from esbo_etc.lib.helpers import error # import numpy as np # from scipy.integrate import cumtrapz from scipy.interpolate import interp1d import astropy.units as u import math class SpectralQty: """ A class to hold and work with spectral quantities """ def __init__(self, wl: u.Quantity, qty: u.Quantity): """ Initialize a new spectral quantity Parameters ---------- wl : Quantity The binned wavelengths qty : Quantity The quantity values corresponding to the binned wavelengths """ self.wl = wl self.qty = qty def __eq__(self, other) -> bool: """ Check if this object is equal to another object Parameters ---------- other : SpectralQty Object to compare with Returns ------- res : bool Result of the comparison """ return self.wl.unit == other.wl.unit and self.qty.unit == other.qty.unit and \ all([math.isclose(x, y, rel_tol=1e-5) for x, y in zip(self.wl.value, other.wl.value)]) and \ all([math.isclose(x, y, rel_tol=1e-5) for x, y in zip(self.qty.value, other.qty.value)]) def add(self, sqty: "SpectralQty"): pass def multiply(self, sqty: "SpectralQty"): pass def rebin(self, wl: u.Quantity): """ Resample the spectral quantity sqty(wl) over the new grid wl, rebinning if necessary, otherwise interpolates. Copied from ExoSim (https://github.com/ExoSim/ExoSimPublic). Parameters ---------- wl : Quantity new binned wavelengths Returns ------- """ if wl.unit != self.wl.unit: error("Mismatching units for rebinning: " + wl.unit + ", " + self.wl.unit) # idx = np.where(np.logical_and(self.wl > 0.9 * wl.min(), self.wl < 1.1 * wl.max()))[0] # wl_old = self.wl[idx] # qty_old = self.qty[idx] # # if np.diff(wl_old).min() < np.diff(wl).min(): # # Binning # c = cumtrapz(qty_old, x=wl_old) * qty_old.unit * wl_old.unit # print(c) # xpc = wl_old[1:] # # delta = np.gradient(wl) # new_c_1 = np.interp(wl - 0.5 * delta, xpc, c, left=0.0, right=0.0) * c.unit # new_c_2 = np.interp(wl + 0.5 * delta, xpc, c, left=0.0, right=0.0) * c.unit # qty = (new_c_2 - new_c_1) / delta # else: # # Interpolation # qty = np.interp(wl, wl_old, qty_old, left=0.0, right=0.0) f = interp1d(self.wl, self.qty, fill_value="extrapolate") qty = f(wl) * self.qty.unit self.wl = wl self.qty = qty # import matplotlib.pyplot as plt # plt.plot(wl_old, qty_old, '-') # plt.plot(wl, qty, '.-') # plt.show() # # check # print(np.trapz(qty, wl)) # idx = np.where(np.logical_and(wl_old >= wl.min(), wl_old <= wl.max())) # print(np.trapz(qty_old[idx], wl_old[idx]))