test_no_lfc() - Code Metrics - Inspection of "Merge pull request #341 from jrleeman/LFC_Return" - Unidata/MetPy - Measure and Improve Code Quality continuously with Scrutinizer

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test_no_lfc() A

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# Copyright (c) 2008-2015 MetPy Developers.
# Distributed under the terms of the BSD 3-Clause License.
# SPDX-License-Identifier: BSD-3-Clause
"""Test the `thermo` module."""

import numpy as np
import pytest

from metpy.calc import (density, dewpoint, dewpoint_rh, dry_lapse,
                        equivalent_potential_temperature, lcl, lfc, mixing_ratio, moist_lapse,
                        parcel_profile, potential_temperature, saturation_mixing_ratio,
                        saturation_vapor_pressure, vapor_pressure,
                        virtual_potential_temperature, virtual_temperature)
from metpy.testing import assert_almost_equal, assert_array_almost_equal
from metpy.units import units


def test_potential_temperature():
    """Test potential_temperature calculation."""
    temp = np.array([278., 283., 291., 298.]) * units.kelvin
    pres = np.array([900., 500., 300., 100.]) * units.mbar
    real_th = np.array([286.493, 344.961, 410.4335, 575.236]) * units.kelvin
    assert_array_almost_equal(potential_temperature(pres, temp), real_th, 3)


def test_scalar():
    """Test potential_temperature accepts scalar values."""
    assert_almost_equal(potential_temperature(1000. * units.mbar, 293. * units.kelvin),
                        293. * units.kelvin, 4)
    assert_almost_equal(potential_temperature(800. * units.mbar, 293. * units.kelvin),
                        312.2828 * units.kelvin, 4)


def test_fahrenheit():
    """Test that potential_temperature handles temperature values in Fahrenheit."""
    assert_almost_equal(potential_temperature(800. * units.mbar, 68. * units.degF),
                        (312.444 * units.kelvin).to(units.degF), 2)


def test_pot_temp_inhg():
    """Test that potential_temperature can handle pressure not in mb (issue #165)."""
    assert_almost_equal(potential_temperature(29.92 * units.inHg, 29 * units.degC),
                        301.019735 * units.kelvin, 4)


def test_dry_lapse():
    """Test dry_lapse calculation."""
    levels = np.array([1000, 900, 864.89]) * units.mbar
    temps = dry_lapse(levels, 303.15 * units.kelvin)
    assert_array_almost_equal(temps,
                              np.array([303.15, 294.16, 290.83]) * units.kelvin, 2)


def test_dry_lapse_2_levels():
    """Test dry_lapse calculation when given only two levels."""
    temps = dry_lapse(np.array([1000., 500.]) * units.mbar, 293. * units.kelvin)
    assert_array_almost_equal(temps, [293., 240.3723] * units.kelvin, 4)


def test_moist_lapse():
    """Test moist_lapse calculation."""
    temp = moist_lapse(np.array([1000., 800., 600., 500., 400.]) * units.mbar,
                       293. * units.kelvin)
    true_temp = np.array([293, 284.64, 272.81, 264.42, 252.91]) * units.kelvin
    assert_array_almost_equal(temp, true_temp, 2)


def test_moist_lapse_degc():
    """Test moist_lapse with Celsius temperatures."""
    temp = moist_lapse(np.array([1000., 800., 600., 500., 400.]) * units.mbar,
                       19.85 * units.degC)
    true_temp = np.array([293, 284.64, 272.81, 264.42, 252.91]) * units.kelvin
    assert_array_almost_equal(temp, true_temp, 2)


def test_parcel_profile():
    """Test parcel profile calculation."""
    levels = np.array([1000., 900., 800., 700., 600., 500., 400.]) * units.mbar
    true_prof = np.array([303.15, 294.16, 288.026, 283.073, 277.058, 269.402,
                          258.966]) * units.kelvin

    prof = parcel_profile(levels, 30. * units.degC, 20. * units.degC)
    assert_array_almost_equal(prof, true_prof, 2)


def test_parcel_profile_saturated():
    """Test parcel_profile works when LCL in levels (issue #232)."""
    levels = np.array([1000., 700., 500.]) * units.mbar
    true_prof = np.array([296.95, 284.381, 271.123]) * units.kelvin

    prof = parcel_profile(levels, 23.8 * units.degC, 23.8 * units.degC)
    assert_array_almost_equal(prof, true_prof, 2)


def test_sat_vapor_pressure():
    """Test saturation_vapor_pressure calculation."""
    temp = np.array([5., 10., 18., 25.]) * units.degC
    real_es = np.array([8.72, 12.27, 20.63, 31.67]) * units.mbar
    assert_array_almost_equal(saturation_vapor_pressure(temp), real_es, 2)


def test_sat_vapor_pressure_scalar():
    """Test saturation_vapor_pressure handles scalar values."""
    es = saturation_vapor_pressure(0 * units.degC)
    assert_almost_equal(es, 6.112 * units.mbar, 3)


def test_sat_vapor_pressure_fahrenheit():
    """Test saturation_vapor_pressure handles temperature in Fahrenheit."""
    temp = np.array([50., 68.]) * units.degF
    real_es = np.array([12.2717, 23.3695]) * units.mbar
    assert_array_almost_equal(saturation_vapor_pressure(temp), real_es, 4)


def test_basic_dewpoint_rh():
    """Test dewpoint_rh function."""
    temp = np.array([30., 25., 10., 20., 25.]) * units.degC
    rh = np.array([30., 45., 55., 80., 85.]) / 100.

    real_td = np.array([11, 12, 1, 16, 22]) * units.degC
    assert_array_almost_equal(real_td, dewpoint_rh(temp, rh), 0)


def test_scalar_dewpoint_rh():
    """Test dewpoint_rh with scalar values."""
    td = dewpoint_rh(10.6 * units.degC, 0.37)
    assert_almost_equal(td, 26. * units.degF, 0)


def test_dewpoint():
    """Test dewpoint calculation."""
    assert_almost_equal(dewpoint(6.112 * units.mbar), 0. * units.degC, 2)


def test_dewpoint_weird_units():
    """Test dewpoint using non-standard units.

    Revealed from odd dimensionless units and ending up using numpy.ma math
    functions instead of numpy ones.
    """
    assert_almost_equal(dewpoint(15825.6 * units('g * mbar / kg')),
                        13.8564 * units.degC, 4)


def test_mixing_ratio():
    """Test mixing ratio calculation."""
    p = 998. * units.mbar
    e = 73.75 * units.mbar
    assert_almost_equal(mixing_ratio(e, p), 0.04963, 2)


def test_vapor_pressure():
    """Test vapor pressure calculation."""
    assert_almost_equal(vapor_pressure(998. * units.mbar, 0.04963),
                        73.74925 * units.mbar, 5)


def test_lcl():
    """Test LCL calculation."""
    lcl_pressure, lcl_temperature = lcl(1000. * units.mbar, 30. * units.degC, 20. * units.degC)
    assert_almost_equal(lcl_pressure, 864.761 * units.mbar, 2)
    assert_almost_equal(lcl_temperature, 17.676 * units.degC, 2)


def test_lcl_convergence():
    """Test LCL calculation convergence failure."""
    with pytest.raises(RuntimeError):
        lcl(1000. * units.mbar, 30. * units.degC, 20. * units.degC, max_iters=2)


def test_lfc_basic():
    """Test LFC calculation."""
    levels = np.array([959., 779.2, 751.3, 724.3, 700., 269.]) * units.mbar
    temperatures = np.array([22.2, 14.6, 12., 9.4, 7., -49.]) * units.celsius
    dewpoints = np.array([19., -11.2, -10.8, -10.4, -10., -53.2]) * units.celsius
    l = lfc(levels, temperatures, dewpoints)
    assert_almost_equal(l[0], 727.468 * units.mbar, 2)
    assert_almost_equal(l[1], 9.705 * units.celsius, 2)


def test_no_lfc():
    """Test LFC calculation when there is no LFC in the data."""
    levels = np.array([959., 867.9, 779.2, 647.5, 472.5, 321.9, 251.]) * units.mbar
    temperatures = np.array([22.2, 17.4, 14.6, 1.4, -17.6, -39.4, -52.5]) * units.celsius
    dewpoints = np.array([9., 4.3, -21.2, -26.7, -31., -53.3, -66.7]) * units.celsius
    lfc_pressure, lfc_temperature = lfc(levels, temperatures, dewpoints)
    assert lfc_pressure is None
    assert lfc_temperature is None


def test_saturation_mixing_ratio():
    """Test saturation mixing ratio calculation."""
    p = 999. * units.mbar
    t = 288. * units.kelvin
    assert_almost_equal(saturation_mixing_ratio(p, t), .01068, 3)


def test_equivalent_potential_temperature():
    """Test equivalent potential temperature calculation."""
    p = 999. * units.mbar
    t = 288. * units.kelvin
    ept = equivalent_potential_temperature(p, t)
    assert_almost_equal(ept, 315.9548 * units.kelvin, 3)


def test_virtual_temperature():
    """Test virtual temperature calculation."""
    t = 288. * units.kelvin
    qv = .0016  # kg/kg
    tv = virtual_temperature(t, qv)
    assert_almost_equal(tv, 288.2796 * units.kelvin, 3)


def test_virtual_potential_temperature():
    """Test virtual potential temperature calculation."""
    p = 999. * units.mbar
    t = 288. * units.kelvin
    qv = .0016  # kg/kg
    theta_v = virtual_potential_temperature(p, t, qv)
    assert_almost_equal(theta_v, 288.3620 * units.kelvin, 3)


def test_density():
    """Test density calculation."""
    p = 999. * units.mbar
    t = 288. * units.kelvin
    qv = .0016  # kg/kg
    rho = density(p, t, qv).to(units.kilogram / units.meter ** 3)
    assert_almost_equal(rho, 1.2072 * (units.kilogram / units.meter ** 3), 3)


1			# Copyright (c) 2008-2015 MetPy Developers.
2			# Distributed under the terms of the BSD 3-Clause License.
3			# SPDX-License-Identifier: BSD-3-Clause
4			"""Test the `thermo` module."""
5
6			import numpy as np
7			import pytest
8
9			from metpy.calc import (density, dewpoint, dewpoint_rh, dry_lapse,
10			equivalent_potential_temperature, lcl, lfc, mixing_ratio, moist_lapse,
11			parcel_profile, potential_temperature, saturation_mixing_ratio,
12			saturation_vapor_pressure, vapor_pressure,
13			virtual_potential_temperature, virtual_temperature)
14			from metpy.testing import assert_almost_equal, assert_array_almost_equal
15			from metpy.units import units
16
17
18			def test_potential_temperature():
19			"""Test potential_temperature calculation."""
20			temp = np.array([278., 283., 291., 298.]) * units.kelvin
21			pres = np.array([900., 500., 300., 100.]) * units.mbar
22			real_th = np.array([286.493, 344.961, 410.4335, 575.236]) * units.kelvin
23			assert_array_almost_equal(potential_temperature(pres, temp), real_th, 3)
24
25
26			def test_scalar():
27			"""Test potential_temperature accepts scalar values."""
28			assert_almost_equal(potential_temperature(1000. * units.mbar, 293. * units.kelvin),
29			293. * units.kelvin, 4)
30			assert_almost_equal(potential_temperature(800. * units.mbar, 293. * units.kelvin),
31			312.2828 * units.kelvin, 4)
32
33
34			def test_fahrenheit():
35			"""Test that potential_temperature handles temperature values in Fahrenheit."""
36			assert_almost_equal(potential_temperature(800. * units.mbar, 68. * units.degF),
37			(312.444 * units.kelvin).to(units.degF), 2)
38
39
40			def test_pot_temp_inhg():
41			"""Test that potential_temperature can handle pressure not in mb (issue #165)."""
42			assert_almost_equal(potential_temperature(29.92 * units.inHg, 29 * units.degC),
43			301.019735 * units.kelvin, 4)
44
45
46			def test_dry_lapse():
47			"""Test dry_lapse calculation."""
48			levels = np.array([1000, 900, 864.89]) * units.mbar
49			temps = dry_lapse(levels, 303.15 * units.kelvin)
50			assert_array_almost_equal(temps,
51			np.array([303.15, 294.16, 290.83]) * units.kelvin, 2)
52
53
54			def test_dry_lapse_2_levels():
55			"""Test dry_lapse calculation when given only two levels."""
56			temps = dry_lapse(np.array([1000., 500.]) * units.mbar, 293. * units.kelvin)
57			assert_array_almost_equal(temps, [293., 240.3723] * units.kelvin, 4)
58
59
60			def test_moist_lapse():
61			"""Test moist_lapse calculation."""
62			temp = moist_lapse(np.array([1000., 800., 600., 500., 400.]) * units.mbar,
63			293. * units.kelvin)
64			true_temp = np.array([293, 284.64, 272.81, 264.42, 252.91]) * units.kelvin
65			assert_array_almost_equal(temp, true_temp, 2)
66
67
68			def test_moist_lapse_degc():
69			"""Test moist_lapse with Celsius temperatures."""
70			temp = moist_lapse(np.array([1000., 800., 600., 500., 400.]) * units.mbar,
71			19.85 * units.degC)
72			true_temp = np.array([293, 284.64, 272.81, 264.42, 252.91]) * units.kelvin
73			assert_array_almost_equal(temp, true_temp, 2)
74
75
76			def test_parcel_profile():
77			"""Test parcel profile calculation."""
78			levels = np.array([1000., 900., 800., 700., 600., 500., 400.]) * units.mbar
79			true_prof = np.array([303.15, 294.16, 288.026, 283.073, 277.058, 269.402,
80			258.966]) * units.kelvin
81
82			prof = parcel_profile(levels, 30. * units.degC, 20. * units.degC)
83			assert_array_almost_equal(prof, true_prof, 2)
84
85
86			def test_parcel_profile_saturated():
87			"""Test parcel_profile works when LCL in levels (issue #232)."""
88			levels = np.array([1000., 700., 500.]) * units.mbar
89			true_prof = np.array([296.95, 284.381, 271.123]) * units.kelvin
90
91			prof = parcel_profile(levels, 23.8 * units.degC, 23.8 * units.degC)
92			assert_array_almost_equal(prof, true_prof, 2)
93
94
95			def test_sat_vapor_pressure():
96			"""Test saturation_vapor_pressure calculation."""
97			temp = np.array([5., 10., 18., 25.]) * units.degC
98			real_es = np.array([8.72, 12.27, 20.63, 31.67]) * units.mbar
99			assert_array_almost_equal(saturation_vapor_pressure(temp), real_es, 2)
100
101
102			def test_sat_vapor_pressure_scalar():
103			"""Test saturation_vapor_pressure handles scalar values."""
104			es = saturation_vapor_pressure(0 * units.degC)
105			assert_almost_equal(es, 6.112 * units.mbar, 3)
106
107
108			def test_sat_vapor_pressure_fahrenheit():
109			"""Test saturation_vapor_pressure handles temperature in Fahrenheit."""
110			temp = np.array([50., 68.]) * units.degF
111			real_es = np.array([12.2717, 23.3695]) * units.mbar
112			assert_array_almost_equal(saturation_vapor_pressure(temp), real_es, 4)
113
114
115			def test_basic_dewpoint_rh():
116			"""Test dewpoint_rh function."""
117			temp = np.array([30., 25., 10., 20., 25.]) * units.degC
118			rh = np.array([30., 45., 55., 80., 85.]) / 100.
119
120			real_td = np.array([11, 12, 1, 16, 22]) * units.degC
121			assert_array_almost_equal(real_td, dewpoint_rh(temp, rh), 0)
122
123
124			def test_scalar_dewpoint_rh():
125			"""Test dewpoint_rh with scalar values."""
126			td = dewpoint_rh(10.6 * units.degC, 0.37)
127			assert_almost_equal(td, 26. * units.degF, 0)
128
129
130			def test_dewpoint():
131			"""Test dewpoint calculation."""
132			assert_almost_equal(dewpoint(6.112 * units.mbar), 0. * units.degC, 2)
133
134
135			def test_dewpoint_weird_units():
136			"""Test dewpoint using non-standard units.
137
138			Revealed from odd dimensionless units and ending up using numpy.ma math
139			functions instead of numpy ones.
140			"""
141			assert_almost_equal(dewpoint(15825.6 * units('g * mbar / kg')),
142			13.8564 * units.degC, 4)
143
144
145			def test_mixing_ratio():
146			"""Test mixing ratio calculation."""
147			p = 998. * units.mbar
148			e = 73.75 * units.mbar
149			assert_almost_equal(mixing_ratio(e, p), 0.04963, 2)
150
151
152			def test_vapor_pressure():
153			"""Test vapor pressure calculation."""
154			assert_almost_equal(vapor_pressure(998. * units.mbar, 0.04963),
155			73.74925 * units.mbar, 5)
156
157
158			def test_lcl():
159			"""Test LCL calculation."""
160			lcl_pressure, lcl_temperature = lcl(1000. * units.mbar, 30. * units.degC, 20. * units.degC)
161			assert_almost_equal(lcl_pressure, 864.761 * units.mbar, 2)
162			assert_almost_equal(lcl_temperature, 17.676 * units.degC, 2)
163
164
165			def test_lcl_convergence():
166			"""Test LCL calculation convergence failure."""
167			with pytest.raises(RuntimeError):
168			lcl(1000. * units.mbar, 30. * units.degC, 20. * units.degC, max_iters=2)
169
170
171			def test_lfc_basic():
172			"""Test LFC calculation."""
173			levels = np.array([959., 779.2, 751.3, 724.3, 700., 269.]) * units.mbar
174			temperatures = np.array([22.2, 14.6, 12., 9.4, 7., -49.]) * units.celsius
175			dewpoints = np.array([19., -11.2, -10.8, -10.4, -10., -53.2]) * units.celsius
176			l = lfc(levels, temperatures, dewpoints)
177			assert_almost_equal(l[0], 727.468 * units.mbar, 2)
178			assert_almost_equal(l[1], 9.705 * units.celsius, 2)
179
180
181			def test_no_lfc():
182			"""Test LFC calculation when there is no LFC in the data."""
183			levels = np.array([959., 867.9, 779.2, 647.5, 472.5, 321.9, 251.]) * units.mbar
184			temperatures = np.array([22.2, 17.4, 14.6, 1.4, -17.6, -39.4, -52.5]) * units.celsius
185			dewpoints = np.array([9., 4.3, -21.2, -26.7, -31., -53.3, -66.7]) * units.celsius
186			lfc_pressure, lfc_temperature = lfc(levels, temperatures, dewpoints)
187			assert lfc_pressure is None
188			assert lfc_temperature is None
189
190
191			def test_saturation_mixing_ratio():
192			"""Test saturation mixing ratio calculation."""
193			p = 999. * units.mbar
194			t = 288. * units.kelvin
195			assert_almost_equal(saturation_mixing_ratio(p, t), .01068, 3)
196
197
198			def test_equivalent_potential_temperature():
199			"""Test equivalent potential temperature calculation."""
200			p = 999. * units.mbar
201			t = 288. * units.kelvin
202			ept = equivalent_potential_temperature(p, t)
203			assert_almost_equal(ept, 315.9548 * units.kelvin, 3)
204
205
206			def test_virtual_temperature():
207			"""Test virtual temperature calculation."""
208			t = 288. * units.kelvin
209			qv = .0016 # kg/kg
210			tv = virtual_temperature(t, qv)
211			assert_almost_equal(tv, 288.2796 * units.kelvin, 3)
212
213
214			def test_virtual_potential_temperature():
215			"""Test virtual potential temperature calculation."""
216			p = 999. * units.mbar
217			t = 288. * units.kelvin
218			qv = .0016 # kg/kg
219			theta_v = virtual_potential_temperature(p, t, qv)
220			assert_almost_equal(theta_v, 288.3620 * units.kelvin, 3)
221
222
223			def test_density():
224			"""Test density calculation."""
225			p = 999. * units.mbar
226			t = 288. * units.kelvin
227			qv = .0016 # kg/kg
228			rho = density(p, t, qv).to(units.kilogram / units.meter ** 3)
229			assert_almost_equal(rho, 1.2072 * (units.kilogram / units.meter ** 3), 3)
230

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test_no_lfc() A

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