C++11 §3.9.1/4, full quote:

**”** Unsigned integers, declared `unsigned`

, shall obey the laws of arithmetic modulo 2^{n} where *n* is the number
of bits in the value representation of that particular size of integer.

Apart from the slightly misleading wording about “declared `unsigned`

” this might seem to apply that every arithmetic expression that involve only argument of some given unsigned type, will yield a result modulo 2^{n} for that type.

However, there are no arithmetic expressions at all for unsigned types of lower conversion rank than `int`

: all arguments in an apparent such expression are converted up to ^{(1)}at least `int`

, or depending on the number ranges of the C++ implementation, up to `unsigned int`

.

As a result, `a*b`

where `a`

and `b`

are `unsigned short`

values, ^{(2)}can have formally Undefined Behavior. Because it's not an `unsigned short`

expression. It's (in practice) an `int`

expression.

That said, with a reasonable compiler that doesn't introduce special casing where it notices formal UB, and with in-practice 8 bit bytes and `unsigned short`

max value that is representable by `int`

, and common two's complement signed integer representation, the result, when converted back down to `unsigned short`

, will be *as if* it was modular arithmetic in the range of `unsigned short`

. That's because two's complement, at the machine code level, is just modular arithmetic with a range centered on 0.

^{
(1) In practice one will usually be using an 8 bits-per-byte implementation where the maximum value of unsigned short fits well within the int range, so in practice we're talking about a conversion up to int.
(2) E.g., for 16-bit unsigned short and 32-bit int, (216−1)2 = 232−2×216+1 > 231−1, where the last value is the maximum positive int value.
}

`int`

. A simpler rule is to not use unsigned types for numbers, but do use them for bit-fiddling.`uint16_t`

is often implemented as a typedef for`unsigned short`

. Theoretically the same problem could even occur with`uint32_t`

, as there is nothing stopping a compiler making`short`

be 32-bit on a system with 64-bit`int`

for example.`short`

here. Just any unsigned type smaller than`int`

will be promoted to`int`

before arithmetic operations take place. In particular this goes for`uint32_t`

if`int`

is 64-bit.`size_t`

s, since I didn't find a constraint in the standard that it must be at least as big as int. twitter.com/fugueish/status/637715389519015941