def rad2_cv(m, n, c, type, x):
eps = 10e-8
if type == 1:
result = f_radial.rad_fun(0, m, n, c, x, eps)
return result[2], result[3]
elif type == -1:
result = f_radial.rad_fun(1, m, n, c, x, eps)
return result[2], result[3]
def rad2_cv(m, n, c, type, x):
eps = 10e-8;
if type == 1:
result = f_radial.rad_fun(0, m, n, c, x, eps)
return result[2], result[3]
elif type == -1:
result = f_radial.rad_fun(1, m, n, c, x, eps)
return result[2], result[3]
__author__ = 'maxal' import f_radial kob = 0 m = 1 n = 2 ksi = 1.4 eps = 1E-8 c = 2.0+0j R1f = 0 R1d = 0 R2f =0 R2d = 0 print f_radial.rad_fun(kob, m, n, c, ksi, eps)[0]
__author__ = 'maxal' import f_radial kob = 0 m = 1 n = 2 ksi = 1.4 eps = 1E-8 c = 2.0 + 0j R1f = 0 R1d = 0 R2f = 0 R2d = 0 print f_radial.rad_fun(kob, m, n, c, ksi, eps)[0]
