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int main()
    int x = 0;

This compiles and appears to be a no-op. What actually happens? is this behavior defined?


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Did youy remember to include stdlib.h before calling free? I see no #include directives in your code. –  AnT Feb 25 '10 at 22:37
free(0) is a no-op. free(x) given int x is undefined; what actually happens depends on your compiler. I'm surprised that your compiler will implicitly typecast int to void* without at least warning you; which compiler is it? –  Mike DeSimone Feb 25 '10 at 22:41
@AndreyT: Egads, you're right. If free() isn't declared, the compiler will assume its signature is int free(int) when it sees it used, and the linker will not be the wiser, since C doesn't mangle the parameter types into the name... –  Mike DeSimone Feb 25 '10 at 22:43
It just dawned on me that, if you were using a platform with an ABI that 1) mapped the first few function parameters to registers, instead of stacking them, and 2) had separate registers for addresses and data (e.g. m68k), this probably would not work. –  Mike DeSimone Feb 25 '10 at 22:46
In C having no prototype in fact only assumes the return type is int, the parameters remain undefined (any number any type are allowed, and no checking occurs). In C++ it is just illegal. –  Clifford Feb 25 '10 at 22:48

8 Answers 8

up vote 14 down vote accepted

No, the behavior is not defined. Moreover, the code is not supposed to compile.

Firstly, the code is not supposed to compile because it contains a constraint violation. The expression you are passing as an operand to free has int type. The parameter of free has void * type. The only case when an int value can be implicitly converted to void * type is when the int value is an Integral Constant Expression (ICE) with value 0. In your case x is not an ICE, meaning that it is not implicitly convertible to void *. The only reason your code compiles is that for historical reasons (to support legacy code) your compiler quietly overlooks the constraint violation present in the free(x) call. I'm sure that if you elevate the level of warnings in your compiler, it will complain (at least with a warning). A pedantic compiler will immediately issue an error for free(x) call. Try Comeau Online, for example in C89/90 mode:

"ComeauTest.c", line 6: error: argument of type "int" is incompatible with parameter
          of type "void *"

(Also, did you remember to include stdlib.h before calling free?)

Secondly, let's assume that the code compiles, i.e. it is interpreted by the compiler as free((void *) x). In this case a non-constant integral value x is converted to pointer type void *. The result of this conversion is implementation defined. Note, that the language guarantees that when an ICE with value of 0 is converted to pointer type, the result is a null pointer. But in your case x is not an ICE, so the result of the conversion is implementation-defined. In C there's no guarantee that you will obtain a null pointer by converting a non-ICE integer with value 0 to pointer type. On your implementation it probably just happened that (void *) x with non-ICE x equal to 0 produces a null pointer value of type void *. This null pointer value, when passed to free, results in a no-op, per the specification of free.

In general case though, passing such a pointer to free will result in undefined behavior. The pointers that you can legally pass to free are pointers obtained by previous calls to malloc/calloc/realloc and null pointers. Your pointer violates this constraint in general case, so the behavior is undefined.

This is what happens in your case. But, again, your code contains a constraint violation. And even if you override the violation, the behavior is undefined.

P.S. Note, BTW, that many answers already posted here make the same serious mistake. They assume that (void *) x with zero x is supposed to produce a null pointer. This is absolutely incorrect. Again, the language makes absolutely no guarantees about the result of (void *) x when x is not an ICE. (void *) 0 is guaranteed to be null pointer, but (void *) x with zero x is not guaranteed to be null pointer.

This is covered in C FAQ http://c-faq.com/null/runtime0.html . For those interested in better understanding of why it is so it might be a good idea to read the entire section on null pointers http://c-faq.com/null/index.html

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I don't think it's a constraint violation if the proper declaration of free() isn't in scope (which seems to be the case in the example). In this case, it's just undefined behaviour (calling free() with actual parameters (int) that don't match the parameter type list in the definition (void *)). –  caf Feb 25 '10 at 22:30
I (now) agree with the ICE vs int with value zero difference; but I was under the impression that integers could be implicitly converted to void* albeit with an implementation-defined result. says that an integer may be converted to any pointer type. –  Charles Bailey Feb 25 '10 at 22:33
@caf: That's a good point. But I'd expect even a C89/90 compiler to issue a warning about a call to undeclared function. The OP mentions no warnings, which probably means that they included the proper declarattion of free. Just guessing, though... –  AnT Feb 25 '10 at 22:34
@Charles Bailey: talks about explicit conversions, i.e. casts. It says that you can cast an int to void *. The implicit conversions in C are described on per-operator basis. And nothing says anywhere that you can pass an int in place of a void *. –  AnT Feb 25 '10 at 22:36
It's not undefined. The standards are very explicit in the meaning of undefined and implentation-defined: An integer may be converted to any pointer type. Except as previously specified, the result is implementation-defined, might not be correctly aligned, might not point to an entity of the referenced type, and might be a trap representation. –  paxdiablo Feb 25 '10 at 22:38

In your case, it works because calling free(NULL) (i.e., free(0)) is a NOOP. However, if you called it with any value other than 0 (NULL), the behavior would be undefined-- crashes and/or memory corruption are likely candidates.

EDIT: As others have pointed out later, free(x) (with x=0) and free(NULL) are not the same thing. (Though it is often 0, the value of the NULL pointer is implementation-defined, and cannot be relied upon.) Please see AndreyT's answer for a very good clarification.

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(void *) x is not guaranteed to be null pointer. This guarantee only applies when x is an Integral Constant Expressions. Calling free(x) with x set to 0 is not equivalent to free(0). The code produces undefined behavior that just happened to work out as no-op in OP's case. –  AnT Feb 25 '10 at 22:25
Very good clarification, AndreyT-- thanks! –  Eric Pi Feb 25 '10 at 22:37
Eric, your answer is accepted, but it is wrong - free(x) and free(0) are not the same thing, as some of the other answers have noted. Since it is the accepted answer, you should probably edit your answer. –  Alok Singhal Feb 26 '10 at 2:14
@Alok: Good idea. I added a note referencing AndreyT's good description of the subject. –  Eric Pi Feb 26 '10 at 11:57

Freeing NULL (or 0) does nothing. It's a no-op.

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Have you tried turning your compiler's warning level up? For example gcc -ansi -pedantic -W -Wall reports:

tmp.c:6: warning: passing argument 1 of ‘free’ makes pointer from integer without a cast

The behaviour is undefined. Don't do it.

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It's not defined. Only integer constant expressions are guaranteed to convert to a null pointer constant. 'x' is not a constant expression. See n1256 –  Philip Potter Feb 25 '10 at 22:09
Actually, free(0) is defined, because even if a null pointer has nonzero representation, a constant integer expression with value zero will magically convert to the correct null pointer. This happens through compiler magic and is defined in the C standard. free(x) however is not defined, even if x==0, because x is not a constant expression. –  Philip Potter Feb 25 '10 at 22:14
Ints are not the same size a pointers on all platforms, shockingly. Nor does the C spec specify that they should be. The AS/400 had 32 bit ints and 128 bit pointers, for instance. –  Joel Feb 25 '10 at 22:20
@paxdiablo: The whole thing is undefined. The result of the conversion of int to void * is implementation-defined. But when you pass such a pointer to free, the behavior becomes undefined (in general case). –  AnT Feb 25 '10 at 22:39
@paxdiablo: The structure of the behavior in this code is the following: There's an implementation-defined chance that the code is a no-op. In all other cases the behavior is undefined. What is the "grand total" of that in general case? In general case the behavior is undefined. In general case you have to choose the worst, even if the chances of that "worst" happening are low. –  AnT Feb 25 '10 at 22:56

From the free man page:

free() frees the memory space pointed to by ptr, which must have been returned by a previous call to malloc(), calloc() or realloc(). Otherwise, or if free(ptr) has already been called before, undefined behaviour occurs. If ptr is NULL, no operation is performed.

In your example, you're actually calling free(0), since free accepts a pointer as an argument. You're essentially telling the runtime to free the memory at address 0, which has not been previously allocated by malloc.

Since '0' is NULL, nothing will happen. (Thanks to the comments for pointing out my silly error).

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free(0) is defined and valid. See Eric Pi's answer and stackoverflow.com/questions/1938735/… –  Fred Larson Feb 25 '10 at 22:08
Your quote says "If ptr is NULL, no operation is performed." but you are surprised that there is no segmentation fault? –  Charles Bailey Feb 25 '10 at 22:08
You're right ... wow ... brain fart. –  Skrud Mar 1 '10 at 14:41

free() works on dynamically allocated memory, i.e., memory allocated with malloc, calloc, or realloc. Also, it takes a pointer, and you are passing teh value of x. There is no reason to call it on stack allocated variables that will be freed when the stack unwinds and that behavior is undefined. Always good to read the documentation.


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It should throw an access violation on most architectures. OK it's a 0 so it works, but if it was not 0 it would fail. It's undefined. You can't free() a stack allocated variable.

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No. 0 can be converted to a void*, it converts to the null pointer and free has no effect when passed a null pointer –  Charles Bailey Feb 25 '10 at 22:04
Ok. You found the one in a million case where it might work. But freeing a stack allocated variable will crash in 99% of cases. –  Billy ONeal Feb 25 '10 at 22:07
"free() a stack allocated variable" would be free(&x). –  paxdiablo Feb 25 '10 at 22:07
An integer value of zero is always converted to a null pointer value. The relative width of int and void* is immaterial assuming that a correct prototype for free is visible. –  Charles Bailey Feb 25 '10 at 22:10
@Charles: only if it's a compile-time constant. –  Alok Singhal Feb 25 '10 at 22:27

free (0 );

"Calling free function with NULL value , will have no effect."

Actually it will make impact , when we are freeing the using memory.

Here x value is zero , So that it does not make any problem. If x has value other than

zero , in this case it may get segmentation fault . Because x value might be using as a

memory representation some other variables.

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