eu.hansolo.steelseries.gauges.AbstractLinear Maven / Gradle / Ivy
package eu.hansolo.steelseries.gauges;
/**
*
* @author hansolo
*/
public abstract class AbstractLinear extends AbstractGauge implements Lcd
{
//
private final java.awt.Rectangle INNER_BOUNDS;
private final java.awt.GraphicsConfiguration GFX_CONF;
// Bar related
private boolean startingFromZero;
// LED related variables
private java.awt.geom.Point2D ledPosition;
// LCD related variables
private String lcdUnitString;
private double lcdValue;
protected static final java.awt.Font LCD_STANDARD_FONT = new java.awt.Font("Verdana", 1, 24);
protected static final java.awt.Font LCD_DIGITAL_FONT = eu.hansolo.steelseries.tools.Util.INSTANCE.getDigitalFont().deriveFont(24);
private org.pushingpixels.trident.Timeline lcdTimeline;
// Animation related variables
private org.pushingpixels.trident.Timeline timeline;
private final org.pushingpixels.trident.ease.TimelineEase STANDARD_EASING;
private final org.pushingpixels.trident.ease.TimelineEase RETURN_TO_ZERO_EASING;
private org.pushingpixels.trident.callback.TimelineCallback timelineCallback;
//
//
public AbstractLinear()
{
super();
INNER_BOUNDS = new java.awt.Rectangle(getMinimumSize());
GFX_CONF = java.awt.GraphicsEnvironment.getLocalGraphicsEnvironment().getDefaultScreenDevice().getDefaultConfiguration();
startingFromZero = false;
ledPosition = new java.awt.geom.Point2D.Double((getInnerBounds().width - 18.0 - 16.0) / getInnerBounds().width, 0.453271028);
lcdValue = 0;
lcdTimeline = new org.pushingpixels.trident.Timeline(this);
lcdUnitString = getUnitString();
timeline = new org.pushingpixels.trident.Timeline(this);
STANDARD_EASING = new org.pushingpixels.trident.ease.Spline(0.5f);
RETURN_TO_ZERO_EASING = new org.pushingpixels.trident.ease.Sine();
}
//
//
/**
* Uses trident animation library to animate
* the setting of the value.
* The method plays a defined trident timeline
* that calls the setValue(double value) method
* with a given easing behaviour and duration.
* You should always use this method to set the
* gauge to a given value.
* @param VALUE
*/
public void setValueAnimated(final double VALUE)
{
if (isEnabled())
{
if (timeline.getState() != org.pushingpixels.trident.Timeline.TimelineState.IDLE)
{
timeline.abort();
}
//double overallRange = getMaxValue() - getMinValue();
//double range = Math.abs(getValue() - VALUE);
//double fraction = range / overallRange;
if (!isAutoResetToZero())
{
timeline.removeCallback(timelineCallback);
timeline = new org.pushingpixels.trident.Timeline(this);
timeline.addPropertyToInterpolate("value", getValue(), VALUE);
timeline.setEase(STANDARD_EASING);
//TIMELINE.setDuration((long) (getStdTimeToValue() * fraction));
timeline.setDuration(getStdTimeToValue());
timelineCallback = new org.pushingpixels.trident.callback.TimelineCallback()
{
@Override
public void onTimelineStateChanged(final org.pushingpixels.trident.Timeline.TimelineState OLD_STATE, final org.pushingpixels.trident.Timeline.TimelineState NEW_STATE, final float OLD_VALUE, final float NEW_VALUE)
{
if (NEW_STATE == org.pushingpixels.trident.Timeline.TimelineState.IDLE)
{
repaint(getInnerBounds());
}
// Check if current value exceeds maxMeasuredValue
if (getValue() > getMaxMeasuredValue())
{
setMaxMeasuredValue(getValue());
}
}
@Override
public void onTimelinePulse(final float OLD_VALUE, final float NEW_VALUE)
{
// Check if current value exceeds maxMeasuredValue
if (getValue() > getMaxMeasuredValue())
{
setMaxMeasuredValue(getValue());
}
// Check if current value exceeds minMeasuredValue
if (getValue() < getMinMeasuredValue())
{
setMinMeasuredValue(getValue());
}
}
};
timeline.addCallback(timelineCallback);
timeline.play();
}
else
{
final org.pushingpixels.trident.TimelineScenario AUTOZERO_SCENARIO = new org.pushingpixels.trident.TimelineScenario.Sequence();
final org.pushingpixels.trident.Timeline TIMELINE_TO_VALUE = new org.pushingpixels.trident.Timeline(this);
TIMELINE_TO_VALUE.addPropertyToInterpolate("value", getValue(), VALUE);
TIMELINE_TO_VALUE.setEase(RETURN_TO_ZERO_EASING);
//TIMELINE_TO_VALUE.setDuration((long) (getRtzTimeToValue() * fraction));
TIMELINE_TO_VALUE.setDuration(getRtzTimeToValue());
TIMELINE_TO_VALUE.addCallback(new org.pushingpixels.trident.callback.TimelineCallback()
{
@Override
public void onTimelineStateChanged(org.pushingpixels.trident.Timeline.TimelineState oldState, org.pushingpixels.trident.Timeline.TimelineState newState, float oldValue, float newValue)
{
if (oldState == org.pushingpixels.trident.Timeline.TimelineState.PLAYING_FORWARD && newState == org.pushingpixels.trident.Timeline.TimelineState.DONE)
{
// Set the peak value and start the timer
getModel().setPeakValue(getValue());
getModel().setPeakValueVisible(true);
if (getPeakTimer().isRunning())
{
stopPeakTimer();
}
startPeakTimer();
// Check if current value exceeds maxMeasuredValue
if (getValue() > getMaxMeasuredValue())
{
setMaxMeasuredValue(getValue());
}
}
}
@Override
public void onTimelinePulse(float oldValue, float newValue)
{
// Check if current value exceeds maxMeasuredValue
if (getValue() > getMaxMeasuredValue())
{
setMaxMeasuredValue(getValue());
}
// Check if current value exceeds minMeasuredValue
if (getValue() < getMinMeasuredValue())
{
setMinMeasuredValue(getValue());
}
}
});
final org.pushingpixels.trident.Timeline TIMELINE_TO_ZERO = new org.pushingpixels.trident.Timeline(this);
TIMELINE_TO_ZERO.addPropertyToInterpolate("value", VALUE, 0.0);
TIMELINE_TO_ZERO.setEase(RETURN_TO_ZERO_EASING);
//TIMELINE_TO_ZERO.setDuration((long) (getRtzTimeBackToZero() * fraction));
TIMELINE_TO_ZERO.setDuration(getRtzTimeBackToZero());
AUTOZERO_SCENARIO.addScenarioActor(TIMELINE_TO_VALUE);
AUTOZERO_SCENARIO.addScenarioActor(TIMELINE_TO_ZERO);
// AUTOZERO_SCENARIO.addCallback(new org.pushingpixels.trident.callback.TimelineScenarioCallback()
// {
// @Override
// public void onTimelineScenarioDone()
// {
//
// }
// });
AUTOZERO_SCENARIO.play();
}
}
}
/**
* Returns the color of the bar
* @return the selected color of the bar
*/
public eu.hansolo.steelseries.tools.ColorDef getValueColor()
{
return getModel().getValueColor();
}
/**
* Sets the color of the bar
* @param VALUE_COLOR
*/
public void setValueColor(final eu.hansolo.steelseries.tools.ColorDef VALUE_COLOR)
{
getModel().setValueColor(VALUE_COLOR);
repaint(getInnerBounds());
}
/**
* Returns the object that represents holds the custom value color
* @return the object that represents the custom value color
*/
public eu.hansolo.steelseries.tools.CustomColorDef getCustomValueColorObject()
{
return getModel().getCustomValueColorObject();
}
/**
* Returns the color of the bar from which the custom bar color will calculated
* @return the color of the bar from which the custom bar color will be calculated
*/
public java.awt.Color getCustomValueColor()
{
return getModel().getCustomValueColor();
}
/**
* Sets the color of the bar from which the custom bar color will be calculated
* @param COLOR
*/
public void setCustomValueColor(final java.awt.Color COLOR)
{
getModel().setCustomValueColorObject(new eu.hansolo.steelseries.tools.CustomColorDef(COLOR));
repaint(getInnerBounds());
}
/**
* Returns true if the bar/bargraph will always start from zero instead from
* the minValue. This could be useful if you would like to create something
* like a g-force meter, where 0 is in the center of the range and the bar
* could move in negative and positive direction. In combination with
* AutoReturnToZero this feature might be useful.
* @return true if the bar/bargraph will always start to in-/decrease from zero
*/
public boolean isStartingFromZero()
{
return this.startingFromZero;
}
/**
* Enables/Disables the feature that the bar/bargraph will always start from zero
* instead from the minValue. This could be useful if you would like to create
* something like a g-force meter, where 0 is in the center of the range and
* the bar could move in negative and positive direction. In combination with
* AutoReturnToZero this feature might be useful.
* @param STARTING_FROM_ZERO
*/
public void setStartingFromZero(final boolean STARTING_FROM_ZERO)
{
this.startingFromZero = STARTING_FROM_ZERO;
}
public int getMaxNoOfMinorTicks()
{
return getModel().getMaxNoOfMinorTicks();
}
public void setMaxNoOfMinorTicks(final int MAX_NO_OF_MINOR_TICKS)
{
getModel().setMaxNoOfMinorTicks(MAX_NO_OF_MINOR_TICKS);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
public int getMaxNoOfMajorTicks()
{
return getModel().getMaxNoOfMajorTicks();
}
public void setMaxNoOfMajorTicks(final int MAX_NO_OF_MAJOR_TICKS)
{
getModel().setMaxNoOfMajorTicks(MAX_NO_OF_MAJOR_TICKS);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
/**
* Returns the current position of the gauge threshold led
* @return the current position of the gauge threshold led
*/
@Override
public java.awt.geom.Point2D getLedPosition()
{
return ledPosition;
}
/**
* Sets the position of the gauge threshold led to the given values
* @param X
* @param Y
*/
@Override
public void setLedPosition(final double X, final double Y)
{
ledPosition.setLocation(X, Y);
repaint(getInnerBounds());
}
/**
* Sets the position of the gauge threshold led to the given values
* @param LED_POSITION
*/
public void setLedPosition(final java.awt.geom.Point2D LED_POSITION)
{
ledPosition.setLocation(LED_POSITION);
repaint(getInnerBounds());
}
protected void createLedImages()
{
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
recreateLedImages(getWidth());
}
else
{
recreateLedImages(getHeight());
}
}
/**
* Returns the visibility of the lcd display
* @return true if the lcd display is visible
*/
public boolean isLcdVisible()
{
return getModel().isLcdVisible();
}
/**
* Enables or disables the visibility of the lcd display
* @param LCD_VISIBLE
*/
public void setLcdVisible(final boolean LCD_VISIBLE)
{
getModel().setLcdVisible(LCD_VISIBLE);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public boolean isValueCoupled()
{
return getModel().isValueCoupled();
}
@Override
public void setValueCoupled(final boolean VALUE_COUPLED)
{
getModel().setValueCoupled(VALUE_COUPLED);
repaint(getInnerBounds());
}
@Override
public double getLcdValue()
{
return this.lcdValue;
}
@Override
public void setLcdValue(final double LCD_VALUE)
{
this.lcdValue = LCD_VALUE;
repaint(getInnerBounds());
}
@Override
public void setLcdValueAnimated(final double LCD_VALUE)
{
if (lcdTimeline.getState() == org.pushingpixels.trident.Timeline.TimelineState.PLAYING_FORWARD || lcdTimeline.getState() == org.pushingpixels.trident.Timeline.TimelineState.PLAYING_REVERSE)
{
lcdTimeline.abort();
}
lcdTimeline = new org.pushingpixels.trident.Timeline(this);
lcdTimeline.addPropertyToInterpolate("lcdValue", this.lcdValue, LCD_VALUE);
lcdTimeline.setEase(new org.pushingpixels.trident.ease.Spline(0.5f));
lcdTimeline.play();
}
@Override
public String getLcdUnitString()
{
return lcdUnitString;
}
@Override
public void setLcdUnitString(final String UNIT_STRING)
{
this.lcdUnitString = UNIT_STRING;
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public boolean isLcdUnitStringVisible()
{
return getModel().isLcdUnitStringVisible();
}
@Override
public void setLcdUnitStringVisible(final boolean UNIT_STRING_VISIBLE)
{
getModel().setLcdUnitStringVisible(UNIT_STRING_VISIBLE);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public boolean isDigitalFont()
{
return getModel().isDigitalFontEnabled();
}
@Override
public void setDigitalFont(final boolean DIGITAL_FONT)
{
getModel().setDigitalFontEnabled(DIGITAL_FONT);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public boolean isCustomLcdUnitFontEnabled()
{
return getModel().isCustomLcdUnitFontEnabled();
}
@Override
public void setCustomLcdUnitFontEnabled(final boolean USE_CUSTOM_LCD_UNIT_FONT)
{
getModel().setCustomLcdUnitFontEnabled(USE_CUSTOM_LCD_UNIT_FONT);
repaint(getInnerBounds());
}
@Override
public java.awt.Font getCustomLcdUnitFont()
{
return getModel().getCustomLcdUnitFont();
}
@Override
public void setCustomLcdUnitFont(final java.awt.Font CUSTOM_LCD_UNIT_FONT)
{
getModel().setCustomLcdUnitFont(CUSTOM_LCD_UNIT_FONT);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public int getLcdDecimals()
{
return getModel().getLcdDecimals();
}
@Override
public void setLcdDecimals(final int DECIMALS)
{
getModel().setLcdDecimals(DECIMALS);
repaint(getInnerBounds());
}
@Override
public eu.hansolo.steelseries.tools.LcdColor getLcdColor()
{
return getModel().getLcdColor();
}
@Override
public void setLcdColor(final eu.hansolo.steelseries.tools.LcdColor COLOR)
{
getModel().setLcdColor(COLOR);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public java.awt.Paint getCustomLcdBackground()
{
return getModel().getCustomLcdBackground();
}
@Override
public void setCustomLcdBackground(final java.awt.Paint CUSTOM_LCD_BACKGROUND)
{
getModel().setCustomLcdBackground(CUSTOM_LCD_BACKGROUND);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public java.awt.Color getCustomLcdForeground()
{
return getModel().getCustomLcdForeground();
}
@Override
public void setCustomLcdForeground(final java.awt.Color CUSTOM_LCD_FOREGROUND)
{
getModel().setCustomLcdForeground(CUSTOM_LCD_FOREGROUND);
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
@Override
public String formatLcdValue(final double VALUE)
{
final StringBuilder DEC_BUFFER = new StringBuilder(16);
DEC_BUFFER.append("0");
if (getModel().getLcdDecimals() > 0)
{
DEC_BUFFER.append(".");
}
for (int i = 0 ; i < getModel().getLcdDecimals() ; i++)
{
DEC_BUFFER.append("0");
}
if(getModel().isLcdScientificFormatEnabled())
{
DEC_BUFFER.append("E0");
}
DEC_BUFFER.trimToSize();
final java.text.DecimalFormat DEC_FORMAT = new java.text.DecimalFormat(DEC_BUFFER.toString(), new java.text.DecimalFormatSymbols(java.util.Locale.US));
return DEC_FORMAT.format(VALUE);
}
@Override
public boolean isLcdScientificFormat()
{
return getModel().isLcdScientificFormatEnabled();
}
@Override
public void setLcdScientificFormat(boolean LCD_SCIENTIFIC_FORMAT)
{
getModel().setLcdScientificFormatEnabled(LCD_SCIENTIFIC_FORMAT);
repaint(getInnerBounds());
}
@Override
public java.awt.Font getLcdValueFont()
{
return getModel().getLcdValueFont();
}
@Override
public void setLcdValueFont(final java.awt.Font LCD_VALUE_FONT)
{
getModel().setLcdValueFont(LCD_VALUE_FONT);
repaint(getInnerBounds());
}
@Override
public java.awt.Font getLcdUnitFont()
{
return getModel().getLcdUnitFont();
}
@Override
public void setLcdUnitFont(final java.awt.Font LCD_UNIT_FONT)
{
getModel().setLcdUnitFont(LCD_UNIT_FONT);
repaint(getInnerBounds());
}
//
//
/**
* Returns the frame image with the currently active framedesign
* with the given with and height.
* @param WIDTH
* @param HEIGHT
* @return buffered image containing the frame in the active frame design
*/
protected java.awt.image.BufferedImage create_FRAME_Image(final int WIDTH, final int HEIGHT)
{
return FRAME_FACTORY.createLinearFrame(WIDTH, HEIGHT, getFrameDesign(), getCustomFrameDesign(), isFrame3dEffectVisible());
}
/**
* Returns the frame image with the currently active framedesign
* with the given with and height.
* @param WIDTH
* @param HEIGHT
* @param IMAGE
* @return buffered image containing the frame in the active frame design
*/
protected java.awt.image.BufferedImage create_FRAME_Image(final int WIDTH, final int HEIGHT, final java.awt.image.BufferedImage IMAGE)
{
return FRAME_FACTORY.createLinearFrame(WIDTH, HEIGHT, getFrameDesign(), getCustomFrameDesign(), isFrame3dEffectVisible(), IMAGE);
}
/**
* Returns the background image with the currently active backgroundcolor
* with the given width and height.
* @param WIDTH
* @param HEIGHT
* @return buffered image containing the background with the selected background design
*/
protected java.awt.image.BufferedImage create_BACKGROUND_Image(final int WIDTH, final int HEIGHT)
{
return create_BACKGROUND_Image(WIDTH, HEIGHT, null);
}
/**
* Returns the background image with the currently active backgroundcolor
* with the given width and height.
* @param WIDTH
* @param HEIGHT
* @param image
* @return buffered image containing the background with the selected background design
*/
protected java.awt.image.BufferedImage create_BACKGROUND_Image(final int WIDTH, final int HEIGHT, java.awt.image.BufferedImage image)
{
if (WIDTH <= 0 || HEIGHT <= 0)
{
return GFX_CONF.createCompatibleImage(1, 1, java.awt.Transparency.TRANSLUCENT);
}
if (image == null)
{
image = GFX_CONF.createCompatibleImage(WIDTH, HEIGHT, java.awt.Transparency.TRANSLUCENT);
}
final java.awt.Graphics2D G2 = image.createGraphics();
G2.setRenderingHint(java.awt.RenderingHints.KEY_ANTIALIASING, java.awt.RenderingHints.VALUE_ANTIALIAS_ON);
G2.setRenderingHint(java.awt.RenderingHints.KEY_STROKE_CONTROL, java.awt.RenderingHints.VALUE_STROKE_PURE);
final int IMAGE_WIDTH = image.getWidth();
final int IMAGE_HEIGHT = image.getHeight();
// Draw the background image
BACKGROUND_FACTORY.createLinearBackground(WIDTH, HEIGHT, getBackgroundColor(), getModel().getCustomBackground(), image);
// Draw the custom layer if selected
if (isCustomLayerVisible())
{
G2.drawImage(UTIL.getScaledInstance(getCustomLayer(), IMAGE_WIDTH, IMAGE_HEIGHT, java.awt.RenderingHints.VALUE_INTERPOLATION_BICUBIC), 0, 0, null);
}
G2.dispose();
return image;
}
/**
* Returns the track image with the given values.
* @param WIDTH
* @param HEIGHT
* @param MIN_VALUE
* @param MAX_VALUE
* @param TRACK_START
* @param TRACK_SECTION
* @param TRACK_STOP
* @param TRACK_START_COLOR
* @param TRACK_SECTION_COLOR
* @param TRACK_STOP_COLOR
* @return a buffered image of the track colored with the given values
*/
protected java.awt.image.BufferedImage create_TRACK_Image(final int WIDTH, final int HEIGHT, final double MIN_VALUE, final double MAX_VALUE, final double TRACK_START, final double TRACK_SECTION, final double TRACK_STOP, final java.awt.Color TRACK_START_COLOR, final java.awt.Color TRACK_SECTION_COLOR, final java.awt.Color TRACK_STOP_COLOR)
{
return create_TRACK_Image(WIDTH, HEIGHT, MIN_VALUE, MAX_VALUE, TRACK_START, TRACK_SECTION, TRACK_STOP, TRACK_START_COLOR, TRACK_SECTION_COLOR, TRACK_STOP_COLOR, null);
}
/**
* Returns the track image with the given values.
* @param WIDTH
* @param HEIGHT
* @param MIN_VALUE
* @param MAX_VALUE
* @param TRACK_START
* @param TRACK_SECTION
* @param TRACK_STOP
* @param TRACK_START_COLOR
* @param TRACK_SECTION_COLOR
* @param TRACK_STOP_COLOR
* @param image
* @return a buffered image of the track colored with the given values
*/
protected java.awt.image.BufferedImage create_TRACK_Image(final int WIDTH, final int HEIGHT, final double MIN_VALUE, final double MAX_VALUE, final double TRACK_START, final double TRACK_SECTION, final double TRACK_STOP, final java.awt.Color TRACK_START_COLOR, final java.awt.Color TRACK_SECTION_COLOR, final java.awt.Color TRACK_STOP_COLOR, java.awt.image.BufferedImage image)
{
if (WIDTH <= 0 || HEIGHT <= 0)
{
return GFX_CONF.createCompatibleImage(1, 1, java.awt.Transparency.TRANSLUCENT);
}
if (TRACK_STOP > MAX_VALUE)
{
throw new IllegalArgumentException("Please adjust track start and/or track stop values");
}
if (image == null)
{
image = GFX_CONF.createCompatibleImage(WIDTH, HEIGHT, java.awt.Transparency.TRANSLUCENT);
}
final java.awt.Graphics2D G2 = image.createGraphics();
G2.setRenderingHint(java.awt.RenderingHints.KEY_ANTIALIASING, java.awt.RenderingHints.VALUE_ANTIALIAS_ON);
final int IMAGE_WIDTH = image.getWidth();
final int IMAGE_HEIGHT = image.getHeight();
final java.awt.geom.Rectangle2D TRACK;
final java.awt.geom.Point2D TRACK_START_POINT;
final java.awt.geom.Point2D TRACK_STOP_POINT;
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
// Vertical orientation
TRACK = new java.awt.geom.Rectangle2D.Double(IMAGE_WIDTH * 0.315, IMAGE_HEIGHT * 0.1276, IMAGE_WIDTH * 0.05, IMAGE_HEIGHT * 0.7280);
TRACK_START_POINT = new java.awt.geom.Point2D.Double(0, TRACK.getMaxY());
TRACK_STOP_POINT = new java.awt.geom.Point2D.Double(0, TRACK.getMinY());
}
else
{
// Horizontal orientation
TRACK = new java.awt.geom.Rectangle2D.Double(IMAGE_WIDTH * 0.139, IMAGE_HEIGHT * 0.6285714285714286, IMAGE_WIDTH * 0.735, IMAGE_HEIGHT * 0.05);
TRACK_START_POINT = new java.awt.geom.Point2D.Double(TRACK.getMinX(), 0);
TRACK_STOP_POINT = new java.awt.geom.Point2D.Double(TRACK.getMaxX(), 0);
}
// Calculate the track start and stop position for the gradient
final float TRACK_START_POSITION = (float) ((TRACK_START - MIN_VALUE) / (MAX_VALUE - MIN_VALUE));
final float TRACK_STOP_POSITION = (float) ((TRACK_STOP - MIN_VALUE) / (MAX_VALUE - MIN_VALUE));
final java.awt.Color FULLY_TRANSPARENT = new java.awt.Color(0.0f, 0.0f, 0.0f, 0.0f);
final float[] TRACK_FRACTIONS;
final java.awt.Color[] TRACK_COLORS;
// Three color gradient from trackStart over trackSection to trackStop
final float TRACK_SECTION_POSITION = (float) ((TRACK_SECTION - MIN_VALUE) / (MAX_VALUE - MIN_VALUE));
TRACK_FRACTIONS = new float[]
{
0.0f,
TRACK_START_POSITION + 0.001f,
TRACK_START_POSITION + 0.002f,
TRACK_SECTION_POSITION,
TRACK_STOP_POSITION - 0.002f,
TRACK_STOP_POSITION - 0.001f,
1.0f
};
TRACK_COLORS = new java.awt.Color[]
{
FULLY_TRANSPARENT,
FULLY_TRANSPARENT,
TRACK_START_COLOR,
TRACK_SECTION_COLOR,
TRACK_STOP_COLOR,
FULLY_TRANSPARENT,
FULLY_TRANSPARENT
};
final java.awt.LinearGradientPaint TRACK_GRADIENT = new java.awt.LinearGradientPaint(TRACK_START_POINT, TRACK_STOP_POINT, TRACK_FRACTIONS, TRACK_COLORS);
G2.setPaint(TRACK_GRADIENT);
G2.fill(TRACK);
G2.dispose();
return image;
}
/**
* Returns the image of the title.
* @param WIDTH
* @param HEIGHT
* @param UNIT_STRING_VISIBLE
* @return a buffered image of the title and unit string
*/
protected java.awt.image.BufferedImage create_TITLE_Image(final int WIDTH, final int HEIGHT, final boolean UNIT_STRING_VISIBLE)
{
return create_TITLE_Image(WIDTH, HEIGHT, UNIT_STRING_VISIBLE, null);
}
/**
* Returns the image of the title.
* @param WIDTH
* @param HEIGHT
* @param UNIT_STRING_VISIBLE
* @param image
* @return a buffered image of the title and unit string
*/
protected java.awt.image.BufferedImage create_TITLE_Image(final int WIDTH, final int HEIGHT, final boolean UNIT_STRING_VISIBLE, java.awt.image.BufferedImage image)
{
if (WIDTH <= 0 || HEIGHT <= 0)
{
return GFX_CONF.createCompatibleImage(1, 1, java.awt.Transparency.TRANSLUCENT);
}
if (image == null)
{
image = GFX_CONF.createCompatibleImage(WIDTH, HEIGHT, java.awt.Transparency.TRANSLUCENT);
}
final java.awt.Graphics2D G2 = image.createGraphics();
G2.setRenderingHint(java.awt.RenderingHints.KEY_ANTIALIASING, java.awt.RenderingHints.VALUE_ANTIALIAS_ON);
G2.setRenderingHint(java.awt.RenderingHints.KEY_FRACTIONALMETRICS, java.awt.RenderingHints.VALUE_FRACTIONALMETRICS_ON);
G2.setRenderingHint(java.awt.RenderingHints.KEY_TEXT_ANTIALIASING, java.awt.RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
final int IMAGE_WIDTH = image.getWidth();
final int IMAGE_HEIGHT = image.getHeight();
final java.awt.font.FontRenderContext RENDER_CONTEXT = new java.awt.font.FontRenderContext(null, true, true);
if (isLabelColorFromThemeEnabled())
{
G2.setColor(getBackgroundColor().LABEL_COLOR);
}
else
{
G2.setColor(getLabelColor());
}
final java.awt.font.TextLayout LAYOUT_TITLE;
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
// Vertical orientation
// Draw title
// Use custom font if selected
if (isTitleAndUnitFontEnabled())
{
G2.setFont(new java.awt.Font(getTitleAndUnitFont().getFamily(), getTitleAndUnitFont().getStyle(), getTitleAndUnitFont().getSize()));
}
else
{
G2.setFont(new java.awt.Font("Verdana", 0, (int) (0.1 * IMAGE_WIDTH)));
}
LAYOUT_TITLE = new java.awt.font.TextLayout(getTitle(), G2.getFont(), RENDER_CONTEXT);
final java.awt.geom.AffineTransform OLD_TRANSFORM = G2.getTransform();
G2.translate(0.0, -0.05 * IMAGE_HEIGHT);
G2.rotate(1.5707963267948966, 0.6714285714285714f * IMAGE_WIDTH, 0.1375f * IMAGE_HEIGHT + LAYOUT_TITLE.getAscent() - LAYOUT_TITLE.getDescent());
G2.drawString(getTitle(), 0.6714285714285714f * IMAGE_WIDTH, 0.1375f * IMAGE_HEIGHT + LAYOUT_TITLE.getAscent() - LAYOUT_TITLE.getDescent());
G2.setTransform(OLD_TRANSFORM);
// Draw unit string
if (UNIT_STRING_VISIBLE)
{
if (isTitleAndUnitFontEnabled())
{
G2.setFont(new java.awt.Font(getTitleAndUnitFont().getFamily(), 0, (int) (0.07142857142857142 * IMAGE_WIDTH)));
}
else
{
G2.setFont(new java.awt.Font("Verdana", 0, (int) (0.07142857142857142 * IMAGE_WIDTH)));
}
final java.awt.font.TextLayout LAYOUT_UNIT = new java.awt.font.TextLayout(getUnitString(), G2.getFont(), RENDER_CONTEXT);
final java.awt.geom.Rectangle2D UNIT_BOUNDARY = LAYOUT_UNIT.getBounds();
G2.drawString(getUnitString(), (float) (IMAGE_WIDTH - UNIT_BOUNDARY.getWidth()) / 2f, 0.8875f * IMAGE_HEIGHT + LAYOUT_UNIT.getAscent() - LAYOUT_UNIT.getDescent());
}
}
else
{
// Horizontal orientation
// Draw title
if (isTitleAndUnitFontEnabled())
{
G2.setFont(new java.awt.Font(getTitleAndUnitFont().getFamily(), 0, (int) (0.1 * IMAGE_HEIGHT)));
}
else
{
G2.setFont(new java.awt.Font("Verdana", 0, (int) (0.1 * IMAGE_HEIGHT)));
}
LAYOUT_TITLE = new java.awt.font.TextLayout(getTitle(), G2.getFont(), RENDER_CONTEXT);
G2.drawString(getTitle(), 0.15f * IMAGE_WIDTH, 0.25f * IMAGE_HEIGHT + LAYOUT_TITLE.getAscent() - LAYOUT_TITLE.getDescent());
// Draw unit string
if (UNIT_STRING_VISIBLE)
{
if (isTitleAndUnitFontEnabled())
{
G2.setFont(new java.awt.Font(getTitleAndUnitFont().getFamily(), 0, (int) (0.025 * IMAGE_WIDTH)));
}
else
{
G2.setFont(new java.awt.Font("Verdana", 0, (int) (0.025 * IMAGE_WIDTH)));
}
final java.awt.font.TextLayout LAYOUT_UNIT = new java.awt.font.TextLayout(getUnitString(), G2.getFont(), RENDER_CONTEXT);
G2.drawString(getUnitString(), 0.0625f * IMAGE_WIDTH, 0.7f * IMAGE_HEIGHT + LAYOUT_UNIT.getAscent() - LAYOUT_UNIT.getDescent());
}
}
G2.dispose();
return image;
}
/**
* Returns the image with the given lcd color.
* @param WIDTH
* @param HEIGHT
* @param LCD_COLOR
* @param CUSTOM_LCD_BACKGROUND
* @return buffered image containing the lcd with the selected lcd color
*/
protected java.awt.image.BufferedImage create_LCD_Image(final int WIDTH, final int HEIGHT, final eu.hansolo.steelseries.tools.LcdColor LCD_COLOR, final java.awt.Paint CUSTOM_LCD_BACKGROUND)
{
return create_LCD_Image(new java.awt.geom.Rectangle2D.Double(0, 0, WIDTH, HEIGHT), LCD_COLOR, CUSTOM_LCD_BACKGROUND, null);
}
/**
* Returns the image with the given lcd color.
* @param BOUNDS
* @param LCD_COLOR
* @param CUSTOM_LCD_BACKGROUND
* @param IMAGE
* @return buffered image containing the lcd with the selected lcd color
*/
protected java.awt.image.BufferedImage create_LCD_Image(final java.awt.geom.Rectangle2D BOUNDS, final eu.hansolo.steelseries.tools.LcdColor LCD_COLOR, final java.awt.Paint CUSTOM_LCD_BACKGROUND, final java.awt.image.BufferedImage IMAGE)
{
return LCD_FACTORY.create_LCD_Image(BOUNDS, LCD_COLOR, CUSTOM_LCD_BACKGROUND, IMAGE);
}
/**
* Returns the image of the threshold indicator
* @param WIDTH
* @param HEIGHT
* @return a buffered image of the threshold indicator
*/
protected java.awt.image.BufferedImage create_THRESHOLD_Image(final int WIDTH, final int HEIGHT)
{
if (WIDTH <= 14 || HEIGHT <= 14) // 14 is needed otherwise the image size could be smaller than 1
{
return GFX_CONF.createCompatibleImage(1, 1, java.awt.Transparency.TRANSLUCENT);
}
final int IMAGE_WIDTH;
final int IMAGE_HEIGHT;
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
// Vertical orientation
IMAGE_WIDTH = (int) (WIDTH * 0.0714285714);
IMAGE_HEIGHT = (int) (IMAGE_WIDTH * 0.8);
}
else
{
// Horizontal orientation
IMAGE_HEIGHT = (int) (HEIGHT * 0.0714285714);
IMAGE_WIDTH = (int) (IMAGE_HEIGHT * 0.8);
}
final java.awt.image.BufferedImage IMAGE = GFX_CONF.createCompatibleImage(IMAGE_WIDTH, IMAGE_HEIGHT, java.awt.Transparency.TRANSLUCENT);
final java.awt.Graphics2D G2 = IMAGE.createGraphics();
G2.setRenderingHint(java.awt.RenderingHints.KEY_ANTIALIASING, java.awt.RenderingHints.VALUE_ANTIALIAS_ON);
G2.translate(0, IMAGE_WIDTH * 0.005);
final java.awt.geom.GeneralPath THRESHOLD = new java.awt.geom.GeneralPath();
THRESHOLD.setWindingRule(java.awt.geom.GeneralPath.WIND_EVEN_ODD);
final java.awt.geom.Point2D THRESHOLD_START;
final java.awt.geom.Point2D THRESHOLD_STOP;
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
// Vertical orientation
THRESHOLD.moveTo(IMAGE_WIDTH * 0.1, IMAGE_HEIGHT * 0.5);
THRESHOLD.lineTo(IMAGE_WIDTH * 0.9, IMAGE_HEIGHT * 0.1);
THRESHOLD.lineTo(IMAGE_WIDTH * 0.9, IMAGE_HEIGHT * 0.9);
THRESHOLD.lineTo(IMAGE_WIDTH * 0.1, IMAGE_HEIGHT * 0.5);
THRESHOLD.closePath();
THRESHOLD_START = new java.awt.geom.Point2D.Double(THRESHOLD.getBounds2D().getMinX(), 0);
THRESHOLD_STOP = new java.awt.geom.Point2D.Double(THRESHOLD.getBounds2D().getMaxX(), 0);
}
else
{
// Horizontal orientation
THRESHOLD.moveTo(IMAGE_WIDTH * 0.5, IMAGE_HEIGHT * 0.9);
THRESHOLD.lineTo(IMAGE_WIDTH * 1.0, IMAGE_HEIGHT * 0.1);
THRESHOLD.lineTo(IMAGE_WIDTH * 0.1, IMAGE_HEIGHT * 0.1);
THRESHOLD.lineTo(IMAGE_WIDTH * 0.5, IMAGE_HEIGHT * 0.9);
THRESHOLD.closePath();
THRESHOLD_START = new java.awt.geom.Point2D.Double(0, THRESHOLD.getBounds2D().getMaxY() );
THRESHOLD_STOP = new java.awt.geom.Point2D.Double(0, THRESHOLD.getBounds2D().getMinY() );
}
final float[] THRESHOLD_FRACTIONS =
{
0.0f,
0.3f,
0.59f,
1.0f
};
final java.awt.Color[] THRESHOLD_COLORS =
{
new java.awt.Color(82, 0, 0, 255),
new java.awt.Color(252, 29, 0, 255),
new java.awt.Color(252, 29, 0, 255),
new java.awt.Color(82, 0, 0, 255)
};
final java.awt.LinearGradientPaint THRESHOLD_GRADIENT = new java.awt.LinearGradientPaint(THRESHOLD_START, THRESHOLD_STOP, THRESHOLD_FRACTIONS, THRESHOLD_COLORS);
G2.setPaint(THRESHOLD_GRADIENT);
G2.fill(THRESHOLD);
G2.setColor(java.awt.Color.WHITE);
G2.setStroke(new java.awt.BasicStroke(1.0f, java.awt.BasicStroke.CAP_BUTT, java.awt.BasicStroke.JOIN_MITER));
G2.draw(THRESHOLD);
G2.dispose();
return IMAGE;
}
/**
* Returns the image of the MinMeasuredValue and MaxMeasuredValue dependend
* on the given color
* @param WIDTH
* @param HEIGHT
* @param COLOR
* @return a buffered image of either the min measured value or the max measured value indicator
*/
protected java.awt.image.BufferedImage create_MEASURED_VALUE_Image(final int WIDTH, final int HEIGHT, final java.awt.Color COLOR)
{
if (WIDTH <= 20 || HEIGHT <= 20) // 20 is needed otherwise the image size could be smaller than 1
{
return GFX_CONF.createCompatibleImage(1, 1, java.awt.Transparency.TRANSLUCENT);
}
final int IMAGE_WIDTH;
final int IMAGE_HEIGHT;
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
// Vertical orientation
IMAGE_WIDTH = (int) (WIDTH * 0.05);
IMAGE_HEIGHT = IMAGE_WIDTH;
}
else
{
// Horizontal orientation
IMAGE_HEIGHT = (int) (HEIGHT * 0.05);
IMAGE_WIDTH = IMAGE_HEIGHT;
}
final java.awt.image.BufferedImage IMAGE = GFX_CONF.createCompatibleImage(IMAGE_WIDTH, IMAGE_HEIGHT, java.awt.Transparency.TRANSLUCENT);
final java.awt.Graphics2D G2 = IMAGE.createGraphics();
G2.setRenderingHint(java.awt.RenderingHints.KEY_ANTIALIASING, java.awt.RenderingHints.VALUE_ANTIALIAS_ON);
final java.awt.geom.GeneralPath INDICATOR = new java.awt.geom.GeneralPath();
INDICATOR.setWindingRule(java.awt.geom.GeneralPath.WIND_EVEN_ODD);
if (getOrientation() == eu.hansolo.steelseries.tools.Orientation.VERTICAL)
{
INDICATOR.moveTo(IMAGE_WIDTH, IMAGE_HEIGHT * 0.5);
INDICATOR.lineTo(0.0, 0.0);
INDICATOR.lineTo(0.0, IMAGE_HEIGHT);
INDICATOR.lineTo(IMAGE_WIDTH, IMAGE_HEIGHT * 0.5);
INDICATOR.closePath();
}
else
{
INDICATOR.moveTo(IMAGE_WIDTH * 0.5, 0.0);
INDICATOR.lineTo(IMAGE_WIDTH, IMAGE_HEIGHT);
INDICATOR.lineTo(0.0, IMAGE_HEIGHT);
INDICATOR.lineTo(IMAGE_WIDTH * 0.5, 0.0);
INDICATOR.closePath();
}
G2.setColor(COLOR);
G2.fill(INDICATOR);
G2.dispose();
return IMAGE;
}
/**
* Returns the image of the glasseffect image
* @param WIDTH
* @param HEIGHT
* @return a buffered image of the foreground glass effect
*/
protected java.awt.image.BufferedImage create_FOREGROUND_Image(final int WIDTH, final int HEIGHT)
{
return FOREGROUND_FACTORY.createLinearForeground(WIDTH, HEIGHT);
}
/**
* Returns the image that will be displayed if the gauge is disabled
* @param WIDTH
* @param HEIGHT
* @return the disabled image that will be displayed if the gauge is disabled
*/
protected java.awt.image.BufferedImage create_DISABLED_Image(final int WIDTH, final int HEIGHT)
{
return DISABLED_FACTORY.createLinearDisabled(WIDTH, HEIGHT);
}
//
//
@Override
public void calcInnerBounds()
{
final java.awt.Insets INSETS = getInsets();
INNER_BOUNDS.setBounds(INSETS.left, INSETS.top, getWidth() - INSETS.left - INSETS.right, getHeight() - INSETS.top - INSETS.bottom);
}
/**
* Returns the rectangle that is defined by the dimension of the component and
* it's insets given by e.g. a border.
* @return rectangle that defines the inner area available for painting
*/
@Override
public final java.awt.Rectangle getInnerBounds()
{
return INNER_BOUNDS;
}
@Override
public java.awt.Dimension getMinimumSize()
{
return new java.awt.Dimension(140, 140);
}
@Override
public void setPreferredSize(final java.awt.Dimension DIM)
{
super.setPreferredSize(DIM);
calcInnerBounds();
init(DIM.width, DIM.height);
setInitialized(true);
revalidate();
repaint();
}
@Override
public void setSize(final int WIDTH, final int HEIGHT)
{
super.setSize(WIDTH, HEIGHT);
calcInnerBounds();
init(WIDTH, HEIGHT);
setInitialized(true);
revalidate();
repaint();
}
@Override
public void setSize(final java.awt.Dimension DIM)
{
super.setSize(DIM);
calcInnerBounds();
init(DIM.width, DIM.height);
setInitialized(true);
revalidate();
repaint();
}
@Override
public void setBounds(final java.awt.Rectangle BOUNDS)
{
super.setBounds(BOUNDS);
calcInnerBounds();
init(BOUNDS.width, BOUNDS.height);
setInitialized(true);
revalidate();
repaint();
}
@Override
public void setBounds(final int X, final int Y, final int WIDTH, final int HEIGHT)
{
super.setBounds(X, Y, WIDTH, HEIGHT);
calcInnerBounds();
init(WIDTH, HEIGHT);
setInitialized(true);
revalidate();
repaint();
}
//
//
// ComponentListener methods
@Override
public void componentResized(final java.awt.event.ComponentEvent EVENT)
{
if (getParent().getLayout() == null)
{
setSize(getWidth(), getHeight());
}
else
{
setPreferredSize(new java.awt.Dimension(getWidth(), getHeight()));
}
calcInnerBounds();
if (getWidth() >= getHeight())
{
// Horizontal
setOrientation(eu.hansolo.steelseries.tools.Orientation.HORIZONTAL);
recreateLedImages(getInnerBounds().height);
if (isLedOn())
{
setCurrentLedImage(getLedImageOn());
}
else
{
setCurrentLedImage(getLedImageOff());
}
setLedPosition((getInnerBounds().width - 18.0 - 16.0) / getInnerBounds().width, 0.453271028);
}
else
{
// Vertical
setOrientation(eu.hansolo.steelseries.tools.Orientation.VERTICAL);
recreateLedImages(getInnerBounds().width);
if (isLedOn())
{
setCurrentLedImage(getLedImageOn());
}
else
{
setCurrentLedImage(getLedImageOff());
}
setLedPosition(0.453271028, (18.0 / getInnerBounds().height));
}
getModel().setSize(getLocation().x, getLocation().y, getWidth(), getHeight());
init(getInnerBounds().width, getInnerBounds().height);
revalidate();
repaint();
}
//
@Override
public String toString()
{
return "AbstractLinear";
}
}
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