Exemple #1
0
        private void CreateRandomScene()
        {
            SceneObjectsContainer.Children.Clear();

            for (int i = 0; i < 10; i++)
            {
                // Create simple box that user will be able to rotate
                // In order to support rotation, we need to create the box at (0,0,0)
                // and then after performing rotation, translate the object to its final location.
                // If we would create the object at its final rotation (basically applying translation before rotation),
                // then the box would not be rotated around its center but around the coordinate axes center.
                var boxModel = new Ab3d.UIElements.BoxUIElement3D()
                {
                    CenterPosition = new Point3D(0, 0, 0),
                    Size           = new Size3D(50, 20, 50),
                    Material       = _normalMaterial
                };


                // Create a StandardTransform3D
                // StandardTransform3D is a class that generates a MatrixTransform3D based on the translate, rotate and scale transform.
                // Note that because it is not possible to derive from WPF's Transform3D, the StandardTransform3D is a standalone class
                // that provides its own MatrixTransform3D object that can be assigned to the 3D model.
                // Its static SetStandardTransform3D and GetStandardTransform3D use a custom StandardTransform3DProperty
                // to "attach" the StandardTransform3D object to Model3D or Visual3D. But this does not automatically set the
                // object's transformation.
                var standardTransform3D = new StandardTransform3D()
                {
                    TranslateX = _rnd.NextDouble() * 400 - 200,
                    TranslateY = _rnd.NextDouble() * 40 - 20,
                    TranslateZ = _rnd.NextDouble() * 400 - 200,
                };

                // SetStandardTransform3D method will set the StandardTransform3DProperty to the standardTransform3D
                // The updateTransform3D argument will also set the boxModel.Transform to standardTransform3D.Transform
                StandardTransform3D.SetStandardTransform3D(boxModel, standardTransform3D, updateTransform3D: true);


                SceneObjectsContainer.Children.Add(boxModel);


                // Use EventManager from Ab3d.PowerToys to add support for click event on the box model
                var visualEventSource3D = new Ab3d.Utilities.VisualEventSource3D(boxModel);
                visualEventSource3D.MouseClick += delegate(object sender, MouseButton3DEventArgs e)
                {
                    var selectedBoxModel = e.HitObject as Ab3d.UIElements.BoxUIElement3D;
                    SelectObject(selectedBoxModel);
                };

                _eventManager.RegisterEventSource3D(visualEventSource3D);


                // Automatically select first box
                if (_selectedBoxModel == null)
                {
                    boxModel.Refresh(); // Force creating the model
                    SelectObject(boxModel);
                }
            }
        }
Exemple #2
0
        private void ShowWireframeDuck()
        {
            _standardTransform3D = new StandardTransform3D();

            WireframeDuckVisual3D.OriginalModel = _duckModel3D.Clone();
            WireframeDuckVisual3D.IsVisible     = true;

            StandardTransform3D.SetStandardTransform3D(WireframeDuckVisual3D, _standardTransform3D, updateTransform3D: true);

            TransformEditor.StandardTransform3D = _standardTransform3D;

            _selectedVisual3D = WireframeDuckVisual3D;
        }
        public StandardTransformSample()
        {
            InitializeComponent();

            // Read a teapot from wpf3d file
            string fileName = System.IO.Path.Combine(AppDomain.CurrentDomain.BaseDirectory, @"Resources\wpf3d\teapot-hires.wpf3d");

            var wpf3DFile     = new Ab3d.Utilities.Wpf3DFile();
            var teapotModel3D = wpf3DFile.ReadFile(fileName);

            Ab3d.Utilities.ModelUtils.ChangeMaterial(teapotModel3D, new DiffuseMaterial(Brushes.Gold), newBackMaterial: null);


            // Create a single StandardTransform3D that will be able to translate, rotate and scale the read teapot.

            _standardTransform3D = new StandardTransform3D();

            // We could also create a new StandardTransform3D with some initial transformations:
            //_standardTransform3D = new StandardTransform3D()
            //{
            //    RotateY = 30,
            //    TranslateX = 100,
            //    ScaleX = 1.3
            //};

            // To assign the _standardTransform3D to teapotModel3D we use the static SetStandardTransform3D method
            StandardTransform3D.SetStandardTransform3D(teapotModel3D, _standardTransform3D, updateTransform3D: true);

            // In some other location in the application we can read the StandardTransform3D from the teapotModel3D by:
            //var standardTransform3D = StandardTransform3D.GetStandardTransform3D(teapotModel3D);


            // Assign the _standardTransform3D to the editor control:
            TransformEditor.StandardTransform3D = _standardTransform3D;


            var contentVisual3D = teapotModel3D.CreateContentVisual3D();

            MainViewport.Children.Add(contentVisual3D);


            _rnd = new Random();
        }
Exemple #4
0
        private void GenerateRandomDucks(int ducksCount)
        {
            var rnd = new Random();

            double  lakeRadius = LakeCircleVisual3D.Radius;
            Point3D lakeCenter = LakeCircleVisual3D.CenterPosition;

            _duckModels = new List <ModelVisual3D>(ducksCount);
            RootDucksVisual3D.Children.Clear();

            for (int i = 0; i < ducksCount; i++)
            {
                bool findNewPosition;

                do
                {
                    var position = new Point3D(rnd.NextDouble() * lakeRadius * 2 - lakeRadius,
                                               0,
                                               rnd.NextDouble() * lakeRadius * 2 - lakeRadius);

                    // If position is outside of 80% of lake radius
                    double distanceToLakeCenter = (position - lakeCenter).Length;
                    findNewPosition = distanceToLakeCenter > (lakeRadius * 0.8);

                    if (!findNewPosition)
                    {
                        // Now check if too close to any other duck
                        foreach (var duckModel in _duckModels)
                        {
                            var standardTransform3D = StandardTransform3D.GetStandardTransform3D(duckModel);

                            var distanceToDuck = (position - standardTransform3D.GetTranslateVector3D().ToPoint3D()).Length;
                            if (distanceToDuck < DuckSize * 4)
                            {
                                findNewPosition = true;
                                break;
                            }
                        }
                    }

                    if (!findNewPosition)
                    {
                        // The position is ok

                        double scale = rnd.NextDouble() + 1;

                        var standardTransform3D = new StandardTransform3D()
                        {
                            TranslateX = position.X,
                            TranslateY = position.Y,
                            TranslateZ = position.Z,

                            RotateY = rnd.NextDouble() * 360,

                            ScaleX = scale,
                            ScaleY = scale,
                            ScaleZ = scale
                        };

                        var duckVisual3D = new ModelVisual3D()
                        {
                            Content = _duckModel3D,
                        };

                        StandardTransform3D.SetStandardTransform3D(duckVisual3D, standardTransform3D, updateTransform3D: true);


                        _duckModels.Add(duckVisual3D);
                        RootDucksVisual3D.Children.Add(duckVisual3D);


                        var visualEventSource3D = new VisualEventSource3D(duckVisual3D);
                        visualEventSource3D.MouseEnter += OnDuckMouseEnter;
                        visualEventSource3D.MouseLeave += OnDuckMouseLeave;
                        visualEventSource3D.MouseDown  += OnDuckMouseDown;
                        visualEventSource3D.MouseUp    += OnDuckMouseUp;

                        _eventManager3D.RegisterEventSource3D(visualEventSource3D);
                    }
                } while (findNewPosition);
            }
        }