I am just beginning C programming (not C++) and I have to convert the quadratic formula for adressing complex roots, and for printing these. The normal quadratic equation is as follows (for discriminant > 0):
else {
/* */
x1 = ((-b) + sqrt(discr)) / (2 * a);
x2 = ((-b) - sqrt(discr)) / (2 * a);
printf("%s%.4lf%s%.4lf\n\n", "x1: ", x1, "\tx2: ", x2);
}
When I try to convert this into its complex values I have used the following strategies:
Creating a new version of the result of the sqrt(discr), the complex part in the equation, by creating a variable _Complex double discr_complex = discr * I. -> OR discr_complex = discr + discr * I.
Making x1 and x2 complex by 'complex x1' or '_Complex c1' or 'complex x1 = ..formula.. * I' or '_Complex x1 = ...formula * I'.
Making every part complex by using the keyword complex.
For all these versions it does not print the correct complex output (#+#i). I tried printing the normal values, which works, but not for the complex part. I tried using the methods creal(x1) and cimag(x1) which do not work (undeclared reference to creal / cimag), or x1.real() / x1.imag(), which also doesn't work ('imag' in something not a structure or union).
Does anybody maybe know how to convert my x1 and x2 values into complex numbers, with maybe a clear explanation how to return each seperate part of the complex equation (real/imaginary) and how this conversion takes place taken my 'normal' formula?