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These are the familiar sin
, cos
, and tan
functions.
The arguments to all of these functions are in units of radians; recall
that pi radians equals 180 degrees.
The math library normally defines M_PI
to a double
approximation of pi. If strict ISO and/or POSIX compliance
are requested this constant is not defined, but you can easily define it
yourself:
#define M_PI 3.14159265358979323846264338327
You can also compute the value of pi with the expression acos
(-1.0)
.
— Function: float sinf (float x)
— Function: long double sinl (long double x)
These functions return the sine of x, where x is given in radians. The return value is in the range
-1
to1
.
— Function: float cosf (float x)
— Function: long double cosl (long double x)
These functions return the cosine of x, where x is given in radians. The return value is in the range
-1
to1
.
— Function: float tanf (float x)
— Function: long double tanl (long double x)
These functions return the tangent of x, where x is given in radians.
Mathematically, the tangent function has singularities at odd multiples of pi/2. If the argument x is too close to one of these singularities,
tan
will signal overflow.
In many applications where sin
and cos
are used, the sine
and cosine of the same angle are needed at the same time. It is more
efficient to compute them simultaneously, so the library provides a
function to do that.
— Function: void sincosf (float x, float *sinx, float *cosx)
— Function: void sincosl (long double x, long double *sinx, long double *cosx)
These functions return the sine of x in
*
sinx and the cosine of x in*
cos, where x is given in radians. Both values,*
sinx and*
cosx, are in the range of-1
to1
.This function is a GNU extension. Portable programs should be prepared to cope with its absence.
ISO C99 defines variants of the trig functions which work on complex numbers. The GNU C library provides these functions, but they are only useful if your compiler supports the new complex types defined by the standard. (As of this writing GCC supports complex numbers, but there are bugs in the implementation.)
— Function: complex float csinf (complex float z)
— Function: complex long double csinl (complex long double z)
These functions return the complex sine of z. The mathematical definition of the complex sine is
sin (z) = 1/(2*i) * (exp (z*i) - exp (-z*i)).
— Function: complex float ccosf (complex float z)
— Function: complex long double ccosl (complex long double z)
These functions return the complex cosine of z. The mathematical definition of the complex cosine is
cos (z) = 1/2 * (exp (z*i) + exp (-z*i))
— Function: complex float ctanf (complex float z)
— Function: complex long double ctanl (complex long double z)
These functions return the complex tangent of z. The mathematical definition of the complex tangent is
tan (z) = -i * (exp (z*i) - exp (-z*i)) / (exp (z*i) + exp (-z*i))
The complex tangent has poles at pi/2 + 2n, where n is an integer.
ctan
may signal overflow if z is too close to a pole.