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Diffstat (limited to 'petascope/xml/ogc/gml/3.1.1/base/geometryComplexes.xsd')
-rw-r--r-- | petascope/xml/ogc/gml/3.1.1/base/geometryComplexes.xsd | 138 |
1 files changed, 138 insertions, 0 deletions
diff --git a/petascope/xml/ogc/gml/3.1.1/base/geometryComplexes.xsd b/petascope/xml/ogc/gml/3.1.1/base/geometryComplexes.xsd new file mode 100644 index 0000000..825179b --- /dev/null +++ b/petascope/xml/ogc/gml/3.1.1/base/geometryComplexes.xsd @@ -0,0 +1,138 @@ +<?xml version="1.0" encoding="UTF-8"?> +<schema targetNamespace="http://www.opengis.net/gml" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:gml="http://www.opengis.net/gml" xmlns:sch="http://www.ascc.net/xml/schematron" xmlns="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" + version="3.1.1"> + <annotation> + <appinfo source="urn:opengis:specification:gml:schema-xsd:geometryComplexes:v3.1.1">geometryComplexes.xsd</appinfo> + <documentation>Copyright (c) 2001-2005 OGC, All Rights Reserved. + For conditions, see OGC Software Notice http://www.opengeospatial.org/about/?page=ipr</documentation> + </annotation> + <include schemaLocation="geometryAggregates.xsd"/> + <!-- =========================================================== --> + <element name="CompositeCurve" type="gml:CompositeCurveType" substitutionGroup="gml:_Curve"/> + <!-- =========================================================== --> + <complexType name="CompositeCurveType"> + <annotation> + <documentation>A CompositeCurve is defined by a sequence of (orientable) curves such that the each curve in the sequence terminates at the start point of the subsequent curve in the list.</documentation> + </annotation> + <complexContent> + <extension base="gml:AbstractCurveType"> + <sequence> + <element ref="gml:curveMember" maxOccurs="unbounded"> + <annotation> + <documentation>This element references or contains one curve in the composite curve. The curves are contiguous, the collection of curves is ordered. +NOTE: This definition allows for a nested structure, i.e. a CompositeCurve may use, for example, another CompositeCurve as a curve member.</documentation> + </annotation> + </element> + </sequence> + </extension> + </complexContent> + </complexType> + <!-- ============================================================== --> + <complexType name="CompositeCurvePropertyType"> + <sequence minOccurs="0"> + <element ref="gml:CompositeCurve"/> + </sequence> + <attributeGroup ref="gml:AssociationAttributeGroup"/> + </complexType> + <!-- =========================================================== --> + <element name="CompositeSurface" type="gml:CompositeSurfaceType" substitutionGroup="gml:_Surface"/> + <!-- =========================================================== --> + <complexType name="CompositeSurfaceType"> + <annotation> + <documentation>A CompositeSurface is defined by a set of orientable surfaces. A composite surface is geometry type with all the geometric properties of a (primitive) surface. Essentially, a composite surface is a collection of surfaces that join in pairs on common boundary curves and which, when considered as a whole, form a single surface.</documentation> + </annotation> + <complexContent> + <extension base="gml:AbstractSurfaceType"> + <sequence> + <element ref="gml:surfaceMember" maxOccurs="unbounded"> + <annotation> + <documentation>This element references or contains one surface in the composite surface. The surfaces are contiguous. +NOTE: This definition allows for a nested structure, i.e. a CompositeSurface may use, for example, another CompositeSurface as a member.</documentation> + </annotation> + </element> + </sequence> + </extension> + </complexContent> + </complexType> + <!-- ============================================================== --> + <complexType name="CompositeSurfacePropertyType"> + <sequence minOccurs="0"> + <element ref="gml:CompositeSurface"/> + </sequence> + <attributeGroup ref="gml:AssociationAttributeGroup"/> + </complexType> + <!-- =========================================================== --> + <element name="CompositeSolid" type="gml:CompositeSolidType" substitutionGroup="gml:_Solid"/> + <!-- =========================================================== --> + <complexType name="CompositeSolidType"> + <annotation> + <documentation>A composite solid is a geometry type with all the geometric properties of a (primitive) solid. + Essentially, a composite solid is a collection of solids that join in pairs on common boundary surfaces and which, when considered as a whole, form a single solid.</documentation> + </annotation> + <complexContent> + <extension base="gml:AbstractSolidType"> + <sequence> + <element ref="gml:solidMember" maxOccurs="unbounded"> + <annotation> + <appinfo> + <sch:pattern name="Check either href or content not both"> + <sch:rule context="gml:solidMember"> + <sch:extends rule="hrefOrContent"/> + </sch:rule> + </sch:pattern> + </appinfo> + <documentation>This element references or contains one solid in the composite solid. The solids are contiguous. +NOTE: This definition allows for a nested structure, i.e. a CompositeSolid may use, for example, another CompositeSolid as a member.</documentation> + </annotation> + </element> + </sequence> + </extension> + </complexContent> + </complexType> + <!-- ============================================================== --> + <complexType name="CompositeSolidPropertyType"> + <sequence minOccurs="0"> + <element ref="gml:CompositeSolid"/> + </sequence> + <attributeGroup ref="gml:AssociationAttributeGroup"/> + </complexType> + <!-- =========================================================== --> + <!-- complex/composite geometry objects --> + <!-- =========================================================== --> + <element name="GeometricComplex" type="gml:GeometricComplexType" substitutionGroup="gml:_Geometry"/> + <!-- =========================================================== --> + <complexType name="GeometricComplexType"> + <annotation> + <documentation>A geometric complex.</documentation> + </annotation> + <complexContent> + <extension base="gml:AbstractGeometryType"> + <sequence> + <element name="element" type="gml:GeometricPrimitivePropertyType" maxOccurs="unbounded"/> + </sequence> + </extension> + </complexContent> + </complexType> + <!-- =========================================================== --> + <complexType name="GeometricComplexPropertyType"> + <annotation> + <documentation>A property that has a geometric complex as its value domain can either be an appropriate geometry element encapsulated in an element of this type or an XLink reference to a remote geometry element (where remote includes geometry elements located elsewhere in the same document). Either the reference or the contained element must be given, but neither both nor none. +NOTE: The allowed geometry elements contained in such a property (or referenced by it) have to be modelled by an XML Schema choice element since the composites inherit both from geometric complex *and* geometric primitive and are already part of the _GeometricPrimitive substitution group.</documentation> + </annotation> + <sequence minOccurs="0"> + <choice> + <element ref="gml:GeometricComplex"/> + <element ref="gml:CompositeCurve"/> + <element ref="gml:CompositeSurface"/> + <element ref="gml:CompositeSolid"/> + </choice> + </sequence> + <attributeGroup ref="gml:AssociationAttributeGroup"> + <annotation> + <documentation>This attribute group includes the XLink attributes (see xlinks.xsd). XLink is used in GML to reference remote resources (including those elsewhere in the same document). A simple link element can be constructed by including a specific set of XLink attributes. The XML Linking Language (XLink) is currently a Proposed Recommendation of the World Wide Web Consortium. XLink allows elements to be inserted into XML documents so as to create sophisticated links between resources; such links can be used to reference remote properties. +A simple link element can be used to implement pointer functionality, and this functionality has been built into various GML 3 elements by including the gml:AssociationAttributeGroup.</documentation> + </annotation> + </attributeGroup> + </complexType> + <!-- =========================================================== --> +</schema>
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