pyerrors/tests/test_fits.py
2021-10-15 12:45:32 +01:00

104 lines
3.3 KiB
Python

import autograd.numpy as np
import os
import random
import string
import copy
import math
import scipy.optimize
from scipy.odr import ODR, Model, Data, RealData
import pyerrors as pe
import pytest
def test_standard_fit():
dim = 10 + int(30 * np.random.rand())
x = np.arange(dim)
y = 2 * np.exp(-0.06 * x) + np.random.normal(0.0, 0.15, dim)
yerr = 0.1 + 0.1 * np.random.rand(dim)
oy = []
for i, item in enumerate(x):
oy.append(pe.pseudo_Obs(y[i], yerr[i], str(i)))
def f(x, a, b):
return a * np.exp(-b * x)
popt, pcov = scipy.optimize.curve_fit(f, x, y, sigma=[o.dvalue for o in oy], absolute_sigma=True)
def func(a, x):
y = a[0] * np.exp(-a[1] * x)
return y
beta = pe.fits.standard_fit(x, oy, func)
pe.Obs.e_tag_global = 5
for i in range(2):
beta[i].gamma_method(e_tag=5, S=1.0)
assert math.isclose(beta[i].value, popt[i], abs_tol=1e-5)
assert math.isclose(pcov[i, i], beta[i].dvalue ** 2, abs_tol=1e-3)
assert math.isclose(pe.covariance(beta[0], beta[1]), pcov[0, 1], abs_tol=1e-3)
pe.Obs.e_tag_global = 0
chi2_pyerrors = np.sum(((f(x, *[o.value for o in beta]) - y) / yerr) ** 2) / (len(x) - 2)
chi2_scipy = np.sum(((f(x, *popt) - y) / yerr) ** 2) / (len(x) - 2)
assert math.isclose(chi2_pyerrors, chi2_scipy, abs_tol=1e-10)
def test_odr_fit():
dim = 10 + int(30 * np.random.rand())
x = np.arange(dim) + np.random.normal(0.0, 0.15, dim)
xerr = 0.1 + 0.1 * np.random.rand(dim)
y = 2 * np.exp(-0.06 * x) + np.random.normal(0.0, 0.15, dim)
yerr = 0.1 + 0.1 * np.random.rand(dim)
ox = []
for i, item in enumerate(x):
ox.append(pe.pseudo_Obs(x[i], xerr[i], str(i)))
oy = []
for i, item in enumerate(x):
oy.append(pe.pseudo_Obs(y[i], yerr[i], str(i)))
def f(x, a, b):
return a * np.exp(-b * x)
def func(a, x):
y = a[0] * np.exp(-a[1] * x)
return y
data = RealData([o.value for o in ox], [o.value for o in oy], sx=[o.dvalue for o in ox], sy=[o.dvalue for o in oy])
model = Model(func)
odr = ODR(data, model, [0,0], partol=np.finfo(np.float64).eps)
odr.set_job(fit_type=0, deriv=1)
output = odr.run()
beta = pe.fits.odr_fit(ox, oy, func)
pe.Obs.e_tag_global = 5
for i in range(2):
beta[i].gamma_method(e_tag=5, S=1.0)
assert math.isclose(beta[i].value, output.beta[i], rel_tol=1e-5)
assert math.isclose(output.cov_beta[i,i], beta[i].dvalue**2, rel_tol=2.5e-1), str(output.cov_beta[i,i]) + ' ' + str(beta[i].dvalue**2)
assert math.isclose(pe.covariance(beta[0], beta[1]), output.cov_beta[0,1], rel_tol=2.5e-1)
pe.Obs.e_tag_global = 0
def test_odr_derivatives():
x = []
y = []
x_err = 0.01
y_err = 0.01
for n in np.arange(1, 9, 2):
loc_xvalue = n + np.random.normal(0.0, x_err)
x.append(pe.pseudo_Obs(loc_xvalue, x_err, str(n)))
y.append(pe.pseudo_Obs((lambda x: x ** 2 - 1)(loc_xvalue) +
np.random.normal(0.0, y_err), y_err, str(n)))
def func(a, x):
return a[0] + a[1] * x ** 2
fit1 = pe.fits.odr_fit(x, y, func)
tfit = pe.fits.fit_general(x, y, func, base_step=0.1, step_ratio=1.1, num_steps=20)
assert np.abs(np.max(np.array(list(fit1[1].deltas.values()))
- np.array(list(tfit[1].deltas.values())))) < 10e-8