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quick question

Can you use the free() function without having to prior call a malloc ??

ei.

void someFunc( void )
{
   char str[6] = {"Hello"};

   //some processing here ....

   free(str);
}

I get no compiling errors but Does this work or is it correct at all ?

Thank you,

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Actually you can use free without calling malloc, but only if the value you pass to free is a null pointer. So not useful if what you want is a pointer which might point to an allocated block, but might point to a local array. –  Steve Jessop Nov 5 '10 at 22:58

5 Answers 5

up vote 8 down vote accepted

This is not at all correct:

  1. You cannot free a static array such as char str[6].
  2. free() should only be called on memory you allocated (or on NULL).
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Thank you I will check your answer in 11 minutes –  jramirez Nov 5 '10 at 22:55
    
Or on NULL, I think. –  paxdiablo Nov 5 '10 at 22:58
    
Also note, as @Emil H says, str will be allocated on the stack and will be freed automatically when the function returns. @paxdiablo, yes, calling free() with 0 or NULL or a pointer which is NULL is not a problem. –  Zabba Nov 5 '10 at 23:03
    
Oh..you meant 'nudge' :) i was wondering lol –  Zabba Nov 5 '10 at 23:11

When you call malloc() or any other allocation function, memory will be allocated on the heap. This is the only memory that can be freed. When you declare a static string, as you've done in your example, the string is allocated at compile time in another memory segment. The same goes for the str pointer itself which is allocated on the stack, and thus cannot be freed either.

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free() uses data prepended to the allocated block to manage the heap. If the memory pointed to was not allocated by a heap allocation function such as malloc() or calloc(), then the data preceeding the block will be meaningless as heap management data.

Some libraries will detect invalid heap data and yieled a runtime error, otherwise the behaviour is undefined. Often the consequences of such an error will remain unnoticed until you later attempt to allocate further memory. This can make debugging such errors very difficult.

You would not get a compiler error because it is not a syntactic error and is not detectable at compile time. The compiler has no knowledge of the semantics of library functions. All it knows is that malloc() returns a void* and that free() accepts a void*; there is no way of knowing at compile time whether the pointer refers to a dynamically allocated block because the memory is by definition allocated at runtime. Also a pointer may be modified at runtime to point to any memory type, or may be aliased - copied to another pointer and then free'd through the second pointer. You expect a lot of the compiler if you expect an error message; however some static analysis tools may be able to warn if such an error may occur, and dynamic analysis tools such as valgrind may detect the error when and if it actually occurs during testing.

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Using free on a non-malloc'd variable will result in a Segfault generally. Example:

#include <stdlib.h>

int main()
{
  char str[6] = {"Hello"};
  free(str);
}

$ gcc test.c -o test

$ ./test

Segmentation fault

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3  
Its really undefined behavior. The best tool for finding these quirks is valgrind. –  Yann Ramin Nov 5 '10 at 22:56
    
UB UB UB! :-) But a nice "practical example of why this is bad" :p –  user166390 Nov 5 '10 at 23:21
1  
Seg fault if you are lucky, and on some platforms. The actual behaviour will depend on what junk data preceeds the address being free'd where a genuinely malloc'd block has its heap management structure. In the worst case, no runtime error occurs, but a subsequent malloc() will fail due to corrupted heap management data. –  Clifford Nov 5 '10 at 23:39
    
Yann, great point with valgrind, forgot to mention that :) –  Misha M Nov 8 '10 at 17:05

No


The free(3) function takes a void * parameter, so you can pass it any sort of pointer without a compile-time error. But bad things will happen if the pointer wasn't originally returned by malloc(3) and never previously given back to free(3).

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