/// <summary> /// This is the method that actually does the work. /// </summary> /// <param name="DA">The DA object is used to retrieve from inputs and store in outputs.</param> protected override void SolveInstance(IGH_DataAccess DA) { List <Plane> camPlanes = new List <Plane>(); DA.GetDataList <Plane>(0, camPlanes); string folder = string.Empty; DA.GetData <string>(1, ref folder); folder = Path.GetFullPath(folder); if (!folder.EndsWith(Path.DirectorySeparatorChar.ToString())) { folder += Path.DirectorySeparatorChar; } string prefix = string.Empty; DA.GetData <string>(2, ref prefix); int imageWidth = 0; DA.GetData <int>(3, ref imageWidth); imageWidth = imageWidth / 4; Size size = new Size(imageWidth, imageWidth); string displayMode = string.Empty; DA.GetData <string>(4, ref displayMode); bool run = false; DA.GetData <bool>(5, ref run); int pad = camPlanes.Count.ToString().Length; List <string> cubemaps = new List <string>(); ///Save the intial camera saveCam = camFromVP(Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport); ///Set the display mode to be used for bitmaps DisplayModeDescription viewMode = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport.DisplayMode; if (DisplayModeDescription.FindByName(displayMode) != null) { viewMode = DisplayModeDescription.FindByName(displayMode); } Message = viewMode.EnglishName; if (run) { for (int i = 0; i < camPlanes.Count; i++) { ///Setup camera Rhino.Display.RhinoView view = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView; Rhino.Display.RhinoViewport vp = view.ActiveViewport; ///Get the bounding box of all visible object in the doc for use in setting up the camera ///target so that the far frustrum plane doesn't clip anything double zoomDistance = Rhino.RhinoDoc.ActiveDoc.Objects.BoundingBoxVisible.Diagonal.Length; Plane camPlane = camPlanes[i]; Point3d camPoint = camPlane.Origin; Vector3d camDir = camPlane.YAxis; Point3d tarPoint = Transform.Translation(camDir * zoomDistance / 2) * camPoint; vp.ChangeToPerspectiveProjection(false, 12.0); //vp.Size = size; vp.DisplayMode = viewMode; //view.Redraw(); ///Set up final bitmap Bitmap cubemap = new Bitmap(imageWidth * 4, imageWidth * 3); ///Place the images on cubemap bitmap using (Graphics gr = Graphics.FromImage(cubemap)) { ///Grab bitmap ///Set up camera directions Point3d tarLeft = Transform.Translation(-camPlane.XAxis * zoomDistance / 2) * camPoint; Point3d tarFront = Transform.Translation(camPlane.YAxis * zoomDistance / 2) * camPoint; Point3d tarRight = Transform.Translation(camPlane.XAxis * zoomDistance / 2) * camPoint; Point3d tarBack = Transform.Translation(-camPlane.YAxis * zoomDistance / 2) * camPoint; Point3d tarUp = Transform.Translation(camPlane.ZAxis * zoomDistance / 2) * camPoint; Point3d tarDown = Transform.Translation(-camPlane.ZAxis * zoomDistance / 2) * camPoint; List <Point3d> camTargets = new List <Point3d>() { tarLeft, tarFront, tarRight, tarBack, tarUp, tarDown }; ///Loop through pano directions int insertLoc = 0; for (int d = 0; d < 4; d++) { ///Set camera direction vp.SetCameraLocations(camTargets[d], camPoint); ///Redraw //view.Redraw(); gr.DrawImage(view.CaptureToBitmap(size, viewMode), insertLoc, imageWidth); insertLoc = insertLoc + imageWidth; } ///Get up and down views ///Get up view vp.SetCameraLocations(tarUp, camPoint); ///Redraw view.Redraw(); var bmTop = view.CaptureToBitmap(size, viewMode); bmTop.RotateFlip(RotateFlipType.Rotate180FlipNone); gr.DrawImage(bmTop, imageWidth, 0); ///Get down view vp.SetCameraLocations(tarDown, camPoint); ///Redraw view.Redraw(); var bmBottom = view.CaptureToBitmap(size, viewMode); gr.DrawImage(view.CaptureToBitmap(size, viewMode), imageWidth, imageWidth * 2); } ///End cubemap construction loop ///Save cubemap bitmap string s = i.ToString().PadLeft(pad, '0'); string saveText = folder + prefix + "_" + s + ".png"; cubemap.Save(saveText, System.Drawing.Imaging.ImageFormat.Png); cubemaps.Add(saveText); cubemap.Dispose(); } } ///Restore initial camera setCamera(saveCam, Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport); Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.Redraw(); DA.SetDataList(0, cubemaps); }
/// <summary> /// This is the method that actually does the work. /// </summary> /// <param name="DA">The DA object is used to retrieve from inputs and store in outputs.</param> protected override void SolveInstance(IGH_DataAccess DA) { List <Plane> camPlanes = new List <Plane>(); DA.GetDataList <Plane>(0, camPlanes); string folder = string.Empty; DA.GetData <string>(1, ref folder); bool saveCubemaps = !string.IsNullOrEmpty(folder); if (saveCubemaps) { folder = Path.GetFullPath(folder); if (!folder.EndsWith(Path.DirectorySeparatorChar.ToString())) { folder += Path.DirectorySeparatorChar; } } string prefix = string.Empty; DA.GetData <string>(2, ref prefix); int imageWidth = 0; DA.GetData <int>(3, ref imageWidth); imageWidth = imageWidth / 4; Size size = new Size(imageWidth, imageWidth); string displayMode = string.Empty; DA.GetData <string>(4, ref displayMode); List <Color> colors = new List <Color>(); DA.GetDataList <Color>(5, colors); bool filterColors = colors.Any(); GH_Structure <GH_Mesh> ghObstacles = new GH_Structure <GH_Mesh>(); DA.GetDataTree <GH_Mesh>(6, out ghObstacles); ///Flatten obstacle meshes and join them into one mesh ghObstacles.FlattenData(); Mesh obstacles = new Mesh(); bool showRays = false; if (ghObstacles.DataCount > 0) { showRays = true; foreach (var obstacle in ghObstacles) { Mesh temp = new Mesh(); GH_Convert.ToMesh(obstacle, ref temp, GH_Conversion.Primary); obstacles.Append(temp); } } bool run = false; DA.GetData <bool>(7, ref run); int pad = camPlanes.Count.ToString().Length; List <string> cubemaps = new List <string>(); GH_Structure <GH_Line> rayTree = new GH_Structure <GH_Line>(); GH_Structure <GH_Colour> colorTree = new GH_Structure <GH_Colour>(); ///Save the intial camera saveCam = camFromVP(Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport); ///Set the display mode to be used for bitmaps ///TODO: Add menu item to use "Heron View Analysis" display mode DisplayModeDescription viewMode = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport.DisplayMode; if (DisplayModeDescription.FindByName(displayMode) != null) { viewMode = DisplayModeDescription.FindByName(displayMode); } Message = viewMode.EnglishName; if (run) { for (int i = 0; i < camPlanes.Count; i++) { ///TODO: setup ability to save cameras to the Rhino doc ///Setup camera Rhino.Display.RhinoView view = Rhino.RhinoDoc.ActiveDoc.Views.ActiveView; Rhino.Display.RhinoViewport vp = view.ActiveViewport; ///Get the bounding box of all visible object in the doc for use in setting up the camera ///target so that the far frustrum plane doesn't clip anything double zoomDistance = Rhino.RhinoDoc.ActiveDoc.Objects.BoundingBoxVisible.Diagonal.Length; Plane camPlane = camPlanes[i]; Point3d camPoint = camPlane.Origin; Vector3d camDir = camPlane.YAxis; Point3d tarPoint = Transform.Translation(camDir * zoomDistance / 2) * camPoint; vp.ChangeToPerspectiveProjection(false, 12.0); vp.Size = size; vp.DisplayMode = viewMode; //view.Redraw(); ///Set up final bitmap Bitmap cubemap = new Bitmap(imageWidth * 4, imageWidth * 3); ///Place the images on cubemap bitmap using (Graphics gr = Graphics.FromImage(cubemap)) { ///Grab bitmap ///Set up camera directions Point3d tarLeft = Transform.Translation(-camPlane.XAxis * zoomDistance / 2) * camPoint; Point3d tarFront = Transform.Translation(camPlane.YAxis * zoomDistance / 2) * camPoint; Point3d tarRight = Transform.Translation(camPlane.XAxis * zoomDistance / 2) * camPoint; Point3d tarBack = Transform.Translation(-camPlane.YAxis * zoomDistance / 2) * camPoint; Point3d tarUp = Transform.Translation(camPlane.ZAxis * zoomDistance / 2) * camPoint; Point3d tarDown = Transform.Translation(-camPlane.ZAxis * zoomDistance / 2) * camPoint; List <Point3d> camTargets = new List <Point3d>() { tarLeft, tarFront, tarRight, tarBack, tarUp, tarDown }; ///Loop through pano directions int insertLoc = 0; for (int d = 0; d < 4; d++) { ///Set camera direction vp.SetCameraLocations(camTargets[d], camPoint); //view.Redraw(); Bitmap bitmap = new Bitmap(view.CaptureToBitmap(size, viewMode)); if (saveCubemaps) { gr.DrawImage(bitmap, insertLoc, imageWidth); } if (showRays) { GH_MemoryBitmap sampler = new GH_MemoryBitmap(bitmap); Color col = Color.Transparent; for (int x = 0; x < bitmap.Width; x++) { for (int y = 0; y < bitmap.Height; y++) { if (sampler.Sample(x, y, ref col)) { if (colors.Contains(col)) { GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } else if (!filterColors) { colors.Add(col); GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } } } } sampler.Release(false); } insertLoc = insertLoc + imageWidth; bitmap.Dispose(); } ///Get up and down views ///Get up view vp.SetCameraLocations(tarUp, camPoint); view.Redraw(); Bitmap bitmapUp = new Bitmap(view.CaptureToBitmap(size, viewMode)); if (showRays) { GH_MemoryBitmap sampler = new GH_MemoryBitmap(bitmapUp); Color col = Color.Transparent; for (int x = 0; x < bitmapUp.Width; x++) { for (int y = 0; y < bitmapUp.Height; y++) { if (sampler.Sample(x, y, ref col)) { if (colors.Contains(col)) { GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } else if (!filterColors) { colors.Add(col); GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } } } } sampler.Release(false); } bitmapUp.RotateFlip(RotateFlipType.Rotate180FlipNone); if (saveCubemaps) { gr.DrawImage(bitmapUp, imageWidth, 0); } bitmapUp.Dispose(); ///Get down view vp.SetCameraLocations(tarDown, camPoint); view.Redraw(); Bitmap bitmapDown = new Bitmap(view.CaptureToBitmap(size, viewMode)); if (saveCubemaps) { gr.DrawImage(bitmapDown, imageWidth, imageWidth * 2); } if (showRays) { GH_MemoryBitmap sampler = new GH_MemoryBitmap(bitmapDown); Color col = Color.Transparent; for (int x = 0; x < bitmapDown.Width; x++) { for (int y = 0; y < bitmapDown.Height; y++) { if (sampler.Sample(x, y, ref col)) { if (colors.Contains(col)) { GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } else if (!filterColors) { colors.Add(col); GH_Path path = new GH_Path(i, colors.IndexOf(col)); Line line = vp.ClientToWorld(new System.Drawing.Point(x, y)); Ray3d ray = new Ray3d(vp.CameraLocation, -line.Direction); double rayEnd = (double)Rhino.Geometry.Intersect.Intersection.MeshRay(obstacles, ray); Point3d rayIntersection = ray.PointAt(rayEnd); Line ln = new Line(camPoint, rayIntersection); if (ln.IsValid & rayEnd > 0) { rayTree.Append(new GH_Line(ln), path); colorTree.Append(new GH_Colour(col), path); } } } } } sampler.Release(false); } bitmapDown.Dispose(); } ///End pano directions loop if (saveCubemaps) { ///Save cubemap bitmap string s = i.ToString().PadLeft(pad, '0'); string saveText = folder + prefix + "_" + s + ".png"; cubemap.Save(saveText, System.Drawing.Imaging.ImageFormat.Png); cubemaps.Add(saveText); } cubemap.Dispose(); } } ///Restore initial camera setCamera(saveCam, Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport); Rhino.RhinoDoc.ActiveDoc.Views.ActiveView.Redraw(); DA.SetDataList(0, cubemaps); DA.SetDataTree(1, rayTree); DA.SetDataTree(2, colorTree); }