/// <summary>Converts a geometry into its GML representation.</summary> /// <param name="writer">The stream to which the geometry is serialized. </param> public void WriteXml(XmlWriter writer) { var builder = new Gml.GmlGeometryBuilder(); Populate(builder); IXmlSerializable xg = builder.ConstructedGeometry; xg.WriteXml(writer); }
/// <summary>Parses the geometry defined by the specified WKT representation, in the specified coordinate system.</summary> /// <param name="text">The WKT representation of the geometry.</param> /// <param name="system">The coordinate system of the WKT representation.</param> public void Parse(string text, ICoordinateSystem system) { Debug.Assert(system!=null); if (system==null) throw new ArgumentNullException("system"); _Builder=new Gml.GmlGeometryBuilder(system); _Builder.Parse(text, system); }
protected override string GetCustomImplementationName(List <Type> paramTypes, List <object> paramValues, ExpressionBuilderParameters parameters) { paramTypes.Add(typeof(IGeometry)); IGeometryBuilder builder = new Gml311.GmlGeometryBuilder(); FilterElement.Envelope.Populate(builder); paramValues.Add(builder.ConstructedGeometry); return(OperationNames.Intersects); }
internal override void BeginGeometry(GeometryType type) { if (_Builder == null) { Debug.Assert(_CurrentType.Count == 0); _Builder = new GmlGeometryBuilder(); _Builder.SetCoordinateSystem(CoordinateSystem); } _Builder.BeginGeometry(type); _CurrentType.Push(type); }
internal override void BeginGeometry(GeometryType type) { if (_Builder==null) { Debug.Assert(_CurrentType.Count==0); _Builder=new GmlGeometryBuilder(); _Builder.SetCoordinateSystem(CoordinateSystem); } _Builder.BeginGeometry(type); _CurrentType.Push(type); }
/// <summary>Parses the geometry defined by the specified WKT representation, in the specified coordinate system.</summary> /// <param name="text">The WKT representation of the geometry.</param> /// <param name="system">The coordinate system of the WKT representation.</param> public void Parse(string text, ICoordinateSystem system) { Debug.Assert(system != null); if (system == null) { throw new ArgumentNullException("system"); } _Builder = new Gml.GmlGeometryBuilder(system); _Builder.Parse(text, system); }
public void ShouldReverseGeometries(string input, string expected) { var obuilder=new Ogc.Gml.V311.GmlGeometryBuilder(); obuilder.Parse(input, CommonServiceLocator.GetCoordinateSystemProvider().Wgs84); var builder=new Ogc.Gml.V311.GmlGeometryBuilder(); var rsink=new ReversedGeometrySink(builder); obuilder.ConstructedGeometry.Populate(rsink); var g=builder.ConstructedGeometry; Assert.Equal<string>(expected, g.ToString()); }
/// <summary>Parses the geometry defined by the specified WKB representation, in the specified coordinate system.</summary> /// <param name="data">The WKB representation of the geometry.</param> /// <param name="system">The coordinate system of the WKB representation.</param> void IGeometryBuilder.Parse(byte[] data, ICoordinateSystem system) { Debug.Assert(system != null); if (system == null) { throw new ArgumentNullException("system"); } var g = DbGeometry.FromBinary(data); _Builder = new Gml.GmlGeometryBuilder(system); _Builder.Parse(g.AsText(), system); }
public void ShouldReverseGeometries(string input, string expected) { var obuilder = new Ogc.Gml.V311.GmlGeometryBuilder(); obuilder.Parse(input, CommonServiceLocator.GetCoordinateSystemProvider().Wgs84); var builder = new Ogc.Gml.V311.GmlGeometryBuilder(); var rsink = new ReversedGeometrySink(builder); obuilder.ConstructedGeometry.Populate(rsink); var g = builder.ConstructedGeometry; Assert.Equal <string>(expected, g.ToString()); }
/// <summary>Parses the geometry defined by the specified WKT representation, in the specified coordinate system.</summary> /// <param name="text">The WKT representation of the geometry.</param> /// <param name="system">The coordinate system of the WKT representation.</param> public void Parse(string text, ICoordinateSystem system) { Debug.Assert(system != null); if (system == null) { throw new ArgumentNullException("system"); } IGeometryBuilder builder = new GmlGeometryBuilder(); SimpleFeature.GeometryWktGrammar.Populate(builder, text, system); _Geometry g = (_Geometry)builder.ConstructedGeometry; if ((TargetSystem != null) && !system.IsEquivalentTo(TargetSystem)) { g.Populate(this); } else { _Geometry = g; } }
/// <summary>Converts a geometry into its GML representation.</summary> /// <param name="writer">The stream to which the geometry is serialized. </param> public void WriteXml(XmlWriter writer) { var builder=new Gml.GmlGeometryBuilder(_CoordinateSystem); Populate(builder); IXmlSerializable xg=builder.ConstructedGeometry; xg.WriteXml(writer); }
/// <summary>Parses the geometry defined by the specified WKB representation, in the specified coordinate system.</summary> /// <param name="data">The WKB representation of the geometry.</param> /// <param name="system">The coordinate system of the WKB representation.</param> void IGeometryBuilder.Parse(byte[] data, ICoordinateSystem system) { Debug.Assert(system!=null); if (system==null) throw new ArgumentNullException("system"); var g=DbGeometry.FromBinary(data); _Builder=new Gml.GmlGeometryBuilder(system); _Builder.Parse(g.AsText(), system); }
/// <summary>Parses the geometry defined by the specified WKT representation, in the specified coordinate system.</summary> /// <param name="text">The WKT representation of the geometry.</param> /// <param name="system">The coordinate system of the WKT representation.</param> public void Parse(string text, ICoordinateSystem system) { Debug.Assert(system!=null); if (system==null) throw new ArgumentNullException("system"); IGeometryBuilder builder=new GmlGeometryBuilder(); SimpleFeature.GeometryWktGrammar.Populate(builder, text, system); _Geometry g=(_Geometry)builder.ConstructedGeometry; if ((TargetSystem!=null) && !system.IsEquivalentTo(TargetSystem)) g.Populate(this); else _Geometry=g; }
/// <summary>Creates a new instance of the <see cref="SpatialGeometryBuilder" /> class.</summary> /// <param name="targetSystem">The target coordinate system. If different from the source, transformations will occur.</param> public SpatialGeometryBuilder(ICoordinateSystem targetSystem): base(targetSystem) { _Builder=new Gml.GmlGeometryBuilder(); _CoordinateSystem=targetSystem; }
/// <summary>Creates a new instance of the <see cref="SpatialGeometryBuilder" /> class.</summary> public SpatialGeometryBuilder(): base() { _Builder=new Gml.GmlGeometryBuilder(); }
/// <summary>Creates a new instance of the <see cref="SpatialGeometryBuilder" /> class.</summary> public SpatialGeometryBuilder() : base() { _Builder = new Gml.GmlGeometryBuilder(); }
/// <summary>Creates a new instance of the <see cref="SpatialGeometryBuilder" /> class.</summary> /// <param name="targetSystem">The target coordinate system. If different from the source, transformations will occur.</param> public SpatialGeometryBuilder(ICoordinateSystem targetSystem) : base(targetSystem) { _Builder = new Gml.GmlGeometryBuilder(); _CoordinateSystem = targetSystem; }