public static void DoBlind(NonLinearTransfromNeededEventArg e, Animation animation)
{
if (animation.BlindCoeff != PointF.Empty)
{
byte[] pixels = e.Pixels;
int width = e.ClientRectangle.Width;
int height = e.ClientRectangle.Height;
int stride = e.Stride;
float x = animation.BlindCoeff.X;
float y = animation.BlindCoeff.Y;
int num8 = (int)(((width * x) + (height * y)) * (1f - e.CurrentTime));
for (int i = 0; i < width; i++)
{
for (int j = 0; j < height; j++)
{
int num5 = (j * stride) + (i * 4);
float num9 = ((i * x) + (j * y)) - num8;
if (num9 >= 0f)
{
pixels[num5 + 3] = 0;
}
}
}
}
}
public void Add(Animation a)
{
this.SlideCoeff = new PointF(this.SlideCoeff.X + a.SlideCoeff.X, this.SlideCoeff.Y + a.SlideCoeff.Y);
this.RotateCoeff += a.RotateCoeff;
this.RotateLimit += a.RotateLimit;
this.ScaleCoeff = new PointF(this.ScaleCoeff.X + a.ScaleCoeff.X, this.ScaleCoeff.Y + a.ScaleCoeff.Y);
this.TransparencyCoeff += a.TransparencyCoeff;
this.LeafCoeff += a.LeafCoeff;
this.MosaicShift = new PointF(this.MosaicShift.X + a.MosaicShift.X, this.MosaicShift.Y + a.MosaicShift.Y);
this.MosaicCoeff = new PointF(this.MosaicCoeff.X + a.MosaicCoeff.X, this.MosaicCoeff.Y + a.MosaicCoeff.Y);
this.MosaicSize += a.MosaicSize;
this.BlindCoeff = new PointF(this.BlindCoeff.X + a.BlindCoeff.X, this.BlindCoeff.Y + a.BlindCoeff.Y);
this.TimeCoeff += a.TimeCoeff;
this.Padding += a.Padding;
}
public static void DoTransparent(NonLinearTransfromNeededEventArg e, Animation animation)
{
if (animation.TransparencyCoeff != 0f)
{
float num2 = 1f - (animation.TransparencyCoeff * e.CurrentTime);
if (num2 < 0f)
{
num2 = 0f;
}
if (num2 > 1f)
{
num2 = 1f;
}
byte[] pixels = e.Pixels;
for (int i = 0; i < pixels.Length; i += 4)
{
pixels[i + 3] = (byte)(pixels[i + 3] * num2);
}
}
}
public static void DoSlide(TransfromNeededEventArg e, Animation animation)
{
float currentTime = e.CurrentTime;
e.Matrix.Translate((-e.ClientRectangle.Width * currentTime) * animation.SlideCoeff.X, (-e.ClientRectangle.Height * currentTime) * animation.SlideCoeff.Y);
}
public static void DoScale(TransfromNeededEventArg e, Animation animation)
{
Rectangle clientRectangle = e.ClientRectangle;
PointF tf = new PointF((float)(clientRectangle.Width / 2), (float)(clientRectangle.Height / 2));
e.Matrix.Translate(tf.X, tf.Y);
float num = 1f - (animation.ScaleCoeff.X * e.CurrentTime);
float num2 = 1f - (animation.ScaleCoeff.X * e.CurrentTime);
if (Math.Abs(num) <= 0.001f)
{
num = 0.001f;
}
if (Math.Abs(num2) <= 0.001f)
{
num2 = 0.001f;
}
e.Matrix.Scale(num, num2);
e.Matrix.Translate(-tf.X, -tf.Y);
}
public static void DoRotate(TransfromNeededEventArg e, Animation animation)
{
Rectangle clientRectangle = e.ClientRectangle;
PointF tf = new PointF((float)(clientRectangle.Width / 2), (float)(clientRectangle.Height / 2));
e.Matrix.Translate(tf.X, tf.Y);
if (e.CurrentTime > animation.RotateLimit)
{
e.Matrix.Rotate((360f * (e.CurrentTime - animation.RotateLimit)) * animation.RotateCoeff);
}
e.Matrix.Translate(-tf.X, -tf.Y);
}
public static void DoMosaic(NonLinearTransfromNeededEventArg e, Animation animation, ref Point[] buffer, ref byte[] pixelsBuffer)
{
if ((animation.MosaicCoeff != PointF.Empty) && (animation.MosaicSize != 0))
{
byte[] pixels = e.Pixels;
int width = e.ClientRectangle.Width;
int height = e.ClientRectangle.Height;
int stride = e.Stride;
float currentTime = e.CurrentTime;
int length = pixels.Length;
float num7 = 1f - e.CurrentTime;
if (num7 < 0f)
{
num7 = 0f;
}
if (num7 > 1f)
{
num7 = 1f;
}
float x = animation.MosaicCoeff.X;
float y = animation.MosaicCoeff.Y;
if (buffer == null)
{
buffer = new Point[pixels.Length];
for (int k = 0; k < pixels.Length; k++)
{
buffer[k] = new Point((int)(x * (rnd.NextDouble() - 0.5)), (int)(y * (rnd.NextDouble() - 0.5)));
}
}
if (pixelsBuffer == null)
{
pixelsBuffer = (byte[])pixels.Clone();
}
for (int i = 0; i < length; i += 4)
{
pixels[i] = 0xff;
pixels[i + 1] = 0xff;
pixels[i + 2] = 0xff;
pixels[i + 3] = 0;
}
int mosaicSize = animation.MosaicSize;
float num16 = animation.MosaicShift.X;
float num17 = animation.MosaicShift.Y;
for (int j = 0; j < height; j++)
{
for (int m = 0; m < width; m++)
{
int num12 = j / mosaicSize;
int num13 = m / mosaicSize;
int index = (j * stride) + (m * 4);
int num14 = (num12 * stride) + (num13 * 4);
int num = m + ((int)(currentTime * (buffer[num14].X + (num13 * num16))));
int num3 = j + ((int)(currentTime * (buffer[num14].Y + (num12 * num17))));
if (((num >= 0) && (num < width)) && ((num3 >= 0) && (num3 < height)))
{
int num5 = (num3 * stride) + (num * 4);
pixels[num5] = pixelsBuffer[index];
pixels[num5 + 1] = pixelsBuffer[index + 1];
pixels[num5 + 2] = pixelsBuffer[index + 2];
pixels[num5 + 3] = (byte)(pixelsBuffer[index + 3] * num7);
}
}
}
}
}
public static void DoLeaf(NonLinearTransfromNeededEventArg e, Animation animation)
{
if (animation.LeafCoeff != 0f)
{
byte[] pixels = e.Pixels;
int width = e.ClientRectangle.Width;
int height = e.ClientRectangle.Height;
int stride = e.Stride;
int num7 = (int)((width + height) * (1f - (e.CurrentTime * e.CurrentTime)));
int length = pixels.Length;
for (int i = 0; i < width; i++)
{
for (int j = 0; j < height; j++)
{
int index = (j * stride) + (i * 4);
if ((i + j) >= num7)
{
int num9 = num7 - j;
int num8 = num7 - i;
int num2 = (num7 - i) - j;
if (num2 < -20)
{
num2 = -20;
}
int num = (num8 * stride) + (num9 * 4);
if ((((num9 >= 0) && (num8 >= 0)) && ((num >= 0) && (num < length))) && (pixels[index + 3] > 0))
{
pixels[num] = (byte)Math.Min(0xff, (num2 + 250) + (pixels[index] / 10));
pixels[num + 1] = (byte)Math.Min(0xff, (num2 + 250) + (pixels[index + 1] / 10));
pixels[num + 2] = (byte)Math.Min(0xff, (num2 + 250) + (pixels[index + 2] / 10));
pixels[num + 3] = 230;
}
pixels[index + 3] = 0;
}
}
}
}
}
public Controller(Control control, AnimateMode mode, Animation animation, float timeStep, Rectangle controlClipRect)
{
this.DoubleBitmap = new DoubleBitmapControl();
(this.DoubleBitmap as IFakeControl).FramePainting += new EventHandler<PaintEventArgs>(this.OnFramePainting);
(this.DoubleBitmap as IFakeControl).FramePainted += new EventHandler<PaintEventArgs>(this.OnFramePainting);
(this.DoubleBitmap as IFakeControl).TransfromNeeded += new EventHandler<TransfromNeededEventArg>(this.OnTransfromNeeded);
this.DoubleBitmap.MouseDown += new MouseEventHandler(this.OnMouseDown);
this.animation = animation;
this.AnimatedControl = control;
this.mode = mode;
if (controlClipRect == new Rectangle())
{
this.clipRect = new Rectangle(Point.Empty, this.GetBounds().Size);
}
else
{
this.clipRect = this.ControlRectToMyRect(controlClipRect);
}
if ((mode == AnimateMode.Show) || (mode == AnimateMode.BeginUpdate))
{
timeStep = -timeStep;
}
this.TimeStep = timeStep * ((animation.TimeCoeff == 0f) ? 1f : animation.TimeCoeff);
if (this.TimeStep == 0f)
{
timeStep = 0.01f;
}
switch (mode)
{
case AnimateMode.Show:
this.BgBmp = this.GetBackground(control, false, false);
(this.DoubleBitmap as IFakeControl).InitParent(control, animation.Padding);
this.DoubleBitmap.Visible = true;
this.DoubleBitmap.Refresh();
control.Visible = true;
this.ctrlBmp = this.GetForeground(control);
break;
case AnimateMode.Hide:
this.BgBmp = this.GetBackground(control, false, false);
(this.DoubleBitmap as IFakeControl).InitParent(control, animation.Padding);
this.ctrlBmp = this.GetForeground(control);
this.DoubleBitmap.Visible = true;
control.Visible = false;
break;
case AnimateMode.Update:
case AnimateMode.BeginUpdate:
(this.DoubleBitmap as IFakeControl).InitParent(control, animation.Padding);
this.BgBmp = this.GetBackground(control, true, false);
this.DoubleBitmap.Visible = true;
break;
}
this.CurrentTime = (timeStep > 0f) ? animation.MinTime : animation.MaxTime;
}
public void AddToQueue(Control control, AnimateMode mode, bool parallel = true, Animation animation = null, Rectangle clipRectangle = new Rectangle())
{
if (animation == null)
{
animation = this.DefaultAnimation;
}
if (control is IFakeControl)
{
control.Visible = false;
}
else
{
QueueItem item = new QueueItem
{
animation = animation,
control = control,
IsActive = parallel,
mode = mode,
clipRectangle = clipRectangle
};
switch (mode)
{
case AnimateMode.Show:
{
if (!control.Visible)
{
break;
}
QueueItem item2 = new QueueItem
{
control = control,
mode = mode
};
this.OnCompleted(item2);
return;
}
case AnimateMode.Hide:
{
if (control.Visible)
{
break;
}
QueueItem item3 = new QueueItem
{
control = control,
mode = mode
};
this.OnCompleted(item3);
return;
}
}
lock (this.queue)
{
this.queue.Add(item);
}
lock (this.requests)
{
this.requests.Add(item);
}
}
}
public void ShowSync(Control control, bool parallel = false, Animation animation = null)
{
this.Show(control, parallel, animation);
this.WaitAnimation(control);
}
public void Show(Control control, bool parallel = false, Animation animation = null)
{
this.AddToQueue(control, AnimateMode.Show, parallel, animation, new Rectangle());
}
private Controller CreateDoubleBitmap(Control control, AnimateMode mode, Animation animation, Rectangle clipRect)
{
Controller controller = new Controller(control, mode, animation, this.TimeStep, clipRect);
controller.TransfromNeeded += new EventHandler<TransfromNeededEventArg>(this.OnTransformNeeded);
controller.NonLinearTransfromNeeded += new EventHandler<NonLinearTransfromNeededEventArg>(this.OnNonLinearTransfromNeeded);
controller.MouseDown += new EventHandler<MouseEventArgs>(this.OnMouseDown);
controller.DoubleBitmap.Cursor = this.Cursor;
controller.FramePainted += new EventHandler<PaintEventArgs>(this.OnFramePainted);
return controller;
}
public void BeginUpdateSync(Control control, bool parallel = false, Animation animation = null, Rectangle clipRectangle = new Rectangle())
{
this.AddToQueue(control, AnimateMode.BeginUpdate, parallel, animation, clipRectangle);
bool flag = false;
while (true)
{
flag = false;
lock (this.queue)
{
foreach (QueueItem item in this.queue)
{
if (((item.control == control) && (item.mode == AnimateMode.BeginUpdate)) && (item.controller == null))
{
flag = true;
}
}
}
if (flag)
{
Application.DoEvents();
}
if (!flag)
{
return;
}
}
}