# C equivalent of matlab angle function

I am dying here. So I have a complex number(-4.9991 + 15.2631i). In matlab if I do

angle(-4.9991 + 15.2631i) = 1.8873


I thought that angle basically calculated like

atan(15.2631/-4.9991) = -1.2543


Why are these different? I need to write a c function that calculates the angle of a complex number. I have done so like this:

#define angle(x) (atan((GSL_IMAG(x)/GSL_REAL(x))))


But that way gives me the -1.2543 answer, not the 1.8873 answer. What am I doing wrong?

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man atan2 - it's more usefull than simply atan. –  Eddy_Em May 17 '13 at 4:26

-1.2543 + Pi(radians) = 1.8873 (with rounding)


As pointed out by others, use atan2()

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Oh damn. Well that solved everything. #define angle(x) ((atan((GSL_IMAG(x)/GSL_REAL(x))))+ M_PI) –  Matthew The Terrible May 17 '13 at 4:18
no... this would be true in only half of all possible cases. please take the advice above and use atan2. –  V-X May 17 '13 at 7:39

Although using atan2 solves the problem, the actual question hasn't been answered:

Why are these different?

You are missing that the tangent function is periodic, with period pi = 3.141592... So, when you write z = atan(y/x) you expect a number z such that tan(z) = y/x, but there are infinite such numbers, since tan(z + pi) = tan(z). Of course, you get just one of these infinite values: The closest to zero, which isn't the one you always need.

In particular, note that since you are calculating the quotient Im/Re, you can't tell the difference from -Im/-Re, i.e. a minus sign on both componentes doesn't change the quotient, but it's the opposite complex number (same applies for 2-d vectors). That's what atan2 and angle do: They check for the sign of each component separately, and then determine if +/- pi should be added to the result of atan.

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