-
LinearGradient
-
startX: double
-
getStartX(): double
-
startY: double
-
getStartY(): double
-
endX: double
-
getEndX(): double
-
endY: double
-
getEndY(): double
-
proportional: boolean
-
isProportional(): boolean
-
cycleMethod: CycleMethod
-
getCycleMethod(): CycleMethod
-
stops: List<Stop>
-
getStops(): List<Stop>
-
isOpaque(): boolean
-
opaque: boolean
-
platformPaint: Object
-
hash: int
-
LinearGradient(double, double, double, double, boolean, CycleMethod, Stop[]): void
-
LinearGradient(double, double, double, double, boolean, CycleMethod, List<Stop>): void
-
determineOpacity(): boolean
-
acc_getPlatformPaint(): Object
-
equals(Object): boolean
-
hashCode(): int
-
toString(): String
-
valueOf(String): LinearGradient
-
/*
* Copyright (c) 2010, 2017, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
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 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 Stops specifying how to distribute the colors along the gradient. The 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
/**
* <p>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.</p>
*
* <p>
* 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. </p>
*
* <p>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.</p>
*
* <p>
* 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</p>
*
<PRE>
// 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);
</PRE>
* @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.
(
Returns: the X coordinate of the gradient axis start point @defaultValue 0.0
/**
* 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.
Returns: the Y coordinate of the gradient axis start point @defaultValue 0.0
/**
* 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.
Returns: the X coordinate of the gradient axis end point @defaultValue 1.0
/**
* 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.
Returns: the Y coordinate of the gradient axis end point @defaultValue 1.0
/**
* 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 [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. Returns: if true start and end locations are proportional, otherwise absolute @defaultValue true
/**
* 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 LinearGradient: CycleMethod.NO_CYCLE, CycleMethod.REFLECT, or CycleMethod.REPEAT. Returns: the cycle method applied to this linear gradient @defaultValue NO_CYCLE
/**
* 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<Stop> stops;
A sequence of 2 or more 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 UnsupportedOperationException on each modification attempt.
Returns: the list of stop values @defaultValue empty
/**
* 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.
*
* <p>Each stop in the sequence must have an offset that is greater than the
* previous stop in the sequence.</p>
*
* <p>The list is unmodifiable and will throw
* {@code UnsupportedOperationException} on each modification attempt.</p>
*
* @return the list of stop values
* @defaultValue empty
*/
public final List<Stop> getStops() {
return stops;
}
{@inheritDoc}
Since: JavaFX 8.0
/**
* {@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
/**
* 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.
/**
* 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.
Params: - startX – the X coordinate of the gradient axis start point
- startY – the Y coordinate of the gradient axis start point
- endX – the X coordinate of the gradient axis end point
- endY – the Y coordinate of the gradient axis end point
- proportional – whether the coordinates are proportional
to the shape which this gradient fills
- cycleMethod – cycle method applied to the gradient
- stops – the gradient's color specification
/**
* 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.
Params: - startX – the X coordinate of the gradient axis start point
- startY – the Y coordinate of the gradient axis start point
- endX – the X coordinate of the gradient axis end point
- endY – the Y coordinate of the gradient axis end point
- proportional – whether the coordinates are proportional
to the shape which this gradient fills
- cycleMethod – cycle method applied to the gradient
- stops – the gradient's color specification
/**
* 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<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();
}
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.
Returns: Whether this gradient is opaque
/**
* 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.
Params: - obj – the reference object with which to compare.
Returns: true if this object is equal to the obj argument; false otherwise.
/**
* 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 LinearGradient object. Returns: a hash code for this LinearGradient object.
/**
* 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 LinearGradient object. Returns: a string representation of this LinearGradient object.
/**
* 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 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:
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%");
Params: - value – the string to convert
Throws: - NullPointerException – if the
value is null - IllegalArgumentException – if the
value cannot be parsed
Returns: a LinearGradient object holding the value represented by the string argument. Since: JavaFX 2.1
/**
* Creates a linear gradient value from a string representation.
* <p>The format of the string representation is based on
* JavaFX CSS specification for linear gradient which is
* <pre>
* linear-gradient( [ [from <point> to <point>| [ to <side-or-corner>], ]? [ [ repeat | reflect ], ]? <color-stop>[, <color-stop>]+)
* </pre>
* where
* <pre>
* <side-or-corner> = [left | right] || [top | bottom]
* <point> = [ [ <length> <length> ] | [ <percentage> | <percentage> ] ]
* <color-stop> = [ <color> [ <percentage> | <length>]? ]
* </pre>
* <p> 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
* <a href="../doc-files/cssref.html">CSS Reference Guide</a>.
* </p>
*
* Examples:
* <pre>{@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%");
* }</pre>
*
* @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);
}
}