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I was once asked to write a function which will return a pointer to some data in the memory upon some successful condition else it should return "-1". In this case, what would be the correct return type. If I only had to return the data then I would have char * as the return type of the function myfunction. But in this case, I may return -1 has return type.

<what-type> myfunction() {

char *data;

if (some condition true)
  return data;
  return -1

int main () {


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Couldn't you return NULL? – soon May 23 '13 at 3:19
Or maybe int myfunction(char** data_out); where a return value of zero means *data_out has been assigned. – aschepler May 23 '13 at 3:29
I think the correct answer would have been "no." – Heath Hunnicutt May 23 '13 at 3:30
@Heath: How can the correct answer be "no" when the question asked is "what?" – Alok Save May 23 '13 at 3:37
A common alternative pattern is to have a function accept a pointer to a pointer so that it can fill in a pointer as a result, and have the success/error code as its return value. – Chris Stratton May 23 '13 at 4:38

Use union and perhaps define a typedef for it.


typedef struct {
   int is_error;
   union {
     int error_code;
     char *data;
} ReturnType;


ReturnType myFunction(....) { ... etc }

The caller can check if the function is error (get a return error code) or get the data otherwise.

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@ChrisStratton - One assumes that the caller plays the game and check is_error first to decide what value of error_code or data is the one to choose. – Ed Heal May 23 '13 at 4:37
@ChrisStratton - I do not think that you understand how union works. The typedef says that we have a bit of memory that can be viewed as either a char * or and int. (using the same amount of memory. To determine how to use that part (interpret) of memory depends on the value of is_error. If is_error is true then interpret the rest as the error_code. Otherwise use that pert of the memory as a char *. See stackoverflow.com/questions/724617/examples-of-union-in-c - Oh it is platform independent - part of the C programming language. – Ed Heal May 23 '13 at 4:54
@ChrisStratton - You can say that about any type. Lets say an integer. Why not interpret it as a pointer. But one assumes that the programmer uses the type as an indicator and its semantics to say it is a number, not a pointer. But the typedef given helps both the compiler and the programmer to understand the semantics. Where does the platform bit come in? Surely an idiot for a programmer that cannot understand the code given could do all sort of things. – Ed Heal May 23 '13 at 5:04
@ChrisStratton - the int called is_error indicated how to treat the union. i.e. error_code or otherwise data. – Ed Heal May 23 '13 at 5:09
@ChrisStratton - It does not need to have any guarantees. As the is_error bit of the structure has told the programmer to use error_code (not a pointer) or data (a pointer) – Ed Heal May 23 '13 at 5:15

If you want to return different data types, Use a void*:

void* myfunction();

In your case returning a NULL seems to be the more ideal solution rather than the -1.
It will allow users of your function to write code such as:

    //Utilize the returned string
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Please do not use void - It is a leap into the err.. umm. void. – Ed Heal May 23 '13 at 3:43
@EdHeal: void * has its own uses in C. No language features are bad(barring very rare exceptions). It's horses for courses. In this case NULL is the more appropriate solution though it doesn't discredit the use of void * as a generic type in C. – Alok Save May 23 '13 at 4:10
I just think that using void is given in the towel. All bets are off with type checking. As to your assumption no language features are bad see Javascript and the notion that it is an object oriented language for full details (or English (i before e except after c), French (masculine and feminine verbs), ... – Ed Heal May 23 '13 at 4:21
@EdHeal: All bets are off with type checking. And sometimes it is very much desirable even with the risks involved. Ofcourse, when I said language I was referring to C the language governed by the ISO standard. As for the rest of languages I cannot say for sure because they do not have governing standards or committee's. – Alok Save May 23 '13 at 4:25
Is it not better to get the compiler (before you get to run time environment) to do as much checking as possible? Saves time. Saves money. Saves effort. Perhaps using as much of the compilers ability to check things left you off earlier on Fridays?! – Ed Heal May 23 '13 at 4:30

function which will return a pointer .. upon some successful condition else it should return "-1".

Do yourself a favour and do not mix error indication and function result into one object like that. Split them out in two distinct entities by letting the function just return a boolean success indicator, and return the actual result data though a pointer like

bool myfunction(char **result_ptr) {
        char *data;

        if (some error condition)
                return false;

        *result_ptr = data;
        return true;

int main () {
        bool success;
        char *data:

        success = myfunction(&data);
        if (success)


In-band error indicators makes poor APIs that often invite failures (in the extreme case of the realloc function, it begs you to write code that looses the original pointer in case of failure), and it fails at least the following Characteristics of a Good API

  • Easy to use, even without documentation
  • Hard to misuse
  • Easy to read and maintain code that uses it

CERT recommend against them from a security perspective.

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It is possible to cast -1 to void * and check for it. you can return ((void *)-1); Note that there is no notion of signed-ness of pointers in C.

If you think that it feels a bit crazy :-) you're probably right. But there are instances where this convention may be useful for error handling. And there are uses of it out there in important projects. In particular implementations of pthread library use this convention at times.

Can a pointer (address) ever be negative?

Has a great deal to say about it.

On the notion of special interpretations of pointers by their value.

Okay so there seems to be some issue about how guarantees that (void*)-1 is NOT an actual pointer. and @ictoofay seems to think that somehow I mentioned a guarantee about (void *)-1 above and how it cannot be a valid address, which I would like to clarify that I didn't.

Having said that, assuming that a system that uses direct memory mapping and not virtual addresses. (void *)-1 would be the very last address in that model, and in the strictest sense you shouldn't use it. However, you can make assumptions about the storage capacity of the last physical address (see ldl example below)

But the notion of "special" interpretation to of pointers by examining there value in real life projects is not new. Actually, it is a notion USED in most modern operating systems when they do memory address management. It is quite common that a system will use addresses and address ranges and use them for "special meaning". So in reality, you as a programmer ARE actually free to make whatever assumptions and live with their consequences. The notion that (void *)-1 can be used as a special value is not far fetched. Note that this still does NOT say anything about the (in?)compatibility of the notion with the fact that (void *)-1 could be a valid address in a given case.

Now for addressing this "crazy" notion and why would any one use. Here are two real life examples of where (void*)-1 is being safely.

pthreads uses it on Linux, HPUX, solaris and most BSDs.

In particular PTHREAD_CANCELED is a ((void *)-1)

From pthread.h

#define PTHREAD_CANCELED ((void *) -1)

It's defined as ((void *)1) in the darwin version of the pthread libraries. Fun fun;

In glibc (with _GNU_SOURCE defined), ld.so provides the ability to search for alternate value of the same symbol in dynamically loaded libraries. There the value for RTLD_NEXT is (void *)-1.

A thought on fluidity of C

In C is no reason why a given value has to be interpreted in a particular way. C is not strictly typed and is fluid in these notions. A LOT of its power comes from that.

On 'value' of NULL

Can a conforming C implementation #define NULL to be something wacky

has fun explanation of notions.

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How can you guarantee that (void *)-1 won't be a valid pointer that points to a genuine result? – icktoofay May 23 '13 at 4:02
Sure, in specific environments you can guarantee it, but you can't guarantee it in general, and the question seemed not to be talking specifically about pthread implementations that use that. Frankly, if you don't care about guarantees, you might as well return the string literal "failed" whenever you might otherwise return -1; sure, it's unlikely that it would ever return that, but wouldn't you prefer a guarantee? – icktoofay May 23 '13 at 4:17
@icktoofay I think that there is a balance between absolute guarantees everywhere about values and how to interpret them; after all NULL which is (void *)0 is also—strictly speaking—a VALID memory address. – Ahmed Masud May 23 '13 at 4:42
The standard offers guarantees that an object will not have an address of NULL. I don't believe it offers that guarantee for any other address. (By the way, (void *)0 might not even be zero in memory; there is quite a bit of gymnastics to make all 0s in pointers some other value when NULL is not actually memory address 0.) – icktoofay May 23 '13 at 4:54
@ChrisStratton We are not in a disagreement. However throwing in restrictions like "portability" is not fair :-). My point is very simple: You, as a C programmer have the luxury of a fluid non-strictly typed language, and therefore you can do whatever you want with whatever values and then live with the consequences of those choices. That's all. – Ahmed Masud May 23 '13 at 5:11

If not using NULL, then you can typecast the return value

char* myfuntion(){  
                return (char*)-1;
int main () {
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