//Methods
private void GeomSurfGenerator(Autodesk.AutoCAD.DatabaseServices.Surface Surf)
{
Brep Br = new Brep(Surf);
foreach (Autodesk.AutoCAD.BoundaryRepresentation.Face fc in Br.Faces)
{
ExternalBoundedSurface[] ebSurfs = fc.GetSurfaceAsTrimmedNurbs();
m_geomSurf = ebSurfs[0];
}
Br.Dispose();
}
private DbSurface CreateOffsetSurface()
{
DbSurface unionSurface = null;
foreach (var dBObject in TechProcess.ProcessingArea.Select(p => p.ObjectId.QOpenForRead()))
{
DbSurface surface;
switch (dBObject)
{
case DbSurface sf:
surface = sf.Clone() as DbSurface;
break;
case Region region:
surface = new PlaneSurface();
((PlaneSurface)surface).CreateFromRegion(region);
break;
default:
throw new Exception(ErrorStatus.NotImplementedYet, $"Объект типа {dBObject.GetType()} не может быть обработан (1)");
}
if (unionSurface == null)
{
unionSurface = surface;
}
else
{
var res = unionSurface.BooleanUnion(surface);
if (res != null)
{
unionSurface.Dispose();
unionSurface = res;
}
surface.Dispose();
}
}
if (Delta == 0)
{
return(unionSurface);
}
try
{
var offsetSurface = DbSurface.CreateOffsetSurface(unionSurface, Delta) as DbSurface;
unionSurface.Dispose();
return(offsetSurface);
}
catch
{
unionSurface.TransformBy(Matrix3d.Displacement(Vector3d.ZAxis * Delta));
return(unionSurface);
}
}
private Point2dCollection[] GetPointCollections(DbSurface offsetSurface, Point3d minPoint, Point3d maxPoint)
{
var countY = (int)((maxPoint.Y - minPoint.Y) / StepY) + 1;
var countX = (int)((maxPoint.X - minPoint.X) / StepX1) + 1;
var collections = new Point2dCollection[countY];
Acad.SetLimitProgressor(countY);
for (var i = 0; i < countY; i++)
{
Acad.ReportProgressor();
var collection = new Point2dCollection();
var dy = i * StepY;
for (var j = 0; j < countX; j++)
{
var dx = j * StepX1;
offsetSurface.RayTest(minPoint + new Vector3d(dx, dy, 0), Vector3d.ZAxis, 0.0001, out SubentityId[] col, out DoubleCollection par);
if (par.Count == 1)
{
var point = new Point2d(dx, Math.Round(par[0], 2));
var ind = collection.Count - 1;
if (ind > 0 && collection[ind - 1].GetVectorTo(collection[ind]).IsCodirectionalTo(collection[ind].GetVectorTo(point)))
{
collection[ind] = point;
}
else
{
collection.Add(point);
}
}
}
if (collection.Count > 1)
{
collections[i] = collection;
}
}
return(collections);
}
private DbSurface CreateOffsetSurface()
{
DbSurface unionSurface = null;
foreach (var dBObject in TechProcess.ProcessingArea.Select(p => p.ObjectId.QOpenForRead()))
{
DbSurface surface;
switch (dBObject)
{
case DbSurface sf:
surface = sf.Clone() as DbSurface;
break;
case Region region:
surface = new PlaneSurface();
((PlaneSurface)surface).CreateFromRegion(region);
break;
default:
throw new Exception($"Объект типа {dBObject.GetType()} не может быть обработан (1)");
}
if (unionSurface == null)
{
unionSurface = surface;
}
else
{
var res = unionSurface.BooleanUnion(surface);
if (res != null)
{
unionSurface.Dispose();
unionSurface = res;
}
surface.Dispose();
}
}
var offsetSurface = DbSurface.CreateOffsetSurface(unionSurface, Delta) as DbSurface;
unionSurface.Dispose();
return(offsetSurface);
}
public static DBObjectCollection IntersectSurf(Autodesk.AutoCAD.DatabaseServices.Surface surf1, Autodesk.AutoCAD.DatabaseServices.Surface surf2)
{
Brep surfBrep1 = new Brep(surf1);
Brep surfBrep2 = new Brep(surf2);
SurfaceSurfaceIntersector ssi = new SurfaceSurfaceIntersector();
DBObjectCollection dboCol = new DBObjectCollection();
foreach (Autodesk.AutoCAD.BoundaryRepresentation.Face fc1 in surfBrep1.Faces)
{
ExternalBoundedSurface[] ebSurfs1 = fc1.GetSurfaceAsTrimmedNurbs();
Autodesk.AutoCAD.Geometry.Surface sur1 = ebSurfs1[0];
foreach (Autodesk.AutoCAD.BoundaryRepresentation.Face fc2 in surfBrep2.Faces)
{
ExternalBoundedSurface[] ebSurfs2 = fc2.GetSurfaceAsTrimmedNurbs();
Autodesk.AutoCAD.Geometry.Surface sur2 = ebSurfs2[0];
ssi.Set(sur1, sur2);
if (ssi.NumResults < 1)
{
break;
}
for (int i = 0; i < ssi.NumResults; i++)
{
Curve3d c3d = ssi.IntersectCurve(i, true);
Curve crv = GenCurve(c3d);
crv.SetDatabaseDefaults();
crv.Color = Color.FromRgb(255, 255, 255);
dboCol.Add(crv);
////adding for now need instead to conver to single Spline
//BlockTableRecord btr = (BlockTableRecord)(trans.GetObject(db.CurrentSpaceId, OpenMode.ForWrite));
//btr.AppendEntity(crv);
//trans.AddNewlyCreatedDBObject(crv, true);
}
}
}
return(dboCol);
}
//aqcuired this information online, not sure how tall this surface is supposed to be or how to insert it into drawing
//creates an extruded surface from an open polyline
private ExtrudedSurface extrudeOpenPolyline(Polyline pPoly, Editor ed)
{
ExtrudedSurface extrSurf = new ExtrudedSurface();
Face face = new Face(pPoly.StartPoint, pPoly.EndPoint, pPoly.EndPoint + new Vector3d(0, 0, 1000), pPoly.StartPoint + new Vector3d(0, 0, 1000), true, true, true, true);
Autodesk.AutoCAD.DatabaseServices.Surface sweepEnt = new Autodesk.AutoCAD.DatabaseServices.Surface();
sweepEnt.SetDatabaseDefaults();
try
{ sweepEnt = Autodesk.AutoCAD.DatabaseServices.Surface.CreateFrom(face); }
catch (Autodesk.AutoCAD.Runtime.Exception e)
{}
SweepOptions sweepOpts = new SweepOptions();
try
{ extrSurf.CreateExtrudedSurface(sweepEnt, (pPoly.EndPoint - pPoly.StartPoint).GetPerpendicularVector(), sweepOpts); }
catch
{ ed.WriteMessage("\nFailed with CreateExtrudedSurface."); }
return(extrSurf);
}
//Constructors
public SurfGeomConstruct(Autodesk.AutoCAD.DatabaseServices.Surface Surf)
{
GeomSurfGenerator(Surf);
}
public void drawSpring()
{
Document doc = Application.DocumentManager.MdiActiveDocument;
Database db = doc.Database;
Editor ed = doc.Editor;
//??ask about gauge of spring back vs seat
//seat 8 gauge .1285"
//back 12 gauge .0808"
#region get ends of spring to get total distance
//ask user for points for spring to exist
PromptPointOptions ppo = new PromptPointOptions("First end of spring:");
PromptPointResult ppr = ed.GetPoint(ppo);
if (ppr.Status != PromptStatus.OK)
{
return;
}
Point3d startPoint = ppr.Value;
ppo.Message = "Second end of spring";
ppr = ed.GetPoint(ppo);
if (ppr.Status != PromptStatus.OK)
{
return;
}
//calculate distance from chosen points
#endregion
double totalLength = startPoint.DistanceTo(ppr.Value);
#region get spring Type (length)
//given total length, calculate ideal spring length which is total minus some percentage
double theorySpgLength = (Math.Round(.9 * totalLength * 2)) / 2;
//find the nearest spring length that is less than or equal to total length(springs tend to come in 1/2" increments)
//compare to list of spring lengths in stock **(eventually get springs from SQL)
//present any springs withen an accaptable margin of diviation (maybe 8%)??
//if none are easily exceptable but might work within a special circumstance, present that with warning (10%)??
//if none are accaptable at all, then give different warning and end command (user will need to move spring rail or order diff springs)
//**idealy replace with a user dialoge to choose from springs in system
//ask user for spring length desired(may prompt with options from list) based on orignal distance
PromptDoubleOptions pdo = new PromptDoubleOptions("Enter spring length:");
//needs to pull these dynamically***************
pdo.Keywords.Add(theorySpgLength.ToString());
pdo.Keywords.Add((theorySpgLength - .5).ToString());
PromptDoubleResult pdr = ed.GetDouble(pdo);
if (pdr.Status != PromptStatus.OK)
{
return;
}
#endregion
double springLength = pdr.Value;
#region Create top view of spring
//1 Calculate rungs
//spring length / average gap
int rungCount = Convert.ToInt32(springLength / .875);//guessing at the avg rung gap for starters
double rungGap = totalLength / rungCount;
double rungWidth = 2 - rungGap;
//springs tend to be approx 2" wide
//rung widths are 2" - rung gap (the two radii of bends)
//add all parts to object collection then convert to polyline
DBObjectCollection springParts = new DBObjectCollection();
//construct first rung (has hooked end)
springParts = createEnd(springParts, startPoint, rungGap, rungWidth, true, true);
//construct rungs/bends in middle
//and bends on alternating runs
for (int i = 0; i < rungCount; i++)
{
Line rung = new Line(
new Point3d(startPoint.X - rungWidth / 2, startPoint.Y + i * rungGap, startPoint.Z),
new Point3d(startPoint.X + rungWidth / 2, startPoint.Y + i * rungGap, startPoint.Z));
//add rungs except for either end
if (i != 0 && i != rungCount)
{
springParts.Add(rung);
}
//add bends to either side depending on if it is an even or odd rung
if (i % 2 == 0)
{
//even
Arc leftBend = new Arc(new Point3d(startPoint.X - 1 + rungGap / 2, startPoint.Y + rungGap * i + rungGap / 2, startPoint.Z), rungGap / 2, Math.PI / 2, 3 * Math.PI / 2);
springParts.Add(leftBend);
}
else
{
//odd
Arc rightBend = new Arc(new Point3d(startPoint.X + 1 - rungGap / 2, startPoint.Y + rungGap * i + rungGap / 2, startPoint.Z), rungGap / 2, 3 * Math.PI / 2, Math.PI / 2);
springParts.Add(rightBend);
}
}
//construct end
//if rungCount is even it opens same as first
bool secondOpen = true;
if (rungCount % 2 == 0)
{
secondOpen = false;
}
springParts = createEnd(springParts, new Point3d(startPoint.X, startPoint.Y + totalLength, startPoint.Z), rungGap, rungWidth, secondOpen, false);
////just for testing **
//using (Transaction trans = db.TransactionManager.StartTransaction())
//{
// BlockTable bt = trans.GetObject(db.BlockTableId, OpenMode.ForWrite) as BlockTable;
// BlockTableRecord btr = trans.GetObject(bt[BlockTableRecord.ModelSpace], OpenMode.ForWrite) as BlockTableRecord;
// foreach (DBObject dbo in springParts)
// {
// Entity ent = dbo as Entity;
// btr.AppendEntity(ent);
// trans.AddNewlyCreatedDBObject(ent, true);
// }
// trans.Commit();
//}
Polyline pLine = BuildPLine.drawPolyLine(springParts);
//move spring polyline to the correct Z coordinate, converting to a polyline cuts off z coords leaving it at 0****
//***************************
#endregion
#region create side view (crown)
//need to account for creating arc along different plane
//arc is start point, and then total length vertical from first point (same plane) *we'll rotate later
//for now all springs will use same crown, need a formula later and need an element that accounts for flat vs curly springs
//create arc flat along same plane as spring polyline, then rotate it??
Arc crown = new Arc();
Point3d startArc = new Point3d(startPoint.X - 2, startPoint.Y, startPoint.Z);
Point3d endArc = new Point3d(startArc.X, startArc.Y + totalLength, startArc.Z);
Point3d arcMid = new Point3d(startArc.X - 1.5, startArc.Y + (totalLength / 2), startArc.Z);
//assuming crown is 1.5 until we derive a diff system
//radius = height/2 + width^2/height(8)
crown.Radius = .75 + (Math.Pow(startArc.DistanceTo(endArc), 2) / 12);
//given that we always will have our arc aligned vertically center is easter to calculate
crown.Center = new Point3d(arcMid.X + crown.Radius, arcMid.Y, arcMid.Z);
Matrix3d ocs2wcs = Matrix3d.PlaneToWorld(crown.Normal);
Plane plane = new Plane(ocs2wcs.CoordinateSystem3d.Origin, ocs2wcs.CoordinateSystem3d.Xaxis, ocs2wcs.CoordinateSystem3d.Yaxis);
//need start and end angles
//double startAngle = tanAngle(arcCenter, startArc);
//double endAngle = tanAngle(arcCenter, endArc);
crown.EndAngle = (startArc - crown.Center).AngleOnPlane(plane);
crown.StartAngle = (endArc - crown.Center).AngleOnPlane(plane);
//Arc crown = new Arc(arcCenter,radius,startAngle,endAngle);
// Rotate the 3D solid 30 degrees around the axis that is defined by the points
Vector3d turnArc = crown.StartPoint.GetVectorTo(crown.EndPoint);
crown.TransformBy(Matrix3d.Rotation(3 * (Math.PI / 2), turnArc, crown.StartPoint));
#endregion
//convert collection to polyline
using (Transaction tr = db.TransactionManager.StartTransaction())
{
BlockTable bt = tr.GetObject(db.BlockTableId, OpenMode.ForWrite) as BlockTable;
BlockTableRecord btr = tr.GetObject(bt[BlockTableRecord.ModelSpace], OpenMode.ForWrite) as BlockTableRecord;
//Have to have both views inserted to turn into extruded surface
btr.AppendEntity(pLine);
tr.AddNewlyCreatedDBObject(pLine, true);
btr.AppendEntity(crown);
tr.AddNewlyCreatedDBObject(crown, true);
#region Extrude surfaces from open curves, polylines
//extrude two shapes
Profile3d profileCrown = new Profile3d(crown);
Profile3d profileSpring = new Profile3d(pLine);
Vector3d polylineDir = new Vector3d(0, 0, 4);
Vector3d crownDir = (crown.StartPoint).GetVectorTo(new Point3d(crown.StartPoint.X + 4, crown.StartPoint.Y, crown.StartPoint.Z));
SweepOptions sweepOp = new SweepOptions();
//need a different vector for crown
ObjectId surfaceId = Autodesk.AutoCAD.DatabaseServices.Surface.CreateExtrudedSurface(
profileCrown, crownDir, sweepOp, true);
ObjectId surfaceSpringId = Autodesk.AutoCAD.DatabaseServices.Surface.CreateExtrudedSurface(
profileSpring, polylineDir, sweepOp, true);
//remove original lines
pLine.Erase(true);
crown.Erase(true);
#endregion
//intersect both regions(observe how extrusions work with ucs)
Autodesk.AutoCAD.DatabaseServices.Surface crownEnt = tr.GetObject(surfaceId, OpenMode.ForWrite) as Autodesk.AutoCAD.DatabaseServices.Surface;
Autodesk.AutoCAD.DatabaseServices.Surface springEnt = tr.GetObject(surfaceSpringId, OpenMode.ForWrite) as Autodesk.AutoCAD.DatabaseServices.Surface;
//convert both surfaces to nurbs
//the polyline extrusion creates many surfaces in nurb form, loop through intersections creating splines and lines
springParts = Intersect_Surfaces.IntersectSurf(crownEnt, springEnt);
//delete surfaces
crownEnt.Erase(true);
springEnt.Erase(true);
//join intersection pieces as spline (maynot be possible)
//convert collection of splines/lines to single 3Dspline
Spline springSpline = Intersect_Surfaces.mergeSpline(springParts);
btr.AppendEntity(springSpline);
tr.AddNewlyCreatedDBObject(springSpline, true);
//loft along spline
try
{
//create circle to to sweep
Circle wireGauge = new Circle();
wireGauge.Center = springSpline.StartPoint;
wireGauge.Radius = .06425;//diameter .1285
//Entity sweepEnt = tr.GetObject();
Curve pathEnt = tr.GetObject(springSpline.Id, OpenMode.ForRead) as Curve;
//Curve pathEnt = tr.GetObject(pLine.Id, OpenMode.ForRead) as Curve;
if (wireGauge == null || pathEnt == null)
{
ed.WriteMessage("\nProblem getting spline made");
return;
}
//builder object to create sweepoptions
SweepOptionsBuilder sob = new SweepOptionsBuilder();
//align the entity to sweep to the path
sob.Align = SweepOptionsAlignOption.AlignSweepEntityToPath;
//the base point is the start of the path
sob.BasePoint = pathEnt.StartPoint;
//the profile will rotate to follow the path
sob.Bank = true;
Entity ent;
Solid3d sol = new Solid3d();
sol.CreateSweptSolid(wireGauge, pathEnt, sob.ToSweepOptions());
ent = sol;
//and add it to the modelspace
btr.AppendEntity(ent);
tr.AddNewlyCreatedDBObject(ent, true);
}
catch { }
//re-align spring to first points chosen by user
tr.Commit();
}
}
public void BuildProcessing(CableCommandGenerator generator)
{
var offsetDistance = TechProcess.ToolThickness / 2 + Delta;
var dbObject = AcadObjects.First().ObjectId.QOpenForRead();
if (AcadObjects.Count == 2)
{
var matrix = Matrix3d.Displacement(Vector3d.ZAxis * offsetDistance);
var railCurves = AcadObjects.Select(p => (Curve)p.ObjectId.QOpenForRead <Curve>().GetTransformedCopy(matrix))
.Select(p => new Line(p.StartPoint, p.EndPoint)).ToArray();
if (railCurves[0].StartPoint.GetVectorTo(railCurves[0].EndPoint).GetAngleTo(railCurves[1].StartPoint.GetVectorTo(railCurves[1].EndPoint)) > Math.PI / 2)
{
railCurves[1].ReverseCurve();
}
if (IsRevereseDirection)
{
railCurves[0].ReverseCurve();
railCurves[1].ReverseCurve();
}
var points = new List <Point3d[]>();
if (Approach > 0)
{
points.Add(railCurves.Select(p => p.StartPoint.GetExtendedPoint(p.EndPoint, Approach)).ToArray());
}
//if (Approach < 0)
// zStart += Approach;
points.Add(railCurves.Select(p => p.StartPoint).ToArray());
points.Add(railCurves.Select(p => Departure >= 0 ? p.EndPoint : p.GetPointAtDist(p.Length + Departure)).ToArray());
if (Departure > 0)
{
points.Add(railCurves.Select(p => p.EndPoint.GetExtendedPoint(p.StartPoint, Departure)).ToArray());
}
generator.GCommand(0, points[0][0], points[0][1], IsRevereseAngle);
for (int i = 1; i < points.Count; i++)
{
generator.GCommand(1, points[i][0], points[i][1]);
}
return;
}
if (dbObject is Line rail)
{
var matrix = Matrix3d.Displacement(Vector3d.ZAxis * offsetDistance);
rail = (Line)rail.GetTransformedCopy(matrix);
//if (railCurves[0].StartPoint.GetVectorTo(railCurves[0].EndPoint).GetAngleTo(railCurves[1].StartPoint.GetVectorTo(railCurves[1].EndPoint)) > Math.PI / 2)
// railCurves[1].ReverseCurve();
var points = new List <Point3d>();
if (Approach > 0)
{
points.Add(rail.StartPoint.GetExtendedPoint(rail.EndPoint, Approach));
}
//if (Approach < 0)
// zStart += Approach;
points.Add(rail.StartPoint);
points.Add(rail.EndPoint);
if (Departure > 0)
{
points.Add(rail.EndPoint.GetExtendedPoint(rail.StartPoint, Departure));
}
foreach (var point in points)
{
var line = new Line3d(point, rail.Delta.GetPerpendicularVector());
if (point == points[0])
{
generator.GCommand(0, line);
}
else
{
generator.GCommand(1, line);
}
}
return;
}
var surface = dbObject as DbSurface;
if (dbObject is Region region)
{
var planeSurface = new PlaneSurface();
planeSurface.CreateFromRegion(region);
surface = planeSurface;
}
surface.GeometricExtents.GetCenter();
var basePoint = surface.GeometricExtents.GetCenter();
if (IsRevereseOffset)
{
offsetDistance *= -1;
}
var offsetSurface = DbSurface.CreateOffsetSurface(surface, offsetDistance);
var basePointOffset = offsetSurface.GeometricExtents.GetCenter();
//if (curves[0] is Region r)
//{
// curves.Clear();
// r.Explode(curves);
//}
//var plane = offsetSurface.GetPlane();
var curves = new DBObjectCollection();
offsetSurface.Explode(curves);
var pts = curves.Cast <Curve>().SelectMany(p => p.GetStartEndPoints()).OrderBy(x => x.Z).ToList();
var maxPoint = pts.Last();
var minPoint = pts.First();
if (maxPoint.Z - minPoint.Z < 10) // горизонтальная
{
var matrix = Matrix3d.Displacement(Vector3d.ZAxis * offsetDistance);
var railCurvesAll = curves.Cast <Curve>().ToList();
var railCurves = new Curve[2];
var rc = railCurvesAll.Where(p => p.HasPoint(maxPoint)).OrderBy(p => p.Length());
railCurves[0] = Across ? rc.First() : rc.Last();
railCurves[1] = railCurvesAll.Where(p => !p.HasPoint(railCurves[0].StartPoint) && !p.HasPoint(railCurves[0].EndPoint)).First();
if (railCurves[0].StartPoint.GetVectorTo(railCurves[0].EndPoint).GetAngleTo(railCurves[1].StartPoint.GetVectorTo(railCurves[1].EndPoint)) > Math.PI / 2)
{
railCurves[1].ReverseCurve();
}
if (IsRevereseDirection)
{
railCurves[0].ReverseCurve();
railCurves[1].ReverseCurve();
}
var points = new List <Point3d[]>();
if (Approach > 0)
{
points.Add(railCurves.Select(p => p.StartPoint.GetExtendedPoint(p.EndPoint, Approach)).ToArray());
}
points.Add(railCurves.Select(p => Approach >= 0 ? p.StartPoint : p.GetPointAtDist(-Approach)).ToArray());
points.Add(railCurves.Select(p => p.EndPoint).ToArray());
if (Departure > 0)
{
points.Add(railCurves.Select(p => p.EndPoint.GetExtendedPoint(p.StartPoint, Departure)).ToArray());
}
generator.GCommand(0, points[0][0], points[0][1], IsRevereseAngle);
for (int i = 1; i < points.Count; i++)
{
generator.GCommand(1, points[i][0], points[i][1]);
}
return;
}
var baseCurves = curves.Cast <Curve>().Where(p => p.HasPoint(maxPoint)).ToArray();
var plane = new Plane(maxPoint, baseCurves[0].EndPoint - baseCurves[0].StartPoint, baseCurves[1].EndPoint - baseCurves[1].StartPoint);
var zStart = pts.Last().Z;
var zEnd = pts.First().Z;
var zPos = new List <double>();
if (Approach > 0)
{
zPos.Add(zStart + Approach);
}
if (Approach < 0)
{
zStart += Approach;
}
zPos.Add(zStart);
if (Departure < 0)
{
zEnd -= Departure;
}
zPos.Add(zEnd);
if (Departure > 0)
{
zPos.Add(zEnd - Departure);
}
foreach (var z in zPos)
{
var line = plane.IntersectWith(new Plane(new Point3d(0, 0, z), Vector3d.ZAxis));
var u = line.GetDistanceTo(new Point3d(TechProcess.OriginX, TechProcess.OriginY, z));
if (z == zPos[0])
{
//var angle = line.Direction.ToVector2d().MinusPiToPiAngleTo(Vector2d.YAxis);
//generator.GCommandAngle(line.Direction.ToVector2d(), S);
//generator.GCommand(0, u);
//generator.GCommand(0, u, z);
generator.GCommand(0, line, IsRevereseAngle);
}
else
{
generator.GCommand(1, line);
//generator.GCommand(1, u, z, CuttingFeed);
}
}
}
public void ImportUit3ds()
{
// Verkrijg document en database
Document acDoc = Autodesk.AutoCAD.ApplicationServices.Application.DocumentManager.MdiActiveDocument;
Database acCurDb = acDoc.Database;
acCurDb.Surfu = 0;
acCurDb.Surfv = 0;
using (Transaction acTrans = acCurDb.TransactionManager.StartTransaction())
{
// Open de block-tabel
BlockTable acBlkTbl;
acBlkTbl = acTrans.GetObject(acCurDb.BlockTableId, OpenMode.ForRead) as BlockTable;
// Open de Model space om in te schrijven
BlockTableRecord acBlkTblRec;
acBlkTblRec = acTrans.GetObject(acBlkTbl[BlockTableRecord.ModelSpace], OpenMode.ForWrite) as BlockTableRecord;
//Bestand openen om binair te lezen
binReader = new BinaryReader(File.Open(@"C:/3DGISBuffer.dat", FileMode.Open));
//Loop door objecten
int aantalobjecten = binReader.ReadInt32();
for (int i = 0; i < aantalobjecten; i++)
{
Point3dCollection vertarray = new Point3dCollection();
Int32Collection facearray = new Int32Collection();
// Maak een subdivision-mesh aan
SubDMesh sdm = new SubDMesh();
sdm.SetDatabaseDefaults();
// Voeg het object toe aan de block-tabel
acBlkTblRec.AppendEntity(sdm);
acTrans.AddNewlyCreatedDBObject(sdm, true);
//objectkleur lezen
byte kleur_r = binReader.ReadByte();
byte kleur_g = binReader.ReadByte();
byte kleur_b = binReader.ReadByte();
//solidvlag lezen
Boolean solidvlag = LeesBoolean();
// Vertexarray vullen met vertices
Point3dCollection acPts3dPFMesh = new Point3dCollection();
Int32 nvts = binReader.ReadInt32();
for (int j = 1; j <= nvts; j++)
{
Single nX = binReader.ReadSingle();
Single nY = binReader.ReadSingle();
Single nZ = binReader.ReadSingle();
vertarray.Add(new Point3d(nX, nY, nZ));
}
//Facearray vullen met faces
int nfcs = binReader.ReadInt32();
for (int j = 1; j <= nfcs; j++)
{
int fc1 = binReader.ReadInt32();
int fc2 = binReader.ReadInt32();
int fc3 = binReader.ReadInt32();
facearray.Add(3);
facearray.Add(fc1 - 1);
facearray.Add(fc2 - 1);
facearray.Add(fc3 - 1);
}
//Vertex- en facearray toevoegen aan mesh, smoothlevel 0
sdm.SetSubDMesh(vertarray, facearray, 0);
Entity pMijnObj = null;
if (solidvlag)
{
Autodesk.AutoCAD.DatabaseServices.Solid3d pSolid = sdm.ConvertToSolid(false, false);
pMijnObj = (Entity)pSolid;
}
else
{
Autodesk.AutoCAD.DatabaseServices.Surface pSurface = sdm.ConvertToSurface(false, false);
pMijnObj = (Entity)pSurface;
}
acBlkTblRec.AppendEntity(pMijnObj);
acTrans.AddNewlyCreatedDBObject(pMijnObj, true);
//Verwijder mesh
sdm.Erase();
// Schrijf objectnaam naar Xrecord in de entity-dictionary van de surface
SaveXRecord(pMijnObj, LeesAttributen(), "GISData", acTrans);
//kleur van het object updaten
pMijnObj.Color = Color.FromRgb(kleur_r, kleur_g, kleur_b);
}//einde for-loop
// Schrijf het object naar de AutoCAD-database en sluit binReader
acTrans.Commit();
binReader.Close();
} //einde using transaction
} //einde method