/** * Implementation of N4562 std::experimental::any (merged into C++17 as std::any) * for C++11 compilers. * * See also: * + http://en.cppreference.com/w/cpp/any * + http://en.cppreference.com/w/cpp/experimental/any * + http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2015/n4562.html#any * + https://cplusplus.github.io/LWG/lwg-active.html#2509 * * Copyright (c) 2016 Denilson das Merc?s Amorim * Copyright (c) 2018 Claudio Fantacci * * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE.md or copy at http://www.boost.org/LICENSE_1_0.txt) */ #ifndef ANY_H #define ANY_H #include #include #include namespace libany { class bad_any_cast : public std::bad_cast { public: const char* what() const noexcept override { return "bad any_cast"; } }; class any final { public: /** * Constructs an object of type any with an empty state. */ any() : vtable(nullptr) { } /** * Constructs an object of type any with an equivalent state as other. */ any(const any& rhs) : vtable(rhs.vtable) { if(rhs.has_value()) { rhs.vtable->copy(rhs.storage, this->storage); } } /** * Constructs an object of type any with a state equivalent to the original state of other. * rhs is left in a valid but otherwise unspecified state. */ any(any&& rhs) noexcept : vtable(rhs.vtable) { if(rhs.has_value()) { rhs.vtable->move(rhs.storage, this->storage); rhs.vtable = nullptr; } } /** * Same effect as this->clear(). */ ~any() { this->reset(); } /** * Constructs an object of type any that contains an object of type T direct-initialized with std::forward(value). * T shall satisfy the CopyConstructible requirements, otherwise the program is ill-formed. * This is because an `any` may be copy constructed into another `any` at any time, so a copy should always be allowed. */ template::type, any>::value>::type> any(ValueType&& value) { static_assert(std::is_copy_constructible::type>::value, "T shall satisfy the CopyConstructible requirements."); this->construct(std::forward(value)); } /** * Has the same effect as any(rhs).swap(*this). No effects if an exception is thrown. */ any& operator=(const any& rhs) { any(rhs).swap(*this); return *this; } /** * Has the same effect as any(std::move(rhs)).swap(*this). * The state of *this is equivalent to the original state of rhs and rhs is left in a valid * but otherwise unspecified state. */ any& operator=(any&& rhs) noexcept { any(std::move(rhs)).swap(*this); return *this; } /** * Has the same effect as any(std::forward(value)).swap(*this). No effect if a exception is thrown. * T shall satisfy the CopyConstructible requirements, otherwise the program is ill-formed. * This is because an `any` may be copy constructed into another `any` at any time, so a copy should always be allowed. */ template::type, any>::value>::type> any& operator=(ValueType&& value) { static_assert(std::is_copy_constructible::type>::value, "T shall satisfy the CopyConstructible requirements."); any(std::forward(value)).swap(*this); return *this; } /** * If not empty, destroys the contained object. */ void reset() noexcept { if(has_value()) { this->vtable->destroy(storage); this->vtable = nullptr; } } /** * Returns true if *this has no contained object, otherwise false. */ bool has_value() const noexcept { return this->vtable != nullptr; } /** * If *this has a contained object of type T, typeid(T); otherwise typeid(void). */ const std::type_info& type() const noexcept { return has_value()? this->vtable->type() : typeid(void); } /** * Exchange the states of *this and rhs. */ void swap(any& other) noexcept { if(this->vtable != other.vtable) { any tmp(std::move(other)); other.vtable = this->vtable; if(this->vtable != nullptr) this->vtable->move(this->storage, other.storage); this->vtable = tmp.vtable; if(tmp.vtable != nullptr) { tmp.vtable->move(tmp.storage, this->storage); tmp.vtable = nullptr; } } else { if(this->vtable != nullptr) this->vtable->swap(this->storage, other.storage); } } private: union storage_union { using stack_storage_t = typename std::aligned_storage<2 * sizeof(void*), std::alignment_of::value>::type; void* dynamic; stack_storage_t stack; }; /** * Base VTable specification. * * Note: The caller is responsible for doing .vtable = nullptr after destructful operations * such as destroy() and/or move(). */ struct vtable_type { /** * The type of the object this vtable is for. */ const std::type_info& (*type)() noexcept; /** * Destroys the object in the union. * The state of the union after this call is unspecified, caller must ensure not to use src anymore. */ void(*destroy)(storage_union&) noexcept; /** * Copies the **inner** content of the src union into the yet unitialized dest union. * As such, both inner objects will have the same state, but on separate memory locations. */ void(*copy)(const storage_union& src, storage_union& dest); /** * Moves the storage from src to the yet unitialized dest union. * The state of src after this call is unspecified, caller must ensure not to use src anymore. */ void(*move)(storage_union& src, storage_union& dest) noexcept; /** * Exchanges the storage between lhs and rhs. */ void(*swap)(storage_union& lhs, storage_union& rhs) noexcept; }; /** * VTable for dynamically allocated storage. */ template struct vtable_dynamic { static const std::type_info& type() noexcept { return typeid(T); } static void destroy(storage_union& storage) noexcept { delete reinterpret_cast(storage.dynamic); } static void copy(const storage_union& src, storage_union& dest) { dest.dynamic = new T(*reinterpret_cast(src.dynamic)); } static void move(storage_union& src, storage_union& dest) noexcept { dest.dynamic = src.dynamic; src.dynamic = nullptr; } static void swap(storage_union& lhs, storage_union& rhs) noexcept { std::swap(lhs.dynamic, rhs.dynamic); } }; /** * VTable for stack allocated storage. */ template struct vtable_stack { static const std::type_info& type() noexcept { return typeid(T); } static void destroy(storage_union& storage) noexcept { reinterpret_cast(&storage.stack)->~T(); } static void copy(const storage_union& src, storage_union& dest) { new (&dest.stack) T(reinterpret_cast(src.stack)); } static void move(storage_union& src, storage_union& dest) noexcept { /** * One of the conditions for using vtable_stack is a nothrow move constructor, * so this move constructor will never throw a exception. */ new (&dest.stack) T(std::move(reinterpret_cast(src.stack))); destroy(src); } static void swap(storage_union& lhs, storage_union& rhs) noexcept { storage_union tmp_storage; move(rhs, tmp_storage); move(lhs, rhs); move(tmp_storage, lhs); } }; /** * Whether the type T must be dynamically allocated or can be stored on the stack. */ template struct requires_allocation : std::integral_constant::value // N4562 6.3/3 [any.class] && sizeof(T) <= sizeof(storage_union::stack) && std::alignment_of::value <= std::alignment_of::value)> { }; /** * Returns the pointer to the vtable of the type T. */ template static vtable_type* vtable_for_type() { using VTableType = typename std::conditional::value, vtable_dynamic, vtable_stack>::type; static vtable_type table = { VTableType::type, VTableType::destroy, VTableType::copy, VTableType::move, VTableType::swap }; return &table; } protected: template friend const T* any_cast(const any* operand) noexcept; template friend T* any_cast(any* operand) noexcept; /** * Same effect as is_same(this->type(), t); */ bool is_typed(const std::type_info& t) const { return is_same(this->type(), t); } /** * Checks if two type infos are the same. * If ANY_IMPL_FAST_TYPE_INFO_COMPARE is defined, checks only the address of the * type infos, otherwise does an actual comparision. Checking addresses is * only a valid approach when there's no interaction with outside sources * (other shared libraries and such). */ static bool is_same(const std::type_info& a, const std::type_info& b) { #ifdef ANY_IMPL_FAST_TYPE_INFO_COMPARE return &a == &b; #else return a == b; #endif } /** * Casts (with no type_info checks) the storage pointer as const T*. */ template const T* cast() const noexcept { return requires_allocation::type>::value ? reinterpret_cast(storage.dynamic) : reinterpret_cast(&storage.stack); } /** * Casts (with no type_info checks) the storage pointer as T*. */ template T* cast() noexcept { return requires_allocation::type>::value ? reinterpret_cast(storage.dynamic) : reinterpret_cast(&storage.stack); } private: storage_union storage; // On offset(0) so no padding for align vtable_type* vtable; template typename std::enable_if::value>::type do_construct(ValueType&& value) { storage.dynamic = new T(std::forward(value)); } template typename std::enable_if::value>::type do_construct(ValueType&& value) { new (&storage.stack) T(std::forward(value)); } /** * Chooses between stack and dynamic allocation for the type decay_t, * assigns the correct vtable, and constructs the object on our storage. */ template void construct(ValueType&& value) { using T = typename std::decay::type; this->vtable = vtable_for_type(); do_construct(std::forward(value)); } }; namespace detail { template inline ValueType any_cast_move_if_true(typename std::remove_reference::type* p, std::true_type) { return std::move(*p); } template inline ValueType any_cast_move_if_true(typename std::remove_reference::type* p, std::false_type) { return *p; } } /** * Performs *any_cast>>(&operand), or throws bad_any_cast on failure. */ template inline ValueType any_cast(const any& operand) { auto p = any_cast::type>::type>(&operand); if(p == nullptr) { std::cout << "libany err-01\n"; throw bad_any_cast(); } return *p; } /** * Performs *any_cast>(&operand), or throws bad_any_cast on failure. */ template inline ValueType any_cast(any& operand) { auto p = any_cast::type>(&operand); if(p == nullptr) throw bad_any_cast(); return *p; } /** * If ANY_IMPL_ANYCAST_MOVEABLE is not defined, does as N4562 specifies: * Performs *any_cast>(&operand), or throws bad_any_cast on failure. * * If ANY_IMPL_ANYCAST_MOVEABLE is defined, does as LWG Defect 2509 specifies [1]: * If ValueType is MoveConstructible and isn't a lvalue reference, performs * std::move(*any_cast>(&operand)), otherwise * *any_cast>(&operand). * Throws bad_any_cast on failure. * * [1] https://cplusplus.github.io/LWG/lwg-active.html#2509 */ template inline ValueType any_cast(any&& operand) { #ifdef ANY_IMPL_ANY_CAST_MOVEABLE using can_move = std::integral_constant::value && !std::is_lvalue_reference::value>; #else using can_move = std::false_type; #endif auto p = any_cast::type>(&operand); if(p == nullptr) throw bad_any_cast(); return detail::any_cast_move_if_true(p, can_move()); } /** * If operand != nullptr && operand->type() == typeid(ValueType), a pointer to the object * contained by operand, otherwise nullptr. */ template inline const T* any_cast(const any* operand) noexcept { if(operand == nullptr || !operand->is_typed(typeid(T))) return nullptr; else return operand->cast(); } /** * If operand != nullptr && operand->type() == typeid(ValueType), a pointer to the object * contained by operand, otherwise nullptr. */ template inline T* any_cast(any* operand) noexcept { if(operand == nullptr || !operand->is_typed(typeid(T))) return nullptr; else return operand->cast(); } inline void swap(any& lhs, any& rhs) noexcept { lhs.swap(rhs); } } #endif /* ANY_H */