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294 lines
9.5 KiB
C++
294 lines
9.5 KiB
C++
#pragma once
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#include <boost/smart_ptr/intrusive_ptr.hpp>
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#include <boost/smart_ptr/intrusive_ref_counter.hpp>
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#include <initializer_list>
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/** Copy-on-write shared ptr.
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* Allows to work with shared immutable objects and sometimes unshare and mutate you own unique copy.
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*
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* Usage:
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class Column : public COW<Column>
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{
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private:
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friend class COW<Column>;
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/// Leave all constructors in private section. They will be available through 'create' method.
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Column();
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/// Provide 'clone' method. It can be virtual if you want polymorphic behaviour.
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virtual Column * clone() const;
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public:
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/// Correctly use const qualifiers in your interface.
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virtual ~Column() {}
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};
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* It will provide 'create' and 'mutate' methods.
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* And 'Ptr' and 'MutablePtr' types.
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* Ptr is refcounted pointer to immutable object.
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* MutablePtr is refcounted noncopyable pointer to mutable object.
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* MutablePtr can be assigned to Ptr through move assignment.
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*
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* 'create' method creates MutablePtr: you cannot share mutable objects.
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* To share, move-assign to immutable pointer.
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* 'mutate' method allows to create mutable noncopyable object from immutable object:
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* either by cloning or by using directly, if it is not shared.
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* These methods are thread-safe.
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*
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* Example:
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*
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/// Creating and assigning to immutable ptr.
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Column::Ptr x = Column::create(1);
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/// Sharing single immutable object in two ptrs.
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Column::Ptr y = x;
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/// Now x and y are shared.
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/// Change value of x.
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{
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/// Creating mutable ptr. It can clone an object under the hood if it was shared.
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Column::MutablePtr mutate_x = IColumn::mutate(std::move(x));
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/// Using non-const methods of an object.
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mutate_x->set(2);
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/// Assigning pointer 'x' to mutated object.
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x = std::move(mutate_x);
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}
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/// Now x and y are unshared and have different values.
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* Note. You may have heard that COW is bad practice.
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* Actually it is, if your values are small or if copying is done implicitly.
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* This is the case for string implementations.
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*
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* In contrast, COW is intended for the cases when you need to share states of large objects,
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* (when you usually will use std::shared_ptr) but you also want precise control over modification
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* of this shared state.
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*
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* Caveats:
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* - after a call to 'mutate' method, you can still have a reference to immutable ptr somewhere.
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* - as 'mutable_ptr' should be unique, it's refcount is redundant - probably it would be better
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* to use std::unique_ptr for it somehow.
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*/
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template <typename Derived>
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class COW : public boost::intrusive_ref_counter<Derived>
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{
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private:
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Derived * derived() { return static_cast<Derived *>(this); }
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const Derived * derived() const { return static_cast<const Derived *>(this); }
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protected:
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template <typename T>
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class mutable_ptr : public boost::intrusive_ptr<T> /// NOLINT
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{
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private:
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using Base = boost::intrusive_ptr<T>;
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template <typename> friend class COW;
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template <typename, typename> friend class COWHelper;
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explicit mutable_ptr(T * ptr) : Base(ptr) {}
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public:
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/// Copy: not possible.
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mutable_ptr(const mutable_ptr &) = delete;
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/// Move: ok.
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mutable_ptr(mutable_ptr &&) = default; /// NOLINT
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mutable_ptr & operator=(mutable_ptr &&) = default; /// NOLINT
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/// Initializing from temporary of compatible type.
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template <typename U>
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mutable_ptr(mutable_ptr<U> && other) : Base(std::move(other)) {} /// NOLINT
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mutable_ptr() = default;
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mutable_ptr(std::nullptr_t) {} /// NOLINT
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};
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public:
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using MutablePtr = mutable_ptr<Derived>;
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protected:
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template <typename T>
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class immutable_ptr : public boost::intrusive_ptr<const T> /// NOLINT
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{
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private:
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using Base = boost::intrusive_ptr<const T>;
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template <typename> friend class COW;
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template <typename, typename> friend class COWHelper;
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explicit immutable_ptr(const T * ptr) : Base(ptr) {}
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public:
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/// Copy from immutable ptr: ok.
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immutable_ptr(const immutable_ptr &) = default;
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immutable_ptr & operator=(const immutable_ptr &) = default;
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template <typename U>
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immutable_ptr(const immutable_ptr<U> & other) : Base(other) {} /// NOLINT
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/// Move: ok.
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immutable_ptr(immutable_ptr &&) = default; /// NOLINT
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immutable_ptr & operator=(immutable_ptr &&) = default; /// NOLINT
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/// Initializing from temporary of compatible type.
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template <typename U>
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immutable_ptr(immutable_ptr<U> && other) : Base(std::move(other)) {} /// NOLINT
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/// Move from mutable ptr: ok.
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template <typename U>
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immutable_ptr(mutable_ptr<U> && other) : Base(std::move(other)) {} /// NOLINT
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/// Copy from mutable ptr: not possible.
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template <typename U>
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immutable_ptr(const mutable_ptr<U> &) = delete;
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immutable_ptr() = default;
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immutable_ptr(std::nullptr_t) {} /// NOLINT
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};
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public:
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using Ptr = immutable_ptr<Derived>;
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template <typename... Args>
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static MutablePtr create(Args &&... args) { return MutablePtr(new Derived(std::forward<Args>(args)...)); }
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template <typename T>
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static MutablePtr create(std::initializer_list<T> && arg) { return create(std::forward<std::initializer_list<T>>(arg)); }
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Ptr getPtr() const { return static_cast<Ptr>(derived()); }
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MutablePtr getPtr() { return static_cast<MutablePtr>(derived()); }
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protected:
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MutablePtr shallowMutate() const
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{
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if (this->use_count() > 1)
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return derived()->clone();
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else
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return assumeMutable();
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}
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public:
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static MutablePtr mutate(Ptr ptr)
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{
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return ptr->shallowMutate();
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}
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MutablePtr assumeMutable() const
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{
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return const_cast<COW*>(this)->getPtr();
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}
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Derived & assumeMutableRef() const
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{
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return const_cast<Derived &>(*derived());
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}
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protected:
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/// It works as immutable_ptr if it is const and as mutable_ptr if it is non const.
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template <typename T>
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class chameleon_ptr /// NOLINT
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{
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private:
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immutable_ptr<T> value;
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public:
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template <typename... Args>
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chameleon_ptr(Args &&... args) : value(std::forward<Args>(args)...) {} /// NOLINT
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template <typename U>
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chameleon_ptr(std::initializer_list<U> && arg) : value(std::forward<std::initializer_list<U>>(arg)) {}
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const T * get() const { return value.get(); }
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T * get() { return &value->assumeMutableRef(); }
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const T * operator->() const { return get(); }
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T * operator->() { return get(); }
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const T & operator*() const { return *value; }
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T & operator*() { return value->assumeMutableRef(); }
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operator const immutable_ptr<T> & () const { return value; } /// NOLINT
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operator immutable_ptr<T> & () { return value; } /// NOLINT
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/// Get internal immutable ptr. Does not change internal use counter.
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immutable_ptr<T> detach() && { return std::move(value); }
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explicit operator bool() const { return value != nullptr; }
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bool operator! () const { return value == nullptr; }
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bool operator== (const chameleon_ptr & rhs) const { return value == rhs.value; }
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bool operator!= (const chameleon_ptr & rhs) const { return value != rhs.value; }
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};
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public:
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/** Use this type in class members for compositions.
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*
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* NOTE:
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* For classes with WrappedPtr members,
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* you must reimplement 'mutate' method, so it will call 'mutate' of all subobjects (do deep mutate).
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* It will guarantee, that mutable object have all subobjects unshared.
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*
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* NOTE:
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* If you override 'mutate' method in inherited classes, don't forget to make it virtual in base class or to make it call a virtual method.
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* (COW itself doesn't force any methods to be virtual).
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*
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* See example in "cow_compositions.cpp".
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*/
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using WrappedPtr = chameleon_ptr<Derived>;
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};
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/** Helper class to support inheritance.
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* Example:
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*
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* class IColumn : public COW<IColumn>
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* {
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* friend class COW<IColumn>;
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* virtual MutablePtr clone() const = 0;
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* virtual ~IColumn() {}
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* };
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*
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* class ConcreteColumn : public COWHelper<IColumn, ConcreteColumn>
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* {
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* friend class COWHelper<IColumn, ConcreteColumn>;
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* };
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*
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* Here is complete inheritance diagram:
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*
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* ConcreteColumn
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* COWHelper<IColumn, ConcreteColumn>
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* IColumn
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* CowPtr<IColumn>
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* boost::intrusive_ref_counter<IColumn>
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*
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* See example in "cow_columns.cpp".
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*/
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template <typename Base, typename Derived>
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class COWHelper : public Base
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{
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private:
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Derived * derived() { return static_cast<Derived *>(this); }
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const Derived * derived() const { return static_cast<const Derived *>(this); }
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public:
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using Ptr = typename Base::template immutable_ptr<Derived>;
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using MutablePtr = typename Base::template mutable_ptr<Derived>;
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template <typename... Args>
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static MutablePtr create(Args &&... args) { return MutablePtr(new Derived(std::forward<Args>(args)...)); }
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template <typename T>
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static MutablePtr create(std::initializer_list<T> && arg) { return MutablePtr(new Derived(std::forward<std::initializer_list<T>>(arg))); }
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typename Base::MutablePtr clone() const override { return typename Base::MutablePtr(new Derived(*derived())); }
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protected:
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MutablePtr shallowMutate() const { return MutablePtr(static_cast<Derived *>(Base::shallowMutate().get())); }
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};
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