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test_interpolation.py
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test_interpolation.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
The interpolation test suite for ObsPy.
"""
import os
import numpy as np
import matplotlib.pyplot as plt
from obspy.signal.interpolation import (lanczos_interpolation,
calculate_lanczos_kernel,
plot_lanczos_windows)
class TestInterpolation:
"""
Interpolation test case
"""
path = os.path.join(os.path.dirname(__file__), 'data')
path_images = os.path.join(os.path.dirname(__file__), 'images')
def test_calculate_lanczos_kernel(self):
"""
Tests the kernels implemented in C against their numpy counterpart.
"""
x = np.linspace(-5, 5, 11)
values = calculate_lanczos_kernel(x, 5, "hanning")
np.testing.assert_allclose(
values["only_sinc"], np.sinc(x), atol=1E-9)
np.testing.assert_allclose(
values["only_taper"], np.hanning(len(x)), atol=1E-9)
np.testing.assert_allclose(
values["full_kernel"], np.sinc(x) * np.hanning(len(x)),
atol=1E-9)
values = calculate_lanczos_kernel(x, 5, "blackman")
np.testing.assert_allclose(
values["only_sinc"], np.sinc(x), atol=1E-9)
np.testing.assert_allclose(
values["only_taper"], np.blackman(len(x)), atol=1E-9)
np.testing.assert_allclose(
values["full_kernel"], np.sinc(x) * np.blackman(len(x)),
atol=1E-9)
values = calculate_lanczos_kernel(x, 5, "lanczos")
np.testing.assert_allclose(
values["only_sinc"], np.sinc(x), atol=1E-9)
np.testing.assert_allclose(
values["only_taper"], np.sinc(x / 5.0), atol=1E-9)
np.testing.assert_allclose(
values["full_kernel"], np.sinc(x) * np.sinc(x / 5.0),
atol=1E-9)
def test_lanczos_interpolation(self):
"""
Tests against the instaseis implementation which should work well
enough.
"""
data = np.array([0.92961609, 0.31637555, 0.18391881, 0.20456028,
0.56772503, 0.5955447, 0.96451452, 0.6531771,
0.74890664, 0.65356987])
dt = 1.0
# Scenario 1.
new_dt = 0.45
a = 1
expected_output = np.array([
0.92961609, 0.55712768, 0.31720733, 0.24275977, 0.17825931,
0.16750234, 0.17561933, 0.20626905, 0.37726064, 0.5647072,
0.47145546, 0.59222238, 0.58665834, 0.91241347, 0.79909224,
0.61631275, 0.61258393, 0.61611633, 0.73239733, 0.56371682,
0.65356987])
output = lanczos_interpolation(
data, old_dt=dt, new_start=0.0, old_start=0.0, new_dt=new_dt,
new_npts=21, a=a)
np.testing.assert_allclose(output, expected_output, atol=1E-9)
# Scenario 2.
new_dt = 0.72
a = 12
expected_output = np.array([
0.92961609, 0.54632548, 0.14335148, 0.19675436, 0.19030867,
0.41722415, 0.60644459, 0.6018648, 0.88751628, 0.90970863,
0.58602723, 0.71521445, 0.83288791])
output = lanczos_interpolation(
data, old_dt=dt, new_start=0.0, old_start=0.0, new_dt=new_dt,
new_npts=13, a=a)
np.testing.assert_allclose(output, expected_output, atol=1E-9)
def test_lanczos_interpolation_units(self):
"""
Regression test for a bug that manifested when the original sampling
rate is not 1 Hertz and new and old start times are not identical.
"""
# Generate a highly oversampled sine curve. Upsample and downsample
# it again and it should not change a lot except at the boundaries.
# Also shift a bit to trigger the bug.
original_dt = 13.333
new_dt = 17.23
data = np.sin(np.linspace(0, 2 * np.pi, 1000))
output = lanczos_interpolation(
data, old_dt=original_dt, new_start=10 * original_dt,
old_start=0.0, a=20,
new_dt=new_dt, new_npts=int(990 * original_dt / new_dt))
output = lanczos_interpolation(
output, old_dt=new_dt, new_start=10 * original_dt,
old_start=0.0, a=20,
new_dt=original_dt, new_npts=int(980 * original_dt / new_dt) - 1)
np.testing.assert_allclose(data[220:620], output[200:600], atol=1E-4,
rtol=1E-4)
def test_plot_lanczos_window(self, image_path):
"""
Tests the plot_lanczos_window function.
"""
plt.figure(figsize=(8, 12))
plot_lanczos_windows(a=20, filename=image_path)