Java Code Examples for org.jfree.chart.util.RectangleInsets#getLeft()
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org.jfree.chart.util.RectangleInsets#getLeft() .
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Example 1
Source File: ValueAxis.java From astor with GNU General Public License v2.0 | 6 votes |
/** * Calculates the anchor point for a tick label. * * @param tick the tick. * @param cursor the cursor. * @param dataArea the data area. * @param edge the edge on which the axis is drawn. * * @return The x and y coordinates of the anchor point. */ protected float[] calculateAnchorPoint(ValueTick tick, double cursor, Rectangle2D dataArea, RectangleEdge edge) { RectangleInsets insets = getTickLabelInsets(); float[] result = new float[2]; if (edge == RectangleEdge.TOP) { result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge); result[1] = (float) (cursor - insets.getBottom() - 2.0); } else if (edge == RectangleEdge.BOTTOM) { result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge); result[1] = (float) (cursor + insets.getTop() + 2.0); } else if (edge == RectangleEdge.LEFT) { result[0] = (float) (cursor - insets.getLeft() - 2.0); result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge); } else if (edge == RectangleEdge.RIGHT) { result[0] = (float) (cursor + insets.getRight() + 2.0); result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge); } return result; }
Example 2
Source File: ValueAxis.java From astor with GNU General Public License v2.0 | 6 votes |
/** * Calculates the anchor point for a tick label. * * @param tick the tick. * @param cursor the cursor. * @param dataArea the data area. * @param edge the edge on which the axis is drawn. * * @return The x and y coordinates of the anchor point. */ protected float[] calculateAnchorPoint(ValueTick tick, double cursor, Rectangle2D dataArea, RectangleEdge edge) { RectangleInsets insets = getTickLabelInsets(); float[] result = new float[2]; if (edge == RectangleEdge.TOP) { result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge); result[1] = (float) (cursor - insets.getBottom() - 2.0); } else if (edge == RectangleEdge.BOTTOM) { result[0] = (float) valueToJava2D(tick.getValue(), dataArea, edge); result[1] = (float) (cursor + insets.getTop() + 2.0); } else if (edge == RectangleEdge.LEFT) { result[0] = (float) (cursor - insets.getLeft() - 2.0); result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge); } else if (edge == RectangleEdge.RIGHT) { result[0] = (float) (cursor + insets.getRight() + 2.0); result[1] = (float) valueToJava2D(tick.getValue(), dataArea, edge); } return result; }
Example 3
Source File: DateAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. */ private double estimateMaximumTickLabelWidth(Graphics2D g2, DateTickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); Font tickLabelFont = getTickLabelFont(); FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = tickLabelFont.getLineMetrics("ABCxyz", frc); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of // the font)... result += lm.getHeight(); } else { // look at lower and upper bounds... DateRange range = (DateRange) getRange(); Date lower = range.getLowerDate(); Date upper = range.getUpperDate(); String lowerStr = null; String upperStr = null; DateFormat formatter = getDateFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.dateToString(lower); upperStr = unit.dateToString(upper); } FontMetrics fm = g2.getFontMetrics(tickLabelFont); double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }
Example 4
Source File: NumberAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. */ protected double estimateMaximumTickLabelWidth(Graphics2D g2, TickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of the // font)... FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = getTickLabelFont().getLineMetrics("0", frc); result += lm.getHeight(); } else { // look at lower and upper bounds... FontMetrics fm = g2.getFontMetrics(getTickLabelFont()); Range range = getRange(); double lower = range.getLowerBound(); double upper = range.getUpperBound(); String lowerStr = ""; String upperStr = ""; NumberFormat formatter = getNumberFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.valueToString(lower); upperStr = unit.valueToString(upper); } double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }
Example 5
Source File: CategoryAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * A utility method for determining the width of a text block. * * @param block the text block. * @param position the position. * @param g2 the graphics device. * * @return The width. */ protected double calculateTextBlockWidth(TextBlock block, CategoryLabelPosition position, Graphics2D g2) { RectangleInsets insets = getTickLabelInsets(); Size2D size = block.calculateDimensions(g2); Rectangle2D box = new Rectangle2D.Double(0.0, 0.0, size.getWidth(), size.getHeight()); Shape rotatedBox = ShapeUtilities.rotateShape(box, position.getAngle(), 0.0f, 0.0f); double w = rotatedBox.getBounds2D().getWidth() + insets.getLeft() + insets.getRight(); return w; }
Example 6
Source File: ValueAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * A utility method for determining the width of the widest tick label. * * @param ticks the ticks. * @param g2 the graphics device. * @param drawArea the area within which the plot and axes should be drawn. * @param vertical a flag that indicates whether or not the tick labels * are 'vertical'. * * @return The width of the tallest tick label. */ protected double findMaximumTickLabelWidth(List ticks, Graphics2D g2, Rectangle2D drawArea, boolean vertical) { RectangleInsets insets = getTickLabelInsets(); Font font = getTickLabelFont(); double maxWidth = 0.0; if (!vertical) { FontMetrics fm = g2.getFontMetrics(font); Iterator iterator = ticks.iterator(); while (iterator.hasNext()) { Tick tick = (Tick) iterator.next(); Rectangle2D labelBounds = TextUtilities.getTextBounds( tick.getText(), g2, fm); if (labelBounds.getWidth() + insets.getLeft() + insets.getRight() > maxWidth) { maxWidth = labelBounds.getWidth() + insets.getLeft() + insets.getRight(); } } } else { LineMetrics metrics = font.getLineMetrics("ABCxyz", g2.getFontRenderContext()); maxWidth = metrics.getHeight() + insets.getTop() + insets.getBottom(); } return maxWidth; }
Example 7
Source File: LogAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. * * @since 1.0.7 */ protected double estimateMaximumTickLabelWidth(Graphics2D g2, TickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of the // font)... FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = getTickLabelFont().getLineMetrics("0", frc); result += lm.getHeight(); } else { // look at lower and upper bounds... FontMetrics fm = g2.getFontMetrics(getTickLabelFont()); Range range = getRange(); double lower = range.getLowerBound(); double upper = range.getUpperBound(); String lowerStr = ""; String upperStr = ""; NumberFormat formatter = getNumberFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.valueToString(lower); upperStr = unit.valueToString(upper); } double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }
Example 8
Source File: DateAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. */ private double estimateMaximumTickLabelWidth(Graphics2D g2, DateTickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); Font tickLabelFont = getTickLabelFont(); FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = tickLabelFont.getLineMetrics("ABCxyz", frc); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of // the font)... result += lm.getHeight(); } else { // look at lower and upper bounds... DateRange range = (DateRange) getRange(); Date lower = range.getLowerDate(); Date upper = range.getUpperDate(); String lowerStr = null; String upperStr = null; DateFormat formatter = getDateFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.dateToString(lower); upperStr = unit.dateToString(upper); } FontMetrics fm = g2.getFontMetrics(tickLabelFont); double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }
Example 9
Source File: NumberAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. */ protected double estimateMaximumTickLabelWidth(Graphics2D g2, TickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of the // font)... FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = getTickLabelFont().getLineMetrics("0", frc); result += lm.getHeight(); } else { // look at lower and upper bounds... FontMetrics fm = g2.getFontMetrics(getTickLabelFont()); Range range = getRange(); double lower = range.getLowerBound(); double upper = range.getUpperBound(); String lowerStr = ""; String upperStr = ""; NumberFormat formatter = getNumberFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.valueToString(lower); upperStr = unit.valueToString(upper); } double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }
Example 10
Source File: ValueAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * A utility method for determining the width of the widest tick label. * * @param ticks the ticks. * @param g2 the graphics device. * @param drawArea the area within which the plot and axes should be drawn. * @param vertical a flag that indicates whether or not the tick labels * are 'vertical'. * * @return The width of the tallest tick label. */ protected double findMaximumTickLabelWidth(List ticks, Graphics2D g2, Rectangle2D drawArea, boolean vertical) { RectangleInsets insets = getTickLabelInsets(); Font font = getTickLabelFont(); double maxWidth = 0.0; if (!vertical) { FontMetrics fm = g2.getFontMetrics(font); Iterator iterator = ticks.iterator(); while (iterator.hasNext()) { Tick tick = (Tick) iterator.next(); Rectangle2D labelBounds = TextUtilities.getTextBounds( tick.getText(), g2, fm); if (labelBounds.getWidth() + insets.getLeft() + insets.getRight() > maxWidth) { maxWidth = labelBounds.getWidth() + insets.getLeft() + insets.getRight(); } } } else { LineMetrics metrics = font.getLineMetrics("ABCxyz", g2.getFontRenderContext()); maxWidth = metrics.getHeight() + insets.getTop() + insets.getBottom(); } return maxWidth; }
Example 11
Source File: LogAxis.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Estimates the maximum width of the tick labels, assuming the specified * tick unit is used. * <P> * Rather than computing the string bounds of every tick on the axis, we * just look at two values: the lower bound and the upper bound for the * axis. These two values will usually be representative. * * @param g2 the graphics device. * @param unit the tick unit to use for calculation. * * @return The estimated maximum width of the tick labels. * * @since 1.0.7 */ protected double estimateMaximumTickLabelWidth(Graphics2D g2, TickUnit unit) { RectangleInsets tickLabelInsets = getTickLabelInsets(); double result = tickLabelInsets.getLeft() + tickLabelInsets.getRight(); if (isVerticalTickLabels()) { // all tick labels have the same width (equal to the height of the // font)... FontRenderContext frc = g2.getFontRenderContext(); LineMetrics lm = getTickLabelFont().getLineMetrics("0", frc); result += lm.getHeight(); } else { // look at lower and upper bounds... FontMetrics fm = g2.getFontMetrics(getTickLabelFont()); Range range = getRange(); double lower = range.getLowerBound(); double upper = range.getUpperBound(); String lowerStr = ""; String upperStr = ""; NumberFormat formatter = getNumberFormatOverride(); if (formatter != null) { lowerStr = formatter.format(lower); upperStr = formatter.format(upper); } else { lowerStr = unit.valueToString(lower); upperStr = unit.valueToString(upper); } double w1 = fm.stringWidth(lowerStr); double w2 = fm.stringWidth(upperStr); result += Math.max(w1, w2); } return result; }