void polygon_MouseLeftButtonDown(object sender, MouseButtonEventArgs e)
{
Vector2 point = new Vector2((float)(e.GetPosition(_parentCanvas).X), (float)(e.GetPosition(_parentCanvas).Y));
_pickedSprite = (sender as PhysicsSprite);
_pickedSprite.CaptureMouse();
if (MousePickEnabled)
{
if (_pickedSprite != null)
{
_mousePickSpring = ControllerFactory.Instance.CreateFixedLinearSpring(Simulator, _pickedSprite.BodyObject, _pickedSprite.BodyObject.GetLocalPosition(point), point, 10, 5);
_lineShowSpring.X1 = point.X;
_lineShowSpring.Y1 = point.Y;
_lineShowSpring.X2 = point.X;
_lineShowSpring.Y2 = point.Y;
_lineShowSpring.Visibility = Visibility.Visible;
e.Handled = true;
}
}
if (MouseLeftButtonDown != null)
{
MouseLeftButtonDown(_pickedSprite.Name);
}
}
public static Vector2 GetOffsetPositionInScreen(PhysicsSprite spr)
{
Vector2 offset = new Vector2();
offset.X = (float)Canvas.GetLeft(spr);
offset.Y = (float)Canvas.GetTop(spr);
SysWinF.FrameworkElement parent = spr.Parent as SysWinF.FrameworkElement;
while (parent != null)
{
offset.X += (float)Canvas.GetLeft(parent);
offset.Y += (float)Canvas.GetTop(parent);
if (parent is PhysicsCanvas)
{
// we found the top canvas, break here.
break;
}
parent = parent.Parent as SysWinF.FrameworkElement;
}
return offset;
}
private void FingerCollision(PhysicsSprite source, string collidedWith)
{
Debug.WriteLine(collidedWith);
if (collidedWith != "player") return;
_touchingPlayer = true;
//Debug.WriteLine("touchingPlayer");
target.Stroke = new SolidColorBrush(Colors.Red);
target.SetValue(Canvas.TopProperty, _player.Position.Y - (target.Height /2));
target.SetValue(Canvas.LeftProperty, _player.Position.X - (target.Width / 2));
}
private void SetupTarget()
{
if (Controller == null || !Controller.PhysicsObjects.Keys.Contains(Target))
{
return;
}
_targetElement = Controller.PhysicsObjects[Target];
// try to find a scale transform
if (_parentCanvas.RenderTransform != null && _parentCanvas.RenderTransform is TransformGroup)
{
foreach (Transform trn in (_parentCanvas.RenderTransform as TransformGroup).Children)
{
if (trn is ScaleTransform)
{
_scaleTransform = trn as ScaleTransform;
}
if (trn is TranslateTransform)
{
_translateTransform = trn as TranslateTransform;
}
}
}
if (_parentCanvas.RenderTransform is ScaleTransform)
{
_scaleTransform = _parentCanvas.RenderTransform as ScaleTransform;
}
if (_parentCanvas.RenderTransform is TranslateTransform)
{
_translateTransform = _parentCanvas.RenderTransform as TranslateTransform;
}
// last ditch effort: if we did not find the transforms we need, then add them in.
if (_translateTransform == null)
{
_translateTransform = new TranslateTransform();
if (_parentCanvas.RenderTransform == null || !(_parentCanvas.RenderTransform is TransformGroup))
{
_parentCanvas.RenderTransform = new TransformGroup();
}
(_parentCanvas.RenderTransform as TransformGroup).Children.Add(_translateTransform);
}
if (_scaleTransform == null)
{
_scaleTransform = new ScaleTransform();
(_parentCanvas.RenderTransform as TransformGroup).Children.Add(_scaleTransform);
}
}
/// <summary>
/// Adds a single XAML element into the Physics simulation.
/// </summary>
/// <param name="cnvContainer">The container to add items from.</param>
public PhysicsSprite AddPhysicsBody(UIElement element, UIElement boundaryElement)
{
string thisName = element.GetValue(Canvas.NameProperty).ToString();
element.SetValue(Canvas.TagProperty, thisName);
// special case: if we are adding a UserControl _AND_ the UserControl contains one or more
// Physics Controllers, then we handle that UserControl as a "nested" canvas!
if (element is UserControl)
{
Canvas cnvNestedPhysics = FindPhysicsCanvas(element as UserControl);
if (cnvNestedPhysics != null)
{
EnsureUniqueNames(cnvNestedPhysics);
AddPhysicsBodyForCanvas(cnvNestedPhysics);
return(null);
}
}
// look to see if we have processed this object before, and if so,
// use its point collection instead of recalculating
List <Point> points = FindMatchingUIElement(element);
string nameKey = (string)element.GetValue(Canvas.NameProperty);
PhysicsSprite polygon = new PhysicsSprite(Simulator, _parentCanvas, element, points, DebugMode, (float)FrictionDefault, boundaryElement);
polygon.Name = nameKey;
if (polygon.OutlinePoints != null)
{
polygon.Collision += new PhysicsSprite.CollisionHandler(polygon_Collision);
_parentCanvas.Children.Add(polygon);
PhysicsObjects.Add(polygon.Name, polygon);
polygon.Update();
}
//if (MousePickEnabled)
//{
polygon.MouseLeftButtonDown += new MouseButtonEventHandler(polygon_MouseLeftButtonDown);
polygon.MouseLeftButtonUp += new MouseButtonEventHandler(polygon_MouseLeftButtonUp);
polygon.MouseMove += new MouseEventHandler(polygon_MouseMove);
//}
return(polygon);
}
public void AddFluidContainer(FluidContainerMain fluidContainerMain)
{
double x = Convert.ToDouble(fluidContainerMain.VisualElement.GetValue(Canvas.LeftProperty));
double y = Convert.ToDouble(fluidContainerMain.VisualElement.GetValue(Canvas.TopProperty));
float width = (float)fluidContainerMain.VisualElement.ActualWidth;
float height = (float)fluidContainerMain.VisualElement.ActualHeight;
WaveController waveController = fluidContainerMain.WaveControllerObject;
waveController.Position = new Vector2((float)x, (float)y);
waveController.Width = width;
waveController.Height = height;
waveController.NodeCount = fluidContainerMain.NodeCount;
waveController.DampingCoefficient = (float)fluidContainerMain.DampingCoefficient;
waveController.Frequency = (float)fluidContainerMain.Frequency;
waveController.WaveGeneratorMax = (float)fluidContainerMain.WaveGeneratorMax;
waveController.WaveGeneratorMin = (float)fluidContainerMain.WaveGeneratorMin;
waveController.WaveGeneratorStep = (float)fluidContainerMain.WaveGeneratorStep;
waveController.Initialize();
Vector2 vecTopLeft = new Vector2((float)x, (float)y);
Vector2 vecBottomRight = new Vector2((float)x + width, (float)y + height);
AABB waterAABB = new AABB(vecTopLeft, vecBottomRight);
AABBFluidContainer waterContainer = new AABBFluidContainer(waterAABB);
FluidDragController fluidDragController = new FluidDragController();
foreach (KeyValuePair <string, PhysicsSprite> item in PhysicsObjects)
{
PhysicsSprite sprite = item.Value;
fluidDragController.AddGeom(sprite.GeometryObject);
}
fluidDragController.Initialize(waterContainer, (float)fluidContainerMain.FluidDensity, (float)fluidContainerMain.LinearDragCoefficient, (float)fluidContainerMain.RotationalDragCoefficient, new Vector2((float)fluidContainerMain.GravityHorizontal, (float)fluidContainerMain.GravityVertical));
Simulator.Add(fluidDragController);
}
void polygon_MouseLeftButtonUp(object sender, MouseButtonEventArgs e)
{
if (_pickedSprite != null)
{
_pickedSprite.ReleaseMouseCapture();
}
if (_mousePickSpring != null && _mousePickSpring.IsDisposed == false)
{
_mousePickSpring.Dispose();
_mousePickSpring = null;
_lineShowSpring.Visibility = Visibility.Collapsed;
e.Handled = true;
}
if (MouseLeftButtonUp != null && _pickedSprite != null)
{
MouseLeftButtonUp(_pickedSprite.Name);
}
_pickedSprite = null;
}
/// <summary>
/// Validates a <see cref="PhysicsSprite"/>.
/// </summary>
/// <param name="physicSprite">The physic sprite.</param>
static void ValidatePhysicSprite(PhysicsSprite physicSprite)
{
Check.NotNull(physicSprite, "physicSprite");
if (physicSprite.BodyObject == null)
throw new InvalidOperationException("BodyObject is not initialized");
}
void CompositionTarget_Rendering(object sender, EventArgs e)
{
if (!Enabled)
{
return;
}
double currentTargetXOffset = 0, currentTargetYOffset = 0;
double currentScreenCenterX, currentScreenCenterY;
currentScreenCenterX = (_parentCanvas.ActualWidth / 2) / _scaleTransform.ScaleX;
currentScreenCenterY = (_parentCanvas.ActualHeight / 2) / _scaleTransform.ScaleY;
if (Target != string.Empty && ScrollEnabled)
{
if (!Controller.PhysicsObjects.Keys.Contains(Target))
{
return;
}
_targetElement = Controller.PhysicsObjects[Target];
currentTargetXOffset = _targetElement.BodyObject.Position.X;
currentTargetYOffset = _targetElement.BodyObject.Position.Y;
if (TargetOverrideX != 0)
{
currentTargetXOffset = TargetOverrideX; // use the override X instead of the Target X
}
else
{
currentTargetXOffset += _targetElement.Width / 2; // use the center position of the Target
}
if (TargetOverrideY != 0)
{
currentTargetYOffset = TargetOverrideY; // use the override Y instead of the Target Y
}
else
{
currentTargetYOffset += _targetElement.Height / 2; // use the center position of the Target
}
if (ScrollSpeed == 0)
{
// just scroll directly to target
_translateTransform.X = currentScreenCenterX - (_relativeTranslateX + currentTargetXOffset);
_translateTransform.Y = currentScreenCenterY - (_relativeTranslateY + currentTargetYOffset);
}
else
{
// do a gradual scroll
double diffX = (_relativeTranslateX + currentTargetXOffset) - currentScreenCenterX;
double diffY = (_relativeTranslateY + currentTargetYOffset) - currentScreenCenterY;
if (Math.Abs(diffX) > CenteringThreshold)
{
if (diffX > 0)
{
_relativeTranslateX -= ScrollSpeed;
}
else
{
_relativeTranslateX += ScrollSpeed;
}
}
if (Math.Abs(diffY) > CenteringThreshold)
{
if (diffY > 0)
{
_relativeTranslateY -= ScrollSpeed;
}
else
{
_relativeTranslateY += ScrollSpeed;
}
}
if (ScrollX)
{
_translateTransform.X = (_relativeTranslateX);
}
if (ScrollY)
{
_translateTransform.Y = (_relativeTranslateY);
}
}
// Now do the Zoom
if (ZoomEnabled)
{
double targetZoom = ZoomPercentage / 100;
double currentZoom = _scaleTransform.ScaleX;
// allow a threshold of zoomspeed
if (ZoomSpeed == 0)
{
// just zoom directly to target
_scaleTransform.ScaleX = targetZoom;
_scaleTransform.ScaleY = targetZoom;
}
else
if (Math.Abs(currentZoom - targetZoom) > ZoomSpeed)
{
// zooming out
if (currentZoom > targetZoom)
{
_scaleTransform.ScaleX -= ZoomSpeed;
_scaleTransform.ScaleY -= ZoomSpeed;
if (_scaleTransform.ScaleX < -1)
{
_scaleTransform.ScaleX = -1;
_scaleTransform.ScaleY = -1;
}
}
else
{
_scaleTransform.ScaleX += ZoomSpeed;
_scaleTransform.ScaleY += ZoomSpeed;
}
}
}
}
// update any parallax layers
foreach (ParallaxLayer layer in ParallaxLayers)
{
layer.Z = layer.Z;
double x = Convert.ToDouble(layer.CanvasContainer.GetValue(Canvas.LeftProperty));
double y = Convert.ToDouble(layer.CanvasContainer.GetValue(Canvas.TopProperty));
double zChange = 1 / Math.Abs(layer.Z);
double newX, newY;
newX = -_translateTransform.X;
newY = -_translateTransform.Y;
// compensate for camera
newX = newX + (zChange * _translateTransform.X);
newY = newY + (zChange * _translateTransform.Y);
layer.TransformPosition.X = newX;
layer.TransformPosition.Y = newY;
}
}
PhysicsSprite CreateSprite(string name)
{
var sprite = new PhysicsSprite()
{
IsStatic = true,
Background = ModernBlueBrush,
Name = name,
};
UIHelper.ExecuteOnLoad(sprite,
(x) =>
{
if (x.BodyObject != null)
{
x.BodyObject.CollisionCategories = FarseerPhysics.Dynamics.Category.All;
}
});
this.Children.Add(sprite);
return sprite;
}
private void PhysicObject_MousePickStarted(PhysicsSprite source, Microsoft.Xna.Framework.Vector2 ptMoveStart)
{
// Show the contact card.
this.ContactCard.Visibility = Visibility.Visible;
//Canvas.SetLeft(this, ptMoveStart.X);
//Canvas.SetTop(this, ptMoveStart.Y);
}
public PhysicsSprite AddPhysicsBody(PhysicsObjectMain physObject)
{
FrameworkElement element = physObject.VisualElement;
string thisName = element.GetValue(Canvas.NameProperty).ToString();
element.SetValue(Canvas.TagProperty, thisName);
// special case: if we are adding a UserControl _AND_ the UserControl contains one or more
// Physics Controllers, then we handle that UserControl as a "nested" canvas!
if (BoundaryHelper.IsInsideNestedUsercontrol(element)) //element is UserControl)
{
UserControl ucParent = BoundaryHelper.GetParentUserControl(element);
Canvas cnvNestedPhysics = FindPhysicsCanvas(ucParent);
if (cnvNestedPhysics != null)
{
EnsureUniqueNames(cnvNestedPhysics);
if (element is UserControl)
{
AddPhysicsBodyForCanvasWithBehaviors(cnvNestedPhysics);
return(null);
}
}
}
// look to see if we have processed this object before, and if so,
// use its point collection instead of recalculating
List <Point> points = FindMatchingUIElement(element);
string nameKey = (string)element.GetValue(Canvas.NameProperty);
FrameworkElement boundaryElement = null;
if (physObject.BoundaryElement != null && physObject.BoundaryElement != string.Empty)
{
boundaryElement = element.FindName(physObject.BoundaryElement) as FrameworkElement;
}
if (nameKey == string.Empty)
{
nameKey = GetUniqueSpriteName();
element.Name = nameKey;
}
PhysicsSprite sprite = new PhysicsSprite(Simulator, _parentCanvas, element, points, DebugMode, (float)FrictionDefault, boundaryElement);
sprite.Name = nameKey;
if (sprite.OutlinePoints != null)
{
sprite.Collision += new PhysicsSprite.CollisionHandler(polygon_Collision);
_parentCanvas.Children.Add(sprite);
PhysicsObjects.Add(sprite.Name, sprite);
sprite.Update();
}
sprite.MouseLeftButtonDown += new MouseButtonEventHandler(polygon_MouseLeftButtonDown);
sprite.MouseLeftButtonUp += new MouseButtonEventHandler(polygon_MouseLeftButtonUp);
sprite.MouseMove += new MouseEventHandler(polygon_MouseMove);
sprite.GeometryObject.CollisionGroup = physObject.CollisionGroup;
sprite.BodyObject.IsStatic = physObject.IsStatic;
if (physObject.RestitutionCoefficient != 0)
{
sprite.GeometryObject.RestitutionCoefficient = (float)physObject.RestitutionCoefficient;
}
if (physObject.FrictionCoefficient != 0)
{
sprite.GeometryObject.FrictionCoefficient = (float)physObject.FrictionCoefficient;
}
if (physObject.MomentOfIntertia != 0)
{
sprite.BodyObject.MomentOfInertia = (float)physObject.MomentOfIntertia;
}
if (physObject.Mass != 0)
{
sprite.BodyObject.Mass = (float)physObject.Mass;
}
return(sprite);
}
public static string EnsureUniqueName(Canvas cnv, PhysicsSprite sprToAdd, string name)
{
int suffix = 1;
string thisName = name;
Object possibleMatch = cnv.FindName(name);
while (possibleMatch != null && possibleMatch != sprToAdd)
{
name = thisName + "_" + suffix.ToString();
suffix++;
possibleMatch = cnv.FindName(name);
}
return name;
}
private void RemoveBorders()
{
foreach (var border in _borders)
{
this.DeletePhysicsObject(border.Name);
}
_ground = null;
_leftBorder = null;
_topBorder = null;
_rightBorder = null;
_borders.Clear();
}
/// <summary>
/// Adds a single Physics Sprite into the Physics simulation.
/// </summary>
/// <param name="cnvContainer">The container to add items from.</param>
public PhysicsSprite AddPhysicsSprite(PhysicsSprite element, bool enablePhysics)
{
if (enablePhysics)
{
string thisName = element.GetValue(Canvas.NameProperty).ToString();
element.SetValue(Canvas.TagProperty, thisName); // save original name in tag
if ((element.Parent as Panel).Children.IndexOf(element) < 0)
throw new Exception("Could not find element " + thisName + " in the parent");
(element.Parent as Panel).Children.Remove(element);
thisName = PhysicsUtilities.EnsureUniqueName(this, element, thisName); // get a unique name in the game canvas
element.Name = thisName;
//PhysicsUtilities.DebugVisualTree(this, 1);
this.Children.Add(element);
PhysicsObjects.Add(thisName, element);
element.Update();
element.Collision += new PhysicsSprite.CollisionHandler(polygon_Collision);
}
if (MousePickEnabled)
{
element.MousePickEnabled = true;
}
return element;
}
private void PhysicsControllerInitialized(object source)
{
_player = _physicsController.PhysicsObjects["player"];
_physicsController.TimerLoop += PhysicsControllerTimerLoop;
//var branch = _physicsController.PhysicsObjects["branch"];
//branch.DoubleTap += BranchDoubleTap;
}
void polygon_Collision(PhysicsSprite source, string spriteCollided, Contact contact)
{
// for now we just STORE the collision because we
// cannot destroy or inactivate things during a FP3 Step operation!
if (Collision != null && this.PhysicsObjects.Keys.Contains(spriteCollided))
{
PhysicsSprite sprite2 = this.PhysicsObjects[spriteCollided];
CollisionStore.AddCollision(source, sprite2, contact);
if (PhysicsObjects.Keys.Contains(source.Name) == false)
throw new Exception("sprite " + source.Name + " is not in the list of sprites");
if (PhysicsObjects.Keys.Contains(sprite2.Name) == false)
throw new Exception("sprite " + sprite2.Name + " is not in the list of sprites");
}
}
void SetSize(PhysicsSprite sprite, double width, double height)
{
if (sprite == null)
return;
sprite.Width = width;
sprite.Height = height;
}
void SetPosition(PhysicsSprite sprite, double x, double y)
{
if (sprite == null)
return;
//Canvas.SetLeft(sprite, x);
//Canvas.SetTop(sprite, y);
//double offsetX = (x + (sprite.Width / 2d));
//double offsetY = (y + (sprite.Height / 2d));
sprite.SetPosition(x, y);
}
public CollisionInstance(PhysicsSprite sprite1, PhysicsSprite sprite2, Contact contact)
{
Sprite1 = sprite1;
Sprite2 = sprite2;
Contact = contact;
}
/// <summary>
/// Gets a list of all joint-related sprites, given a sprite.
/// </summary>
public static void GetAllSpritesRelatedByJoints(PhysicsCanvas cnvGame, PhysicsSprite spr, List<PhysicsSprite> sprJoined)
{
// add in the given sprite
if (sprJoined.IndexOf(spr) < 0)
sprJoined.Add(spr);
foreach (Joint joint in cnvGame.Simulator.JointList)
{
if (joint.BodyA == spr.BodyObject || joint.BodyB == spr.BodyObject)
{
var spritesJoined = from s in cnvGame.PhysicsObjects.Values
where s.BodyObject == joint.BodyA || s.BodyObject == joint.BodyB
&& (joint.BodyA.Enabled == true && joint.BodyB.Enabled == true)
select s;
foreach (PhysicsSprite sprFound in spritesJoined)
{
if (sprJoined.IndexOf(sprFound) < 0)
{
GetAllSpritesRelatedByJoints(cnvGame, sprFound, sprJoined);
}
}
}
}
}
public static void AddCollision(PhysicsSprite sprite1, PhysicsSprite sprite2, Contact contact)
{
Collisions.Add(new CollisionInstance(sprite1, sprite2, contact));
}
private void InitializeBorders()
{
// Set category to border elements
//Action<PhysicsSprite> setCategoryToAll = new Action<PhysicsSprite>((sprite) =>
//{
// sprite.BodyObject.CollisionCategories = FarseerPhysics.Dynamics.Category.All;
//});
// Add physic borders
_ground = CreateSprite("PART_Ground");
_borders.Add(_ground);
//this.Children.Add(_ground);
//UIHelper.ExecuteOnLoad(_ground, setCategoryToAll);
_leftBorder = CreateSprite("PART_LeftBorder");
_borders.Add(_leftBorder);
//this.Children.Add(_leftBorder);
//UIHelper.ExecuteOnLoad(_leftBorder, setCategoryToAll);
_rightBorder = CreateSprite("PART_RightBorder");
_borders.Add(_rightBorder);
//this.Children.Add(_rightBorder);
//UIHelper.ExecuteOnLoad(_rightBorder, setCategoryToAll);
_topBorder = CreateSprite("PART_TopBorder");
_borders.Add(_topBorder);
//this.Children.Add(_topBorder);
//UIHelper.ExecuteOnLoad(_topBorder, setCategoryToAll);
}
/// <summary>
/// Create a path object based on a list of vertices - used when creating geometry
/// </summary>
public static UIShapes.Shape CreatePathFromVertices(Body body, PhysicsSprite element, WinUI.Color colorFill)
{
List<Fixture> vertices = body.FixtureList;
// is this an ellipse?
if (vertices[0].Shape is CircleShape)
{
CircleShape cs = vertices[0].Shape as CircleShape;
UIShapes.Ellipse el = new UIShapes.Ellipse();
Vector2 screenSize = PhysicsCanvas.BoundaryHelper.WorldSizeToScreenSize(new Vector2(cs.Radius * 2, cs.Radius * 2));
el.Width = screenSize.X;
el.Height = screenSize.Y;
el.Stroke = new SysWinMedia.SolidColorBrush(new WinUI.Color() { A = 255, R = 76, G = 108, B = 76 });
el.StrokeThickness = 4;
el.StrokeStartLineCap = SysWinMedia.PenLineCap.Round;
el.Fill = new SysWinMedia.SolidColorBrush(colorFill);
return el;
}
else
{
UIShapes.Path path = new UIShapes.Path();
path.Stroke = new SysWinMedia.SolidColorBrush(new WinUI.Color() { A = 255, R = 76, G = 108, B = 76 });
path.StrokeThickness = 4;
path.StrokeStartLineCap = SysWinMedia.PenLineCap.Round;
path.Fill = new SysWinMedia.SolidColorBrush(colorFill);
SysWinMedia.PathGeometry pathGeom = new SysWinMedia.PathGeometry();
SysWinMedia.PathFigureCollection figures = new SysWinMedia.PathFigureCollection();
pathGeom.Figures = figures;
double halfWidth = element.Width / 2d;
double halfHeight = element.Height / 2d;
if (halfWidth == 0) halfWidth = element.ActualWidth / 2d;
if (halfHeight == 0) halfHeight = element.ActualHeight / 2d;
foreach (Fixture f in vertices)
{
if (f.Shape is PolygonShape)
{
SysWinMedia.PathFigure figure = new SysWinMedia.PathFigure();
PolygonShape p = f.Shape as PolygonShape;
// first vertex, create the startpoint
Vector2 ptStart = new Vector2((float)p.Vertices[0].X, (float)p.Vertices[0].Y);
ptStart = PhysicsCanvas.BoundaryHelper.WorldSizeToScreenSize(ptStart);
ptStart.X += (float)(halfWidth);
ptStart.Y += (float)(halfHeight);
figure.StartPoint = new SysWin.Point(ptStart.X, ptStart.Y);
figure.Segments = new SysWinMedia.PathSegmentCollection();
pathGeom.Figures.Add(figure);
for (int i = 1; i < p.Vertices.Count; i++)
{
SysWinMedia.LineSegment line = new SysWinMedia.LineSegment();
Vector2 pt = new Vector2((float)p.Vertices[i].X, (float)p.Vertices[i].Y);
pt = PhysicsCanvas.BoundaryHelper.WorldSizeToScreenSize(pt);
pt.X += (float)(halfWidth);
pt.Y += (float)(halfHeight);
line.Point = new SysWin.Point(pt.X, pt.Y); ;
figure.Segments.Add(line);
}
}
}
path.Data = pathGeom;
return path;
}
}
public void InitializeObjects()
{
_initialized = true;
if (AutoAddCanvasObjects == true)
{
// Add _ALL_ named elements in the canvas as Physics objects.
AddPhysicsBodyForCanvas(_parentCanvas);
}
if (Initialized != null)
{
Initialized(this);
}
// add a pick spring if selected by user
_lineShowSpring = new Line();
_lineShowSpring.Stroke = new SolidColorBrush(Colors.Black);
_lineShowSpring.Visibility = Visibility.Collapsed;
_parentCanvas.Children.Add(_lineShowSpring);
#if (DEBUG)
// echo out the collection of points. This can be useful to set the PointCollection property
// on the PhysicsController to save startup time.
StringBuilder sb = new StringBuilder();
sb.Append("public static void ReadBoundaryCache(PhysicsController physicsController)\n");
sb.Append("{\n");
sb.Append(" physicsController.PointListCollection = new System.Collections.Generic.List<PointObject>();\n");
foreach (KeyValuePair <string, PhysicsSprite> item in PhysicsObjects)
{
PhysicsSprite physObject = item.Value;
sb.Append(" physicsController.PointListCollection.Add(new PointObject(\"");
sb.Append(physObject.OriginalElementName);
sb.Append("\", new List<Point> { ");
foreach (Point pt in physObject.OutlinePoints)
{
sb.Append("new Point(");
sb.Append(pt.X);
sb.Append(",");
sb.Append(pt.Y);
sb.Append(")");
if (physObject.OutlinePoints.IndexOf(pt) < physObject.OutlinePoints.Count() - 1)
{
sb.Append(", ");
}
}
sb.Append("}));\n");
}
sb.Append("}\n");
System.Diagnostics.Debug.WriteLine(sb.ToString());
#endif
StartGameLoopTimer();
}
public List<Shape> CreateShapesFromElement(World simulator, PhysicsSprite entity, PhysicsSprite.ShapeTypes shapeType)
{
List<Shape> shapeDefs = new List<Shape>();
switch (shapeType)
{
case PhysicsSprite.ShapeTypes.Ellipse:
xna.Vector2 worldRadius = ScreenSizeToWorldSize(new SysWin.Size(entity.Width / 2, entity.Width / 2));
CircleShape circleDef = new CircleShape(worldRadius.Y, 0.1f);
shapeDefs.Add(circleDef);
break;
case PhysicsSprite.ShapeTypes.Rectangle:
PolygonShape polygonRect = new PolygonShape(0.1f);
SysWin.Rect rect = new SysWin.Rect(0, 0, entity.Width, entity.Height);
xna.Vector2 pos = new xna.Vector2(0F, 0F);
// does the box have a rotation?
double angle = 0;
if (entity.RenderTransform is RotateTransform)
{
angle = (entity.RenderTransform as RotateTransform).Angle;
}
else
if (entity.RenderTransform is CompositeTransform)
{
angle = (entity.RenderTransform as CompositeTransform).Rotation;
}
float radAngle = (float)(Math.PI * angle / 180.0);
xna.Vector2 worldSize = ScreenSizeToWorldSize(new SysWin.Size(rect.Width / 2, rect.Height / 2));
//polygonRect.SetAsBox(worldSize.X, worldSize.Y, new xna.Vector2(0,0), radAngle);
polygonRect.SetAsBox(worldSize.X, worldSize.Y, new xna.Vector2(0, 0), 0);
shapeDefs.Add(polygonRect);
break;
default:
// Polygon via Path
Vertices vertices = new Vertices();
UIShapes.Path pathBoundary = (entity as Canvas).Children[0] as UIShapes.Path;
if (pathBoundary == null)
{
throw new Exception("The PhysicsSprite " + entity.Name + " has a Polygon ShapeType, but the first element in the PhysicsSprite must be a Path element that depicts the shape. Note you can set the Visibility of this Path to Collapsed if you do not want it shown in the Sprite.");
}
else
{
PathGeometry pathGeom = pathBoundary.Data as PathGeometry;
if (pathGeom == null)
{
throw new Exception("The PhysicsSprite " + entity.Name + " contains a Path as the first element, but that Path has no PathGeometry defined.");
}
else
{
#if WINDOWS_PHONE || SILVERLIGHT
PathConverter.StringToPathGeometryConverter cnv = new PathConverter.StringToPathGeometryConverter();
string geom = pathGeom.ToString();
if (geom != string.Empty)
{
pathGeom = cnv.Convert(geom);
}
#endif
foreach (PathFigure figure in pathGeom.Figures)
{
SysWin.Point ptStart = figure.StartPoint;
// adjust the position for origin at center
ptStart.X = (ptStart.X - ((float)entity.Width / 2));
ptStart.Y = (ptStart.Y - ((float)entity.Height / 2));
// adjust the position for Canvas Left, Top
ptStart.X = ptStart.X + Canvas.GetLeft(pathBoundary);
ptStart.Y = ptStart.Y + Canvas.GetTop(pathBoundary);
vertices.Add(ScreenSizeToWorldSize(ptStart));
foreach (PathSegment segment in figure.Segments)
{
if (segment is LineSegment)
{
LineSegment lineSegment = segment as LineSegment;
SysWin.Point ptNext = lineSegment.Point;
// adjust the position for origin at center
ptNext.X = (ptNext.X - ((float)entity.Width / 2));
ptNext.Y = (ptNext.Y - ((float)entity.Height / 2));
// adjust the position for Canvas Left, Top
ptNext.X = ptNext.X + Canvas.GetLeft(pathBoundary);
ptNext.Y = ptNext.Y + Canvas.GetTop(pathBoundary);
vertices.Add(ScreenSizeToWorldSize(ptNext));
}
else
if (segment is BezierSegment)
{
// HACK: This DOES NOT take into account a real Bezier Curve!!
BezierSegment bezSegment = segment as BezierSegment;
SysWin.Point ptNext = bezSegment.Point3;
// adjust the position for origin at center
ptNext.X = (ptNext.X + ((float)entity.Width / 2));
ptNext.Y = (ptNext.Y + ((float)entity.Height / 2));
// adjust the position for Canvas Left, Top
ptNext.X = ptNext.X + Canvas.GetLeft(pathBoundary);
ptNext.Y = ptNext.Y + Canvas.GetTop(pathBoundary);
vertices.Add(ScreenSizeToWorldSize(bezSegment.Point2));
}
}
}
List<Vertices> verticesDecomposed;
// DEMO: (2): We need CONVEX shapes, but Decomposers are provided in Farseer.
switch (DecomposerType)
{
case DecomposerTypes.CDT:
verticesDecomposed = CDTDecomposer.ConvexPartition(vertices);
break;
case DecomposerTypes.Earclip:
verticesDecomposed = EarclipDecomposer.ConvexPartition(vertices);
break;
case DecomposerTypes.Flipcode:
verticesDecomposed = FlipcodeDecomposer.ConvexPartition(vertices);
break;
case DecomposerTypes.Melkman:
verticesDecomposed = new List<Vertices>();
verticesDecomposed.Add(Melkman.GetConvexHull(vertices));
break;
case DecomposerTypes.Giftwrap:
verticesDecomposed = new List<Vertices>();
verticesDecomposed.Add(GiftWrap.GetConvexHull(vertices));
break;
default:
verticesDecomposed = BayazitDecomposer.ConvexPartition(vertices);
break;
}
foreach (Vertices vertexDecomposed in verticesDecomposed)
{
if (vertexDecomposed.Count < 3)
{
//throw new Exception("The PhysicsSprite " + entity.Name + " contains a Path as the first element, but one of the Decomposed Polygons has " + vertexDecomposed.Count + " vertices. You must have at least 3 vertices for a polygon boundary.");
}
else
{
if (vertexDecomposed.Count > FarseerPhysics.Settings.MaxPolygonVertices)
{
// trim down the # of vertices
double skipNum = (vertexDecomposed.Count - FarseerPhysics.Settings.MaxPolygonVertices);
skipNum = Math.Round(Convert.ToDouble(vertexDecomposed.Count) / skipNum);
for (int i = vertexDecomposed.Count - 1; i >= 0; i -= Convert.ToInt32(skipNum))
{
vertexDecomposed.Remove(vertexDecomposed[i]);
}
}
PolygonShape polygonDef = new PolygonShape(0.1f);
polygonDef.Set(vertexDecomposed);
shapeDefs.Add(polygonDef);
}
}
}
}
break;
}
return shapeDefs;
}
private void PhysicObject_MousePickCompleted(PhysicsSprite source, Microsoft.Xna.Framework.Vector2 ptMoveStart)
{
// Hide the contact card.
HideContactCard();
}