Source code for rdflib.namespace._GEO
from rdflib.namespace import DefinedNamespace, Namespace
from rdflib.term import URIRef
[docs]class GEO(DefinedNamespace):
"""
An RDF/OWL vocabulary for representing spatial information
Generated from: http://schemas.opengis.net/geosparql/1.0/geosparql_vocab_all.rdf
Date: 2021-12-27 17:38:15.101187
.. code-block:: Turtle
<http://www.opengis.net/ont/geosparql> dc:creator "Open Geospatial Consortium"^^xsd:string
dc:date "2012-04-30"^^xsd:date
dc:source <http://www.opengis.net/doc/IS/geosparql/1.0>
"OGC GeoSPARQL – A Geographic Query Language for RDF Data OGC 11-052r5"^^xsd:string
rdfs:seeAlso <http://www.opengis.net/def/function/ogc-geosparql/1.0>
<http://www.opengis.net/def/rule/ogc-geosparql/1.0>
<http://www.opengis.net/doc/IS/geosparql/1.0>
owl:imports dc:
<http://www.opengis.net/ont/gml>
<http://www.opengis.net/ont/sf>
<http://www.w3.org/2004/02/skos/core>
owl:versionInfo "OGC GeoSPARQL 1.0"^^xsd:string
"""
# http://www.w3.org/2000/01/rdf-schema#Datatype
gmlLiteral: URIRef # A GML serialization of a geometry object.
wktLiteral: URIRef # A Well-known Text serialization of a geometry object.
# http://www.w3.org/2002/07/owl#Class
Feature: URIRef # This class represents the top-level feature type. This class is equivalent to GFI_Feature defined in ISO 19156:2011, and it is superclass of all feature types.
Geometry: URIRef # The class represents the top-level geometry type. This class is equivalent to the UML class GM_Object defined in ISO 19107, and it is superclass of all geometry types.
SpatialObject: URIRef # The class spatial-object represents everything that can have a spatial representation. It is superclass of feature and geometry.
# http://www.w3.org/2002/07/owl#DatatypeProperty
asGML: URIRef # The GML serialization of a geometry
asWKT: URIRef # The WKT serialization of a geometry
coordinateDimension: URIRef # The number of measurements or axes needed to describe the position of this geometry in a coordinate system.
dimension: URIRef # The topological dimension of this geometric object, which must be less than or equal to the coordinate dimension. In non-homogeneous collections, this will return the largest topological dimension of the contained objects.
hasSerialization: (
URIRef # Connects a geometry object with its text-based serialization.
)
isEmpty: URIRef # (true) if this geometric object is the empty Geometry. If true, then this geometric object represents the empty point set for the coordinate space.
isSimple: URIRef # (true) if this geometric object has no anomalous geometric points, such as self intersection or self tangency.
spatialDimension: URIRef # The number of measurements or axes needed to describe the spatial position of this geometry in a coordinate system.
# http://www.w3.org/2002/07/owl#ObjectProperty
defaultGeometry: URIRef # The default geometry to be used in spatial calculations. It is Usually the most detailed geometry.
ehContains: URIRef # Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*TFF*FF*
ehCoveredBy: URIRef # Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFF*TFT**
ehCovers: URIRef # Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: T*TFT*FF*
ehDisjoint: URIRef # Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
ehEquals: URIRef # Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
ehInside: URIRef # Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFF*FFT**
ehMeet: URIRef # Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
ehOverlap: URIRef # Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
hasGeometry: URIRef # A spatial representation for a given feature.
rcc8dc: URIRef # Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FFTFFTTTT
rcc8ec: URIRef # Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FFTFTTTTT
rcc8eq: URIRef # Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
rcc8ntpp: URIRef # Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFFTFFTTT
rcc8ntppi: URIRef # Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: TTTFFTFFT
rcc8po: URIRef # Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: TTTTTTTTT
rcc8tpp: URIRef # Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFFTTFTTT
rcc8tppi: URIRef # Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: TTTFTTFFT
sfContains: URIRef # Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*****FF*
sfCrosses: URIRef # Exists if the subject SpatialObject spatially crosses the object SpatialObject. DE-9IM: T*T******
sfDisjoint: URIRef # Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
sfEquals: URIRef # Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
sfIntersects: URIRef # Exists if the subject SpatialObject is not spatially disjoint from the object SpatialObject. DE-9IM: T******** ^ *T******* ^ ***T***** ^ ****T****
sfOverlaps: URIRef # Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
sfTouches: URIRef # Exists if the subject SpatialObject spatially touches the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
sfWithin: URIRef # Exists if the subject SpatialObject is spatially within the object SpatialObject. DE-9IM: T*F**F***
_NS = Namespace("http://www.opengis.net/ont/geosparql#")