C99 (ISO/IEC 9899:1999)
18.104.22.168/1 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?
unsigned x = 42;
We'd normally expect a machine to store this decimal
42 value in memory as the binary
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 */
y hold the decimal value
10101 in binary), or the decimal value
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?