This question was asked to me in an interview, that size of
char is 2 bytes in some OS, but in some operating system it is 4 bytes or different.
Why is that so?
Why is it different from other fundamental types, such as
That was probably a trick question. The
If the size differs, it's probably because of a non-conforming compiler, in which case the question should be about the compiler itself, not about the C or C++ language.
5.3.3 Sizeof [expr.sizeof]
The sizeof of other types than the ones pointed out are implementation-defined, and they vary for various reasons. An
|show 1 more comment|
The physical sizes (in terms of the number of bits) of types are usually dictated by the target hardware.
For example, some CPUs can access memory only in units not smaller than 16-bit. For the best performance,
And that's not the end of it. If you subdivide 16-bit memory cells into 8-bit chars, you effectively introduce an extra bit in addresses/pointers. If normal addresses are 16-bit in the CPU, where do you stick this extra, 17th bit? There are two options:
The latter option can sometimes be practical. For example, if the entire address space is divided in halves, one of which is used by the kernel and the other by user applications, then application pointers will never use one bit in their addresses. You can use that bit to select an 8-bit byte in a 16-bit memory cell.
C was designed to run on as many different CPUs as possible. This is why the physical sizes of
Now, when we're talking about different physical sizes in different compilers producing code for the same CPU, this becomes more of an arbitrary choice. However, it may be not that arbitrary as it may seem. For example, many compilers for Windows define
And lastly, the C (and C++) standard operates with