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I am very confused with this kind of casting. Can someone explain what exactly it is happening in this sentence?

x = *(char*)&n;

That is the complete code, and it is used to know if a machine is little endian or big endian.

 int n = 0x1234567;
 char x;
 x = *(char*)&n;
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up vote 4 down vote accepted

&n takes the address of n, but crucially, it's the lowest-addressed byte of n. (char *) tells the compiler to treat that address as a pointer to a char, i.e. a pointer to a single byte. * dereferences that, i.e. it obtains the byte value stored at that address.

So the overall effect is that x is set to the value stored in the lowest-addressed byte of n.

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... which in the OP's example will be either 0x67 or 0x01 depending on endianness. – Carl Norum Feb 26 '12 at 17:39
@Oli Charlesworth Thank you for your help. So, wouldn't be the same to write: x =(char)n; – Manolete Feb 26 '12 at 17:41
@Manolete - x will always be 0x67 if you do that. – Carl Norum Feb 26 '12 at 17:42
@Manolete: no, that converts the entire value of n to a char, truncating it to 0x67. Going through the char pointer gets you either the first or the last byte in the value. – Fred Foo Feb 26 '12 at 17:42
@Manolete: No. That would simply convert n to a char (effectively doing n % 256). This would be invariant of endianness (i.e. you'd always get the same result). – Oliver Charlesworth Feb 26 '12 at 17:43

&n takes the address of n, which is the address of an integer.

(char*)(&n) reinterprets this information as the address of a char.

*(char*)(&n) dereferences this address, that is, it is the value of the char that lives at that address. In other words, it's the value of the first byte of the representation of the integer n.

Now you can check whether that's 0x01 or 0x67 to determine which way round your integer is stored.

As a side note: It is always permitted to reinterpret any valid address as the address of a char and inspect it, both in C and in C++. This is necessary whenever you want to perform I/O, since you can only input/output dumb byte streams, which you obtain in this fashion (that is, you can treat any T x; as a char[sizeof(T)] and access it via (char*)&x).

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You said that it is legal to interpret any address as a char*. Is it also legal to dereference a pointer to any T that has been interpreted as a char*? That is, is T x; char c = *(char*)&x; always legal? – Seth Carnegie Feb 26 '12 at 17:51
@SethCarnegie: Yes, since every object has size at least 1. – Kerrek SB Feb 26 '12 at 19:25

To help you visualize why this code can be used to detect the 'endiannes' of the environment.. In a big endian environment that uses 32bit ints the number will be stored in memory in this byte order

01 23 45 67

In a little endian environment it will be this order

67 45 23 01

If you forcibly cast an int pointer to an initialized int to a char pointer, the char pointer will be deferenced to the first byte of the int as it is stored in memory.

In a big endian environment this will deference to 01 and in a little endian environment it will be 67.

If ints aren't 32 bits you'll get different values altogether.

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