## C99 (ISO/IEC 9899:1999)

## 6.2.6.2/1 Integer types

The values of any padding bits are unspeciﬁed.

^{45)}A valid (non-trap) object representation of a signed integer type where the sign bit is zero is a valid object representation of the corresponding unsigned type, and shall represent the same value.

For any integer type, the object representation where all the bits are zero shall be a representation of the value zero in that type.

In the C99 standard, an integer type where all the bits are zero is guaranteed to represent the value `0`

in that respective type. However, does this guarantee that the underlying binary value is what we expect it to be?

For example:

```
unsigned x = 42;
```

We'd normally expect a machine to store this decimal `42`

value in memory as the binary `101010`

value.

However, could some eccentric machine architecture store the same decimal `42`

value as the binary `011011`

value (not necessarily for a practical reason but simply because it can)?

If so, consider the following code utilizing a right shift operation:

```
unsigned y = x>>1; /* 101010>>1 or 011011>>1 */
```

Would `y`

hold the decimal value `21`

(`10101`

in binary), or the decimal value `13`

(`01101`

in binary)?

Does the C99 standard make any guarantee about the decimal representation of an unsigned integer type after a bitwise operation -- e.g. is a right shift guaranteed to be equivalent to an integer division by `2`

on all machine architectures?