When defining macros, you basically always want to put the macro parameters in parens to prevent the kind of weird behaviour in your first example, and put the result in parens so it can be safely used without side-effects. Using
#define SQR(x) ((x)*(x))
SQR(a+b) expand to
((a+b)*(a+b)) which would be mathematically correct (unlike
a+b*a+b, which is equal to ab+a+b).
Putting things before or after a macro won't enter the macro. So
++x*x in your example.
Note the following:
int a=3, b=1;
SQR(a+b) // ==> a+b*a+b = 3+1*3+1 = 7
++SQR(a+b) // ==> ++a+b*a+b ==> 4 + 1*4 + 1 = 9
// since preincrement will affect the value of a before it is read.
You're seeing the
++SQR(a+b) appear to increment by 2 since the preincrement kicks in before
a i read either time, i.e.
a increments, then is used twice and so the result is 2 higher than expected.
NOTE As @JonathanLeffler points out, the latter call invokes undefined behaviour; the evaluation is not guaranteed to happen left-to-right. It might produce different results on different compilers/OSes, and thus should never be relied on.