The rule of three/five/zero
Rule of three
If a class requires a user-defined destructor, a user-defined copy constructor, or a user-defined copy assignment operator, it almost certainly requires all three.
Because C++ copies and copy-assigns objects of user-defined types in various situations (passing/returning by value, manipulating a container, etc), these special member functions will be called, if accessible, and if they are not user-defined, they are implicitly-defined by the compiler.
The implicitly-defined special member functions are typically incorrect if the class is managing a resource whose handle is an object of non-class type (raw pointer, POSIX file descriptor, etc), whose destructor does nothing and copy constructor/assignment operator performs a "shallow copy" (copy the value of the handle, without duplicating the underlying resource).
class rule_of_three { char* cstring; // raw pointer used as a handle to a dynamically-allocated memory block rule_of_three(const char* s, std::size_t n) // to avoid counting twice : cstring(new char[n]) // allocate { std::memcpy(cstring, s, n); // populate } public: rule_of_three(const char* s = "") : rule_of_three(s, std::strlen(s) + 1) {} ~rule_of_three() { delete[] cstring; // deallocate } rule_of_three(const rule_of_three& other) // copy constructor : rule_of_three(other.cstring) {} rule_of_three& operator=(rule_of_three other) // copy assignment { std::swap(cstring, other.cstring); return *this; } };
Classes that manage non-copyable resources through copyable handles may have to declare copy assignment and copy constructor private and not provide their definitions or define them as deleted. This is another application of the rule of three: deleting one and leaving the other to be implicitly-defined will most likely result in errors.
Rule of five
Because the presence of a user-defined destructor, copy-constructor, or copy-assignment operator prevents implicit definition of the move constructor and the move assignment operator, any class for which move semantics are desirable, has to declare all five special member functions:
class rule_of_five { char* cstring; // raw pointer used as a handle to a dynamically-allocated memory block rule_of_five(const char* s, std::size_t n) // to avoid counting twice : cstring(new char[n]) // allocate { std::memcpy(cstring, s, n); // populate } public: rule_of_five(const char* s = "") : rule_of_five(s, std::strlen(s) + 1) {} ~rule_of_five() { delete[] cstring; // deallocate } rule_of_five(const rule_of_five& other) // copy constructor : rule_of_five(other.cstring) {} rule_of_five(rule_of_five&& other) noexcept // move constructor : cstring(std::exchange(other.cstring, nullptr)) {} rule_of_five& operator=(const rule_of_five& other) // copy assignment { return *this = rule_of_five(other); } rule_of_five& operator=(rule_of_five&& other) noexcept // move assignment { std::swap(cstring, other.cstring); return *this; } // alternatively, replace both assignment operators with // rule_of_five& operator=(rule_of_five other) noexcept // { // std::swap(cstring, other.cstring); // return *this; // } };
Unlike Rule of Three, failing to provide move constructor and move assignment is usually not an error, but a missed optimization opportunity.
Rule of zero
Classes that have custom destructors, copy/move constructors or copy/move assignment operators should deal exclusively with ownership (which follows from the Single Responsibility Principle). Other classes should not have custom destructors, copy/move constructors or copy/move assignment operators.[1]
This rule also appears in the C++ Core Guidelines as C.20: If you can avoid defining default operations, do.
class rule_of_zero { std::string cppstring; public: rule_of_zero(const std::string& arg) : cppstring(arg) {} };
When a base class is intended for polymorphic use, its destructor may have to be declared public and virtual. This blocks implicit moves (and deprecates implicit copies), and so the special member functions have to be declared as defaulted[2]
class base_of_five_defaults { public: base_of_five_defaults(const base_of_five_defaults&) = default; base_of_five_defaults(base_of_five_defaults&&) = default; base_of_five_defaults& operator=(const base_of_five_defaults&) = default; base_of_five_defaults& operator=(base_of_five_defaults&&) = default; virtual ~base_of_five_defaults() = default; };
however, this makes the class prone to slicing, which is why polymorphic classes often define copy as deleted (see C.67: A polymorphic class should suppress copying in C++ Core Guidelines), which leads to the following generic wording for the Rule of Five: