I have a long formula, like the following:
float a = sin(b)*cos(c)+sin(c+d)*sin(d)....
Is there a way to use s
instead of sin
in C, to shorten the formula, without affecting the running time?
There are at least three options for using s
for sin
:
Use a preprocessor macro:
#define s(x) (sin(x))
#define c(x) (cos(x))
float a = s(b)*c(c)+s(c+d)*c(d)....
#undef c
#undef s
Note that the macros definitions are immediately removed with #undef
to prevent them from affecting subsequent code. Also, you should be aware of the basics of preprocessor macro substitution, noting the fact that the first c
in c(c)
will be expanded but the second c
will not since the function-like macro c(x)
is expanded only where c
is followed by (
.
This solution will have no effect on run time.
Use an inline function:
static inline double s(double x) { return sin(x); }
static inline double c(double x) { return cos(x); }
With a good compiler, this will have no effect on run time, since the compiler should replace a call to s
or c
with a direct call to sin
or cos
, having the same result as the original code. Unfortunately, in this case, the c
function will conflict with the c
object you show in your sample code. You will need to change one of the names.
Use function pointers:
static double (* const s)(double) = sin;
static double (* const c)(double) = cos;
With a good compiler, this also will have no effect on run time, although I suspect a few more compilers might fail to optimize code using this solution than than previous solution. Again, you will have the name conflict with c
. Note that using function pointers creates a direct call to the sin
and cos
functions, bypassing any macros that the C implementation might have defined for them. (C implementations are allowed to implement library function using macros as well as functions, and they might do so to support optimizations or certain features. With a good quality compiler, this is usually a minor concern; optimization of a direct call still should be good.)
if I use define, does it affect runtime?
define
works by doing text-based substitution at compile time. If you #define s(x) sin(x)
then the C pre-processor will rewrite all the s(x)
into sin(x)
before the compiler gets a chance to look at it.
BTW, this kind of low-level text-munging is exactly why define can be dangerous to use for more complex expressions. For example, one classic pitfall is that if you do something like #define times(x, y) x*y
then times(1+1,2)
rewrites to 1+1*2
, which evaluates to 3
instead of the expected 4
. For more complex expressions like it is often a good idea to use inlineable functions instead.
Don't do this.
Mathematicians have been abbreviating the trigonometric functions to sin, cos, tan, sinh, cosh, and tanh for many many years now. Even though mathematicians (like me) like to use their favourite and often idiosyncratic notation so puffing up any paper by a number of pages, these have emerged as pretty standard. Even LaTeX has commands like \sin
, \cos
, and \tan
.
The Japanese immortalised the abbreviations when releasing scientific calculators in the 1970s (the shorthand can fit easily on a button), and the C standard library adopted them.
If you deviate from this then your code immediately becomes difficult to read. This can be particularly pernicious with mathematical code where you can't immediately see the effects of a bad implementation.
But if you must, then a simple
static double(*const s)(double) = sin;
will suffice.
double (*s)(double) = sin;
#define
to shortensin
tos
is to make your code unreadablesin
, whenever you type e.g.CTRL + s
. In Vim you could write oncesin
and then use the.
to repeat typing that as many times as you want.