javafx.scene.paint.LinearGradient Maven / Gradle / Ivy
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package javafx.scene.paint;
import java.util.List;
import com.sun.javafx.scene.paint.GradientUtils;
import com.sun.javafx.tk.Toolkit;
import javafx.beans.NamedArg;
/**
* The {@code LinearGradient} class fills a shape
* with a linear color gradient pattern. The user may specify two or
* more gradient colors, and this Paint will provide an interpolation
* between each color.
*
*
* The application provides an array of {@code Stop}s specifying how to distribute
* the colors along the gradient. The {@code Stop#offset} variable must be
* the range 0.0 to 1.0 and act like keyframes along the gradient.
* The offsets mark where the gradient should be exactly a particular color.
*
* If the proportional variable is set to true
* then the start and end points of the gradient
* should be specified relative to the unit square (0.0->1.0) and will
* be stretched across the shape. If the proportional variable is set
* to false, then the start and end points should be specified
* in the local coordinate system of the shape and the gradient will
* not be stretched at all.
*
*
* The two filled rectangles in the example below will render the same.
* The one on the left uses proportional coordinates to specify
* the end points of the gradient. The one on the right uses absolute
* coordinates. Both of them fill the specified rectangle with a
* horizontal gradient that varies from black to red
*
// object bounding box relative (proportional = true)
Stop[] stops = new Stop[] { new Stop(0, Color.BLACK), new Stop(1, Color.RED)};
LinearGradient lg1 = new LinearGradient(0, 0, 1, 0, true, CycleMethod.NO_CYCLE, stops);
Rectangle r1 = new Rectangle(0, 0, 100, 100);
r1.setFill(lg1);
// user space relative (proportional: = false)
LinearGradient lg2 = new LinearGradient(125, 0, 225, 0, false, CycleMethod.NO_CYCLE, stops);
Rectangle r2 = new Rectangle(125, 0, 100, 100);
r2.setFill(lg2);
* @since JavaFX 2.0
*/
public final class LinearGradient extends Paint {
private double startX;
/**
* Defines the X coordinate of the gradient axis start point.
* If proportional is true (the default), this value specifies a
* point on a unit square that will be scaled to match the size of the
* the shape that the gradient fills.
(
* @return the X coordinate of the gradient axis start point
* @defaultValue 0.0
*/
public final double getStartX() {
return startX;
}
private double startY;
/**
* Defines the Y coordinate of the gradient axis start point.
* If proportional is true (the default), this value specifies a
* point on a unit square that will be scaled to match the size of the
* the shape that the gradient fills.
*
* @return the Y coordinate of the gradient axis start point
* @defaultValue 0.0
*/
public final double getStartY() {
return startY;
}
private double endX;
/**
* Defines the X coordinate of the gradient axis end point.
* If proportional is true (the default), this value specifies a
* point on a unit square that will be scaled to match the size of the
* the shape that the gradient fills.
*
* @return the X coordinate of the gradient axis end point
* @defaultValue 1.0
*/
public final double getEndX() {
return endX;
}
private double endY;
/**
* Defines the Y coordinate of the gradient axis end point.
* If proportional is true (the default), this value specifies a
* point on a unit square that will be scaled to match the size of the
* the shape that the gradient fills.
*
* @return the Y coordinate of the gradient axis end point
* @defaultValue 1.0
*/
public final double getEndY() {
return endY;
}
private boolean proportional;
/**
* Indicates whether start and end locations are proportional or absolute.
* If this flag is true, the two end points are defined in a coordinate
* space where coordinates in the range {@code [0..1]} are scaled to map
* onto the bounds of the shape that the gradient fills.
* If this flag is false, then the coordinates are specified in the local
* coordinate system of the node.
*
* @return if true start and end locations are proportional, otherwise absolute
* @defaultValue true
*/
public final boolean isProportional() {
return proportional;
}
private CycleMethod cycleMethod;
/**
* Defines which of the following cycle method is applied
* to the {@code LinearGradient}: {@code CycleMethod.NO_CYCLE},
* {@code CycleMethod.REFLECT}, or {@code CycleMethod.REPEAT}.
*
* @return the cycle method applied to this linear gradient
* @defaultValue NO_CYCLE
*/
public final CycleMethod getCycleMethod() {
return cycleMethod;
}
private List stops;
/**
* A sequence of 2 or more {@code Stop} values specifying how to distribute
* the colors along the gradient. These values must be in the range
* 0.0 to 1.0. They act like key frames along the gradient: they mark where
* the gradient should be exactly a particular color.
*
* Each stop in the sequence must have an offset that is greater than the
* previous stop in the sequence.
*
* The list is unmodifiable and will throw
* {@code UnsupportedOperationException} on each modification attempt.
*
* @return the list of stop values
* @defaultValue empty
*/
public final List getStops() {
return stops;
}
/**
* {@inheritDoc}
* @since JavaFX 8.0
*/
@Override public final boolean isOpaque() {
return opaque;
}
private final boolean opaque;
/**
* A cached reference to the platform paint, no point recomputing twice
*/
private Object platformPaint;
/**
* The cached hash code, used to improve performance in situations where
* we cache gradients, such as in the CSS routines.
*/
private int hash;
/**
* Creates a new instance of LinearGradient.
* @param startX the X coordinate of the gradient axis start point
* @param startY the Y coordinate of the gradient axis start point
* @param endX the X coordinate of the gradient axis end point
* @param endY the Y coordinate of the gradient axis end point
* @param proportional whether the coordinates are proportional
* to the shape which this gradient fills
* @param cycleMethod cycle method applied to the gradient
* @param stops the gradient's color specification
*/
public LinearGradient(
@NamedArg("startX") double startX,
@NamedArg("startY") double startY,
@NamedArg(value="endX", defaultValue="1") double endX,
@NamedArg(value="endY", defaultValue="1") double endY,
@NamedArg(value="proportional", defaultValue="true") boolean proportional,
@NamedArg("cycleMethod") CycleMethod cycleMethod,
@NamedArg("stops") Stop... stops) {
this.startX = startX;
this.startY = startY;
this.endX = endX;
this.endY = endY;
this.proportional = proportional;
this.cycleMethod = (cycleMethod == null) ? CycleMethod.NO_CYCLE: cycleMethod;
this.stops = Stop.normalize(stops);
this.opaque = determineOpacity();
}
/**
* Creates a new instance of LinearGradient.
* @param startX the X coordinate of the gradient axis start point
* @param startY the Y coordinate of the gradient axis start point
* @param endX the X coordinate of the gradient axis end point
* @param endY the Y coordinate of the gradient axis end point
* @param proportional whether the coordinates are proportional
* to the shape which this gradient fills
* @param cycleMethod cycle method applied to the gradient
* @param stops the gradient's color specification
*/
public LinearGradient(
@NamedArg("startX") double startX,
@NamedArg("startY") double startY,
@NamedArg(value="endX", defaultValue="1") double endX,
@NamedArg(value="endY", defaultValue="1") double endY,
@NamedArg(value="proportional", defaultValue="true") boolean proportional,
@NamedArg("cycleMethod") CycleMethod cycleMethod,
@NamedArg("stops") List stops) {
this.startX = startX;
this.startY = startY;
this.endX = endX;
this.endY = endY;
this.proportional = proportional;
this.cycleMethod = (cycleMethod == null) ? CycleMethod.NO_CYCLE: cycleMethod;
this.stops = Stop.normalize(stops);
this.opaque = determineOpacity();
}
/**
* Iterate over all the stops. If any one of them has a transparent
* color, then we return false. If there are no stops, we return false.
* Otherwise, we return true. Note that this is called AFTER Stop.normalize,
* which ensures that we always have at least 2 stops.
*
* @return Whether this gradient is opaque
*/
private boolean determineOpacity() {
final int numStops = this.stops.size();
for (int i = 0; i < numStops; i++) {
if (!stops.get(i).getColor().isOpaque()) {
return false;
}
}
return true;
}
@Override
Object acc_getPlatformPaint() {
if (platformPaint == null) {
platformPaint = Toolkit.getToolkit().getPaint(this);
}
return platformPaint;
}
/**
* Indicates whether some other object is "equal to" this one.
* @param obj the reference object with which to compare.
* @return {@code true} if this object is equal to the {@code obj} argument; {@code false} otherwise.
*/
@Override public boolean equals(Object obj) {
if (obj == null) return false;
if (obj == this) return true;
if (obj instanceof LinearGradient) {
final LinearGradient other = (LinearGradient) obj;
if ((startX != other.startX) ||
(startY != other.startY) ||
(endX != other.endX) ||
(endY != other.endY) ||
(proportional != other.proportional) ||
(cycleMethod != other.cycleMethod)) return false;
if (!stops.equals(other.stops)) return false;
return true;
} else return false;
}
/**
* Returns a hash code for this {@code LinearGradient} object.
* @return a hash code for this {@code LinearGradient} object.
*/
@Override public int hashCode() {
if (hash == 0) {
long bits = 17L;
bits = 37L * bits + Double.doubleToLongBits(startX);
bits = 37L * bits + Double.doubleToLongBits(startY);
bits = 37L * bits + Double.doubleToLongBits(endX);
bits = 37L * bits + Double.doubleToLongBits(endY);
bits = 37L * bits + ((proportional) ? 1231L : 1237L);
bits = 37L * bits + cycleMethod.hashCode();
for (Stop stop: stops) {
bits = 37L * bits + stop.hashCode();
}
hash = (int) (bits ^ (bits >> 32));
}
return hash;
}
/**
* Returns a string representation of this {@code LinearGradient} object.
* @return a string representation of this {@code LinearGradient} object.
*/
@Override public String toString() {
final StringBuilder s = new StringBuilder("linear-gradient(from ")
.append(GradientUtils.lengthToString(startX, proportional))
.append(" ").append(GradientUtils.lengthToString(startY, proportional))
.append(" to ").append(GradientUtils.lengthToString(endX, proportional))
.append(" ").append(GradientUtils.lengthToString(endY, proportional))
.append(", ");
switch (cycleMethod) {
case REFLECT:
s.append("reflect").append(", ");
break;
case REPEAT:
s.append("repeat").append(", ");
break;
}
for (Stop stop : stops) {
s.append(stop).append(", ");
}
s.delete(s.length() - 2, s.length());
s.append(")");
return s.toString();
}
/**
* Creates a linear gradient value from a string representation.
* The format of the string representation is based on
* JavaFX CSS specification for linear gradient which is
*
* linear-gradient( [ [from <point> to <point>| [ to <side-or-corner>], ]? [ [ repeat | reflect ], ]? <color-stop>[, <color-stop>]+)
*
* where
*
* <side-or-corner> = [left | right] || [top | bottom]
* <point> = [ [ <length> <length> ] | [ <percentage> | <percentage> ] ]
* <color-stop> = [ <color> [ <percentage> | <length>]? ]
*
* Currently length can be only specified in px, the specification of unit can be omited.
* Format of color representation is the one used in {@link Color#web(String color)}.
* The linear-gradient keyword can be omited.
* For additional information about the format of string representation, see the
* CSS Reference Guide.
*
*
* Examples:
* {@code
* LinearGradient g
* = LinearGradient.valueOf("linear-gradient(from 0% 0% to 100% 100%, red 0% , blue 30%, black 100%)");
* LinearGradient g
* = LinearGradient.valueOf("from 0% 0% to 100% 100%, red 0% , blue 30%, black 100%");
* LinearGradient g
* = LinearGradient.valueOf("linear-gradient(from 0px 0px to 200px 0px, #00ff00 0%, 0xff0000 50%, 0x1122ff40 100%)");
* LinearGradient g
* = LinearGradient.valueOf("from 0px 0px to 200px 0px, #00ff00 0%, 0xff0000 50%, 0x1122ff40 100%");
* }
*
* @param value the string to convert
* @throws NullPointerException if the {@code value} is {@code null}
* @throws IllegalArgumentException if the {@code value} cannot be parsed
* @return a {@code LinearGradient} object holding the value represented
* by the string argument.
* @since JavaFX 2.1
*/
public static LinearGradient valueOf(String value) {
if (value == null) {
throw new NullPointerException("gradient must be specified");
}
String start = "linear-gradient(";
String end = ")";
if (value.startsWith(start)) {
if (!value.endsWith(end)) {
throw new IllegalArgumentException("Invalid gradient specification, "
+ "must end with \"" + end + '"');
}
value = value.substring(start.length(), value.length() - end.length());
}
GradientUtils.Parser parser = new GradientUtils.Parser(value);
if (parser.getSize() < 2) {
throw new IllegalArgumentException("Invalid gradient specification");
}
GradientUtils.Point startX = GradientUtils.Point.MIN;
GradientUtils.Point startY = GradientUtils.Point.MIN;
GradientUtils.Point endX = GradientUtils.Point.MIN;
GradientUtils.Point endY = GradientUtils.Point.MIN;
String[] tokens = parser.splitCurrentToken();
if ("from".equals(tokens[0])) {
GradientUtils.Parser.checkNumberOfArguments(tokens, 5);
startX = parser.parsePoint(tokens[1]);
startY = parser.parsePoint(tokens[2]);
if (!"to".equals(tokens[3])) {
throw new IllegalArgumentException("Invalid gradient specification, \"to\" expected");
}
endX = parser.parsePoint(tokens[4]);
endY = parser.parsePoint(tokens[5]);
parser.shift();
} else if ("to".equals(tokens[0])) {
int horizontalSet = 0;
int verticalSet = 0;
for (int i = 1; i < 3 && i < tokens.length; i++) {
if ("left".equals(tokens[i])) {
startX = GradientUtils.Point.MAX;
endX = GradientUtils.Point.MIN;
horizontalSet++;
} else if ("right".equals(tokens[i])) {
startX = GradientUtils.Point.MIN;
endX = GradientUtils.Point.MAX;
horizontalSet++;
} else if ("top".equals(tokens[i])) {
startY = GradientUtils.Point.MAX;
endY = GradientUtils.Point.MIN;
verticalSet++;
} else if ("bottom".equals(tokens[i])) {
startY = GradientUtils.Point.MIN;
endY = GradientUtils.Point.MAX;
verticalSet++;
} else {
throw new IllegalArgumentException("Invalid gradient specification,"
+ " unknown value after 'to'");
}
}
if (verticalSet > 1) {
throw new IllegalArgumentException("Invalid gradient specification,"
+ " vertical direction set twice after 'to'");
}
if (horizontalSet > 1) {
throw new IllegalArgumentException("Invalid gradient specification,"
+ " horizontal direction set twice after 'to'");
}
parser.shift();
} else {
// default is "to bottom"
startY = GradientUtils.Point.MIN;
endY = GradientUtils.Point.MAX;
}
// repeat/reflect
CycleMethod method = CycleMethod.NO_CYCLE;
String currentToken = parser.getCurrentToken();
if ("repeat".equals(currentToken)) {
method = CycleMethod.REPEAT;
parser.shift();
} else if ("reflect".equals(currentToken)) {
method = CycleMethod.REFLECT;
parser.shift();
}
double dist = 0;
if (!startX.proportional) {
double dx = endX.value - startX.value;
double dy = endY.value - startY.value;
dist = Math.sqrt(dx*dx + dy*dy);
}
Stop[] stops = parser.parseStops(startX.proportional, dist);
return new LinearGradient(startX.value, startY.value, endX.value, endY.value,
startX.proportional, method, stops);
}
}