It looks like you are using a platform where `int`

and `long`

have the same size. (I've inferred this by the fact that if `long`

was able to hold all the valid values of `unsigned int`

you would not see the behaviour that you are seeing.)

This means that in the expression `a*z`

, both `a`

and `z`

are converted to `unsigned long`

and the result has type `unsigned long`

. (ISO/IEC 14882:2011, 5 [expr] / 9 ... "Otherwise, both operands shall be converted to the unsigned integer type corresponding to the type of the operand with signed integer type.")

`c`

is the result of converting this expression from `unsigned long`

to `long`

and in your case this results in an implementation defined result (that happens to be negative) as the positive value of `a*z`

is not representable in a signed `long`

. In `c/1000`

, `1000`

is converted to `long`

and `long`

division is performed (no pun intended) resulting in a `long`

(which happens to be negative) and is stored to `d`

.

In the expressions `a*z/1000`

, `1000`

(an expression of type `int`

) is converted to `unsigned long`

and the division is performed between two `unsigned long`

resulting in a positive result. This result is representable as a `long`

and the value is unchanged on converting to `long`

and storing to `b`

.

`int a = 1; int b = 2;`

? – Kerrek SB Apr 1 '12 at 13:34`b`

and`d`

are not equal. Is that so? If that is so then please do edit the question that way and we can reopen it. – David Heffernan Apr 1 '12 at 13:36