Exemplo n.º 1
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def test_spec_version_select():
    spec = AsdfSpec('>=1.1.0')

    versions = [AsdfVersion(x) for x in ['1.0.0', '1.0.9', '1.1.0', '1.2.0']]
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 2
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def test_spec_version_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match(AsdfVersion('1.1.0'))
    assert spec.match(AsdfVersion('1.2.0'))
    assert not spec.match(AsdfVersion('1.0.0'))
    assert not spec.match(AsdfVersion('1.0.9'))
Exemplo n.º 3
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def test_spec_tuple_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match((1,1,0))
    assert spec.match((1,2,0))
    assert not spec.match((1,0,0))
    assert not spec.match((1,0,9))
Exemplo n.º 4
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def test_spec_tuple_select():
    spec = AsdfSpec('>=1.1.0')

    versions = [(1,0,0), (1,0,9), (1,1,0), (1,2,0)]
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 5
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def test_spec_string_select():
    spec = AsdfSpec('>=1.1.0')

    versions = ['1.0.0', '1.0.9', '1.1.0', '1.2.0']
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 6
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def test_spec_string_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match('1.1.0')
    assert spec.match('1.2.0')
    assert not spec.match('1.0.0')
    assert not spec.match('1.0.9')
Exemplo n.º 7
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def test_spec_string_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match('1.1.0')
    assert spec.match('1.2.0')
    assert not spec.match('1.0.0')
    assert not spec.match('1.0.9')
Exemplo n.º 8
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def test_spec_version_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match(AsdfVersion('1.1.0'))
    assert spec.match(AsdfVersion('1.2.0'))
    assert not spec.match(AsdfVersion('1.0.0'))
    assert not spec.match(AsdfVersion('1.0.9'))
Exemplo n.º 9
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def test_spec_version_select():
    spec = AsdfSpec('>=1.1.0')

    versions = [AsdfVersion(x) for x in ['1.0.0', '1.0.9', '1.1.0', '1.2.0']]
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 10
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def test_spec_tuple_select():
    spec = AsdfSpec('>=1.1.0')

    versions = [(1,0,0), (1,0,9), (1,1,0), (1,2,0)]
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 11
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def test_spec_tuple_match():
    spec = AsdfSpec('>=1.1.0')

    assert spec.match((1,1,0))
    assert spec.match((1,2,0))
    assert not spec.match((1,0,0))
    assert not spec.match((1,0,9))
Exemplo n.º 12
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def test_spec_string_select():
    spec = AsdfSpec('>=1.1.0')

    versions = ['1.0.0', '1.0.9', '1.1.0', '1.2.0']
    assert spec.select(versions) == '1.2.0'
    assert spec.select(versions[:-1]) == '1.1.0'
    assert spec.select(versions[:-2]) == None
Exemplo n.º 13
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def test_spec_equal():
    """Make sure that equality means match"""
    spec = AsdfSpec('>=1.2.0')
    version0 = AsdfVersion('1.1.0')
    version1 = AsdfVersion('1.3.0')

    assert spec != version0
    assert version0 != spec
    assert spec == version1
    assert version1 == spec

    assert spec != '1.1.0'
    assert '1.1.0' != spec
    assert spec == '1.3.0'
    assert '1.3.0' == spec

    assert spec != (1, 1, 0)
    assert (1, 1, 0) != spec
    assert spec == (1, 3, 0)
    assert (1, 3, 0) == spec
Exemplo n.º 14
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def test_spec_tuple_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = [(1,0,0), (1,0,9), (1,1,0), (1,2,0)]
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y
Exemplo n.º 15
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def test_spec_string_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = ['1.0.0', '1.0.9', '1.1.0', '1.2.0']
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y
Exemplo n.º 16
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def test_spec_tuple_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = [(1,0,0), (1,0,9), (1,1,0), (1,2,0)]
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y
Exemplo n.º 17
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def test_spec_string_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = ['1.0.0', '1.0.9', '1.1.0', '1.2.0']
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y
Exemplo n.º 18
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def test_spec_version_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = [AsdfVersion(x) for x in ['1.0.0', '1.0.9', '1.1.0', '1.2.0']]
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y
Exemplo n.º 19
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class TimeType(AstropyAsdfType):
    name = 'time/time'
    version = '1.1.0'
    supported_versions = ['1.0.0', AsdfSpec('>=1.1.0')]
    types = ['astropy.time.core.Time']
    requires = ['astropy']

    @classmethod
    def to_tree(cls, node, ctx):
        format = node.format

        if format == 'byear':
            node = time.Time(node, format='byear_str')

        elif format == 'jyear':
            node = time.Time(node, format='jyear_str')

        elif format in ('fits', 'datetime', 'plot_date'):
            node = time.Time(node, format='isot')

        format = node.format

        format = _astropy_format_to_asdf_format.get(format, format)

        guessable_format = format in _guessable_formats

        if node.scale == 'utc' and guessable_format:
            if node.isscalar:
                return node.value
            else:
                return yamlutil.custom_tree_to_tagged_tree(node.value, ctx)

        d = {'value': yamlutil.custom_tree_to_tagged_tree(node.value, ctx)}

        if not guessable_format:
            d['format'] = format

        if node.scale != 'utc':
            d['scale'] = node.scale

        if node.location is not None:
            x, y, z = node.location.x, node.location.y, node.location.z
            # Preserve backwards compatibility for writing the old schema
            # This allows WCS to test backwards compatibility with old frames
            # This code does get tested in CI, but we don't run a coverage test
            if cls.version == '1.0.0':  # pragma: no cover
                unit = node.location.unit
                d['location'] = {'x': x, 'y': y, 'z': z, 'unit': unit}
            else:
                d['location'] = {
                    # It seems like EarthLocations can be represented either in
                    # terms of Cartesian coordinates or latitude and longitude, so
                    # we rather arbitrarily choose the former for our representation
                    'x': yamlutil.custom_tree_to_tagged_tree(x, ctx),
                    'y': yamlutil.custom_tree_to_tagged_tree(y, ctx),
                    'z': yamlutil.custom_tree_to_tagged_tree(z, ctx)
                }

        return d

    @classmethod
    def from_tree(cls, node, ctx):
        if isinstance(node, (str, list, np.ndarray)):
            t = time.Time(node)
            format = _astropy_format_to_asdf_format.get(t.format, t.format)
            if format not in _guessable_formats:
                raise ValueError("Invalid time '{0}'".format(node))
            return t

        value = node['value']
        format = node.get('format')
        scale = node.get('scale')
        location = node.get('location')
        if location is not None:
            unit = location.get('unit', u.m)
            # This ensures that we can read the v.1.0.0 schema and convert it
            # to the new EarthLocation object, which expects Quantity components
            for comp in ['x', 'y', 'z']:
                if not isinstance(location[comp], Quantity):
                    location[comp] = Quantity(location[comp], unit=unit)
            location = EarthLocation.from_geocentric(location['x'],
                                                     location['y'],
                                                     location['z'])

        return time.Time(value, format=format, scale=scale, location=location)

    @classmethod
    def assert_equal(cls, old, new):
        assert old.format == new.format
        assert old.scale == new.scale
        if isinstance(old.location, EarthLocation):
            assert isinstance(new.location, EarthLocation)
            _assert_earthlocation_equal(old.location, new.location)
        else:
            assert old.location == new.location

        assert_array_equal(old, new)
Exemplo n.º 20
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def test_spec_version_filter():
    spec = AsdfSpec('>=1.1.0')

    versions = [AsdfVersion(x) for x in ['1.0.0', '1.0.9', '1.1.0', '1.2.0']]
    for x,y in zip(spec.filter(versions), ['1.1.0', '1.2.0']):
        assert x == y