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what is the difference between deleting a pointer, setting it to null, and freeing it.

delete ptr;




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C has no concept of delete. Do you mean C++ only? – GManNickG May 26 '10 at 6:41
Your question suggests that you come from a language with garbage collection like Java or C#. C++ doesn't have this. See my answer for more details. – j_random_hacker May 26 '10 at 6:57
@GMan, C has free though which is essentially the same thing in this context. – Steve Rowe May 26 '10 at 7:06
@Steve: Eh, free just returns memory allocated with malloc. delete calls destructors, operator delete, etc. – GManNickG May 26 '10 at 7:13
Agree with Potatoswatter. At the very least, I think this question would make much more sense if there was another "vs." between delete ptr; and ptr=NULL;. – j_random_hacker May 27 '10 at 2:14
up vote 26 down vote accepted

Your question suggests that you come from a language that has garbage collection. C++ does not have garbage collection.

If you set a pointer to NULL, this does not cause the memory to return to the pool of available memory. If no other pointers point to this block of memory, you now simply have an "orphaned" block of memory that remains allocated but is now unreachable -- a leak. Leaks only cause a program to crash if they build up to a point where no memory is left to allocate.

There's also the converse situation, where you delete a block of memory using a pointer, and later try to access that memory as though it was still allocated. This is possible because calling delete on a pointer does not set the pointer to NULL -- it still points to the address of memory that previously was allocated. A pointer to memory that is no longer allocated is called a dangling pointer and accessing it will usually cause strange program behaviour and crashes, since its contents are probably not what you expect -- that piece of memory may have since been reallocated for some other purpose.

[EDIT] As stinky472 mentions, another difference between delete and free() is that only the former calls the object's destructor. (Remember that you must call delete on an object allocated with new, and free() for memory allocated with malloc() -- they can't be mixed.) In C++, it's always best to use static allocation if possible, but if not, then prefer new to malloc().

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FTR, this answer was in response to rev 1 of the question: "What's the difference between deleting a pointer and setting it to NULL?" – j_random_hacker May 27 '10 at 2:12
+1 It's also worth pointing out in this new revision that free does not invoke destructors for UDTs and should generally be avoided in C++ (unless one is implementing a memory allocator). – stinky472 Jun 27 '10 at 7:09
Also, using malloc/free/realloc/calloc and the like on non-POD types in C++ yields undefined behaviour. – phresnel Aug 8 '12 at 13:30
@phresnel: I think the only problematic one there is realloc(), which is allowed to move items in memory. With the others, you can use placement new and explicit destructor calls to manage object lifetimes without UB, although of course this is a bit inconvenient and error-prone. – j_random_hacker Aug 8 '12 at 14:25
great answer, thank you – thiagoh Jan 12 at 17:24
int * ptr = null;

Calling free(ptr) will do nothing. According to standard if given pointer is null then no action happens.

Using delete p will also do nothing. C++ standard says that no action will happen because it points to nothing and no type is available.

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As with any indirection, there are two objects involved when using pointers: the referrer (the pointer, in your example ptr) and the referenced object (what it points to, *ptr). You need to learn to differentiate between them.

When you assign NULL to a pointer, only the pointer is affected, the object it refers to is left alone. If the pointer was the last one pointing to that object, you have lost the last referring pointer pointing to it and thus cannot use it anymore. In C++, however, that does not mean the object will be deleted. C++ does not have a garbage collection. So the object is leaked.

In order for objects to be deleted, you will have to delete them manually by passing their address (stored in a pointer) to the delete operator. If you do this, only the object referred to will be affected, the pointer is left alone. It might still point to the address where the object resided in memory, even though that isn't usable anymore. That is called a dangling pointer.

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what about free(ptr) – hero May 26 '10 at 7:31
The pointer is not necessarily an object, for example in delete new int or delete function() or delete ptr - 1. – fredoverflow May 26 '10 at 8:16
@hero: You delete objects you obtained using new, you delete[] arrays obtained using new[], you free() memory obtained using malloc(), etc. However, in C++, you shouldn't use malloc(). What it does is to allocate dynamic memory, whereas new creates dynamically allocated objects. In principle, what new does is to allocate memory and to create the object by calling the type's constructor. – sbi May 26 '10 at 10:24
@FredOverflow: In C++, an int is called an "object", too. I think what you mean is that it doesn't necessarily have to be an lvalue, it could be an rvalue as well. – sbi May 26 '10 at 10:26
@sbi But int values (such as 42) are not objects, right? – fredoverflow May 26 '10 at 10:54

delete will give allocated memory back to the C++ runtime library. You always need a matching new, which allocated the memory on the heap before. NULL is something completely different. A "placeholder" to signify that it points to no address. In C++, NULLis a MACRO defined as 0. So if don't like MACROS, using 0 directly is also possible. In C++0x nullptr is introduced and preferable.


int* a;        //declare pointer
a = NULL;      //point 'a' to NULL to show that pointer is not yet initialized 
a = new int;   //reserve memory on the heap for int

//... do more stuff with 'a' and the memory it points to

delete a;      //release memory
a = NULL;      //(depending on your program), you now want to set the pointer back to
               // 'NULL' to show, that a is not pointing to anything anymore
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technically, you give it back to the C Runtime library which then may or may not give it back to the OS. – shoosh May 26 '10 at 6:38
Actually you give it back to the C++ Runtime library, which may or may not give it back to the C runtime library or OS. – MSalters May 26 '10 at 6:59
@MSalters: Edited, again :) – Lucas May 26 '10 at 7:05

When you create an object using new, you need to use delete to release its memory back to the system. The memory will then be available for others to reuse.

int* a = new int;
delete a;

NULL is just a pre-defined macro that can be assigned a pointer to mean that it does not point to anything.

int* a = new int;
a = NULL;

In the above case, after allocating storage for a, you are assigning NULL to it. However, the memory previously allocated for a was not released and cannot be reused by the system. This is what we call memory leak.

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well, if you created object dynamically(with 'new'), setting pointer to any value does not delete object from memory - and you get a memory leak.

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