javafx.animation.ScaleTransition Maven / Gradle / Ivy
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package javafx.animation;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.ObjectPropertyBase;
import javafx.beans.property.SimpleDoubleProperty;
import javafx.beans.property.SimpleObjectProperty;
import javafx.scene.Node;
import javafx.util.Duration;
/**
* This {@code Transition} creates a scale animation that spans its
* {@link #durationProperty() duration}. This is done by updating the {@code scaleX},
* {@code scaleY} and {@code scaleZ} variables of the {@code node} at regular
* interval.
*
* It starts from the ({@code fromX}, {@code fromY}, {@code fromZ}) value if
* provided else uses the {@code node}'s ({@code scaleX}, {@code scaleY},
* {@code scaleZ}) value.
*
* It stops at the ({@code toX}, {@code toY}, {@code toZ}) value if provided
* else it will use start value plus ({@code byX}, {@code byY}, {@code byZ})
* value.
*
* The ({@code toX}, {@code toY}, {@code toZ}) value takes precedence if both (
* {@code toX}, {@code toY}, {@code toZ}) and ({@code byX}, {@code byY},
* {@code byZ}) values are specified.
*
*
* Code Segment Example:
*
*
*
*
* import javafx.scene.shape.*;
* import javafx.animation.*;
*
* ...
*
* Rectangle rect = new Rectangle (100, 40, 100, 100);
* rect.setArcHeight(50);
* rect.setArcWidth(50);
* rect.setFill(Color.VIOLET);
*
* ScaleTransition st = new ScaleTransition(Duration.millis(2000), rect);
* st.setByX(1.5f);
* st.setByY(1.5f);
* st.setCycleCount(4f);
* st.setAutoReverse(true);
*
* st.play();
*
* ...
*
*
*
*
* @see Transition
* @see Animation
*
* @since JavaFX 2.0
*/
public final class ScaleTransition extends Transition {
private static final double EPSILON = 1e-12;
private double startX;
private double startY;
private double startZ;
private double deltaX;
private double deltaY;
private double deltaZ;
/**
* The target node of this {@code ScaleTransition}.
*
* It is not possible to change the target {@code node} of a running
* {@code ScaleTransition}. If the value of {@code node} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*/
private ObjectProperty node;
private static final Node DEFAULT_NODE = null;
public final void setNode(Node value) {
if ((node != null) || (value != null /* DEFAULT_NODE */)) {
nodeProperty().set(value);
}
}
public final Node getNode() {
return (node == null)? DEFAULT_NODE : node.get();
}
public final ObjectProperty nodeProperty() {
if (node == null) {
node = new SimpleObjectProperty(this, "node", DEFAULT_NODE);
}
return node;
}
private Node cachedNode;
/**
* The duration of this {@code ScaleTransition}.
*
* It is not possible to change the {@code duration} of a running
* {@code ScaleTransition}. If the value of {@code duration} is changed for
* a running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* Note: While the unit of {@code duration} is a millisecond, the
* granularity depends on the underlying operating system and will in
* general be larger. For example animations on desktop systems usually run
* with a maximum of 60fps which gives a granularity of ~17 ms.
*
* Setting duration to value lower than {@link Duration#ZERO} will result
* in {@link IllegalArgumentException}.
*
* @defaultValue 400ms
*/
private ObjectProperty duration;
private static final Duration DEFAULT_DURATION = Duration.millis(400);
public final void setDuration(Duration value) {
if ((duration != null) || (!DEFAULT_DURATION.equals(value))) {
durationProperty().set(value);
}
}
public final Duration getDuration() {
return (duration == null)? DEFAULT_DURATION : duration.get();
}
public final ObjectProperty durationProperty() {
if (duration == null) {
duration = new ObjectPropertyBase(DEFAULT_DURATION) {
@Override
public void invalidated() {
try {
setCycleDuration(getDuration());
} catch (IllegalArgumentException e) {
if (isBound()) {
unbind();
}
set(getCycleDuration());
throw e;
}
}
@Override
public Object getBean() {
return ScaleTransition.this;
}
@Override
public String getName() {
return "duration";
}
};
}
return duration;
}
/**
* Specifies the start X scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code fromX} of a running
* {@code ScaleTransition}. If the value of {@code fromX} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty fromX;
private static final double DEFAULT_FROM_X = Double.NaN;
public final void setFromX(double value) {
if ((fromX != null) || (!Double.isNaN(value))) {
fromXProperty().set(value);
}
}
public final double getFromX() {
return (fromX == null) ? DEFAULT_FROM_X : fromX.get();
}
public final DoubleProperty fromXProperty() {
if (fromX == null) {
fromX = new SimpleDoubleProperty(this, "fromX", DEFAULT_FROM_X);
}
return fromX;
}
/**
* Specifies the start Y scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code fromY} of a running
* {@code ScaleTransition}. If the value of {@code fromY} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty fromY;
private static final double DEFAULT_FROM_Y = Double.NaN;
public final void setFromY(double value) {
if ((fromY != null) || (!Double.isNaN(value))) {
fromYProperty().set(value);
}
}
public final double getFromY() {
return (fromY == null)? DEFAULT_FROM_Y : fromY.get();
}
public final DoubleProperty fromYProperty() {
if (fromY == null) {
fromY = new SimpleDoubleProperty(this, "fromY", DEFAULT_FROM_Y);
}
return fromY;
}
/**
* Specifies the start Z scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code fromZ} of a running
* {@code ScaleTransition}. If the value of {@code fromZ} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty fromZ;
private static final double DEFAULT_FROM_Z = Double.NaN;
public final void setFromZ(double value) {
if ((fromZ != null) || (!Double.isNaN(value))) {
fromZProperty().set(value);
}
}
public final double getFromZ() {
return (fromZ == null)? DEFAULT_FROM_Z : fromZ.get();
}
public final DoubleProperty fromZProperty() {
if (fromZ == null) {
fromZ = new SimpleDoubleProperty(this, "fromZ", DEFAULT_FROM_Z);
}
return fromZ;
}
/**
* Specifies the stop X scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code toX} of a running
* {@code ScaleTransition}. If the value of {@code toX} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty toX;
private static final double DEFAULT_TO_X = Double.NaN;
public final void setToX(double value) {
if ((toX != null) || (!Double.isNaN(value))) {
toXProperty().set(value);
}
}
public final double getToX() {
return (toX == null)? DEFAULT_TO_X : toX.get();
}
public final DoubleProperty toXProperty() {
if (toX == null) {
toX = new SimpleDoubleProperty(this, "toX", DEFAULT_TO_X);
}
return toX;
}
/**
* The stop Y scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code toY} of a running
* {@code ScaleTransition}. If the value of {@code toY} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty toY;
private static final double DEFAULT_TO_Y = Double.NaN;
public final void setToY(double value) {
if ((toY != null) || (!Double.isNaN(value))) {
toYProperty().set(value);
}
}
public final double getToY() {
return (toY == null)? DEFAULT_TO_Y : toY.get();
}
public final DoubleProperty toYProperty() {
if (toY == null) {
toY = new SimpleDoubleProperty(this, "toY", DEFAULT_TO_Y);
}
return toY;
}
/**
* The stop Z scale value of this {@code ScaleTransition}.
*
* It is not possible to change {@code toZ} of a running
* {@code ScaleTransition}. If the value of {@code toZ} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*
* @defaultValue {@code Double.NaN}
*/
private DoubleProperty toZ;
private static final double DEFAULT_TO_Z = Double.NaN;
public final void setToZ(double value) {
if ((toZ != null) || (!Double.isNaN(value))) {
toZProperty().set(value);
}
}
public final double getToZ() {
return (toZ == null)? DEFAULT_TO_Z : toZ.get();
}
public final DoubleProperty toZProperty() {
if (toZ == null) {
toZ = new SimpleDoubleProperty(this, "toZ", DEFAULT_TO_Z);
}
return toZ;
}
/**
* Specifies the incremented stop X scale value, from the start, of this
* {@code ScaleTransition}.
*
* It is not possible to change {@code byX} of a running
* {@code ScaleTransition}. If the value of {@code byX} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*/
private DoubleProperty byX;
private static final double DEFAULT_BY_X = 0.0;
public final void setByX(double value) {
if ((byX != null) || (Math.abs(value - DEFAULT_BY_X) > EPSILON)) {
byXProperty().set(value);
}
}
public final double getByX() {
return (byX == null)? DEFAULT_BY_X : byX.get();
}
public final DoubleProperty byXProperty() {
if (byX == null) {
byX = new SimpleDoubleProperty(this, "byX", DEFAULT_BY_X);
}
return byX;
}
/**
* Specifies the incremented stop Y scale value, from the start, of this
* {@code ScaleTransition}.
*
* It is not possible to change {@code byY} of a running
* {@code ScaleTransition}. If the value of {@code byY} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*/
private DoubleProperty byY;
private static final double DEFAULT_BY_Y = 0.0;
public final void setByY(double value) {
if ((byY != null) || (Math.abs(value - DEFAULT_BY_Y) > EPSILON)) {
byYProperty().set(value);
}
}
public final double getByY() {
return (byY == null)? DEFAULT_BY_Y : byY.get();
}
public final DoubleProperty byYProperty() {
if (byY == null) {
byY = new SimpleDoubleProperty(this, "byY", DEFAULT_BY_Y);
}
return byY;
}
/**
* Specifies the incremented stop Z scale value, from the start, of this
* {@code ScaleTransition}.
*
* It is not possible to change {@code byZ} of a running
* {@code ScaleTransition}. If the value of {@code byZ} is changed for a
* running {@code ScaleTransition}, the animation has to be stopped and
* started again to pick up the new value.
*/
private DoubleProperty byZ;
private static final double DEFAULT_BY_Z = 0.0;
public final void setByZ(double value) {
if ((byZ != null) || (Math.abs(value - DEFAULT_BY_Z) > EPSILON)) {
byZProperty().set(value);
}
}
public final double getByZ() {
return (byZ == null)? DEFAULT_BY_Z : byZ.get();
}
public final DoubleProperty byZProperty() {
if (byZ == null) {
byZ = new SimpleDoubleProperty(this, "byZ", DEFAULT_BY_Z);
}
return byZ;
}
/**
* The constructor of {@code ScaleTransition}
*
* @param duration
* The duration of the {@code ScaleTransition}
* @param node
* The {@code node} which will be scaled
*/
public ScaleTransition(Duration duration, Node node) {
setDuration(duration);
setNode(node);
setCycleDuration(duration);
}
/**
* The constructor of {@code ScaleTransition}
*
* @param duration
* The duration of the {@code ScaleTransition}
*/
public ScaleTransition(Duration duration) {
this(duration, null);
}
/**
* The constructor of {@code ScaleTransition}
*/
public ScaleTransition() {
this(DEFAULT_DURATION, null);
}
/**
* {@inheritDoc}
*/
@Override
public void interpolate(double frac) {
if (!Double.isNaN(startX)) {
cachedNode.setScaleX(startX + frac * deltaX);
}
if (!Double.isNaN(startY)) {
cachedNode.setScaleY(startY + frac * deltaY);
}
if (!Double.isNaN(startZ)) {
cachedNode.setScaleZ(startZ + frac * deltaZ);
}
}
private Node getTargetNode() {
final Node node = getNode();
return (node != null) ? node : getParentTargetNode();
}
@Override
boolean startable(boolean forceSync) {
return super.startable(forceSync)
&& ((getTargetNode() != null) || (!forceSync && (cachedNode != null)));
}
@Override
void sync(boolean forceSync) {
super.sync(forceSync);
if (forceSync || (cachedNode == null)) {
cachedNode = getTargetNode();
final double _fromX = getFromX();
final double _fromY = getFromY();
final double _fromZ = getFromZ();
final double _toX = getToX();
final double _toY = getToY();
final double _toZ = getToZ();
final double _byX = getByX();
final double _byY = getByY();
final double _byZ = getByZ();
if (Double.isNaN(_fromX) && Double.isNaN(_toX) && (Math.abs(_byX) < EPSILON)) {
startX = Double.NaN;
} else {
startX = (!Double.isNaN(_fromX)) ? _fromX : cachedNode.getScaleX();
deltaX = (!Double.isNaN(_toX)) ? _toX - startX : getByX();
}
if (Double.isNaN(_fromY) && Double.isNaN(_toY) && (Math.abs(_byY) < EPSILON)) {
startY = Double.NaN;
} else {
startY = (!Double.isNaN(_fromY)) ? _fromY : cachedNode.getScaleY();
deltaY = (!Double.isNaN(_toY)) ? _toY - startY : getByY();
}
if (Double.isNaN(_fromZ) && Double.isNaN(_toZ) && (Math.abs(_byZ) < EPSILON)) {
startZ = Double.NaN;
} else {
startZ = (!Double.isNaN(_fromZ)) ? _fromZ : cachedNode.getScaleZ();
deltaZ = (!Double.isNaN(_toZ)) ? _toZ - startZ : getByZ();
}
}
}
}