The macro expansion must always be parenthesized to protect any lower-precedence operators from the surrounding expression. See also [[PRE01]].
Non-Compliant Code Example
This CUBE() macro definition is non-compliant because it fails to parethesize the macro expansion.
#define CUBE(X, Y, Z) (X) * (Y) * (Z) int i = 3; int a = 81 / CUBE(i);
As a result, the invocation
int a = 81 / CUBE(i);
expands to
int a = 81 / i * i * i
which evaluates as
int a = ((81 / i) * i) * i) // evaluates to 243
while the desired behavior is
int a = 81 / ( i * i * i) // evaluates to 3
Compliant Solution
By adding parentheses around each argument, this definition of the CUBE() macro expands correctly in this situation.
#define CUBE(X) ((X) * (X) * (X)) int i = 3; int a = 81 / CUBE(i);
However, if a parameter appears several times in the expansion, the macro may not work properly if the actual argument is an expression with side effects. Given the CUBE() macro above, the invocation:
int a = 81 / CUBE(i++);
expands to:
int a = 81 / (i++ * i++ * i++);
Which is undefined (see [[EXP30]]
References
- Summit 05 Question 10.1