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When malloc is called, the size is stored adjacent to the allocated block so that free will know how much to free etc ( ).

My question is, Say we have dynamically allocated memory and later in the code we increment the pointer


And then later, if i call a


what memory does actually get freed up.

Is it number of allocated bytes starting from the current address pointed by 'pointer' or from the base address to which it has been allocated.

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up vote 24 down vote accepted

You need to free() the same pointer as you received from malloc(). Incrementing, altering or changing it is undefined behaviour, that is usually a segmentation fault.

Think of the pointer you receive as a book from a library. You get home and read it. Afterwards you remove the front page and the book's back and hand it back to the librarian. Will he accept it or are you in serious trouble now? ;-)

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by the hard-back :D – n00b Mar 11 '10 at 15:44
Thanks, fixed :-) – Alexander Gessler Mar 11 '10 at 15:46
"Usually"? I applaud your optimism! – Roger Pate Mar 11 '10 at 16:00
you easily manipulate a copy of the original pointer, just be sure to remember the original value. fine analogy with the library. especially since malloc IS in a library :) – haavee Mar 11 '10 at 16:05
@havee: IOW, you can keep a bookmark in the book, and move it around as needed :-) – Tim Schaeffer Mar 11 '10 at 18:02

You can only call free() on a value that you previously obtained from malloc(), calloc(), or realloc() (or NULL). Everything else is undefined.

For example, an implementation might store the size of the allocated block in 4 bytes before the return address from malloc(). Then, free() goes back 4 bytes and finds out the size. This wouldn't work if you don't pass the original pointer back to free().

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It will cause undefined behavior. Most likely it will crash your program either instantly or later.

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For further information, read about how the heap works. The most common heap implementation is a bidirectional linked list that contains its bookkeeping information between the blocks of user data (areas returned by malloc). The bookkeeping data consists of pointers or offsets to previous/next area and status information stating whether the area is allocated or not. – Tronic Mar 11 '10 at 15:41
@Tronic: Or it could lead to silent data corruption, which is worse. – David Thornley Mar 11 '10 at 15:47
@Tronic: That's the common implementation on unix platforms. Windows uses the RtlHeap library, see ( ), which works completely differently. – Billy ONeal Mar 11 '10 at 15:55
@Billy: There is nothing in that article that indicates it works differently, and nothing is, in fact, said concretely about how the heap is internally structured except that it uses some space: "The system uses memory from the private heap to store heap support structures ... the request may fail because of system overhead." – Roger Pate Mar 11 '10 at 16:32
@Roger Pate: I wasn't saying that Tronic was incorrect. Unfortunately the only good resource I could find detailing how RtlHeap works internally is a book on my shelf ("Secure Coding in C and C++") EDIT: And for the record, I upvoted his answer ;) – Billy ONeal Mar 11 '10 at 19:08

That's undefined behavior. And it will most probably results in problem later on.

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If you increment the pointer without saving the original malloced location you can't call free on it. You have to save the original location somewhere and use a temporary point when you increment.

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This is what we call a memory leak/segmentation fault.

You HAVE to pass the same pointervalue to free() as the one you got from malloc() or your application will misbehave/crash.

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It will crash if you are a lucky, clean-living person. Usually it misbehaves in very obscure, inconsistent ways. – S.Lott Mar 11 '10 at 15:42
I'd restrict the term "memory leak" to repeatedly using malloc() on a pointer that never gets free()'ed. – Arthur Kalliokoski Mar 11 '10 at 15:58
Actually it's what we call undefined behavior and corruption, which are subtly different from leaks and segfaults (but the former two can certainly result in the latter two); however, it's practically pointless to worry about memory leaks when you have UB of this magnitude. – Roger Pate Mar 11 '10 at 15:58

doing pointer++ to original pointer is terribly wrong. result of freeing it may be different on different implementations, but you definitely shouldn't do it.

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What? Pointer arithmetic is wrong? Well we have to throw out 99% of C programs then.... – Billy ONeal Mar 11 '10 at 15:57
"to original pointer" read carefully. i meant without preserving the one returned by malloc – Andrey Mar 11 '10 at 16:01

The code managing the free storage just assumes that you wouldn't hand it the wrong pointer. It takes whatever you give, doesn't check its plausibility, and interprets it the same way it would interpret the right pointer. It will act according to whatever values it reads from whatever memory locations it looks at assuming the pointer was rightfully obtained. If you handed it a stray pointer, it will find nonsensical values and thus act nonsensical.

This is called undefined behavior and it's a mean thing. It might format your hard drive, toast your CPU, or make your program seemingly work the way it is expected to until you retire. You never know.

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The pointer returned by malloc() points directly to the memory on the heap that will be used by your program.

However, this isn't the only memory that's allocated. A few bytes are allocated in the memory locations immediately preceding the pointer returned that indicate the size of the chunk on the heap. This isn't used by your program, but it will definitely be needed by free.

When free(p) is called, the information about its chunk on the heap is contained in, say, the locations from p-4 through p-1. This depends on implementation of course, but the details need not concern the programmer. The only thing that the programmer needs to know is that free uses that area of memory to free the chunk of memory from the heap, and that area is derived from the original pointer p.

In other words, if you call free on p, it will only make sense if malloc once returned exactly p.

If you pass in a pointer that wasn't created with malloc, who knows what will lie at p-1, p-2, etc.? It will probably result in a catastrophic failure.

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No, that "few bytes preceding" refers only to some types of implementations of malloc. It's completely different on Windows machines. – Billy ONeal Mar 11 '10 at 15:56
afaik this metainfo about size is stored in linked list not in few bytes before in MAIN implementations – Andrey Mar 11 '10 at 17:15

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