const char *stringaling= (const char *) malloc(sizeof(uint32_t));
Several problems on this line.
First of all, you don't want to declare
const char *; you will not be able to modify whatever
stringaling points to (IOW,
*stringaling will not be writable). This matters since you want to copy the contents of another string to the location pointed to by
stringaling. Drop the
malloc(sizeof(uint32_t)) just happens to allocate enough bytes (4) for this particular string, but it's not clear that you meant to allocate 4 bytes. When allocating memory for an array (and strings are arrays), explicitly indicate the number of elements you intend to allocate.
Finally, casting the result of
malloc is considered bad practice in C. The cast will suppress a useful diagnostic message if you forget to include stdlib.h or otherwise don't have a prototype for
malloc in scope. As of the 1989 standard,
void *, which can be assigned to any other object pointer type without needing to cast. This isn't true in C++, so a cast is required there, but if you're writing C++ you should be using
new instead of
So, change that line to read
char *stringaling = malloc(LEN); // or malloc(LEN * sizeof *stringaling), but
// in this case that's redundant since
// sizeof (char) == 1
where LEN is the number of chars you want to allocate.
The general form for a
malloc call is
T *p = malloc (N * sizeof *p);
T is the base type (
struct ..., etc.), and
N is the number of elements of type T you want to allocate. Since the type of the expression
sizeof *p ==
sizeof(T); if you ever change the type of
p, you don't have to replicate that change in the
malloc call itself.
*stringaling = "fun";
Again, there are several issues at play. First, you cannot assign string values using the
= operator. String literals are array expressions, and in most contexts array expressions have their type implicitly converted ("decay") from "N-element array of T" to "pointer to T". Instead of copying the contents of the string literal, you would be simply assigning a pointer to the first character in the string.
Which would "work" (see below), except that you're dereferencing
stringaling in the assignment; the type of the expression
const char (
char after making the change I indicated above), which is not compatible for assignment with type
char *. If you drop the dereference operator and write
stringaling = "fun";
you'd fix the compile-time error, but now you have another problem; as mentioned above, you haven't copied the contents of the string literal "fun" to the memory block you allocated with
malloc; instead, you've simply copied the address of the string literal to the variable
stringaling. By doing so, you lose track of the dynamically-allocated block, causing a memory leak.
In order to copy the string contents from one place to another, you'll have to use a library function like
memcpy, like so:
stringaling doesn't need to live on the heap (for example, you're only using it within a single function and deallocating it before returning), you could avoid memory management completely by declaring it as a regular array of
char and initializing it with "fun":
char stringaling = "fun";
This is a special case of initializing an array in a declaration, not an assignment expression, so the
= does copy the contents of the string literal to the
stringaling array. This only works in an array declaration, however. You can later modify the array with other string values (up to 3 characters plus the 0 terminator), but you'd have to use
If you don't need to modify the contents of
stringaling, you could just do
const char *stringaling = "fun";
This copies the address of the string literal "fun" to the variable
stringaling. And since attempting to modify the contents of a string literal invokes undefined behavior, we do want to declare
const char * in this case; that will prevent you from accidentally modifying the string literal.