protected override void BeginTransition3D(TransitionElement transitionElement, ContentPresenter oldContent, ContentPresenter newContent, Viewport3D viewport)
{
Brush clone = CreateBrush(oldContent);
Size size = transitionElement.RenderSize;
MeshGeometry3D leftDoor = CreateMesh(new Point3D(),
new Vector3D(size.Width / 2, 0, 0),
new Vector3D(0, size.Height, 0),
1,
1,
new Rect(0, 0, 0.5, 1));
GeometryModel3D leftDoorGeometry = new GeometryModel3D();
leftDoorGeometry.Geometry = leftDoor;
leftDoorGeometry.Material = new DiffuseMaterial(clone);
AxisAngleRotation3D leftRotation = new AxisAngleRotation3D(new Vector3D(0, 1, 0), 0);
leftDoorGeometry.Transform = new RotateTransform3D(leftRotation);
GeometryModel3D rightDoorGeometry = new GeometryModel3D();
MeshGeometry3D rightDoor = CreateMesh(new Point3D(size.Width / 2, 0, 0),
new Vector3D(size.Width / 2, 0, 0),
new Vector3D(0, size.Height, 0),
1,
1,
new Rect(0.5, 0, 0.5, 1));
rightDoorGeometry.Geometry = rightDoor;
rightDoorGeometry.Material = new DiffuseMaterial(clone);
AxisAngleRotation3D rightRotation = new AxisAngleRotation3D(new Vector3D(0, 1, 0), 0);
rightDoorGeometry.Transform = new RotateTransform3D(rightRotation, size.Width, 0, 0);
Model3DGroup doors = new Model3DGroup();
doors.Children.Add(leftDoorGeometry);
doors.Children.Add(rightDoorGeometry);
ModelVisual3D model = new ModelVisual3D();
model.Content = doors;
// Replace old content in visual tree with new 3d model
transitionElement.HideContent(oldContent);
viewport.Children.Add(model);
DoubleAnimation da = new DoubleAnimation(90 - 0.5 * FieldOfView, Duration);
leftRotation.BeginAnimation(AxisAngleRotation3D.AngleProperty, da);
da = new DoubleAnimation(-(90 - 0.5 * FieldOfView), Duration);
rightRotation.BeginAnimation(AxisAngleRotation3D.AngleProperty, da);
da = new DoubleAnimation(0, Duration);
da.Completed += delegate
{
EndTransition(transitionElement, oldContent, newContent);
};
clone.BeginAnimation(Brush.OpacityProperty, da);
}
protected override void BeginTransition3D(TransitionElement transitionElement, ContentPresenter oldContent, ContentPresenter newContent, Viewport3D viewport)
{
Size size = transitionElement.RenderSize;
// Create a rectangle
MeshGeometry3D mesh = CreateMesh(new Point3D(),
new Vector3D(size.Width, 0, 0),
new Vector3D(0, size.Height, 0),
1,
1,
new Rect(0, 0, 1, 1));
GeometryModel3D geometry = new GeometryModel3D();
geometry.Geometry = mesh;
VisualBrush clone = new VisualBrush(oldContent);
geometry.Material = new DiffuseMaterial(clone);
ModelVisual3D model = new ModelVisual3D();
model.Content = geometry;
// Replace old content in visual tree with new 3d model
transitionElement.HideContent(oldContent);
viewport.Children.Add(model);
Vector3D axis;
Point3D center = new Point3D();
switch (Direction)
{
case RotateDirection.Left:
axis = new Vector3D(0, 1, 0);
break;
case RotateDirection.Right:
axis = new Vector3D(0, -1, 0);
center = new Point3D(size.Width, 0, 0);
break;
case RotateDirection.Up:
axis = new Vector3D(-1, 0, 0);
break;
default:
axis = new Vector3D(1, 0, 0);
center = new Point3D(0, size.Height, 0);
break;
}
AxisAngleRotation3D rotation = new AxisAngleRotation3D(axis, 0);
model.Transform = new RotateTransform3D(rotation, center);
DoubleAnimation da = new DoubleAnimation(0, Duration);
clone.BeginAnimation(Brush.OpacityProperty, da);
da = new DoubleAnimation(90, Duration);
da.Completed += delegate
{
EndTransition(transitionElement, oldContent, newContent);
};
rotation.BeginAnimation(AxisAngleRotation3D.AngleProperty, da);
}
protected override void BeginTransition3D(TransitionElement transitionElement, ContentPresenter oldContent, ContentPresenter newContent, Viewport3D viewport)
{
Size size = transitionElement.RenderSize;
Point3D centerPoint;
if (MouseAsCenter)
{
Point mouse2D = Mouse.GetPosition(transitionElement);
centerPoint = new Point3D(mouse2D.X, mouse2D.Y, 0.5 * size.Width);
}
else
{
centerPoint = new Point3D(0.5 * size.Width, 0.5 * size.Height, 0.5 * size.Width);
}
int xparticles = 10, yparticles = 10;
if (size.Width > size.Height)
{
yparticles = (int)(xparticles * size.Height / size.Width);
}
else
{
xparticles = (int)(yparticles * size.Width / size.Height);
}
double sx = 1.0 / xparticles, sy = 1.0 / yparticles;
Vector3D u = new Vector3D(size.Width * sx, 0, 0);
Vector3D v = new Vector3D(0, size.Height * sy, 0);
Brush cloneBrush = CreateBrush(oldContent);
Material clone = new DiffuseMaterial(cloneBrush);
Vector3D[] velocities = new Vector3D[xparticles * yparticles];
Vector3D[] angularVelocities = new Vector3D[xparticles * yparticles];
Point3D[] centers = new Point3D[xparticles * yparticles];
Point3DCollection positions = new Point3DCollection(4 * xparticles * yparticles);
PointCollection textures = new PointCollection(4 * xparticles * yparticles);
Int32Collection triangles = new Int32Collection(6 * xparticles * yparticles);
int n = 0;
for (int i = 0; i < xparticles; i++)
{
for (int j = 0; j < yparticles; j++)
{
Point3D topleft = (Point3D)(i * u + j * v);
positions.Add(topleft);
positions.Add(topleft + u);
positions.Add(topleft + u + v);
positions.Add(topleft + v);
textures.Add(new Point(i * sx, j * sy));
textures.Add(new Point((i + 1) * sx, j * sy));
textures.Add(new Point((i + 1) * sx, (j + 1) * sy));
textures.Add(new Point(i * sx, (j + 1) * sy));
triangles.Add(n);
triangles.Add(n + 2);
triangles.Add(n + 1);
triangles.Add(n);
triangles.Add(n + 3);
triangles.Add(n + 2);
Vector3D f0 = positions[n] - centerPoint;
Vector3D f1 = positions[n + 1] - centerPoint;
Vector3D f2 = positions[n + 2] - centerPoint;
Vector3D f3 = positions[n + 3] - centerPoint;
f0 = f0 / f0.LengthSquared;
f1 = f1 / f1.LengthSquared;
f2 = f2 / f2.LengthSquared;
f3 = f3 / f3.LengthSquared;
velocities[n / 4] = 2 * size.Width * (f0 + f1 + f2 + f3);
Point3D center = centers[n / 4] = (Point3D)((i + 0.5) * u + (j + 0.5) * v);
angularVelocities[n / 4] = 200 * (Vector3D.CrossProduct(f0, positions[n] - center) +
Vector3D.CrossProduct(f1, positions[n + 1] - center) +
Vector3D.CrossProduct(f2, positions[n + 2] - center) +
Vector3D.CrossProduct(f3, positions[n + 3] - center));
n += 4;
}
}
MeshGeometry3D mesh = new MeshGeometry3D();
mesh.Positions = positions;
mesh.TextureCoordinates = textures;
mesh.TriangleIndices = triangles;
GeometryModel3D geometryModel = new GeometryModel3D(mesh, clone);
geometryModel.BackMaterial = clone;
ModelVisual3D model = new ModelVisual3D();
model.Content = geometryModel;
// Replace old content in visual tree with new 3d model
transitionElement.HideContent(oldContent);
viewport.Children.Add(model);
DispatcherTimer timer = new DispatcherTimer();
int t = 0;
double opacityDelta = 1.0 / (Duration.TimeSpan.Seconds * 60.0);
timer.Interval = TimeSpan.FromSeconds(1.0 / 60.0);
timer.Tick += delegate
{
t++;
cloneBrush.Opacity = 1 - t * opacityDelta;
if (cloneBrush.Opacity < opacityDelta)
{
timer.Stop();
EndTransition(transitionElement, oldContent, newContent);
return;
}
mesh.Positions = null;
AxisAngleRotation3D axisAngle = new AxisAngleRotation3D();
RotateTransform3D rotation = new RotateTransform3D(axisAngle, new Point3D());
for (int i = 0; i < positions.Count; i += 4)
{
Vector3D velocity = velocities[i / 4];
axisAngle.Axis = angularVelocities[i / 4];
axisAngle.Angle = angularVelocities[i / 4].Length;
rotation.CenterX = centers[i / 4].X;
rotation.CenterY = centers[i / 4].Y;
rotation.CenterZ = centers[i / 4].Z;
positions[i] = rotation.Transform(positions[i]) + velocity;
positions[i + 1] = rotation.Transform(positions[i + 1]) + velocity;
positions[i + 2] = rotation.Transform(positions[i + 2]) + velocity;
positions[i + 3] = rotation.Transform(positions[i + 3]) + velocity;
centers[i / 4] += velocity;
}
mesh.Positions = positions;
};
timer.Start();
}
protected override void BeginTransition3D(TransitionElement transitionElement, ContentPresenter oldContent, ContentPresenter newContent, Viewport3D viewport)
{
Size size = transitionElement.RenderSize;
Point3D origin = new Point3D(); // origin of 2nd face
Vector3D u = new Vector3D(), v = new Vector3D(); // u & v vectors of 2nd face
double angle = Angle;
Point3D rotationCenter;
Vector3D rotationAxis;
RotateDirection direction = Direction;
TranslateTransform3D translation = null;
double angleRads = Angle * Math.PI / 180;
if (direction == RotateDirection.Left || direction == RotateDirection.Right)
{
if (Contained)
{
rotationCenter = new Point3D(direction == RotateDirection.Left ? size.Width : 0, 0, 0);
translation = new TranslateTransform3D();
DoubleAnimation x = new DoubleAnimation(direction == RotateDirection.Left ? -size.Width : size.Width, Duration);
translation.BeginAnimation(TranslateTransform3D.OffsetXProperty, x);
}
else
{
rotationCenter = new Point3D(size.Width / 2, 0, size.Width / 2 * Math.Tan(angle / 2 * Math.PI / 180));
}
rotationAxis = new Vector3D(0, 1, 0);
if (direction == RotateDirection.Left)
{
u.X = -size.Width * Math.Cos(angleRads);
u.Z = size.Width * Math.Sin(angleRads);
origin.X = size.Width;
}
else
{
u.X = -size.Width * Math.Cos(angleRads);
u.Z = -size.Width * Math.Sin(angleRads);
origin.X = -u.X;
origin.Z = -u.Z;
}
v.Y = size.Height;
}
else
{
if (Contained)
{
rotationCenter = new Point3D(0, direction == RotateDirection.Up ? size.Height : 0, 0);
translation = new TranslateTransform3D();
DoubleAnimation y = new DoubleAnimation(direction == RotateDirection.Up ? -size.Height : size.Height, Duration);
translation.BeginAnimation(TranslateTransform3D.OffsetYProperty, y);
}
else
{
rotationCenter = new Point3D(0, size.Height / 2, size.Height / 2 * Math.Tan(angle / 2 * Math.PI / 180));
}
rotationAxis = new Vector3D(1, 0, 0);
if (direction == RotateDirection.Up)
{
v.Y = -size.Height * Math.Cos(angleRads);
v.Z = size.Height * Math.Sin(angleRads);
origin.Y = size.Height;
}
else
{
v.Y = -size.Height * Math.Cos(angleRads);
v.Z = -size.Height * Math.Sin(angleRads);
origin.Y = -v.Y;
origin.Z = -v.Z;
}
u.X = size.Width;
}
double endAngle = 180 - angle;
if (direction == RotateDirection.Right || direction == RotateDirection.Up)
endAngle = -endAngle;
ModelVisual3D m1, m2;
viewport.Children.Add(m1 = MakeSide(oldContent, new Point3D(), new Vector3D(size.Width,0,0), new Vector3D(0,size.Height,0), endAngle, rotationCenter, rotationAxis, null));
viewport.Children.Add(m2 = MakeSide(newContent, origin, u, v, endAngle, rotationCenter, rotationAxis, delegate
{
EndTransition(transitionElement, oldContent, newContent);
}));
m1.Transform = m2.Transform = translation;
// Replace old and new content in visual tree with new 3d models
transitionElement.HideContent(oldContent);
transitionElement.HideContent(newContent);
}
protected override void BeginTransition3D(TransitionElement transitionElement, ContentPresenter oldContent, ContentPresenter newContent, Viewport3D viewport)
{
int xparticles = 10, yparticles = 10;
Size size = transitionElement.RenderSize;
if (size.Width > size.Height)
yparticles = (int)(xparticles * size.Height / size.Width);
else
xparticles = (int)(yparticles * size.Width / size.Height);
MeshGeometry3D mesh = CreateMesh(new Point3D(), new Vector3D(size.Width, 0, 0), new Vector3D(0, size.Height, 0), xparticles - 1, yparticles - 1, new Rect(0, 0, 1, 1));
Brush cloneBrush = CreateBrush(oldContent);
Material clone = new DiffuseMaterial(cloneBrush);
double ustep = size.Width / (xparticles - 1), vstep = size.Height / (yparticles - 1);
Point3DCollection points = mesh.Positions;
Point3DCollection oldPoints = points.Clone();
double timeStep = 1.0 / 30.0;
DispatcherTimer timer = new DispatcherTimer();
timer.Interval = TimeSpan.FromSeconds(timeStep);
double time = 0;
double duration = this.Duration.HasTimeSpan ? this.Duration.TimeSpan.TotalSeconds : 2;
timer.Tick += delegate
{
time = time + timeStep;
Point mousePos = Mouse.GetPosition(viewport);
Point3D mousePos3D = new Point3D(mousePos.X, mousePos.Y, -10);
// Cloth physics based on work of Thomas Jakobsen http://www.ioi.dk/~thomas
for (int i = 0; i < oldPoints.Count; i++)
{
Point3D currentPoint = points[i];
Point3D newPoint = currentPoint + 0.9 * (currentPoint - oldPoints[i]);
if (newPoint.Y > size.Height)
newPoint.Y = size.Height;
oldPoints[i] = newPoint;
}
//for (int j = 0; j < 5; j++)
//for (int i = oldPoints.Count - 1; i > 0 ; i--)
for (int a = yparticles - 1; a >= 0; a--)
for (int b = xparticles - 1; b >= 0; b--)
{
int i = b * yparticles + a;
// constrain with point to the left
if (i > yparticles)
Constrain(oldPoints, i, i - yparticles, ustep);
// constrain with point to the top
if (i % yparticles != 0)
Constrain(oldPoints, i, i - 1, vstep);
// constrain the sides
if (a == 0)
oldPoints[i] = new Point3D(oldPoints[i].X, 0, oldPoints[i].Z);
if (a == yparticles - 1)
oldPoints[i] = new Point3D(oldPoints[i].X, size.Height, oldPoints[i].Z);
if (b == 0)
oldPoints[i] = new Point3D(0, a * size.Height / (yparticles - 1), 0);
if (b == xparticles - 1)
{
double angle = time / duration * Math.PI / (0.8 + 0.5 * (yparticles - (double)a) / yparticles);
oldPoints[i] = new Point3D(size.Width * Math.Cos(angle), a * size.Height / (yparticles - 1), -size.Width * Math.Sin(angle));
}
}
if (time > (duration - 0))
{
timer.Stop();
EndTransition(transitionElement, oldContent, newContent);
}
// Swap position arrays
mesh.Positions = oldPoints;
oldPoints = points;
points = mesh.Positions;
};
timer.Start();
GeometryModel3D geo = new GeometryModel3D(mesh, clone);
geo.BackMaterial = clone;
ModelVisual3D model = new ModelVisual3D();
model.Content = geo;
// Replace old content in visual tree with new 3d model
transitionElement.HideContent(oldContent);
viewport.Children.Add(model);
}