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test_cli.py
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/
test_cli.py
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# -*- coding: utf-8 -*-
'''Test WGC command line inputs.'''
from webgeocalc.cli import (_params, cli_angular_separation, cli_angular_size, cli_bodies,
cli_frame_transformation, cli_frames, cli_illumination_angles,
cli_instruments, cli_kernel_sets, cli_osculating_elements,
cli_state_vector, cli_subobserver_point, cli_subsolar_point,
cli_surface_intercept_point, cli_time_conversion)
def test_cli_kernel_sets(capsys):
'''Test GET kernels with CLI.'''
argv = ''.split()
cli_kernel_sets(argv)
captured = capsys.readouterr()
assert 'usage:' in captured.out
argv = '--all'.split()
cli_kernel_sets(argv)
captured = capsys.readouterr()
assert ' - Solar System Kernels: (id: 1)' in captured.out
assert ' - Cassini Huygens: (id: 5)' in captured.out
argv = '--kernel 1 Cassini'.split()
cli_kernel_sets(argv)
captured = capsys.readouterr()
assert ' - Solar System Kernels: (id: 1)' in captured.out
assert 'Too many kernel sets contains \'Cassini\' in their names:' in captured.out
argv = '--api esa --kernel 6'.split()
cli_kernel_sets(argv)
captured = capsys.readouterr()
assert ' - OPS -- Rosetta -- Operational: (id: 6)' in captured.out
assert '' in captured.out
def test_cli_bodies(capsys):
'''Test GET bodies with CLI.'''
argv = ''.split()
cli_bodies(argv)
captured = capsys.readouterr()
assert 'usage:' in captured.out
argv = ['Cassini Huygens']
cli_bodies(argv)
captured = capsys.readouterr()
assert ' - CASSINI: (id: -82)' in captured.out
assert ' - TITAN: (id: 606)' in captured.out
argv = '5 --name Titan'.split()
cli_bodies(argv)
captured = capsys.readouterr()
assert captured.out == ' - TITAN: (id: 606)\n'
argv = '--api esa 6 --name 67P'.split()
cli_bodies(argv)
captured = capsys.readouterr()
assert captured.out == ' - 67P/CHURYUMOV-GERASIMENKO (1969 R1): (id: 1000012)\n'
def test_cli_frames(capsys):
'''Test GET frames with CLI.'''
argv = ''.split()
cli_frames(argv)
captured = capsys.readouterr()
assert 'usage:' in captured.out
argv = ['Cassini Huygens']
cli_frames(argv)
captured = capsys.readouterr()
assert ' - IAU_TITAN: (id: 10044)' in captured.out
assert ' - J2000: (id: 1)' in captured.out
argv = '5 --name Titan'.split()
cli_frames(argv)
captured = capsys.readouterr()
assert ' - IAU_TITAN: (id: 10044)' in captured.out
assert ' - J2000: (id: 1)' not in captured.out
argv = '--api esa 6 --name 67P'.split()
cli_frames(argv)
captured = capsys.readouterr()
assert '- 67P/C-G_CK: (id: -1000012000)' in captured.out
assert ' - J2000: (id: 1)' not in captured.out
def test_cli_instruments(capsys):
'''Test GET instruments with CLI.'''
argv = ''.split()
cli_instruments(argv)
captured = capsys.readouterr()
assert 'usage:' in captured.out
argv = ['Cassini Huygens']
cli_instruments(argv)
captured = capsys.readouterr()
assert ' - CASSINI_ISS_WAC: (id: -82361)' in captured.out
assert ' - CASSINI_VIMS_IR: (id: -82370)' in captured.out
argv = '5 --name ISS'.split()
cli_instruments(argv)
captured = capsys.readouterr()
assert ' - CASSINI_ISS_WAC: (id: -82361)' in captured.out
assert ' - CASSINI_VIMS_IR: (id: -82370)' not in captured.out
argv = '--api esa 6 --name NAVCAM'.split()
cli_instruments(argv)
captured = capsys.readouterr()
assert ' - ROS_NAVCAM-A: (id: -226170)' in captured.out
assert ' - ROS_NAVCAM-B: (id: -226180)' in captured.out
assert ' - ROS_CONSERT: (id: -226160)' not in captured.out
def test_cli_input_parameters():
'''Test CLI input parameters parsing.'''
def parse(x):
return _params(x.split())
assert parse('--kernels 1') == {'kernels': 1}
assert parse('--kernels=1') == {'kernels': 1}
assert parse('--kernels= 1') == {'kernels': 1}
assert parse('--kernels = 1') == {'kernels': 1}
assert parse('--kernels =1') == {'kernels': 1}
assert parse('--kernels 1 5') == {'kernels': [1, 5]}
assert parse('--kernels=1 5') == {'kernels': [1, 5]}
assert parse('--kernels 1,5') == {'kernels': [1, 5]}
assert parse('--kernels=1,5') == {'kernels': [1, 5]}
assert parse('--kernels 1, 5') == {'kernels': [1, 5]}
assert parse('--kernels=1, 5') == {'kernels': [1, 5]}
assert parse('--kernels [1,5]') == {'kernels': [1, 5]}
assert parse('--kernels=[1,5]') == {'kernels': [1, 5]}
assert parse('--kernels [1, 5]') == {'kernels': [1, 5]}
assert parse('--kernels=[1, 5]') == {'kernels': [1, 5]}
assert parse('--kernels [ 1,5]') == {'kernels': [1, 5]}
assert parse('--kernels=[ 1,5]') == {'kernels': [1, 5]}
assert parse('--kernels [ 1, 5]') == {'kernels': [1, 5]}
assert parse('--kernels [ 1, 5 ]') == {'kernels': [1, 5]}
assert parse('--kernels [1, 5 ]') == {'kernels': [1, 5]}
assert parse('--kernels [1,5 ]') == {'kernels': [1, 5]}
assert parse('--kernels=[1,5 ]') == {'kernels': [1, 5]}
assert parse('--kernels [1 ,5]') == {'kernels': [1, 5]}
assert parse('--kernels [1 , 5]') == {'kernels': [1, 5]}
assert parse('--kernels [1, 3, 5]') == {'kernels': [1, 3, 5]}
assert parse('--kernels 1, 3, 5') == {'kernels': [1, 3, 5]}
assert parse('--kernels 1 --kernels 5') == {'kernels': [1, 5]}
assert parse('--kernels=1 --kernels 5') == {'kernels': [1, 5]}
assert parse('--kernels=1 --kernels=5') == {'kernels': [1, 5]}
assert parse('null --kernels=1') == {'kernels': 1}
assert parse('--kernels Cassini') == {'kernels': 'Cassini'}
assert parse("--kernels 'Cassini'") == {'kernels': 'Cassini'}
assert parse('--kernels "Cassini"') == {'kernels': 'Cassini'}
assert parse('--kernels "Cassini" "Solar"') == {'kernels': ['Cassini', 'Solar']}
assert parse("--times '2012-10-19T08:24:00'") == {'times': '2012-10-19T08:24:00'}
def test_cli_state_vector_empty(capsys):
'''Test empty state vector calculation parameter with the CLI.'''
argv = ''.split()
cli_state_vector(argv)
captured = capsys.readouterr()
assert 'usage:' in captured.out
def test_cli_angular_separation_wrong_attr(capsys):
'''Test attribute in angular separation calculation parameter with the CLI.'''
argv = '--wrong 123'.split()
cli_angular_separation(argv)
captured = capsys.readouterr()
assert captured.out == 'Attribute \'target_1\' required.\n'
def test_cli_angular_size_run(capsys):
'''Test run angular size calculation parameter with the CLI.'''
argv = ('--payload '
'--kernels 5 '
'--times 2012-10-19T08:24:00 '
'--target ENCELADUS '
'--observer CASSINI '
'--aberration_correction CN+S').split()
cli_angular_size(argv)
captured = capsys.readouterr()
assert 'API: https://wgc2.jpl.nasa.gov:8443/webgeocalc/api' in captured.out
assert 'Payload:' in captured.out
assert "kernels: [{'type': 'KERNEL_SET', 'id': 5}]," in captured.out
assert "times: ['2012-10-19T08:24:00']," in captured.out
assert "calculationType: ANGULAR_SIZE," in captured.out
assert "timeSystem: UTC," in captured.out
assert 'API status:\n[Calculation submit] Phase:' in captured.out
assert 'Results:\nDATE:\n> 2012-10-19 08:24:00.000000 UTC' in captured.out
assert 'ANGULAR_SIZE:\n> 0.03037939' in captured.out
def test_cli_frame_transformation_dry_run(capsys):
'''Test dry-run frame transform calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 2012-10-19T08:24:00.000 '
'--frame_1 IAU_SATURN '
'--frame_2 IAU_ENCELADUS '
'--aberration_correction NONE').split()
cli_frame_transformation(argv)
captured = capsys.readouterr()
assert 'API: https://wgc2.jpl.nasa.gov:8443/webgeocalc/api' in captured.out
assert 'Payload:' in captured.out
assert "calculationType: FRAME_TRANSFORMATION," in captured.out
assert 'API status:\n[Calculation submit] Status:' not in captured.out
assert 'Results:' not in captured.out
def test_cli_illumination_angles_dry_run(capsys):
'''Test dry-run illumination angles calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 2012-10-19T08:24:00.000 '
'--target ENCELADUS '
'--target_frame IAU_ENCELADUS '
'--observer CASSINI '
'--aberration_correction CN+S '
'--latitude 0.0 '
'--longitude 0.0').split()
cli_illumination_angles(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: ILLUMINATION_ANGLES," in captured.out
def test_cli_subsolar_point_dry_run(capsys):
'''Test dry-run sub-solar point calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 2012-10-19T08:24:00.000 '
'--target ENCELADUS '
'--target_frame IAU_ENCELADUS '
'--observer CASSINI '
'--aberration_correction CN+S').split()
cli_subsolar_point(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: SUB_SOLAR_POINT," in captured.out
def test_cli_subobserver_point_dry_run(capsys):
'''Test dry-run sub-observer point calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 2012-10-19T08:24:00.000 '
'--target ENCELADUS '
'--target_frame IAU_ENCELADUS '
'--observer CASSINI '
'--aberration_correction CN+S').split()
cli_subobserver_point(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: SUB_OBSERVER_POINT," in captured.out
def test_cli_surface_intercept_point_dry_run(capsys):
'''Test dry-run surface intercept point calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 2012-10-19T08:24:00.000 '
'--target SATURN '
'--target_frame IAU_SATURN '
'--observer CASSINI '
'--direction_vector_type INSTRUMENT_BORESIGHT '
'--direction_instrument CASSINI_ISS_NAC '
'--aberration_correction NONE '
'--state_representation LATITUDINAL').split()
cli_surface_intercept_point(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: SURFACE_INTERCEPT_POINT," in captured.out
def test_cli_osculating_elements_dry_run(capsys):
'''Test dry-run osculating elements calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 1 5 '
'--times 2012-10-19T08:24:00.000 '
'--orbiting_body CASSINI '
'--center_body SATURN').split()
cli_osculating_elements(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: OSCULATING_ELEMENTS," in captured.out
def test_cli_time_conversion_dry_run(capsys):
'''Test dry-run time conversion calculation parameter with the CLI.'''
argv = ('--dry-run '
'--kernels 5 '
'--times 1/1729329441.04 '
'--time_system SPACECRAFT_CLOCK '
'--time_format SPACECRAFT_CLOCK_STRING '
'--sclk_id -82 '
).split()
cli_time_conversion(argv)
captured = capsys.readouterr()
assert 'Payload:' in captured.out
assert "calculationType: TIME_CONVERSION," in captured.out
def test_cli_state_vector_esa(capsys):
'''Test dry-run state vector calculation on ESA API with the CLI.'''
argv = [
'--dry-run',
'--api', 'ESA',
'--kernels', '"OPS -- Rosetta"',
'--times', '2014-01-01T01:23:45.000',
'--calculation_type', 'STATE_VECTOR',
'--target', '"67P/CHURYUMOV-GERASIMENKO (1969 R1)"',
'--observer', '"ROSETTA ORBITER"',
'--reference_frame', '"67P/C-G_CK"',
'--aberration_correction', 'NONE',
'--state_representation', 'LATITUDINAL',
]
cli_state_vector(argv)
captured = capsys.readouterr()
assert 'API: http://spice.esac.esa.int/webgeocalc/api' in captured.out
assert 'Payload:' in captured.out
assert "kernels: [{'type': 'KERNEL_SET', 'id': 6}]" in captured.out
assert "times: ['2014-01-01T01:23:45.000']" in captured.out
assert 'target: 67P/CHURYUMOV-GERASIMENKO (1969 R1)' in captured.out
assert 'observer: ROSETTA ORBITER' in captured.out
assert 'referenceFrame: 67P/C-G_CK' in captured.out
assert 'calculationType: STATE_VECTOR' in captured.out
assert 'aberrationCorrection: NONE' in captured.out
assert 'stateRepresentation: LATITUDINAL' in captured.out
assert 'timeSystem: UTC' in captured.out
assert 'timeFormat: CALENDAR' in captured.out