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I'm still pretty new to C. I still don't understand everything with pointers at all. I'm trying to make a method that returns a String. Here's the function, it's still incomplete.

char getS(char *fileName){
    FILE *src;
    if((src = fopen(fileName, "r")) == NULL){
        printf("%s %s %s", "Cannot open file ", fileName, ". The program is now ending.");
    char *get = " ";        
    //insert getting a random word here

and I'm trying to call the method like this

char *article = getS("articles.txt");
char *noun = getS("nouns.txt");
char *verb = getS("verbs.txt");

The compiler is giving me this:

error: invalid type argument of unary ‘*’ (have ‘int’)

What should I do?

share|improve this question
It all depends if your string has a constant size or not... In any case, it's char * the return type you are expecting for your function. – Flávio Toribio Sep 25 '12 at 1:38
It's giving it to you for which statement? Please always include such details, for better answers. – Jim Balter Sep 25 '12 at 1:40
up vote 7 down vote accepted

Your function should return a char * (a string), instead of a char, and it should return the same. So the function becomes:

char * getS(char *fileName) {
    FILE *src;
    if((src = fopen(fileName, "r")) == NULL) {
        printf("%s %s %s", "Cannot open file ", fileName, ". The program is now ending.");

    char *get = " ";        
    //insert getting a random word here

    return get;
share|improve this answer
It compiled! Thanks a bunch. – Man Person Sep 25 '12 at 1:42
@OstapHnatyuk: Yes, but you'll need to be careful when things get more complicated. In this function, the value you're returning a string literal, so memory management isn't an issue. The comp.lang.c FAQ is an excellent resource. – Keith Thompson Sep 25 '12 at 1:45

The following is probably going to be a lot more information than you're looking for. Don't worry too much about absorbing it all now, but you're likely to need it later.

First, an important note about terminology. C has no "string" type. Quoting the ISO C standard:

A string is a contiguous sequence of characters terminated by and including the first null character. [...] A pointer to a string is a pointer to its initial (lowest addressed) character.

In particular, a char* value is a pointer, not a string (though we generally use char* pointers to access and manipulate strings). Even an array is not itself a string, though it can contain a string.

For your (relatively simple) function, the char* value that you're returning points to (the first character of) a string literal, so memory management is not an issue. For more complicated cases, the language is frankly not particularly helpful, and you'll have to do some work to manage memory yourself.

A function can easily return a char* value that points to a string, allowing the caller to do what it likes with that string -- but where are the characters that make up that string stored?

There are (at least) three common approaches.

(1) The function return a pointer to the beginning of a static array of char:

char *func(void) {
    static char result[100];
    // copy data into result
    return result;

This works, but it has some drawbacks. There's only one copy of the result array, and successive calls to func() will clobber the contents of that array. And the array has a fixed size; it has to be big enough to hold the largest string it can ever return. The standard C asctime() function works this way.

(2) The caller can pass in a pointer to a string, and let the function fill it in:

void func(char *buffer) {
    // code to copy data into the array pointed to by buffer

This places a burden on the caller, which has to allocate an array of char, and in particular has to know how big it needs to be.

(3) The function can allocate memory for the string using malloc():

char *func(void) {
    char *result = malloc(some_number);
    if (result == NULL) {
         // allocation failed, cope with the error
    // copy data into the array pointed to by result
    return result;

This has the advantage that the function can decide how much memory it needs to allocate. But the caller has to be aware that the string was allocated on the heap, so it can later release it by calling free(). The malloc() and free() functions can also be relatively expensive (but don't worry about that unless you're sure that your program's performance isn't good enough).

Actually, there's a fourth method, but it's wrong:

char *bad_func(void) {
    char result[100];
    // copy data into result
    return result; // equivalent to "return &result[0];"

The problem here is that result is local to the function, and is not defined as static, so the array object ceases to exist as soon as the function returns. The caller will receive a pointer to memory that is no longer reserved, and that can be re-used behind your back. You can return a pointer to a local static object (because the single copy exists for the lifetime of the program), and you can return the value of a local non-static object, but you can't safely return the address of a local non-static object.

The comp.lang.c FAQ is an excellent resource.

share|improve this answer
+1 nice explanation. – splungebob Nov 18 '13 at 19:11

It all depends if your string has a constant size or not. Normally people use buffer parameters for such functions, because if you allocate the string memory space inside the function, and return a pointer to it, then you'd have to free the memory outside the function, and if not done so, you'd have a memory leak by losing the memory reference.

So the best approach for functions that return strings, is something like this:

void getS(char *fileName, char *output, size_t len)
    FILE *src;
    if((src = fopen(fileName, "r")) == NULL)
        printf("Cannot open file '%s'. The program is now ending.", fileName);
    fread(output, sizeof(char), len, src); // Just an example without error checking

Then you'd use it like this:

char content[512];
getS("example.txt", content, 512);
// From now, you can use 'content' safely

Or using malloc.h for dynamic allocation:

char *content = (char *)malloc(512 * sizeof(char));
getS("example.txt", content, 512);
// Use 'content', and after using it, free its memory:

But it's from time you'll learn to use this correctly. But if in any way you want to return a literal string (that's not your case, except for your incomplete example code), you have to use char * as the return type for the function, and return get; and not *get, because with *get you're returning a character (the first one for instance), and not a pointer to the string.

FrankieTheKneeMan's answer is very useful for you to understand what you were returning and why your code was not working...

share|improve this answer

The type of getS is char but you're assigning it to variables of type char*. Presumably you want getS to return a string, so its type should be char*, and you should return get rather than *get (which is just the first character at get).

share|improve this answer

A pointer in C is the address of some other piece of information. C comes with two unary operators to deal with that.


dereferences pointers - or gets the information at the memory space that is being pointed at.


Gets the address of the information You're talking about, so:

int p;
int* q = &p; //int* is a pointer to an it.

q==p; //Error (or at least a warning)
*q == p; //true
q == &p; //true
*q == &p; //ERROR
&q == &p; //false, but also probably an error, depending on your compiler and settings

So, when you declare your char * get, you're declaring "a pointer to a char" - and C knows that by convention it can be treated as an array of chars. However, when you attempt to return * get, C thinks you're trying to return the char at the memory addressed by get.

So instead, return get, and you'll return the pointer you're looking for.

Did that demystify the almighty pointer for you?

(Aside: You may want to malloc that char * to avoid the pointer being cleared by the stack memory, but that's a different problem altogether).

share|improve this answer
'Did that demystify the almighty pointer for you?' -- I wouldn't expect it to. This answer would be a lot better if it distinguished an * used in a declaration, which is not a dereference. It could also talk about arrays decaying into pointers. – Jim Balter Sep 25 '12 at 2:56
'to avoid the pointer being cleared by the stack memory' -- the pointer is returned, so it doesn't matter what happens to the local copy of it. Making a buffer local is definitely another matter. – Jim Balter Sep 25 '12 at 2:58
The pointer is returned, but it points to a place in stack memory. So if you declare a local char*(without malloc) and fill it with information, then pass it back out, you're going to have a bad time. – FrankieTheKneeMan Sep 25 '12 at 13:23
'it points to a place in stack memory' -- No, it doesn't ... not in any code on this page; the OP's code is char *get = " ";, where it's a pointer to a string literal. But as I wrote, 'Making a buffer local is definitely another matter'. The reason I wrote it that way is because that is UB in C; there is no "stack" in the language definition. – Jim Balter Sep 25 '12 at 18:50

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