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eu.hansolo.steelseries.gauges.LinearBargraph Maven / Gradle / Ivy
package eu.hansolo.steelseries.gauges;
import eu.hansolo.steelseries.tools.ColorDef;
import eu.hansolo.steelseries.tools.LcdColor;
import eu.hansolo.steelseries.tools.Model;
import eu.hansolo.steelseries.tools.NumberSystem;
import eu.hansolo.steelseries.tools.Orientation;
import eu.hansolo.steelseries.tools.Section;
import java.awt.AlphaComposite;
import java.awt.Color;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.LinearGradientPaint;
import java.awt.Paint;
import java.awt.RadialGradientPaint;
import java.awt.Rectangle;
import java.awt.RenderingHints;
import java.awt.font.FontRenderContext;
import java.awt.font.TextLayout;
import java.awt.geom.AffineTransform;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.awt.image.BufferedImage;
import java.awt.Transparency;
import java.util.HashMap;
/**
*
* @author hansolo
*/
public class LinearBargraph extends AbstractLinearBargraph {
//
private BufferedImage bImage;
private BufferedImage fImage;
private BufferedImage glowImageOff;
private BufferedImage glowImageOn;
private BufferedImage thresholdImage;
private BufferedImage minMeasuredImage;
private BufferedImage maxMeasuredImage;
private BufferedImage lcdThresholdImage;
private BufferedImage disabledImage;
private ColorDef barGraphColor;
private Rectangle2D led;
private Point2D ledCenter;
private Color[] ledColors;
private final float[] LED_FRACTIONS;
private RadialGradientPaint ledGradient;
private RadialGradientPaint ledInactiveGradient;
private final Color[] LED_INACTIVE_COLORS;
private HashMap sectionGradients;
private HashMap sectionOffsets;
private final FontRenderContext RENDER_CONTEXT = new FontRenderContext(null, true, true);
private TextLayout unitLayout;
private final Rectangle2D UNIT_BOUNDARY = new Rectangle2D.Double();
private TextLayout valueLayout;
private final Rectangle2D VALUE_BOUNDARY = new Rectangle2D.Double();
private final Rectangle2D LCD = new Rectangle2D.Double();
private TextLayout infoLayout;
private final Rectangle2D INFO_BOUNDARY = new Rectangle2D.Double();
private static final int BASE = 10;
// The value background
private final Rectangle2D VALUE_BACKGROUND_TRACK;
private final Point2D VALUE_BACKGROUND_VERTICAL_START;
private final Point2D VALUE_BACKGROUND_VERTICAL_STOP;
private final float[] VALUE_BACKGROUND_TRACK_FRACTIONS;
// Value track border
private final Rectangle2D VALUE_LEFT_BORDER;
private final Rectangle2D VALUE_RIGHT_BORDER;
private final Point2D VALUE_BORDER_START;
private final Point2D VALUE_BORDER_STOP;
private final float[] VALUE_BORDER_FRACTIONS;
//
//
public LinearBargraph() {
super();
barGraphColor = getModel().getValueColor();
LED_FRACTIONS = new float[]{
0.0f,
1.0f
};
LED_INACTIVE_COLORS = new Color[]{
new Color(60, 60, 60, 255),
new Color(50, 50, 50, 255)
};
sectionGradients = new java.util.HashMap(4);
sectionOffsets = new java.util.HashMap(4);
// The value background
VALUE_BACKGROUND_TRACK = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_BACKGROUND_VERTICAL_START = new Point2D.Double(0, 0);
VALUE_BACKGROUND_VERTICAL_STOP = new Point2D.Double(0, 0);
VALUE_BACKGROUND_TRACK_FRACTIONS = new float[]{
0.0f,
0.48f,
0.49f,
1.0f
};
// Value track border
VALUE_LEFT_BORDER = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_RIGHT_BORDER = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_BORDER_START = new Point2D.Double(0, 0);
VALUE_BORDER_STOP = new Point2D.Double(0, 0);
VALUE_BORDER_FRACTIONS = new float[]{
0.0f,
0.48f,
0.49f,
1.0f
};
prepareBargraph(getInnerBounds().width, getInnerBounds().height);
init(getInnerBounds().width, getInnerBounds().height);
}
public LinearBargraph(final Model MODEL) {
super();
setModel(MODEL);
barGraphColor = MODEL.getValueColor();
LED_FRACTIONS = new float[]{
0.0f,
1.0f
};
LED_INACTIVE_COLORS = new Color[]{
new Color(60, 60, 60, 255),
new Color(50, 50, 50, 255)
};
sectionGradients = new HashMap(4);
sectionOffsets = new HashMap(4);
// The value background
VALUE_BACKGROUND_TRACK = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_BACKGROUND_VERTICAL_START = new Point2D.Double(0, 0);
VALUE_BACKGROUND_VERTICAL_STOP = new Point2D.Double(0, 0);
VALUE_BACKGROUND_TRACK_FRACTIONS = new float[]{
0.0f,
0.48f,
0.49f,
1.0f
};
// Value track border
VALUE_LEFT_BORDER = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_RIGHT_BORDER = new Rectangle2D.Double(0, 0, 10, 10);
VALUE_BORDER_START = new Point2D.Double(0, 0);
VALUE_BORDER_STOP = new Point2D.Double(0, 0);
VALUE_BORDER_FRACTIONS = new float[]{
0.0f,
0.48f,
0.49f,
1.0f
};
prepareBargraph(getInnerBounds().width, getInnerBounds().height);
init(getInnerBounds().width, getInnerBounds().height);
}
//
//
@Override
public final AbstractGauge init(final int WIDTH, final int HEIGHT) {
if (WIDTH <= 1 || HEIGHT <= 1) {
return this;
}
// Create Background Image
if (bImage != null) {
bImage.flush();
}
bImage = UTIL.createImage(WIDTH, HEIGHT, Transparency.TRANSLUCENT);
// Create Foreground Image
if (fImage != null) {
fImage.flush();
}
fImage = UTIL.createImage(WIDTH, HEIGHT, Transparency.TRANSLUCENT);
// if (inactiveLedImage != null)
// {
// inactiveLedImage.flush();
// }
// inactiveLedImage = create_BARGRAPH_LED_Image(WIDTH, HEIGHT, barGraphColor, LED_INACTIVE_COLORS);
//
// if (activeLedImage != null)
// {
// activeLedImage.flush();
// }
// activeLedImage = create_BARGRAPH_LED_Image(WIDTH, HEIGHT, barGraphColor, null);
prepareBargraph(WIDTH, HEIGHT);
if (isLcdVisible()) {
final float LCD_TEXT_HEIGHT_BASE;
if (getOrientation() == Orientation.HORIZONTAL) {
LCD_TEXT_HEIGHT_BASE = HEIGHT * 0.15f;
} else {
LCD_TEXT_HEIGHT_BASE = HEIGHT * 0.055f;
}
if (isDigitalFont()) {
setLcdValueFont(LCD_DIGITAL_FONT.deriveFont(0.7f * LCD_TEXT_HEIGHT_BASE));
} else {
setLcdValueFont(LCD_STANDARD_FONT.deriveFont(0.625f * LCD_TEXT_HEIGHT_BASE));
}
if (isCustomLcdUnitFontEnabled()) {
setLcdUnitFont(getCustomLcdUnitFont().deriveFont(0.25f * LCD_TEXT_HEIGHT_BASE));
} else {
setLcdUnitFont(LCD_STANDARD_FONT.deriveFont(0.25f * LCD_TEXT_HEIGHT_BASE));
}
setLcdInfoFont(getModel().getStandardInfoFont().deriveFont(0.15f * LCD_TEXT_HEIGHT_BASE));
}
if (isFrameVisible()) {
create_FRAME_Image(WIDTH, HEIGHT, bImage);
}
if (isBackgroundVisible()) {
create_BACKGROUND_Image(WIDTH, HEIGHT, bImage);
}
if (isGlowVisible()) {
if (glowImageOff != null) {
glowImageOff.flush();
}
glowImageOff = create_GLOW_Image(WIDTH, HEIGHT, getGlowColor(), false);
if (glowImageOn != null) {
glowImageOn.flush();
}
glowImageOn = create_GLOW_Image(WIDTH, HEIGHT, getGlowColor(), true);
} else {
setGlowPulsating(false);
}
if (isTrackVisible()) {
create_TRACK_Image(WIDTH, HEIGHT, getMinValue(), getMaxValue(), getTrackStart(), getTrackSection(), getTrackStop(), getTrackStartColor(), getTrackSectionColor(), getTrackStopColor(), bImage);
}
TICKMARK_FACTORY.create_LINEAR_TICKMARKS_Image(WIDTH,
HEIGHT,
getModel().getNiceMinValue(),
getModel().getNiceMaxValue(),
getModel().getMaxNoOfMinorTicks(),
getModel().getMaxNoOfMajorTicks(),
getModel().getMinorTickSpacing(),
getModel().getMajorTickSpacing(),
getMinorTickmarkType(),
getMajorTickmarkType(),
isTickmarksVisible(),
isTicklabelsVisible(),
getModel().isMinorTickmarksVisible(),
getModel().isMajorTickmarksVisible(),
getLabelNumberFormat(),
isTickmarkSectionsVisible(),
getBackgroundColor(),
getTickmarkColor(),
isTickmarkColorFromThemeEnabled(),
getTickmarkSections(),
new Point2D.Double(0, 0),
getOrientation(),
getModel().isNiceScale(),
getModel().isLogScale(),
bImage);
if (isTitleVisible()) {
create_TITLE_Image(WIDTH, HEIGHT, getModel().isUnitVisible(), bImage);
}
if (isLcdVisible()) {
switch (getOrientation()) {
case HORIZONTAL:
// Horizontal
create_LCD_Image(new Rectangle2D.Double((WIDTH * 0.695), (HEIGHT * 0.22), (WIDTH * 0.18), (HEIGHT * 0.15)), getLcdColor(), getCustomLcdBackground(), bImage);
LCD.setRect((WIDTH * 0.695), (HEIGHT * 0.22), WIDTH * 0.18, HEIGHT * 0.15);
break;
case VERTICAL:
create_LCD_Image(new Rectangle2D.Double(((WIDTH - (WIDTH * 0.5714285714)) / 2.0), (HEIGHT * 0.875), (WIDTH * 0.5714285714), (HEIGHT * 0.055)), getLcdColor(), getCustomLcdBackground(), bImage);
LCD.setRect(((WIDTH - (WIDTH * 0.5714285714)) / 2.0), (HEIGHT * 0.875), WIDTH * 0.5714285714, HEIGHT * 0.055);
break;
}
// Create the lcd threshold indicator image
if (lcdThresholdImage != null) {
lcdThresholdImage.flush();
}
lcdThresholdImage = create_LCD_THRESHOLD_Image((int) (LCD.getHeight() * 0.2045454545), (int) (LCD.getHeight() * 0.2045454545), getLcdColor().TEXT_COLOR);
}
if (thresholdImage != null) {
thresholdImage.flush();
}
thresholdImage = create_THRESHOLD_Image(WIDTH, HEIGHT);
if (minMeasuredImage != null) {
minMeasuredImage.flush();
}
minMeasuredImage = create_MEASURED_VALUE_Image(WIDTH, HEIGHT, new Color(0, 23, 252, 255));
if (maxMeasuredImage != null) {
maxMeasuredImage.flush();
}
maxMeasuredImage = create_MEASURED_VALUE_Image(WIDTH, HEIGHT, new Color(252, 29, 0, 255));
if (isForegroundVisible()) {
FOREGROUND_FACTORY.createLinearForeground(WIDTH, HEIGHT, false, fImage);
}
if (disabledImage != null) {
disabledImage.flush();
}
disabledImage = create_DISABLED_Image(WIDTH, HEIGHT);
setCurrentLedImage(getLedImageOff());
return this;
}
//
//
@Override
protected void paintComponent(Graphics g) {
if (!isInitialized()) {
return;
}
final Graphics2D G2 = (Graphics2D) g.create();
G2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
G2.setRenderingHint(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY);
G2.setRenderingHint(RenderingHints.KEY_STROKE_CONTROL, RenderingHints.VALUE_STROKE_NORMALIZE);
G2.setRenderingHint(RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
if (!isFrameVisible()) {
G2.translate(getInnerBounds().x - 17, getInnerBounds().y - 17);
} else {
G2.translate(getInnerBounds().x, getInnerBounds().y);
}
// Draw combined background image
G2.drawImage(bImage, 0, 0, null);
// Parameters neede for setting the indicators to the right location
final double PIXEL_RANGE;
final double RANGE;
final double PIXEL_SCALE;
if (getInnerBounds().width < getInnerBounds().height) {
// Vertical
PIXEL_RANGE = getInnerBounds().height * 0.8567961165048543 - getInnerBounds().height * 0.12864077669902912;
RANGE = (getMaxValue() - getMinValue());
PIXEL_SCALE = PIXEL_RANGE / RANGE;
} else {
// Horizontal
PIXEL_RANGE = getInnerBounds().width * 0.8567961165048543 - getInnerBounds().width * 0.12864077669902912;
RANGE = (getMaxValue() - getMinValue());
PIXEL_SCALE = PIXEL_RANGE / RANGE;
}
// Draw threshold indicator
if (isThresholdVisible()) {
final double VALUE_POS;
final AffineTransform OLD_TRANSFORM = G2.getTransform();
if (getInnerBounds().width < getInnerBounds().height) {
// Vertical orientation
if (getMinValue() < 0) {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 + getMinValue() * PIXEL_SCALE - getThreshold() * PIXEL_SCALE ;
} else {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 - getMinValue() * PIXEL_SCALE - getThreshold() * PIXEL_SCALE ;
}
G2.translate(getInnerBounds().width * 0.4357142857142857 - thresholdImage.getWidth() - 2 + getInnerBounds().x, VALUE_POS - thresholdImage.getHeight() / 2.0 + getInnerBounds().y);
} else {
// Horizontal orientation
VALUE_POS = getThreshold() * PIXEL_SCALE - getMinValue() * PIXEL_SCALE;
G2.translate(getInnerBounds().width * 0.14285714285714285 - thresholdImage.getWidth() / 2.0 + VALUE_POS + getInnerBounds().x, getInnerBounds().height * 0.5714285714 + 2 + getInnerBounds().y);
}
G2.drawImage(thresholdImage, 0, 0, null);
G2.setTransform(OLD_TRANSFORM);
}
// Draw min measured value indicator
if (isMinMeasuredValueVisible()) {
final double VALUE_POS;
final AffineTransform OLD_TRANSFORM = G2.getTransform();
if (getInnerBounds().width < getInnerBounds().height) {
// Vertical orientation
if (getMinValue() < 0) {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 + getMinValue() * PIXEL_SCALE - getMinMeasuredValue() * PIXEL_SCALE ;
} else {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 - getMinValue() * PIXEL_SCALE - getMinMeasuredValue() * PIXEL_SCALE ;
}
G2.translate(getInnerBounds().width * 0.37 - minMeasuredImage.getWidth() - 2 + getInnerBounds().x, VALUE_POS - minMeasuredImage.getHeight() / 2.0 + getInnerBounds().y);
} else {
// Horizontal orientation
VALUE_POS = getMinMeasuredValue() * PIXEL_SCALE - getMinValue() * PIXEL_SCALE;
G2.translate(getInnerBounds().width * 0.14285714285714285 - minMeasuredImage.getWidth() / 2.0 + VALUE_POS + getInnerBounds().x, getInnerBounds().height * 0.63 + 2 + getInnerBounds().y);
}
G2.drawImage(minMeasuredImage, 0, 0, null);
G2.setTransform(OLD_TRANSFORM);
}
// Draw max measured value indicator
if (isMaxMeasuredValueVisible()) {
final double VALUE_POS;
final AffineTransform OLD_TRANSFORM = G2.getTransform();
if (getInnerBounds().width < getInnerBounds().height) {
// Vertical orientation
if (getMinValue() < 0) {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 + getMinValue() * PIXEL_SCALE - getMaxMeasuredValue() * PIXEL_SCALE ;
} else {
VALUE_POS = getInnerBounds().height * 0.8567961165048543 - getMinValue() * PIXEL_SCALE - getMaxMeasuredValue() * PIXEL_SCALE ;
}
G2.translate(getInnerBounds().width * 0.37 - maxMeasuredImage.getWidth() - 2 + getInnerBounds().x, VALUE_POS - maxMeasuredImage.getHeight() / 2.0 + getInnerBounds().y);
} else {
// Horizontal orientation
VALUE_POS = getMaxMeasuredValue() * PIXEL_SCALE - getMinValue() * PIXEL_SCALE;
G2.translate(getInnerBounds().width * 0.14285714285714285 - maxMeasuredImage.getWidth() / 2.0 + VALUE_POS + getInnerBounds().x, getInnerBounds().height * 0.63 + 2 + getInnerBounds().y);
}
G2.drawImage(maxMeasuredImage, 0, 0, null);
G2.setTransform(OLD_TRANSFORM);
}
// Draw LED if enabled
if (isLedVisible()) {
G2.drawImage(getCurrentLedImage(), (int) (getInnerBounds().width * getLedPosition().getX()), (int) (getInnerBounds().height * getLedPosition().getY()), null);
}
// Draw user LED if enabled
if (isUserLedVisible()) {
G2.drawImage(getCurrentUserLedImage(), (int) (getInnerBounds().width * getUserLedPosition().getX()), (int) (getInnerBounds().height * getUserLedPosition().getY()), null);
}
// Draw LCD display
if (isLcdVisible()) {
if (getLcdColor() == LcdColor.CUSTOM) {
G2.setColor(getCustomLcdForeground());
} else {
G2.setColor(getLcdColor().TEXT_COLOR);
}
G2.setFont(getLcdUnitFont());
final double UNIT_STRING_WIDTH;
if (isLcdUnitStringVisible()) {
unitLayout = new TextLayout(getLcdUnitString(), G2.getFont(), RENDER_CONTEXT);
UNIT_BOUNDARY.setFrame(unitLayout.getBounds());
G2.drawString(getLcdUnitString(), (int) (LCD.getX() + (LCD.getWidth() - UNIT_BOUNDARY.getWidth()) - LCD.getWidth() * 0.03), (int) (LCD.getY() + LCD.getHeight() * 0.76));
UNIT_STRING_WIDTH = UNIT_BOUNDARY.getWidth();
} else {
UNIT_STRING_WIDTH = 0;
}
G2.setFont(getLcdValueFont());
switch (getModel().getNumberSystem()) {
case HEX:
valueLayout = new TextLayout(Integer.toHexString((int) getLcdValue()).toUpperCase(), G2.getFont(), RENDER_CONTEXT);
VALUE_BOUNDARY.setFrame(valueLayout.getBounds());
G2.drawString(Integer.toHexString((int) getLcdValue()).toUpperCase(), (int) (LCD.getX() + (LCD.getWidth() - UNIT_STRING_WIDTH - VALUE_BOUNDARY.getWidth()) - LCD.getWidth() * 0.09), (int) (LCD.getY() + LCD.getHeight() * 0.76));
break;
case OCT:
valueLayout = new TextLayout(Integer.toOctalString((int) getLcdValue()), G2.getFont(), RENDER_CONTEXT);
VALUE_BOUNDARY.setFrame(valueLayout.getBounds());
G2.drawString(Integer.toOctalString((int) getLcdValue()), (int) (LCD.getX() + (LCD.getWidth() - UNIT_STRING_WIDTH - VALUE_BOUNDARY.getWidth()) - LCD.getWidth() * 0.09), (int) (LCD.getY() + LCD.getHeight() * 0.76));
break;
case DEC:
default:
valueLayout = new TextLayout(formatLcdValue(getLcdValue()), G2.getFont(), RENDER_CONTEXT);
VALUE_BOUNDARY.setFrame(valueLayout.getBounds());
G2.drawString(formatLcdValue(getLcdValue()), (int) (LCD.getX() + (LCD.getWidth() - UNIT_STRING_WIDTH - VALUE_BOUNDARY.getWidth()) - LCD.getWidth() * 0.09), (int) (LCD.getY() + LCD.getHeight() * 0.76));
break;
}
if (!getLcdInfoString().isEmpty()) {
G2.setFont(getLcdInfoFont());
infoLayout = new TextLayout(getLcdInfoString(), G2.getFont(), RENDER_CONTEXT);
INFO_BOUNDARY.setFrame(infoLayout.getBounds());
G2.drawString(getLcdInfoString(), LCD.getBounds().x + 5, LCD.getBounds().y + (int) INFO_BOUNDARY.getHeight() + 5);
}
// Draw lcd threshold indicator
if (getLcdNumberSystem() == NumberSystem.DEC && isLcdThresholdVisible() && getLcdValue() >= getLcdThreshold()) {
G2.drawImage(lcdThresholdImage, (int) (LCD.getX() + LCD.getHeight() * 0.0568181818), (int) (LCD.getY() + LCD.getHeight() - lcdThresholdImage.getHeight() - LCD.getHeight() * 0.0568181818), null);
}
}
// Draw the active leds in dependence on the current value and the peak value
// drawValue(G2, getWidth(), getHeight());
drawValue(G2, getInnerBounds().width, getInnerBounds().height);
// Draw foreground
if (isForegroundVisible()) {
G2.drawImage(fImage, 0, 0, null);
}
// Draw glow indicator
if (isGlowVisible()) {
if (isGlowing()) {
G2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, getGlowAlpha()));
G2.drawImage(glowImageOn, 0, 0, null);
G2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 1f));
} else
{
G2.drawImage(glowImageOff, 0, 0, null);
}
}
if (!isEnabled()) {
G2.drawImage(disabledImage, 0, 0, null);
}
G2.dispose();
}
private void drawValue(final Graphics2D G2, final int WIDTH, final int HEIGHT) {
final boolean VERTICAL = WIDTH < HEIGHT ? true : false;
final double TOP; // position of max value
final double BOTTOM; // position of min value
final double FULL_SIZE;
// The value background
// Orientation dependend definitions
if (VERTICAL) {
// Vertical orientation
TOP = HEIGHT * 0.12864077669902912; // position of max value
BOTTOM = HEIGHT * 0.8567961165048543; // position of min value
FULL_SIZE = BOTTOM - TOP;
VALUE_BACKGROUND_TRACK.setRect(WIDTH * 0.4357142857142857, TOP, WIDTH * 0.14285714285714285, FULL_SIZE);
VALUE_BACKGROUND_VERTICAL_START.setLocation(0, VALUE_BACKGROUND_TRACK.getBounds2D().getMinY());
VALUE_BACKGROUND_VERTICAL_STOP.setLocation(0, VALUE_BACKGROUND_TRACK.getBounds2D().getMaxY());
} else {
// Horizontal orientation
TOP = WIDTH * 0.8567961165048543; // position of max value
BOTTOM = WIDTH * 0.12864077669902912; // position of min value
FULL_SIZE = TOP - BOTTOM;
VALUE_BACKGROUND_TRACK.setRect(WIDTH * 0.14285714285714285, HEIGHT * 0.4357142857142857, FULL_SIZE, HEIGHT * 0.14285714285714285);
VALUE_BACKGROUND_VERTICAL_START.setLocation(TOP, 0);
VALUE_BACKGROUND_VERTICAL_STOP.setLocation(BOTTOM, 0);
}
final Color[] VALUE_BACKGROUND_TRACK_COLORS = {
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.0470588235f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.1450980392f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.1490196078f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.0470588235f)
};
final LinearGradientPaint VALUE_BACKGROUND_TRACK_GRADIENT = new LinearGradientPaint(VALUE_BACKGROUND_VERTICAL_START, VALUE_BACKGROUND_VERTICAL_STOP, VALUE_BACKGROUND_TRACK_FRACTIONS, VALUE_BACKGROUND_TRACK_COLORS);
G2.setPaint(VALUE_BACKGROUND_TRACK_GRADIENT);
G2.fill(VALUE_BACKGROUND_TRACK);
// Value track border
if (VERTICAL) {
// Vertical orientation
VALUE_LEFT_BORDER.setRect(WIDTH * 0.4357142857142857, TOP - (led.getHeight() / 2), WIDTH * 0.007142857142857143, FULL_SIZE + led.getHeight());
VALUE_RIGHT_BORDER.setRect(WIDTH * 0.5714285714285714, TOP - (led.getHeight() / 2), WIDTH * 0.007142857142857143, FULL_SIZE + led.getHeight());
VALUE_BORDER_START.setLocation(0, VALUE_LEFT_BORDER.getBounds2D().getMinY());
VALUE_BORDER_STOP.setLocation(0, VALUE_LEFT_BORDER.getBounds2D().getMaxY());
} else {
// Horizontal orientation
VALUE_LEFT_BORDER.setRect(WIDTH * 0.14285714285714285 - (led.getWidth() / 2), HEIGHT * 0.4357142857, FULL_SIZE + led.getWidth(), HEIGHT * 0.007142857142857143);
VALUE_RIGHT_BORDER.setRect(WIDTH * 0.14285714285714285 - (led.getWidth() / 2), HEIGHT * 0.5714285714, FULL_SIZE + led.getWidth(), HEIGHT * 0.007142857142857143);
VALUE_BORDER_START.setLocation(VALUE_LEFT_BORDER.getBounds2D().getMaxX(), 0);
VALUE_BORDER_STOP.setLocation(VALUE_LEFT_BORDER.getBounds2D().getMinX(), 0);
}
final Color[] VALUE_BORDER_COLORS = {
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.2980392157f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.6862745098f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.6980392157f),
UTIL.setAlpha(getBackgroundColor().LABEL_COLOR, 0.4f)
};
final LinearGradientPaint VALUE_BORDER_GRADIENT = new LinearGradientPaint(VALUE_BORDER_START, VALUE_BORDER_STOP, VALUE_BORDER_FRACTIONS, VALUE_BORDER_COLORS);
G2.setPaint(VALUE_BORDER_GRADIENT);
G2.fill(VALUE_LEFT_BORDER);
G2.fill(VALUE_RIGHT_BORDER);
if (VERTICAL) {
// Vertical orientation
// Draw the inactive leds
final AffineTransform OLD_TRANSFORM = G2.getTransform();
G2.setPaint(ledInactiveGradient);
final double INACTIVE_LEDS = ((getMaxValue() - getMinValue()) / (getMaxValue() - getMinValue())) * FULL_SIZE;
for (double translateY = 0; Double.compare(translateY, INACTIVE_LEDS) <= 0; translateY += led.getHeight() + 1) {
G2.translate(0, -translateY);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
// Draw the active leds in dependence on the current value
if (!isSectionsVisible()) {
G2.setPaint(ledGradient);
}
final double ACTIVE_LEDS;
if (!isLogScale()){
ACTIVE_LEDS = ((getValue() - getMinValue()) / (getMaxValue() - getMinValue())) * FULL_SIZE;
} else {
double SIZE_FACTOR = Math.abs(TOP - BOTTOM) / (UTIL.logOfBase(BASE, getMaxValue()));
ACTIVE_LEDS = (SIZE_FACTOR * UTIL.logOfBase(BASE, getValue()));
}
if (!getModel().isSingleLedBargraphEnabled()) {
for (double translateY = 0; Double.compare(translateY, ACTIVE_LEDS) <= 0; translateY += led.getHeight() + 1) {
// If sections visible, color the bargraph with the given section colors
G2.setPaint(ledGradient);
if (isSectionsVisible()) {
for (Section section : getSections()) {
if (translateY >= sectionOffsets.get(section).getX() && translateY < sectionOffsets.get(section).getY()) {
G2.setPaint(sectionGradients.get(section));
break;
}
}
}
G2.translate(0, -translateY);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
} else { // Draw only single led in bargraph
final double TRANSLATE_Y = -((getValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue()) * FULL_SIZE);
if (isSectionsVisible()) {
for (Section section : getSections()) {
if (TRANSLATE_Y >= sectionOffsets.get(section).getX() && TRANSLATE_Y < sectionOffsets.get(section).getY()) {
G2.setPaint(sectionGradients.get(section));
}
}
}
G2.translate(0, -TRANSLATE_Y);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
// Draw peak value if enabled
if (isPeakValueEnabled() && isPeakValueVisible()) {
G2.translate(0, -((getPeakValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue()) * FULL_SIZE));
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
} else {
// Horizontal orientation
// Draw the inactive leds
final AffineTransform OLD_TRANSFORM = G2.getTransform();
G2.setPaint(ledInactiveGradient);
final double INACTIVE_LEDS = ((getMaxValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE;
for (double translateX = -(led.getWidth() / 2); Double.compare(translateX, INACTIVE_LEDS) <= 0; translateX += led.getWidth() + 1) {
G2.translate(translateX, 0);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
// Draw the active leds in dependence on the current value
if (!isSectionsVisible()) {
G2.setPaint(ledGradient);
}
final double ACTIVE_LEDS;
if (!isLogScale()){
ACTIVE_LEDS = ((getValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE;
} else {
final double SIZE_FACTOR = FULL_SIZE / (UTIL.logOfBase(BASE, getMaxValue()));
ACTIVE_LEDS = SIZE_FACTOR * UTIL.logOfBase(BASE, getValue());
}
if (!getModel().isSingleLedBargraphEnabled()) {
for (double translateX = -(led.getWidth() / 2); Double.compare(translateX, ACTIVE_LEDS) <= 0; translateX += led.getWidth() + 1) {
// If sections visible, color the bargraph with the given section colors
G2.setPaint(ledGradient);
if (isSectionsVisible()) {
for (Section section : getSections()) {
if (translateX + (led.getWidth() / 2) >= sectionOffsets.get(section).getX() && translateX + (led.getWidth() / 2) < sectionOffsets.get(section).getY()) {
G2.setPaint(sectionGradients.get(section));
}
}
}
G2.translate(translateX, 0);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
} else { // Draw only one led
final double TRANSLATE_X = (((getValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE);
if (isSectionsVisible()) {
for (Section section : getSections()) {
if (TRANSLATE_X + (led.getWidth() / 2) >= sectionOffsets.get(section).getX() && TRANSLATE_X + (led.getWidth() / 2) < sectionOffsets.get(section).getY()) {
G2.setPaint(sectionGradients.get(section));
}
}
}
G2.translate(TRANSLATE_X, 0);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
// Draw peak value if enabled
if (isPeakValueEnabled() && isPeakValueVisible()) {
G2.translate((((getPeakValue() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE), 0);
G2.fill(led);
G2.setTransform(OLD_TRANSFORM);
}
}
}
//
//
@Override
public void setValue(double value) {
if (isValueCoupled()) {
setLcdValue(value);
}
super.setValue(value);
}
@Override
public ColorDef getBarGraphColor() {
return this.barGraphColor;
}
@Override
public void setBarGraphColor(final ColorDef BARGRAPH_COLOR) {
this.barGraphColor = BARGRAPH_COLOR;
init(getInnerBounds().width, getInnerBounds().height);
repaint(getInnerBounds());
}
private void prepareBargraph(final int WIDTH, final int HEIGHT) {
// Define colors of aktive leds
if (barGraphColor != ColorDef.CUSTOM) {
ledColors = new Color[]{
barGraphColor.LIGHT,
barGraphColor.DARK
};
} else {
ledColors = new Color[]{
getCustomBarGraphColorObject().LIGHT,
getCustomBarGraphColorObject().DARK
};
}
if (getOrientation() == Orientation.VERTICAL) {
// VERTICAL
led = new Rectangle2D.Double(WIDTH * 0.45, HEIGHT * 0.8519417476, WIDTH * 0.1214285714, HEIGHT * 0.0121359223);
ledCenter = new Point2D.Double(led.getCenterX(), led.getCenterY());
if (!getSections().isEmpty()) {
sectionGradients.clear();
sectionOffsets.clear();
// Vertical orientation
double TOP = HEIGHT * 0.12864077669902912; // position of max value
double BOTTOM = HEIGHT * 0.8567961165048543; // position of min value
double FULL_SIZE = BOTTOM - TOP;
for (Section section : getSections()) {
sectionGradients.put(section, new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * WIDTH), LED_FRACTIONS, new Color[]{
section.getColor().brighter(),
section.getColor().darker()}));
sectionOffsets.put(section, new Point2D.Double((((section.getStart() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE), (((section.getStop() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE)));
}
}
ledGradient = new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * WIDTH), LED_FRACTIONS, ledColors);
ledInactiveGradient = new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * WIDTH), LED_FRACTIONS, LED_INACTIVE_COLORS);
} else {
// HORIZONTAL
led = new Rectangle2D.Double(WIDTH * 0.14285714285714285, HEIGHT * 0.45, WIDTH * 0.0121359223, HEIGHT * 0.1214285714);
ledCenter = new Point2D.Double(led.getCenterX(), led.getCenterY());
if (!getSections().isEmpty()) {
sectionGradients.clear();
sectionOffsets.clear();
// Horizontal orientation
double TOP = WIDTH * 0.8567961165048543; // position of max value
double BOTTOM = WIDTH * 0.12864077669902912; // position of min value
double FULL_SIZE = TOP - BOTTOM;
for (Section section : getSections()) {
sectionGradients.put(section, new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * WIDTH), LED_FRACTIONS, new Color[]{
section.getColor().brighter(),
section.getColor().darker()}));
sectionOffsets.put(section, new Point2D.Double((((section.getStart() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE), (((section.getStop() + Math.abs(getMinValue())) / (getMaxValue() - getMinValue())) * FULL_SIZE)));
}
}
ledGradient = new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * HEIGHT), LED_FRACTIONS, ledColors);
ledInactiveGradient = new RadialGradientPaint(ledCenter, (float) (0.030373831775700934 * HEIGHT), LED_FRACTIONS, LED_INACTIVE_COLORS);
}
}
public boolean isTitleVisible() {
return getModel().isTitleVisible();
}
public void setTitleVisible(final boolean TITLE_VISIBLE) {
getModel().setTitleVisible(TITLE_VISIBLE);
repaint(getInnerBounds());
}
@Override
public boolean isTickmarksVisible() {
return getModel().isTickmarksVisible();
}
@Override
public void setTickmarksVisible(final boolean TICKMARKS_VISIBLE) {
getModel().setTickmarksVisible(TICKMARKS_VISIBLE);
repaint(getInnerBounds());
}
@Override
public Paint createCustomLcdBackgroundPaint(final Color[] LCD_COLORS) {
final Point2D FOREGROUND_START = new Point2D.Double(0.0, LCD.getMinY() + 1.0);
final Point2D FOREGROUND_STOP = new Point2D.Double(0.0, LCD.getMaxY() - 1);
if (FOREGROUND_START.equals(FOREGROUND_STOP)) {
FOREGROUND_STOP.setLocation(0.0, FOREGROUND_START.getY() + 1);
}
final float[] FOREGROUND_FRACTIONS = {
0.0f,
0.03f,
0.49f,
0.5f,
1.0f
};
final Color[] FOREGROUND_COLORS = {
LCD_COLORS[0],
LCD_COLORS[1],
LCD_COLORS[2],
LCD_COLORS[3],
LCD_COLORS[4]
};
return new LinearGradientPaint(FOREGROUND_START, FOREGROUND_STOP, FOREGROUND_FRACTIONS, FOREGROUND_COLORS);
}
@Override
protected Point2D getCenter() {
return new Point2D.Double(bImage.getWidth() / 2.0 + getInnerBounds().x, bImage.getHeight() / 2.0 + getInnerBounds().y);
}
@Override
protected Rectangle2D getBounds2D() {
return new Rectangle2D.Double(bImage.getMinX(), bImage.getMinY(), bImage.getWidth(), bImage.getHeight());
}
@Override
public Rectangle getLcdBounds() {
return LCD.getBounds();
}
//
@Override
public String toString() {
return "LinearBargraph";
}
}