Quaternion Struct
Definition
Important
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Structure that represents a rotation in three dimensions.
public value class Quaternion : IFormattable
[System.ComponentModel.TypeConverter(typeof(System.Windows.Media.Media3D.QuaternionConverter))]
[System.Serializable]
public struct Quaternion : IFormattable
[System.ComponentModel.TypeConverter(typeof(System.Windows.Media.Media3D.QuaternionConverter))]
public struct Quaternion : IFormattable
[<System.ComponentModel.TypeConverter(typeof(System.Windows.Media.Media3D.QuaternionConverter))>]
[<System.Serializable>]
type Quaternion = struct
interface IFormattable
[<System.ComponentModel.TypeConverter(typeof(System.Windows.Media.Media3D.QuaternionConverter))>]
type Quaternion = struct
interface IFormattable
Public Structure Quaternion
Implements IFormattable
- Inheritance
- Attributes
- Implements
Examples
<!-- Trigger the rotation animation when the 3D object loads. -->
<Viewport3D.Triggers>
<EventTrigger RoutedEvent="Viewport3D.Loaded">
<BeginStoryboard>
<Storyboard>
<!-- This animation animates the Rotation property of the RotateTransform3D
causing the 3D shape to rotate. -->
<QuaternionAnimation
Storyboard.TargetName="myQuaternionRotation3D"
Storyboard.TargetProperty="Quaternion" From="0,0,1,0" To="0.3, 0.3, 1, 0"
Duration="0:0:2" />
</Storyboard>
</BeginStoryboard>
</EventTrigger>
</Viewport3D.Triggers>
//Read new settings
try
{
Double WValue = System.Convert.ToDouble(QuaternionWText.Text);
Double XValue = System.Convert.ToDouble(QuaternionXText.Text);
Double YValue = System.Convert.ToDouble(QuaternionYText.Text);
Double ZValue = System.Convert.ToDouble(QuaternionZText.Text);
endQuaternion = new Quaternion(XValue, YValue, ZValue, WValue);
}
catch
{
MessageBox.Show("Set non-null values for the quaternion.");
}
myQuaternionRotation3D = new QuaternionRotation3D(endQuaternion);
myRotateTransform3D.Rotation = myQuaternionRotation3D;
//update matrix display
qrotationMatrix3D = myRotateTransform3D.Value;
'Read new settings
Try
Dim WValue As Double = Convert.ToDouble(QuaternionWText.Text)
Dim XValue As Double = Convert.ToDouble(QuaternionXText.Text)
Dim YValue As Double = Convert.ToDouble(QuaternionYText.Text)
Dim ZValue As Double = Convert.ToDouble(QuaternionZText.Text)
endQuaternion = New Quaternion(XValue, YValue, ZValue, WValue)
Catch
MessageBox.Show("Set non-null values for the quaternion.")
End Try
myQuaternionRotation3D = New QuaternionRotation3D(endQuaternion)
myRotateTransform3D.Rotation = myQuaternionRotation3D
'update matrix display
qrotationMatrix3D = myRotateTransform3D.Value
Remarks
Quaternions allow you to interpolate between rotation transformations applied to an object, thereby making it easier to compute smooth animations of rotations. A quaternion represents an axis of rotation and a rotation around that axis. It's possible to individually define the axis and angle of rotation of the starting and ending positions of a rotated object ,but the intermediate positions of that object during an animation are computationally uncertain. By determining a quaternion that represents the original orientation of a 3-D object and one that represents its destination orientation, you can smoothly interpolate between those orientations.
In XAML, the delimiter between the values of a Quaternion can be either a comma or a space.
Some cultures might use the comma character as the decimal delimiter instead of the period character. XAML processing for invariant culture defaults to en-US in most XAML processor implementations, and expects the period to be the decimal delimiter. You should avoid using the comma character as the decimal delimiter if specifying a Quaternion in XAML, because that will clash with the string type conversion of a Quaternion attribute value into its components.
XAML Attribute Usage
<object property="x,y,z,w"/>
-or-
<object property="x y z w"/>
XAML Values
x
The X component of this Quaternion structure.
y
The Y component of this Quaternion structure.
z
The Z component of this Quaternion structure.
w
The W component of this Quaternion structure.
Constructors
Quaternion(Double, Double, Double, Double) |
Initializes a new instance of the Quaternion structure. |
Quaternion(Vector3D, Double) |
Initializes a new instance of the Quaternion structure. |
Properties
Angle |
Gets the quaternion's angle, in degrees. |
Axis |
Gets the quaternion's axis. |
Identity |
Gets the Identity quaternion. |
IsIdentity |
Gets a value that indicates whether the specified quaternion is an Identity quaternion. |
IsNormalized |
Gets a value that indicates whether the quaternion is normalized. |
W |
Gets the W component of the quaternion. |
X |
Gets the X component of the quaternion. |
Y |
Gets the Y component of the quaternion. |
Z |
Gets the Z component of the quaternion. |
Methods
Add(Quaternion, Quaternion) |
Adds the specified quaternions. |
Conjugate() |
Replaces a quaternion with its conjugate. |
Equals(Object) |
Compares two Quaternion instances for equality. |
Equals(Quaternion) |
Compares two Quaternion instances for equality. |
Equals(Quaternion, Quaternion) |
Compares two Quaternion instances for equality. |
GetHashCode() |
Returns the hash code for the Quaternion. |
Invert() |
Replaces the specified quaternion with its inverse. |
Multiply(Quaternion, Quaternion) |
Multiplies the specified Quaternion values. |
Normalize() |
Returns a normalized quaternion. |
Parse(String) |
Converts a string representation of a Quaternion into the equivalent Quaternion structure. |
Slerp(Quaternion, Quaternion, Double) |
Interpolates between two orientations using spherical linear interpolation. |
Slerp(Quaternion, Quaternion, Double, Boolean) |
Interpolates between orientations, represented as Quaternion structures, using spherical linear interpolation. |
Subtract(Quaternion, Quaternion) |
Subtracts a Quaternion from another. |
ToString() |
Creates a string representation of the object. |
ToString(IFormatProvider) |
Creates a string representation of the object. |
Operators
Addition(Quaternion, Quaternion) |
Adds the specified Quaternion values. |
Equality(Quaternion, Quaternion) |
Compares two Quaternion instances for exact equality. |
Inequality(Quaternion, Quaternion) |
Compares two Quaternion instances for exact inequality. |
Multiply(Quaternion, Quaternion) |
Multiplies the specified quaternion by another. |
Subtraction(Quaternion, Quaternion) |
Subtracts a specified quaternion from another. |
Explicit Interface Implementations
IFormattable.ToString(String, IFormatProvider) |
This member supports the Windows Presentation Foundation (WPF) infrastructure and is not intended to be used directly from your code. For a description of this member, see ToString(String, IFormatProvider). |