# Dereferencing and typecasting

I've constructed the following sections of code to help myself understand pointer dereferencing and typecasting in C.

``````char a = 'a';
char * b = &a;
int i = (int) *b;
``````

For the above, I understand that on the 3rd line, I've dereferenced b and got 'a' and (int) will typecast the value of 'a' to its corresponding value of 97 which is stored into i. But for this section of code:

``````char a = 'a';
char * b = &a;
int i = *(int *)b;
``````

This results in i being some arbitrary large number like 792351. I'm assuming this is a memory address but my question is why? When I typecast b to an integer pointer, does this actually cause b to point to a different area in memory? What is going on?

EDIT: If the above doesn't work, then why would something like this work:

``````char a = 'a';
void * b = &a;
char c = *(char *)b;
``````

This correctly assigns 'a' to c.

-

Your `int` is larger than your `char` - you get the `'a'` value + some random data following it in memory.

E.g, assuming this layout in memory:

``````'a'
0xFF
0xFF
0xFF
``````

Your `char *` and `int *` both point to the `'a'`. When you dereference the `char *`, you get only the first byte, the `'a'`. When you dereference the `int *` (assuming your int is 32-bit) you get the `'a'` and the 3 bytes of uninitialized data following it.

EDIT: In response to updated question:

In `char c = *(char *)b;`, b still points at the `'a'` value. You cast it to a `char *`, and then dereference it, getting the char pointed to by a `char *`

-
thank you that makes a lot of sense. –  Sam Mar 8 '11 at 14:28

The last line you're concerned about does a very bad thing. First, it treats b as an `int*` whereas b is a `char*`. That is, the memory pointer to by b is assumed as 4 bytes(typically) instead of 1 byte. So when you dereference it, it goes to the 1 byte pointed by the actual b, takes the following 3 bytes too, treats those 4 bytes as a single int, and gives you the result. That's why it's garbage.

In general, casting one pointer type to another pointer type must be done with great caution.

-

You're casting a `char` pointer to an int pointer. Characters are (usually) stored as 8 bits. `int`s, on the other hand, are 32 bits (or 64 on 64-bit systems). So if you look at the other 24 bits of memory next to the 8 bits worth of `b`, you'll get a bunch of extra bits that weren't initialized. Even the position of `*b` in `i` is architecture dependent.

``````big-endian:    **** ****|**** ****|**** ****|0110 0001
little-endian: 0110 0001|**** ****|**** ****|**** ****
``````

When you cast the character stored in the above, all the asterisks become relevant.

-

Since a `char` is 1 Byte long, and an `int` 4, when you read an `int` from the address of a single character, you're reading the character and 3 more bytes. The content of these bytes is just whatever happens to lie in memory (pointers, the value of `b`) and could even be unallocated (resulting in a segmentation fault).

-

When you type cast it to a (int *) type, it will refer to a total of 4 bytes(size if int) in memory.

-