public override FeatureList process(FeatureList input, FilterEnv env) { FeatureList output = new FeatureList(); //Boolean encontrado = false; SharpMap.Geometries.BoundingBox boundingBox = new SharpMap.Geometries.BoundingBox(longitudeMin, latitudeMin, longitudeMax, latitudeMax); foreach (Feature feature in input) { //if type of features is Point if (feature.row.Geometry is SharpMap.Geometries.Point) { SharpMap.Geometries.Point p = (SharpMap.Geometries.Point)feature.row.Geometry; if (boundingBox.Contains(p.GetBoundingBox())) { output.Add(feature); } } //if type of features is Polygon else if (feature.row.Geometry is SharpMap.Geometries.Polygon) { SharpMap.Geometries.Polygon polygon = (SharpMap.Geometries.Polygon)feature.row.Geometry; if (boundingBox.Contains(polygon.GetBoundingBox())) { output.Add(feature); } } //if type of features is MultiPolygon else if (feature.row.Geometry is SharpMap.Geometries.MultiPolygon) { SharpMap.Geometries.MultiPolygon mp = (SharpMap.Geometries.MultiPolygon)feature.row.Geometry; SharpMap.Geometries.BoundingBox bb = mp.GetBoundingBox(); if (boundingBox.Contains(bb)) { output.Add(feature); } } } if (successor != null) { if (successor is FeatureFilter) { FeatureFilter filter = (FeatureFilter)successor; FeatureList l = filter.process(output, env); } else if (successor is FragmentFilter) { FragmentFilter filter = (FragmentFilter)successor; FragmentList l = filter.process(output, env); } } return(output); }
// FragmentFilter overrides public override FragmentList process(FeatureList input, FilterEnv env) { FragmentList output = new FragmentList(); //cuidado con las entidades dentro del for int i = 0; Vector3 scale; Vector3 distanceScale; Vector3 mScale = new Vector3(1, 1, 1); float lWidth = 1; if (Scale != null) { scale = Registry.instance().GetEngine("Python").run(Scale).asVec3(); } else { scale = new Vector3(1, 1, 1); } if (CoordScale != null) { distanceScale = Registry.instance().GetEngine("Python").run(CoordScale).asVec3(); } else { distanceScale = new Vector3(1, 1, 1); } if (LineWidth != null) { lWidth = Registry.instance().GetEngine("Python").run(LineWidth).asFloat(); } if (MaterialScale != null) { mScale = Registry.instance().GetEngine("Python").run(MaterialScale).asVec3(); } SceneNode nodeIni = point3d(env.getName(), i, 0, 0, 0, null, env.getSceneMgr()); #if ESCALA_NODO_INICIAL if (Scale != null) { nodeIni.SetScale(Registry.instance().GetEngine("Python").run(Scale).asVec3()); } if (coordScale != null) { Vector3 vec3 = Registry.instance().GetEngine("Python").run(Scale).asVec3(); nodeIni.SetPosition(nodeIni.Position.x * vec3.x, nodeIni.Position.y * vec3.y, nodeIni.Position.z * vec3.z); #if TRACE_BUILDGEOMFILTER System.Console.WriteLine("(" + n.Position.x + "," + n.Position.y + ")"); #endif } #endif Fragment fIni = new Fragment(nodeIni); output.Add(fIni); foreach (Feature feature in input) { //if type of features is Point if (feature.row.Geometry is SharpMap.Geometries.Point) { SharpMap.Geometries.Point p = (SharpMap.Geometries.Point)feature.row.Geometry; i++; SceneNode n = point3d(env.getName(), i, (float)p.X, (float)p.Y, 0, nodeIni, env.getSceneMgr()); n.SetScale(scale); n.SetPosition(n.Position.x * distanceScale.x, n.Position.y * distanceScale.y, n.Position.z * distanceScale.z); Fragment f = new Fragment(n); output.Add(f); } //if type of features is Polygon else if (feature.row.Geometry is SharpMap.Geometries.Polygon) { SharpMap.Geometries.Polygon polygon = (SharpMap.Geometries.Polygon)feature.row.Geometry; ManualObject polygonNode = null; if (polygonNode == null) { polygonNode = env.getSceneMgr().CreateManualObject(env.getName() + "Node_" + i); MaterialPtr material = MaterialManager.Singleton.Create("Test/ColourPolygon", ResourceGroupManager.DEFAULT_RESOURCE_GROUP_NAME); material.GetTechnique(0).GetPass(0).VertexColourTracking = (int)TrackVertexColourEnum.TVC_AMBIENT; //Vector3 v = Registry.instance().GetEngine("Python").run(Color, feature, null).asVec3(); MogreTessellationCallbacks callback = new MogreTessellationCallbacks(polygonNode, Color, feature); if (nameMaterial != null) { callback.Material = nameMaterial; // "Test/ColourPolygon2"; callback.MaterialScale = mScale; } GLUtessellatorImpl Glu = (GLUtessellatorImpl)GLUtessellatorImpl.gluNewTess(); Glu.gluTessCallback(GLU.GLU_TESS_VERTEX, callback); Glu.gluTessCallback(GLU.GLU_TESS_BEGIN, callback); Glu.gluTessCallback(GLU.GLU_TESS_END, callback); Glu.gluTessCallback(GLU.GLU_TESS_ERROR, callback); Glu.gluTessCallback(GLU.GLU_TESS_COMBINE, callback); Glu.gluTessBeginPolygon(null); Glu.gluTessBeginContour(); int numVertices = polygon.ExteriorRing.NumPoints /*/10+1*/; int numValores = 3; double[][] data = new double[numVertices][]; for (int j = 0; j < numVertices; j++) { data[j] = new double[numValores]; } int k = 0; //1 polygon = N vertices foreach (SharpMap.Geometries.Point point in polygon.ExteriorRing.Vertices) { //if (k % 10 == 0) { data[k /*/10*/][0] = point.X; data[k /*/10*/][1] = point.Y; data[k /*/10*/][2] = 0; } k++; //SceneNode n = point3d(env.getName()+i+k, k + 10, (float)point.X * 10.0f, (float)point.Y * 10.0f, 0, nodeIni, env.getSceneMgr()); } for (int j = 0; j < data.GetLength(0); j++) { Glu.gluTessVertex(data[j], 0, new Vector3((float)(data[j][1] * distanceScale.y), (float)(data[j][2] * distanceScale.z), (float)(data[j][0] * distanceScale.x))); } Glu.gluTessEndContour(); Glu.gluTessNormal(0, 0, 1); Glu.gluTessEndPolygon(); nodeIni.AttachObject(polygonNode); } i++; } //if type of features is MultiPolygon else if (feature.row.Geometry is SharpMap.Geometries.MultiPolygon) { SharpMap.Geometries.MultiPolygon mp = (SharpMap.Geometries.MultiPolygon)feature.row.Geometry; // 1 MultiPolygon = N polygon foreach (SharpMap.Geometries.Polygon polygon in mp.Polygons) { ManualObject polygonNode = null; if (polygonNode == null) { polygonNode = env.getSceneMgr().CreateManualObject(env.getName() + "Node_" + i); MaterialPtr material = MaterialManager.Singleton.Create("Test/ColourPolygon", ResourceGroupManager.DEFAULT_RESOURCE_GROUP_NAME); material.GetTechnique(0).GetPass(0).VertexColourTracking = (int)TrackVertexColourEnum.TVC_AMBIENT; //Vector3 v = Registry.instance().GetEngine("Python").run(Color, feature, null).asVec3(); MogreTessellationCallbacks callback = new MogreTessellationCallbacks(polygonNode, Color, feature); if (nameMaterial != null) { callback.Material = nameMaterial; // "Test/ColourPolygon2"; callback.MaterialScale = mScale; } GLUtessellatorImpl Glu = (GLUtessellatorImpl)GLUtessellatorImpl.gluNewTess(); Glu.gluTessCallback(GLU.GLU_TESS_VERTEX, callback); Glu.gluTessCallback(GLU.GLU_TESS_BEGIN, callback); Glu.gluTessCallback(GLU.GLU_TESS_END, callback); Glu.gluTessCallback(GLU.GLU_TESS_ERROR, callback); Glu.gluTessCallback(GLU.GLU_TESS_COMBINE, callback); Glu.gluTessBeginPolygon(null); Glu.gluTessBeginContour(); int numVertices = polygon.ExteriorRing.NumPoints; int numValores = 3; double[][] data = new double[numVertices][]; for (int j = 0; j < numVertices; j++) { data[j] = new double[numValores]; } int k = 0; //1 polygon = N vertices foreach (SharpMap.Geometries.Point point in polygon.ExteriorRing.Vertices) { data[k][0] = point.X; data[k][1] = point.Y; data[k][2] = 0; k++; //SceneNode n = point3d(env.getName(), i, (float)point.X, (float)point.Y, 0, nodeIni, env.getSceneMgr()); } for (int j = 0; j < data.GetLength(0); j++) { Glu.gluTessVertex(data[j], 0, new Vector3(((float)data[j][1]) * distanceScale.y, ((float)data[j][2]) * distanceScale.z, ((float)data[j][0]) * distanceScale.x)); } Glu.gluTessEndContour(); Glu.gluTessNormal(0, 0, 1); Glu.gluTessEndPolygon(); nodeIni.AttachObject(polygonNode); } i++; } } //if type of features is Line else if (feature.row.Geometry is SharpMap.Geometries.ILineal /*SharpMap.Geometries.LineString*/) { System.Collections.Generic.List <SharpMap.Geometries.ILineal> lineas = new System.Collections.Generic.List <SharpMap.Geometries.ILineal>(); if (feature.row.Geometry is SharpMap.Geometries.MultiLineString) { foreach (SharpMap.Geometries.LineString l in ((SharpMap.Geometries.MultiLineString)(feature.row.Geometry)).LineStrings) { lineas.Add(l); } } else { lineas.Add((SharpMap.Geometries.ILineal)(feature.row.Geometry)); } foreach (SharpMap.Geometries.ILineal line in lineas) { ManualObject lineNode = env.getSceneMgr().CreateManualObject("line" + i); //MaterialPtr material = MaterialManager.Singleton.Create(nameMaterial, //ResourceGroupManager.DEFAULT_RESOURCE_GROUP_NAME); //material.GetTechnique(0).GetPass(0).VertexColourTracking = // (int)TrackVertexColourEnum.TVC_AMBIENT; //material.GetTechnique(0).GetPass(0).SetDepthBias(100); //material.GetTechnique(0).GetPass(0).LightingEnabled = false; int nSeg = 5; // Number of segments on the cap or join pieces BufferParameters param = new BufferParameters(nSeg, BufferParameters.BufferEndCapStyle.CapRound, BufferParameters.BufferJoinStyle.JoinRound, 2); IGeometryFactory <Coord> geometryFactory = new GeometryFactory <Coord>(new CoordSeqFac(new CoordFac(PrecisionModelType.DoubleFloating))); //IWktGeometryReader<Coord> reader = geometryFactory.WktReader; //string txt = feature.row.Geometry.AsText(); ILineString line1 = (ILineString)GeometryConverter.ToNTSGeometry((SharpMap.Geometries.LineString)line, geometryFactory); // (ILineString<Coord>)reader.Read(txt); IGeometry coordBuffer = line1.Buffer(lWidth, param); ICoordinateSequence coords = coordBuffer.Coordinates; //Vector3 v = Registry.instance().GetEngine("Python").run(Color, feature, null).asVec3(); MogreTessellationCallbacks callback = new MogreTessellationCallbacks(lineNode, Color, feature); if (nameMaterial != null) { callback.Material = nameMaterial; // "Test/ColourPolygon2"; callback.MaterialScale = mScale; } GLUtessellatorImpl Glu = (GLUtessellatorImpl)GLUtessellatorImpl.gluNewTess(); Glu.gluTessCallback(GLU.GLU_TESS_VERTEX, callback); Glu.gluTessCallback(GLU.GLU_TESS_BEGIN, callback); Glu.gluTessCallback(GLU.GLU_TESS_END, callback); Glu.gluTessCallback(GLU.GLU_TESS_ERROR, callback); Glu.gluTessCallback(GLU.GLU_TESS_COMBINE, callback); Glu.gluTessBeginPolygon(null); Glu.gluTessBeginContour(); foreach (Coord coord in coords) { double[] data = new double[] { coord.X *distanceScale.x, coord.Y *distanceScale.y, (double.IsNaN(coord.Z) ? 0 : coord.Z) * distanceScale.z }; Glu.gluTessVertex(data, 0, new Vector3((float)data[1], (float)data[2], (float)data[0])); } Glu.gluTessEndContour(); Glu.gluTessNormal(0, 0, 1); Glu.gluTessEndPolygon(); i++; nodeIni.AttachObject(lineNode); } if ((feature.row.Geometry is SharpMap.Geometries.Polygon) | (feature.row.Geometry is SharpMap.Geometries.MultiPolygon)) { Fragment f = new Fragment(nodeIni); output.Add(f); } } } i = 0;//breakpoint /*foreach (Fragment fragment in output) * { * fragment.Node.Scale(0,0,0); * }*/ #if TODO // if features are arriving in batch, resolve the color here. // otherwise we will resolve it later in process(feature,env). is_batch = input.Count > 1; batch_feature_color = overall_color; if (is_batch && getColorScript() != null) { ScriptResult r = env.getScriptEngine().run(getColorScript(), env); if (r.isValid()) { batch_feature_color = r.asVec4(); } else { env.getReport().error(r.asString()); } } return(base.process(input, env)); #endif //throw new NotImplementedException(); if (successor != null) { if (successor is FeatureFilter) { FeatureFilter filter = (FeatureFilter)successor; FeatureList l = filter.process(input, env); //FeatureList l = successor.process(input, env); } else if (successor is FragmentFilter) { FragmentFilter filter = (FragmentFilter)successor; FragmentList l = filter.process(output, env); } } return(output); }
public override FeatureList process(FeatureList input, FilterEnv env) { FeatureList output = new FeatureList(); // HACER ALGO DEL ESTILO: if (transform == null) { //Create zone UTM 32N projection IProjectedCoordinateSystem utmProj = CreateUtmProjection(32); //Create geographic coordinate system (lets just reuse the CS from the projection) IGeographicCoordinateSystem geoCS = utmProj.GeographicCoordinateSystem; //Create transformation CoordinateTransformationFactory ctFac = new CoordinateTransformationFactory(); // TODO DANI Mirar de donde viene este source y target ICoordinateTransformation Coordinatetransform = null;// TODO = ctFac.CreateFromCoordinateSystems(source, target); //cs string wkt = "GEOGCS[\"GCS_WGS_1984\",DATUM[\"D_WGS_1984\",SPHEROID[\"WGS_1984\",6378137,298.257223563]],PRIMEM[\"Greenwich\",0],UNIT[\"Degree\",0.0174532925199433]]"; //ICoordinateSystem cs = SharpMap.Converters.WellKnownText.CoordinateSystemWktReader.Parse(wkt) as ICoordinateSystem; ICoordinateSystem cs = ProjNet.Converters.WellKnownText.CoordinateSystemWktReader.Parse(wkt) as ICoordinateSystem; //wgs84 GeographicCoordinateSystem wgs84 = GeographicCoordinateSystem.WGS84; //gcs CoordinateSystemFactory cFac = new ProjNet.CoordinateSystems.CoordinateSystemFactory(); //CoordinateSystemFactory cFac = new SharpMap.CoordinateSystems.CoordinateSystemFactory(); //Create Bessel 1840 geographic coordinate system IEllipsoid ellipsoid = cFac.CreateFlattenedSphere("Bessel 1840", 6377397.155, 299.15281, LinearUnit.Metre); IHorizontalDatum datum = cFac.CreateHorizontalDatum("Bessel 1840", DatumType.HD_Geocentric, ellipsoid, null); IGeographicCoordinateSystem gcs = cFac.CreateGeographicCoordinateSystem("Bessel 1840", AngularUnit.Degrees, datum, PrimeMeridian.Greenwich, new AxisInfo("Lon", AxisOrientationEnum.East), new AxisInfo("Lat", AxisOrientationEnum.North)); //coordsys //Collection<ProjectionParameter> parameters = new Collection<ProjectionParameter>(5); List <ProjectionParameter> parameters = new List <ProjectionParameter>(); parameters.Add(new ProjectionParameter("latitude_of_origin", 0)); parameters.Add(new ProjectionParameter("central_meridian", 110)); parameters.Add(new ProjectionParameter("scale_factor", 0.997)); parameters.Add(new ProjectionParameter("false_easting", 3900000)); parameters.Add(new ProjectionParameter("false_northing", 900000)); IProjection projection = cFac.CreateProjection("Mercator_1SP", "Mercator_1SP", parameters); IProjectedCoordinateSystem coordsys = cFac.CreateProjectedCoordinateSystem("Makassar / NEIEZ", gcs, projection, LinearUnit.Metre, new AxisInfo("East", AxisOrientationEnum.East), new AxisInfo("North", AxisOrientationEnum.North)); Coordinatetransform = ctFac.CreateFromCoordinateSystems(gcs, coordsys);//gcsWGS84 -> gcenCsWGS84 //Apply transformation transform = Coordinatetransform.MathTransform; } SharpMap.Geometries.Point p = new SharpMap.Geometries.Point(30.0, 20.0); p = GeometryTransform.TransformPoint(p, transform); /*IMPORTANTE * foreach (Feature feature in input) * { * feature.row.Geometry = GeometryTransform.TransformGeometry(feature.row.Geometry, transform); * //feature.row.Geometry = GeometryTransform.TransformMultiPolygon(feature.row.Geometry, transform); * } * IMPORTANTE*/ foreach (Feature f in input) { output.Add(f);//output = input } // Cosas a cambiar: // Primero, la construccion del transform está siguiendo el ejemplo, pero hay que tener en cuenta los datos del xml y construirlo en consecuencia // Segundo, el filtro debe retornar una NUEVA lista, y no modificar la inicial. Ahora modifica los valores de la lista inicial // IMPORTANTE RETORNAR NUEVA LISTA OUTPUT <----------- FALTA POR HACER #if TODO // first time through, establish a working SRS for output data. if (working_srs == null) { // first try to use the terrain SRS if so directed: SpatialReference new_out_srs = getUseTerrainSRS() ? env.getTerrainSRS() : null; if (new_out_srs == null) { // failing that, see if we have an SRS in a resource: if (getSRS() == null && getSRSScript() != null) { ScriptResult r = env.getScriptEngine().run(getSRSScript(), env); if (r.isValid()) { setSRS(env.getSession().getResources().getSRS(r.ToString())); } else { env.getReport().error(r.ToString()); } } new_out_srs = srs; } // set the "working" SRS that will be used for all features passing though this filter: working_srs = new_out_srs != null ? new_out_srs : env.getInputSRS(); // LOCALIZE points around a local origin (the working extent's centroid) if (working_srs != null && getLocalize()) //&& env.getExtent().getArea() > 0.0 ) { if (env.getCellExtent().getSRS().isGeographic() && env.getCellExtent().getWidth() > 179.0) { //NOP - no localization for big geog extent ... needs more thought perhaps } else { GeoPoint centroid0 = new_out_srs != null? new_out_srs.transform(env.getCellExtent().getCentroid()) : env.getCellExtent().getCentroid(); // we do want the localizer point on the surface if possible: GeoPoint centroid = clampToTerrain(centroid0, env); if (centroid == null) { centroid = centroid0; } Matrixd localizer; // For geocentric datasets, we need a special localizer matrix: if (working_srs.isGeocentric()) { localizer = working_srs.getEllipsoid().createGeocentricInvRefFrame(centroid); localizer.invert(localizer); } // For projected datasets, just a simple translation: else { localizer = osg.Matrixd.translate(-centroid); } working_srs = working_srs.cloneWithNewReferenceFrame(localizer); } } } // we have to assign the output SRS on each pass if (working_srs != null) { env.setOutputSRS(working_srs); } return(base.process(input, env)); #endif //throw new NotImplementedException(); if (successor != null) { if (successor is FeatureFilter) { FeatureFilter filter = (FeatureFilter)successor; FeatureList l = filter.process(output, env); } else if (successor is FragmentFilter) { FragmentFilter filter = (FragmentFilter)successor; FragmentList l = filter.process(output, env); } } return(output); }
/** * Constructs a new state object for the specified Filter. * * @param filter * FeatureFilter for which to track state */ public FeatureFilterState(FeatureFilter _filter) { filter = _filter; }