typename, typename>`
			`friend class impl::ImplTemplateBaseT;`
			`private:`
			`T *m_p;`
			`private:`
			`constexpr explicit UnmanagedPointerHolder(T p) : m_p(p) { / ... */ }`

			`static constexpr T GetImplPointer(UnmanagedPointerHolder holder) {`
			`return holder->m_p;`
			`}`
			`};`

			`}`

			`template<typename Interface, typename Impl>`
			`class UnmanagedServiceObject final : public impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedEmplacedImplHolder<Impl>, impl::UnmanagedEmplacedImplHolder<Impl>> {`
			`private:`
			`using ImplBase = impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedEmplacedImplHolder<Impl>, impl::UnmanagedEmplacedImplHolder<Impl>>;`
			`public:`
			`using ImplBase::ImplBase;`

			`constexpr virtual void AddReference() override { /* ... */ }`
			`constexpr virtual void Release() override { /* ... */ }`

util::string_view, update pgl for new sf semantics 2021-01-18 13:20:27 +00:00			`constexpr Impl &GetImpl() { return *impl::UnmanagedEmplacedImplHolder<Impl>::GetImplPointer(this); }`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00
			`constexpr SharedPointer<Interface> GetShared() { return SharedPointer<Interface>(this, false); }`
			`};`

			`template<typename Interface, typename T>`
			`class UnmanagedServiceObjectByPointer final : public impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedPointerHolder<T>, impl::UnmanagedPointerHolder<T>> {`
			`private:`
			`using ImplBase = impl::ImplTemplateBase<Interface, Interface, impl::UnmanagedPointerHolder<T>, impl::UnmanagedPointerHolder<T>>;`
			`public:`
			`constexpr explicit UnmanagedServiceObjectByPointer(T ptr) : ImplBase(ptr) { / ... */ }`

			`constexpr virtual void AddReference() override { /* ... */ }`
			`constexpr virtual void Release() override { /* ... */ }`

			`constexpr SharedPointer<Interface> GetShared() { return SharedPointer<Interface>(this, false); }`
			`};`

			`template<typename Policy>`
			`class ObjectFactory;`

			`template<typename Interface, typename Impl>`
			`class EmplacedRef : public SharedPointer<Interface> {`
			`template<typename> friend class ObjectFactory;`
			`private:`
			`constexpr explicit EmplacedRef(Interface ptr, bool incref) : SharedPointer<Interface>(ptr, incref) { / ... */ }`
			`public:`
			`constexpr EmplacedRef() { /* ... */ }`

			`constexpr Impl &GetImpl() const {`
			`return impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(this);`
			`}`
			`};`

			`template<typename Policy> requires (!IsStatefulPolicy<Policy>)`
			`class ObjectFactory<Policy> {`
			`private:`
			`template<typename Interface, typename Holder, typename T>`
			`static constexpr SharedPointer<Interface> CreateSharedForPointer(T t) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, Holder, Holder>;`
			`return SharedPointer<Interface>(ObjectImplFactory<Base, Policy>::Create(std::forward<T>(t)), false);`
			`}`
			`public:`
			`template<typename Interface, typename Impl, typename... Args>`
			`static constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Args &&... args) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, impl::EmplacedImplHolder<Impl>, impl::EmplacedImplHolder<Impl>>;`
			`return EmplacedRef<Interface, Impl>(ObjectImplFactory<Base, Policy>::Create(std::forward<Args>(args)...), false);`
			`}`

			`template<typename T, typename... Args>`
			`static constexpr SharedPointer<T> CreateUserSharedObject(Args &&... args) {`
			`return SharedPointer<T>(ObjectImplFactory<T, Policy>::Create(std::forward<Args>(args)...), false);`
			`}`

			`template<typename Impl, typename Interface>`
			`static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {`
			`return impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(sp);`
			`}`

			`template<typename Interface, typename Smart>`
			`static constexpr SharedPointer<Interface> CreateShared(Smart &&sp) {`
			`return CreateSharedForPointer<Interface, impl::SmartPointerHolder<typename std::decay<decltype(sp)>::type>>(std::forward<Smart>(sp));`
			`}`

			`template<typename Interface, typename T>`
			`static constexpr SharedPointer<Interface> CreateShared(T *p) {`
			`return CreateSharedForPointer<Interface, impl::ManagedPointerHolder<T>>(p);`
			`}`

			`template<typename Interface, typename T>`
			`static constexpr SharedPointer<Interface> CreateSharedWithoutManagement(T *p) {`
			`return CreateSharedForPointer<Interface, impl::UnmanagedPointerHolder<T>>(p);`
			`}`
			`};`

			`template<typename Policy> requires (IsStatefulPolicy<Policy>)`
			`class ObjectFactory<Policy> {`
			`public:`
			`using Allocator = typename Policy::Allocator;`
			`private:`
			`template<typename Interface, typename Holder, typename T>`
			`static constexpr SharedPointer<Interface> CreateSharedForPointer(Allocator *a, T t) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, Holder, Holder>;`
			`return SharedPointer<Interface>(ObjectImplFactory<Base, Policy>::Create(a, std::forward<T>(t)), false);`
			`}`
			`public:`
			`template<typename Interface, typename Impl, typename... Args>`
			`static constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Allocator *a, Args &&... args) {`
			`using Base = impl::ImplTemplateBase<Interface, Interface, impl::EmplacedImplHolder<Impl>, impl::EmplacedImplHolder<Impl>>;`
			`return EmplacedRef<Interface, Impl>(ObjectImplFactory<Base, Policy>::Create(a, std::forward<Args>(args)...), false);`
			`}`

			`template<typename T, typename... Args>`
			`static constexpr SharedPointer<T> CreateUserSharedObject(Allocator *a, Args &&... args) {`
			`return SharedPointer<T>(ObjectImplFactory<T, Policy>::Create(a, std::forward<Args>(args)...), false);`
			`}`

			`template<typename Impl, typename Interface>`
			`static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {`
			`return impl::EmplacedImplHolder<Impl>::template GetEmplacedImplPointerImpl<Interface>(sp);`
			`}`

			`template<typename Interface, typename Smart>`
			`static constexpr SharedPointer<Interface> CreateShared(Allocator *a, Smart &&sp) {`
			`return CreateSharedForPointer<Interface, impl::SmartPointerHolder<typename std::decay<decltype(sp)>::type>>(a, std::forward<Smart>(sp));`
			`}`

			`template<typename Interface, typename T>`
			`static constexpr SharedPointer<Interface> CreateShared(Allocator a, T p) {`
			`return CreateSharedForPointer<Interface, impl::ManagedPointerHolder<T>>(a, p);`
			`}`

			`template<typename Interface, typename T>`
			`static constexpr SharedPointer<Interface> CreateSharedWithoutManagement(Allocator a, T p) {`
			`return CreateSharedForPointer<Interface, impl::UnmanagedPointerHolder<T>>(a, p);`
			`}`
			`};`

			`template<typename Policy>`
			`class StatefulObjectFactory {`
			`public:`
			`using Allocator = typename Policy::Allocator;`
			`private:`
			`using StaticObjectFactory = ObjectFactory<Policy>;`
			`private:`
			`Allocator *m_allocator;`
			`public:`
			`constexpr explicit StatefulObjectFactory(Allocator a) : m_allocator(a) { / ... */ }`

			`template<typename Interface, typename Impl, typename... Args>`
			`constexpr EmplacedRef<Interface, Impl> CreateSharedEmplaced(Args &&... args) {`
			`return StaticObjectFactory::template CreateSharedEmplaced<Interface, Impl>(m_allocator, std::forward<Args>(args)...);`
			`}`

			`template<typename Impl, typename Interface>`
			`static constexpr Impl *GetEmplacedImplPointer(const SharedPointer<Interface> &sp) {`
			`return StaticObjectFactory::template GetEmplacedImplPointer<Impl, Interface>(sp);`
			`}`

			`template<typename Interface, typename Smart>`
			`constexpr SharedPointer<Interface> CreateShared(Allocator *a, Smart &&sp) {`
ams: support building unit test programs on windows/linux/macos 2022-03-06 20:08:20 +00:00			`AMS_UNUSED(a);`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`return StaticObjectFactory::template CreateShared<Interface>(m_allocator, std::forward<Smart>(sp));`
			`}`

			`template<typename Interface, typename T>`
			`constexpr SharedPointer<Interface> CreateShared(Allocator a, T p) {`
ams: support building unit test programs on windows/linux/macos 2022-03-06 20:08:20 +00:00			`AMS_UNUSED(a);`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`return StaticObjectFactory::template CreateShared<Interface>(m_allocator, p);`
			`}`

			`template<typename Interface, typename T>`
			`constexpr SharedPointer<Interface> CreateSharedWithoutManagement(Allocator a, T p) {`
ams: support building unit test programs on windows/linux/macos 2022-03-06 20:08:20 +00:00			`AMS_UNUSED(a);`
libstrat: convert to experimental new (super-accurate) sf allocation semantics 2021-01-17 15:55:32 +00:00			`return StaticObjectFactory::template CreateSharedWithoutManagement<Interface>(m_allocator, p);`
			`}`
			`};`

			`using DefaultObjectFactory = ObjectFactory<DefaultAllocationPolicy>;`
			`using MemoryResourceObjectFactory = ObjectFactory<MemoryResourceAllocationPolicy>;`

			`template<typename Interface, typename Impl, typename... Args>`
			`inline EmplacedRef<Interface, Impl> CreateSharedObjectEmplaced(Args &&... args) {`
			`return DefaultObjectFactory::CreateSharedEmplaced<Interface, Impl>(std::forward<Args>(args)...);`
			`}`

			`template<typename Interface, typename Impl, typename... Args>`
			`inline EmplacedRef<Interface, Impl> CreateSharedObjectEmplaced(MemoryResource *mr, Args &&... args) {`
			`return MemoryResourceObjectFactory::CreateSharedEmplaced<Interface, Impl>(mr, std::forward<Args>(args)...);`
			`}`

			`template<typename Interface, typename Smart>`
			`inline SharedPointer<Interface> CreateSharedObject(Smart &&sp) {`
			`return DefaultObjectFactory::CreateShared<Interface, Smart>(std::forward<Smart>(sp));`
			`}`

			`template<typename Interface, typename Smart>`
			`inline SharedPointer<Interface> CreateSharedObject(MemoryResource *mr, Smart &&sp) {`
			`return MemoryResourceObjectFactory::CreateShared<Interface, Smart>(mr, std::forward<Smart>(sp));`
			`}`

			`template<typename Interface, typename T>`
			`inline SharedPointer<Interface> CreateSharedObject(T *ptr) {`
			`return DefaultObjectFactory::CreateShared<Interface, T>(std::move(ptr));`
			`}`

			`template<typename Interface, typename T>`
			`inline SharedPointer<Interface> CreateSharedObjectWithoutManagement(T *ptr) {`
			`return DefaultObjectFactory::CreateSharedWithoutManagement<Interface, T>(std::move(ptr));`
			`}`

			`template<typename Interface, typename T>`
			`inline SharedPointer<Interface> CreateSharedObjectWithoutManagement(MemoryResource mr, T ptr) {`
			`return DefaultObjectFactory::CreateSharedWithoutManagement<Interface, T>(mr, std::move(ptr));`
			`}`

			`}`