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Transforms Overview

This topic describes how to use the 2-D Transform classes to rotate, scale, move (translate), and skew FrameworkElement objects.

  • What Is a Transform?
  • Transform Classes
  • Common Transformation Properties
  • Transformations and Coordinate Systems
  • Transforming a FrameworkElement
  • Example: Rotate a FrameworkElement 45 Degrees
  • Animating Transformations
  • Freezable Features
  • Related Topics

What Is a Transform?

A Transform defines how to map, or transform, points from one coordinate space to another coordinate space. This mapping is described by a transformation Matrix, which is a collection of three rows with three columns of Double values.

NoteNote:

Like Microsoft, Windows Presentation Foundation (WPF) uses row-major matrices. Vectors are expressed as row-vectors, not column vectors.

The following table shows the structure of a WPF matrix.

A 2-D transformation matrix

M11

Default: 1.0

M12

Default: 0.0

0.0

M21

Default: 0.0

M22

Default: 1.0

0.0

OffsetX

Default: 0.0

OffsetY

Default: 0.0

1.0

By manipulating matrix values, you can rotate, scale, skew, and move (translate) an object. For example, if you change the value in the first column of the third row (the OffsetX value) to 100, you can use it to move an object 100 units along the x-axis. If you change the value in the second column of the second row to 3, you can use it to stretch an object to three times its current height. If you change both values, you move the object 100 units along the x-axis and stretch its height by a factor of 3. Because Windows Presentation Foundation (WPF) only supports affine transforms, the values in the right column are always 0, 0, 1.

Although Windows Presentation Foundation (WPF) enables you to directly manipulate matrix values, it also provides several Transform classes that enable you to transform an object without knowing how the underlying matrix structure is configured. For example, the ScaleTransform class enables you to scale an object by setting its ScaleX and ScaleY properties, instead of manipulating a transformation matrix. Likewise, the RotateTransform class enables you to rotate an object by just setting its Angle property.

Transform Classes

Windows Presentation Foundation (WPF) provides the following 2-D Transform classes for common transformation operations:

Class Description Example Illustration

RotateTransform

Rotates an element by the specified Angle.

How to: Rotate an Object

Rotate illustration

ScaleTransform

Scales an element by the specified ScaleX and ScaleY amounts.

How to: Scale an Element

Scale illustration

SkewTransform

Skews an element by the specified AngleX and AngleY amounts.

How to: Skew an Element

Skew illustration

TranslateTransform

Moves (translates) an element by the specified X and Y amounts.

How to: Translate an Element

Translate illustration

For creating more complex transformations, Windows Presentation Foundation (WPF) provides the following two classes:

Class Description Example

TransformGroup

Groups multiple TransformGroup objects into a single Transform that you can then apply to transform properties.

How to: Apply Multiple Transforms to an Object

MatrixTransform

Creates custom transformations that are not provided by the other Transform classes. When you use a MatrixTransform, you manipulate a Matrix directly.

How to: Use a MatrixTransform to Create Custom Transforms

Windows Presentation Foundation (WPF) also provides 3-D transformations. For more information, see the Transform3D class.

Common Transformation Properties

One way to transform an object is to declare the appropriate Transform type and apply it to the transformation property of the object. Different types of objects have different types of transformation properties. The following table lists several commonly used Windows Presentation Foundation (WPF) types and their transformation properties.

Type Transformation properties

Brush

Transform, RelativeTransform

ContainerVisual

Transform

DrawingGroup

Transform

FrameworkElement

RenderTransform, LayoutTransform

Geometry

Transform

TextEffect

Transform

UIElement

RenderTransform

Transformations and Coordinate Systems

When you transform an object, you do not just transform the object, you transform coordinate space in which that object exists. By default, a transform is centered at the origin of the target object's coordinate system: (0,0). The only exception is TranslateTransform; a TranslateTransform has no center properties to set because the translation effect is the same regardless of where it is centered.

The following example uses a RotateTransform to rotate a Rectangle element, a type of FrameworkElement, by 45 degrees about its default center, (0, 0). The following illustration shows the effect of the rotation.


A Rectangle element rotated 45 degrees about the point (0,0)

A FrameworkElement rotated 45 degrees about (0,0)

<Canvas Width="200" Height="200">
  <Rectangle 
    Canvas.Left="100" Canvas.Top="100"
    Width="50" Height="50" 
    Fill="RoyalBlue" Opacity="1.0">
    <Rectangle.RenderTransform>
      <RotateTransform Angle="45" />
    </Rectangle.RenderTransform>
  </Rectangle>
</Canvas>

By default, the element rotates about its upper-left corner, (0, 0). The RotateTransform, ScaleTransform, and SkewTransform classes provide CenterX and CenterY properties that enable you to specify the point at which the transform is applied.

The next example also uses a RotateTransform to rotate a Rectangle element by 45 degrees; however, this time the CenterX and CenterY properties are set so that the RotateTransform has a center of (25, 25). The following illustration shows the effect of the rotation.


A Rectangle element rotated 45 degrees about the point (25, 25)

A Geometry rotated 45 degrees about (25, 25)

<Canvas Width="200" Height="200">
  <Rectangle 
    Canvas.Left="100" Canvas.Top="100"
    Width="50" Height="50" 
    Fill="RoyalBlue" Opacity="1.0">
    <Rectangle.RenderTransform>
      <RotateTransform Angle="45" CenterX="25" CenterY="25" />
    </Rectangle.RenderTransform>
  </Rectangle>
</Canvas>

Transforming a FrameworkElement

To apply transformations to a FrameworkElement, create a Transform and apply it to one of the two properties that the FrameworkElement class provides:

  • LayoutTransform – A transform that is applied before the layout pass. After the transform is applied, the layout system processes the transformed size and position of the element.

  • RenderTransform – A transform that modifies the appearance of the element but is applied after the layout pass is complete. By using the RenderTransform property instead of the LayoutTransform property, you can obtain performance benefits.

Which property should you use? Because of the performance benefits that it provides, use the RenderTransform property whenever possible, especially when you use animated Transform objects. Use the LayoutTransform property when scaling, rotating, or skewing and you need the parent of the element to adjust to the transformed size of the element. Note that, when they are used with the LayoutTransform property, TranslateTransform objects appear to have no effect on elements. That is because the layout system returns the translated element to its original position as part of its processing.

For additional information about layout in Windows Presentation Foundation (WPF), see The Layout System overview.

Example: Rotate a FrameworkElement 45 Degrees

The following example uses a RotateTransform to rotate a button clockwise by 45 degrees. The button is contained in a StackPanel that has two other buttons.

By default, a RotateTransform rotates about the point (0, 0). Because the example does not specify a center value, the button rotates about the point (0, 0), which is its upper-left corner. The RotateTransform is applied to the RenderTransform property. The following illustration shows the result of the transformation.


Clockwise rotation 45 degrees from upper-left corner

A button transformed using RenderTransform

<Border Margin="30" 
  HorizontalAlignment="Left" VerticalAlignment="Top"
  BorderBrush="Black" BorderThickness="1" >
  <StackPanel Orientation="Vertical">
    <Button Content="A Button" Opacity="1" />
    <Button Content="Rotated Button">
      <Button.RenderTransform>
        <RotateTransform Angle="45" />
      </Button.RenderTransform>
    </Button>
    <Button Content="A Button" Opacity="1" />
  </StackPanel>
</Border>

The next example also uses a RotateTransform to rotate a button 45 degrees clockwise, but it also sets the RenderTransformOrigin of the button to (0.5, 0.5). The value of the RenderTransformOrigin property is relative to the size of the button. As a result, the rotation is applied to the center of the button, instead of its upper-left corner. The following illustration shows the result of the transformation.


Clockwise rotation 45 degrees around center

A button transformed about its center

<Border Margin="30"   
  HorizontalAlignment="Left" VerticalAlignment="Top"
  BorderBrush="Black" BorderThickness="1">
  <StackPanel Orientation="Vertical">
    <Button Content="A Button" Opacity="1" />
    <Button Content="Rotated Button"
      RenderTransformOrigin="0.5,0.5">
      <Button.RenderTransform>
        <RotateTransform Angle="45" />
      </Button.RenderTransform>
    </Button>
    <Button Content="A Button" Opacity="1" />
  </StackPanel>
</Border>

The following example uses the LayoutTransform property instead of the RenderTransform property to rotate the button. This causes the transformation to affect the layout of the button, which triggers a full pass by the layout system. As a result, the button is rotated and then repositioned because its size has changed. The following illustration shows the result of the transformation.


LayoutTransform used to rotate the button

A button transformed using LayoutTransform

<Border Margin="30"   
 HorizontalAlignment="Left" VerticalAlignment="Top"
 BorderBrush="Black" BorderThickness="1">
  <StackPanel Orientation="Vertical">

    <Button Content="A Button" Opacity="1" />   
    <Button Content="Rotated Button">
      <Button.LayoutTransform>
        <RotateTransform Angle="45"  />
      </Button.LayoutTransform>
    </Button>   
    <Button Content="A Button" Opacity="1" />
  </StackPanel>
</Border>

Animating Transformations

Because they inherit from the Animatable class, the Transform classes can be animated. To animate a Transform, apply an animation of a compatible type to the property you want to animate.

The following example uses a Storyboard and a DoubleAnimation with a RotateTransform to make a Button spin in place when it is clicked.

<Page 
  xmlns="https://schemas.microsoft.com/winfx/2006/xaml/presentation"
  xmlns:x="https://schemas.microsoft.com/winfx/2006/xaml"
  Title="Button Animated RotateTransform Example"
  Background="White" Margin="50">
  <StackPanel>
    
    

    <Button Content="A Button"
      RenderTransformOrigin="0.5,0.5">
      <Button.RenderTransform>
        <RotateTransform x:Name="AnimatedRotateTransform" Angle="0" />
      </Button.RenderTransform>
      <Button.Triggers>
        <EventTrigger RoutedEvent="Button.Click">
          <BeginStoryboard>
            <Storyboard>
              <DoubleAnimation 
                Storyboard.TargetName="AnimatedRotateTransform"
                Storyboard.TargetProperty="Angle" 
                To="360" Duration="0:0:1" FillBehavior="Stop" />
            </Storyboard>
          </BeginStoryboard>
        </EventTrigger>
      </Button.Triggers>
    </Button>

  </StackPanel>
</Page>

For the complete sample, see 2-D Transforms Sample. For more information about animations, see the Animation Overview.

Freezable Features

Because it inherits from the Freezable class, the Transform class provide several special features: Transform objects can be declared as Resources Overview, shared among multiple objects, made read-only to improve performance, cloned, and made thread-safe. For more information about the different features that are provided by Freezable objects, see the Freezable Objects Overview.

See Also

Reference

Transform
Matrix

Other Resources

2-D Transforms Sample
Transformations How-to Topics