示例#1
0
        static PrintMeshSO emit_new_print_mesh(DMesh3 mesh, DMeshSO fromParent)
        {
            PrintMeshSO newSO = new PrintMeshSO();

            newSO.Create(mesh, CCMaterials.PrintMeshMaterial);
            CCActions.AddNewPrintMesh(newSO);
            if (fromParent != null)
            {
                newSO.SetLocalScale(fromParent.GetLocalScale());
                newSO.SetLocalFrame(fromParent.GetLocalFrame(CoordSpace.SceneCoords), CoordSpace.SceneCoords);
            }
            else
            {
                throw new NotImplementedException("have not implemented this path yet...");
                // estimate frame??
            }

            return(newSO);
        }
示例#2
0
        public static void DuplicateSelectedObjects(bool bInteractive)
        {
            List <SceneObject> duplicate = new List <SceneObject>(CC.ActiveScene.Selected);

            foreach (var existingSO in duplicate)
            {
                if (existingSO is PrintMeshSO == false)
                {
                    throw new NotSupportedException("CCActions.DuplicateSelectedObjects: currently can only delete print meshes?");
                }

                PrintMeshSO dupeSO = (existingSO as PrintMeshSO).DuplicateSubtype <PrintMeshSO>();
                dupeSO.Name = UniqueNames.GetNext(existingSO.Name);
                AddNewPrintMesh(dupeSO);

                // If we have multi-select, then we duplicated relative to a transient group that will
                // go away. So, update position using scene coords
                if (existingSO.Parent is FScene == false)
                {
                    var sceneF = existingSO.GetLocalFrame(CoordSpace.SceneCoords);
                    dupeSO.SetLocalFrame(sceneF, CoordSpace.SceneCoords);
                    Vector3f scaleL = existingSO.GetLocalScale();
                    Vector3f scaleS = SceneTransforms.ObjectToSceneV(existingSO, scaleL);
                    float    scale  = scaleS.Length / scaleL.Length;
                    dupeSO.SetLocalScale(scale * Vector3f.One);
                }

                if (dupeSO.CanAutoUpdateFromSource() && dupeSO.AutoUpdateOnSourceFileChange == true)
                {
                    CC.FileMonitor.AddMesh(dupeSO);
                }
            }
            if (bInteractive)
            {
                CC.ActiveScene.History.PushInteractionCheckpoint();
            }
        }
示例#3
0
        async Task complete_import(string sFilename, DMesh3Builder builder, Action <string> onCompletedF)
        {
            AxisAlignedBox3d bounds = AxisAlignedBox3d.Empty;

            foreach (DMesh3 mesh in builder.Meshes)
            {
                bounds.Contain(mesh.CachedBounds);
            }
            Vector3d centerPt = bounds.Center;
            Vector3d basePt   = centerPt - bounds.Height * 0.5f * Vector3d.AxisY;

            Vector3d vTranslate = basePt;
            await Task.Run(() => {
                foreach (DMesh3 mesh in builder.Meshes)
                {
                    MeshTransforms.Translate(mesh, -vTranslate);
                }
            });

            bool     bFirst        = (CC.Objects.PrintMeshes.Count == 0);
            Vector3d postTranslate = Vector3d.Zero;

            switch (CCPreferences.ImportTransformMode)
            {
            case CCPreferences.ImportTransformModes.AutoCenterAll:
                break;

            case CCPreferences.ImportTransformModes.AutoCenterFirst:
                if (bFirst)
                {
                    CCState.SceneImportTransform = vTranslate;
                }
                postTranslate = vTranslate - CCState.SceneImportTransform;
                break;

            case CCPreferences.ImportTransformModes.NoAutoCenter:
                postTranslate = vTranslate;
                break;
            }

            // compact input meshes
            await Task.Run(() => {
                gParallel.ForEach(builder.Meshes, (mesh) => {
                    MeshEditor.RemoveUnusedVertices(mesh);
                });
                gParallel.ForEach(Interval1i.Range(builder.Meshes.Count), (k) => {
                    if (builder.Meshes[k].IsCompact == false)
                    {
                        builder.Meshes[k] = new DMesh3(builder.Meshes[k], true);
                    }
                });
            });

            string sBaseName = Path.GetFileNameWithoutExtension(sFilename);

            foreach (DMesh3 mesh in builder.Meshes)
            {
                PrintMeshSO meshSO = new PrintMeshSO();
                meshSO.Create(mesh, CCMaterials.PrintMeshMaterial);
                meshSO.UpDirection = UpDirection.ZUp;

                Frame3f f = meshSO.GetLocalFrame(CoordSpace.ObjectCoords);
                f.Origin = f.Origin + (Vector3f)postTranslate;
                meshSO.SetLocalFrame(f, CoordSpace.ObjectCoords);

                // if only one mesh, we can keep a reference
                if (builder.Meshes.Count == 1)
                {
                    meshSO.SourceFilePath        = sFilename;
                    meshSO.LastReadFileTimestamp = File.GetLastWriteTime(SourceFilePath).Ticks;
                }

                meshSO.Name = UniqueNames.GetNext(sBaseName);

                CCActions.AddNewPrintMesh(meshSO);
            }

            if (onCompletedF != null)
            {
                onCompletedF(sFilename);
            }
        }