To paraphrase Inigo Montoya, I don't think this code means what you think it means.
This allocates a certain amount of memory. How much memory is allocated is dictated by
malloc's parameter. In this case you're passing
sizeof(char) which is, by definition, one byte exactly. Therefore, you are allocating one byte of memory.
If you insist on using
malloc (more on this later) then what you should be doing is figuring out how long the string you want to store is, add one more byte for the NULL terminator, and then
malloc that much. In the case of the string
Hello, world. which is 13 characters, the corresponding call would be:
char y = (char)malloc(sizeof(char));
malloc returns a pointer to the memory it allocated for you.
y in this case isn't a pointer, it's just a
char. The two aren't the same. It compiles and appears to work because you use the bludgeoning tool known as a C-style cast:
(char)malloc(...). This tells the compiler, "I know I'm pointing the gun at my foot. Just do what I tell you and don't complain." Which it dutifully does. But you're doing the wrong thing for several reasons:
malloc returns a pointer but you're trying to cast it to a
- You only allocated 1 byte but you assumed you were allocating a whole string's worth of memory
y is just a
char but you treat it as if it were a whole string.
So if you again insist on using
malloc, you need to do something like this:
static const char* HELLO = "Hello, malloc.";
char* x = malloc(strlen(HELLO)+1);
char* y = malloc(strlen(x)+1);
But, you shouldn't be using
malloc at all in C++. Instead, you should be using
std::string x = "Hello, string.";
std::string y = x;
This is better because:
strings manage thier own memory. You don't leak memory like you did in your code.
string is type-safer. You violated type safety when you cast the return from
malloc to a
char. You can do it, but its not a
char. That's bad.
string won't let you shoot yourself like this without great effort.
- It's less code. The best code is the code you never write.