printf("%i \n", -1 % (int)4); printf("%u \n", -1 % (unsigned int)4);
Can I rely on this behaviour across platforms? Should I explicitly define
REM macros to be sure this isn't altered?
From C99 onwards the result of
% is required to be rounded toward 0 as quoted by Chris Dodd.
Prior to C99 standard,
% operator's behavior on negative number is implementation defined.
When integers are divided and the division is inexact, if both operands are positive the result of the
/operator is the largest integer less than the algebraic quotient and the result of the
%operator is positive. If either operand is negative, whether the result of the
/operator is the largest integer less than the algebraic quotient or the smallest integer greater than the algebraic quotient is implementation-defined, as is the sign of the result of the
%operator. If the quotient
a/bis representable, the expression
(a/b)*b + a%bshall equal
So the result is Yes if you're targeting C99 or newer, otherwise you can't rely on that.
If you need consistent result with portability to even older C standards, you can use
ldiv, no need to define your own
Because C89 had implementation-defined semantics for division of signed integers when negative operands were involved, div and ldiv, and lldiv in C99, were invented to provide well-specified semantics for signed integer division and remainder operations.
The C99 standard says:
6.5.5 Multiplicative operators
When integers are divided, the result of the / operator is the algebraic quotient with any fractional part discarded87). If the quotient a/b is representable, the expression
(a/b)*b + a%b shall equal a.
87) This is often called ‘‘truncation toward zero’’
This implies that divide always rounds towards 0, so you can rely on it.
Note that this is different from the C++03 standard.
Your second line does an unsigned divide, converting the value
unsigned int before the divide. This will always be one less than a power of 2, so that is also well defined.