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This question already has an answer here:

Earlier today I asked a question that led to another one: When should I use =delete? I don't think there is a post dedicated solely to =delete on SO, so I looked it up in a book called "The C++ Programming Language". I will list my findings in my answer below.

Please comment or answer if there's more to say or if I'm mistaken.

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marked as duplicate by Rapptz, trojanfoe, SingerOfTheFall, No Idea For Name, ddriver Sep 18 '13 at 19:03

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
@Rapptz I saw that post, but I thought it was about what =default and =delete do. This one is about real uses of =delete. It's easy to understand that =delete disallows the use of the function, but why on Earth would you want to do that? This post answers why. – Oleksiy Sep 17 '13 at 5:21
    
this smells fishy... – No Idea For Name Sep 17 '13 at 14:02
    
"This question already has an answer here..." - um, no it doesn't. Even though these questions are related, they aren't duplicates. – Oleksiy Sep 19 '13 at 3:28
up vote 28 down vote accepted

It turns out that =delete is extremely useful! Here are a few examples:


Basically we can prevent copying base classes because it might often lead to slicing:

struct Base {

    Base(){}

    Base& operator=(const Base&) = delete; // disallow copying
    Base(const Base&) = delete;

    Base& operator=(Base && ) = delete;      // disallow moving
    Base(Base && ) = delete;

};

struct Der : public Base {};

void func() {

    Der d;
    Base base = d; // this won't work because the copy constructor is deleted!
                   // this behavior is desired - otherwise slicing would occur

}

It's also useful when a template function cannot run with a certain type:

template<class T>
void fn(T p) { /* ... */ }; // do something with T

void fn(int) = delete; // disallow use with int

void fun() {

    fn(4);      // aha! cannot use fn() with int!
    fn(-4.5);   // fine
    fn("hello");// fine
}

=delete can also disallow undesired conversions:

struct Z {

    Z(double); // can initialize with a double
    Z(int) = delete; // but not with an integer

};

void f() {

    Z z1 { 1 }; // error! can't use int
    Z z2 { 1.0 }; // double is ok

}

Some more advanced uses of =delete include prohibiting stack or free store allocation:

class FS_Only {
    ~FS_Only() = delete;  // disallow stack allocation
};

class Stack_Only {
    void* operator new(size_t) = delete;   // disallow heap allocation
};

... You get the idea. Hope this helps someone! =delete can help write readable, bugless and elegant code.


Edit:

As it was correctly pointed out in the comments, it is now impossible to delete FS_Only objects, so this one isn't such a good use of =delete after all.

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1  
Wow, the only use I knew was to disallow copying. I don't expect so many other uses. – Siyuan Ren Sep 17 '13 at 5:19
4  
The destructor is called also when you delete an object allocated on the heap, so by marking the destructor as deleted you make a class that can you can use to allocate on the heap but never delete. – Joachim Pileborg Sep 17 '13 at 5:21
1  
Wow, with each new revision of the C++ spec. it becomes less and less recognizable as a language. This sounds useful, but boy that syntax is a total eyesore for a dinosaur like me. – Andon M. Coleman Sep 17 '13 at 5:21
    
I agree with Andon, the =delete syntax, which is supposed to be an 'annotation' is just fighting with the rest of the syntax. – rano Sep 17 '13 at 5:23
4  
@AndonM.Coleman I honestly have no idea why it would be considered complex (is it the reuse of a keyword? If so, context clues would help here). The syntax is incredibly clear IMO for C++ syntax. I'm fairly sure there are much more complex syntax that comes from C such as function pointers. – Rapptz Sep 17 '13 at 5:26

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