Class Transform

java.lang.Object
javafx.scene.transform.Transform
All Implemented Interfaces:
Cloneable, EventTarget
Direct Known Subclasses:
Affine, Rotate, Scale, Shear, Translate

public abstract class Transform extends Object implements Cloneable, EventTarget
This class is a base class for different affine transformations. It provides factory methods for the simple transformations - rotating, scaling, shearing, and translation. It allows to get the transformation matrix elements for any transform.

Example:


  Rectangle rect = new Rectangle(50,50, Color.RED);
  rect.getTransforms().add(new Rotate(45,0,0)); //rotate by 45 degrees
 
Since:
JavaFX 2.0
  • Property Summary

    Properties
    Type
    Property
    Description
    Determines if this is currently an identity transform.
    The onTransformChanged event handler is called whenever the transform changes any of its parameters.
    Determines if this is currently a 2D transform.
  • Constructor Summary

    Constructors
    Constructor
    Description
    Constructor for subclasses to call.
  • Method Summary

    Modifier and Type
    Method
    Description
    final <T extends Event>
    void
    addEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
    Registers an event filter for this target.
    final <T extends Event>
    void
    addEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
    Registers an event handler for this target.
    static Affine
    affine(double mxx, double myx, double mxy, double myy, double tx, double ty)
    Returns a new Affine object from 12 number values representing the 6 specifiable entries of the 3x4 Affine transformation matrix.
    static Affine
    affine(double mxx, double mxy, double mxz, double tx, double myx, double myy, double myz, double ty, double mzx, double mzy, double mzz, double tz)
    Returns a new Affine object from 12 number values representing the 12 specifiable entries of the 3x4 Affine transformation matrix.
    Construct an event dispatch chain for this target.
    Returns a deep copy of this transform.
    double[]
    column(MatrixType type, int column)
    Returns an array containing a column of the transformation matrix.
    double[]
    column(MatrixType type, int column, double[] array)
    Returns an array containing a column of the transformation matrix.
    Returns the concatenation of this transform and the specified transform.
    Returns the inverse transform of this transform.
    deltaTransform(double x, double y)
    Transforms the relative magnitude vector by this transform.
    deltaTransform(double x, double y, double z)
    Transforms the relative magnitude vector by this transform.
    Transforms the relative magnitude vector represented by the specified Point2D instance by this transform.
    Transforms the relative magnitude vector represented by the specified Point3D instance by this transform.
    double
    Computes determinant of the transformation matrix.
    double
    getElement(MatrixType type, int row, int column)
    Gets the specified element of the transformation matrix.
    double
    Gets the X coordinate scaling element of the 3x4 matrix.
    double
    Gets the XY coordinate element of the 3x4 matrix.
    double
    Gets the XZ coordinate element of the 3x4 matrix.
    double
    Gets the YX coordinate element of the 3x4 matrix.
    double
    Gets the Y coordinate scaling element of the 3x4 matrix.
    double
    Gets the YZ coordinate element of the 3x4 matrix.
    double
    Gets the ZX coordinate element of the 3x4 matrix.
    double
    Gets the ZY coordinate element of the 3x4 matrix.
    double
    Gets the Z coordinate scaling element of the 3x4 matrix.
    Gets the onTransformChanged event handler.
    double
    Gets the X coordinate translation element of the 3x4 matrix.
    double
    Gets the Y coordinate translation element of the 3x4 matrix.
    double
    Gets the Z coordinate translation element of the 3x4 matrix.
    Determines if this is currently an identity transform.
    inverseDeltaTransform(double x, double y)
    Transforms the relative magnitude vector by the inverse of this transform.
    inverseDeltaTransform(double x, double y, double z)
    Transforms the relative magnitude vector by the inverse of this transform.
    Transforms the relative magnitude vector represented by the specified Point2D instance by the inverse of this transform.
    Transforms the relative magnitude vector represented by the specified Point3D instance by the inverse of this transform.
    inverseTransform(double x, double y)
    Transforms the specified point by the inverse of this transform.
    inverseTransform(double x, double y, double z)
    Transforms the specified point by the inverse of this transform.
    Transforms the specified bounds by the inverse of this transform.
    Transforms the specified point by the inverse of this transform.
    Transforms the specified point by the inverse of this transform.
    void
    inverseTransform2DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
    Transforms an array of coordinates by the inverse of this transform.
    void
    inverseTransform3DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
    Transforms an array of floating point coordinates by the inverse of this transform.
    final boolean
    Gets the value of the identity property.
    final boolean
    Gets the value of the type2D property.
    The onTransformChanged event handler is called whenever the transform changes any of its parameters.
    final <T extends Event>
    void
    removeEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
    Unregisters a previously registered event filter from this target.
    final <T extends Event>
    void
    removeEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
    Unregisters a previously registered event handler from this target.
    static Rotate
    rotate(double angle, double pivotX, double pivotY)
    Returns a Rotate object that rotates coordinates around a pivot point.
    double[]
    row(MatrixType type, int row)
    Returns an array containing a row of the transformation matrix.
    double[]
    row(MatrixType type, int row, double[] array)
    Returns an array containing a row of the transformation matrix.
    static Scale
    scale(double x, double y)
    Returns a Scale object representing a scaling transformation.
    static Scale
    scale(double x, double y, double pivotX, double pivotY)
    Returns a Scale object representing a scaling transformation.
    final void
    Sets the onTransformChanged event handler which is called whenever the transform changes any of its parameters.
    static Shear
    shear(double x, double y)
    Returns a Shear object representing a shearing transformation.
    static Shear
    shear(double x, double y, double pivotX, double pivotY)
    Returns a Shear object representing a shearing transformation.
    boolean
    similarTo(Transform transform, Bounds range, double maxDelta)
    Checks if this transform is similar to the specified transform.
    double[]
    Returns an array containing the flattened transformation matrix.
    double[]
    toArray(MatrixType type, double[] array)
    Returns an array containing the flattened transformation matrix.
    transform(double x, double y)
    Transforms the specified point by this transform.
    transform(double x, double y, double z)
    Transforms the specified point by this transform.
    transform(Bounds bounds)
    Transforms the specified bounds by this transform.
    Transforms the specified point by this transform.
    Transforms the specified point by this transform.
    void
    transform2DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
    Transforms an array of coordinates by this transform.
    void
    transform3DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
    Transforms an array of floating point coordinates by this transform.
    protected void
    This method must be called by all transforms whenever any of their parameters changes.
    static Translate
    translate(double x, double y)
    Returns a Translate object representing a translation transformation.
    Determines if this is currently a 2D transform.

    Methods declared in class java.lang.Object

    equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
  • Property Details

  • Constructor Details

    • Transform

      public Transform()
      Constructor for subclasses to call.
  • Method Details

    • affine

      public static Affine affine(double mxx, double myx, double mxy, double myy, double tx, double ty)
      Returns a new Affine object from 12 number values representing the 6 specifiable entries of the 3x4 Affine transformation matrix.
      Parameters:
      mxx - the X coordinate scaling element of the 3x4 matrix
      myx - the Y coordinate shearing element of the 3x4 matrix
      mxy - the X coordinate shearing element of the 3x4 matrix
      myy - the Y coordinate scaling element of the 3x4 matrix
      tx - the X coordinate translation element of the 3x4 matrix
      ty - the Y coordinate translation element of the 3x4 matrix
      Returns:
      a new Affine object derived from specified parameters
    • affine

      public static Affine affine(double mxx, double mxy, double mxz, double tx, double myx, double myy, double myz, double ty, double mzx, double mzy, double mzz, double tz)
      Returns a new Affine object from 12 number values representing the 12 specifiable entries of the 3x4 Affine transformation matrix.
      Parameters:
      mxx - the X coordinate scaling element of the 3x4 matrix
      mxy - the XY element of the 3x4 matrix
      mxz - the XZ element of the 3x4 matrix
      tx - the X coordinate translation element of the 3x4 matrix
      myx - the YX element of the 3x4 matrix
      myy - the Y coordinate scaling element of the 3x4 matrix
      myz - the YZ element of the 3x4 matrix
      ty - the Y coordinate translation element of the 3x4 matrix
      mzx - the ZX element of the 3x4 matrix
      mzy - the ZY element of the 3x4 matrix
      mzz - the Z coordinate scaling element of the 3x4 matrix
      tz - the Z coordinate translation element of the 3x4 matrix
      Returns:
      a new Affine object derived from specified parameters
    • translate

      public static Translate translate(double x, double y)
      Returns a Translate object representing a translation transformation.

      This is equivalent to:

          new Translate(x, y);
       
      Parameters:
      x - the translate x value
      y - the translate y value
      Returns:
      the Translate object representing a translation transformation
    • rotate

      public static Rotate rotate(double angle, double pivotX, double pivotY)
      Returns a Rotate object that rotates coordinates around a pivot point.

      This is equivalent to:

          new Rotate(angle, pivotX, pivotY);
       
      Parameters:
      angle - the rotation angle
      pivotX - the pivot x value
      pivotY - the pivot y value
      Returns:
      the Rotate object that rotates coordinates around a pivot point
    • scale

      public static Scale scale(double x, double y)
      Returns a Scale object representing a scaling transformation.

      This is equivalent to:

          new Scale(x, y);
       
      Parameters:
      x - the scale x value
      y - the scale y value
      Returns:
      the Scale object representing a scaling transformation
    • scale

      public static Scale scale(double x, double y, double pivotX, double pivotY)
      Returns a Scale object representing a scaling transformation. The returned scale operation will be about the given pivot point.

      This is equivalent to:

          new Scale(x, y, pivotX, pivotY);
       
      Parameters:
      x - the scale x value
      y - the scale y value
      pivotX - the pivot x value
      pivotY - the pivot y value
      Returns:
      the Scale object representing a scaling transformation
    • shear

      public static Shear shear(double x, double y)
      Returns a Shear object representing a shearing transformation.

      This is equivalent to:

          new Shear(x, y);
       
      Parameters:
      x - the shear x value
      y - the shear y value
      Returns:
      the Shear object representing a shearing transformation
    • shear

      public static Shear shear(double x, double y, double pivotX, double pivotY)
      Returns a Shear object representing a shearing transformation.

      This is equivalent to:

          new Shear(x, y, pivotX, pivotY);
       
      Parameters:
      x - the shear x value
      y - the shear y value
      pivotX - the pivot x value
      pivotY - the pivot y value
      Returns:
      the Shear object representing a shearing transformation
    • getMxx

      public double getMxx()
      Gets the X coordinate scaling element of the 3x4 matrix.
      Returns:
      the X coordinate scaling element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMxy

      public double getMxy()
      Gets the XY coordinate element of the 3x4 matrix.
      Returns:
      the XY coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMxz

      public double getMxz()
      Gets the XZ coordinate element of the 3x4 matrix.
      Returns:
      the XZ coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getTx

      public double getTx()
      Gets the X coordinate translation element of the 3x4 matrix.
      Returns:
      the X coordinate translation element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMyx

      public double getMyx()
      Gets the YX coordinate element of the 3x4 matrix.
      Returns:
      the YX coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMyy

      public double getMyy()
      Gets the Y coordinate scaling element of the 3x4 matrix.
      Returns:
      the Y coordinate scaling element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMyz

      public double getMyz()
      Gets the YZ coordinate element of the 3x4 matrix.
      Returns:
      the YZ coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getTy

      public double getTy()
      Gets the Y coordinate translation element of the 3x4 matrix.
      Returns:
      the Y coordinate translation element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMzx

      public double getMzx()
      Gets the ZX coordinate element of the 3x4 matrix.
      Returns:
      the ZX coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMzy

      public double getMzy()
      Gets the ZY coordinate element of the 3x4 matrix.
      Returns:
      the ZY coordinate element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getMzz

      public double getMzz()
      Gets the Z coordinate scaling element of the 3x4 matrix.
      Returns:
      the Z coordinate scaling element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getTz

      public double getTz()
      Gets the Z coordinate translation element of the 3x4 matrix.
      Returns:
      the Z coordinate translation element of the 3x4 matrix
      Since:
      JavaFX 2.2
    • getElement

      public double getElement(MatrixType type, int row, int column)
      Gets the specified element of the transformation matrix.
      Parameters:
      type - type of matrix to get the value from
      row - zero-based row number
      column - zero-based column number
      Returns:
      value of the specified transformation matrix element
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      IndexOutOfBoundsException - if the indices are not within the specified matrix type
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • determinant

      public double determinant()
      Computes determinant of the transformation matrix. Among other things, determinant can be used for testing this transform's invertibility - it is invertible if determinant is not equal to zero.
      Returns:
      Determinant of the transformation matrix
      Since:
      JavaFX 8.0
    • isType2D

      public final boolean isType2D()
      Gets the value of the type2D property.
      Property description:
      Determines if this is currently a 2D transform. Transform is 2D if it has no effect along the Z axis.
      Returns:
      the value of the type2D property
      Since:
      JavaFX 8.0
      See Also:
    • type2DProperty

      public final ReadOnlyBooleanProperty type2DProperty()
      Determines if this is currently a 2D transform. Transform is 2D if it has no effect along the Z axis.
      Returns:
      the type2D property
      Since:
      JavaFX 8.0
      See Also:
    • isIdentity

      public final boolean isIdentity()
      Gets the value of the identity property.
      Property description:
      Determines if this is currently an identity transform. Identity transform has no effect on the transformed nodes.
      Returns:
      the value of the identity property
      Since:
      JavaFX 8.0
      See Also:
    • identityProperty

      public final ReadOnlyBooleanProperty identityProperty()
      Determines if this is currently an identity transform. Identity transform has no effect on the transformed nodes.
      Returns:
      the identity property
      Since:
      JavaFX 8.0
      See Also:
    • similarTo

      public boolean similarTo(Transform transform, Bounds range, double maxDelta)
      Checks if this transform is similar to the specified transform. The two transforms are considered similar if any point from range is transformed by them to points that are no farther than maxDelta from each other.
      Parameters:
      transform - transform to be compared to this transform
      range - region of interest on which the two transforms are compared
      maxDelta - maximum allowed distance for the results of transforming any single point from range by the two transforms
      Returns:
      true if the transforms are similar according to the specified criteria
      Throws:
      NullPointerException - if the specified transform or range is null
      Since:
      JavaFX 8.0
    • toArray

      public double[] toArray(MatrixType type, double[] array)
      Returns an array containing the flattened transformation matrix. If the requested matrix type fits in the specified array, it is returned therein. Otherwise, a new array is created.
      Parameters:
      type - matrix type to be filled in the array
      array - array into which the elements of the matrix are to be stored, if it is non-null and big enough; otherwise, a new array is created for this purpose.
      Returns:
      an array containing the elements of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • toArray

      public double[] toArray(MatrixType type)
      Returns an array containing the flattened transformation matrix.
      Parameters:
      type - matrix type to be filled in the array
      Returns:
      an array containing the elements of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • row

      public double[] row(MatrixType type, int row, double[] array)
      Returns an array containing a row of the transformation matrix. If the row of the requested matrix type fits in the specified array, it is returned therein. Otherwise, a new array is created.
      Parameters:
      type - matrix type whose row is to be filled in the array
      row - zero-based index of the row
      array - array into which the elements of the row are to be stored, if it is non-null and big enough; otherwise, a new array is created for this purpose.
      Returns:
      an array containing the requested row of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      IndexOutOfBoundsException - if the row index is not within the number of rows of the specified matrix type
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • row

      public double[] row(MatrixType type, int row)
      Returns an array containing a row of the transformation matrix.
      Parameters:
      type - matrix type whose row is to be filled in the array
      row - zero-based index of the row
      Returns:
      an array containing the requested row of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      IndexOutOfBoundsException - if the row index is not within the number of rows of the specified matrix type
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • column

      public double[] column(MatrixType type, int column, double[] array)
      Returns an array containing a column of the transformation matrix. If the column of the requested matrix type fits in the specified array, it is returned therein. Otherwise, a new array is created.
      Parameters:
      type - matrix type whose column is to be filled in the array
      column - zero-based index of the column
      array - array into which the elements of the column are to be stored, if it is non-null and big enough; otherwise, a new array is created for this purpose.
      Returns:
      an array containing the requested column of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      IndexOutOfBoundsException - if the column index is not within the number of columns of the specified matrix type
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • column

      public double[] column(MatrixType type, int column)
      Returns an array containing a column of the transformation matrix.
      Parameters:
      type - matrix type whose column is to be filled in the array
      column - zero-based index of the column
      Returns:
      an array containing the requested column of the requested matrix type representing this transform
      Throws:
      IllegalArgumentException - if a 2D matrix type is requested for a 3D transform
      IndexOutOfBoundsException - if the column index is not within the number of columns of the specified matrix type
      NullPointerException - if the specified type is null
      Since:
      JavaFX 8.0
    • createConcatenation

      public Transform createConcatenation(Transform transform)
      Returns the concatenation of this transform and the specified transform. Applying the resulting transform to a node has the same effect as adding the two transforms to its getTransforms() list, this transform first and the specified transform second.
      Parameters:
      transform - transform to be concatenated with this transform
      Returns:
      The concatenated transform
      Throws:
      NullPointerException - if the specified transform is null
      Since:
      JavaFX 8.0
    • createInverse

      public Transform createInverse() throws NonInvertibleTransformException
      Returns the inverse transform of this transform.
      Returns:
      the inverse transform
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      Since:
      JavaFX 8.0
    • clone

      public Transform clone()
      Returns a deep copy of this transform.
      Overrides:
      clone in class Object
      Returns:
      a copy of this transform
      Since:
      JavaFX 8.0
    • transform

      public Point2D transform(double x, double y)
      Transforms the specified point by this transform. This method can be used only for 2D transforms.
      Parameters:
      x - the X coordinate of the point
      y - the Y coordinate of the point
      Returns:
      the transformed point
      Throws:
      IllegalStateException - if this is a 3D transform
      Since:
      JavaFX 8.0
    • transform

      public Point2D transform(Point2D point)
      Transforms the specified point by this transform. This method can be used only for 2D transforms.
      Parameters:
      point - the point to be transformed
      Returns:
      the transformed point
      Throws:
      IllegalStateException - if this is a 3D transform
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • transform

      public Point3D transform(double x, double y, double z)
      Transforms the specified point by this transform.
      Parameters:
      x - the X coordinate of the point
      y - the Y coordinate of the point
      z - the Z coordinate of the point
      Returns:
      the transformed point
      Since:
      JavaFX 8.0
    • transform

      public Point3D transform(Point3D point)
      Transforms the specified point by this transform.
      Parameters:
      point - the point to be transformed
      Returns:
      the transformed point
      Throws:
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • transform

      public Bounds transform(Bounds bounds)
      Transforms the specified bounds by this transform.
      Parameters:
      bounds - the bounds to be transformed
      Returns:
      the transformed bounds
      Since:
      JavaFX 8.0
    • transform2DPoints

      public void transform2DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
      Transforms an array of coordinates by this transform. The two coordinate array sections can be exactly the same or can be overlapping sections of the same array without affecting the validity of the results. This method ensures that no source coordinates are overwritten by a previous operation before they can be transformed. The coordinates are stored in the arrays starting at the specified offset in the order [x0, y0, x1, y1, ..., xn, yn]. This method can be used only for 2D transforms.
      Parameters:
      srcPts - the array containing the source point coordinates. Each point is stored as a pair of x, y coordinates.
      srcOff - the offset to the first point to be transformed in the source array
      dstPts - the array into which the transformed point coordinates are returned. Each point is stored as a pair of x, y coordinates.
      dstOff - the offset to the location of the first transformed point that is stored in the destination array
      numPts - the number of points to be transformed
      Throws:
      IllegalStateException - if this is a 3D transform
      NullPointerException - if srcPts or (@code dstPts} is null
      Since:
      JavaFX 8.0
    • transform3DPoints

      public void transform3DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts)
      Transforms an array of floating point coordinates by this transform. The three coordinate array sections can be exactly the same or can be overlapping sections of the same array without affecting the validity of the results. This method ensures that no source coordinates are overwritten by a previous operation before they can be transformed. The coordinates are stored in the arrays starting at the specified offset in the order [x0, y0, z0, x1, y1, z1, ..., xn, yn, zn].
      Parameters:
      srcPts - the array containing the source point coordinates. Each point is stored as a tiplet of x, y, z coordinates.
      srcOff - the offset to the first point to be transformed in the source array
      dstPts - the array into which the transformed point coordinates are returned. Each point is stored as a triplet of x, y, z coordinates.
      dstOff - the offset to the location of the first transformed point that is stored in the destination array
      numPts - the number of points to be transformed
      Throws:
      NullPointerException - if srcPts or (@code dstPts} is null
      Since:
      JavaFX 8.0
    • deltaTransform

      public Point2D deltaTransform(double x, double y)
      Transforms the relative magnitude vector by this transform. The vector is transformed without applying the translation components of the affine transformation matrix. This method can be used only for a 2D transform.
      Parameters:
      x - vector magnitude in the direction of the X axis
      y - vector magnitude in the direction of the Y axis
      Returns:
      the transformed relative magnitude vector represented by a Point2D instance
      Throws:
      IllegalStateException - if this is a 3D transform
      Since:
      JavaFX 8.0
    • deltaTransform

      public Point2D deltaTransform(Point2D point)
      Transforms the relative magnitude vector represented by the specified Point2D instance by this transform. The vector is transformed without applying the translation components of the affine transformation matrix. This method can be used only for a 2D transform.
      Parameters:
      point - the relative magnitude vector
      Returns:
      the transformed relative magnitude vector represented by a Point2D instance
      Throws:
      IllegalStateException - if this is a 3D transform
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • deltaTransform

      public Point3D deltaTransform(double x, double y, double z)
      Transforms the relative magnitude vector by this transform. The vector is transformed without applying the translation components of the affine transformation matrix.
      Parameters:
      x - vector magnitude in the direction of the X axis
      y - vector magnitude in the direction of the Y axis
      z - vector magnitude in the direction of the Z axis
      Returns:
      the transformed relative magnitude vector represented by a Point3D instance
      Since:
      JavaFX 8.0
    • deltaTransform

      public Point3D deltaTransform(Point3D point)
      Transforms the relative magnitude vector represented by the specified Point3D instance by this transform. The vector is transformed without applying the translation components of the affine transformation matrix.
      Parameters:
      point - the relative magnitude vector
      Returns:
      the transformed relative magnitude vector represented by a Point3D instance
      Throws:
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • inverseTransform

      public Point2D inverseTransform(double x, double y) throws NonInvertibleTransformException
      Transforms the specified point by the inverse of this transform. This method can be used only for 2D transforms.
      Parameters:
      x - the X coordinate of the point
      y - the Y coordinate of the point
      Returns:
      the inversely transformed point
      Throws:
      IllegalStateException - if this is a 3D transform
      NonInvertibleTransformException - if this transform cannot be inverted
      Since:
      JavaFX 8.0
    • inverseTransform

      public Point2D inverseTransform(Point2D point) throws NonInvertibleTransformException
      Transforms the specified point by the inverse of this transform. This method can be used only for 2D transforms.
      Parameters:
      point - the point to be transformed
      Returns:
      the inversely transformed point
      Throws:
      IllegalStateException - if this is a 3D transform
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • inverseTransform

      public Point3D inverseTransform(double x, double y, double z) throws NonInvertibleTransformException
      Transforms the specified point by the inverse of this transform.
      Parameters:
      x - the X coordinate of the point
      y - the Y coordinate of the point
      z - the Z coordinate of the point
      Returns:
      the inversely transformed point
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      Since:
      JavaFX 8.0
    • inverseTransform

      public Point3D inverseTransform(Point3D point) throws NonInvertibleTransformException
      Transforms the specified point by the inverse of this transform.
      Parameters:
      point - the point to be transformed
      Returns:
      the inversely transformed point
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • inverseTransform

      public Bounds inverseTransform(Bounds bounds) throws NonInvertibleTransformException
      Transforms the specified bounds by the inverse of this transform.
      Parameters:
      bounds - the bounds to be transformed
      Returns:
      the inversely transformed bounds
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if the specified bounds is null
      Since:
      JavaFX 8.0
    • inverseTransform2DPoints

      public void inverseTransform2DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) throws NonInvertibleTransformException
      Transforms an array of coordinates by the inverse of this transform. The two coordinate array sections can be exactly the same or can be overlapping sections of the same array without affecting the validity of the results. This method ensures that no source coordinates are overwritten by a previous operation before they can be transformed. The coordinates are stored in the arrays starting at the specified offset in the order [x0, y0, x1, y1, ..., xn, yn]. This method can be used only for 2D transforms.
      Parameters:
      srcPts - the array containing the source point coordinates. Each point is stored as a pair of x, y coordinates.
      srcOff - the offset to the first point to be transformed in the source array
      dstPts - the array into which the transformed point coordinates are returned. Each point is stored as a pair of x, y coordinates.
      dstOff - the offset to the location of the first transformed point that is stored in the destination array
      numPts - the number of points to be transformed
      Throws:
      IllegalStateException - if this is a 3D transform
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if srcPts or (@code dstPts} is null
      Since:
      JavaFX 8.0
    • inverseTransform3DPoints

      public void inverseTransform3DPoints(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) throws NonInvertibleTransformException
      Transforms an array of floating point coordinates by the inverse of this transform. The three coordinate array sections can be exactly the same or can be overlapping sections of the same array without affecting the validity of the results. This method ensures that no source coordinates are overwritten by a previous operation before they can be transformed. The coordinates are stored in the arrays starting at the specified offset in the order [x0, y0, z0, x1, y1, z1, ..., xn, yn, zn].
      Parameters:
      srcPts - the array containing the source point coordinates. Each point is stored as a triplet of x, y, z coordinates.
      srcOff - the offset to the first point to be transformed in the source array
      dstPts - the array into which the transformed point coordinates are returned. Each point is stored as a triplet of x, y, z coordinates.
      dstOff - the offset to the location of the first transformed point that is stored in the destination array
      numPts - the number of points to be transformed
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if srcPts or (@code dstPts} is null
      Since:
      JavaFX 8.0
    • inverseDeltaTransform

      public Point2D inverseDeltaTransform(double x, double y) throws NonInvertibleTransformException
      Transforms the relative magnitude vector by the inverse of this transform. The vector is transformed without applying the translation components of the affine transformation matrix. This method can be used only for a 2D transform.
      Parameters:
      x - vector magnitude in the direction of the X axis
      y - vector magnitude in the direction of the Y axis
      Returns:
      the inversely transformed relative magnitude vector represented by a Point2D instance
      Throws:
      IllegalStateException - if this is a 3D transform
      NonInvertibleTransformException - if this transform cannot be inverted
      Since:
      JavaFX 8.0
    • inverseDeltaTransform

      public Point2D inverseDeltaTransform(Point2D point) throws NonInvertibleTransformException
      Transforms the relative magnitude vector represented by the specified Point2D instance by the inverse of this transform. The vector is transformed without applying the translation components of the affine transformation matrix. This method can be used only for a 2D transform.
      Parameters:
      point - the relative magnitude vector
      Returns:
      the inversely transformed relative magnitude vector represented by a Point2D instance
      Throws:
      IllegalStateException - if this is a 3D transform
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • inverseDeltaTransform

      public Point3D inverseDeltaTransform(double x, double y, double z) throws NonInvertibleTransformException
      Transforms the relative magnitude vector by the inverse of this transform. The vector is transformed without applying the translation components of the affine transformation matrix.
      Parameters:
      x - vector magnitude in the direction of the X axis
      y - vector magnitude in the direction of the Y axis
      z - vector magnitude in the direction of the Z axis
      Returns:
      the inversely transformed relative magnitude vector represented by a Point3D instance
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      Since:
      JavaFX 8.0
    • inverseDeltaTransform

      public Point3D inverseDeltaTransform(Point3D point) throws NonInvertibleTransformException
      Transforms the relative magnitude vector represented by the specified Point3D instance by the inverse of this transform. The vector is transformed without applying the translation components of the affine transformation matrix.
      Parameters:
      point - the relative magnitude vector
      Returns:
      the inversely transformed relative magnitude vector represented by a Point3D instance
      Throws:
      NonInvertibleTransformException - if this transform cannot be inverted
      NullPointerException - if the specified point is null
      Since:
      JavaFX 8.0
    • buildEventDispatchChain

      public EventDispatchChain buildEventDispatchChain(EventDispatchChain tail)
      Description copied from interface: EventTarget
      Construct an event dispatch chain for this target. The event dispatch chain contains event dispatchers which might be interested in processing of events targeted at this EventTarget. This event target is not automatically added to the chain, so if it wants to process events, it needs to add an EventDispatcher for itself to the chain.

      In the case the event target is part of some hierarchy, the chain for it is usually built from event dispatchers collected from the root of the hierarchy to the event target.

      The event dispatch chain is constructed by modifications to the provided initial event dispatch chain. The returned chain should have the initial chain at its end so the dispatchers should be prepended to the initial chain.

      The caller shouldn't assume that the initial chain remains unchanged nor that the returned value will reference a different chain.

      Specified by:
      buildEventDispatchChain in interface EventTarget
      Parameters:
      tail - the initial chain to build from
      Returns:
      the resulting event dispatch chain for this target
    • addEventHandler

      public final <T extends Event> void addEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
      Registers an event handler for this target.

      The handler is called when the target receives an Event of the specified type during the bubbling phase of event delivery.

      Currently the only event delivered to a Transform is the TransformChangedEvent with its single type TRANSFORM_CHANGED.

      Specified by:
      addEventHandler in interface EventTarget
      Type Parameters:
      T - the event class of the handler
      Parameters:
      eventType - the type of the events received by the handler
      eventHandler - the event handler
      Since:
      JavaFX 8.0
    • removeEventHandler

      public final <T extends Event> void removeEventHandler(EventType<T> eventType, EventHandler<? super T> eventHandler)
      Unregisters a previously registered event handler from this target.

      Since it is possible to register a single EventHandler instance for different event types, the caller needs to specify the event type from which the handler should be unregistered.

      Specified by:
      removeEventHandler in interface EventTarget
      Type Parameters:
      T - the event class of the handler
      Parameters:
      eventType - the event type from which to unregister
      eventHandler - the event handler
      Since:
      JavaFX 8.0
    • addEventFilter

      public final <T extends Event> void addEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
      Registers an event filter for this target.

      The filter is called when the target receives an Event of the specified type during the capturing phase of event delivery.

      Currently the only event delivered to a Transform is the TransformChangedEvent with its single type TRANSFORM_CHANGED.

      Specified by:
      addEventFilter in interface EventTarget
      Type Parameters:
      T - the event class of the filter
      Parameters:
      eventType - the type of the events received by the filter
      eventFilter - the event filter
      Since:
      JavaFX 8.0
    • removeEventFilter

      public final <T extends Event> void removeEventFilter(EventType<T> eventType, EventHandler<? super T> eventFilter)
      Unregisters a previously registered event filter from this target.

      Since it is possible to register a single EventHandler instance for different event types, the caller needs to specify the event type from which the filter should be unregistered.

      Specified by:
      removeEventFilter in interface EventTarget
      Type Parameters:
      T - the event class of the filter
      Parameters:
      eventType - the event type from which to unregister
      eventFilter - the event filter
      Since:
      JavaFX 8.0
    • setOnTransformChanged

      public final void setOnTransformChanged(EventHandler<? super TransformChangedEvent> value)
      Sets the onTransformChanged event handler which is called whenever the transform changes any of its parameters.
      Parameters:
      value - the event handler, can be null to clear it
      Since:
      JavaFX 8.0
    • getOnTransformChanged

      public final EventHandler<? super TransformChangedEvent> getOnTransformChanged()
      Gets the onTransformChanged event handler.
      Returns:
      the event handler previously set by setOnTransformChanged method, null if the handler is not set.
      Since:
      JavaFX 8.0
    • onTransformChangedProperty

      public final ObjectProperty<EventHandler<? super TransformChangedEvent>> onTransformChangedProperty()
      The onTransformChanged event handler is called whenever the transform changes any of its parameters.
      Returns:
      the onTransformChanged event handler
      Since:
      JavaFX 8.0
      See Also:
    • transformChanged

      protected void transformChanged()
      This method must be called by all transforms whenever any of their parameters changes. It is typically called when any of the transform's properties is invalidated (it is OK to skip the call if an invalid property is set).
      Since:
      JavaFX 8.0