| | | Scilab Reference Manual | |
|---|
atan — 2-quadrant and 4-quadrant inverse tangent
phi=atan(x) phi=atan(y,x)
| x | : real or complex scalar, vector or matrix |
| phi | : real or complex scalar, vector or matrix |
| x, y | : real scalars, vectors or matrices of the same size |
| phi | : real scalar, vector or matrix |
The first form computes the 2-quadrant inverse tangent, which is the inverse of tan(phi). For real x, phi is in the interval (-pi/2, pi/2). For complex x, atan has two singular, branching points +%i,-%i and the chosen branch cuts are the two imaginary half-straight lines [i, i*oo) and (-i*oo, -i].
The second form computes the 4-quadrant arctangent (atan2 in Fortran), this is, it returns the argument (angle) of the complex number x+i*y. The range of atan(y,x) is (-pi, pi].
For real arguments, both forms yield identical values if x>0.
In case of vector or matrix arguments, the evaluation is done element-wise, so that phi is a vector or matrix of the same size with phi(i,j)=atan(x(i,j)) or phi(i,j)=tan(y(i,j),x(i,j)).
// examples with the second form x=[1,%i,-1,%i] phasex=atan(imag(x),real(x)) atan(0,-1) atan(-%eps,-1) // branch cuts atan(-%eps + 2*%i) atan(+%eps + 2*%i) atan(-%eps - 2*%i) atan(+%eps - 2*%i) // values at the branching points ieee(2) atan(%i) atan(-%i)
| << atanm | besseli >> |