/* Copyright (c) 2017, Lars Brubaker, John Lewin All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. The views and conclusions contained in the software and documentation are those of the authors and should not be interpreted as representing official policies, either expressed or implied, of the FreeBSD Project. */ using System; using System.Collections.Generic; using System.Linq; using System.Threading; using System.Threading.Tasks; using MatterHackers.Agg; using MatterHackers.Agg.Platform; using MatterHackers.Agg.UI; using MatterHackers.DataConverters3D; using MatterHackers.DataConverters3D.UndoCommands; using MatterHackers.Localizations; using MatterHackers.MatterControl.DataStorage; using MatterHackers.MatterControl.DesignTools; using MatterHackers.MatterControl.DesignTools.Operations; using MatterHackers.PolygonMesh; using MatterHackers.VectorMath; namespace MatterHackers.MatterControl.PartPreviewWindow { public static class SceneActions { public static List GetSelectedItems(this InteractiveScene scene) { var selectedItem = scene.SelectedItem; var selectedItems = new List(); if (selectedItem != null) { if (selectedItem is SelectionGroupObject3D) { selectedItems = selectedItem.Children.ToList(); } else { selectedItems = new List { selectedItem }; } } return selectedItems; } public static async void UngroupSelection(this InteractiveScene scene) { var selectedItem = scene.SelectedItem; if (selectedItem != null) { bool isGroupItemType = selectedItem.Children.Count > 0; // If not a Group ItemType, look for mesh volumes and split into distinct objects if found if (isGroupItemType) { // Create and perform the delete operation // Store the operation for undo/redo scene.UndoBuffer.AddAndDo(new UngroupCommand(scene, selectedItem)); } else if (!selectedItem.HasChildren() && selectedItem.Mesh != null) { await ApplicationController.Instance.Tasks.Execute( "Ungroup".Localize(), (reporter, cancellationToken) => { var progressStatus = new ProgressStatus(); reporter.Report(progressStatus); // clear the selection scene.SelectedItem = null; progressStatus.Status = "Copy".Localize(); reporter.Report(progressStatus); var ungroupMesh = selectedItem.Mesh.Copy(cancellationToken, (progress0To1, processingState) => { progressStatus.Progress0To1 = progress0To1 * .2; progressStatus.Status = processingState; reporter.Report(progressStatus); }); if(cancellationToken.IsCancellationRequested) { return Task.CompletedTask; } progressStatus.Status = "Clean".Localize(); reporter.Report(progressStatus); ungroupMesh.CleanAndMergeMesh(cancellationToken, 0, (progress0To1, processingState) => { progressStatus.Progress0To1 = .2 + progress0To1 * .3; progressStatus.Status = processingState; reporter.Report(progressStatus); }); if (cancellationToken.IsCancellationRequested) { return Task.CompletedTask; } using (selectedItem.RebuildLock()) { selectedItem.Mesh = ungroupMesh; } // try to cut it up into multiple meshes progressStatus.Status = "Split".Localize(); var discreetMeshes = CreateDiscreteMeshes.SplitVolumesIntoMeshes(ungroupMesh, cancellationToken, (double progress0To1, string processingState) => { progressStatus.Progress0To1 = .5 + progress0To1 * .5; progressStatus.Status = processingState; reporter.Report(progressStatus); }); if (cancellationToken.IsCancellationRequested) { return Task.CompletedTask; } if (discreetMeshes.Count == 1) { // restore the selection scene.SelectedItem = selectedItem; // No further processing needed, nothing to ungroup return Task.CompletedTask; } // build the ungroup list List addItems = new List(discreetMeshes.Select(mesh => new Object3D() { Mesh = mesh, })); foreach(var item in addItems) { item.CopyProperties(selectedItem, Object3DPropertyFlags.All); item.Visible = true; } // add and do the undo data scene.UndoBuffer.AddAndDo(new ReplaceCommand(new List { selectedItem }, addItems)); foreach (var item in addItems) { item.MakeNameNonColliding(); } return Task.CompletedTask; }); } // leave no selection scene.SelectedItem = null; } } public static async void AutoArrangeChildren(this InteractiveScene scene, View3DWidget view3DWidget) { await Task.Run(() => { PlatingHelper.ArrangeOnBed(scene.Children.ToList(), scene, view3DWidget.BedCenter); }); } public static void Cut(this InteractiveScene scene, IObject3D sourceItem = null) { var selectedItem = scene.SelectedItem; if (selectedItem != null) { Clipboard.Instance.SetText("!--IObjectSelection--!"); ApplicationController.ClipboardItem = selectedItem.Clone(); scene.DeleteSelection(); } } public static void Copy(this InteractiveScene scene, IObject3D sourceItem = null) { var selectedItem = scene.SelectedItem; if (selectedItem != null) { Clipboard.Instance.SetText("!--IObjectSelection--!"); ApplicationController.ClipboardItem = selectedItem.Clone(); } } public static void Paste(this InteractiveScene scene) { if (Clipboard.Instance.ContainsText) { if (Clipboard.Instance.GetText() == "!--IObjectSelection--!") { scene.DuplicateItem(ApplicationController.ClipboardItem); } } else if (Clipboard.Instance.ContainsImage) { // Persist string filePath = ApplicationDataStorage.Instance.GetNewLibraryFilePath(".png"); AggContext.ImageIO.SaveImageData( filePath, Clipboard.Instance.GetImage()); scene.UndoBuffer.AddAndDo( new InsertCommand( scene, new ImageObject3D() { AssetPath = filePath })); } } public static async void DuplicateItem(this InteractiveScene scene, IObject3D sourceItem = null) { if (sourceItem == null) { var selectedItem = scene.SelectedItem; if (selectedItem != null) { sourceItem = selectedItem; } } if (sourceItem != null) { // Copy selected item IObject3D newItem = await Task.Run(() => { if (sourceItem != null) { if (sourceItem is SelectionGroupObject3D) { // the selection is a group of objects that need to be copied var copyList = sourceItem.Children.ToList(); scene.SelectedItem = null; foreach(var item in copyList) { var clonedItem = item.Clone(); // make the name unique var newName = agg_basics.GetNonCollidingName(item.Name, scene.DescendantsAndSelf().Select((d) => d.Name)); clonedItem.Name = newName; // add it to the scene scene.Children.Add(clonedItem); // add it to the selection scene.AddToSelection(clonedItem); } } else // the selection can be cloned easily { var clonedItem = sourceItem.Clone(); // make the name unique var newName = agg_basics.GetNonCollidingName(sourceItem.Name, scene.DescendantsAndSelf().Select((d) => d.Name)); clonedItem.Name = newName; // More useful if it creates the part in the exact position and then the user can move it. // Consistent with other software as well. LBB 2017-12-02 //PlatingHelper.MoveToOpenPositionRelativeGroup(clonedItem, Scene.Children); return clonedItem; } } return null; }); // it might come back null due to threading if (newItem != null) { scene.InsertNewItem(newItem); } } } public static void InsertNewItem(this InteractiveScene scene, IObject3D newItem) { // Reposition first item to bed center if (scene.Children.Count == 0) { var printer = ApplicationController.Instance.ActivePrinter; var aabb = newItem.GetAxisAlignedBoundingBox(Matrix4X4.Identity); var center = aabb.Center; newItem.Matrix *= Matrix4X4.CreateTranslation( (printer.Bed.BedCenter.X + center.X), (printer.Bed.BedCenter.Y + center.Y), -aabb.minXYZ.Z); } // Create and perform a new insert operation var insertOperation = new InsertCommand(scene, newItem); insertOperation.Do(); // Store the operation for undo/redo scene.UndoBuffer.Add(insertOperation); } public static void DeleteSelection(this InteractiveScene scene) { var selectedItem = scene.SelectedItem; if (selectedItem != null) { // Create and perform the delete operation var deleteOperation = new DeleteCommand(scene, selectedItem); // Store the operation for undo/redo scene.UndoBuffer.AddAndDo(deleteOperation); scene.ClearSelection(); } } public static void MakeLowestFaceFlat(this InteractiveScene scene, IObject3D objectToLayFlatGroup) { bool firstVertex = true; IObject3D objectToLayFlat = objectToLayFlatGroup; IVertex lowestVertex = null; Vector3 lowestVertexPosition = Vector3.Zero; IObject3D itemToLayFlat = null; // Process each child, checking for the lowest vertex foreach (var itemToCheck in objectToLayFlat.VisibleMeshes()) { var meshToCheck = itemToCheck.Mesh.GetConvexHull(false); if(meshToCheck == null && meshToCheck.Vertices.Count < 3) { continue; } // find the lowest point on the model for (int testIndex = 0; testIndex < meshToCheck.Vertices.Count; testIndex++) { var vertex = meshToCheck.Vertices[testIndex]; Vector3 vertexPosition = Vector3.Transform(vertex.Position, itemToCheck.WorldMatrix()); if (firstVertex) { lowestVertex = meshToCheck.Vertices[testIndex]; lowestVertexPosition = vertexPosition; itemToLayFlat = itemToCheck; firstVertex = false; } else if (vertexPosition.Z < lowestVertexPosition.Z) { lowestVertex = meshToCheck.Vertices[testIndex]; lowestVertexPosition = vertexPosition; itemToLayFlat = itemToCheck; } } } if (lowestVertex == null) { // didn't find any selected mesh return; } PolygonMesh.Face faceToLayFlat = null; double lowestAngleOfAnyFace = double.MaxValue; // Check all the faces that are connected to the lowest point to find out which one to lay flat. foreach (var face in lowestVertex.ConnectedFaces()) { double biggestAngleToFaceVertex = double.MinValue; foreach (IVertex faceVertex in face.Vertices()) { if (faceVertex != lowestVertex) { Vector3 faceVertexPosition = Vector3.Transform(faceVertex.Position, itemToLayFlat.WorldMatrix()); Vector3 pointRelLowest = faceVertexPosition - lowestVertexPosition; double xLeg = new Vector2(pointRelLowest.X, pointRelLowest.Y).Length; double yLeg = pointRelLowest.Z; double angle = Math.Atan2(yLeg, xLeg); if (angle > biggestAngleToFaceVertex) { biggestAngleToFaceVertex = angle; } } } if (biggestAngleToFaceVertex < lowestAngleOfAnyFace) { lowestAngleOfAnyFace = biggestAngleToFaceVertex; faceToLayFlat = face; } } double maxDistFromLowestZ = 0; List faceVertices = new List(); foreach (IVertex vertex in faceToLayFlat.Vertices()) { Vector3 vertexPosition = Vector3.Transform(vertex.Position, itemToLayFlat.WorldMatrix()); faceVertices.Add(vertexPosition); maxDistFromLowestZ = Math.Max(maxDistFromLowestZ, vertexPosition.Z - lowestVertexPosition.Z); } if (maxDistFromLowestZ > .001) { Vector3 xPositive = (faceVertices[1] - faceVertices[0]).GetNormal(); Vector3 yPositive = (faceVertices[2] - faceVertices[0]).GetNormal(); Vector3 planeNormal = Vector3.Cross(xPositive, yPositive).GetNormal(); // this code takes the minimum rotation required and looks much better. Quaternion rotation = new Quaternion(planeNormal, new Vector3(0, 0, -1)); Matrix4X4 partLevelMatrix = Matrix4X4.CreateRotation(rotation); // rotate it objectToLayFlat.Matrix = objectToLayFlatGroup.ApplyAtBoundsCenter(partLevelMatrix); } PlatingHelper.PlaceOnBed(objectToLayFlatGroup); } internal class ArrangeUndoCommand : IUndoRedoCommand { private List allUndoTransforms = new List(); public ArrangeUndoCommand(View3DWidget view3DWidget, List preArrangeTarnsforms, List postArrangeTarnsforms) { for (int i = 0; i < preArrangeTarnsforms.Count; i++) { //allUndoTransforms.Add(new TransformUndoCommand(view3DWidget, i, preArrangeTarnsforms[i], postArrangeTarnsforms[i])); } } public void Do() { for (int i = 0; i < allUndoTransforms.Count; i++) { allUndoTransforms[i].Do(); } } public void Undo() { for (int i = 0; i < allUndoTransforms.Count; i++) { allUndoTransforms[i].Undo(); } } } } }