2015-06-21 17:31:19 +02:00
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#pragma once
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#ifndef MESSMER_CPP_UTILS_POINTER_UNIQUE_REF_H
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#define MESSMER_CPP_UTILS_POINTER_UNIQUE_REF_H
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2015-06-17 00:38:32 +02:00
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#include <memory>
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#include <boost/optional.hpp>
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2015-06-21 17:31:19 +02:00
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#include "../macros.h"
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#include "cast.h"
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2015-06-17 00:38:32 +02:00
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namespace cpputils {
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/**
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* unique_ref<T> behaves like unique_ptr<T>, but guarantees that the pointer points to a valid object.
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* You can create objects using make_unique_ref (works like make_unique for unique_ptr).
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*
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* If you happen to already have a unique_ptr<T>, you can call nullcheck(unique_ptr),
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* which returns optional<unique_ref<T>>.
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* Take care that this should be used very rarely, since it circumvents parts of the guarantee.
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* It still protects against null pointers, but it does not guarantee anymore that the pointer points
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* to a valid object. It might hold an arbitrary non-null memory location.
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*
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* Caution: There is one way a unique_ref<T> can actually hold a nullptr.
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* It will hold a nullptr after its value was moved to another unique_ref.
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* Never use the old instance after moving!
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*/
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template<typename T>
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2015-06-26 02:08:14 +02:00
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class unique_ref final {
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2015-06-17 00:38:32 +02:00
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public:
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unique_ref(unique_ref&& from): _target(std::move(from._target)) {}
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2015-06-28 17:40:16 +02:00
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// TODO Test this upcast-allowing move constructor
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2015-06-18 02:36:57 +02:00
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template<typename U> unique_ref(unique_ref<U>&& from): _target(std::move(from._target)) {}
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2015-06-17 00:38:32 +02:00
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unique_ref& operator=(unique_ref&& from) {
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2015-06-18 01:29:02 +02:00
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_target = std::move(from._target);
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return *this;
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2015-06-17 00:38:32 +02:00
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}
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2015-06-28 17:40:16 +02:00
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// TODO Test this upcast-allowing assignment
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template<typename U> unique_ref& operator=(unique_ref<U>&& from) {
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_target = std::move(from._target);
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return *this;
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}
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2015-06-17 00:38:32 +02:00
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2015-06-28 17:34:23 +02:00
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typename std::add_lvalue_reference<T>::type operator*() const& {
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2015-06-17 00:38:32 +02:00
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return *_target;
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}
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2015-06-28 17:34:23 +02:00
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typename std::add_rvalue_reference<T>::type operator*() && {
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return std::move(*_target);
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}
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2015-06-17 00:38:32 +02:00
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T* operator->() const {
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return get();
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}
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T* get() const {
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return _target.get();
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}
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2015-06-18 01:29:02 +02:00
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void swap(unique_ref& rhs) {
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std::swap(_target, rhs._target);
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2015-06-17 00:38:32 +02:00
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}
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private:
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unique_ref(std::unique_ptr<T> target): _target(std::move(target)) {}
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template<typename U, typename... Args> friend unique_ref<U> make_unique_ref(Args&&... args);
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template<typename U> friend boost::optional<unique_ref<U>> nullcheck(std::unique_ptr<U> ptr);
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2015-06-18 02:36:57 +02:00
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template<typename U> friend class unique_ref;
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2015-06-21 17:31:19 +02:00
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template<typename DST, typename SRC> friend boost::optional<unique_ref<DST>> dynamic_pointer_move(unique_ref<SRC> &source);
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2015-06-18 19:35:30 +02:00
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template<typename U> friend std::unique_ptr<U> to_unique_ptr(unique_ref<U> ref);
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2015-06-17 00:38:32 +02:00
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std::unique_ptr<T> _target;
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DISALLOW_COPY_AND_ASSIGN(unique_ref);
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};
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template<typename T, typename... Args>
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inline unique_ref<T> make_unique_ref(Args&&... args) {
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return unique_ref<T>(std::make_unique<T>(std::forward<Args>(args)...));
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}
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template<typename T>
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inline boost::optional<unique_ref<T>> nullcheck(std::unique_ptr<T> ptr) {
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if (ptr.get() != nullptr) {
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return unique_ref<T>(std::move(ptr));
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}
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return boost::none;
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}
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2015-07-21 15:23:21 +02:00
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template<typename T> inline void destruct(unique_ref<T> ptr) {
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2015-07-21 15:44:36 +02:00
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to_unique_ptr(std::move(ptr)).reset();
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2015-07-21 15:23:21 +02:00
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}
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2015-06-18 02:36:57 +02:00
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//TODO Also allow passing a rvalue reference, otherwise dynamic_pointer_move(func()) won't work
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template<typename DST, typename SRC>
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2015-06-18 19:35:30 +02:00
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inline boost::optional<unique_ref<DST>> dynamic_pointer_move(unique_ref<SRC> &source) {
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return nullcheck<DST>(dynamic_pointer_move<DST>(source._target));
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}
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//TODO Write test cases for to_unique_ptr
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template<typename T>
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inline std::unique_ptr<T> to_unique_ptr(unique_ref<T> ref) {
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return std::move(ref._target);
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2015-06-18 02:36:57 +02:00
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}
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2015-06-18 01:29:02 +02:00
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template<typename T>
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inline bool operator==(const unique_ref<T> &lhs, const unique_ref<T> &rhs) {
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return lhs.get() == rhs.get();
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2015-06-17 00:38:32 +02:00
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}
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2015-06-18 01:29:02 +02:00
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template<typename T>
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inline bool operator!=(const unique_ref<T> &lhs, const unique_ref<T> &rhs) {
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return !operator==(lhs, rhs);
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2015-06-17 00:38:32 +02:00
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}
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}
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namespace std {
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template<typename T>
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inline void swap(cpputils::unique_ref<T>& lhs, cpputils::unique_ref<T>& rhs) {
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lhs.swap(rhs);
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}
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template<typename T>
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inline void swap(cpputils::unique_ref<T>&& lhs, cpputils::unique_ref<T>& rhs) {
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lhs.swap(rhs);
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}
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template<typename T>
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inline void swap(cpputils::unique_ref<T>& lhs, cpputils::unique_ref<T>&& rhs) {
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lhs.swap(rhs);
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}
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2015-06-18 01:29:02 +02:00
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// Allow using it in std::unordered_set / std::unordered_map
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template<typename T> struct hash<cpputils::unique_ref<T>> {
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size_t operator()(const cpputils::unique_ref<T> &ref) const {
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return (size_t)ref.get();
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}
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};
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// Allow using it in std::map / std::set
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template <typename T> struct less<cpputils::unique_ref<T>> {
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bool operator()(const cpputils::unique_ref<T> &lhs, const cpputils::unique_ref<T> &rhs) const {
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return lhs.get() < rhs.get();
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}
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};
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2015-06-17 00:38:32 +02:00
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}
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#endif
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