Apart from forcing inlining, macros can also be detrimental to speed if they are not carefully written not to evaluate their arguments twice. Take for example this little function-like macro and its inline function equivalent:
#define square(x) ((x)*(x))
inline long square(long x) { return x*x; }
Now, when you call them with a variable square(foo)
, they are equivalent. The macro vesion expands to ((foo)*(foo))
, which is one multiplication just like the function if it's inlined.
However, if you call them with square(expensiveComputation(foo))
, the result of the macro is, that expensiveComputation()
is called twice. The inline function, in contrast, behaves like any function: its argument is evaluated once before the body of the function is executed.
Of course, you could write the macro using the gnu extension of compound statements (see http://gcc.gnu.org/onlinedocs/gcc/Statement-Exprs.html for documentation on this) to avoid double evaluation like this:
#define square(x) ({ \
long square_temp_variable = (x); \
square_temp_variable*square_temp_variable; \
})
But this is a lot of hassle, and it makes the code unportable. So, better stick with inline functions.
#define MAX(x, y) ((x) > (y) ? (x) : (y))
, which evaluates its arguments multiple times.-E
flag, such asg++ -E file.cpp
MAX(expensivecall(), otherexpensivecall())
will perform one of those expensive calls twice. With multiple macros, the bug gets even worse.