protected override async Task _draw()
{
RecordSet layer = GetMetadata();
if (layer.Properties.BBox != null)
{
features.SetSpatialFilterRect(layer.Properties.BBox[0], layer.Properties.BBox[1], layer.Properties.BBox[2], layer.Properties.BBox[3]);
}
using (OgrReader ogrReader = new OgrReader()) {
await ogrReader.GetFeaturesAsync(features);
foreach (Feature feature in ogrReader.features)
{
int geoCount = feature.GetDefnRef().GetGeomFieldCount();
for (int j = 0; j < geoCount; j++)
{
Geometry poly = feature.GetGeomFieldRef(j);
if (poly == null)
{
continue;
}
if (poly.GetGeometryType() == wkbGeometryType.wkbPolygon ||
poly.GetGeometryType() == wkbGeometryType.wkbPolygon25D ||
poly.GetGeometryType() == wkbGeometryType.wkbPolygonM ||
poly.GetGeometryType() == wkbGeometryType.wkbPolygonZM)
{
if (poly.GetSpatialReference() == null)
{
poly.AssignSpatialReference(GetCrs());
}
await _drawFeatureAsync(poly, feature);
}
else if (poly.GetGeometryType() == wkbGeometryType.wkbMultiPolygon ||
poly.GetGeometryType() == wkbGeometryType.wkbMultiPolygon25D ||
poly.GetGeometryType() == wkbGeometryType.wkbMultiPolygonM ||
poly.GetGeometryType() == wkbGeometryType.wkbMultiPolygonZM)
{
int n = poly.GetGeometryCount();
for (int k = 0; k < n; k++)
{
Geometry poly2 = poly.GetGeometryRef(k);
if (poly2.GetSpatialReference() == null)
{
poly2.AssignSpatialReference(GetCrs());
}
await _drawFeatureAsync(poly2, feature);
}
}
poly.Dispose();
}
}
}
if (layer.Transform != null)
{
transform.position = AppState.instance.map.transform.TransformPoint(layer.Transform.Position);
transform.rotation = layer.Transform.Rotate;
transform.localScale = layer.Transform.Scale;
}
}
protected override async Task _draw()
{
RecordSet layer = GetMetadata();
if (layer.Properties.BBox != null)
{
features.SetSpatialFilterRect(layer.Properties.BBox[0], layer.Properties.BBox[1], layer.Properties.BBox[2], layer.Properties.BBox[3]);
}
SetCrs(OgrReader.getSR(features, layer));
using (OgrReader ogrReader = new OgrReader()) {
await ogrReader.GetFeaturesAsync(features);
foreach (Feature feature in ogrReader.features)
{
int geoCount = feature.GetDefnRef().GetGeomFieldCount();
for (int j = 0; j < geoCount; j++)
{
Geometry point = feature.GetGeomFieldRef(j);
wkbGeometryType type = point.GetGeometryType();
string t = type.ToString();
if (point.GetGeometryType() == wkbGeometryType.wkbPoint ||
point.GetGeometryType() == wkbGeometryType.wkbPoint25D ||
point.GetGeometryType() == wkbGeometryType.wkbPointM ||
point.GetGeometryType() == wkbGeometryType.wkbPointZM)
{
point.TransformWorld(GetCrs()).ToList <Vector3>().ForEach(async item => await _drawFeatureAsync(item, feature));
}
else if
(point.GetGeometryType() == wkbGeometryType.wkbMultiPoint ||
point.GetGeometryType() == wkbGeometryType.wkbMultiPoint25D ||
point.GetGeometryType() == wkbGeometryType.wkbMultiPointM ||
point.GetGeometryType() == wkbGeometryType.wkbMultiPointZM)
{
int n = point.GetGeometryCount();
for (int k = 0; k < n; k++)
{
Geometry Point2 = point.GetGeometryRef(k);
Point2.TransformWorld(GetCrs()).ToList <Vector3>().ForEach(async item => await _drawFeatureAsync(item, feature));
}
}
point.Dispose();
}
}
}
if (layer.Transform != null)
{
transform.position = AppState.instance.map.transform.TransformPoint(layer.Transform.Position);
transform.rotation = layer.Transform.Rotate;
transform.localScale = layer.Transform.Scale;
}
}
protected async override Task _draw()
{
RecordSet layer = GetMetadata();
if (layer.Properties.BBox != null)
{
features.SetSpatialFilterRect(layer.Properties.BBox[0], layer.Properties.BBox[1], layer.Properties.BBox[2], layer.Properties.BBox[3]);
}
using (OgrReader ogrReader = new OgrReader()) {
await ogrReader.GetFeaturesAsync(features);
foreach (Feature feature in ogrReader.features)
{
int geoCount = feature.GetDefnRef().GetGeomFieldCount();
for (int j = 0; j < geoCount; j++)
{
Geometry tin = feature.GetGeomFieldRef(j);
if (tin == null)
{
continue;
}
if (tin.GetGeometryType() == wkbGeometryType.wkbTIN ||
tin.GetGeometryType() == wkbGeometryType.wkbTINZ ||
tin.GetGeometryType() == wkbGeometryType.wkbTINM ||
tin.GetGeometryType() == wkbGeometryType.wkbTINZM)
{
if (tin.GetSpatialReference() == null)
{
tin.AssignSpatialReference(GetCrs());
}
await _drawFeatureAsync(tin, feature);
}
tin.Dispose();
}
}
}
if (layer.Transform != null)
{
transform.position = AppState.instance.map.transform.TransformPoint(layer.Transform.Position);
transform.rotation = layer.Transform.Rotate;
transform.localScale = layer.Transform.Scale;
}
}
protected override async Task _init()
{
RecordSet layer = _layer as RecordSet;
string ex = Path.GetExtension(layer.Source).ToLower();
if (ex != ".dxf")
{
DMesh3Builder meshes = await loadObj(layer.Source);
features = meshes.Meshes;
foreach (DMesh3 mesh in features)
{
foreach (int idx in mesh.VertexIndices())
{
Vector3d vtx = mesh.GetVertex(idx);
mesh.SetVertex(idx, new Vector3d(vtx.x, vtx.z, vtx.y));
}
}
symbology = layer.Properties.Units;
}
if (ex == ".dxf")
{
List <Vector3d> vertexes = new List <Vector3d>();
List <Index3i> tris = new List <Index3i>();
try {
//
// Try opening with netDxf - this will only open files in autoCAD version 2000 or later
//
if (layer.Crs != null && layer.Crs != "")
{
SetCrs(Convert.TextToSR(layer.Crs));
}
DXF.DxfDocument doc;
using (Stream stream = File.Open(layer.Source, FileMode.Open, FileAccess.Read, FileShare.ReadWrite)) {
doc = DXF.DxfDocument.Load(stream);
stream.Close();
}
string layout = doc.ActiveLayout;
IEnumerable <Face3d> faces = doc.Faces3d;
List <DCurve3> curves = new List <DCurve3>();
CoordinateTransformation transform = new CoordinateTransformation(GetCrs(), AppState.instance.mapProj);
foreach (Face3d face in faces)
{
List <Vector3d> tri = new List <Vector3d>();
tri.Add(face.FirstVertex.ToVector3d(transform));
tri.Add(face.SecondVertex.ToVector3d(transform));
tri.Add(face.ThirdVertex.ToVector3d(transform));
if (face.FourthVertex != face.ThirdVertex)
{
Debug.Log(" Not a Tringle");
}
curves.Add(new DCurve3(tri, false, true));
}
//
// for each face, check to make sure that vertices are in the vertex list and add the tri to the tri list
//
foreach (DCurve3 curve in curves)
{
List <int> tri = new List <int>();
for (int i = 0; i < 3; i++)
{
Vector3d v = curve.GetVertex(i);
int index = vertexes.IndexOf(v);
if (index == -1)
{
vertexes.Add(v);
index = vertexes.IndexOf(v);
}
tri.Add(index);
}
tris.Add(new Index3i(tri.ToArray()));
}
} catch {
//
// if netDXF fails - try opening in GDAL that can open AutoCAD 2 file
//
using (OgrReader ogrReader = new OgrReader()) {
await ogrReader.Load(layer.Source, layer.Properties.ReadOnly? 0 : 1, layer.Properties.SourceType);
entities = ogrReader.GetLayers()[0];
SetCrs(OgrReader.getSR(entities, layer));
RecordSet metadata = GetMetadata();
if (metadata.Properties.BBox != null)
{
entities.SetSpatialFilterRect(metadata.Properties.BBox[0], metadata.Properties.BBox[1], metadata.Properties.BBox[2], metadata.Properties.BBox[3]);
}
await ogrReader.GetFeaturesAsync(entities);
foreach (Feature feature in ogrReader.features)
{
Geometry geom = feature.GetGeometryRef();
if (geom == null)
{
continue;
}
wkbGeometryType ftype = geom.GetGeometryType();
OgrReader.Flatten(ref ftype);
//
// Get the faces
//
if (ftype == wkbGeometryType.wkbPolygon)
{
List <Geometry> LinearRings = new List <Geometry>();
List <DCurve3> curves = new List <DCurve3>();
for (int i = 0; i < geom.GetGeometryCount(); i++)
{
LinearRings.Add(geom.GetGeometryRef(i));
}
//
// Load the faces as a list of DCurve3
//
foreach (Geometry LinearRing in LinearRings)
{
wkbGeometryType type = LinearRing.GetGeometryType();
if (type == wkbGeometryType.wkbLinearRing || type == wkbGeometryType.wkbLineString25D || type == wkbGeometryType.wkbLineString)
{
LinearRing.CloseRings();
DCurve3 curve = new DCurve3();
curve.FromGeometry(LinearRing, GetCrs());
if (curve.VertexCount != 4)
{
Debug.LogError("incorrect face size");
}
else
{
curves.Add(curve);
}
}
}
//
// for each tri, check to make sure that vertcie are in the vertex list and add the tri to the tri list
//
foreach (DCurve3 curve in curves)
{
List <int> tri = new List <int>();
for (int i = 0; i < 3; i++)
{
Vector3d v = curve.GetVertex(i);
int index = vertexes.IndexOf(v);
if (index == -1)
{
vertexes.Add(v);
index = vertexes.IndexOf(v);
}
tri.Add(index);
}
tris.Add(new Index3i(tri.ToArray()));
}
}
}
}
}
//
// vertexes and tris should now describe a mesh
//
DMesh3 dmesh = new DMesh3(false, false, false, false);
vertexes.ForEach(v => dmesh.AppendVertex(v));
tris.ForEach(t => dmesh.AppendTriangle(t));
features = new List <DMesh3>();
features.Add(dmesh.Compactify());
symbology = layer.Properties.Units;
return;
}
}
protected override async Task _init()
{
//
// Load Dataset
//
RecordSet layer = _layer as RecordSet;
ogrReader = new OgrReader();
await ogrReader.Load(layer.Source, layer.Properties.ReadOnly? 0 : 1, layer.Properties.SourceType);
//
// Get and process features
//
features = ogrReader.GetLayers().ToArray();
foreach (Layer thisLayer in features)
{
wkbGeometryType type = thisLayer.GetGeomType();
OgrReader.Flatten(ref type);
switch (type)
{
case wkbGeometryType.wkbPoint:
subLayers.Add(Instantiate(PointLayer, transform).GetComponent <PointLayer>());
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
subLayers.Last().SetMetadata(layer);
subLayers.Last().sourceName = thisLayer.GetName();
await subLayers.Last().SubInit(layer);
break;
case wkbGeometryType.wkbLineString:
subLayers.Add(Instantiate(LineLayer, transform).GetComponent <LineLayer>());
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
subLayers.Last().SetMetadata(layer);
subLayers.Last().sourceName = thisLayer.GetName();
await subLayers.Last().SubInit(layer);
break;
case wkbGeometryType.wkbPolygon:
subLayers.Add(Instantiate(PolygonLayer, transform).GetComponent <PolygonLayer>());
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
subLayers.Last().SetMetadata(layer);
subLayers.Last().sourceName = thisLayer.GetName();
await subLayers.Last().SubInit(layer);
break;
case wkbGeometryType.wkbTIN:
subLayers.Add(Instantiate(TinLayer, transform).GetComponent <TinLayer>());
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
subLayers.Last().SetMetadata(layer);
subLayers.Last().sourceName = thisLayer.GetName();
await subLayers.Last().SubInit(layer);
break;
//
// If feature type is unknown, process each feature seperately
//
case wkbGeometryType.wkbUnknown:
RecordSet metadata = GetMetadata();
if (metadata.Properties.BBox != null)
{
thisLayer.SetSpatialFilterRect(metadata.Properties.BBox[0], metadata.Properties.BBox[1], metadata.Properties.BBox[2], metadata.Properties.BBox[3]);
}
await ogrReader.GetFeaturesAsync(thisLayer);
foreach (Feature feature in ogrReader.features)
{
if (feature == null)
{
continue;
}
Geometry geom = feature.GetGeometryRef();
if (geom == null)
{
continue;
}
wkbGeometryType ftype = geom.GetGeometryType();
OgrReader.Flatten(ref ftype);
VirgisLayer <RecordSet, Layer> layerToAdd = null;
switch (ftype)
{
case wkbGeometryType.wkbLineString:
foreach (VirgisLayer <RecordSet, Layer> l in subLayers)
{
if (l.GetType() == typeof(LineLayer))
{
layerToAdd = l;
break;
}
}
if (layerToAdd == null)
{
subLayers.Add(Instantiate(LineLayer, transform).GetComponent <LineLayer>());
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetMetadata(layer);
await subLayers.Last().SubInit(layer);
}
break;
case wkbGeometryType.wkbPolygon:
foreach (VirgisLayer <RecordSet, Layer> l in subLayers)
{
if (l.GetType() == typeof(PolygonLayer))
{
layerToAdd = l;
break;
}
}
if (layerToAdd == null)
{
subLayers.Add(Instantiate(PolygonLayer, transform).GetComponent <PolygonLayer>());
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetMetadata(layer);
await subLayers.Last().SubInit(layer);
}
break;
case wkbGeometryType.wkbPoint:
foreach (VirgisLayer <RecordSet, Layer> l in subLayers)
{
if (l.GetType() == typeof(PointLayer))
{
layerToAdd = l;
break;
}
}
if (layerToAdd == null)
{
subLayers.Add(Instantiate(PointLayer, transform).GetComponent <PointLayer>());
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetMetadata(layer);
await subLayers.Last().SubInit(layer);
}
break;
case wkbGeometryType.wkbTIN:
foreach (VirgisLayer <RecordSet, Layer> l in subLayers)
{
if (l.GetType() == typeof(TinLayer))
{
layerToAdd = l;
break;
}
}
if (layerToAdd == null)
{
subLayers.Add(Instantiate(TinLayer, transform).GetComponent <TinLayer>());
subLayers.Last().SetCrs(OgrReader.getSR(thisLayer, layer));
(subLayers.Last() as VirgisLayer <RecordSet, Layer>).SetFeatures(thisLayer);
subLayers.Last().SetMetadata(layer);
await subLayers.Last().SubInit(layer);
}
geom.Dispose();
break;
}
}
return;
}
}
}