In general, consult 5/9 in the standard.

In your example, the *signed* value is converted to *unsigned* (by taking it mod UINT_MAX+1), then the subtraction is done modulo UINT_MAX+1 to give an unsigned result.

Storing this result back as a signed value to `s`

involves a standard integral conversion - this is in 4.7/3. If the value is in the range of `signed int`

then it is preserved, otherwise the value is implementation-defined. All the implementations I've ever looked at have used modulo arithmetic to push it into the range `INT_MIN`

to `INT_MAX`

, although as Krit says you might get a warning for doing this implicitly.

"Stunt" implementations that you'll probably never deal with might have different rules for unsigned->signed conversion. For example if the implementation has sign-magnitude representation of signed integers, then it's not possible to always convert by taking modulus, since there's no way to represent `+/- (UNIT_MAX+1)/2`

as an int.

Also relevant is 5.17/7, "The behavior of an expression of the form `E1 op= E2`

is equivalent to `E1 = E1 op E2`

except that `E1`

is evaluated only once". This means that in order to say that the subtraction is done in the `unsigned int`

type, all we need to know is that `s - u`

is done in `unsigned int`

: there's no special rule for `-=`

that arithmetic should be done in the type of the LHS.

`unsigned`

variable, so the arithmetic is the same but the last assignment is different. – David Thornley Mar 16 '11 at 17:17Is unsigned integer subtraction defined behavior?:) – LihO Feb 24 '13 at 16:38