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I have a char array. I take its address and pass it to a function which accepts a double char pointer:

char result[1024+1];
memset(result, 0, sizeof(result));
executeGetQuery(query, &(result));

Function definition: int executeGetQuery(char * query, char ** queryResultData)

I get this compile time error

warning: argument #2 is incompatible with prototype:
prototype: pointer to pointer to char : line 1531
argument : pointer to array[1025] of char

I've always passed arrays as pointers in C before. Why am I getting this error? Is my compiler to blame?

EDIT: What is the fix?
EDIT2: I want the function to write something to the result array which is why I am passing a char** instead of char*. What is then another way, the way, to have a function write to a param which I pass in?

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Also: don't initialize arrays of fixed size with memset. Initializers were invented for that purpose char result[1025] = {0}; – Jens Gustedt Feb 15 '12 at 21:44
up vote 2 down vote accepted

What is the fix?

In this case (you don't need the char **) use char * both in the prototype and the calling code

int executeGetQuery(char *query, char *queryResultData);
executeGetQuery(query, result);

I'd also include a size argument for protecting against buffer overflows

int executeGetQuery(char *query, char *queryResultData, size_t len);
executeGetQuery(query, result, sizeof result);


to change the contents of the array do something like

int executeGetQuery(char *query, char *queryResultData, size_t len) {
    queryResultData[0] = 'H';  /* changing */
    queryResultData[1] = 'i';  /* the contents */
    queryResultData[2] = '\0'; /* of the array */

You can see the change in the calling function

executeGetQuery(NULL, result, sizeof result);
printf("result is now %s\n", result); /* should print "Hi" */
share|improve this answer
The function will modify result and store something in it which I want returned to the caller. That's why I use a char** instead of char* – Adrian Feb 15 '12 at 21:32
You declared result as an array. You cannot change result, neither in the calling function, nor in the called function. What you can change is the contents of the array, which are available to the function by "passing the array" (which decays to a pointer to its first element). – pmg Feb 15 '12 at 21:33
yes I want to change the contents of the array – Adrian Feb 15 '12 at 21:35

char** here means the function will write into given memory location, something like:

int executeGetQuery(char * query, char ** queryResultData) {
    char* buffer = malloc( ... );
    /* get the query results into buffer */
    *queryResultData = buffer;

You can't do that with array, its address is not writable.

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usually that's what I do, but it seems that free/malloc at work doesn't work properly (leaks) so we allocated only on the stack. thanks anyhow – Adrian Feb 15 '12 at 21:56

&result is not type char **. It is of type char (*)[1025].

You have to pass a pointer to a pointer to char to your function:

char *p;
executeGetQuery(query, &p);
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The function probably takes a char** because it will allocate the result buffer for you and use the return value to indicate errors, for example. Therefore, it will return the buffer by modifying a char-pointer provided by you. To do this it needs to access its memory location. That's why the function takes a char**. So to use it correctly, you would need to do:

char *foo;
executeGetQuery(query, &foo); // foo now points to the result buffer

Although you can use arrays in some contexts, where pointers are required in C, they are not the same. Your example makes it easy to see why: result is already an allocated memory region (most likely on the stack, if it's a local variable), so it can decay into a pointer pointing to its first element, but it cannot be a lvalue, like a pointer can.

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I'm not sure I can explain this 100% understandably, but the compiler is correct. A char** is a pointer to a memory location where a char pointer is stored.

You're not passing in a memory location storing a pointer, but instead try to pass in the address of a char array. You can manually assign the char array to a char pointer variable and use the address of that variable, but the compiler won't automatically create that temporary variable for you.

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