Code:
/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / wpf / src / Core / CSharp / System / Windows / Media / Animation / DoubleAnimationUsingPath.cs / 1305600 / DoubleAnimationUsingPath.cs
//------------------------------------------------------------------------------
// Microsoft Avalon
// Copyright (c) Microsoft Corporation, 2003
//
// File: PathDoubleAnimation.cs
//-----------------------------------------------------------------------------
using MS.Internal;
using System;
using System.ComponentModel;
using System.Diagnostics;
using System.Windows;
using System.Windows.Media;
using SR=MS.Internal.PresentationCore.SR;
using SRID=MS.Internal.PresentationCore.SRID;
namespace System.Windows.Media.Animation
{
///
/// This animation can be used inside of a MatrixAnimationCollection to move
/// a visual object along a path.
///
public class DoubleAnimationUsingPath : DoubleAnimationBase
{
#region Data
private bool _isValid;
///
/// If IsCumulative is set to true, this value represents the value that
/// is accumulated with each repeat. It is the end value of the path
/// output value for the path.
///
private double _accumulatingValue;
#endregion
#region Constructors
///
/// Creates a new PathDoubleAnimation class.
///
///
/// There is no default PathGeometry so the user must specify one.
///
public DoubleAnimationUsingPath()
: base()
{
}
#endregion
#region Public
///
/// PathGeometry Property
///
public static readonly DependencyProperty PathGeometryProperty =
DependencyProperty.Register(
"PathGeometry",
typeof(PathGeometry),
typeof(DoubleAnimationUsingPath),
new PropertyMetadata(
(PathGeometry)null));
///
/// This geometry specifies the path.
///
public PathGeometry PathGeometry
{
get
{
return (PathGeometry)GetValue(PathGeometryProperty);
}
set
{
SetValue(PathGeometryProperty, value);
}
}
///
/// Source Property
///
public static readonly DependencyProperty SourceProperty =
DependencyProperty.Register(
"Source",
typeof(PathAnimationSource),
typeof(DoubleAnimationUsingPath),
new PropertyMetadata(PathAnimationSource.X));
///
/// This property specifies which output property of a path this
/// animation will represent.
///
///
/// Creates a copy of this PathDoubleAnimation.
///
/// The copy.
public new DoubleAnimationUsingPath Clone()
{
return (DoubleAnimationUsingPath)base.Clone();
}
///
/// Implementation of Freezable.CreateInstanceCore .
///
/// The new Freezable.
protected override Freezable CreateInstanceCore()
{
return new DoubleAnimationUsingPath();
}
///
/// Implementation of Freezable.OnChanged .
///
protected override void OnChanged()
{
_isValid = false;
base.OnChanged();
}
#endregion
#region DoubleAnimationBase
///
/// Calculates the value this animation believes should be the current value for the property.
///
///
/// This value is the suggested origin value provided to the animation
/// to be used if the animation does not have its own concept of a
/// start value. If this animation is the first in a composition chain
/// this value will be the snapshot value if one is available or the
/// base property value if it is not; otherise this value will be the
/// value returned by the previous animation in the chain with an
/// animationClock that is not Stopped.
///
///
/// This value is the suggested destination value provided to the animation
/// to be used if the animation does not have its own concept of an
/// end value. This value will be the base value if the animation is
/// in the first composition layer of animations on a property;
/// otherwise this value will be the output value from the previous
/// composition layer of animations for the property.
///
///
/// This is the animationClock which can generate the CurrentTime or
/// CurrentProgress value to be used by the animation to generate its
/// output value.
///
///
/// The value this animation believes should be the current value for the property.
///
protected override double GetCurrentValueCore(double defaultOriginValue, double defaultDestinationValue, AnimationClock animationClock)
{
Debug.Assert(animationClock.CurrentState != ClockState.Stopped);
PathGeometry pathGeometry = PathGeometry;
if (pathGeometry == null)
{
return defaultDestinationValue;
}
if (!_isValid)
{
Validate();
}
Point pathPoint;
Point pathTangent;
double pathValue = 0.0;
pathGeometry.GetPointAtFractionLength(animationClock.CurrentProgress.Value, out pathPoint, out pathTangent);
switch (Source)
{
case PathAnimationSource.Angle:
pathValue = CalculateAngleFromTangentVector(pathTangent.X, pathTangent.Y);
break;
case PathAnimationSource.X:
pathValue = pathPoint.X;
break;
case PathAnimationSource.Y:
pathValue = pathPoint.Y;
break;
}
double currentRepeat = (double)(animationClock.CurrentIteration - 1);
if ( IsCumulative
&& currentRepeat > 0)
{
pathValue += (_accumulatingValue * currentRepeat);
}
if (IsAdditive)
{
return defaultOriginValue + pathValue;
}
else
{
return pathValue;
}
}
///
/// IsAdditive
///
public bool IsAdditive
{
get
{
return (bool)GetValue(IsAdditiveProperty);
}
set
{
SetValue(IsAdditiveProperty, value);
}
}
///
/// IsCumulative
///
public bool IsCumulative
{
get
{
return (bool)GetValue(IsCumulativeProperty);
}
set
{
SetValue(IsCumulativeProperty, value);
}
}
#endregion
#region Private Methods
///
/// The primary purpose of this method is to calculate the accumulating
/// value if one of the properties changes.
///
private void Validate()
{
Debug.Assert(!_isValid);
if (IsCumulative)
{
Point startPoint;
Point startTangent;
Point endPoint;
Point endTangent;
PathGeometry pathGeometry = PathGeometry;
// Get values at the beginning of the path.
pathGeometry.GetPointAtFractionLength(0.0, out startPoint, out startTangent);
// Get values at the end of the path.
pathGeometry.GetPointAtFractionLength(1.0, out endPoint, out endTangent);
switch (Source)
{
case PathAnimationSource.Angle:
_accumulatingValue = CalculateAngleFromTangentVector(endTangent.X, endTangent.Y)
- CalculateAngleFromTangentVector(startTangent.X, startTangent.Y);
break;
case PathAnimationSource.X:
_accumulatingValue = endPoint.X - startPoint.X;
break;
case PathAnimationSource.Y:
_accumulatingValue = endPoint.Y - startPoint.Y;
break;
}
}
_isValid = true;
}
internal static double CalculateAngleFromTangentVector(double x, double y)
{
double angle = Math.Acos(x) * (180.0 / Math.PI);
if (y < 0.0)
{
angle = 360 - angle;
}
return angle;
}
#endregion
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// Microsoft Avalon
// Copyright (c) Microsoft Corporation, 2003
//
// File: PathDoubleAnimation.cs
//-----------------------------------------------------------------------------
using MS.Internal;
using System;
using System.ComponentModel;
using System.Diagnostics;
using System.Windows;
using System.Windows.Media;
using SR=MS.Internal.PresentationCore.SR;
using SRID=MS.Internal.PresentationCore.SRID;
namespace System.Windows.Media.Animation
{
///
/// This animation can be used inside of a MatrixAnimationCollection to move
/// a visual object along a path.
///
public class DoubleAnimationUsingPath : DoubleAnimationBase
{
#region Data
private bool _isValid;
///
/// If IsCumulative is set to true, this value represents the value that
/// is accumulated with each repeat. It is the end value of the path
/// output value for the path.
///
private double _accumulatingValue;
#endregion
#region Constructors
///
/// Creates a new PathDoubleAnimation class.
///
///
/// There is no default PathGeometry so the user must specify one.
///
public DoubleAnimationUsingPath()
: base()
{
}
#endregion
#region Public
///
/// PathGeometry Property
///
public static readonly DependencyProperty PathGeometryProperty =
DependencyProperty.Register(
"PathGeometry",
typeof(PathGeometry),
typeof(DoubleAnimationUsingPath),
new PropertyMetadata(
(PathGeometry)null));
///
/// This geometry specifies the path.
///
public PathGeometry PathGeometry
{
get
{
return (PathGeometry)GetValue(PathGeometryProperty);
}
set
{
SetValue(PathGeometryProperty, value);
}
}
///
/// Source Property
///
public static readonly DependencyProperty SourceProperty =
DependencyProperty.Register(
"Source",
typeof(PathAnimationSource),
typeof(DoubleAnimationUsingPath),
new PropertyMetadata(PathAnimationSource.X));
///
/// This property specifies which output property of a path this
/// animation will represent.
///
///
/// Creates a copy of this PathDoubleAnimation.
///
/// The copy.
public new DoubleAnimationUsingPath Clone()
{
return (DoubleAnimationUsingPath)base.Clone();
}
///
/// Implementation of Freezable.CreateInstanceCore .
///
/// The new Freezable.
protected override Freezable CreateInstanceCore()
{
return new DoubleAnimationUsingPath();
}
///
/// Implementation of Freezable.OnChanged .
///
protected override void OnChanged()
{
_isValid = false;
base.OnChanged();
}
#endregion
#region DoubleAnimationBase
///
/// Calculates the value this animation believes should be the current value for the property.
///
///
/// This value is the suggested origin value provided to the animation
/// to be used if the animation does not have its own concept of a
/// start value. If this animation is the first in a composition chain
/// this value will be the snapshot value if one is available or the
/// base property value if it is not; otherise this value will be the
/// value returned by the previous animation in the chain with an
/// animationClock that is not Stopped.
///
///
/// This value is the suggested destination value provided to the animation
/// to be used if the animation does not have its own concept of an
/// end value. This value will be the base value if the animation is
/// in the first composition layer of animations on a property;
/// otherwise this value will be the output value from the previous
/// composition layer of animations for the property.
///
///
/// This is the animationClock which can generate the CurrentTime or
/// CurrentProgress value to be used by the animation to generate its
/// output value.
///
///
/// The value this animation believes should be the current value for the property.
///
protected override double GetCurrentValueCore(double defaultOriginValue, double defaultDestinationValue, AnimationClock animationClock)
{
Debug.Assert(animationClock.CurrentState != ClockState.Stopped);
PathGeometry pathGeometry = PathGeometry;
if (pathGeometry == null)
{
return defaultDestinationValue;
}
if (!_isValid)
{
Validate();
}
Point pathPoint;
Point pathTangent;
double pathValue = 0.0;
pathGeometry.GetPointAtFractionLength(animationClock.CurrentProgress.Value, out pathPoint, out pathTangent);
switch (Source)
{
case PathAnimationSource.Angle:
pathValue = CalculateAngleFromTangentVector(pathTangent.X, pathTangent.Y);
break;
case PathAnimationSource.X:
pathValue = pathPoint.X;
break;
case PathAnimationSource.Y:
pathValue = pathPoint.Y;
break;
}
double currentRepeat = (double)(animationClock.CurrentIteration - 1);
if ( IsCumulative
&& currentRepeat > 0)
{
pathValue += (_accumulatingValue * currentRepeat);
}
if (IsAdditive)
{
return defaultOriginValue + pathValue;
}
else
{
return pathValue;
}
}
///
/// IsAdditive
///
public bool IsAdditive
{
get
{
return (bool)GetValue(IsAdditiveProperty);
}
set
{
SetValue(IsAdditiveProperty, value);
}
}
///
/// IsCumulative
///
public bool IsCumulative
{
get
{
return (bool)GetValue(IsCumulativeProperty);
}
set
{
SetValue(IsCumulativeProperty, value);
}
}
#endregion
#region Private Methods
///
/// The primary purpose of this method is to calculate the accumulating
/// value if one of the properties changes.
///
private void Validate()
{
Debug.Assert(!_isValid);
if (IsCumulative)
{
Point startPoint;
Point startTangent;
Point endPoint;
Point endTangent;
PathGeometry pathGeometry = PathGeometry;
// Get values at the beginning of the path.
pathGeometry.GetPointAtFractionLength(0.0, out startPoint, out startTangent);
// Get values at the end of the path.
pathGeometry.GetPointAtFractionLength(1.0, out endPoint, out endTangent);
switch (Source)
{
case PathAnimationSource.Angle:
_accumulatingValue = CalculateAngleFromTangentVector(endTangent.X, endTangent.Y)
- CalculateAngleFromTangentVector(startTangent.X, startTangent.Y);
break;
case PathAnimationSource.X:
_accumulatingValue = endPoint.X - startPoint.X;
break;
case PathAnimationSource.Y:
_accumulatingValue = endPoint.Y - startPoint.Y;
break;
}
}
_isValid = true;
}
internal static double CalculateAngleFromTangentVector(double x, double y)
{
double angle = Math.Acos(x) * (180.0 / Math.PI);
if (y < 0.0)
{
angle = 360 - angle;
}
return angle;
}
#endregion
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
Link Menu
This book is available now!
Buy at Amazon US or
Buy at Amazon UK
- ProtocolElementCollection.cs
- StateMachineAction.cs
- RuleSettingsCollection.cs
- BufferBuilder.cs
- WeakRefEnumerator.cs
- ClockGroup.cs
- WebPartMenuStyle.cs
- ScrollChrome.cs
- BasicViewGenerator.cs
- ProcessHost.cs
- OleAutBinder.cs
- SqlDataAdapter.cs
- TextBreakpoint.cs
- XamlParser.cs
- SoapProtocolImporter.cs
- UserControlAutomationPeer.cs
- XmlUrlResolver.cs
- OSFeature.cs
- AlternateView.cs
- XsdValidatingReader.cs
- ObfuscateAssemblyAttribute.cs
- ToolboxComponentsCreatedEventArgs.cs
- DivideByZeroException.cs
- Constraint.cs
- AnnouncementInnerClientCD1.cs
- ResourceContainer.cs
- PerfCounters.cs
- ProgressBarRenderer.cs
- ClientRoleProvider.cs
- GetWinFXPath.cs
- HttpServerVarsCollection.cs
- GuidelineSet.cs
- ApplicationException.cs
- MouseWheelEventArgs.cs
- ProtocolsConfigurationHandler.cs
- NotFiniteNumberException.cs
- SocketPermission.cs
- Block.cs
- CompilerScope.cs
- FormViewDeletedEventArgs.cs
- Win32SafeHandles.cs
- DataSourceView.cs
- WebConfigurationHost.cs
- AlternateViewCollection.cs
- xmlsaver.cs
- UIElement.cs
- GridViewRowCollection.cs
- WrapperEqualityComparer.cs
- IdentityNotMappedException.cs
- Membership.cs
- DesignTableCollection.cs
- BamlTreeNode.cs
- ServiceModelSecurityTokenRequirement.cs
- SchemaElement.cs
- SqlCommand.cs
- DesignerObject.cs
- ObjectSet.cs
- Light.cs
- While.cs
- Transform.cs
- EditorZone.cs
- PageBuildProvider.cs
- VectorKeyFrameCollection.cs
- KeyMatchBuilder.cs
- RegexBoyerMoore.cs
- ControlSerializer.cs
- AsyncOperationManager.cs
- FileReservationCollection.cs
- Validator.cs
- Mapping.cs
- XamlSerializerUtil.cs
- HMACSHA1.cs
- OracleException.cs
- SystemEvents.cs
- InvocationExpression.cs
- TextEditorDragDrop.cs
- VarInfo.cs
- DataObject.cs
- ComboBoxItem.cs
- Currency.cs
- ToolStripDropTargetManager.cs
- ByteStream.cs
- SessionPageStateSection.cs
- ListViewEditEventArgs.cs
- X509ChainPolicy.cs
- RegexTree.cs
- QueryRewriter.cs
- DataSourceComponent.cs
- BinaryObjectWriter.cs
- ComponentResourceKey.cs
- UTF32Encoding.cs
- IndexedGlyphRun.cs
- AdapterUtil.cs
- BasicHttpSecurityMode.cs
- unsafeIndexingFilterStream.cs
- XsltCompileContext.cs
- UInt64.cs
- IfJoinedCondition.cs
- NativeMethodsCLR.cs
- TableRow.cs