# Does multiplying unsigned short cause undefined behaviour?

I was asking myself if promoting all types (except some exceptions) with a lower rank than `int` to `int` to perform arithmetic operations might cause UB in some cases.

e.g.:

``````unsigned short a = 0xFFFF;
unsigned short b = a*a;
``````

As unsigned short is promoted to `int` for arithmetic operations this would result in:

``````unsigned short a = 0xFFFF;
unsigned short b = (int)a*(int)a;
``````

As `(int)0xFFFF*(int)0xFFFF` causes an overflow, and overflow of signed types is UB: Can multiplying two unsigned shorts `x,y` cause undefined behaviour in the case that `x*y > INT_MAX`

UPDATE:

The question specifically aims at the case that `int` is 32-bit and `short` is 16-bit.

• Yes. The upshot is to not do arithmetic with unsigned types of lower conversion rank than `int`. A simpler rule is to not use unsigned types for numbers, but do use them for bit-fiddling. Commented Nov 16, 2015 at 10:00
• Yes, this is signed integer overflow causing UB. An annoying historical wart, and it can strike in disguise because `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.
– M.M
Commented Nov 16, 2015 at 10:00
• @M.M: Actually there is nothing special about `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. Commented Nov 16, 2015 at 11:10
• I think you can (theoretically) incur the same UB by multiplying to `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 Commented Nov 16, 2015 at 16:44

C++11 §3.9.1/4, full quote:

Unsigned integers, declared `unsigned`, shall obey the laws of arithmetic modulo 2n 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 2n 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.

• Any idea why unsigned types aren't just promoted to `unsigned int`? This would solve the problem. Commented Nov 16, 2015 at 10:21
• @SimonKraemer: I don't know. But as I recall James Kanze once remarked that the conversion rules were changed early on. That was in connection with the problems of mixing signed and unsigned in expressions. Commented Nov 16, 2015 at 10:24
• Well, it shouldn't matter in real life. Thanks for digging up the rules. Commented Nov 16, 2015 at 10:27
• @CodesInChaos: It would be nice with at least one example compatible with your assertion. Here's an example where the gcc compiler, for the given code, is reasonable: coliru.stacked-crooked.com/a/036e12a08cedfd95 Commented Nov 16, 2015 at 17:29
• @Alf the canonical example is optimizing `x + 1 > x` to `true` for signed integers. Controlled by `-fstrict-overflow` which is part of `-O2` for GCC. See also What Every C Programmer Should Know About Undefined Behavior #2/3 on the LLVM blog. Commented Nov 16, 2015 at 18:09

When you multiply `unsigned short * unsigned short` then there is an implicit conversion and the value is casted to `int` in C++11. The documentation says:

Prvalues of small integral types (such as char) may be converted to prvalues of larger integral types (such as int). In particular, arithmetic operators do not accept types smaller than int as arguments

So it will result in an Undefined behavior.