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I am new to C programming. While solving one of my class assignments, I came across the following code snippet. I did not understand what it does.

Can any one tell me what is the meaning of following C syntax,

((char *)0 +1) or ((int*)0 +1))
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Google "typecasting" and "pointer arithmetic". –  user529758 Jun 26 '13 at 9:22
I suspect that sometimes new users have their questions upvoted so that they can upvote answers (if I remember correctly you need about 15 rep to upvote answers to your questions). –  Nobilis Jun 26 '13 at 9:29
@H2CO3 you might want to add your input on this meta post: meta.stackexchange.com/questions/186026/… –  Mysticial Jun 26 '13 at 16:25
@Mysticial Thanks for pointing it out. I will! (...loose all my Meta reputation, that is.) –  user529758 Jun 26 '13 at 16:48

3 Answers 3

The (char *) 0 part creates a pointer to character data, at address 0. This address is then incremented by one, triggering undefined behavior since pointers to address 0 (also known as NULL in C) cannot be used in pointer arithmetic. The second part does the same but for pointer to integer data.

If the compiler simply treats NULL as the address (which is common but, again, not required which is why this is undefined behavior) the resulting addresses, if viewed numerically, will not be the same, since pointer arithmetic in C is done in terms of the type being pointed at, and typically sizeof (int) > sizeof (char).

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Maybe worth mentioning that the code invokes undefined behavior since doing pointer arithmetic on NULL (which ((T *)0) is) is illegal. –  user529758 Jun 26 '13 at 9:25
@unwind, now even I'm in doubt. int *p = ((int *) 0 + 1) means p gets the result of 0 + 1 or of 0 + sizeof(int*)? –  João Fernandes Jun 26 '13 at 9:35
It does not create a pointer at address 0, it creates a null pointer which is a completely different kind of beast. Also you can't do integer arithmetic on null pointers. Note that in C a null pointer always compares equal to an integer of value 0, regardless of the internal representation. –  datenwolf Jun 26 '13 at 9:38
@datenwolf, that means you can do something like int *p = 0x12345; p++; but can't do int *p = 0; p++;? Never had thought about that... –  João Fernandes Jun 26 '13 at 9:44
@JoãoFernandes: Technically the first is not well defined either. According to the C standard a cast from an integer to a pointer is only valid for integer values obtained by casting from pointer of the target type to an integer in the first place. So int a; uintptr_t i = &a; int *p = (int*)i; is defined, by int *q = 0x… is only defined if that's the value of some system wide, static object, which a pointer to has been cast to the int written in that number literal. –  datenwolf Jun 26 '13 at 9:56

Can any one tell me what is the meaning of following C syntax,

((char *)0 +1) or ((int*)0 +1))

Nothing by the terms of the C standard, because it's not defined. This code invokes undefined behavior on part of the C compiler. Let me explain:

In C every pointer may either point to some object of the type the pointer dereferences to or it may be 0, which is then called a null pointer. Null pointers can not be used in →pointer arithmetic.

Note that the actual representation of a null pointer on the metal, i.e. the bits the variable has on the machine may be something different than all zeros. But on the C side of things the null pointer always compares equal to an integer of the value 0. Moreover null pointers of different types also compare equal by definition. However comparisons of non null pointers of different types invokes undefined behavior. Also you can cast any pointer to a void* pointer, and back. Also you can cast every pointer to an integer of type uintptr_t and back. But casting from a pointer to type A to a pointer of type B (where B is not void*) invokes undefined behavior.

The special function malloc is defined by the C language specification to return a void* pointer that can be cast to any pointer type, though. But say you use it to allocate some memory for an array of char and later you cast that to int this again invokes undefined behavior.

Now you may ask: "What is undefined behavior?". Well, it just means, that the language standard doesn't define it and an implementer may go about it in any way seen fit. On most plattforms writing something like ((char*)0 + 1) may do something naively expected (creating a pointer, pointing to address 1), but it may as well make the compiler build an artificial intelligence, that at first chases you down the street, then gains consciousness and finally takes over the world, turning humans into batteries. So be careful about what you do ;)

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In C you have to tell compiler which type you mean to use, this is called "casting". For example:

char *c; //define c as "char pointer" (pointer to char)
c = ((char *)0 + 1); //this casts "0 + 1" to "char pointer" type, in this example not strictly necessary but adds some clarification to code
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And where does this new char pointer points to? –  Artemix Jun 26 '13 at 9:57

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