Пример #1
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def test_mercator_a_operation__defaults():
    aeaop = MercatorAConversion()
    assert aeaop.name == "unknown"
    assert aeaop.method_name == "Mercator (variant A)"
    assert _to_dict(aeaop) == {
        "Latitude of natural origin": 0.0,
        "Longitude of natural origin": 0.0,
        "False easting": 0.0,
        "False northing": 0.0,
        "Scale factor at natural origin": 1.0,
    }
Пример #2
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def test_mercator_a_operation():
    aeaop = MercatorAConversion(
        latitude_natural_origin=1,
        longitude_natural_origin=2,
        false_easting=3,
        false_northing=4,
        scale_factor_natural_origin=0.5,
    )
    assert aeaop.name == "unknown"
    assert aeaop.method_name == "Mercator (variant A)"
    assert _to_dict(aeaop) == {
        "Latitude of natural origin": 1.0,
        "Longitude of natural origin": 2.0,
        "False easting": 3.0,
        "False northing": 4.0,
        "Scale factor at natural origin": 0.5,
    }
Пример #3
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def _mercator(cf_params):
    """
    http://cfconventions.org/cf-conventions/cf-conventions.html#_mercator
    """
    if "scale_factor_at_projection_origin" in cf_params:
        return MercatorAConversion(
            latitude_natural_origin=cf_params.get("standard_parallel", 0.0),
            longitude_natural_origin=cf_params.get(
                "longitude_of_projection_origin", 0.0
            ),
            false_easting=cf_params.get("false_easting", 0.0),
            false_northing=cf_params.get("false_northing", 0.0),
            scale_factor_natural_origin=cf_params["scale_factor_at_projection_origin"],
        )
    return MercatorBConversion(
        latitude_first_parallel=cf_params.get("standard_parallel", 0.0),
        longitude_natural_origin=cf_params.get("longitude_of_projection_origin", 0.0),
        false_easting=cf_params.get("false_easting", 0.0),
        false_northing=cf_params.get("false_northing", 0.0),
    )
Пример #4
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def test_mercator_a():
    crs = ProjectedCRS(conversion=MercatorAConversion(1, 2, 3, 4))
    expected_cf = {
        "semi_major_axis": 6378137.0,
        "semi_minor_axis": crs.ellipsoid.semi_minor_metre,
        "inverse_flattening": crs.ellipsoid.inverse_flattening,
        "reference_ellipsoid_name": "WGS 84",
        "longitude_of_prime_meridian": 0.0,
        "prime_meridian_name": "Greenwich",
        "horizontal_datum_name": "World Geodetic System 1984",
        "grid_mapping_name": "mercator",
        "standard_parallel": 1.0,
        "longitude_of_projection_origin": 2.0,
        "false_easting": 3.0,
        "false_northing": 4.0,
        "scale_factor_at_projection_origin": 1.0,
    }
    cf_dict = crs.to_cf()
    assert cf_dict.pop("crs_wkt").startswith("PROJCRS[")
    assert cf_dict == expected_cf
    # test roundtrip
    _test_roundtrip(expected_cf, "PROJCRS[")