4

Why the following is wrong in C++ (But valid in C)

void*p;
char*s;
p=s;
s=p; //this is wrong ,should do s=(char*)p;

Why do I need the casting,as p now contains address of char pointer and s is also char pointer?

3
  • P is not a char pointer. By assigning the value of s to p, you are not also assigning the type.
    – Mr Lister
    Commented Jul 24, 2013 at 12:22
  • 2
    (By the way, your pointers are both uninitialized so their values are indeterminate.)
    – gx_
    Commented Jul 24, 2013 at 12:23
  • What happens if you assign an int pointer to p, and then s=p?
    – Neil Kirk
    Commented Jul 24, 2013 at 12:27

3 Answers 3

17

That's valid C, but not C++; they are two different languages, even if they do have many features in common.

In C++, there is no implicit conversion from void* to a typed pointer, so you need a cast. You should prefer a C++ cast, since they restrict which conversions are allowed and so help to prevent mistakes:

s = static_cast<char*>(p);

Better still, you should use polymorphic techniques (such as abstract base classes or templates) to avoid the need to use untyped pointers in the first place; but that's rather beyond the scope of this question.

8

The value doesn't matter, the type does. Since p is a void pointer and s a char pointer, you have to cast, even if they have the same value. In C it will be ok, void* is the generic pointer, but this is incorrect in C++.

By the way, p doesn't contains char pointer, it's a void pointer and it contains a memory address.

1
  • @Hulk Thanks Hulk, it was just a mistake
    – nouney
    Commented Jul 24, 2013 at 12:29
0

In general, this rule doesn't even have anything to do with pointers. It's just that you can assign values of some type to variables of other types, but not always vice versa. A similar situation would be this:

double d = 0.0;
int i = 0;

d = i;    // Totally OK
i = d;    // Warning!

So that's just something you have to live with.

3
  • What is "Warning!" supposed to mean? You say that we cannot assign from some types to others, but how does your excerpt evidence that? It compiles and runs just fine - coliru.stacked-crooked.com/a/2e53040cdfc520f9 - because just like the converse, double has an implicit (if potentially narrowing) conversion to int. Commented Apr 19, 2016 at 14:04
  • @underscore_d That's what I meant, the potentially narrowing bit. You can enable this warning in g++ and clang with -Wconversion. Note that there is no warning for the assignment in the other direction.
    – Mr Lister
    Commented Apr 19, 2016 at 14:19
  • That explains that. I still don't see how this relates to void * and the question, though; what am I missing? Implicit pointer conversions are either valid or not; they can't be narrowing-but-allowed. The real answer seems to be that the definition of "valid" changed between C and C++. In contrast, I'm pretty sure the narrowing rules for unrelated numeric types didn't. Commented Apr 19, 2016 at 14:36

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