How to use the neo4j.v1.spatial.WGS84Point function in neo4j

To help you get started, we’ve selected a few neo4j examples, based on popular ways it is used in public projects.

Secure your code as it's written. Use Snyk Code to scan source code in minutes - no build needed - and fix issues immediately.

github neo4j-contrib / neomodel / test / test_contrib / test_spatial_properties.py View on Github external
:return:
    """

    # Neo4j versions lower than 3.4.0 do not support Point. In that case, skip the test.
    check_and_skip_neo4j_least_version(340, 'This version does not support spatial data types.')

    # The test is repeatable enough to try and standardise it. The same test is repeated with the assertions in
    # `basic_type_assertions` and different messages to be able to localise the exception.
    #
    # Array of points to inflate and messages when things go wrong
    values_from_db = [(neo4j.v1.spatial.CartesianPoint((0.0, 0.0)),
                       'Expected Neomodel 2d cartesian point when inflating 2d cartesian neo4j point'),
                      (neo4j.v1.spatial.CartesianPoint((0.0, 0.0, 0.0)),
                       'Expected Neomodel 3d cartesian point when inflating 3d cartesian neo4j point'),
                      (neo4j.v1.spatial.WGS84Point((0.0, 0.0)),
                       'Expected Neomodel 2d geographical point when inflating 2d geographical neo4j point'),
                      (neo4j.v1.spatial.WGS84Point((0.0, 0.0, 0.0)),
                       'Expected Neomodel 3d geographical point inflating 3d geographical neo4j point')]

    # Run the above tests
    for a_value in values_from_db:
        expected_point = neomodel.contrib.spatial_properties.NeomodelPoint(tuple(a_value[0]),
                                                crs=neomodel.contrib.spatial_properties.SRID_TO_CRS[a_value[0].srid])
        inflated_point = neomodel.contrib.spatial_properties.PointProperty(
            crs=neomodel.contrib.spatial_properties.SRID_TO_CRS[a_value[0].srid]).inflate(a_value[0])
        basic_type_assertions(expected_point, inflated_point, '{}, received {}'.format(a_value[1], inflated_point))
github neo4j-contrib / neomodel / test / test_contrib / test_spatial_properties.py View on Github external
"""

    # Neo4j versions lower than 3.4.0 do not support Point. In that case, skip the test.
    check_and_skip_neo4j_least_version(340, 'This version does not support spatial data types.')

    # The test is repeatable enough to try and standardise it. The same test is repeated with the assertions in
    # `basic_type_assertions` and different messages to be able to localise the exception.
    #
    # Array of points to inflate and messages when things go wrong
    values_from_db = [(neo4j.v1.spatial.CartesianPoint((0.0, 0.0)),
                       'Expected Neomodel 2d cartesian point when inflating 2d cartesian neo4j point'),
                      (neo4j.v1.spatial.CartesianPoint((0.0, 0.0, 0.0)),
                       'Expected Neomodel 3d cartesian point when inflating 3d cartesian neo4j point'),
                      (neo4j.v1.spatial.WGS84Point((0.0, 0.0)),
                       'Expected Neomodel 2d geographical point when inflating 2d geographical neo4j point'),
                      (neo4j.v1.spatial.WGS84Point((0.0, 0.0, 0.0)),
                       'Expected Neomodel 3d geographical point inflating 3d geographical neo4j point')]

    # Run the above tests
    for a_value in values_from_db:
        expected_point = neomodel.contrib.spatial_properties.NeomodelPoint(tuple(a_value[0]),
                                                crs=neomodel.contrib.spatial_properties.SRID_TO_CRS[a_value[0].srid])
        inflated_point = neomodel.contrib.spatial_properties.PointProperty(
            crs=neomodel.contrib.spatial_properties.SRID_TO_CRS[a_value[0].srid]).inflate(a_value[0])
        basic_type_assertions(expected_point, inflated_point, '{}, received {}'.format(a_value[1], inflated_point))
github neo4j-contrib / neomodel / neomodel / contrib / spatial_properties.py View on Github external
if not isinstance(value, NeomodelPoint):
            raise TypeError('Invalid datatype to deflate. Expected NeomodelPoint, received {}'.format(type(value)))

        if not value.crs == self._crs:
            raise ValueError('Invalid CRS. '
                             'Expected NeomodelPoint defined over {}, '
                             'received NeomodelPoint defined over {}'.format(self._crs, value.crs))

        if value.crs == 'cartesian-3d':
            return neo4j.v1.spatial.CartesianPoint((value.x, value.y,  value.z))
        elif value.crs == 'cartesian':
            return neo4j.v1.spatial.CartesianPoint((value.x,value.y))
        elif value.crs == 'wgs-84':
            return neo4j.v1.spatial.WGS84Point((value.longitude, value.latitude))
        elif value.crs == 'wgs-84-3d':
            return neo4j.v1.spatial.WGS84Point((value.longitude, value.latitude, value.height))
github neo4j-contrib / neomodel / neomodel / contrib / spatial_properties.py View on Github external
:return: Neo4J POINT
        """
        if not isinstance(value, NeomodelPoint):
            raise TypeError('Invalid datatype to deflate. Expected NeomodelPoint, received {}'.format(type(value)))

        if not value.crs == self._crs:
            raise ValueError('Invalid CRS. '
                             'Expected NeomodelPoint defined over {}, '
                             'received NeomodelPoint defined over {}'.format(self._crs, value.crs))

        if value.crs == 'cartesian-3d':
            return neo4j.v1.spatial.CartesianPoint((value.x, value.y,  value.z))
        elif value.crs == 'cartesian':
            return neo4j.v1.spatial.CartesianPoint((value.x,value.y))
        elif value.crs == 'wgs-84':
            return neo4j.v1.spatial.WGS84Point((value.longitude, value.latitude))
        elif value.crs == 'wgs-84-3d':
            return neo4j.v1.spatial.WGS84Point((value.longitude, value.latitude, value.height))