/// <summary> /// This is the method that actually does the work. /// </summary> /// <param name="DA">The DA object can be used to retrieve data from input parameters and /// to store data in output parameters.</param> protected override void SolveInstance(IGH_DataAccess DA) { PointCloud pc = null; if (!DA.GetData(0, ref pc)) { return; } ///Write ErrorMessage eles add box to Box List. if (!pc.UserDictionary.ContainsKey("ColorGradient")) { this.AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Cloud doesn't contain ColorGradient Information."); return; } List <Color> Colors = Color_Utils.Get_Colors(pc); List <double> Values = Color_Utils.Get_ColorValues(pc); DA.SetDataList(0, Colors); DA.SetDataList(1, Values); }
/// <summary> /// Parallel Computing Setup for Code to Execute. /// </summary> /// <param name="pointCloud">ByRef PointCloud to Execute Code on.</param> /// <returns></returns> public override bool Execute(ref PointCloud pointCloud) { //Set Global Variables LastPercentReported = 0; PointCounter = 0; Dict_Utils.CastDictionary_ToArrayDouble(ref pointCloud); GlobalCloud = pointCloud; NewCloud = (PointCloud)pointCloud.Duplicate(); // Setup the cancellation mechanism. po.CancellationToken = cts.Token; //Create Partitions for multithreading. var rangePartitioner = System.Collections.Concurrent.Partitioner.Create(0, GlobalCloud.Count, (int)Math.Ceiling((double)GlobalCloud.Count / ProcCount)); //Run MultiThreaded Loop. Parallel.ForEach(rangePartitioner, po, (rng, loopState) => { //Initialize Local Variables. /// Get Index for Processor to be able to merge clouds in ProcesserIndex order in the end. int MyIndex = (int)(rng.Item1 / Math.Ceiling(((double)GlobalCloud.Count / ProcCount))); /// Initialize Partial PointCloud PointCloud MyCloud = new PointCloud(); /// Get Total Count Fraction to calculate Operation Percentage. double totc = (double)1 / GlobalCloud.Count; //Loop over individual RangePartitions per processor. for (int i = rng.Item1; i < rng.Item2; i++) { //Operation Percentage Report ///Safe Counter Increment. Interlocked.Increment(ref PointCounter); ///Calculate and Report Percentage. if (LastPercentReported < ((PointCounter * totc) * 100)) { LastPercentReported = (int)(5 * Math.Ceiling((double)(PointCounter * totc) * 20)); this.ReportPercent = LastPercentReported; } // Color color = NewCloud[i].Color; Color newCol = Color_Utils.Blend(color, insV_Color, insV_Pct); NewCloud[i].Color = newCol; // } //Enable Parrallel Computing Cancellation po.CancellationToken.ThrowIfCancellationRequested(); } ); //Dispose of Global Clouds. GlobalCloud.Dispose(); pointCloud.Dispose(); //Set OutputCloud pointCloud = (PointCloud)NewCloud.Duplicate(); //Dispose of PointCloud Pieces and NewCloud. GlobalCloud.Dispose(); NewCloud.Dispose(); //Return True on Finish return(true); }
/// <summary> /// /// </summary> /// <param name="PointCloud"></param> /// <param name="Message"></param> /// <returns></returns> public override bool Execute(ref PointCloud pointCloud) { #region - Initialize Execution //Set Global Variables LastPercentReported = 0; PointCounter = 0; NewCloud = new PointCloud(); CloudPieces = null; CloudPieces = new PointCloud[ProcCount]; GlobalCloud = pointCloud; // Setup the cancellation mechanism. po.CancellationToken = cts.Token; //Create Partitions for multithreading. var rangePartitioner = System.Collections.Concurrent.Partitioner.Create(0, GlobalCloud.Count, (int)Math.Ceiling((double)GlobalCloud.Count / ProcCount)); Dict_Utils.CastDictionary_ToArrayDouble(ref GlobalCloud); //// //Initialize ColorGradient Interval Itv = new Interval(); Bitmap bmp = new Bitmap(1000, 1); Rectangle rect = new Rectangle(0, 0, bmp.Width, bmp.Height); System.Drawing.Drawing2D.ColorBlend cb = new System.Drawing.Drawing2D.ColorBlend(); float[] pos = new float[insV_Colors.Count]; for (int i = 0; i <= pos.Length - 1; i += 1) { pos[i] = (float)insV_Values[i]; } Color[] colors = insV_Colors.ToArray(); Array.Sort(pos, colors); Array.Sort(pos, pos); float[] normpos = new float[insV_Colors.Count]; Itv = new Interval(pos[0], pos[pos.Length - 1]); for (int i = 0; i <= normpos.Length - 1; i += 1) { normpos[i] = (float)Itv.NormalizedParameterAt(pos[i]); } cb.Positions = normpos; cb.Colors = colors; System.Drawing.Drawing2D.LinearGradientBrush lin = new System.Drawing.Drawing2D.LinearGradientBrush(rect, Color.Black, Color.Black, 0, false); lin.LinearColors = colors; lin.InterpolationColors = cb; ColVal = null; ColVal = new Color[bmp.Width]; int counter = 0; using (Graphics g = Graphics.FromImage(bmp)) { g.FillRectangle(lin, rect); for (int i = 0; i <= bmp.Width - 1; i += 1) { Color col = bmp.GetPixel(i, 0); ColVal[counter] = col; counter += 1; } } //// //Get Dictionary Values from PointCloud List <double> DictVal = new List <double>(); DictVal.AddRange((double[])GlobalCloud.UserDictionary[insV_Key]); //Get idx to multiply with for normalized values. int idx = ColVal.Length - 1; //Run MultiThreaded Loop. Parallel.ForEach(rangePartitioner, po, (rng, loopState) => { //Initialize Local Variables. /// Get Index for Processor to be able to merge clouds in ProcesserIndex order in the end. int MyIndex = (int)(rng.Item1 / Math.Ceiling(((double)GlobalCloud.Count / ProcCount))); /// Initialize Partial PointCloud PointCloud MyCloud = new PointCloud(); /// Get Total Count Fraction to calculate Operation Percentage. double totc = (double)1 / GlobalCloud.Count; //Loop over individual RangePartitions per processor. for (int i = rng.Item1; i < rng.Item2; i++) { //Operation Percentage Report ///Safe Counter Increment. Interlocked.Increment(ref PointCounter); ///Calculate and Report Percentage. if (LastPercentReported < ((PointCounter * totc) * 100)) { LastPercentReported = (int)(5 * Math.Ceiling((double)(PointCounter * totc) * 20)); this.ReportPercent = LastPercentReported; } #endregion - End of Initialize Execution #region - Code to Process on PointCloud. double thisnorm = new double(); if (insV_Step <= 0.0) { thisnorm = Itv.NormalizedParameterAt(DictVal[i]); } else { thisnorm = Itv.NormalizedParameterAt((Math.Floor((DictVal[i] - Itv[0]) / insV_Step) * insV_Step) + Itv[0]); } Color col = new Color(); if (thisnorm < (0.0000000)) { col = ColVal.First(); } else if (thisnorm > (1.0000000)) //+ Rhino.RhinoDoc.ActiveDoc.ModelAbsoluteTolerance) { col = ColVal.Last(); } else { col = ColVal[(int)(thisnorm * idx)]; } if (insV_ColPct >= 0.0) { col = Color_Utils.Blend(GlobalCloud[i].Color, col, insV_ColPct); } MyCloud.Add(GlobalCloud[i].Location, col); #endregion - End of Code to Process on PointCloud. #region - Finalize Execution } //Add MyCloud to CloudPieces at ProcesserIndex. CloudPieces[(int)MyIndex] = MyCloud; //Enable Parrallel Computing Cancellation po.CancellationToken.ThrowIfCancellationRequested(); } ); //Merge PointCloud Pieces into One PointCloud. Cloud_Utils.MergeClouds(ref NewCloud, CloudPieces); //Set UserDictionary from DictionaryLists. Dict_Utils.SetUserDict_FromOtherCloud(ref NewCloud, GlobalCloud); //Set ColorGradient UserData List <double> gradVals = new List <double>(); List <Color> gradCols = new List <Color>(); if (insV_Step > 0.00) { for (int i = 0; i < pos.Length; i++) { double gradVal = (Math.Floor((pos[i] - Itv[0]) / insV_Step) * insV_Step) + Itv[0]; if (!gradVals.Contains(gradVal)) { Color gradCol = ColVal[(int)(Itv.NormalizedParameterAt(gradVal) * idx)]; gradVals.Add(gradVal); gradCols.Add(gradCol); } } double lastVal = (Math.Ceiling((pos[pos.Length - 1] - Itv[0]) / insV_Step) * insV_Step) + Itv[0]; if (!gradVals.Contains(lastVal)) { Color gradCol = ColVal[(int)(Itv.NormalizedParameterAt(pos[pos.Length - 1]) * idx)]; gradVals.Add(lastVal); gradCols.Add(gradCol); } } else { gradVals = insV_Values; gradCols = insV_Colors; } Color_Utils.Set_ColorGradient_Dict(ref NewCloud, gradCols, gradVals); //Dispose of Global Clouds. GlobalCloud.Dispose(); pointCloud.Dispose(); //Set OutputCloud pointCloud = (PointCloud)NewCloud.Duplicate(); //Dispose of PointCloud Pieces and NewCloud. CloudPieces = null; NewCloud.Dispose(); #endregion - End of Finalize Execution //Return True on Finish return(true); }
/// <summary> /// Parallel Computing Setup for Code to Execute. /// </summary> /// <param name="pointCloud">ByRef PointCloud to Execute Code on.</param> /// <returns></returns> public override bool Execute(ref PointCloud pointCloud) { //Set Global Variables LastPercentReported = 0; PointCounter = 0; Dict_Utils.CastDictionary_ToArrayDouble(ref pointCloud); GlobalCloud = pointCloud; NewCloud = (PointCloud)pointCloud.Duplicate(); Array.Resize(ref Distances, pointCloud.Count); Array.Resize(ref ApproachAngle, pointCloud.Count); double halfpi = Math.PI / 2; // Setup the cancellation mechanism. po.CancellationToken = cts.Token; //Create Partitions for multithreading. var rangePartitioner = System.Collections.Concurrent.Partitioner.Create(0, GlobalCloud.Count, (int)Math.Ceiling((double)GlobalCloud.Count / ProcCount)); //Run MultiThreaded Loop. Parallel.ForEach(rangePartitioner, po, (rng, loopState) => { //Initialize Local Variables. /// Get Index for Processor to be able to merge clouds in ProcesserIndex order in the end. int MyIndex = (int)(rng.Item1 / Math.Ceiling(((double)GlobalCloud.Count / ProcCount))); /// Initialize Partial PointCloud PointCloud MyCloud = new PointCloud(); /// Get Total Count Fraction to calculate Operation Percentage. double totc = (double)1 / GlobalCloud.Count; //Loop over individual RangePartitions per processor. for (int i = rng.Item1; i < rng.Item2; i++) { //Operation Percentage Report ///Safe Counter Increment. Interlocked.Increment(ref PointCounter); ///Calculate and Report Percentage. if (LastPercentReported < ((PointCounter * totc) * 100)) { LastPercentReported = (int)(5 * Math.Ceiling((double)(PointCounter * totc) * 20)); this.ReportPercent = LastPercentReported; } // PointCloudItem GlobalCloudItem = GlobalCloud[i]; Point3d p3 = GlobalCloudItem.Location; Point3d pm = new Point3d(); Vector3d pv = new Vector3d(); insV_Mesh.ClosestPoint(p3, out pm, out pv, 0); double d = p3.DistanceTo(pm); if (Vector3d.VectorAngle(pv, new Vector3d(pm - p3)) < halfpi) { d = -d; } Distances[i] = d; if (insV_ApproachAngle) { Point3d pos = (Point3d)insV_PositionPt; Vector3d scanVec = new Vector3d(p3 - pos); double appA = Math.Abs(halfpi - Vector3d.VectorAngle(pv, scanVec)); ApproachAngle[i] = appA; } } //Enable Parrallel Computing Cancellation po.CancellationToken.ThrowIfCancellationRequested(); } ); //Dispose of Global Clouds. GlobalCloud.Dispose(); pointCloud.Dispose(); //Set OutputCloud NewCloud.UserDictionary.Set(insV_Key, Distances); NewCloud.UserDictionary.Set(insV_AngleKey, ApproachAngle); //Colorize if (insV_Colorize) { List <double> colorValues = Color_Utils.ColorValues_Std_negpos(NewCloud, insV_Key); List <Color> Colors = Color_Utils.ColorGradient_Std_BtoR(); Instruction.Instr_Dict_Color col = new Instruction.Instr_Dict_Color(insV_Key, colorValues, Colors, -1, 0.00); Boolean ColResult = col.Execute(ref NewCloud); //Set ColorGradient UserData Color_Utils.Set_ColorGradient_Dict(ref NewCloud, Colors, colorValues); } pointCloud = (PointCloud)NewCloud.Duplicate(); //Dispose of PointCloud Pieces and NewCloud. GlobalCloud.Dispose(); NewCloud.Dispose(); //Return True on Finish return(true); }
/// <summary> /// Parallel Computing Setup for Code to Execute. /// </summary> /// <param name="pointCloud">ByRef PointCloud to Execute Code on.</param> /// <returns></returns> public override bool Execute(ref PointCloud pointCloud) { //Set Global Variables LastPercentReported = 0; PointCounter = 0; Dict_Utils.CastDictionary_ToArrayDouble(ref pointCloud); GlobalCloud = pointCloud; NewCloud = (PointCloud)pointCloud.Duplicate(); tree = insV_KDTree.Value.Item1; cloudTo = insV_KDTree.Value.Item2.Value; pts = pointCloud.GetPoints(); Array.Resize(ref Distances, pointCloud.Count); // Setup the cancellation mechanism. po.CancellationToken = cts.Token; //Create Partitions for multithreading. var rangePartitioner = System.Collections.Concurrent.Partitioner.Create(0, GlobalCloud.Count, (int)Math.Ceiling((double)GlobalCloud.Count / ProcCount)); //Run MultiThreaded Loop. Parallel.ForEach(rangePartitioner, po, (rng, loopState) => { //Initialize Local Variables. /// Get Index for Processor to be able to merge clouds in ProcesserIndex order in the end. int MyIndex = (int)(rng.Item1 / Math.Ceiling(((double)GlobalCloud.Count / ProcCount))); /// Initialize Partial PointCloud PointCloud MyCloud = new PointCloud(); /// Get Total Count Fraction to calculate Operation Percentage. double totc = (double)1 / GlobalCloud.Count; //Loop over individual RangePartitions per processor. for (int i = rng.Item1; i < rng.Item2; i++) { //Point to measure From var p = pts[i]; //Range var r = Double.MaxValue; //Get one Nearest Neighbor (Part of KDTree.dll) var ns = tree.NearestNeighbors(new double[] { p.X, p.Y, p.Z }, insV_Amount, r); //The index of the Nearest Point in the PointCloud to Measure To. var indList = ns.ToList(); double D = 0.0; foreach (int idx in indList) { //Distance between Point measured From to Point meassured To. //Point meassured From. Point3d P2 = cloudTo[idx].Location; //Distance betwen Points //double D = fastDist(p, P2); //Cumulative Distance D = D + p.DistanceTo(P2); } //Average distances double aveD = D / indList.Count; //Add Distances to Array. Distances[i] = aveD; } //Enable Parrallel Computing Cancellation po.CancellationToken.ThrowIfCancellationRequested(); } ); //Dispose of Global Clouds. GlobalCloud.Dispose(); pointCloud.Dispose(); //Set OutputCloud NewCloud.UserDictionary.Set(insV_Key, Distances); //Colorize if (insV_Colorize) { List <double> colorValues = Color_Utils.ColorValues_Std_pos(NewCloud, insV_Key); List <Color> Colors = Color_Utils.ColorGradient_Std_GtoR(); Instruction.Instr_Dict_Color col = new Instruction.Instr_Dict_Color(insV_Key, colorValues, Colors, -1, 0.00); Boolean ColResult = col.Execute(ref NewCloud); //Set ColorGradient UserData Color_Utils.Set_ColorGradient_Dict(ref NewCloud, Colors, colorValues); } pointCloud = (PointCloud)NewCloud.Duplicate(); //Dispose of PointCloud Pieces and NewCloud. GlobalCloud.Dispose(); NewCloud.Dispose(); //Return True on Finish return(true); }