def to_file(self, function: Function):
transform = PhasePlotter.transform()
f = function.transform(transform)
if function.dy is not None:
f.set_dy(function.dy.transform(transform))
header = "q, (100 q)**2 Re R(q), (100 q)**2 Im R(q)"
return super(ReflectionFileLoader, self).to_file(f, header=header)
def plot(self, name, f: Function, **kwargs):
if f is None:
return
transform = self.transform()
dy = f.dy
if self.scale:
f = f.transform(transform)
if dy is not None:
dy = dy.transform(transform)
ylabel = "(100 q$)^2$ $R(q)$ [$10^{-4} \AA^{-2}$]"
else:
ylabel = "R(q) [1]"
feval = f.eval()
color = [None, None]
if "color" in kwargs:
if not isinstance(kwargs["color"], list) or len(kwargs["color"]) <= 1:
color = [kwargs["color"], kwargs["color"]]
kwargs.pop("color")
else:
color = kwargs.pop("color")
if self.real:
if name is not None:
kwargs["label"] = "Re R(q) {}".format(name)
self._do_plot(f.get_domain(), feval.real, color[0], dy, **kwargs)
if self.imag:
if name is not None:
kwargs["label"] = "Im R(q) {}".format(name)
self._do_plot(f.get_domain(), feval.imag, color[1], dy, imag=True, **kwargs)
self.axs.set_xlabel("q [$\AA$]")
self.axs.set_ylabel(ylabel)
self.axs.legend()
return self
def function_to_d(fctn: Function):
return fctn.transform(lambda sin, theta: wavelength_k1 / (2*np.sin(np.deg2rad(theta))))
