I'm working on a program that has few undiscovered memory leaks. The code is literally decades old and written by an unknown person. I have functions that return char * and I was wondering if I need to free the memory.
Specifically I have a function that replaces a substring in a string, I return the pointer to the newly malloced memory. Do I free the original string ?

Original version:

return(findAndReplace(str, "•",rstring));

New version:

char *result = findAndReplace(str, "•", rstring);
return result;

Questions being: Can I be 100% sure that since I had a pointer returned from somewhere else that memory has been allocated? Is it safe to free that memory (assuming it's not used anywhere else)?

Edit: str comes from here:

str = axiom_element_get_text(element, env, messageDataNode);
  • The answer depends on how findAndReplace is implemented and on whether str was allocated with malloc. Pointers have many uses; being handles to allocated memory is just one of them.
    – M Oehm
    Sep 18, 2017 at 17:06
  • 1
    You can only free memory that was returned by malloc, calloc or realloc. Check whether str fits this condition.
    – babon
    Sep 18, 2017 at 17:07
  • @xyious-- if memory is being allocated in precompiled library functions, you should probably be using matching deallocation functions from the library anyway.... Sep 18, 2017 at 19:40
  • I would really like to know what the donvotes are about, though.... Feel like this is a question that would help a lot of people....
    – xyious
    Sep 19, 2017 at 1:39

2 Answers 2


No. You need clearly-defined contracts for your functions' pre and post conditions. In your "old version", the contract seems to be that the caller provides a pointer str to an arbitrary string; storage and lifetime of this string are up to the caller. In the "new version", you've changed it so that the caller must provide a pointer to a string obtained by malloc, and so that the pointer is no longer valid (the object has been freed) after your function returns.

Your core problem is most likely lack of any documentation of the contracts in the existing codebase, meaning you have to reverse-engineer the original author's intents. But you shouldn't go trying to change any of thus until you've documented the current situation, decided if a change makes sense, and ensured that you can safely change every point in the existing code that was assuming the original undocumented contracts.

  • I was just asking because I want to learn, I just had a specific example to go off of. How can I return a pointer from a function without allocating memory for where the pointer points to ?
    – xyious
    Sep 18, 2017 at 17:12
  • 2
    A pointer can point to any object whose lifetime has not ended. A very common case is returning a pointer to a part of a larger object. The canonical example is something like strchr or strstr, but if you think bigger, a function that searches a tree or other data structure for a particular node and returns a pointer to that node is an example too. Of course you do have many situations where the purpose of a function is to "make something new" and in that case you allocate storage for the pointer you will return to point to. Sep 18, 2017 at 17:16
  • In your example where the function is named findAndReplace, it's up to you to determine if you (and if you can) treat it as "making something new" (the derived string with the replacement performed) or "changing something that already exists". In the latter case you can only really do that "in-place" if the source string is large enough to hold the replacement. Sep 18, 2017 at 17:18
  • @xyious-- "How can I return a pointer from a function without allocating memory for where the pointer points to ?" It could be as simple as returning a pointer to a string literal. Sep 18, 2017 at 17:31
  • So since I assume there's no way to find out whether or not we're allowed to free the memory and since I have no access to the source code of the function that returns a pointer (it's part of the library I just have the definition). Do I just have to live with a potential memory leak and leave it at that ?
    – xyious
    Sep 18, 2017 at 17:35

No, it is not safe the free memory that was not allocated by malloc in the first place. You can use pointers without malloc/free but in a non-trivial program you are likely to be using malloc and free at certain, but not all, places.

If you are trying to detect memory leaks in your program, a tool like might help.

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