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Medusa is a JavaFX 8 library containing gauges and clocks
/*
* Copyright (c) 2015 by Gerrit Grunwald
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package eu.hansolo.medusa;
import eu.hansolo.medusa.events.UpdateEvent;
import eu.hansolo.medusa.events.UpdateEventListener;
import eu.hansolo.medusa.skins.AmpSkin;
import eu.hansolo.medusa.skins.BarSkin;
import eu.hansolo.medusa.skins.BatterySkin;
import eu.hansolo.medusa.skins.BulletChartSkin;
import eu.hansolo.medusa.skins.ChargeSkin;
import eu.hansolo.medusa.skins.DashboardSkin;
import eu.hansolo.medusa.skins.DigitalSkin;
import eu.hansolo.medusa.skins.FlatSkin;
import eu.hansolo.medusa.skins.GaugeSkin;
import eu.hansolo.medusa.skins.HSkin;
import eu.hansolo.medusa.skins.IndicatorSkin;
import eu.hansolo.medusa.skins.KpiSkin;
import eu.hansolo.medusa.skins.LcdSkin;
import eu.hansolo.medusa.skins.LevelSkin;
import eu.hansolo.medusa.skins.LinearSkin;
import eu.hansolo.medusa.skins.ModernSkin;
import eu.hansolo.medusa.skins.PlainAmpSkin;
import eu.hansolo.medusa.skins.QuarterSkin;
import eu.hansolo.medusa.skins.SectionSkin;
import eu.hansolo.medusa.skins.SimpleDigitalSkin;
import eu.hansolo.medusa.skins.SimpleSectionSkin;
import eu.hansolo.medusa.skins.SimpleSkin;
import eu.hansolo.medusa.skins.SlimSkin;
import eu.hansolo.medusa.skins.SpaceXSkin;
import eu.hansolo.medusa.skins.TileKpiSkin;
import eu.hansolo.medusa.skins.TileSparklineSkin;
import eu.hansolo.medusa.skins.TileTextKpiSkin;
import eu.hansolo.medusa.skins.TinySkin;
import eu.hansolo.medusa.skins.VSkin;
import eu.hansolo.medusa.skins.WhiteSkin;
import eu.hansolo.medusa.tools.Data;
import eu.hansolo.medusa.tools.GradientLookup;
import eu.hansolo.medusa.tools.Helper;
import eu.hansolo.medusa.tools.MarkerComparator;
import eu.hansolo.medusa.tools.MovingAverage;
import eu.hansolo.medusa.tools.SectionComparator;
import javafx.animation.Animation.Status;
import javafx.animation.Interpolator;
import javafx.animation.KeyFrame;
import javafx.animation.KeyValue;
import javafx.animation.Timeline;
import javafx.application.Platform;
import javafx.beans.NamedArg;
import javafx.beans.binding.Bindings;
import javafx.beans.binding.BooleanBinding;
import javafx.beans.property.BooleanProperty;
import javafx.beans.property.BooleanPropertyBase;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.DoublePropertyBase;
import javafx.beans.property.IntegerProperty;
import javafx.beans.property.IntegerPropertyBase;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.ObjectPropertyBase;
import javafx.beans.property.ReadOnlyDoubleProperty;
import javafx.beans.property.SimpleBooleanProperty;
import javafx.beans.property.SimpleDoubleProperty;
import javafx.beans.property.StringProperty;
import javafx.beans.property.StringPropertyBase;
import javafx.collections.FXCollections;
import javafx.collections.ObservableList;
import javafx.event.Event;
import javafx.event.EventHandler;
import javafx.event.EventTarget;
import javafx.event.EventType;
import javafx.geometry.NodeOrientation;
import javafx.geometry.Orientation;
import javafx.geometry.Pos;
import javafx.scene.control.Control;
import javafx.scene.control.Skin;
import javafx.scene.paint.Color;
import javafx.scene.paint.Paint;
import javafx.scene.paint.Stop;
import javafx.scene.text.Font;
import javafx.util.Duration;
import java.time.Instant;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.Locale;
import java.util.Queue;
import java.util.UUID;
import java.util.concurrent.Callable;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.Future;
import java.util.concurrent.LinkedBlockingQueue;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledThreadPoolExecutor;
import java.util.concurrent.TimeUnit;
/**
* Created by hansolo on 11.12.15.
*/
public class Gauge extends Control {
public enum NeedleType { BIG, FAT, STANDARD, SCIENTIFIC, AVIONIC, VARIOMETER }
public enum NeedleShape { ANGLED, ROUND, FLAT }
public enum NeedleSize {
THIN(0.015),
STANDARD(0.025),
THICK(0.05);
public final double FACTOR;
NeedleSize(final double FACTOR) {
this.FACTOR = FACTOR;
}
}
public enum NeedleBehavior { STANDARD, OPTIMIZED }
public enum KnobType { STANDARD, PLAIN, METAL, FLAT }
public enum LedType { STANDARD, FLAT }
public enum ScaleDirection { CLOCKWISE, COUNTER_CLOCKWISE, LEFT_TO_RIGHT, RIGHT_TO_LEFT, BOTTOM_TO_TOP, TOP_TO_BOTTOM }
public enum SkinType {
AMP, PLAIN_AMP, BULLET_CHART, DASHBOARD, FLAT, GAUGE, INDICATOR, KPI,
MODERN, SIMPLE, SLIM, SPACE_X, QUARTER, HORIZONTAL, VERTICAL,
LCD, TINY, BATTERY, LEVEL, LINEAR, DIGITAL, SIMPLE_DIGITAL, SECTION,
BAR, WHITE, CHARGE, SIMPLE_SECTION, TILE_KPI, TILE_TEXT_KPI, TILE_SPARK_LINE
}
public static final Color DARK_COLOR = Color.rgb(36, 36, 36); // #242424
public static final Color BRIGHT_COLOR = Color.rgb(223, 223, 223); // #dfdfdf
private static final long LED_BLINK_INTERVAL = 500l;
private static final int MAX_NO_OF_DECIMALS = 3;
public final ButtonEvent BTN_PRESSED_EVENT = new ButtonEvent(ButtonEvent.BTN_PRESSED);
public final ButtonEvent BTN_RELEASED_EVENT = new ButtonEvent(ButtonEvent.BTN_RELEASED);
private final ThresholdEvent EXCEEDED_EVENT = new ThresholdEvent(ThresholdEvent.THRESHOLD_EXCEEDED);
private final ThresholdEvent UNDERRUN_EVENT = new ThresholdEvent(ThresholdEvent.THRESHOLD_UNDERRUN);
private final UpdateEvent RECALC_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.RECALC);
private final UpdateEvent REDRAW_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.REDRAW);
private final UpdateEvent RESIZE_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.RESIZE);
private final UpdateEvent LED_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.LED);
private final UpdateEvent LCD_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.LCD);
private final UpdateEvent VISIBILITY_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.VISIBILITY);
private final UpdateEvent INTERACTIVITY_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.INTERACTIVITY);
private final UpdateEvent FINISHED_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.FINISHED);
private final UpdateEvent SECTION_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.SECTION);
private final UpdateEvent ALERT_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.ALERT);
private final UpdateEvent VALUE_EVENT = new UpdateEvent(Gauge.this, UpdateEvent.EventType.VALUE);
private static volatile Future blinkFuture;
private static ScheduledExecutorService blinkService = new ScheduledThreadPoolExecutor(1, Helper.getThreadFactory("BlinkTask", true));
private static volatile Callable blinkTask;
private static String userAgentStyleSheet;
private BooleanBinding showing;
// Update events
private Queue updateEventQueue = new LinkedBlockingQueue<>();
private List listenerList = new CopyOnWriteArrayList<>();
// Data related
private DoubleProperty value;
private DoubleProperty oldValue; // last value
private DoubleProperty currentValue;
private DoubleProperty formerValue; // last current value
private double _minValue;
private DoubleProperty minValue;
private double _maxValue;
private DoubleProperty maxValue;
private double _range;
private DoubleProperty range;
private double _threshold;
private DoubleProperty threshold;
private String _title;
private StringProperty title;
private String _subTitle;
private StringProperty subTitle;
private String _unit;
private StringProperty unit;
private boolean _averagingEnabled;
private BooleanProperty averagingEnabled;
private int _averagingPeriod;
private IntegerProperty averagingPeriod;
private MovingAverage movingAverage;
private ObservableList sections;
private ObservableList areas;
private ObservableList tickMarkSections;
private ObservableList tickLabelSections;
private ObservableList markers;
// UI related
private SkinType skinType;
private boolean _startFromZero;
private BooleanProperty startFromZero;
private boolean _returnToZero;
private BooleanProperty returnToZero;
private Color _zeroColor;
private ObjectProperty zeroColor;
private double _minMeasuredValue;
private DoubleProperty minMeasuredValue;
private double _maxMeasuredValue;
private DoubleProperty maxMeasuredValue;
private boolean _minMeasuredValueVisible;
private BooleanProperty minMeasuredValueVisible;
private boolean _maxMeasuredValueVisible;
private BooleanProperty maxMeasuredValueVisible;
private boolean _oldValueVisible;
private BooleanProperty oldValueVisible;
private boolean _valueVisible;
private BooleanProperty valueVisible;
private Paint _backgroundPaint;
private ObjectProperty backgroundPaint;
private Paint _borderPaint;
private ObjectProperty borderPaint;
private double _borderWidth;
private DoubleProperty borderWidth;
private Paint _foregroundPaint;
private ObjectProperty foregroundPaint;
private Color _knobColor;
private ObjectProperty knobColor;
private KnobType _knobType;
private ObjectProperty knobType;
private Pos _knobPosition;
private ObjectProperty knobPosition;
private boolean _knobVisible;
private BooleanProperty knobVisible;
private boolean _animated;
private BooleanProperty animated;
private long animationDuration;
private double _startAngle;
private DoubleProperty startAngle;
private double _angleRange;
private DoubleProperty angleRange;
private double _angleStep;
private DoubleProperty angleStep;
private boolean _autoScale;
private BooleanProperty autoScale;
private boolean _shadowsEnabled;
private BooleanProperty shadowsEnabled;
private boolean _barEffectEnabled;
private BooleanProperty barEffectEnabled;
private ScaleDirection _scaleDirection;
private ObjectProperty scaleDirection;
private TickLabelLocation _tickLabelLocation;
private ObjectProperty tickLabelLocation;
private TickLabelOrientation _tickLabelOrientation;
private ObjectProperty tickLabelOrientation;
private Color _tickLabelColor;
private ObjectProperty tickLabelColor;
private Color _tickMarkColor;
private ObjectProperty tickMarkColor;
private Color _majorTickMarkColor;
private ObjectProperty majorTickMarkColor;
private double _majorTickMarkLengthFactor;
private DoubleProperty majorTickMarkLengthFactor;
private double _majorTickMarkWidthFactor;
private DoubleProperty majorTickMarkWidthFactor;
private Color _mediumTickMarkColor;
private ObjectProperty mediumTickMarkColor;
private double _mediumTickMarkLengthFactor;
private DoubleProperty mediumTickMarkLengthFactor;
private double _mediumTickMarkWidthFactor;
private DoubleProperty mediumTickMarkWidthFactor;
private Color _minorTickMarkColor;
private ObjectProperty minorTickMarkColor;
private double _minorTickMarkLengthFactor;
private DoubleProperty minorTickMarkLengthFactor;
private double _minorTickMarkWidthFactor;
private DoubleProperty minorTickMarkWidthFactor;
private TickMarkType _majorTickMarkType;
private ObjectProperty majorTickMarkType;
private TickMarkType _mediumTickMarkType;
private ObjectProperty mediumTickMarkType;
private TickMarkType _minorTickMarkType;
private ObjectProperty minorTickMarkType;
private Locale _locale;
private ObjectProperty locale;
private int _decimals;
private IntegerProperty decimals;
private int _tickLabelDecimals;
private IntegerProperty tickLabelDecimals;
private NeedleType _needleType;
private ObjectProperty needleType;
private NeedleShape _needleShape;
private ObjectProperty needleShape;
private NeedleSize _needleSize;
private ObjectProperty needleSize;
private NeedleBehavior _needleBehavior;
private ObjectProperty needleBehavior;
private Color _needleColor;
private ObjectProperty needleColor;
private Color _needleBorderColor;
private ObjectProperty needleBorderColor;
private Color _barColor;
private ObjectProperty barColor;
private Color _barBorderColor;
private ObjectProperty barBorderColor;
private Color _barBackgroundColor;
private ObjectProperty barBackgroundColor;
private LcdDesign _lcdDesign;
private ObjectProperty lcdDesign;
private LcdFont _lcdFont;
private ObjectProperty lcdFont;
private Color _ledColor;
private ObjectProperty ledColor;
private LedType _ledType;
private ObjectProperty ledType;
private Color _titleColor;
private ObjectProperty titleColor;
private Color _subTitleColor;
private ObjectProperty subTitleColor;
private Color _unitColor;
private ObjectProperty unitColor;
private Color _valueColor;
private ObjectProperty valueColor;
private Color _thresholdColor;
private ObjectProperty thresholdColor;
private Color _averageColor;
private ObjectProperty averageColor;
private boolean _checkSectionsForValue;
private BooleanProperty checkSectionsForValue;
private boolean _checkAreasForValue;
private BooleanProperty checkAreasForValue;
private boolean _checkThreshold;
private BooleanProperty checkThreshold;
private boolean _innerShadowEnabled;
private BooleanProperty innerShadowEnabled;
private boolean _thresholdVisible;
private BooleanProperty thresholdVisible;
private boolean _averageVisible;
private BooleanProperty averageVisible;
private boolean _sectionsVisible;
private BooleanProperty sectionsVisible;
private boolean _sectionsAlwaysVisible;
private BooleanProperty sectionsAlwaysVisible;
private boolean _sectionTextVisible;
private BooleanProperty sectionTextVisible;
private boolean _sectionIconsVisible;
private BooleanProperty sectionIconsVisible;
private boolean _highlightSections;
private BooleanProperty highlightSections;
private boolean _areasVisible;
private BooleanProperty areasVisible;
private boolean _areaTextVisible;
private BooleanProperty areaTextVisible;
private boolean _areaIconsVisible;
private BooleanProperty areaIconsVisible;
private boolean _highlightAreas;
private BooleanProperty highlightAreas;
private boolean _tickMarkSectionsVisible;
private BooleanProperty tickMarkSectionsVisible;
private boolean _tickLabelSectionsVisible;
private BooleanProperty tickLabelSectionsVisible;
private boolean _markersVisible;
private BooleanProperty markersVisible;
private boolean _majorTickMarksVisible;
private BooleanProperty majorTickMarksVisible;
private boolean _mediumTickMarksVisible;
private BooleanProperty mediumTickMarksVisible;
private boolean _minorTickMarksVisible;
private BooleanProperty minorTickMarksVisible;
private boolean _tickMarkRingVisible;
private BooleanProperty tickMarkRingVisible;
private boolean _tickLabelsVisible;
private BooleanProperty tickLabelsVisible;
private boolean _onlyFirstAndLastTickLabelVisible;
private BooleanProperty onlyFirstAndLastTickLabelVisible;
private double _majorTickSpace;
private DoubleProperty majorTickSpace;
private double _minorTickSpace;
private DoubleProperty minorTickSpace;
private boolean _lcdVisible;
private BooleanProperty lcdVisible;
private boolean _lcdCrystalEnabled;
private BooleanProperty lcdCrystalEnabled;
private boolean _ledVisible;
private BooleanProperty ledVisible;
private boolean _ledOn;
private BooleanProperty ledOn;
private boolean _ledBlinking;
private BooleanProperty ledBlinking;
private Orientation _orientation;
private ObjectProperty orientation;
private boolean _gradientBarEnabled;
private BooleanProperty gradientBarEnabled;
private GradientLookup gradientLookup;
private boolean _customTickLabelsEnabled;
private BooleanProperty customTickLabelsEnabled;
private ObservableList customTickLabels;
private double _customTickLabelFontSize;
private DoubleProperty customTickLabelFontSize;
private boolean _interactive;
private BooleanProperty interactive;
private String _buttonTooltipText;
private StringProperty buttonTooltipText;
private boolean _keepAspect;
private BooleanProperty keepAspect;
private boolean _customFontEnabled;
private BooleanProperty customFontEnabled;
private Font _customFont;
private ObjectProperty customFont;
private boolean _alert;
private BooleanProperty alert;
private String _alertMessage;
private StringProperty alertMessage;
private boolean _smoothing;
private BooleanProperty smoothing;
private String formatString;
// others
private double originalMinValue;
private double originalMaxValue;
private double originalThreshold;
private Timeline timeline;
private Instant lastCall;
private boolean withinSpeedLimit;
// ******************** Constructors **************************************
public Gauge() {
this(SkinType.GAUGE);
}
public Gauge(@NamedArg(value="skinType", defaultValue="SkinType.GAUGE") final SkinType SKIN_TYPE) {
setNodeOrientation(NodeOrientation.LEFT_TO_RIGHT);
skinType = SKIN_TYPE;
getStyleClass().add("gauge");
init();
registerListeners();
setSkinType(SKIN_TYPE);
}
public Gauge(@NamedArg(value="skinType", defaultValue="SkinType.GAUGE") SkinType skinType,
@NamedArg(value="minValue", defaultValue="0") double minValue,
@NamedArg(value="maxValue", defaultValue="100") double maxValue,
@NamedArg(value="value", defaultValue="0") double value,
@NamedArg(value="threshold", defaultValue="100") double threshold,
@NamedArg(value="title", defaultValue="") String title,
@NamedArg(value="subTitle", defaultValue="") String subTitle,
@NamedArg(value="unit", defaultValue="") String unit,
@NamedArg(value="averagingEnabled", defaultValue="false") boolean averagingEnabled,
@NamedArg(value="startFromZero", defaultValue="false") boolean startFromZero,
@NamedArg(value="returnToZero", defaultValue="false") boolean returnToZero,
@NamedArg(value="zeroColor", defaultValue="#242424") Color zeroColor,
@NamedArg(value="minMeasuredValue", defaultValue="100") double minMeasuredValue,
@NamedArg(value="maxMeasuredValue", defaultValue="0") double maxMeasuredValue,
@NamedArg(value="minMeasuredValueVisible", defaultValue="false") boolean minMeasuredValueVisible,
@NamedArg(value="maxMeasuredValueVisible", defaultValue="false") boolean maxMeasuredValueVisible,
@NamedArg(value="oldValueVisible", defaultValue="false") boolean oldValueVisible,
@NamedArg(value="valueVisible", defaultValue="true") boolean valueVisible,
@NamedArg(value="backgroundPaint", defaultValue="#00000000") Paint backgroundPaint,
@NamedArg(value="borderPaint", defaultValue="#00000000") Paint borderPaint,
@NamedArg(value="foregroundPaint", defaultValue="#00000000") Paint foregroundPaint,
@NamedArg(value="borderWidth", defaultValue="1") double borderWidth,
@NamedArg(value="knobColor", defaultValue="#cccccc") Color knobColor,
@NamedArg(value="knobType", defaultValue="KnobType.STANDARD") KnobType knobType,
@NamedArg(value="knobVisible", defaultValue="true") boolean knobVisible,
@NamedArg(value="animated", defaultValue="false") boolean animated,
@NamedArg(value="animationDuration", defaultValue="800") long animationDuration,
@NamedArg(value="startAngle", defaultValue="320") double startAngle,
@NamedArg(value="angleRange", defaultValue="280") double angleRange,
@NamedArg(value="autoScale", defaultValue="true") boolean autoScale,
@NamedArg(value="shadowsEnabled", defaultValue="false") boolean shadowsEnabled,
@NamedArg(value="barEffectEnabled", defaultValue="false") boolean barEffectEnabled,
@NamedArg(value="scaleDirection", defaultValue="ScaleDiretion.CLOCKWISE") ScaleDirection scaleDirection,
@NamedArg(value="tickLabelLocation", defaultValue="TickLabelLocation.INSIDE") TickLabelLocation tickLabelLocation,
@NamedArg(value="tickLabelOrientation", defaultValue="TickLabelOrientation.HORIZONTAL") TickLabelOrientation tickLabelOrientation,
@NamedArg(value="tickLabelColor", defaultValue="#242424") Color tickLabelColor,
@NamedArg(value="tickMarkColor", defaultValue="#242424") Color tickMarkColor,
@NamedArg(value="majorTickMarkColor", defaultValue="#242424") Color majorTickMarkColor,
@NamedArg(value="mediumTickMarkColor", defaultValue="#242424") Color mediumTickMarkColor,
@NamedArg(value="minorTickMarkColor", defaultValue="#242424") Color minorTickMarkColor,
@NamedArg(value="majorTickMarkType", defaultValue="TickMarkType.LINE") TickMarkType majorTickMarkType,
@NamedArg(value="mediumTickMarkType", defaultValue="TickMarkType.LINE") TickMarkType mediumTickMarkType,
@NamedArg(value="minorTickMarkType", defaultValue="TickMarkType.LINE") TickMarkType minorTickMarkType,
@NamedArg(value="locale", defaultValue="Locale.US") Locale locale,
@NamedArg(value="decimals", defaultValue="1") int decimals,
@NamedArg(value="tickLabelDecimals", defaultValue="0") int tickLabelDecimals,
@NamedArg(value="needleType", defaultValue="NeedleType.STANDARD") NeedleType needleType,
@NamedArg(value="needleShape", defaultValue="NeedleShape.ANGLED") NeedleShape needleShape,
@NamedArg(value="needleSize", defaultValue="NeedleSize.STANDARD") NeedleSize needleSize,
@NamedArg(value="needleBehavior", defaultValue="NeedleBehavior.STANDARD") NeedleBehavior needleBehavior,
@NamedArg(value="needleColor", defaultValue="#c80000") Color needleColor,
@NamedArg(value="needleBorderColor", defaultValue="#00000000") Color needleBorderColor,
@NamedArg(value="barColor", defaultValue="#dfdfdf") Color barColor,
@NamedArg(value="barBorderColor", defaultValue="#00000000") Color barBorderColor,
@NamedArg(value="barBackgroundColor", defaultValue="#242424") Color barBackgroundColor,
@NamedArg(value="lcdDesign", defaultValue="LcdDesign.STANDARD") LcdDesign lcdDesign,
@NamedArg(value="lcdFont", defaultValue="LcdFont.DIGITAL_BOLD") LcdFont lcdFont,
@NamedArg(value="ledColor", defaultValue="#ff0000") Color ledColor,
@NamedArg(value="ledType", defaultValue="LedType.STANDARD") LedType ledType,
@NamedArg(value="titleColor", defaultValue="#242424") Color titleColor,
@NamedArg(value="subTitleColor", defaultValue="#242424") Color subTitleColor,
@NamedArg(value="unitColor", defaultValue="#242424") Color unitColor,
@NamedArg(value="valueColor", defaultValue="#242424") Color valueColor,
@NamedArg(value="thresholdColor", defaultValue="#dc143c") Color thresholdColor,
@NamedArg(value="averageColor", defaultValue="#ff00ff") Color averageColor,
@NamedArg(value="checkSectionsForValue", defaultValue="false") boolean checkSectionsForValue,
@NamedArg(value="checkAreasForValue", defaultValue="false") boolean checkAreasForValue,
@NamedArg(value="checkTreshold", defaultValue="false") boolean checkThreshold,
@NamedArg(value="innerShadowEnabled", defaultValue="false") boolean innerShadowVisible,
@NamedArg(value="thresholdVisible", defaultValue="false") boolean thresholdVisible,
@NamedArg(value="averageVisible", defaultValue="false") boolean averageVisible,
@NamedArg(value="sectionsVisible", defaultValue="false") boolean sectionsVisible,
@NamedArg(value="sectionsAlwaysVisible", defaultValue="false") boolean sectionsAlwaysVisible,
@NamedArg(value="sectionTextVisible", defaultValue="false") boolean sectionTextVisible,
@NamedArg(value="sectionIconsVisible", defaultValue="false") boolean sectionIconsVisible,
@NamedArg(value="highlightSections", defaultValue="false") boolean highlightSections,
@NamedArg(value="areasVisible", defaultValue="false") boolean areasVisible,
@NamedArg(value="areaTextVisible", defaultValue="false") boolean areaTextVisible,
@NamedArg(value="areaIconsVisible", defaultValue="false") boolean areaIconsVisible,
@NamedArg(value="highlightAreas", defaultValue="false") boolean highlightAreas,
@NamedArg(value="tickMarkSectionsVisible", defaultValue="false") boolean tickMarkSectionsVisible,
@NamedArg(value="tickLabelSectionsVisible", defaultValue="false") boolean tickLabelSectionsVisible,
@NamedArg(value="markersVisible", defaultValue="false") boolean markersVisible,
@NamedArg(value="tickLabelsVisible", defaultValue="true") boolean tickLabelsVisible,
@NamedArg(value="onlyFirstAndLastTickLabelVisible", defaultValue="false") boolean onlyFirstAndLastTickLabelVisible,
@NamedArg(value="majorTickMarksVisible", defaultValue="true") boolean majorTickMarksVisible,
@NamedArg(value="mediumTickMarksVisible", defaultValue="true") boolean mediumTickMarksVisible,
@NamedArg(value="minorTickMarksVisible", defaultValue="true") boolean minorTickMarksVisible,
@NamedArg(value="tickMarkRingVisible", defaultValue="false") boolean tickMarkRingVisible,
@NamedArg(value="lcdVisible", defaultValue="false") boolean lcdVisible,
@NamedArg(value="lcdCrystalEnalbed", defaultValue="false") boolean lcdCrystalEnabled,
@NamedArg(value="ledVisible", defaultValue="false") boolean ledVisible,
@NamedArg(value="orientation", defaultValue="Orientation.HORIZONTAL") Orientation orientation,
@NamedArg(value="keepAspect", defaultValue="true") boolean keepAspect,
@NamedArg(value="gradientBarEnabled", defaultValue="false") boolean gradientBarEnabled,
@NamedArg(value="customTickLabelsEnabled", defaultValue="false") boolean customTickLabelsEnabled,
@NamedArg(value="customTickLabelFontSize", defaultValue="18") double customTickLabelFontSize,
@NamedArg(value="interactive", defaultValue="false") boolean interactive,
@NamedArg(value="buttonTooltipText", defaultValue="") String buttonTooltipText,
@NamedArg(value="customFontEnabled", defaultValue="false") boolean customFontEnabled,
@NamedArg(value="customFont", defaultValue="Fonts.robotoRegular(12)") Font customFont,
@NamedArg(value="alert", defaultValue="false") boolean alert,
@NamedArg(value="alertMessage", defaultValue="") String alertMessage,
@NamedArg(value="smoothing", defaultValue="false") boolean smoothing
) {
setNodeOrientation(NodeOrientation.LEFT_TO_RIGHT);
this.skinType = skinType;
getStyleClass().add("gauge");
init();
registerListeners();
setSkinType(skinType);
}
// ******************** Initialization ************************************
private void init() {
_minValue = 0;
_maxValue = 100;
value = new DoublePropertyBase(_minValue) {
@Override protected void invalidated() {
final double VALUE = get();
withinSpeedLimit = !(Instant.now().minusMillis(getAnimationDuration()).isBefore(lastCall));
lastCall = Instant.now();
if (isAnimated() && withinSpeedLimit) {
long animationDuration = isReturnToZero() ? (long) (0.2 * getAnimationDuration()) : getAnimationDuration();
timeline.stop();
final KeyValue KEY_VALUE;
if (NeedleBehavior.STANDARD == getNeedleBehavior()) {
KEY_VALUE = new KeyValue(currentValue, VALUE, Interpolator.SPLINE(0.5, 0.4, 0.4, 1.0));
} else { // Optimized only useful in a gauge where the angle range is 360 deg and the shorter way has to be calculated.
double ov = getOldValue();
double min = getMinValue();
double max = getMaxValue();
double halfRange = getRange() * 0.5;
double cv = getCurrentValue();
double delta = VALUE - getCurrentValue();
if (delta < -halfRange) {
double kv1 = max - cv;
double kv2 = VALUE;
} else if (delta > halfRange) {
}
double tmpValue;
if (Math.abs(VALUE - ov) > getRange() * 0.5) {
if (ov < VALUE) {
tmpValue = min - max + VALUE;
} else {
tmpValue = ov + max - ov + min + VALUE - getRange();
}
KEY_VALUE = new KeyValue(currentValue, tmpValue, Interpolator.SPLINE(0.5, 0.4, 0.4, 1.0));
} else {
if (cv < min) currentValue.set(max + cv);
KEY_VALUE = new KeyValue(currentValue, VALUE, Interpolator.SPLINE(0.5, 0.4, 0.4, 1.0));
}
}
final KeyFrame KEY_FRAME = new KeyFrame(Duration.millis(animationDuration), KEY_VALUE);
timeline.getKeyFrames().setAll(KEY_FRAME);
timeline.play();
} else {
currentValue.set(VALUE);
fireUpdateEvent(FINISHED_EVENT);
}
if (isAveragingEnabled()) { movingAverage.addData(new Data(VALUE)); }
}
@Override public void set(final double VALUE) {
super.set(VALUE);
fireUpdateEvent(VALUE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "value"; }
};
oldValue = new SimpleDoubleProperty(Gauge.this, "oldValue", value.get());
currentValue = new DoublePropertyBase(value.get()) {
@Override protected void invalidated() {
final double VALUE = get();
if (isCheckThreshold()) {
double thrshld = getThreshold();
if (formerValue.get() < thrshld && VALUE > thrshld) {
fireEvent(EXCEEDED_EVENT);
} else if (formerValue.get() > thrshld && VALUE < thrshld) {
fireEvent(UNDERRUN_EVENT);
}
}
if (VALUE < getMinMeasuredValue()) {
setMinMeasuredValue(VALUE);
} else if (VALUE > getMaxMeasuredValue()) {
setMaxMeasuredValue(VALUE);
}
formerValue.set(VALUE);
}
@Override public void set(final double VALUE) { super.set(VALUE); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "currentValue";}
};
formerValue = new SimpleDoubleProperty(Gauge.this, "formerValue", value.get());
_range = _maxValue - _minValue;
_threshold = _maxValue;
_title = "";
_subTitle = "";
_unit = "";
_averagingEnabled = false;
_averagingPeriod = 10;
movingAverage = new MovingAverage(_averagingPeriod);
sections = FXCollections.observableArrayList();
areas = FXCollections.observableArrayList();
tickMarkSections = FXCollections.observableArrayList();
tickLabelSections = FXCollections.observableArrayList();
markers = FXCollections.observableArrayList();
_startFromZero = false;
_returnToZero = false;
_zeroColor = DARK_COLOR;
_minMeasuredValue = _maxValue;
_maxMeasuredValue = _minValue;
_minMeasuredValueVisible = false;
_maxMeasuredValueVisible = false;
_oldValueVisible = false;
_valueVisible = true;
_backgroundPaint = Color.TRANSPARENT;
_borderPaint = Color.TRANSPARENT;
_borderWidth = 1;
_foregroundPaint = Color.TRANSPARENT;
_knobColor = Color.rgb(204, 204, 204);
_knobType = KnobType.STANDARD;
_knobPosition = Pos.CENTER;
_knobVisible = true;
_animated = false;
animationDuration = 800;
_startAngle = 320;
_angleRange = 280;
_angleStep = _angleRange / _range;
_autoScale = true;
_shadowsEnabled = false;
_barEffectEnabled = false;
_scaleDirection = ScaleDirection.CLOCKWISE;
_tickLabelLocation = TickLabelLocation.INSIDE;
_tickLabelOrientation = TickLabelOrientation.HORIZONTAL;
_tickLabelColor = DARK_COLOR;
_tickMarkColor = DARK_COLOR;
_majorTickMarkColor = DARK_COLOR;
_majorTickMarkLengthFactor = 0.42;
_majorTickMarkWidthFactor = 0.275;
_mediumTickMarkColor = DARK_COLOR;
_mediumTickMarkLengthFactor = 0.41;
_mediumTickMarkWidthFactor = 0.175;
_minorTickMarkColor = DARK_COLOR;
_minorTickMarkLengthFactor = 0.40;
_minorTickMarkWidthFactor = 0.1125;
_majorTickMarkType = TickMarkType.LINE;
_mediumTickMarkType = TickMarkType.LINE;
_minorTickMarkType = TickMarkType.LINE;
_locale = Locale.US;
_decimals = 1;
_tickLabelDecimals = 0;
_needleType = NeedleType.STANDARD;
_needleShape = NeedleShape.ANGLED;
_needleSize = NeedleSize.STANDARD;
_needleBehavior = NeedleBehavior.STANDARD;
_needleColor = Color.rgb(200, 0, 0);
_needleBorderColor = Color.TRANSPARENT;
_barColor = BRIGHT_COLOR;
_barBorderColor = Color.TRANSPARENT;
_barBackgroundColor = DARK_COLOR;
_lcdDesign = LcdDesign.STANDARD;
_lcdFont = LcdFont.DIGITAL_BOLD;
_ledColor = Color.RED;
_ledType = LedType.STANDARD;
_titleColor = DARK_COLOR;
_subTitleColor = DARK_COLOR;
_unitColor = DARK_COLOR;
_valueColor = DARK_COLOR;
_thresholdColor = Color.CRIMSON;
_averageColor = Color.MAGENTA;
_checkSectionsForValue = false;
_checkAreasForValue = false;
_checkThreshold = false;
_innerShadowEnabled = false;
_thresholdVisible = false;
_averageVisible = false;
_sectionsVisible = false;
_sectionsAlwaysVisible = false;
_sectionTextVisible = false;
_sectionIconsVisible = false;
_highlightSections = false;
_areasVisible = false;
_areaTextVisible = false;
_areaIconsVisible = false;
_highlightAreas = false;
_tickMarkSectionsVisible = false;
_tickLabelSectionsVisible = false;
_markersVisible = false;
_tickLabelsVisible = true;
_onlyFirstAndLastTickLabelVisible = false;
_majorTickMarksVisible = true;
_mediumTickMarksVisible = true;
_minorTickMarksVisible = true;
_tickMarkRingVisible = false;
_majorTickSpace = 10;
_minorTickSpace = 1;
_lcdVisible = false;
_lcdCrystalEnabled = false;
_ledVisible = false;
_ledOn = false;
_ledBlinking = false;
_orientation = Orientation.HORIZONTAL;
_gradientBarEnabled = false;
_customTickLabelsEnabled = false;
customTickLabels = FXCollections.observableArrayList();
_customTickLabelFontSize = 18;
_interactive = false;
_buttonTooltipText = "";
_keepAspect = true;
_customFontEnabled = false;
_customFont = Fonts.robotoRegular(12);
_alert = false;
_alertMessage = "";
_smoothing = false;
formatString = "%.2f";
originalMinValue = -Double.MAX_VALUE;
originalMaxValue = Double.MAX_VALUE;
originalThreshold = Double.MAX_VALUE;
lastCall = Instant.now();
timeline = new Timeline();
timeline.setOnFinished(e -> {
if (isReturnToZero() && Double.compare(currentValue.get(), 0.0) != 0.0) {
final KeyValue KEY_VALUE2 = new KeyValue(value, 0, Interpolator.SPLINE(0.5, 0.4, 0.4, 1.0));
final KeyFrame KEY_FRAME2 = new KeyFrame(Duration.millis((long) (0.8 * getAnimationDuration())), KEY_VALUE2);
timeline.getKeyFrames().setAll(KEY_FRAME2);
timeline.play();
}
fireUpdateEvent(FINISHED_EVENT);
});
}
public void reInit() {
setZeroColor(DARK_COLOR);
setMinMeasuredValueVisible(false);
setMaxMeasuredValueVisible(false);
setOldValueVisible(false);
setValueVisible(true);
setBackgroundPaint(Color.TRANSPARENT);
setBorderPaint(Color.TRANSPARENT);
setBorderWidth(1);
setForegroundPaint(Color.TRANSPARENT);
setKnobColor(Color.rgb(204, 204, 204));
setKnobType(KnobType.STANDARD);
setKnobPosition(Pos.CENTER);
setKnobVisible(true);
setShadowsEnabled(false);
setBarEffectEnabled(false);
setTickLabelLocation(TickLabelLocation.INSIDE);
setTickLabelOrientation(TickLabelOrientation.HORIZONTAL);
setTickLabelColor(DARK_COLOR);
setTickMarkColor(DARK_COLOR);
setMajorTickMarkColor(DARK_COLOR);
setMajorTickMarkLengthFactor(0.42);
setMajorTickMarkWidthFactor(0.275);
setMediumTickMarkColor(DARK_COLOR);
setMediumTickMarkLengthFactor(0.41);
setMediumTickMarkWidthFactor(0.175);
setMinorTickMarkColor(DARK_COLOR);
setMinorTickMarkLengthFactor(0.40);
setMinorTickMarkWidthFactor(0.1125);
setMajorTickMarkType(TickMarkType.LINE);
setMediumTickMarkType(TickMarkType.LINE);
setMinorTickMarkType(TickMarkType.LINE);
setNeedleType(NeedleType.STANDARD);
setNeedleShape(NeedleShape.ANGLED);
setNeedleSize(NeedleSize.STANDARD);
setNeedleBehavior(NeedleBehavior.STANDARD);
setNeedleColor(Color.rgb(200, 0, 0));
setNeedleBorderColor(Color.TRANSPARENT);
setBarColor(BRIGHT_COLOR);
setBarBorderColor(Color.TRANSPARENT);
setBarBackgroundColor(DARK_COLOR);
setLcdDesign(LcdDesign.STANDARD);
setLcdFont(LcdFont.DIGITAL_BOLD);
setLedColor(Color.RED);
setLedType(LedType.STANDARD);
setTitleColor(DARK_COLOR);
setSubTitleColor(DARK_COLOR);
setUnitColor(DARK_COLOR);
setValueColor(DARK_COLOR);
setThresholdColor(Color.CRIMSON);
setAverageColor(Color.MAGENTA);
setCheckSectionsForValue(false);
setCheckAreasForValue(false);
setCheckThreshold(false);
setInnerShadowEnabled(false);
setThresholdVisible(false);
setAverageVisible(false);
setSectionsVisible(false);
setSectionsAlwaysVisible(false);
setSectionTextVisible(false);
setSectionIconsVisible(false);
setHighlightSections(false);
setAreasVisible(false);
setAreaTextVisible(false);
setAreaIconsVisible(false);
setHighlightAreas(false);
setTickMarkSectionsVisible(false);
setTickLabelSectionsVisible(false);
setMarkersVisible(false);
setTickLabelsVisible(true);
setOnlyFirstAndLastTickLabelVisible(false);
setMajorTickMarksVisible(true);
setMediumTickMarksVisible(true);
setMinorTickMarksVisible(true);
setTickMarkRingVisible(false);
setLcdVisible(false);
setLcdCrystalEnabled(false);
setLedVisible(false);
setLedOn(false);
setLedBlinking(false);
setOrientation(Orientation.HORIZONTAL);
setGradientBarEnabled(false);
setCustomTickLabelsEnabled(false);
setCustomTickLabels(FXCollections.observableArrayList());
setCustomTickLabelFontSize(18);
setInteractive(false);
setButtonTooltipText("");
setKeepAspect(true);
setCustomFontEnabled(false);
setAlert(false);
setAlertMessage("");
setSmoothing(false);
}
private void registerListeners() {
disabledProperty().addListener(o -> setOpacity(isDisabled() ? 0.4 : 1));
valueProperty().addListener((o, ov, nv) -> oldValue.set(ov.doubleValue()));
if (null != getScene()) {
setupBinding();
} else {
sceneProperty().addListener((o1, ov1, nv1) -> {
if (null == nv1) { return; }
if (null != getScene().getWindow()) {
setupBinding();
} else {
sceneProperty().get().windowProperty().addListener((o2, ov2, nv2) -> {
if (null == nv2) { return; }
setupBinding();
});
}
});
}
}
// ******************** Data related methods ******************************
/**
* Returns the value of the Gauge. If animated == true this value represents
* the value at the end of the animation. Where currentValue represents the
* current value during the animation.
*
* @return the value of the gauge
*/
public double getValue() { return value.get(); }
/**
* Sets the value of the Gauge to the given double. If animated == true this
* value will be the end value after the animation is finished.
*
* @param VALUE
*/
public void setValue(final double VALUE) { value.set(VALUE); }
public DoubleProperty valueProperty() { return value; }
/**
* Returns the current value of the Gauge. If animated == true this value
* represents the current value during the animation. Otherwise it's returns
* the same value as the getValue() method.
*
* @return the current value of the gauge
*/
public double getCurrentValue() { return currentValue.get(); }
public ReadOnlyDoubleProperty currentValueProperty() { return currentValue; }
/**
* Returns the last value of the Gauge. This will not be the last value during
* an animation but the final last value after the animation was finished.
* If you need to get the last value during an animation you should use
* formerValue instead.
*
* @return the last value of the gauge
*/
public double getOldValue() { return oldValue.get(); }
public ReadOnlyDoubleProperty oldValueProperty() { return oldValue; }
/**
* Returns the last value of the Gauge. This will be the last value during
* an animation.
* If you need to get the last value after the animation is finished or if
* you don't use animation at all (when using real values) you should use
* oldValue instead.
*
* @return the last value of the gauge during an animation
*/
public double getFormerValue() { return formerValue.get(); }
public ReadOnlyDoubleProperty formerValueProperty() { return formerValue; }
/**
* Returns the minimum value of the scale. This value represents the lower
* limit of the visible gauge values.
*
* @return the minimum value of the gauge scale
*/
public double getMinValue() { return null == minValue ? _minValue : minValue.get(); }
/**
* Sets the minimum value of the gauge scale to the given value
*
* @param VALUE
*/
public void setMinValue(final double VALUE) {
if (Status.RUNNING == timeline.getStatus()) { timeline.jumpTo(Duration.ONE); }
if (null == minValue) {
if (VALUE > getMaxValue()) { setMaxValue(VALUE); }
_minValue = Helper.clamp(-Double.MAX_VALUE, getMaxValue(), VALUE);
setRange(getMaxValue() - _minValue);
if (Double.compare(originalMinValue, -Double.MAX_VALUE) == 0) originalMinValue = _minValue;
if (isStartFromZero() && _minValue < 0) setValue(0);
if (Double.compare(originalThreshold, getThreshold()) < 0) { setThreshold(Helper.clamp(_minValue, getMaxValue(), originalThreshold)); }
updateFormatString();
fireUpdateEvent(RECALC_EVENT);
if (!valueProperty().isBound()) Gauge.this.setValue(Helper.clamp(getMinValue(), getMaxValue(), Gauge.this.getValue()));
} else {
minValue.set(VALUE);
}
}
public DoubleProperty minValueProperty() {
if (null == minValue) {
minValue = new DoublePropertyBase(_minValue) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE > getMaxValue()) setMaxValue(VALUE);
setRange(getMaxValue() - VALUE);
if (Double.compare(originalMinValue, -Double.MAX_VALUE) == 0) originalMinValue = VALUE;
if (isStartFromZero() && _minValue < 0) Gauge.this.setValue(0);
if (Double.compare(originalThreshold, getThreshold()) < 0) { setThreshold(Helper.clamp(VALUE, getMaxValue(), originalThreshold)); }
updateFormatString();
fireUpdateEvent(RECALC_EVENT);
if (!valueProperty().isBound()) Gauge.this.setValue(Helper.clamp(getMinValue(), getMaxValue(), Gauge.this.getValue()));
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minValue";}
};
}
return minValue;
}
/**
* Returns the maximum value of the scale. This value represents the upper limit
* of the visible gauge values.
*
* @return the maximum value of the gauge scale
*/
public double getMaxValue() { return null == maxValue ? _maxValue : maxValue.get(); }
/**
* Sets the maximum value of the gauge scale to the given value
*
* @param VALUE
*/
public void setMaxValue(final double VALUE) {
if (Status.RUNNING == timeline.getStatus()) { timeline.jumpTo(Duration.ONE); }
if (null == maxValue) {
if (VALUE < getMinValue()) { setMinValue(VALUE); }
_maxValue = Helper.clamp(getMinValue(), Double.MAX_VALUE, VALUE);
setRange(_maxValue - getMinValue());
if (Double.compare(originalMaxValue, Double.MAX_VALUE) == 0) originalMaxValue = _maxValue;
if (Double.compare(originalThreshold, getThreshold()) > 0) { setThreshold(Helper.clamp(getMinValue(), _maxValue, originalThreshold)); }
if (!valueProperty().isBound()) Gauge.this.setValue(Helper.clamp(getMinValue(), getMaxValue(), Gauge.this.getValue()));
updateFormatString();
fireUpdateEvent(RECALC_EVENT);
} else {
maxValue.set(VALUE);
}
}
public DoubleProperty maxValueProperty() {
if (null == maxValue) {
maxValue = new DoublePropertyBase(_maxValue) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < getMinValue()) setMinValue(VALUE);
setRange(VALUE - getMinValue());
if (Double.compare(originalMaxValue, Double.MAX_VALUE) == 0) originalMaxValue = VALUE;
if (Double.compare(originalThreshold, getThreshold()) > 0) { setThreshold(Helper.clamp(getMinValue(), VALUE, originalThreshold)); }
updateFormatString();
fireUpdateEvent(RECALC_EVENT);
if (!valueProperty().isBound()) Gauge.this.setValue(Helper.clamp(getMinValue(), getMaxValue(), Gauge.this.getValue()));
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "maxValue"; }
};
}
return maxValue;
}
/**
* Always returns the range of the gauge scale (maxValue - minValue).
* This value will be automatically calculated each time
* the min- or maxValue will change.
*
* @return the range of the gauge scale
*/
public double getRange() { return null == range ? _range : range.get(); }
/**
* This is a private method that sets the range to the given value
* which is always (maxValue - minValue).
*
* @param RANGE
*/
private void setRange(final double RANGE) {
if (null == range) {
_range = RANGE;
setAngleStep(getAngleRange() / RANGE);
} else {
range.set(RANGE);
}
}
public ReadOnlyDoubleProperty rangeProperty() {
if (null == range) {
range = new DoublePropertyBase((getMaxValue() - getMinValue())) {
@Override protected void invalidated() { setAngleStep(getAngleRange() / get()); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "range"; }
};
}
return range;
}
/**
* Returns the threshold value that can be used to visualize a
* threshold value on the scale. There are also events that will
* be fired if the threshold was exceeded or underrun.
* The value will be clamped to range of the gauge.
*
* @return the threshold value of the gauge
*/
public double getThreshold() { return null == threshold ? _threshold : threshold.get(); }
/**
* Sets the threshold of the gauge to the given value. The value
* will be clamped to the range of the gauge.
*
* @param THRESHOLD
*/
public void setThreshold(final double THRESHOLD) {
originalThreshold = THRESHOLD;
if (null == threshold) {
_threshold = Helper.clamp(getMinValue(), getMaxValue(), THRESHOLD);
fireUpdateEvent(RESIZE_EVENT);
} else {
threshold.set(THRESHOLD);
}
}
public DoubleProperty tresholdProperty() {
if (null == threshold) {
threshold = new DoublePropertyBase(_threshold) {
@Override protected void invalidated() {
final double THRESHOLD = get();
if (THRESHOLD < getMinValue() || THRESHOLD > getMaxValue()) set(Helper.clamp(getMinValue(), getMaxValue(), THRESHOLD));
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "threshold"; }
};
}
return threshold;
}
/**
* Returns the title of the gauge. This title will usually
* only be visible if it is not empty.
*
* @return the title of the gauge
*/
public String getTitle() { return null == title ? _title : title.get(); }
/**
* Sets the title of the gauge. This title will only be visible
* if it is not empty.
*
* @param TITLE
*/
public void setTitle(final String TITLE) {
if (null == title) {
_title = TITLE;
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
} else {
title.set(TITLE);
}
}
public StringProperty titleProperty() {
if (null == title) {
title = new StringPropertyBase(_title) {
@Override protected void invalidated() {
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "title"; }
};
_title = null;
}
return title;
}
/**
* Returns the subtitle of the gauge. This subtitle will usually
* only be visible if it is not empty.
*
* @return the subtitle of the gauge
*/
public String getSubTitle() { return null == subTitle ? _subTitle : subTitle.get(); }
/**
* Sets the subtitle of the gauge. This subtitle will usually
* only be visible if it is not empty.
*
* @param SUBTITLE
*/
public void setSubTitle(final String SUBTITLE) {
if (null == subTitle) {
_subTitle = SUBTITLE;
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
} else {
subTitle.set(SUBTITLE);
}
}
public StringProperty subTitleProperty() {
if (null == subTitle) {
subTitle = new StringPropertyBase(_subTitle) {
@Override protected void invalidated() {
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "subTitle"; }
};
_subTitle = null;
}
return subTitle;
}
/**
* Returns the unit of the gauge. This unit will usually only
* be visible if it is not empty.
*
* @return the unit of the gauge
*/
public String getUnit() { return null == unit ? _unit : unit.get(); }
/**
* Sets the unit of the gauge. This unit will usually only be
* visible if it is not empty.
*
* @param UNIT
*/
public void setUnit(final String UNIT) {
if (null == unit) {
_unit = UNIT;
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
} else {
unit.set(UNIT);
}
}
public StringProperty unitProperty() {
if (null == unit) {
unit = new StringPropertyBase(_unit) {
@Override protected void invalidated() {
fireUpdateEvent(VISIBILITY_EVENT);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "unit"; }
};
_unit = null;
}
return unit;
}
/**
* Returns the moving average object
* @return the moving average object
*/
public MovingAverage getMovingAverage() {
if (null == movingAverage) { movingAverage = new MovingAverage(getAveragingPeriod()); }
return movingAverage;
}
/**
* Returns true if the averaging functionality is enabled.
* @return true if the averaging functionality is enabled
*/
public boolean isAveragingEnabled() { return null == averagingEnabled ? _averagingEnabled : averagingEnabled.get(); }
/**
* Defines if the averaging functionality will be enabled.
*/
public void setAveragingEnabled(final boolean ENABLED) {
if (null == averagingEnabled) {
_averagingEnabled = ENABLED;
fireUpdateEvent(REDRAW_EVENT);
} else {
averagingEnabled.set(ENABLED);
}
}
public BooleanProperty averagingEnabledProperty() {
if (null == averagingEnabled) {
averagingEnabled = new BooleanPropertyBase(_averagingEnabled) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "averagingEnabled"; }
};
}
return averagingEnabled;
}
/**
* Returns the number of values that should be used for
* the averaging of values. The value must be in the
* range of 1 - 1000.
* @return the number of values used for averaging
*/
public int getAveragingPeriod() { return null == averagingPeriod ? _averagingPeriod : averagingPeriod.get(); }
/**
* Defines the number values that should be used for
* the averaging of values. The value must be in the
* range of 1 - 1000.
* @param PERIOD
*/
public void setAveragingPeriod(final int PERIOD) {
if (null == averagingPeriod) {
_averagingPeriod = PERIOD;
getMovingAverage().setPeriod(_averagingPeriod); // MAX 1000 values
fireUpdateEvent(REDRAW_EVENT);
} else {
averagingPeriod.set(PERIOD);
}
}
public IntegerProperty averagingPeriodProperty() {
if (null == averagingPeriod) {
averagingPeriod = new IntegerPropertyBase(_averagingPeriod) {
@Override protected void invalidated() {
getMovingAverage().setPeriod(_averagingPeriod); // MAX 1000 values
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "averagingPeriod"; }
};
}
return averagingPeriod;
}
/**
* Returns the current list of Data objects that will
* be used to calculate the moving average.
* @return the current list of Data objects used for the moving average
*/
public Queue getAveragingWindow() { return movingAverage.getWindow(); }
/**
* Returns the moving average over the number of values
* defined by averagingPeriod.
* @return the moving the average over the number of values defined by averagingPeriod
*/
public double getAverage() { return movingAverage.getAverage(); }
/**
* Returns the moving average over the given duration.
* @param DURATION
* @return the moving average over the given duration
*/
public double getTimeBasedAverageOf(final java.time.Duration DURATION) { return movingAverage.getTimeBasedAverageOf(DURATION); }
/**
* Returns an observable list of Section objects. The sections
* will be used to colorize areas with a special meaning such
* as the red area in a rpm gauge. Sections in the Medusa library
* usually are less eye-catching than Areas.
*
* @return an observable list of Section objects
*/
public ObservableList getSections() { return sections; }
/**
* Sets the sections to the given list of Section objects. The
* sections will be used to colorize areas with a special
* meaning such as the red area in a rpm gauge.
* Sections in the Medusa library
* usually are less eye-catching than Areas.
*
* @param SECTIONS
*/
public void setSections(final List SECTIONS) {
sections.setAll(SECTIONS);
Collections.sort(sections, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Sets the sections to the given array of Section objects. The
* sections will be used to colorize areas with a special
* meaning such as the red area in a rpm gauge.
*
* @param SECTIONS
*/
public void setSections(final Section... SECTIONS) { setSections(Arrays.asList(SECTIONS)); }
/**
* Adds the given Section to the list of sections.
* Sections in the Medusa library
* usually are less eye-catching than Areas.
*
* @param SECTION
*/
public void addSection(final Section SECTION) {
if (null == SECTION) return;
sections.add(SECTION);
Collections.sort(sections, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Removes the given Section from the list of sections.
* Sections in the Medusa library
* usually are less eye-catching than Areas.
*
* @param SECTION
*/
public void removeSection(final Section SECTION) {
if (null == SECTION) return;
sections.remove(SECTION);
Collections.sort(sections, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Clears the list of sections.
*/
public void clearSections() {
sections.clear();
fireUpdateEvent(SECTION_EVENT);
}
/**
* Returns an observable list of Section objects. The sections
* will be used to colorize areas with a special meaning such
* as the red area in a rpm gauge. Areas in the Medusa library
* usually are more eye-catching than Sections.
*
* @return an observable list of Section objects
*/
public ObservableList getAreas() { return areas; }
/**
* Sets the sections to the given list of Section objects. The
* sections will be used to colorize areas with a special
* meaning such as the red area in a rpm gauge.
* Areas in the Medusa library usually are more
* eye-catching than Sections.
*
* @param AREAS
*/
public void setAreas(final List AREAS) {
areas.setAll(AREAS);
Collections.sort(areas, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Sets the sections to the given array of Section objects. The
* sections will be used to colorize areas with a special
* meaning such as the red area in a rpm gauge.
* Areas in the Medusa library usually are more
* eye-catching than Sections.
*
* @param AREAS
*/
public void setAreas(final Section... AREAS) { setAreas(Arrays.asList(AREAS)); }
/**
* Adds the given Section to the list of areas.
* Areas in the Medusa library usually are more
* eye-catching than Sections.
*
* @param AREA
*/
public void addArea(final Section AREA) {
if (null == AREA) return;
areas.add(AREA);
Collections.sort(areas, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Removes the given Section from the list of areas.
* Areas in the Medusa library usually are more
* eye-catching than Sections.
*
* @param AREA
*/
public void removeArea(final Section AREA) {
if (null == AREA) return;
areas.remove(AREA);
Collections.sort(areas, new SectionComparator());
fireUpdateEvent(SECTION_EVENT);
}
/**
* Clears the list of areas.
*/
public void clearAreas() {
areas.clear();
fireUpdateEvent(SECTION_EVENT);
}
/**
* Returns an observable list of Section objects.
* The sections will be used to colorize tickmarks with a
* special meaning such as the red area in a rpm gauge.
*
* @return an observable list of Section objects
*/
public ObservableList getTickMarkSections() { return tickMarkSections; }
/**
* Sets the tickmark sections to the given list of Section objects.
*
* @param SECTIONS
*/
public void setTickMarkSections(final List SECTIONS) {
tickMarkSections.setAll(SECTIONS);
Collections.sort(tickMarkSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Sets the tickmark sections to the given array of Section objects.
*
* @param SECTIONS
*/
public void setTickMarkSections(final Section... SECTIONS) { setTickMarkSections(Arrays.asList(SECTIONS)); }
/**
* Adds the given Section to the list of tickmark sections.
*
* @param SECTION
*/
public void addTickMarkSection(final Section SECTION) {
if (null == SECTION) return;
tickMarkSections.add(SECTION);
Collections.sort(tickMarkSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Removes the given Section from the list of tickmark sections.
*
* @param SECTION
*/
public void removeTickMarkSection(final Section SECTION) {
if (null == SECTION) return;
tickMarkSections.remove(SECTION);
Collections.sort(tickMarkSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Clears the list of tickmark sections.
*/
public void clearTickMarkSections() {
tickMarkSections.clear();
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns an observable list of Section objects.
* The sections will be used to colorize ticklabels with
* a special meaning such as the red area in a rpm gauge.
*
* @return an observable list of Section objects
*/
public ObservableList getTickLabelSections() { return tickLabelSections; }
/**
* Sets the ticklabel sections to the given list of Section objects.
*
* @param SECTIONS
*/
public void setTickLabelSections(final List SECTIONS) {
tickLabelSections.setAll(SECTIONS);
Collections.sort(tickLabelSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Sets the ticklabel sections to the given array of Section objects.
*
* @param SECTIONS
*/
public void setTickLabelSections(final Section... SECTIONS) { setTickLabelSections(Arrays.asList(SECTIONS)); }
/**
* Adds the given Section to the list of ticklabel sections.
*
* @param SECTION
*/
public void addTickLabelSection(final Section SECTION) {
if (null == SECTION) return;
tickLabelSections.add(SECTION);
Collections.sort(tickLabelSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Removes the given Section from the list of ticklabel sections.
*
* @param SECTION
*/
public void removeTickLabelSection(final Section SECTION) {
if (null == SECTION) return;
tickLabelSections.remove(SECTION);
Collections.sort(tickLabelSections, new SectionComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Clears the list of ticklabel sections.
*/
public void clearTickLabelSections() {
tickLabelSections.clear();
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns an observable list of Marker objects.
* Like the threshold the markers are used to visualize
* specific values. The markers will be visualized using
* nodes with mouse event support (pressed, released) and
* tooltip.
*
* @return an observable list of Marker objects
*/
public ObservableList getMarkers() { return markers; }
/**
* Sets the list of markers to the given list of Marker objects.
* The markers will be visualized using nodes with mouse event
* support (pressed, released) and tooltip.
*
* @param MARKERS
*/
public void setMarkers(final List MARKERS) {
markers.setAll(MARKERS);
Collections.sort(markers, new MarkerComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Sets the list of markers to the given array of Marker objects.
* The markers will be visualuzed using nodes with mouse event
* support (pressed, released) and tooltip.
*
* @param MARKERS
*/
public void setMarkers(final Marker... MARKERS) { setMarkers(Arrays.asList(MARKERS)); }
/**
* Adds the given Marker to the list of markers.
*
* @param MARKER
*/
public void addMarker(final Marker MARKER) {
if (null == MARKER) return;
markers.add(MARKER);
Collections.sort(markers, new MarkerComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Removes the given Marker from the list of markers.
*
* @param MARKER
*/
public void removeMarker(final Marker MARKER) {
if (null == MARKER) return;
markers.remove(MARKER);
Collections.sort(markers, new MarkerComparator());
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Clears the list of markers.
*/
public void clearMarkers() {
markers.clear();
fireUpdateEvent(REDRAW_EVENT);
}
// ******************** UI related methods ********************************
/**
* A convenient method to set the color of foreground elements like
* title, subTitle, unit, value, tickLabel and tickMark to the given
* Color.
*
* @param COLOR
*/
public void setForegroundBaseColor(final Color COLOR) {
if (null == titleColor) { _titleColor = COLOR; } else { titleColor.set(COLOR); }
if (null == subTitleColor) { _subTitleColor = COLOR; } else { subTitleColor.set(COLOR); }
if (null == unitColor) { _unitColor = COLOR; } else { unitColor.set(COLOR); }
if (null == valueColor) { _valueColor = COLOR; } else { valueColor.set(COLOR); }
if (null == tickLabelColor) { _tickLabelColor = COLOR; } else { tickLabelColor.set(COLOR); }
if (null == zeroColor) { _zeroColor = COLOR; } else { zeroColor.set(COLOR); }
if (null == tickMarkColor) { _tickMarkColor = COLOR; } else { tickMarkColor.set(COLOR); }
if (null == majorTickMarkColor) { _majorTickMarkColor = COLOR; } else { majorTickMarkColor.set(COLOR); }
if (null == mediumTickMarkColor) { _mediumTickMarkColor = COLOR; } else { mediumTickMarkColor.set(COLOR); }
if (null == minorTickMarkColor) { _minorTickMarkColor = COLOR; } else { minorTickMarkColor.set(COLOR); }
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns true if the visualization of the value should start from 0. This
* is especially useful when you work for example with a gauge that has a
* range with a negative minValue
*
* @return true if the visualization of the value should start from 0
*/
public boolean isStartFromZero() { return null == startFromZero ? _startFromZero : startFromZero.get(); }
/**
* Defines the behavior of the visualization where the needle/bar should
* start from 0 instead of the minValue. This is especially useful when
* working with a gauge that has a range with a negative minValue
*
* @param IS_TRUE
*/
public void setStartFromZero(final boolean IS_TRUE) {
if (null == startFromZero) {
_startFromZero = IS_TRUE;
//setValue(IS_TRUE && getMinValue() < 0 ? 0 : getMinValue());
fireUpdateEvent(REDRAW_EVENT);
} else {
startFromZero.set(IS_TRUE);
}
}
public BooleanProperty startFromZeroProperty() {
if (null == startFromZero) {
startFromZero = new BooleanPropertyBase(_startFromZero) {
@Override protected void invalidated() {
//Gauge.this.setValue((get() && getMinValue() < 0) ? 0 : getMinValue());
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "startFromZero"; }
};
}
return startFromZero;
}
/**
* Returns true if the needle/bar should always return to zero. This setting
* only makes sense if animated == true and the data rate is not too high.
* Set to false when using real measured live data.
*
* @return true if the needle/bar should always return to zero.
*/
public boolean isReturnToZero() { return null == returnToZero ? _returnToZero : returnToZero.get(); }
/**
* Defines the behavior of the visualization where the needle/bar should
* always return to 0 after it reached the final value. This setting only makes
* sense if animated == true and the data rate is not too high.
* Set to false when using real measured live data.
*
* @param IS_TRUE
*/
public void setReturnToZero(final boolean IS_TRUE) {
if (null == returnToZero) {
_returnToZero = Double.compare(getMinValue(), 0.0) <= 0 ? IS_TRUE : false;
fireUpdateEvent(REDRAW_EVENT);
} else {
returnToZero.set(IS_TRUE);
}
}
public BooleanProperty returnToZeroProperty() {
if (null == returnToZero) {
returnToZero = new BooleanPropertyBase(_returnToZero) {
@Override protected void invalidated() {
if (Double.compare(getMaxValue(), 0.0) > 0) set(false);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "returnToZero"; }
};
}
return returnToZero;
}
/**
* Returns the color that will be used to colorize the 0 tickmark and ticklabel
* when the gauge range has a negative min- and positive maxValue.
*
* @return the color that will used to visualize the 0 tickmark and ticklabel
*/
public Color getZeroColor() { return null == zeroColor ? _zeroColor : zeroColor.get(); }
/**
* Defines the color that will be used to colorize the 0 tickmark and ticklabel
* when the gauge range has a negative min- and positive maxValue.
*
* @param COLOR
*/
public void setZeroColor(final Color COLOR) {
if (null == zeroColor) {
_zeroColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
zeroColor.set(COLOR);
}
}
public ObjectProperty zeroColorProperty() {
if (null == zeroColor) {
zeroColor = new ObjectPropertyBase(_zeroColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "zeroColor"; }
};
_zeroColor = null;
}
return zeroColor;
}
/**
* Returns the smallest value that was measured after the last reset.
* The default value is the maxValue of the gauge.
*
* @return the smallest value that was measured after the last reset
*/
public double getMinMeasuredValue() { return null == minMeasuredValue ? _minMeasuredValue : minMeasuredValue.get(); }
/**
* Sets the minMeasuredValue to the given value.
*
* @param MIN_MEASURED_VALUE
*/
public void setMinMeasuredValue(final double MIN_MEASURED_VALUE) {
if (null == minMeasuredValue) {
_minMeasuredValue = MIN_MEASURED_VALUE;
} else {
minMeasuredValue.set(MIN_MEASURED_VALUE);
}
}
public ReadOnlyDoubleProperty minMeasuredValueProperty() {
if (null == minMeasuredValue) { minMeasuredValue = new SimpleDoubleProperty(this, "minMeasuredValue", _minMeasuredValue); }
return minMeasuredValue;
}
/**
* Returns the biggest value that was measured after the last reset.
* The default value is the minValue of the gauge.
*
* @return the biggest value that was measured after the last reset
*/
public double getMaxMeasuredValue() {
return null == maxMeasuredValue ? _maxMeasuredValue : maxMeasuredValue.get();
}
/**
* Sets the maxMeasuredVAlue to the given value.
*
* @param MAX_MEASURED_VALUE
*/
public void setMaxMeasuredValue(final double MAX_MEASURED_VALUE) {
if (null == maxMeasuredValue) {
_maxMeasuredValue = MAX_MEASURED_VALUE;
} else {
maxMeasuredValue.set(MAX_MEASURED_VALUE);
}
}
public ReadOnlyDoubleProperty maxMeasuredValueProperty() {
if (null == maxMeasuredValue) { maxMeasuredValue = new SimpleDoubleProperty(this, "maxMeasuredValue", _maxMeasuredValue); }
return maxMeasuredValue;
}
/**
* Resets the min- and maxMeasuredValue to the value of the gauge.
*/
public void resetMeasuredValues() {
setMinMeasuredValue(getValue());
setMaxMeasuredValue(getValue());
}
/**
* Returns true if the indicator of the minMeasuredValue is visible.
*
* @return true if the indicator of the minMeasuredValue is visible
*/
public boolean isMinMeasuredValueVisible() { return null == minMeasuredValueVisible ? _minMeasuredValueVisible : minMeasuredValueVisible.get(); }
/**
* Defines if the indicator of the minMeasuredValue should be visible.
*
* @param VISIBLE
*/
public void setMinMeasuredValueVisible(final boolean VISIBLE) {
if (null == minMeasuredValueVisible) {
_minMeasuredValueVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
minMeasuredValueVisible.set(VISIBLE);
}
}
public BooleanProperty minMeasuredValueVisibleProperty() {
if (null == minMeasuredValueVisible) {
minMeasuredValueVisible = new BooleanPropertyBase(_minMeasuredValueVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minMeasuredValueVisible"; }
};
}
return minMeasuredValueVisible;
}
/**
* Returns true if the indicator of the maxMeasuredValue is visible.
*
* @return true if the indicator of the maxMeasuredValue is visible
*/
public boolean isMaxMeasuredValueVisible() { return null == maxMeasuredValueVisible ? _maxMeasuredValueVisible : maxMeasuredValueVisible.get(); }
/**
* Defines if the indicator of the maxMeasuredValue should be visible.
*
* @param VISIBLE
*/
public void setMaxMeasuredValueVisible(final boolean VISIBLE) {
if (null == maxMeasuredValueVisible) {
_maxMeasuredValueVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
maxMeasuredValueVisible.set(VISIBLE);
}
}
public BooleanProperty maxMeasuredValueVisibleProperty() {
if (null == maxMeasuredValueVisible) {
maxMeasuredValueVisible = new BooleanPropertyBase(_maxMeasuredValueVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "maxMeasuredValueVisible"; }
};
}
return maxMeasuredValueVisible;
}
/**
* Returns true if the old value of the gauge is visible (not implemented)
*
* @return true if the old value of the gauge is visible (not implemented)
*/
public boolean isOldValueVisible() { return null == oldValueVisible ? _oldValueVisible : oldValueVisible.get(); }
/**
* Defines if the old value of the gauge should be visible (not implemented)
*
* @param VISIBLE
*/
public void setOldValueVisible(final boolean VISIBLE) {
if (null == oldValueVisible) {
_oldValueVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
oldValueVisible.set(VISIBLE);
}
}
public BooleanProperty oldValueVisibleProperty() {
if (null == oldValueVisible) {
oldValueVisible = new BooleanPropertyBase(_oldValueVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "oldValueVisible"; }
};
}
return oldValueVisible;
}
/**
* Returns true if the visualization of the gauge value is visible.
* Usually this is a Label or Text node.
*
* @return true if the visualization of the gauge value is visible
*/
public boolean isValueVisible() { return null == valueVisible ? _valueVisible : valueVisible.get(); }
/**
* Defines if the visualization of the gauge value should be visible.
*
* @param VISIBLE
*/
public void setValueVisible(final boolean VISIBLE) {
if (null == valueVisible) {
_valueVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
valueVisible.set(VISIBLE);
}
}
public BooleanProperty valueVisibleProperty() {
if (null == valueVisible) {
valueVisible = new BooleanPropertyBase(_valueVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "valueVisible"; }
};
}
return valueVisible;
}
/**
* Returns the Paint object that will be used to fill the gauge background.
* This is usally a Color object.
*
* @return the Paint object that will be used to fill the gauge background
*/
public Paint getBackgroundPaint() { return null == backgroundPaint ? _backgroundPaint : backgroundPaint.get(); }
/**
* Defines the Paint object that will be used to fill the gauge background.
*
* @param PAINT
*/
public void setBackgroundPaint(final Paint PAINT) {
if (null == backgroundPaint) {
_backgroundPaint = PAINT;
fireUpdateEvent(REDRAW_EVENT);
} else {
backgroundPaint.set(PAINT);
}
}
public ObjectProperty backgroundPaintProperty() {
if (null == backgroundPaint) {
backgroundPaint = new ObjectPropertyBase(_backgroundPaint) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "backgroundPaint"; }
};
_backgroundPaint = null;
}
return backgroundPaint;
}
/**
* Returns the Paint object that will be used to draw the border of the gauge.
* Usually this is a Color object.
*
* @return the Paint object that will be used to draw the border of the gauge
*/
public Paint getBorderPaint() { return null == borderPaint ? _borderPaint : borderPaint.get(); }
/**
* Defines the Paint object that will be used to draw the border of the gauge.
*
* @param PAINT
*/
public void setBorderPaint(final Paint PAINT) {
if (null == borderPaint) {
_borderPaint = PAINT;
fireUpdateEvent(REDRAW_EVENT);
} else {
borderPaint.set(PAINT);
}
}
public ObjectProperty borderPaintProperty() {
if (null == borderPaint) {
borderPaint = new ObjectPropertyBase(_borderPaint) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "borderPaint"; }
};
_borderPaint = null;
}
return borderPaint;
}
/**
* Returns the width in pixels that will be used to draw the border of the gauge.
* The value will be clamped between 0 and 50 pixels.
*
* @return the width in pixels that will be used to draw the border of the gauge
*/
public double getBorderWidth() { return null == borderWidth ? _borderWidth : borderWidth.get(); }
/**
* Defines the width in pixels that will be used to draw the border of the gauge.
* The value will be clamped between 0 and 50 pixels.
*
* @param WIDTH
*/
public void setBorderWidth(final double WIDTH) {
if (null == borderWidth) {
_borderWidth = Helper.clamp(0.0, 50.0, WIDTH);
fireUpdateEvent(REDRAW_EVENT);
} else {
borderWidth.set(WIDTH);
}
}
public DoubleProperty borderWidthProperty() {
if (null == borderWidth) {
borderWidth = new DoublePropertyBase(_borderWidth) {
@Override protected void invalidated() {
final double WIDTH = get();
if (WIDTH < 0 || WIDTH > 50) set(Helper.clamp(0.0, 50.0, WIDTH));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "borderWidth"; }
};
}
return borderWidth;
}
/**
* Returns the Paint object that will be used to fill the foreground of the gauge.
* This could be used to visualize glass effects etc. and is only rarely used.
*
* @return the Paint object that will be used to fill the foreground of the gauge
*/
public Paint getForegroundPaint() { return null == foregroundPaint ? _foregroundPaint : foregroundPaint.get(); }
/**
* Defines the Paint object that will be used to fill the foreground of the gauge.
* This could be used to visualize glass effects etc. and is only rarely used.
*
* @param PAINT
*/
public void setForegroundPaint(final Paint PAINT) {
if (null == foregroundPaint) {
_foregroundPaint = PAINT;
fireUpdateEvent(REDRAW_EVENT);
} else {
foregroundPaint.set(PAINT);
}
}
public ObjectProperty foregroundPaintProperty() {
if (null == foregroundPaint) {
foregroundPaint = new ObjectPropertyBase(_foregroundPaint) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "foregroundPaint"; }
};
_foregroundPaint = null;
}
return foregroundPaint;
}
/**
* Returns the color that will be used to colorize the knob of
* the radial gauges.
*
* @return the color that will be used to colorize the knob of the radial gauges
*/
public Color getKnobColor() { return null == knobColor ? _knobColor : knobColor.get(); }
/**
* Defines the color that will be used to colorize the knob of
* the radial gauges.
*
* @param COLOR
*/
public void setKnobColor(final Color COLOR) {
if (null == knobColor) {
_knobColor = COLOR;
fireUpdateEvent(RESIZE_EVENT);
} else {
knobColor.set(COLOR);
}
}
public ObjectProperty knobColorProperty() {
if (null == knobColor) {
knobColor = new ObjectPropertyBase(_knobColor) {
@Override protected void invalidated() { fireUpdateEvent(RESIZE_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "knobColor"; }
};
_knobColor = null;
}
return knobColor;
}
/**
* Returns the type of knob that will be used in the radial
* gauges. The values are STANDARD, PLAIN, METAL and FLAT.
*
* @return the type of knob that will be used in the radial gauges
*/
public KnobType getKnobType() { return null == knobType ? _knobType : knobType.get(); }
/**
* Defines the type of knob that will be used in the radial
* gauges. The values are STANDARD, PLAIN, METAL and FLAT.
*
* @param TYPE
*/
public void setKnobType(final KnobType TYPE) {
if (null == knobType) {
_knobType = null == TYPE ? KnobType.STANDARD : TYPE;
fireUpdateEvent(RESIZE_EVENT);
} else {
knobType.set(TYPE);
}
}
public ObjectProperty knobTypeProperty() {
if (null == knobType) {
knobType = new ObjectPropertyBase(_knobType) {
@Override protected void invalidated() {
if (null == get()) set(KnobType.STANDARD);
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "knobType"; }
};
_knobType = null;
}
return knobType;
}
/**
* Returns the position of the knob in radial gauges. This
* position also defines where the needle will be placed.
* Dependent on the SkinType you can use the following values
* GaugeSkin : CENTER
* HSkin : TOP_CENTER, BOTTOM_CENTER
* VSkin : CENTER_LEFT, CENTER_RIGHT
* QuarterSkin: TOP_RIGHT, BOTTOM_RIGHT, BOTTOM_LEFT, TOP_LEFT
*
* @return the position of the knob in the radial gauges
*/
public Pos getKnobPosition() { return null == knobPosition ? _knobPosition : knobPosition.get(); }
/**
* Defines the position of the knob in radial gauges. This
* position also defines where the needle will be placed.
* Dependent on the SkinType you can use the following values
* GaugeSkin : CENTER
* HSkin : TOP_CENTER, BOTTOM_CENTER
* VSkin : CENTER_LEFT, CENTER_RIGHT
* QuarterSkin: TOP_RIGHT, BOTTOM_RIGHT, BOTTOM_LEFT, TOP_LEFT
*
* @param POSITION
*/
public void setKnobPosition(final Pos POSITION) {
if (null == knobPosition) {
_knobPosition = POSITION;
fireUpdateEvent(RESIZE_EVENT);
} else {
knobPosition.set(POSITION);
}
}
public ObjectProperty knobPositionProperty() {
if (null == knobPosition) {
knobPosition = new ObjectPropertyBase(_knobPosition) {
@Override protected void invalidated() {
final Pos POSITION = get();
if (null == POSITION) {
switch (skinType) {
case HORIZONTAL: super.set(Pos.CENTER_RIGHT); break;
case VERTICAL : super.set(Pos.BOTTOM_CENTER); break;
case QUARTER : super.set(Pos.BOTTOM_RIGHT); break;
default : super.set(Pos.CENTER);
}
}
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "knobPosition"; }
};
_knobPosition = null;
}
return knobPosition;
}
/**
* Returns true if the knob is visible.
*
* @return true if the knob is visible
*/
public boolean isKnobVisible() { return null == knobVisible ? _knobVisible : knobVisible.get(); }
/**
* Defines if the knob is visible.
*
* @param VISIBLE
*/
public void setKnobVisible(final boolean VISIBLE) {
if (null == knobVisible) {
_knobVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
knobVisible.set(VISIBLE);
}
}
public BooleanProperty knobVisibleProperty() {
if (null == knobVisible) {
knobVisible = new BooleanPropertyBase(_knobVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "knobVisible"; }
};
}
return knobVisible;
}
/**
* Returns true if setting the value of the gauge will be animated
* using the duration defined in animationDuration [ms].
* Keep in mind that it only makes sense to animate the setting if
* the data rate is low (more than 1 value per second). If you use real
* live measured data you should set animated to false.
*
* @return true if setting the value of the gauge will be animated
*/
public boolean isAnimated() { return null == animated ? _animated : animated.get(); }
/**
* Defines if setting the value of the gauge should be animated using
* the duration defined in animationDuration [ms].
* Keep in mind that it only makes sense to animate the setting if
* the data rate is low (more than 1 value per second). If you use real
* live measured data you should set animated to false.
*
* @param ANIMATED
*/
public void setAnimated(final boolean ANIMATED) {
if (null == animated) {
_animated = ANIMATED;
} else {
animated.set(ANIMATED);
}
}
public BooleanProperty animatedProperty() {
if (null == animated) { animated = new SimpleBooleanProperty(Gauge.this, "animated", _animated); }
return animated;
}
/**
* Returns the duration in milliseconds that will be used to animate
* the needle/bar of the gauge from the last value to the next value.
* This will only be used if animated == true. This value will be
* clamped in the range of 10ms - 10s.
*
* @return the duration in ms that will be used to animate the needle/bar
*/
public long getAnimationDuration() { return animationDuration; }
/**
* Defines the duration in milliseconds that will be used to animate
* the needle/bar of the gauge from the last value to the next value.
* This will only be used if animated == true. This value will be
* clamped in the range of 10ms - 10s.
*
* @param ANIMATION_DURATION
*/
public void setAnimationDuration(final long ANIMATION_DURATION) { animationDuration = Helper.clamp(10, 10000, ANIMATION_DURATION); }
/**
* Returns the angle in degree that defines the start of the scale with
* it's minValue in a radial gauge. If set to 0 the scale will start at
* the bottom center and the direction of counting is mathematical correct
* counter-clockwise.
* Means if you would like to start the scale on the left side in the
* middle of the gauge height the startAngle should be set to 270 degrees.
*
* @return the angle in degree that defines the start of the scale
*/
public double getStartAngle() { return null == startAngle ? _startAngle : startAngle.get(); }
/**
* Defines the angle in degree that defines the start of the scale with
* it's minValue in a radial gauge. If set to 0 the scale will start at
* the bottom center and the direction of counting is mathematical correct
* counter-clockwise.
* Means if you would like to start the scale on the left side in the
* middle of the gauge height the startAngle should be set to 270 degrees.
*
* @param ANGLE
*/
public void setStartAngle(final double ANGLE) {
if (null == startAngle) {
_startAngle = Helper.clamp(0.0, 360.0, ANGLE);
fireUpdateEvent(RECALC_EVENT);
} else {
startAngle.set(ANGLE);
}
}
public DoubleProperty startAngleProperty() {
if (null == startAngle) {
startAngle = new DoublePropertyBase(_startAngle) {
@Override protected void invalidated() {
final double ANGLE = get();
if (ANGLE < 0 || ANGLE > 360 ) set(Helper.clamp(0.0, 360.0, ANGLE));
fireUpdateEvent(RECALC_EVENT);
}
@Override public Object getBean() { return this; }
@Override public String getName() { return "startAngle"; }
};
}
return startAngle;
}
/**
* Returns the angle range in degree that will be used to draw the scale
* of the radial gauge. The given range will be clamped in the range of
* 0 - 360 degrees and will be drawn in the direction dependent on the
* scaleDirection.
*
* @return the angle range in degree that will be used to draw the scale
*/
public double getAngleRange() { return null == angleRange ? _angleRange : angleRange.get(); }
/**
* Defines the angle range in degree that will be used to draw the scale
* of the radial gauge. The given range will be clamped in the range of
* 0 - 360 degrees. The range will start at the startAngle and will be
* drawn in the direction dependent on the scaleDirection.
*
* @param RANGE
*/
public void setAngleRange(final double RANGE) {
double tmpAngleRange = Helper.clamp(0.0, 360.0, RANGE);
if (null == angleRange) {
_angleRange = tmpAngleRange;
setAngleStep(tmpAngleRange / getRange());
if (isAutoScale()) { calcAutoScale(); }
fireUpdateEvent(RECALC_EVENT);
} else {
angleRange.set(tmpAngleRange);
}
}
public DoubleProperty angleRangeProperty() {
if (null == angleRange) {
angleRange = new DoublePropertyBase(_angleRange) {
@Override protected void invalidated() {
final double ANGLE_RANGE = get();
set(Helper.clamp(0.0, 360.0, ANGLE_RANGE));
setAngleStep(get() / getRange());
if (isAutoScale()) { calcAutoScale(); }
fireUpdateEvent(RECALC_EVENT);
}
@Override public Object getBean() { return this; }
@Override public String getName() { return "angleRange"; }
};
}
return angleRange;
}
/**
* Returns the value that is calculated by dividing the angleRange
* by the range. The angleStep will always be recalculated when changing
* the min-, maxValue or angleRange.
* E.g. angleRange = 180 degrees, range = 0 - 100 will lead to angleStep = 180/100 = 1.8
*
* @return the value that is calculated by dividing the angleRange by the range
*/
public double getAngleStep() { return null == angleStep ? _angleStep : angleStep.get(); }
/**
* Private method that will be used to set the angleStep
*
* @param STEP
*/
private void setAngleStep(final double STEP) {
if (null == angleStep) {
_angleStep = STEP;
} else {
angleStep.set(STEP);
}
}
public ReadOnlyDoubleProperty angleStepProperty() {
if (null == angleStep) { angleStep = new SimpleDoubleProperty(Gauge.this, "angleStep", _angleStep); }
return angleStep;
}
/**
* Returns true if the scale will be calculated automatically based
* on the defined values for min- and maxValue.
* The autoscaling is on per default because otherwise you will
* run into problems when having very large or very small scales like
* 0 - 10000 or 0 - 1.
*
* @return true if the scale will be calculated automatically
*/
public boolean isAutoScale() { return null == autoScale ? _autoScale : autoScale.get(); }
/**
* Defines if the scale should be calculated automatically based on
* the defined values for min- and maxValue.
* The autoscaling is on per default because otherwise you will
* run into problems when having very large or very small scales like
* 0 - 10000 or 0 - 1.
*
* @param AUTO_SCALE
*/
public void setAutoScale(final boolean AUTO_SCALE) {
if (null == autoScale) {
_autoScale = AUTO_SCALE;
if (_autoScale) {
originalMinValue = getMinValue();
originalMaxValue = getMaxValue();
calcAutoScale();
} else {
setMinValue(Double.compare(-Double.MAX_VALUE, originalMinValue) == 0 ? getMinValue() : originalMinValue);
setMaxValue(Double.compare(Double.MAX_VALUE, originalMaxValue) == 0 ? getMaxValue() : originalMaxValue);
}
fireUpdateEvent(RECALC_EVENT);
} else {
autoScale.set(AUTO_SCALE);
}
}
public BooleanProperty autoScaleProperty() {
if (null == autoScale) {
autoScale = new BooleanPropertyBase(_autoScale) {
@Override protected void invalidated() {
if (get()) {
calcAutoScale();
} else {
setMinValue(Double.compare(-Double.MAX_VALUE, originalMinValue) == 0 ? getMinValue() : originalMinValue);
setMaxValue(Double.compare(Double.MAX_VALUE, originalMaxValue) == 0 ? getMaxValue() : originalMaxValue);
}
fireUpdateEvent(RECALC_EVENT);
}
@Override public Object getBean() { return this; }
@Override public String getName() { return "autoScale"; }
};
}
return autoScale;
}
/**
* Returns true if effects like shadows will be drawn.
* In some gauges inner- and dropshadows will be used which will be
* switched on/off by setting the shadowsEnabled property.
*
* @return true if effects like shadows will be drawn
*/
public boolean isShadowsEnabled() { return null == shadowsEnabled ? _shadowsEnabled : shadowsEnabled.get(); }
/**
* Defines if effects like shadows should be drawn.
* In some gauges inner- and dropshadows will be used which will be
* switched on/off by setting the shadowsEnabled property.
*
* @param ENABLED
*/
public void setShadowsEnabled(final boolean ENABLED) {
if (null == shadowsEnabled) {
_shadowsEnabled = ENABLED;
fireUpdateEvent(REDRAW_EVENT);
} else {
shadowsEnabled.set(ENABLED);
}
}
public BooleanProperty shadowsEnabledProperty() {
if (null == shadowsEnabled) {
shadowsEnabled = new BooleanPropertyBase(_shadowsEnabled) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "shadowsEnabled"; }
};
}
return shadowsEnabled;
}
/**
* Returns true if the highlight effect on the gauges like the
* LinearSkin bar will be drawn. If you would like to have a
* more flat style you should set this to false.
*
* @return true if the highlight effect on a bar will be drawn
*/
public boolean isBarEffectEnabled() { return null == barEffectEnabled ? _barEffectEnabled : barEffectEnabled.get(); }
/**
* Defines if the the highlight effect on the gauges like the
* LinearSkin bar will be drawn. If you would like to have a
* more flat style you should set this to false.
*
* @param ENABLED
*/
public void setBarEffectEnabled(final boolean ENABLED) {
if (null == barEffectEnabled) {
_barEffectEnabled = ENABLED;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
barEffectEnabled.set(ENABLED);
}
}
public BooleanProperty barEffectEnabledProperty() {
if (null == barEffectEnabled) {
barEffectEnabled = new BooleanPropertyBase(_barEffectEnabled) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "barEffectEnabled"; }
};
}
return barEffectEnabled;
}
/**
* Returns the direction of the scale. The values are
* CLOCKWISE and COUNTER_CLOCKWISE. This property is needed
* to realize gauges like in QuarterSkin where the needle
* and knob should be placed on the upper right corner and
* the scale should start at the bottom. Here you need a
* counter-clockwise direction of the scale.
*
* @return the direction of the scale
*/
public ScaleDirection getScaleDirection() { return null == scaleDirection ? _scaleDirection : scaleDirection.get(); }
/**
* Defines the direction of the scale. The values are
* CLOCKWISE and COUNTER_CLOCKWISE. This property is needed
* to realize gauges like in QuarterSkin where the needle
* and knob should be placed on the upper right corner and
* the scale should start at the bottom. Here you need a
* counter-clockwise direction of the scale.
*
* @param DIRECTION
*/
public void setScaleDirection(final ScaleDirection DIRECTION) {
if (null == scaleDirection) {
_scaleDirection = null == DIRECTION ? ScaleDirection.CLOCKWISE : DIRECTION;
fireUpdateEvent(RECALC_EVENT);
} else {
scaleDirection.set(DIRECTION);
}
}
public ObjectProperty scaleDirectionProperty() {
if (null == scaleDirection) {
scaleDirection = new ObjectPropertyBase(_scaleDirection) {
@Override protected void invalidated() {
if (null == get()) set(ScaleDirection.CLOCKWISE);
fireUpdateEvent(RECALC_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "scaleDirection"; }
};
_scaleDirection = null;
}
return scaleDirection;
}
/**
* Returns the location of the ticklabels. The values are
* INSIDE and OUTSIDE. The location of the ticklabels has an
* influence on the size of the tickmarks and length of the needle.
*
* @return the location of the ticklabels
*/
public TickLabelLocation getTickLabelLocation() { return null == tickLabelLocation ? _tickLabelLocation : tickLabelLocation.get(); }
/**
* Defines the location of the ticklabels. The values are
* INSIDE and OUTSIDE. The location of the ticklabels has an
* influence on the size of the tickmarks and length of the needle.
*
* @param LOCATION
*/
public void setTickLabelLocation(final TickLabelLocation LOCATION) {
if (null == tickLabelLocation) {
_tickLabelLocation = null == LOCATION ? TickLabelLocation.INSIDE : LOCATION;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelLocation.set(LOCATION);
}
}
public ObjectProperty tickLabelLocationProperty() {
if (null == tickLabelLocation) {
tickLabelLocation = new ObjectPropertyBase(_tickLabelLocation) {
@Override protected void invalidated() {
if(null == get()) set(TickLabelLocation.INSIDE);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelLocation"; }
};
_tickLabelLocation = null;
}
return tickLabelLocation;
}
/**
* Returns the orientation of the ticklabels. The values are
* HORIZONTAL, ORTHOGONAL and TANGENT. Especially the ORTHOGONAL
* setting can be useful when using scales with big numbers.
*
* @return the orientation of the ticklabels
*/
public TickLabelOrientation getTickLabelOrientation() { return null == tickLabelOrientation ? _tickLabelOrientation : tickLabelOrientation.get(); }
/**
* Defines the orientation of the ticklabels. The values are
* HORIZONTAL, ORTHOGONAL and TANGENT. Especially the ORTHOGONAL
* setting can be useful when using scales with big numbers.
*
* @param ORIENTATION
*/
public void setTickLabelOrientation(final TickLabelOrientation ORIENTATION) {
if (null == tickLabelOrientation) {
_tickLabelOrientation = null == ORIENTATION ? TickLabelOrientation.HORIZONTAL : ORIENTATION;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelOrientation.set(ORIENTATION);
}
}
public ObjectProperty tickLabelOrientationProperty() {
if (null == tickLabelOrientation) {
tickLabelOrientation = new ObjectPropertyBase(_tickLabelOrientation) {
@Override protected void invalidated() {
if(null == get()) set(TickLabelOrientation.HORIZONTAL);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelOrientation"; }
};
_tickLabelOrientation = null;
}
return tickLabelOrientation;
}
/**
* Returns the color that will be used to colorize the ticklabels. This color
* will only be used if no ticklabel section defines a different color.
*
* @return the color that will be used to colorize the ticklabels
*/
public Color getTickLabelColor() { return null == tickLabelColor ? _tickLabelColor : tickLabelColor.get(); }
/**
* Defines the color that will be used to colorize the ticklabels. This color
* will only be used if no ticklabel section defines a different color.
*
* @param COLOR
*/
public void setTickLabelColor(final Color COLOR) {
if (null == tickLabelColor) {
_tickLabelColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelColor.set(COLOR);
}
}
public ObjectProperty tickLabelColorProperty() {
if (null == tickLabelColor) {
tickLabelColor = new ObjectPropertyBase(_tickLabelColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelColor"; }
};
_tickLabelColor = null;
}
return tickLabelColor;
}
/**
* Returns the color that will be used to colorize the tickmarks. This color
* will only be used if no tickmark section or major-, medium- and minorTickMarkColor
* is defined at the position of the tickmark.
*
* @return the color that will be used to colorize the tickmarks
*/
public Color getTickMarkColor() { return null == tickMarkColor ? _tickMarkColor : tickMarkColor.get(); }
/**
* Defines the color that will be used to colorize the tickmarks. This color
* will only be used if no tickmark section or major-, medium- and minorTickMarkColor
* is defined at the position of the tickmark.
*
* @param COLOR
*/
public void setTickMarkColor(final Color COLOR) {
if (null == tickMarkColor) {
_tickMarkColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickMarkColor.set(COLOR);
}
}
public ObjectProperty tickMarkColorProperty() {
if (null == tickMarkColor) {
tickMarkColor = new ObjectPropertyBase(_tickMarkColor) {
@Override protected void invalidated() { fireUpdateEvent( REDRAW_EVENT ); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickMarkColor"; }
};
_tickMarkColor = null;
}
return tickMarkColor;
}
/**
* Returns the color that will be used to colorize the major
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @return the color that will be used to colorize the major tickmarks
*/
public Color getMajorTickMarkColor() { return null == majorTickMarkColor ? _majorTickMarkColor : majorTickMarkColor.get(); }
/**
* Defines the color that will be used to colorize the major
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @param COLOR
*/
public void setMajorTickMarkColor(final Color COLOR) {
if (null == majorTickMarkColor) {
_majorTickMarkColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
majorTickMarkColor.set(COLOR);
}
}
public ObjectProperty majorTickMarkColorProperty() {
if (null == majorTickMarkColor) {
majorTickMarkColor = new ObjectPropertyBase(_majorTickMarkColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickMarkColor"; }
};
_majorTickMarkColor = null;
}
return majorTickMarkColor;
}
/**
* Returns the factor that defines the length of the major tick mark.
* The value can be in the range from 0 - 1;
*
* @return the factor that defines the length of the major tick mark
*/
public double getMajorTickMarkLengthFactor() { return null == majorTickMarkLengthFactor ? _majorTickMarkLengthFactor : majorTickMarkLengthFactor.get(); }
/**
* The factor defines the length of the major tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMajorTickMarkLengthFactor(final double FACTOR) {
if (null == majorTickMarkLengthFactor) {
_majorTickMarkLengthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
majorTickMarkLengthFactor.set(FACTOR);
}
}
public DoubleProperty majorTickMarkLengthFactorProperty() {
if (null == majorTickMarkLengthFactor) {
majorTickMarkLengthFactor = new DoublePropertyBase(_majorTickMarkLengthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickMarkLengthFactor"; }
};
}
return majorTickMarkLengthFactor;
}
/**
* Returns the factor that defines the width of the major tick mark.
* The value can be in the range from 0 - 1.
*
* @return the factor that defines the width of the major tick mark
*/
public double getMajorTickMarkWidthFactor() { return null == majorTickMarkWidthFactor ? _majorTickMarkWidthFactor : majorTickMarkWidthFactor.get(); }
/**
* The factor defines the width of the major tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMajorTickMarkWidthFactor(final double FACTOR) {
if (null == majorTickMarkWidthFactor) {
_majorTickMarkWidthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
majorTickMarkWidthFactor.set(FACTOR);
}
}
public DoubleProperty majorTickMarkWidthFactorProperty() {
if (null == majorTickMarkWidthFactor) {
majorTickMarkWidthFactor = new DoublePropertyBase(_majorTickMarkWidthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickMarkWidthFactor"; }
};
}
return majorTickMarkWidthFactor;
}
/**
* Returns the color that will be used to colorize the medium
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @return the color that will be used to colorize the medium tickmark
*/
public Color getMediumTickMarkColor() { return null == mediumTickMarkColor ? _mediumTickMarkColor : mediumTickMarkColor.get(); }
/**
* Defines the color that will be used to colorize the medium
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @param COLOR
*/
public void setMediumTickMarkColor(final Color COLOR) {
if (null == mediumTickMarkColor) {
_mediumTickMarkColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
mediumTickMarkColor.set(COLOR);
}
}
public ObjectProperty mediumTickMarkColorProperty() {
if (null == mediumTickMarkColor) {
mediumTickMarkColor = new ObjectPropertyBase(_mediumTickMarkColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "mediumTickMarkColor"; }
};
_mediumTickMarkColor = null;
}
return mediumTickMarkColor;
}
/**
* Returns the factor that defines the length of the medium tick mark.
* The value can be in the range from 0 - 1;
*
* @return the factor that defines the length of the medium tick mark
*/
public double getMediumTickMarkLengthFactor() { return null == mediumTickMarkLengthFactor ? _mediumTickMarkLengthFactor : mediumTickMarkLengthFactor.get(); }
/**
* The factor defines the length of the medium tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMediumTickMarkLengthFactor(final double FACTOR) {
if (null == mediumTickMarkLengthFactor) {
_mediumTickMarkLengthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
mediumTickMarkLengthFactor.set(FACTOR);
}
}
public DoubleProperty mediumTickMarkLengthFactorProperty() {
if (null == mediumTickMarkLengthFactor) {
mediumTickMarkLengthFactor = new DoublePropertyBase(_mediumTickMarkLengthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "mediumTickMarkLengthFactor"; }
};
}
return mediumTickMarkLengthFactor;
}
/**
* Returns the factor that defines the width of the medium tick mark.
* The value can be in the range from 0 - 1.
*
* @return the factor that defines the width of the medium tick mark
*/
public double getMediumTickMarkWidthFactor() { return null == mediumTickMarkWidthFactor ? _mediumTickMarkWidthFactor : mediumTickMarkWidthFactor.get(); }
/**
* The factor defines the width of the medium tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMediumTickMarkWidthFactor(final double FACTOR) {
if (null == mediumTickMarkWidthFactor) {
_mediumTickMarkWidthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
mediumTickMarkWidthFactor.set(FACTOR);
}
}
public DoubleProperty mediumTickMarkWidthFactorProperty() {
if (null == mediumTickMarkWidthFactor) {
mediumTickMarkWidthFactor = new DoublePropertyBase(_mediumTickMarkWidthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "mediumTickMarkWidthFactor"; }
};
}
return mediumTickMarkWidthFactor;
}
/**
* Returns the color that will be used to colorize the minor
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @return the color that will be used to colorize the minor tickmark
*/
public Color getMinorTickMarkColor() { return null == minorTickMarkColor ? _minorTickMarkColor : minorTickMarkColor.get(); }
/**
* Defines the color that will be used to colorize the minor
* tickmarks. This color will only be used if no tickmark
* section is defined at the position of the tickmark.
*
* @param COLOR
*/
public void setMinorTickMarkColor(final Color COLOR) {
if (null == minorTickMarkColor) {
_minorTickMarkColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
minorTickMarkColor.set(COLOR);
}
}
public ObjectProperty minorTickMarkColorProperty() {
if (null == minorTickMarkColor) {
minorTickMarkColor = new ObjectPropertyBase(_minorTickMarkColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickMarkColor"; }
};
_minorTickMarkColor = null;
}
return minorTickMarkColor;
}
/**
* Returns the factor that defines the length of the minor tick mark.
* The value can be in the range from 0 - 1;
*
* @return the factor that defines the length of the minor tick mark
*/
public double getMinorTickMarkLengthFactor() { return null == minorTickMarkLengthFactor ? _minorTickMarkLengthFactor : minorTickMarkLengthFactor.get(); }
/**
* The factor defines the length of the minor tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMinorTickMarkLengthFactor(final double FACTOR) {
if (null == minorTickMarkLengthFactor) {
_minorTickMarkLengthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
minorTickMarkLengthFactor.set(FACTOR);
}
}
public DoubleProperty minorTickMarkLengthFactorProperty() {
if (null == minorTickMarkLengthFactor) {
minorTickMarkLengthFactor = new DoublePropertyBase(_minorTickMarkLengthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickMarkLengthFactor"; }
};
}
return minorTickMarkLengthFactor;
}
/**
* Returns the factor that defines the width of the minor tick mark.
* The value can be in the range from 0 - 1.
*
* @return the factor that defines the width of the minor tick mark
*/
public double getMinorTickMarkWidthFactor() { return null == minorTickMarkWidthFactor ? _minorTickMarkWidthFactor : minorTickMarkWidthFactor.get(); }
/**
* The factor defines the width of the minor tick mark.
* It can be in the range from 0 - 1.
*
* @param FACTOR
*/
public void setMinorTickMarkWidthFactor(final double FACTOR) {
if (null == minorTickMarkWidthFactor) {
_minorTickMarkWidthFactor = Helper.clamp(0.0, 1.0, FACTOR);
fireUpdateEvent(REDRAW_EVENT);
} else {
minorTickMarkWidthFactor.set(FACTOR);
}
}
public DoubleProperty minorTickMarkWidthFactorProperty() {
if (null == minorTickMarkWidthFactor) {
minorTickMarkWidthFactor = new DoublePropertyBase(_minorTickMarkWidthFactor) {
@Override protected void invalidated() {
final double VALUE = get();
if (VALUE < 0 || VALUE > 1) set(Helper.clamp(0.0, 1.0, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickMarkWidthFactor"; }
};
}
return minorTickMarkWidthFactor;
}
/**
* Returns the shape that will be used to visualize the major tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX, TICK_LABEL and PILL
*
* @return the shape that will be used to visualize the major tickmark
*/
public TickMarkType getMajorTickMarkType() { return null == majorTickMarkType ? _majorTickMarkType : majorTickMarkType.get(); }
/**
* Defines the shape that will be used to visualize the major tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX, TICK_LABEL and PILL
*
* @param TYPE
*/
public void setMajorTickMarkType(final TickMarkType TYPE) {
if (null == majorTickMarkType) {
_majorTickMarkType = null == TYPE ? TickMarkType.LINE : TYPE;
fireUpdateEvent(REDRAW_EVENT);
} else {
majorTickMarkType.set(TYPE);
}
}
public ObjectProperty majorTickMarkTypeProperty() {
if (null == majorTickMarkType) {
majorTickMarkType = new ObjectPropertyBase(_majorTickMarkType) {
@Override protected void invalidated() {
if (null == get()) set(TickMarkType.LINE);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickMarkType"; }
};
_majorTickMarkType = null;
}
return majorTickMarkType;
}
/**
* Returns the shape that will be used to visualize the medium tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX and PILL
*
* @return the shape that will be used to visualize the medium tickmark
*/
public TickMarkType getMediumTickMarkType() { return null == mediumTickMarkType ? _mediumTickMarkType : mediumTickMarkType.get(); }
/**
* Defines the shape that will be used to visualize the medium tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX and PILL
*
* @param TYPE
*/
public void setMediumTickMarkType(final TickMarkType TYPE) {
if (null == mediumTickMarkType) {
_mediumTickMarkType = null == TYPE ? TickMarkType.LINE : TYPE;
fireUpdateEvent(REDRAW_EVENT);
} else {
mediumTickMarkType.set(TYPE);
}
}
public ObjectProperty mediumTickMarkTypeProperty() {
if (null == mediumTickMarkType) {
mediumTickMarkType = new ObjectPropertyBase(_mediumTickMarkType) {
@Override protected void invalidated() {
if (null == get()) set(TickMarkType.LINE);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "mediumTickMarkType"; }
};
_mediumTickMarkType = null;
}
return mediumTickMarkType;
}
/**
* Returns the shape that will be used to visualize the minor tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX and PILL
*
* @return the shape that will be used to visualize the minor tickmark
*/
public TickMarkType getMinorTickMarkType() { return null == minorTickMarkType ? _minorTickMarkType : minorTickMarkType.get(); }
/**
* Defines the shape that will be used to visualize the minor tickmark.
* Values are LINE, DOT, TRAPEZOID, BOX and PILL
*
* @param TYPE
*/
public void setMinorTickMarkType(final TickMarkType TYPE) {
if (null == minorTickMarkType) {
_minorTickMarkType = null == TYPE ? TickMarkType.LINE : TYPE;
fireUpdateEvent(REDRAW_EVENT);
} else {
minorTickMarkType.set(TYPE);
}
}
public ObjectProperty minorTickMarkTypeProperty() {
if (null == minorTickMarkType) {
minorTickMarkType = new ObjectPropertyBase(_minorTickMarkType) {
@Override protected void invalidated() {
if (null == get()) set(TickMarkType.LINE);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickMarkType"; }
};
_minorTickMarkType = null;
}
return minorTickMarkType;
}
public Locale getLocale() { return null == locale ? _locale : locale.get(); }
public void setLocale(final Locale LOCALE) {
if (null == locale) {
_locale = null == LOCALE ? Locale.US : LOCALE;
fireUpdateEvent(REDRAW_EVENT);
} else {
locale.set(LOCALE);
}
}
public ObjectProperty localeProperty() {
if (null == locale) {
locale = new ObjectPropertyBase(_locale) {
@Override protected void invalidated() {
if (null == get()) set(Locale.US);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "locale"; }
};
_locale = null;
}
return locale;
}
/**
* Returns the number of decimals that will be used to format the
* value of the gauge. The number of decimals will be clamped to
* a value between 0-3.
*
* @return the number of decimals that will be used to format the value
*/
public int getDecimals() { return null == decimals ? _decimals : decimals.get(); }
/**
* Defines the number of decimals that will be used to format the
* value of the gauge. The number of decimals will be clamped to
* a value between 0-3.
*
* @param DECIMALS
*/
public void setDecimals(final int DECIMALS) {
if (null == decimals) {
_decimals = Helper.clamp(0, MAX_NO_OF_DECIMALS, DECIMALS);
updateFormatString();
fireUpdateEvent(REDRAW_EVENT);
} else {
decimals.set(DECIMALS);
}
}
public IntegerProperty decimalsProperty() {
if (null == decimals) {
decimals = new IntegerPropertyBase(_decimals) {
@Override protected void invalidated() {
final int VALUE = get();
if (VALUE < 0 || VALUE > MAX_NO_OF_DECIMALS) set(Helper.clamp(0, MAX_NO_OF_DECIMALS, VALUE));
updateFormatString();
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "decimals"; }
};
}
return decimals;
}
/**
* Returns the number of decimals that will be used to format the
* value of the ticklabels. The number of decimals will be clamped to
* a value between 0-3.
*
* @return
*/
public int getTickLabelDecimals() { return null == tickLabelDecimals ? _tickLabelDecimals : tickLabelDecimals.get(); }
/**
* Defines the number of decimals that will be used to format the
* value of the gauge. The number of decimals will be clamped to
* a value between 0-3.
*
* @param DECIMALS
*/
public void setTickLabelDecimals(final int DECIMALS) {
if (null == tickLabelDecimals) {
_tickLabelDecimals = Helper.clamp(0, MAX_NO_OF_DECIMALS, DECIMALS);
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelDecimals.set(DECIMALS);
}
}
public IntegerProperty tickLabelDecimalsProperty() {
if (null == tickLabelDecimals) {
tickLabelDecimals = new IntegerPropertyBase(_tickLabelDecimals) {
@Override protected void invalidated() {
final int VALUE = get();
if (VALUE < 0 || VALUE > MAX_NO_OF_DECIMALS) set(Helper.clamp(0, MAX_NO_OF_DECIMALS, VALUE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelDecimals"; }
};
}
return tickLabelDecimals;
}
/**
* Returns the shape of the needle that will be used. This is
* dependent on the used SkinType. Values are
* GaugeSkin : STANDARD, FAT
* HSkin : STANDARD
* VSkin : STANDARD
* QuarterSkin: STANDARD
*
* @return the shape of the needle that will be used
*/
public NeedleType getNeedleType() { return null == needleType ? _needleType : needleType.get(); }
/**
* Defines the shape of the needle that will be used. This is
* dependent on the used SkinType. Values are
* GaugeSkin : STANDARD, FAT
* HSkin : STANDARD
* VSkin : STANDARD
* QuarterSkin: STANDARD
*
* @param TYPE
*/
public void setNeedleType(final NeedleType TYPE) {
if (null == needleType) {
_needleType = TYPE == null ? NeedleType.STANDARD : TYPE;
fireUpdateEvent(RESIZE_EVENT);
} else {
needleType.set(TYPE);
}
}
public ObjectProperty needleTypeProperty() {
if (null == needleType) {
needleType = new ObjectPropertyBase(_needleType) {
@Override protected void invalidated() {
if (null == get()) set(NeedleType.STANDARD);
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleType"; }
};
_needleType = null;
}
return needleType;
}
/**
* Returns the graphical representation of the needle that will be used.
* Values are ANGLED, ROUND and FLAT
* In principle it defines how the needle will be filled (gradient, color)
*
* @return the graphical representation of the needle
*/
public NeedleShape getNeedleShape() { return null == needleShape ? _needleShape : needleShape.get(); }
/**
* Defines the graphical representation of the needle that will be used.
* Values are ANGLED, ROUND and FLAT
* In principle it defines how the needle will be filled (gradient, color)
*
* @param SHAPE
*/
public void setNeedleShape(final NeedleShape SHAPE) {
if (null == needleShape) {
_needleShape = null == SHAPE ? NeedleShape.ANGLED : SHAPE;
fireUpdateEvent(REDRAW_EVENT);
} else {
needleShape.set(SHAPE);
}
}
public ObjectProperty needleShapeProperty() {
if (null == needleShape) {
needleShape = new ObjectPropertyBase(_needleShape) {
@Override protected void invalidated() {
if (null == get()) set(NeedleShape.ANGLED);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleShape"; }
};
_needleShape = null;
}
return needleShape;
}
/**
* Returns the thickness of the needle.
* The values are THIN, STANDARD and THICK
*
* @return the thickness of the needle
*/
public NeedleSize getNeedleSize() { return null == needleSize ? _needleSize : needleSize.get(); }
/**
* Defines the thickness of the needle.
* The values are THIN, STANDARD and THICK
*
* @param SIZE
*/
public void setNeedleSize(final NeedleSize SIZE) {
if (null == needleSize) {
_needleSize = null == SIZE ? NeedleSize.STANDARD : SIZE;
fireUpdateEvent(RESIZE_EVENT);
} else {
needleSize.set(SIZE);
}
}
public ObjectProperty needleSizeProperty() {
if (null == needleSize) {
needleSize = new ObjectPropertyBase(_needleSize) {
@Override protected void invalidated() {
if(null == get()) set(NeedleSize.STANDARD);
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleSize"; }
};
_needleSize = null;
}
return needleSize;
}
/**
* Returns the behavior of the needle movement.
* The values are STANDARD and OPTIMIZED
* This is an experimental feature that only makes sense in
* gauges that use an angleRange of 360 degrees and where the
* needle should be able to use the shortest way to the target
* value. As an example one can think of a compass. If the value
* in a compass changes from 20 degrees to 290 degrees the needle
* will take the shortest way to the value, in this case this
* means it will rotate counter-clockwise.
*
* @return the behavior of the needle movement (EXPERIMENTAL)
*/
public NeedleBehavior getNeedleBehavior() { return null == needleBehavior ? _needleBehavior : needleBehavior.get(); }
/**
* Defines the behavior of the needle movement.
* The values are STANDARD and OPTIMIZED
* This is an experimental feature that only makes sense in
* gauges that use an angleRange of 360 degrees and where the
* needle should be able to use the shortest way to the target
* value. As an example one can think of a compass. If the value
* in a compass changes from 20 degrees to 290 degrees the needle
* will take the shortest way to the value, in this case this
* means it will rotate counter-clockwise.
*
* @param BEHAVIOR
*/
public void setNeedleBehavior(final NeedleBehavior BEHAVIOR) {
if (null == needleBehavior) {
_needleBehavior = null == BEHAVIOR ? NeedleBehavior.STANDARD : BEHAVIOR;
} else {
needleBehavior.set(BEHAVIOR);
}
}
public ObjectProperty needleBehaviorProperty() {
if (null == needleBehavior) {
needleBehavior = new ObjectPropertyBase(_needleBehavior) {
@Override protected void invalidated() { if(null == get()) set(NeedleBehavior.STANDARD); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleBehavior"; }
};
_needleBehavior = null;
}
return needleBehavior;
}
/**
* Returns the color that will be used to colorize the needle of
* the radial gauges.
*
* @return the color that wil be used to colorize the needle
*/
public Color getNeedleColor() { return null == needleColor ? _needleColor : needleColor.get(); }
/**
* Defines the color that will be used to colorize the needle of
* the radial gauges.
*
* @param COLOR
*/
public void setNeedleColor(final Color COLOR) {
if (null == needleColor) {
_needleColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
needleColor.set(COLOR);
}
}
public ObjectProperty needleColorProperty() {
if (null == needleColor) {
needleColor = new ObjectPropertyBase(_needleColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleColor"; }
};
_needleColor = null;
}
return needleColor;
}
/**
* Returns the color that is used to colorize the border of the needle.
*
* @return the color that is used to colorize the border of the needle
*/
public Color getNeedleBorderColor() { return null == needleBorderColor ? _needleBorderColor : needleBorderColor.get(); }
/**
* Defines the color that will be used to colorize the border of the needle.
*
* @param COLOR
*/
public void setNeedleBorderColor(final Color COLOR) {
if (null == needleBorderColor) {
_needleBorderColor = null == COLOR ? Color.TRANSPARENT : COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
needleBorderColor.set(COLOR);
}
}
public ObjectProperty needleBorderColorProperty() {
if (null == needleBorderColor) {
needleBorderColor = new ObjectPropertyBase(_needleBorderColor) {
@Override protected void invalidated() {
if (null == get()) set(Color.TRANSPARENT);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "needleBorderColor"; }
};
_needleBorderColor = null;
}
return needleBorderColor;
}
/**
* Returns the color that will be used to colorize the bar of
* the gauge (if it has a bar).
*
* @return the color that will be used to colorized the bar (if available)
*/
public Color getBarColor() { return null == barColor ? _barColor : barColor.get(); }
/**
* Defines the color that will be used to colorize the bar of
* the gauge (if it has a bar).
*
* @param COLOR
*/
public void setBarColor(final Color COLOR) {
if (null == barColor) {
_barColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
barColor.set(COLOR);
}
}
public ObjectProperty barColorProperty() {
if (null == barColor) {
barColor = new ObjectPropertyBase(_barColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "barColor"; }
};
_barColor = null;
}
return barColor;
}
/**
* Returns the color that is used to colorize the border of the bar.
*
* @return the color that is used to colorize the border of the bar
*/
public Color getBarBorderColor() { return null == barBorderColor ? _barBorderColor : barBorderColor.get(); }
/**
* Defines the color that will be used to colorize the border of the bar.
*
* @param COLOR
*/
public void setBarBorderColor(final Color COLOR) {
if (null == barBorderColor) {
_barBorderColor = null == COLOR ? Color.TRANSPARENT : COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
barBorderColor.set(COLOR);
}
}
public ObjectProperty barBorderColorProperty() {
if (null == barBorderColor) {
barBorderColor = new ObjectPropertyBase(_barBorderColor) {
@Override protected void invalidated() {
if(null == get()) set(Color.TRANSPARENT);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "barBorderColor"; }
};
_barBorderColor = null;
}
return barBorderColor;
}
/**
* Returns the color that will be used to colorize the bar background of
* the gauge (if it has a bar).
*
* @return the color that will be used to colorize the bar background
*/
public Color getBarBackgroundColor() { return null == barBackgroundColor ? _barBackgroundColor : barBackgroundColor.get(); }
/**
* Returns the color that will be used to colorize the bar background of
* the gauge (if it has a bar).
*
* @param COLOR
*/
public void setBarBackgroundColor(final Color COLOR) {
if (null == barBackgroundColor) {
_barBackgroundColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
barBackgroundColor.set(COLOR);
}
}
public ObjectProperty barBackgroundColorProperty() {
if (null == barBackgroundColor) {
barBackgroundColor = new ObjectPropertyBase(_barBackgroundColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "barBackgroundColor"; }
};
_barBackgroundColor = null;
}
return barBackgroundColor;
}
/**
* Returns the design that will be used to visualize the LCD display
* of the gauge (if it has one). The values are
* BEIGE, BLACK, BLUE, ORANGE, RED, YELLOW, WHITE, GRAY,
* BLACK, GREEN, GREEN_DARKGREEN, BLUE2, BLUE_BLACK,
* BLUE_DARKBLUE, BLUE_LIGHTBLUE, BLUE_GRAY, STANDARD,
* LIGHTGREEN, STANDARD_GREEN, BLUE_BLUE, RED_DARKRED,
* DARKBLUE, PURPLE, BLACK_RED, DARKGREEN, AMBER,
* LIGHTBLUE, GREEN_BLACK, YELLOW_BLACK, BLACK_YELLOW,
* LIGHTGREEN_BLACK, DARKPURPLE, DARKAMBER, BLUE_LIGHTBLUE2,
* GRAY_PURPLE, YOCTOPUCE, SECTIONS, FLAT_CUSTOM
*
* @return the design that will be used to visualize the LCD display (if available)
*/
public LcdDesign getLcdDesign() { return null == lcdDesign ? _lcdDesign : lcdDesign.get(); }
/**
* Defines the design that will be used to visualize the LCD display
* of the gauge (if it has one). The values are
* BEIGE, BLACK, BLUE, ORANGE, RED, YELLOW, WHITE, GRAY,
* BLACK, GREEN, GREEN_DARKGREEN, BLUE2, BLUE_BLACK,
* BLUE_DARKBLUE, BLUE_LIGHTBLUE, BLUE_GRAY, STANDARD,
* LIGHTGREEN, STANDARD_GREEN, BLUE_BLUE, RED_DARKRED,
* DARKBLUE, PURPLE, BLACK_RED, DARKGREEN, AMBER,
* LIGHTBLUE, GREEN_BLACK, YELLOW_BLACK, BLACK_YELLOW,
* LIGHTGREEN_BLACK, DARKPURPLE, DARKAMBER, BLUE_LIGHTBLUE2,
* GRAY_PURPLE, YOCTOPUCE, SECTIONS, FLAT_CUSTOM
*
* @param DESIGN
*/
public void setLcdDesign(final LcdDesign DESIGN) {
if (null == lcdDesign) {
_lcdDesign = null == DESIGN ? LcdDesign.STANDARD : DESIGN;
fireUpdateEvent(LCD_EVENT);
} else {
lcdDesign.set(DESIGN);
}
}
public ObjectProperty lcdDesignProperty() {
if (null == lcdDesign) {
lcdDesign = new ObjectPropertyBase(_lcdDesign) {
@Override protected void invalidated() {
if(null == get()) set(LcdDesign.STANDARD);
fireUpdateEvent(LCD_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "lcdDesign"; }
};
_lcdDesign = null;
}
return lcdDesign;
}
/**
* Returns the font that will be used to visualize the LCD value
* if the gauge has a LCD display.
* The values are STANDARD, LCD, SLIM, DIGITAL_BOLD, ELEKTRA
*
* @return the font that will be used to visualize the LCD value
*/
public LcdFont getLcdFont() { return null == lcdFont ? _lcdFont : lcdFont.get(); }
/**
* Defines the font that will be used to visualize the LCD value
* if the gauge has a LCD display.
* The values are STANDARD, LCD, SLIM, DIGITAL_BOLD, ELEKTRA
*
* @param FONT
*/
public void setLcdFont(final LcdFont FONT) {
if (null == lcdFont) {
_lcdFont = null == FONT ? LcdFont.DIGITAL_BOLD : FONT;
fireUpdateEvent(RESIZE_EVENT);
} else {
lcdFont.set(FONT);
}
}
public ObjectProperty lcdFontProperty() {
if (null == lcdFont) {
lcdFont = new ObjectPropertyBase(_lcdFont) {
@Override protected void invalidated() {
if(null == get()) set(LcdFont.DIGITAL_BOLD);
fireUpdateEvent(RESIZE_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "lcdFont"; }
};
_lcdFont = null;
}
return lcdFont;
}
/**
* Returns the color that will be used to visualize the LED of the
* gauge if it has one.
*
* @return the color that will be used to visualize the LED
*/
public Color getLedColor() { return null == ledColor ? _ledColor : ledColor.get(); }
/**
* Defines the color that will be used to visualize the LED of the
* gauge if it has one.
*
* @param COLOR
*/
public void setLedColor(final Color COLOR) {
if (null == ledColor) {
_ledColor = null == COLOR ? Color.RED : COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
ledColor.set(COLOR);
}
}
public ObjectProperty ledColorProperty() {
if (null == ledColor) {
ledColor = new ObjectPropertyBase(_ledColor) {
@Override protected void invalidated() {
if (null == get()) set(Color.RED);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "ledColor"; }
};
_ledColor = null;
}
return ledColor;
}
/**
* Returns the graphical representation of the LED.
* The values are STANDARD and FLAT
* In principle this represents how the LED will be filled (gradient or color).
*
* @return the graphical representation of the LED
*/
public LedType getLedType() { return null == ledType ? _ledType : ledType.get(); }
/**
* Defines the graphical representation of the LED.
* The values are STANDARD and FLAT
* In principle this represents how the LED will be filled (gradient or color).
*
* @param TYPE
*/
public void setLedType(final LedType TYPE) {
if (null == ledType) {
_ledType = null == TYPE ? LedType.STANDARD : TYPE;
fireUpdateEvent(REDRAW_EVENT);
} else {
ledType.set(TYPE);
}
}
public ObjectProperty ledTypeProperty() {
if (null == ledType) {
ledType = new ObjectPropertyBase(_ledType) {
@Override protected void invalidated() {
if(null == get()) set(LedType.STANDARD);
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "ledType"; }
};
_ledType = null;
}
return ledType;
}
/**
* Returns the color that will be used to colorize the title
* of the gauge.
*
* @return the color that will be used to colorize the title
*/
public Color getTitleColor() { return null == titleColor ? _titleColor : titleColor.get(); }
/**
* Defines the color that will be used to colorize the title
* of the gauge.
*
* @param COLOR
*/
public void setTitleColor(final Color COLOR) {
if (null == titleColor) {
_titleColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
titleColor.set(COLOR);
}
}
public ObjectProperty titleColorProperty() {
if (null == titleColor) {
titleColor = new ObjectPropertyBase(_titleColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "titleColor"; }
};
_titleColor = null;
}
return titleColor;
}
/**
* Returns the color that will be used to colorize the subTitle
* of the gauge.
*
* @return the color that will be used to colorize the subTitle
*/
public Color getSubTitleColor() { return null == subTitleColor ? _subTitleColor : subTitleColor.get(); }
/**
* Defines the color that will be used to colorize the subTitle
* of the gauge.
*
* @param COLOR
*/
public void setSubTitleColor(final Color COLOR) {
if (null == subTitleColor) {
_subTitleColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
subTitleColor.set(COLOR);
}
}
public ObjectProperty subTitleColorProperty() {
if (null == subTitleColor) {
subTitleColor = new ObjectPropertyBase(_subTitleColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "subTitleColor"; }
};
_subTitleColor = null;
}
return subTitleColor;
}
/**
* Returns the color that will be used to colorize the unit
* of the gauge.
*
* @return the color that will be used to colorize the unit
*/
public Color getUnitColor() { return null == unitColor ? _unitColor : unitColor.get(); }
/**
* Defines the color that will be used to colorize the unit
* of the gauge.
*
* @param COLOR
*/
public void setUnitColor(final Color COLOR) {
if (null == unitColor) {
_unitColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
unitColor.set(COLOR);
}
}
public ObjectProperty unitColorProperty() {
if (null == unitColor) {
unitColor = new ObjectPropertyBase(_unitColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "unitColor"; }
};
_unitColor = null;
}
return unitColor;
}
/**
* Returns the color that will be used to colorize the value
* of the gauge.
*
* @return the color that will be used to colorize the value
*/
public Color getValueColor() { return null == valueColor ? _valueColor : valueColor.get(); }
/**
* Defines the color that will be used to colorize the value
* of the gauge.
*
* @param COLOR
*/
public void setValueColor(final Color COLOR) {
if (null == valueColor) {
_valueColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
valueColor.set(COLOR);
}
}
public ObjectProperty valueColorProperty() {
if (null == valueColor) {
valueColor = new ObjectPropertyBase(_valueColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "valueColor"; }
};
_valueColor = null;
}
return valueColor;
}
/**
* Returns the color that will be used to colorize the threshold
* indicator of the gauge.
*
* @return the color that will be used to colorize the threshold indicator
*/
public Color getThresholdColor() { return null == thresholdColor ? _thresholdColor : thresholdColor.get(); }
/**
* Defines the color that will be used to colorize the threshold
* indicator of the gauge.
*
* @param COLOR
*/
public void setThresholdColor(final Color COLOR) {
if (null == thresholdColor) {
_thresholdColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
thresholdColor.set(COLOR);
}
}
public ObjectProperty thresholdColorProperty() {
if (null == thresholdColor) {
thresholdColor = new ObjectPropertyBase(_thresholdColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "thresholdColor"; }
};
_thresholdColor = null;
}
return thresholdColor;
}
/**
* Returns the color that will be used to colorize the average
* indicator of the gauge.
*
* @return the color that will be used to colorize the average indicator
*/
public Color getAverageColor() { return null == averageColor ? _averageColor : averageColor.get(); }
/**
* Defines the color that will be used to colorize the average
* indicator of the gauge.
*
* @param COLOR
*/
public void setAverageColor(final Color COLOR) {
if (null == averageColor) {
_averageColor = COLOR;
fireUpdateEvent(REDRAW_EVENT);
} else {
averageColor.set(COLOR);
}
}
public ObjectProperty averageColorProperty() {
if (null == averageColor) {
averageColor = new ObjectPropertyBase(_averageColor) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "averageColor"; }
};
_averageColor = null;
}
return averageColor;
}
/**
* Returns true if the value of the gauge should be checked against
* all sections (if sections not empty). If a value enters a section
* or leaves a section it will fire an event. The check will be performed
* after the animation is finished (if animated == true).
*
* @return true if the value of the gauge should be checked against all sections
*/
public boolean getCheckSectionsForValue() { return null == checkSectionsForValue ? _checkSectionsForValue : checkSectionsForValue.get(); }
/**
* Defines if the value of the gauge should be checked against
* all sections (if sections not empty). If a value enters a section
* or leaves a section it will fire an event. The check will be performed
* after the animation is finished (if animated == true).
*
* @param CHECK
*/
public void setCheckSectionsForValue(final boolean CHECK) {
if (null == checkSectionsForValue) { _checkSectionsForValue = CHECK; } else { checkSectionsForValue.set(CHECK); }
}
public BooleanProperty checkSectionsForValueProperty() {
if (null == checkSectionsForValue) { checkSectionsForValue = new SimpleBooleanProperty(Gauge.this, "checkSectionsForValue", _checkSectionsForValue); }
return checkSectionsForValue;
}
/**
* Returns true if the value of the gauge should be checked against
* all areas (if areas not empty). If a value enters an area
* or leaves an area it will fire an event. The check will be performed
* after the animation is finished (if animated == true).
*
* @return true if the the value of the gauge should be checked against all areas
*/
public boolean getCheckAreasForValue() { return null == checkAreasForValue ? _checkAreasForValue : checkAreasForValue.get(); }
/**
* Defines if the value of the gauge should be checked against
* all areas (if areas not empty). If a value enters an area
* or leaves an area it will fire an event. The check will be performed
* after the animation is finished (if animated == true).
*
* @param CHECK
*/
public void setCheckAreasForValue(final boolean CHECK) {
if (null == checkAreasForValue) { _checkAreasForValue = CHECK; } else { checkAreasForValue.set(CHECK); }
}
public BooleanProperty checkAreasForValueProperty() {
if (null == checkAreasForValue) { checkAreasForValue = new SimpleBooleanProperty(Gauge.this, "checkAreasForValue", _checkAreasForValue); }
return checkAreasForValue;
}
/**
* Returns true if the value of the gauge should be checked against
* the threshold. If a value crosses the threshold it will fire an
* event (EXCEEDED and UNDERRUN. The check will be performed
* after the animation is finished (if animated == true).
*
* @return true if the value of the gauge should be checked against the threshold
*/
public boolean isCheckThreshold() { return null == checkThreshold ? _checkThreshold : checkThreshold.get(); }
/**
* Defines if the value of the gauge should be checked against
* the threshold. If a value crosses the threshold it will fire an
* event (EXCEEDED and UNDERRUN. The check will be performed
* after the animation is finished (if animated == true).
*
* @param CHECK
*/
public void setCheckThreshold(final boolean CHECK) {
if (null == checkThreshold) {
_checkThreshold = CHECK;
} else {
checkThreshold.set(CHECK);
}
}
public BooleanProperty checkThresholdProperty() {
if (null == checkThreshold) { checkThreshold = new SimpleBooleanProperty(Gauge.this, "checkThreshold", _checkThreshold); }
return checkThreshold;
}
/**
* Returns true if an inner shadow should be drawn on the gauge
* background.
*
* @return true if an inner shadow should be drawn on the gauge background
*/
public boolean isInnerShadowEnabled() { return null == innerShadowEnabled ? _innerShadowEnabled : innerShadowEnabled.get(); }
/**
* Defines if an inner shadow should be drawn on the gauge
* background.
*
* @param ENABLED
*/
public void setInnerShadowEnabled(final boolean ENABLED) {
if (null == innerShadowEnabled) {
_innerShadowEnabled = ENABLED;
fireUpdateEvent(REDRAW_EVENT);
} else {
innerShadowEnabled.set(ENABLED);
}
}
public BooleanProperty innerShadowEnabledProperty() {
if (null == innerShadowEnabled) {
innerShadowEnabled = new BooleanPropertyBase(_innerShadowEnabled) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "innerShadowEnabled"; }
};
}
return innerShadowEnabled;
}
/**
* Returns true if the threshold indicator should be drawn.
*
* @return true if the threshold indicator should be drawn
*/
public boolean isThresholdVisible() { return null == thresholdVisible ? _thresholdVisible : thresholdVisible.get(); }
/**
* Defines if the threshold indicator should be drawn
*
* @param VISIBLE
*/
public void setThresholdVisible(final boolean VISIBLE) {
if (null == thresholdVisible) {
_thresholdVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
thresholdVisible.set(VISIBLE);
}
}
public BooleanProperty thresholdVisibleProperty() {
if (null == thresholdVisible) {
thresholdVisible = new BooleanPropertyBase(_thresholdVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "thresholdVisible"; }
};
}
return thresholdVisible;
}
/**
* Returns true if the average indicator should be drawn.
*
* @return true if the average indicator should be drawn
*/
public boolean isAverageVisible() { return null == averageVisible ? _averageVisible : averageVisible.get(); }
/**
* Defines if the average indicator should be drawn
*
* @param VISIBLE
*/
public void setAverageVisible(final boolean VISIBLE) {
if (null == averageVisible) {
_averageVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
averageVisible.set(VISIBLE);
}
}
public BooleanProperty averageVisibleProperty() {
if (null == averageVisible) {
averageVisible = new BooleanPropertyBase() {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "averageVisible"; }
};
}
return averageVisible;
}
/**
* Returns true if the sections will be drawn
*
* @return true if the sections will be drawn
*/
public boolean getSectionsVisible() { return null == sectionsVisible ? _sectionsVisible : sectionsVisible.get(); }
/**
* Defines if the sections will be drawn
*
* @param VISIBLE
*/
public void setSectionsVisible(final boolean VISIBLE) {
if (null == sectionsVisible) {
_sectionsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
sectionsVisible.set(VISIBLE);
}
}
public BooleanProperty sectionsVisibleProperty() {
if (null == sectionsVisible) {
sectionsVisible = new BooleanPropertyBase(_sectionsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "sectionsVisible"; }
};
}
return sectionsVisible;
}
/**
* Returns true if the sections in the IndicatorSkin
* will always be visible
* @return
*/
public boolean getSectionsAlwaysVisible() { return null == sectionsAlwaysVisible ? _sectionsAlwaysVisible : sectionsAlwaysVisible.get(); }
/**
* Defines if the sections will always be visible.
* This is currently only used in the IndicatorSkin
* @param VISIBLE
*/
public void setSectionsAlwaysVisible(final boolean VISIBLE) {
if (null == sectionsAlwaysVisible) {
_sectionsAlwaysVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
sectionsAlwaysVisible.set(VISIBLE);
}
}
public BooleanProperty sectionsAlwaysVisibleProperty() {
if (null == sectionsAlwaysVisible) {
sectionsAlwaysVisible = new BooleanPropertyBase(_sectionsAlwaysVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "sectionsAlwaysVisible"; }
};
}
return sectionsAlwaysVisible;
}
/**
* Returns true if the text of the sections should be drawn inside
* the sections. This is currently only used in the SimpleSkin.
*
* @return true if the text of the sections should be drawn
*/
public boolean isSectionTextVisible() { return null == sectionTextVisible ? _sectionTextVisible : sectionTextVisible.get(); }
/**
* Defines if the text of the sections should be drawn inside
* the sections. This is currently only used in the SimpleSkin.
*
* @param VISIBLE
*/
public void setSectionTextVisible(final boolean VISIBLE) {
if (null == sectionTextVisible) {
_sectionTextVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
sectionTextVisible.set(VISIBLE);
}
}
public BooleanProperty sectionTextVisibleProperty() {
if (null == sectionTextVisible) {
sectionTextVisible = new BooleanPropertyBase(_sectionTextVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "sectionTextVisible"; }
};
}
return sectionTextVisible;
}
/**
* Returns true if the icon of the sections should be drawn inside
* the sections. This is currently only used in the SimpleSkin.
*
* @return true if the icon of the sections should be drawn
*/
public boolean getSectionIconsVisible() { return null == sectionIconsVisible ? _sectionIconsVisible : sectionIconsVisible.get(); }
/**
* Defines if the icon of the sections should be drawn inside
* the sections. This is currently only used in the SimpleSkin.
*
* @param VISIBLE
*/
public void setSectionIconsVisible(final boolean VISIBLE) {
if (null == sectionIconsVisible) {
_sectionIconsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
sectionIconsVisible.set(VISIBLE);
}
}
public BooleanProperty sectionIconsVisibleProperty() {
if (null == sectionIconsVisible) {
sectionIconsVisible = new BooleanPropertyBase(_sectionIconsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "sectionIconsVisible"; }
};
}
return sectionIconsVisible;
}
/**
* Returns true if sections should be highlighted in case they
* contain the current value.
*
* @return true if sections should be highlighted
*/
public boolean isHighlightSections() { return null == highlightSections ? _highlightSections : highlightSections.get(); }
/**
* Defines if sections should be highlighted in case they
* contain the current value
*
* @param HIGHLIGHT
*/
public void setHighlightSections(final boolean HIGHLIGHT) {
if (null == highlightSections) {
_highlightSections = HIGHLIGHT;
fireUpdateEvent(REDRAW_EVENT);
} else {
highlightSections.set(HIGHLIGHT);
}
}
public BooleanProperty highlightSectionsProperty() {
if (null == highlightSections) {
highlightSections = new BooleanPropertyBase(_highlightSections) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "highlightSections"; }
};
}
return highlightSections;
}
/**
* Returns true if the areas should be drawn
*
* @return true if the areas should be drawn
*/
public boolean getAreasVisible() { return null == areasVisible ? _areasVisible : areasVisible.get(); }
/**
* Defines if the areas should be drawn
*
* @param VISIBLE
*/
public void setAreasVisible(final boolean VISIBLE) {
if (null == areasVisible) {
_areasVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
areasVisible.set(VISIBLE);
}
}
public BooleanProperty areasVisibleProperty() {
if (null == areasVisible) {
areasVisible = new BooleanPropertyBase(_areasVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "areasVisible"; }
};
}
return areasVisible;
}
/**
* Returns true if the text of the areas should be drawn inside
* the areas. This is currently only used in the SimpleSkin.
*
* @return true if the text of the areas should be drawn
*/
public boolean isAreaTextVisible() { return null == areaTextVisible ? _areaTextVisible : areaTextVisible.get(); }
/**
* Defines if the text of the areas should be drawn inside
* the areas.
*
* @param VISIBLE
*/
public void setAreaTextVisible(final boolean VISIBLE) {
if (null == areaTextVisible) {
_areaTextVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
areaTextVisible.set(VISIBLE);
}
}
public BooleanProperty areaTextVisibleProperty() {
if (null == areaTextVisible) {
areaTextVisible = new BooleanPropertyBase(_areaTextVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "areaTextVisible"; }
};
}
return areaTextVisible;
}
/**
* Returns true if the icon of the areas should be drawn inside
* the areas.
*
* @return true if the icon of the areas should be drawn
*/
public boolean getAreaIconsVisible() { return null == areaIconsVisible ? _areaIconsVisible : areaIconsVisible.get(); }
/**
* Defines if the icon of the areas should be drawn inside
* the areas.
*
* @param VISIBLE
*/
public void setAreaIconsVisible(final boolean VISIBLE) {
if (null == areaIconsVisible) {
_areaIconsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
areaIconsVisible.set(VISIBLE);
}
}
public BooleanProperty areaIconsVisibleProperty() {
if (null == areaIconsVisible) {
areaIconsVisible = new BooleanPropertyBase(_areaIconsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "areaIconsVisible"; }
};
}
return areaIconsVisible;
}
/**
* Returns true if areas should be highlighted in case they
* contain the current value.
*
* @return true if areas should be highlighted
*/
public boolean isHighlightAreas() { return null == highlightAreas ? _highlightAreas : highlightAreas.get(); }
/**
* Defines if areas should be highlighted in case they
* contain the current value
*
* @param HIGHLIGHT
*/
public void setHighlightAreas(final boolean HIGHLIGHT) {
if (null == highlightAreas) {
_highlightAreas = HIGHLIGHT;
fireUpdateEvent(REDRAW_EVENT);
} else {
highlightAreas.set(HIGHLIGHT);
}
}
public BooleanProperty highlightAreasProperty() {
if (null == highlightAreas) {
highlightAreas = new BooleanPropertyBase(_highlightAreas) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "highlightAreas"; }
};
}
return highlightAreas;
}
/**
* Returns true if the tickmark sections should be used to
* colorize the tickmarks.
*
* @return true if the tickmark sections should be used
*/
public boolean getTickMarkSectionsVisible() { return null == tickMarkSectionsVisible ? _tickMarkSectionsVisible : tickMarkSectionsVisible.get(); }
/**
* Defines if the tickmark sections should be used to
* colorize the tickmarks.
*
* @param VISIBLE
*/
public void setTickMarkSectionsVisible(final boolean VISIBLE) {
if (null == tickMarkSectionsVisible) {
_tickMarkSectionsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickMarkSectionsVisible.set(VISIBLE);
}
}
public BooleanProperty tickMarkSectionsVisibleProperty() {
if (null == tickMarkSectionsVisible) {
tickMarkSectionsVisible = new BooleanPropertyBase(_tickMarkSectionsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickMarkSectionsVisible"; }
};
}
return tickMarkSectionsVisible;
}
/**
* Returns true if the ticklabel sections should be used
* to colorize the ticklabels.
*
* @return true if the ticklabel sections should be used
*/
public boolean getTickLabelSectionsVisible() { return null == tickLabelSectionsVisible ? _tickLabelSectionsVisible : tickLabelSectionsVisible.get(); }
/**
* Defines if the ticklabel sections should be used to
* colorize the ticklabels.
*
* @param VISIBLE
*/
public void setTickLabelSectionsVisible(final boolean VISIBLE) {
if (null == tickLabelSectionsVisible) {
_tickLabelSectionsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelSectionsVisible.set(VISIBLE);
}
}
public BooleanProperty tickLabelSectionsVisibleProperty() {
if (null == tickLabelSectionsVisible) {
tickLabelSectionsVisible = new BooleanPropertyBase(_tickLabelSectionsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelSectionsVisible"; }
};
}
return tickLabelSectionsVisible;
}
/**
* Returns true if the markers should be drawn
*
* @return true if the markser should be drawn
*/
public boolean getMarkersVisible() { return null == markersVisible ? _markersVisible : markersVisible.get(); }
/**
* Defines if the markers should be drawn
*
* @param VISIBLE
*/
public void setMarkersVisible(final boolean VISIBLE) {
if (null == markersVisible) {
_markersVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
markersVisible.set(VISIBLE);
}
}
public BooleanProperty markersVisibleProperty() {
if (null == markersVisible) {
markersVisible = new BooleanPropertyBase(_markersVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "markersVisible"; }
};
}
return markersVisible;
}
/**
* Returns true if the ticklabels should be drawn
*
* @return true if the ticklabels should be drawn
*/
public boolean getTickLabelsVisible() { return null == tickLabelsVisible ? _tickLabelsVisible : tickLabelsVisible.get(); }
/**
* Defines if the ticklabels should be drawn
*
* @param VISIBLE
*/
public void setTickLabelsVisible(final boolean VISIBLE) {
if (null == tickLabelsVisible) {
_tickLabelsVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickLabelsVisible.set(VISIBLE);
}
}
public BooleanProperty tickLabelsVisibleProperty() {
if (null == tickLabelsVisible) {
tickLabelsVisible = new BooleanPropertyBase(_tickLabelsVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickLabelsVisible"; }
};
}
return tickLabelsVisible;
}
/**
* Returns true if only the first and the last ticklabel
* will be drawn. Sometimes this could be useful if a gauge
* should for example only should show 0 and 1000.
*
* @return true if only the first and last ticklabel will be drawn
*/
public boolean isOnlyFirstAndLastTickLabelVisible() {
return null == onlyFirstAndLastTickLabelVisible ? _onlyFirstAndLastTickLabelVisible : onlyFirstAndLastTickLabelVisible.get();
}
/**
* Defines if only the first and the last ticklabel
* will be drawn. Sometimes this could be useful if a gauge
* should for example only should show 0 and 1000.
*
* @param VISIBLE
*/
public void setOnlyFirstAndLastTickLabelVisible(final boolean VISIBLE) {
if (null == onlyFirstAndLastTickLabelVisible) {
_onlyFirstAndLastTickLabelVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
onlyFirstAndLastTickLabelVisible.set(VISIBLE);
}
}
public BooleanProperty onlyFirstAndLastTickLabelVisibleProperty() {
if (null == onlyFirstAndLastTickLabelVisible) {
onlyFirstAndLastTickLabelVisible = new BooleanPropertyBase(_onlyFirstAndLastTickLabelVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "onlyFirstAndLastTickLabelVisible"; }
};
}
return onlyFirstAndLastTickLabelVisible;
}
/**
* Returns true if the major tickmarks should be drawn
* If set to false and minorTickmarks == true, a minor tickmark
* will be drawn instead of the major tickmark.
*
* @return true if the major tickmarks should be drawn
*/
public boolean getMajorTickMarksVisible() { return null == majorTickMarksVisible ? _majorTickMarksVisible : majorTickMarksVisible.get(); }
/**
* Defines if the major tickmarks should be drawn
* If set to false and minorTickmarks == true, a minor tickmark
* will be drawn instead of the major tickmark.
*
* @param VISIBLE
*/
public void setMajorTickMarksVisible(final boolean VISIBLE) {
if (null == majorTickMarksVisible) {
_majorTickMarksVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
majorTickMarksVisible.set(VISIBLE);
}
}
public BooleanProperty majorTickMarksVisibleProperty() {
if (null == majorTickMarksVisible) {
majorTickMarksVisible = new BooleanPropertyBase(_majorTickMarksVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickMarksVisible"; }
};
}
return majorTickMarksVisible;
}
/**
* Returns true if the medium tickmarks should be drawn
* If set to false and minorTickmarks == true, a minor tickmark
* will be drawn instead of the medium tickmark.
*
* @return true if the medium tickmarks should be drawn
*/
public boolean getMediumTickMarksVisible() { return null == mediumTickMarksVisible ? _mediumTickMarksVisible : mediumTickMarksVisible.get(); }
public void setMediumTickMarksVisible(final boolean VISIBLE) {
if (null == mediumTickMarksVisible) {
_mediumTickMarksVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
mediumTickMarksVisible.set(VISIBLE);
}
}
public BooleanProperty mediumTickMarksVisibleProperty() {
if (null == mediumTickMarksVisible) {
mediumTickMarksVisible = new BooleanPropertyBase(_mediumTickMarksVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "mediumTickMarksVisible"; }
};
}
return mediumTickMarksVisible;
}
/**
* Returns true if the minor tickmarks should be drawn
*
* @return true if the minor tickmarks should be drawn
*/
public boolean getMinorTickMarksVisible() { return null == minorTickMarksVisible ? _minorTickMarksVisible : minorTickMarksVisible.get(); }
/**
* Defines if the minor tickmarks should be drawn
*
* @param VISIBLE
*/
public void setMinorTickMarksVisible(final boolean VISIBLE) {
if (null == minorTickMarksVisible) {
_minorTickMarksVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
minorTickMarksVisible.set(VISIBLE);
}
}
public BooleanProperty minorTickMarksVisibleProperty() {
if (null == minorTickMarksVisible) {
minorTickMarksVisible = new BooleanPropertyBase(_minorTickMarksVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickMarksVisible"; }
};
}
return minorTickMarksVisible;
}
/**
* Returns true when an additional ring will be drawn that "connects" the
* tick marks.
*
* @return true when an additional ring will be drawn that "connects" the tick marks
*/
public boolean isTickMarkRingVisible() { return null == tickMarkRingVisible ? _tickMarkRingVisible : tickMarkRingVisible.get(); }
/**
* Defines if an additional ring should be drawn that "connects" the tick marks.
*
* @param VISIBLE
*/
public void setTickMarkRingVisible(final boolean VISIBLE) {
if (null == tickMarkRingVisible) {
_tickMarkRingVisible = VISIBLE;
fireUpdateEvent(REDRAW_EVENT);
} else {
tickMarkRingVisible.set(VISIBLE);
}
}
public BooleanProperty tickMarkRingVisibleProperty() {
if (null == tickMarkRingVisible) {
tickMarkRingVisible = new BooleanPropertyBase(_tickMarkRingVisible) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "tickMarkRingVisible"; }
};
}
return tickMarkRingVisible;
}
/**
* Returns the value that represents the space between major
* tickmarks. This value will be automatically set by the
* autoscale property. Be careful when changing it manually.
*
* @return the value that represents the space between major tickmarks
*/
public double getMajorTickSpace() { return null == majorTickSpace ? _majorTickSpace : majorTickSpace.get(); }
/**
* Defines the value that represents the space between major
* tickmarks. This value will be automatically set by the
* autoscale property. Be careful when changing it manually.
*
* @param SPACE
*/
public void setMajorTickSpace(final double SPACE) {
if (null == majorTickSpace) {
_majorTickSpace = SPACE;
fireUpdateEvent(RECALC_EVENT);
} else {
majorTickSpace.set(SPACE);
}
}
public DoubleProperty majorTickSpaceProperty() {
if (null == majorTickSpace) {
majorTickSpace = new DoublePropertyBase(_majorTickSpace) {
@Override protected void invalidated() { fireUpdateEvent(RECALC_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "majorTickSpace"; }
};
}
return majorTickSpace;
}
/**
* Returns the value that represents the space between minor
* tickmarks. This value will be automatically set by the
* autoscale property. Be careful when changing it manually.
*
* @return the value that represents the space between minor tickmarks
*/
public double getMinorTickSpace() { return null == minorTickSpace ? _minorTickSpace : minorTickSpace.get(); }
/**
* Defines the value that represents the space between major
* tickmarks. This value will be automatically set by the
* autoscale property. Be careful when changing it manually.
*
* @param SPACE
*/
public void setMinorTickSpace(final double SPACE) {
if (null == minorTickSpace) {
_minorTickSpace = SPACE;
fireUpdateEvent(RECALC_EVENT);
} else {
minorTickSpace.set(SPACE);
}
}
public DoubleProperty minorTickSpaceProperty() {
if (null == minorTickSpace) {
minorTickSpace = new DoublePropertyBase(_minorTickSpace) {
@Override protected void invalidated() { fireUpdateEvent(RECALC_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "minorTickSpace"; }
};
}
return minorTickSpace;
}
/**
* Returns true if the LCD display is visible (if available)
* The LCD display won't be visible if valueVisible == false.
*
* @return true if the LCD display is visible
*/
public boolean isLcdVisible() { return null == lcdVisible ? _lcdVisible : lcdVisible.get(); }
/**
* Defines if the LCD display is visible (if available)
* The LCD display won't be visible if valueVisible == false.
*
* @param VISIBLE
*/
public void setLcdVisible(final boolean VISIBLE) {
if (null == lcdVisible) {
_lcdVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
lcdVisible.set(VISIBLE);
}
}
public BooleanProperty lcdVisibleProperty() {
if (null == lcdVisible) {
lcdVisible = new BooleanPropertyBase(_lcdVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "lcdVisible"; }
};
}
return lcdVisible;
}
/**
* Returns true if the crystal effect of the LCD display will be drawn.
* This feature could decrease the performance if you run it on
* embedded devices because it will calculate a bitmap image where
* each pixel will be calculated.
*
* @return true if the crystal effect of the LCD display will be drawn
*/
public boolean isLcdCrystalEnabled() { return null == lcdCrystalEnabled ? _lcdCrystalEnabled : lcdCrystalEnabled.get(); }
/**
* Defines if the crystal effect of the LCD display will be drawn.
* This feature could decrease the performance if you run it on
* embedded devices because it will calculate a bitmap image where
* each pixel will be calculated.
*
* @param ENABLED
*/
public void setLcdCrystalEnabled(final boolean ENABLED) {
if (null == lcdCrystalEnabled) {
_lcdCrystalEnabled = ENABLED;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
lcdCrystalEnabled.set(ENABLED);
}
}
public BooleanProperty lcdCrystalEnabledProperty() {
if (null == lcdCrystalEnabled) {
lcdCrystalEnabled = new BooleanPropertyBase(_lcdCrystalEnabled) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "lcdCrystalEnabled"; }
};
}
return lcdCrystalEnabled;
}
/**
* Returns true if the LED will be drawn (if available)
*
* @return true if the LED will be drawn
*/
public boolean isLedVisible() { return null == ledVisible ? _ledVisible : ledVisible.get(); }
/**
* Defines if the LED will be drawn (if available)
*
* @param VISIBLE
*/
public void setLedVisible(final boolean VISIBLE) {
if (null == ledVisible) {
_ledVisible = VISIBLE;
fireUpdateEvent(VISIBILITY_EVENT);
} else {
ledVisible.set(VISIBLE);
}
}
public BooleanProperty ledVisibleProperty() {
if (null == ledVisible) {
ledVisible = new BooleanPropertyBase(_ledVisible) {
@Override protected void invalidated() { fireUpdateEvent(VISIBILITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "ledVisible"; }
};
}
return ledVisible;
}
/**
* Returns true if the LED is on (if available)
*
* @return true if the LED is on
*/
public boolean isLedOn() { return null == ledOn ? _ledOn : ledOn.get(); }
/**
* Defines if the LED is on (if available)
*
* @param ON
*/
public void setLedOn(final boolean ON) {
if (null == ledOn) {
_ledOn = ON;
fireUpdateEvent(LED_EVENT);
} else {
ledOn.set(ON);
}
}
public BooleanProperty ledOnProperty() {
if (null == ledOn) {
ledOn = new BooleanPropertyBase(_ledOn) {
@Override protected void invalidated() { fireUpdateEvent(LED_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "ledOn"; }
};
}
return ledOn;
}
/**
* Returns true if the LED is blinking (if available)
*
* @return true if the LED is blinking
*/
public boolean isLedBlinking() { return null == ledBlinking ? _ledBlinking : ledBlinking.get(); }
/**
* Defines if the LED is blinking (if available)
*
* @param BLINKING
*/
public void setLedBlinking(final boolean BLINKING) {
if (null == ledBlinking) {
_ledBlinking = BLINKING;
if (_ledBlinking) {
startBlinkExecutorService();
} else {
if (null != blinkFuture) blinkFuture.cancel(true);
setLedOn(false);
}
} else {
ledBlinking.set(BLINKING);
}
}
public BooleanProperty ledBlinkingProperty() {
if (null == ledBlinking) {
ledBlinking = new BooleanPropertyBase(_ledBlinking) {
@Override protected void invalidated() {
if (get()) {
startBlinkExecutorService();
} else {
if (null != blinkFuture) blinkFuture.cancel(true);
setLedOn(false);
}
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "ledBlinking"; }
};
}
return ledBlinking;
}
/**
* Returns the orientation of the control. This feature
* will only be used in the BulletChartSkin and LinearSkin.
* Values are HORIZONTAL and VERTICAL
*
* @return the orientation of the control
*/
public Orientation getOrientation() { return null == orientation ? _orientation : orientation.get(); }
/**
* Defines the orientation of the control. This feature
* will only be used in the BulletChartSkin and LinearSkin.
* Values are HORIZONTAL and VERTICAL
*
* @param ORIENTATION
*/
public void setOrientation(final Orientation ORIENTATION) {
if (null == orientation) {
_orientation = ORIENTATION;
fireUpdateEvent(RESIZE_EVENT);
} else {
orientation.set(ORIENTATION);
}
}
public ObjectProperty orientationProperty() {
if (null == orientation) {
orientation = new ObjectPropertyBase(_orientation) {
@Override protected void invalidated() { fireUpdateEvent(RESIZE_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "orientation"; }
};
_orientation = null;
}
return orientation;
}
/**
* Returns true if the gradient defined by the gradient lookup
* will be used to visualize the bar (if available).
*
* @return true if the gradient defined by the gradient lookup will be used to visualize the bar
*/
public boolean isGradientBarEnabled() { return null == gradientBarEnabled ? _gradientBarEnabled : gradientBarEnabled.get(); }
/**
* Defines if the gradient defined by the gradient lookup
* will be used to visualize the bar (if available).
*
* @param ENABLED
*/
public void setGradientBarEnabled(final boolean ENABLED) {
if (null == gradientBarEnabled) {
_gradientBarEnabled = ENABLED;
fireUpdateEvent(REDRAW_EVENT);
} else {
gradientBarEnabled.set(ENABLED);
}
}
public BooleanProperty gradientBarEnabledProperty() {
if (null == gradientBarEnabled) {
gradientBarEnabled = new BooleanPropertyBase(_gradientBarEnabled) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "gradientBarEnabled"; }
};
}
return gradientBarEnabled;
}
/**
* Returns the GradientLookup that is used to colorize the bar
* of the gauge (if avaiable)
*
* @return the GradientLookup that is used to colorize the bar
*/
public GradientLookup getGradientLookup() {
if (null == gradientLookup) { gradientLookup = new GradientLookup(); }
return gradientLookup;
}
/**
* Defines the GradientLookup that is used to colorize the bar
* of the gauge (if avaiable)
*
* @param GRADIENT_LOOKUP
*/
public void setGradientLookup(final GradientLookup GRADIENT_LOOKUP) {
gradientLookup = GRADIENT_LOOKUP;
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns a list of Stops that will be used to calculate the gradient
* in the GradientLookup.
*
* @return a list of Stops that will be used to calculate the gradient in the GradientLookup
*/
public List getGradientBarStops() { return getGradientLookup().getStops(); }
/**
* Defines a list of Stops that will be used to calculate the gradient
* in the GradientLookup.
*
* @param STOPS
*/
public void setGradientBarStops(final Stop... STOPS) { setGradientBarStops(Arrays.asList(STOPS)); }
/**
* Defines a list of Stops that will be used to calculate the gradient
* in the GradientLookup.
*
* @param STOPS
*/
public void setGradientBarStops(final List STOPS) {
getGradientLookup().setStops(STOPS);
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns true if custom ticklabels should be used instead of the
* automatically calculated ones. This could be useful for gauges
* like a compass where you need "N", "E", "S" and "W" instead of
* numbers.
*
* @return true if custom ticklabels should be used
*/
public boolean getCustomTickLabelsEnabled() { return null == customTickLabelsEnabled ? _customTickLabelsEnabled : customTickLabelsEnabled.get(); }
/**
* Defines if custom ticklabels should be used instead of the
* automatically calculated ones. This could be useful for gauges
* like a compass where you need "N", "E", "S" and "W" instead of
* numbers.
*
* @param ENABLED
*/
public void setCustomTickLabelsEnabled(final boolean ENABLED) {
if (null == customTickLabelsEnabled) {
_customTickLabelsEnabled = ENABLED;
fireUpdateEvent(REDRAW_EVENT);
} else {
customTickLabelsEnabled.set(ENABLED);
}
}
public BooleanProperty getCustomTickLabelsEnabledProperty() {
if (null == customTickLabelsEnabled) {
customTickLabelsEnabled = new BooleanPropertyBase(_customTickLabelsEnabled) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "customTickLabelsEnabled"; }
};
}
return customTickLabelsEnabled;
}
/**
* Returns a list of Strings that represent the ticklabels that
* will be used for the scale.
*
* @return a list of Strings that represent the ticklabels
*/
public List getCustomTickLabels() { return customTickLabels; }
/**
* Defines a list of Strings that represent the ticklabels that
* will be used for the scale.
*
* @param TICK_LABELS
*/
public void setCustomTickLabels(final List TICK_LABELS) {
customTickLabels.setAll(TICK_LABELS);
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Defines a list of Strings that represent the ticklabels that
* will be used for the scale.
*
* @param TICK_LABELS
*/
public void setCustomTickLabels(final String... TICK_LABELS) { setCustomTickLabels(Arrays.asList(TICK_LABELS)); }
/**
* Adds the given String to the list of custom ticklabels
*
* @param TICK_LABEL
*/
public void addCustomTickLabel(final String TICK_LABEL) {
if (null == TICK_LABEL) return;
if (!customTickLabels.contains(TICK_LABEL)) customTickLabels.add(TICK_LABEL);
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Removes the given String from the list of custom ticklabels
*
* @param TICK_LABEL
*/
public void removeCustomTickLabel(final String TICK_LABEL) {
if (null == TICK_LABEL) return;
if (customTickLabels.contains(TICK_LABEL)) customTickLabels.remove(TICK_LABEL);
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Clears the list of custom ticklabels
*/
public void clearCustomTickLabels() {
customTickLabels.clear();
fireUpdateEvent(REDRAW_EVENT);
}
/**
* Returns the custom font size. The default font size is 18px at
* a size of 250px. This value will be used to calculate the current
* font size for the ticklabels when scaling.
*
* @return the custom font size
*/
public double getCustomTickLabelFontSize() { return null == customTickLabelFontSize ? _customTickLabelFontSize : customTickLabelFontSize.get(); }
/**
* Defines the custom font size. The default font size is 18px at
* a size of 250px. This value will be used to calculate the current
* font size for the ticklabels when scaling.
*
* @param SIZE
*/
public void setCustomTickLabelFontSize(final double SIZE) {
if (null == customTickLabelFontSize) {
_customTickLabelFontSize = Helper.clamp(0.0, 72.0, SIZE);
fireUpdateEvent(REDRAW_EVENT);
} else {
customTickLabelFontSize.set(SIZE);
}
}
public DoubleProperty customTickLabelFontSizeProperty() {
if (null == customTickLabelFontSize) {
customTickLabelFontSize = new DoublePropertyBase(_customTickLabelFontSize) {
@Override protected void invalidated() {
final double SIZE = get();
if (SIZE < 0 || SIZE > 72) set(Helper.clamp(0.0, 72.0, SIZE));
fireUpdateEvent(REDRAW_EVENT);
}
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "customTickLabelFontSize";}
};
}
return customTickLabelFontSize;
}
/**
* Returns true if the gauge is in interactive mode. This is currently
* implemented in the radial gauges that have a knob. If interactive == true
* the knob can be pressed to trigger something.
*
* @return true if the gauge is in interactive mode
*/
public boolean isInteractive() { return null == interactive ? _interactive : interactive.get(); }
/**
* Defines if the gauge is in interactive mode. This is currently
* implemented in the radial gauges that have a knob. If interactive == true
* the knob can be pressed to trigger something.
*
* @param INTERACTIVE
*/
public void setInteractive(final boolean INTERACTIVE) {
if (null == interactive) {
_interactive = INTERACTIVE;
fireUpdateEvent(INTERACTIVITY_EVENT);
} else {
interactive.set(INTERACTIVE);
}
}
public BooleanProperty interactiveProperty() {
if (null == interactive) {
interactive = new BooleanPropertyBase(_interactive) {
@Override protected void invalidated() { fireUpdateEvent(INTERACTIVITY_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "interactive"; }
};
}
return interactive;
}
/**
* Returns the text that will be shown in the button tooltip. The
* knob in the radial gauges acts as button if interactive == true.
*
* @return the text that will be shown in the button tooltip
*/
public String getButtonTooltipText() { return null == buttonTooltipText ? _buttonTooltipText : buttonTooltipText.get(); }
/**
* Defines the text that will be shown in the button tooltip. The
* knob in the radial gauges acts as button if interactive == true.
*
* @param TEXT
*/
public void setButtonTooltipText(final String TEXT) {
if (null == buttonTooltipText) {
_buttonTooltipText = TEXT;
fireUpdateEvent(REDRAW_EVENT);
} else {
buttonTooltipText.set(TEXT);
}
}
public StringProperty buttonTooltipTextProperty() {
if (null == buttonTooltipText) {
buttonTooltipText = new StringPropertyBase(_buttonTooltipText) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "buttonTooltipText"; }
};
_buttonTooltipText = null;
}
return buttonTooltipText;
}
/**
* Returns true if the control should keep it's aspect. This is
* in principle only needed if the control has different width and
* height.
*
* @return true if the control should keep it's aspect
*/
public boolean isKeepAspect() { return null == keepAspect ? _keepAspect : keepAspect.get(); }
/**
* Defines if the control should keep it's aspect. This is
* in principle only needed if the control has different width and
* height.
*
* @param KEEP
*/
public void setKeepAspect(final boolean KEEP) {
if (null == keepAspect) {
_keepAspect = KEEP;
} else {
keepAspect.set(KEEP);
}
}
public BooleanProperty keepAspectProperty() {
if (null == keepAspect) { keepAspect = new SimpleBooleanProperty(Gauge.this, "keepAspect", _keepAspect); }
return keepAspect;
}
/**
* Returns true if the control uses the given customFont to
* render all text elements.
* @return true if the control uses the given customFont
*/
public boolean isCustomFontEnabled() { return null == customFontEnabled ? _customFontEnabled : customFontEnabled.get(); }
/**
* Defines if the control should use the given customFont
* to render all text elements
* @param ENABLED
*/
public void setCustomFontEnabled(final boolean ENABLED) {
if (null == customFontEnabled) {
_customFontEnabled = ENABLED;
fireUpdateEvent(RESIZE_EVENT);
} else {
customFontEnabled.set(ENABLED);
}
}
public BooleanProperty customFontEnabledProperty() {
if (null == customFontEnabled) {
customFontEnabled = new BooleanPropertyBase(_customFontEnabled) {
@Override protected void invalidated() { fireUpdateEvent(RESIZE_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "customFontEnabled"; }
};
}
return customFontEnabled;
}
/**
* Returns the given custom Font that can be used to render
* all text elements. To enable the custom font one has to set
* customFontEnabled = true
* @return the given custom Font
*/
public Font getCustomFont() { return null == customFont ? _customFont : customFont.get(); }
/**
* Defines the custom font that can be used to render all
* text elements. To enable the custom font one has to set
* customFontEnabled = true
* @param FONT
*/
public void setCustomFont(final Font FONT) {
if (null == customFont) {
_customFont = FONT;
fireUpdateEvent(RESIZE_EVENT);
} else {
customFont.set(FONT);
}
}
public ObjectProperty customFontProperty() {
if (null == customFont) {
customFont = new ObjectPropertyBase() {
@Override protected void invalidated() { fireUpdateEvent(RESIZE_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "customFont"; }
};
_customFont = null;
}
return customFont;
}
/**
* Returns true if the alert property was set.
* This property can be used to visualize an alert
* situation in a skin.
* @return true if the alert property was set
*/
public boolean isAlert() { return null == alert ? _alert : alert.get(); }
/**
* Defines if the alert property should be set. This
* property can be used to visualize an alert situation
* in the skin.
* @param ALERT
*/
public void setAlert(final boolean ALERT) {
if (null == alert) {
_alert = ALERT;
fireUpdateEvent(ALERT_EVENT);
} else {
alert.set(ALERT);
}
}
public BooleanProperty alertProperty() {
if (null == alert) {
alert = new BooleanPropertyBase(_alert) {
@Override protected void invalidated() { fireUpdateEvent(ALERT_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "alert"; }
};
}
return alert;
}
/**
* Returns the alert message text that could be used in a tooltip
* in case of an alert.
* @return the alert message text
*/
public String getAlertMessage() { return null == alertMessage ? _alertMessage : alertMessage.get(); }
/**
* Defines the text that could be used in a tooltip as an
* alert message.
* @param MESSAGE
*/
public void setAlertMessage(final String MESSAGE) {
if (null == alertMessage) {
_alertMessage = MESSAGE;
fireUpdateEvent(ALERT_EVENT);
} else {
alertMessage.set(MESSAGE);
}
}
public StringProperty alertMessageProperty() {
if (null == alertMessage) {
alertMessage = new StringPropertyBase(_alertMessage) {
@Override protected void invalidated() { fireUpdateEvent(ALERT_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "alertMessage"; }
};
_alertMessage = null;
}
return alertMessage;
}
/**
* Returns true when smoothing is enabled. This property is only used
* in the TileSparklineSkin to smooth the path. In a custom skin it
* could be also used for other things.
* @return true when smoothing is enabled
*/
public boolean isSmoothing() { return null == smoothing ? _smoothing : smoothing.get(); }
/**
* Defines if the smoothing property should be enabled/disabled.
* At the moment this is only used in the TileSparklineSkin.
* @param SMOOTHING
*/
public void setSmoothing(final boolean SMOOTHING) {
if (null == smoothing) {
_smoothing = SMOOTHING;
fireUpdateEvent(REDRAW_EVENT);
} else {
smoothing.set(SMOOTHING);
}
}
public BooleanProperty smoothingProperty() {
if (null == smoothing) {
smoothing = new BooleanPropertyBase(_smoothing) {
@Override protected void invalidated() { fireUpdateEvent(REDRAW_EVENT); }
@Override public Object getBean() { return Gauge.this; }
@Override public String getName() { return "smoothing"; }
};
}
return smoothing;
}
public String getFormatString() { return formatString; }
private void updateFormatString() {
StringBuilder formatBuilder = new StringBuilder("%.").append(getDecimals()).append("f");
String format = formatBuilder.toString();
int minLength = String.format(Locale.US, format, getMinValue()).length();
int maxLength = String.format(Locale.US, format, getMaxValue()).length();
int length = Math.max(minLength, maxLength);
formatBuilder.setLength(0);
//formatBuilder.append("%").append(length).append(".").append(getDecimals()).append("f");
formatBuilder.append("%").append(".").append(getDecimals()).append("f");
formatString = formatBuilder.toString();
fireUpdateEvent(RESIZE_EVENT);
}
/**
* Calling this method will lead to a recalculation of the scale
*/
public void calcAutoScale() {
double maxNoOfMajorTicks = 10;
double maxNoOfMinorTicks = 10;
double minValue = getMinValue();
double maxValue = getMaxValue();
double range = maxValue - minValue;
double niceRange = (Helper.calcNiceNumber(range, false));
setMajorTickSpace(Helper.calcNiceNumber(niceRange / (maxNoOfMajorTicks - 1), true));
double niceMinValue = (Math.floor(minValue / getMajorTickSpace()) * getMajorTickSpace());
double niceMaxValue = (Math.ceil(maxValue / getMajorTickSpace()) * getMajorTickSpace());
setMinorTickSpace(Helper.calcNiceNumber(getMajorTickSpace() / (maxNoOfMinorTicks - 1), true));
setMinValue(niceMinValue);
setMaxValue(niceMaxValue);
}
// ******************** Misc **********************************************
private synchronized void createBlinkTask() {
blinkTask = new Callable() {
@Override public Void call() throws Exception {
try {
Platform.runLater(() -> setLedOn(!isLedOn()));
} finally {
if (!Thread.currentThread().isInterrupted()) {
// Schedule the same Callable with the current updateInterval
blinkFuture = blinkService.schedule(this, LED_BLINK_INTERVAL, TimeUnit.MILLISECONDS);
}
}
return null;
}
};
}
private synchronized void startBlinkExecutorService() {
if (null == blinkTask) { createBlinkTask(); }
if (null == blinkService) { blinkService = new ScheduledThreadPoolExecutor(1, Helper.getThreadFactory("BlinkTask", true)); }
blinkFuture = blinkService.schedule(blinkTask, LED_BLINK_INTERVAL, TimeUnit.MILLISECONDS);
}
/**
* Calling this method will stop all threads. This is needed when using
* JavaFX on mobile devices when the device goes to sleep mode.
*/
public void stop() {
setLedOn(false);
if (null != blinkFuture) { blinkFuture.cancel(true); }
if (null != blinkService) { blinkService.shutdownNow(); }
}
private void createShutdownHook() { Runtime.getRuntime().addShutdownHook(new Thread(() -> stop())); }
@Override public String toString() {
return new StringBuilder("{")
.append("\"title\":").append("\"").append(getTitle()).append("\",")
.append("\"subTitle\":").append("\"").append(getTitle()).append("\",")
.append("\"unit\":").append("\"").append(getUnit()).append("\",")
.append("\"value\":").append(getValue()).append(",")
.append("\"minValue\":").append(getMinValue()).append(",")
.append("\"maxValue\":").append(getMaxValue()).append(",")
.append("\"threshold\":").append(getThreshold()).append(",")
.append("\"minMeasuredValue\":").append(getMinMeasuredValue()).append(",")
.append("\"maxMeasuredValue\":").append(getMaxMeasuredValue())
.append("}").toString();
}
private void setupBinding() {
showing = Bindings.createBooleanBinding(() -> {
if (getScene() != null && getScene().getWindow() != null) {
if (getScene().getWindow().isShowing()) {
while(updateEventQueue.peek() != null) {
UpdateEvent event = updateEventQueue.poll();
for (UpdateEventListener listener : listenerList) { listener.onUpdateEvent(event); }
}
}
return getScene().getWindow().isShowing();
} else {
return false;
}
}, sceneProperty(), getScene().windowProperty(), getScene().getWindow().showingProperty());
showing.addListener((o, ov, nv) -> {
if (nv) {
while(updateEventQueue.peek() != null) {
UpdateEvent event = updateEventQueue.poll();
for (UpdateEventListener listener : listenerList) { listener.onUpdateEvent(event); }
}
}
});
}
// ******************** Style related *************************************
@Override protected Skin createDefaultSkin() {
switch (skinType) {
case AMP : return new AmpSkin(Gauge.this);
case PLAIN_AMP : return new PlainAmpSkin(Gauge.this);
case BULLET_CHART : return new BulletChartSkin(Gauge.this);
case DASHBOARD : return new DashboardSkin(Gauge.this);
case FLAT : return new FlatSkin(Gauge.this);
case INDICATOR : return new IndicatorSkin(Gauge.this);
case KPI : return new KpiSkin(Gauge.this);
case MODERN : return new ModernSkin(Gauge.this);
case SIMPLE : return new SimpleSkin(Gauge.this);
case SLIM : return new SlimSkin(Gauge.this);
case SPACE_X : return new SpaceXSkin(Gauge.this);
case QUARTER : return new QuarterSkin(Gauge.this);
case HORIZONTAL : return new HSkin(Gauge.this);
case VERTICAL : return new VSkin(Gauge.this);
case LCD : return new LcdSkin(Gauge.this);
case TINY : return new TinySkin(Gauge.this);
case BATTERY : return new BatterySkin(Gauge.this);
case LEVEL : return new LevelSkin(Gauge.this);
case LINEAR : return new LinearSkin(Gauge.this);
case DIGITAL : return new DigitalSkin(Gauge.this);
case SIMPLE_DIGITAL : return new SimpleDigitalSkin(Gauge.this);
case SECTION : return new SectionSkin(Gauge.this);
case BAR : return new BarSkin(Gauge.this);
case WHITE : return new WhiteSkin(Gauge.this);
case CHARGE : return new ChargeSkin(Gauge.this);
case SIMPLE_SECTION : return new SimpleSectionSkin(Gauge.this);
case TILE_KPI : return new TileKpiSkin(Gauge.this);
case TILE_TEXT_KPI : return new TileTextKpiSkin(Gauge.this);
case TILE_SPARK_LINE: return new TileSparklineSkin(Gauge.this);
case GAUGE :
default : return new GaugeSkin(Gauge.this);
}
}
@Override public String getUserAgentStylesheet() {
if (null == userAgentStyleSheet) { userAgentStyleSheet = getClass().getResource("gauge.css").toExternalForm(); }
return userAgentStyleSheet;
}
public SkinType getSkinType() { return skinType; }
public void setSkinType(final SkinType SKIN_TYPE) {
skinType = SKIN_TYPE;
presetGaugeParameters(skinType);
switch (SKIN_TYPE) {
case AMP : super.setSkin(new AmpSkin(Gauge.this)); break;
case PLAIN_AMP : super.setSkin(new PlainAmpSkin(Gauge.this)); break;
case BULLET_CHART : super.setSkin(new BulletChartSkin(Gauge.this)); break;
case DASHBOARD : super.setSkin(new DashboardSkin(Gauge.this)); break;
case FLAT : super.setSkin(new FlatSkin(Gauge.this)); break;
case INDICATOR : super.setSkin(new IndicatorSkin(Gauge.this)); break;
case KPI : super.setSkin(new KpiSkin(Gauge.this)); break;
case MODERN : super.setSkin(new ModernSkin(Gauge.this)); break;
case SIMPLE : super.setSkin(new SimpleSkin(Gauge.this)); break;
case SLIM : super.setSkin(new SlimSkin(Gauge.this)); break;
case SPACE_X : super.setSkin(new SpaceXSkin(Gauge.this)); break;
case QUARTER : super.setSkin(new QuarterSkin(Gauge.this)); break;
case HORIZONTAL : super.setSkin(new HSkin(Gauge.this)); break;
case VERTICAL : super.setSkin(new VSkin(Gauge.this)); break;
case LCD : super.setSkin(new LcdSkin(Gauge.this)); break;
case TINY : super.setSkin(new TinySkin(Gauge.this)); break;
case BATTERY : super.setSkin(new BatterySkin(Gauge.this)); break;
case LEVEL : super.setSkin(new LevelSkin(Gauge.this)); break;
case LINEAR : super.setSkin(new LinearSkin(Gauge.this)); break;
case DIGITAL : super.setSkin(new DigitalSkin(Gauge.this)); break;
case SIMPLE_DIGITAL : super.setSkin(new SimpleDigitalSkin(Gauge.this)); break;
case SECTION : super.setSkin(new SectionSkin(Gauge.this)); break;
case BAR : super.setSkin(new BarSkin(Gauge.this)); break;
case WHITE : super.setSkin(new WhiteSkin(Gauge.this)); break;
case CHARGE : super.setSkin(new ChargeSkin(Gauge.this)); break;
case SIMPLE_SECTION : super.setSkin(new SimpleSectionSkin(Gauge.this)); break;
case TILE_KPI : super.setSkin(new TileKpiSkin(Gauge.this)); break;
case TILE_TEXT_KPI : super.setSkin(new TileTextKpiSkin(Gauge.this)); break;
case TILE_SPARK_LINE: super.setSkin(new TileSparklineSkin(Gauge.this)); break;
case GAUGE :
default : super.setSkin(new GaugeSkin(Gauge.this)); break;
}
fireUpdateEvent(RESIZE_EVENT);
}
public void presetGaugeParameters(final SkinType SKIN_TYPE) {
reInit();
switch (SKIN_TYPE) {
case AMP:
setKnobPosition(Pos.BOTTOM_CENTER);
setTitleColor(Color.WHITE);
setLedVisible(isLedVisible());
setBackgroundPaint(Color.WHITE);
setForegroundPaint(Color.BLACK);
setLcdVisible(isLcdVisible());
setShadowsEnabled(isShadowsEnabled());
break;
case PLAIN_AMP:
setKnobPosition(Pos.BOTTOM_CENTER);
setTitleColor(Color.WHITE);
setLedVisible(isLedVisible());
setBackgroundPaint(Color.WHITE);
setForegroundPaint(Color.BLACK);
setLcdVisible(isLcdVisible());
setShadowsEnabled(isShadowsEnabled());
break;
case BULLET_CHART:
setKnobPosition(Pos.CENTER);
setBarColor(Color.BLACK);
setThresholdColor(Color.BLACK);
break;
case DASHBOARD:
setKnobPosition(Pos.BOTTOM_CENTER);
setDecimals(0);
setBarBackgroundColor(Color.LIGHTGRAY);
setBarColor(Color.rgb(93, 190, 205));
break;
case FLAT:
setKnobPosition(Pos.CENTER);
setBarColor(Color.CYAN);
setBackgroundPaint(Color.TRANSPARENT);
setTitleColor(Gauge.DARK_COLOR);
setValueColor(Gauge.DARK_COLOR);
setUnitColor(Gauge.DARK_COLOR);
setBorderPaint(Color.rgb(208, 208, 208));
setDecimals(0);
break;
case INDICATOR:
setKnobPosition(Pos.BOTTOM_CENTER);
setValueVisible(false);
setGradientBarEnabled(false);
setGradientBarStops(new Stop(0.0, Color.rgb(34, 180, 11)),
new Stop(0.5, Color.rgb(255, 146, 0)),
new Stop(1.0, Color.rgb(255, 0, 39)));
setTickLabelsVisible(false);
setNeedleColor(Color.rgb(71, 71, 71));
setBarBackgroundColor(Color.rgb(232, 231, 223));
setBarColor(Color.rgb(255, 0, 39));
setAngleRange(180);
break;
case KPI:
setKnobPosition(Pos.BOTTOM_CENTER);
setDecimals(0);
setForegroundBaseColor(Color.rgb(126, 126, 127));
setBarColor(Color.rgb(168, 204, 254));
setThresholdVisible(true);
setThresholdColor(Color.rgb(45, 86, 184));
setNeedleColor(Color.rgb(74, 74, 74));
setAngleRange(128);
break;
case MODERN:
setKnobPosition(Pos.CENTER);
setDecimals(0);
setValueColor(Color.WHITE);
setTitleColor(Color.WHITE);
setSubTitleColor(Color.WHITE);
setUnitColor(Color.WHITE);
setBarColor(Color.rgb(0, 214, 215));
setNeedleColor(Color.WHITE);
setThresholdColor(Color.rgb(204, 0, 0));
setTickLabelColor(Color.rgb(151, 151, 151));
setTickMarkColor(Color.BLACK);
setTickLabelOrientation(TickLabelOrientation.ORTHOGONAL);
break;
case SIMPLE:
setKnobPosition(Pos.CENTER);
setBorderPaint(Color.WHITE);
setNeedleBorderColor(Color.WHITE);
setBackgroundPaint(Color.DARKGRAY);
setDecimals(0);
setTickLabelColor(Color.WHITE);
setNeedleColor(Color.web("#5a615f"));
setValueColor(Color.WHITE);
setTitleColor(Color.WHITE);
setSubTitleColor(Color.WHITE);
setSectionsVisible(true);
break;
case SLIM:
setKnobPosition(Pos.CENTER);
setDecimals(2);
setBarBackgroundColor(Color.rgb(62, 67, 73));
setBarColor(Color.rgb(93, 190, 205));
setTitleColor(Color.rgb(142, 147, 151));
setValueColor(Color.rgb(228, 231, 238));
setUnitColor(Color.rgb(142, 147, 151));
break;
case SPACE_X:
setKnobPosition(Pos.CENTER);
setDecimals(0);
setThresholdColor(Color.rgb(180, 0, 0));
setBarBackgroundColor(Color.rgb(169, 169, 169, 0.25));
setBarColor(Color.rgb(169, 169, 169));
setTitleColor(Color.WHITE);
setValueColor(Color.WHITE);
setUnitColor(Color.WHITE);
break;
case QUARTER:
setKnobPosition(Pos.BOTTOM_RIGHT);
setAngleRange(90);
break;
case HORIZONTAL:
setKnobPosition(Pos.BOTTOM_CENTER);
setAngleRange(180);
break;
case VERTICAL:
setKnobPosition(Pos.CENTER_RIGHT);
setAngleRange(180);
break;
case LCD:
setDecimals(1);
setTickLabelDecimals(1);
setMinMeasuredValueVisible(isMinMeasuredValueVisible());
setMaxMeasuredValueVisible(isMaxMeasuredValueVisible());
setOldValueVisible(isOldValueVisible());
setBorderPaint(Color.WHITE);
setForegroundPaint(Color.WHITE);
break;
case TINY:
setBorderWidth(24);
setBackgroundPaint(Color.rgb(216, 216, 216));
setBorderPaint(Color.rgb(76, 76, 76));
setBarBackgroundColor(Color.rgb(76, 76, 76, 0.2));
setNeedleColor(Color.rgb(76, 76, 76));
setSectionsVisible(true);
setMajorTickMarksVisible(true);
setMajorTickMarkColor(Color.WHITE);
break;
case BATTERY:
setBarBackgroundColor(Color.BLACK);
setBarColor(Color.BLACK);
setValueColor(Color.WHITE);
break;
case LEVEL:
setValueColor(Color.WHITE);
setBarColor(Color.CYAN);
break;
case LINEAR:
setOrientation(Orientation.VERTICAL);
setBarColor(DARK_COLOR);
setBarEffectEnabled(true);
break;
case DIGITAL:
setBarColor(DARK_COLOR);
break;
case SIMPLE_DIGITAL:
setBarColor(DARK_COLOR);
break;
case SECTION:
setBackgroundPaint(Gauge.DARK_COLOR);
setAutoScale(false);
setValueVisible(false);
setKnobColor(Color.rgb(82, 82, 84));
setSectionsVisible(true);
setSectionTextVisible(true);
break;
case BAR:
Color barColor = getBarColor();
setAnimated(true);
setAnimationDuration(1000);
setMinValue(0);
setMaxValue(100);
setGradientBarEnabled(true);
setGradientBarStops(new Stop(0.0, barColor),
new Stop(0.01, barColor),
new Stop(0.75, barColor.deriveColor(-10, 1, 1, 1)),
new Stop(1.0, barColor.deriveColor(-20, 1, 1, 1)));
break;
case WHITE:
setAnimated(true);
setAnimationDuration(1000);
setAngleRange(360);
setMinValue(0);
setMaxValue(100);
setBarColor(Color.WHITE);
setValueColor(Color.WHITE);
setUnitColor(Color.WHITE);
break;
case CHARGE:
setAnimated(true);
setMinValue(0.0);
setMaxValue(1.0);
break;
case SIMPLE_SECTION:
setAnimated(true);
setStartAngle(150);
setAngleRange(300);
setSectionsVisible(true);
setBarBackgroundColor(Color.rgb(150, 150, 150, 0.25));
setBarColor(Color.rgb(69, 106, 207));
setTitleColor(Color.rgb(90, 90, 90));
setUnitColor(Color.rgb(90, 90, 90));
setValueColor(Color.rgb(90, 90, 90));
break;
case TILE_KPI:
setKnobPosition(Pos.BOTTOM_CENTER);
setDecimals(0);
setValueColor(Color.rgb(238, 238, 238));
setBackgroundPaint(Color.rgb(42,42,42));
setForegroundBaseColor(Color.rgb(238,238,238));
setBarColor(Color.rgb(238,238,238));
setThresholdVisible(false);
setThresholdColor(Color.rgb(41,177,255));
setNeedleColor(Color.rgb(238,238,238));
setAngleRange(180);
break;
case TILE_TEXT_KPI:
setDecimals(0);
setBackgroundPaint(Color.rgb(42,42,42));
setForegroundBaseColor(Color.rgb(238,238,238));
setBarColor(Color.rgb(41,177,255));
setValueColor(Color.rgb(238, 238, 238));
setUnitColor(Color.rgb(238, 238, 238));
setThresholdVisible(false);
setThresholdColor(Color.rgb(139,144,146));
break;
case TILE_SPARK_LINE:
setDecimals(0);
setBackgroundPaint(Color.rgb(42,42,42));
setForegroundBaseColor(Color.rgb(238,238,238));
setBarColor(Color.rgb(41,177,255));
setValueColor(Color.rgb(238, 238, 238));
setUnitColor(Color.rgb(238, 238, 238));
setAveragingEnabled(true);
setAveragingPeriod(10);
setAverageColor(Color.rgb(238, 238, 238, 0.5));
setAnimated(false);
break;
case GAUGE:
setStartAngle(320);
setAngleRange(280);
default:
break;
}
}
// ******************** Event handling ************************************
public void setOnUpdate(final UpdateEventListener LISTENER) { addUpdateEventListener(LISTENER); }
public void addUpdateEventListener(final UpdateEventListener LISTENER) { if (!listenerList.contains(LISTENER)) listenerList.add(LISTENER); }
public void removeUpdateEventListener(final UpdateEventListener LISTENER) { if (listenerList.contains(LISTENER)) listenerList.remove(LISTENER); }
public void fireUpdateEvent(final UpdateEvent EVENT) {
if (null != showing && showing.get()) {
for (UpdateEventListener listener : listenerList) { listener.onUpdateEvent(EVENT); }
} else {
updateEventQueue.add(EVENT);
}
}
public void setOnButtonPressed(final EventHandler HANDLER) { addEventHandler(ButtonEvent.BTN_PRESSED, HANDLER); }
public void removeOnButtonPressed(final EventHandler HANDLER) { removeEventHandler(ButtonEvent.BTN_PRESSED, HANDLER); }
public void setOnButtonReleased(final EventHandler HANDLER) { addEventHandler(ButtonEvent.BTN_RELEASED, HANDLER); }
public void removeOnButtonReleased(final EventHandler HANDLER) { removeEventHandler(ButtonEvent.BTN_RELEASED, HANDLER); }
public void setOnThresholdExceeded(final EventHandler HANDLER) { addEventHandler(ThresholdEvent.THRESHOLD_EXCEEDED, HANDLER); }
public void removeOnThresholdExceeded(final EventHandler HANDLER) { removeEventHandler(ThresholdEvent.THRESHOLD_EXCEEDED, HANDLER); }
public void setOnThresholdUnderrun(final EventHandler HANDLER) { addEventHandler(ThresholdEvent.THRESHOLD_UNDERRUN, HANDLER); }
public void removeOnThresholdUnderrun(final EventHandler HANDLER) { removeEventHandler(ThresholdEvent.THRESHOLD_UNDERRUN, HANDLER); }
// ******************** Inner Classes *************************************
public static class ButtonEvent extends Event {
public static final EventType BTN_PRESSED = new EventType<>(ANY, "BTN_PRESSED" + UUID.randomUUID().toString());
public static final EventType BTN_RELEASED = new EventType<>(ANY, "BTN_RELEASED" + UUID.randomUUID().toString());
// ******************** Constructors **************************************
public ButtonEvent(final EventType TYPE) { super(TYPE); }
public ButtonEvent(final Object SOURCE, final EventTarget TARGET, EventType TYPE) { super(SOURCE, TARGET, TYPE); }
}
public static class ThresholdEvent extends Event {
public static final EventType THRESHOLD_EXCEEDED = new EventType<>(ANY, "THRESHOLD_EXCEEDED" + UUID.randomUUID().toString());
public static final EventType THRESHOLD_UNDERRUN = new EventType<>(ANY, "THRESHOLD_UNDERRUN" + UUID.randomUUID().toString());
// ******************** Constructors **************************************
public ThresholdEvent(final EventType TYPE) { super(TYPE); }
public ThresholdEvent(final Object SOURCE, final EventTarget TARGET, EventType TYPE) { super(SOURCE, TARGET, TYPE); }
}
}