/// <summary> /// Writes a Geometry as KML to a string, using /// a specified Z value. /// </summary> /// <param name="geometry">the geometry to write</param> /// <param name="z">the Z value to use</param> /// <returns>a string containing the KML geometry representation</returns> public static string WriteGeometry(IGeometry geometry, double z) { KMLWriter writer = new KMLWriter { Z = z }; return(writer.Write(geometry)); }
/// <summary> /// Writes a Geometry as KML to a string, using /// a specified Z value, precision, extrude flag, /// and altitude mode code. /// </summary> /// <param name="geometry">the geometry to write</param> /// <param name="z">the Z value to use</param> /// <param name="precision">the maximum number of decimal places to write</param> /// <param name="extrude">the extrude flag to write</param> /// <param name="altitudeMode">the altitude model code to write</param> /// <returns>a string containing the KML geometry representation</returns> public static string WriteGeometry(IGeometry geometry, double z, int precision, bool extrude, string altitudeMode) { KMLWriter writer = new KMLWriter { Z = z, Precision = precision, Extrude = extrude, AltitudeMode = altitudeMode }; return(writer.Write(geometry)); }
/// <summary> /// Writes a Geometry as KML to a string, using /// a specified Z value, precision, extrude flag, /// and altitude mode code. /// </summary> /// <param name="geometry">the geometry to write</param> /// <param name="z">the Z value to use</param> /// <param name="precision">the maximum number of decimal places to write</param> /// <param name="extrude">the extrude flag to write</param> /// <param name="altitudeMode">the altitude model code to write</param> /// <returns>a string containing the KML geometry representation</returns> public static string WriteGeometry(IGeometry geometry, double z, int precision, bool extrude, string altitudeMode) { KMLWriter writer = new KMLWriter { Z = z, Precision = precision, Extrude = extrude, AltitudeMode = altitudeMode }; return writer.Write(geometry); }
public void TestExtrudeAltitudePolygon() { KMLWriter writer = new KMLWriter { Extrude = true, AltitudeMode = KMLWriter.AltitudeModeAbsolute }; CheckEqual(writer, "POLYGON ((1 1, 2 1, 2 2, 1 2, 1 1))", "<Polygon><extrude>1</extrude><altitudeMode>absolute</altitudeMode><outerBoundaryIs><LinearRing><coordinates>1,1 2,1 2,2 1,2 1,1</coordinates></LinearRing></outerBoundaryIs></Polygon>"); }
/// <summary> /// Writes a Geometry as KML to a string, using /// a specified Z value. /// </summary> /// <param name="geometry">the geometry to write</param> /// <param name="z">the Z value to use</param> /// <returns>a string containing the KML geometry representation</returns> public static string WriteGeometry(IGeometry geometry, double z) { KMLWriter writer = new KMLWriter { Z = z }; return writer.Write(geometry); }
public void TestExtrudeAltitudeLineString() { KMLWriter writer = new KMLWriter { Extrude = true, AltitudeMode = KMLWriter.AltitudeModeAbsolute }; CheckEqual(writer, "LINESTRING (1 1, 2 2)", "<LineString><extrude>1</extrude><altitudeMode>absolute</altitudeMode><coordinates>1,1 2,2</coordinates></LineString>"); }
public void TestExtrudeTesselateLineString() { KMLWriter writer = new KMLWriter { Extrude = true, Tesselate = true }; CheckEqual(writer, "LINESTRING (1 1, 2 2)", "<LineString><extrude>1</extrude><tesselate>1</tesselate><coordinates>1,1 2,2</coordinates></LineString>"); }
private void CheckEqual(KMLWriter writer, string wkt, string expected) { IGeometry geom = new WKTReader().Read(wkt); CheckEqual(writer, geom, expected); }
private void CheckEqual(KMLWriter writer, IGeometry geom, string expected) { string actual = writer.Write(geom); string actualNorm = normalizeKML(actual); string expectedNorm = normalizeKML(expected); bool isEqual = String.Equals(actualNorm, expectedNorm, StringComparison.InvariantCultureIgnoreCase); Assert.IsTrue(isEqual, String.Format("\nGenerated KML: {0}\n Expected KML: {1}", actualNorm, expectedNorm)); }
private void CheckEqual(string wkt, string expectedKML) { KMLWriter writer = new KMLWriter(); CheckEqual(writer, wkt, expectedKML); }
public void negative_precision_means_floating_precision() { KMLWriter writer = new KMLWriter { Precision = -1 }; CheckEqual(writer, "LINESTRING (1.0001 1.1234, 2.5555 2.99999)", " <LineString><coordinates>1.0001,1.1234 2.5555,2.99999</coordinates></LineString>"); }
public void precision_zero_means_only_integers_allowed() { KMLWriter writer = new KMLWriter { Precision = 0 }; CheckEqual(writer, "LINESTRING (1.0001 1.1234, 2.5555 2.99999)", " <LineString><coordinates>1,1 3,3</coordinates></LineString>"); }
public void TestPrecision() { KMLWriter writer = new KMLWriter { Precision = 1 }; CheckEqual(writer, "LINESTRING (1.0001 1.1234, 2.5555 2.99999)", " <LineString><coordinates>1,1.1 2.6,3</coordinates></LineString>"); }
public void TestExtrudeGeometryCollection() { KMLWriter writer = new KMLWriter { Extrude = true }; CheckEqual(writer, "GEOMETRYCOLLECTION (LINESTRING (1 9, 1 2, 3 2), POLYGON ((3 9, 5 9, 5 7, 3 7, 3 9)), POINT (5 5))", "<MultiGeometry><LineString><extrude>1</extrude><coordinates>1,9 1,2 3,2</coordinates></LineString><Polygon><extrude>1</extrude><outerBoundaryIs><LinearRing><coordinates>3,9 5,9 5,7 3,7 3,9</coordinates></LinearRing></outerBoundaryIs></Polygon><Point><extrude>1</extrude><coordinates>5,5</coordinates></Point></MultiGeometry>"); }