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c - constness and pointers to pointers

I'm very much confused about the const keyword. I have a function accepting an array of strings as input parameter and a function accepting a variable number of arguments.

void dtree_joinpaths(char* output_buffer, int count, ...);
void dtree_joinpaths_a(char* output_buffer, int count, const char** paths);

dtree_joinpaths internally invokes dtree_joinpaths_a after it has built an array of strings from the argument list.

void dtree_joinpaths(char* output_buffer, int count, ...) {
    int i;
    va_list arg_list;
    va_start(arg_list, count);
    char** paths = malloc(sizeof(char*) * count);
    for (i=0; i < count; i++) {
        paths[i] = va_arg(arg_list, char*);
    }
    va_end(arg_list);
    dtree_joinpaths_a(output_buffer, count, paths);
}

But the gcc compiler gives me the following error message:

src/dtree_path.c: In function 'dtree_joinpaths':
src/dtree_path.c:65: warning: passing argument 3 of 'dtree_joinpaths_a' from incompatible pointer type

When I change char** paths = malloc(count); to const char** paths = malloc(count);, this error is not showing up anymore. What I don't understand is, that

  1. I thought a pointer to an address can always be casted to a const pointer, but not the other way round (which is what is happening here imo).
  2. This example works: http://codepad.org/mcPCMk3f

What am I doing wrong, or where is my missunderstanding?


Edit

My intent is to make the memory of the input data immutable for the function. (in this case the paths parameter).

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The reason char ** -> const char** is a "dangerous" conversion is the following code:

const char immutable[] = "don't modify this";

void get_immutable_str(const char **p) {
    *p = immutable;
    return;
}

int main() {
    char *ptr;
    get_immutable_str(&ptr); // <--- here is the dangerous conversion
    ptr[0] = 0;
}

The above code attempts to modify a non-modifiable object (the global array of const char), which is undefined behavior. There is no other candidate in this code for something to define as "bad", so const-safety dictates that the pointer conversion is bad.

C does not forbid the conversion, but gcc warns you that it's bad. FYI, C++ does forbid the conversion, it has stricter const-safety than C.

I would have used a string literal for the example, except that string literals in C are "dangerous" to begin with -- you're not allowed to modify them but they have type array-of-char rather than array-of-const char. This is for historical reasons.

I thought a pointer to an address can always be casted to a const pointer

A pointer-to-non-const-T can be converted to a pointer-to-const-T. char ** -> const char** isn't an example of that pattern, because if T is char * then const T is char * const, not const char * (at this point it's probably worthwhile not writing the const on the left any more: write char const * and you won't expect it to be the same as T const where T is char *).

You can safely convert char ** to char * const *, and (for reasons that require a little more than just the simple rule) you can safely convert char ** to char const * const *.


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