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Chart-1
public LegendItemCollection getLegendItems() { LegendItemCollection result = new LegendItemCollection(); if (this.plot == null) { return result; } int index = this.plot.getIndexOf(this); CategoryDataset dataset = this.plot.getDataset(index); if (dataset != null) { return result; } int seriesCount = dataset.getRowCount(); if (plot.getRowRenderingOrder().equals(SortOrder.ASCENDING)) { for (int i = 0; i < seriesCount; i++) { if (isSeriesVisibleInLegend(i)) { LegendItem item = getLegendItem(index, i); if (item != null) { result.add(item); } } } } else { for (int i = seriesCount - 1; i >= 0; i--) { if (isSeriesVisibleInLegend(i)) { LegendItem item = getLegendItem(index, i); if (item != null) { result.add(item); } } } } return result; } public LegendItemCollection getLegendItems() { LegendItemCollection result = new LegendItemCollection(); if (this.plot == null) { return result; } int index = this.plot.getIndexOf(this); CategoryDataset dataset = this.plot.getDataset(index); if (dataset == null) { return result; } int seriesCount = dataset.getRowCount(); if (plot.getRowRenderingOrder().equals(SortOrder.ASCENDING)) { for (int i = 0; i < seriesCount; i++) { if (isSeriesVisibleInLegend(i)) { LegendItem item = getLegendItem(index, i); if (item != null) { result.add(item); } } } } else { for (int i = seriesCount - 1; i >= 0; i--) { if (isSeriesVisibleInLegend(i)) { LegendItem item = getLegendItem(index, i); if (item != null) { result.add(item); } } } } return result; }
source/org/jfree/chart/renderer/category/AbstractCategoryItemRenderer.java
Chart-10
public String generateToolTipFragment(String toolTipText) { return " title=\"" + toolTipText + "\" alt=\"\""; } public String generateToolTipFragment(String toolTipText) { return " title=\"" + ImageMapUtilities.htmlEscape(toolTipText) + "\" alt=\"\""; }
source/org/jfree/chart/imagemap/StandardToolTipTagFragmentGenerator.java
Chart-11
public static boolean equal(GeneralPath p1, GeneralPath p2) { if (p1 == null) { return (p2 == null); } if (p2 == null) { return false; } if (p1.getWindingRule() != p2.getWindingRule()) { return false; } PathIterator iterator1 = p1.getPathIterator(null); PathIterator iterator2 = p1.getPathIterator(null); double[] d1 = new double[6]; double[] d2 = new double[6]; boolean done = iterator1.isDone() && iterator2.isDone(); while (!done) { if (iterator1.isDone() != iterator2.isDone()) { return false; } int seg1 = iterator1.currentSegment(d1); int seg2 = iterator2.currentSegment(d2); if (seg1 != seg2) { return false; } if (!Arrays.equals(d1, d2)) { return false; } iterator1.next(); iterator2.next(); done = iterator1.isDone() && iterator2.isDone(); } return true; } public static boolean equal(GeneralPath p1, GeneralPath p2) { if (p1 == null) { return (p2 == null); } if (p2 == null) { return false; } if (p1.getWindingRule() != p2.getWindingRule()) { return false; } PathIterator iterator1 = p1.getPathIterator(null); PathIterator iterator2 = p2.getPathIterator(null); double[] d1 = new double[6]; double[] d2 = new double[6]; boolean done = iterator1.isDone() && iterator2.isDone(); while (!done) { if (iterator1.isDone() != iterator2.isDone()) { return false; } int seg1 = iterator1.currentSegment(d1); int seg2 = iterator2.currentSegment(d2); if (seg1 != seg2) { return false; } if (!Arrays.equals(d1, d2)) { return false; } iterator1.next(); iterator2.next(); done = iterator1.isDone() && iterator2.isDone(); } return true; }
source/org/jfree/chart/util/ShapeUtilities.java
Chart-12
public MultiplePiePlot(CategoryDataset dataset) { super(); this.dataset = dataset; PiePlot piePlot = new PiePlot(null); this.pieChart = new JFreeChart(piePlot); this.pieChart.removeLegend(); this.dataExtractOrder = TableOrder.BY_COLUMN; this.pieChart.setBackgroundPaint(null); TextTitle seriesTitle = new TextTitle("Series Title", new Font("SansSerif", Font.BOLD, 12)); seriesTitle.setPosition(RectangleEdge.BOTTOM); this.pieChart.setTitle(seriesTitle); this.aggregatedItemsKey = "Other"; this.aggregatedItemsPaint = Color.lightGray; this.sectionPaints = new HashMap(); } public MultiplePiePlot(CategoryDataset dataset) { super(); setDataset(dataset); PiePlot piePlot = new PiePlot(null); this.pieChart = new JFreeChart(piePlot); this.pieChart.removeLegend(); this.dataExtractOrder = TableOrder.BY_COLUMN; this.pieChart.setBackgroundPaint(null); TextTitle seriesTitle = new TextTitle("Series Title", new Font("SansSerif", Font.BOLD, 12)); seriesTitle.setPosition(RectangleEdge.BOTTOM); this.pieChart.setTitle(seriesTitle); this.aggregatedItemsKey = "Other"; this.aggregatedItemsPaint = Color.lightGray; this.sectionPaints = new HashMap(); }
source/org/jfree/chart/plot/MultiplePiePlot.java
Chart-13
protected Size2D arrangeFF(BlockContainer container, Graphics2D g2, RectangleConstraint constraint) { double[] w = new double[5]; double[] h = new double[5]; w[0] = constraint.getWidth(); if (this.topBlock != null) { RectangleConstraint c1 = new RectangleConstraint(w[0], null, LengthConstraintType.FIXED, 0.0, new Range(0.0, constraint.getHeight()), LengthConstraintType.RANGE); Size2D size = this.topBlock.arrange(g2, c1); h[0] = size.height; } w[1] = w[0]; if (this.bottomBlock != null) { RectangleConstraint c2 = new RectangleConstraint(w[0], null, LengthConstraintType.FIXED, 0.0, new Range(0.0, constraint.getHeight() - h[0]), LengthConstraintType.RANGE); Size2D size = this.bottomBlock.arrange(g2, c2); h[1] = size.height; } h[2] = constraint.getHeight() - h[1] - h[0]; if (this.leftBlock != null) { RectangleConstraint c3 = new RectangleConstraint(0.0, new Range(0.0, constraint.getWidth()), LengthConstraintType.RANGE, h[2], null, LengthConstraintType.FIXED); Size2D size = this.leftBlock.arrange(g2, c3); w[2] = size.width; } h[3] = h[2]; if (this.rightBlock != null) { RectangleConstraint c4 = new RectangleConstraint(0.0, new Range(0.0, constraint.getWidth() - w[2]), LengthConstraintType.RANGE, h[2], null, LengthConstraintType.FIXED); Size2D size = this.rightBlock.arrange(g2, c4); w[3] = size.width; } h[4] = h[2]; w[4] = constraint.getWidth() - w[3] - w[2]; RectangleConstraint c5 = new RectangleConstraint(w[4], h[4]); if (this.centerBlock != null) { this.centerBlock.arrange(g2, c5); } if (this.topBlock != null) { this.topBlock.setBounds(new Rectangle2D.Double(0.0, 0.0, w[0], h[0])); } if (this.bottomBlock != null) { this.bottomBlock.setBounds(new Rectangle2D.Double(0.0, h[0] + h[2], w[1], h[1])); } if (this.leftBlock != null) { this.leftBlock.setBounds(new Rectangle2D.Double(0.0, h[0], w[2], h[2])); } if (this.rightBlock != null) { this.rightBlock.setBounds(new Rectangle2D.Double(w[2] + w[4], h[0], w[3], h[3])); } if (this.centerBlock != null) { this.centerBlock.setBounds(new Rectangle2D.Double(w[2], h[0], w[4], h[4])); } return new Size2D(constraint.getWidth(), constraint.getHeight()); } protected Size2D arrangeFF(BlockContainer container, Graphics2D g2, RectangleConstraint constraint) { double[] w = new double[5]; double[] h = new double[5]; w[0] = constraint.getWidth(); if (this.topBlock != null) { RectangleConstraint c1 = new RectangleConstraint(w[0], null, LengthConstraintType.FIXED, 0.0, new Range(0.0, constraint.getHeight()), LengthConstraintType.RANGE); Size2D size = this.topBlock.arrange(g2, c1); h[0] = size.height; } w[1] = w[0]; if (this.bottomBlock != null) { RectangleConstraint c2 = new RectangleConstraint(w[0], null, LengthConstraintType.FIXED, 0.0, new Range(0.0, constraint.getHeight() - h[0]), LengthConstraintType.RANGE); Size2D size = this.bottomBlock.arrange(g2, c2); h[1] = size.height; } h[2] = constraint.getHeight() - h[1] - h[0]; if (this.leftBlock != null) { RectangleConstraint c3 = new RectangleConstraint(0.0, new Range(0.0, constraint.getWidth()), LengthConstraintType.RANGE, h[2], null, LengthConstraintType.FIXED); Size2D size = this.leftBlock.arrange(g2, c3); w[2] = size.width; } h[3] = h[2]; if (this.rightBlock != null) { RectangleConstraint c4 = new RectangleConstraint(0.0, new Range(0.0, Math.max(constraint.getWidth() - w[2], 0.0)), LengthConstraintType.RANGE, h[2], null, LengthConstraintType.FIXED); Size2D size = this.rightBlock.arrange(g2, c4); w[3] = size.width; } h[4] = h[2]; w[4] = constraint.getWidth() - w[3] - w[2]; RectangleConstraint c5 = new RectangleConstraint(w[4], h[4]); if (this.centerBlock != null) { this.centerBlock.arrange(g2, c5); } if (this.topBlock != null) { this.topBlock.setBounds(new Rectangle2D.Double(0.0, 0.0, w[0], h[0])); } if (this.bottomBlock != null) { this.bottomBlock.setBounds(new Rectangle2D.Double(0.0, h[0] + h[2], w[1], h[1])); } if (this.leftBlock != null) { this.leftBlock.setBounds(new Rectangle2D.Double(0.0, h[0], w[2], h[2])); } if (this.rightBlock != null) { this.rightBlock.setBounds(new Rectangle2D.Double(w[2] + w[4], h[0], w[3], h[3])); } if (this.centerBlock != null) { this.centerBlock.setBounds(new Rectangle2D.Double(w[2], h[0], w[4], h[4])); } return new Size2D(constraint.getWidth(), constraint.getHeight()); }
source/org/jfree/chart/block/BorderArrangement.java
Chart-17
public Object clone() throws CloneNotSupportedException { Object clone = createCopy(0, getItemCount() - 1); return clone; } public Object clone() throws CloneNotSupportedException { TimeSeries clone = (TimeSeries) super.clone(); clone.data = (List) ObjectUtilities.deepClone(this.data); return clone; }
source/org/jfree/data/time/TimeSeries.java
Chart-20
public ValueMarker(double value, Paint paint, Stroke stroke, Paint outlinePaint, Stroke outlineStroke, float alpha) { super(paint, stroke, paint, stroke, alpha); this.value = value; } public ValueMarker(double value, Paint paint, Stroke stroke, Paint outlinePaint, Stroke outlineStroke, float alpha) { super(paint, stroke, outlinePaint, outlineStroke, alpha); this.value = value; }
source/org/jfree/chart/plot/ValueMarker.java
Chart-24
public Paint getPaint(double value) { double v = Math.max(value, this.lowerBound); v = Math.min(v, this.upperBound); int g = (int) ((value - this.lowerBound) / (this.upperBound - this.lowerBound) * 255.0); return new Color(g, g, g); } public Paint getPaint(double value) { double v = Math.max(value, this.lowerBound); v = Math.min(v, this.upperBound); int g = (int) ((v - this.lowerBound) / (this.upperBound - this.lowerBound) * 255.0); return new Color(g, g, g); }
source/org/jfree/chart/renderer/GrayPaintScale.java
Chart-26
protected AxisState drawLabel(String label, Graphics2D g2, Rectangle2D plotArea, Rectangle2D dataArea, RectangleEdge edge, AxisState state, PlotRenderingInfo plotState) { // it is unlikely that 'state' will be null, but check anyway... if (state == null) { throw new IllegalArgumentException("Null 'state' argument."); } if ((label == null) || (label.equals(""))) { return state; } Font font = getLabelFont(); RectangleInsets insets = getLabelInsets(); g2.setFont(font); g2.setPaint(getLabelPaint()); FontMetrics fm = g2.getFontMetrics(); Rectangle2D labelBounds = TextUtilities.getTextBounds(label, g2, fm); Shape hotspot = null; if (edge == RectangleEdge.TOP) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle(), labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) dataArea.getCenterX(); float labely = (float) (state.getCursor() - insets.getBottom() - h / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle(), TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorUp(insets.getTop() + labelBounds.getHeight() + insets.getBottom()); } else if (edge == RectangleEdge.BOTTOM) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle(), labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) dataArea.getCenterX(); float labely = (float) (state.getCursor() + insets.getTop() + h / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle(), TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorDown(insets.getTop() + labelBounds.getHeight() + insets.getBottom()); } else if (edge == RectangleEdge.LEFT) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle() - Math.PI / 2.0, labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) (state.getCursor() - insets.getRight() - w / 2.0); float labely = (float) dataArea.getCenterY(); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle() - Math.PI / 2.0, TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorLeft(insets.getLeft() + labelBounds.getWidth() + insets.getRight()); } else if (edge == RectangleEdge.RIGHT) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle() + Math.PI / 2.0, labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) (state.getCursor() + insets.getLeft() + w / 2.0); float labely = (float) (dataArea.getY() + dataArea.getHeight() / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle() + Math.PI / 2.0, TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorRight(insets.getLeft() + labelBounds.getWidth() + insets.getRight()); } if (plotState != null && hotspot != null) { ChartRenderingInfo owner = plotState.getOwner(); EntityCollection entities = owner.getEntityCollection(); if (entities != null) { entities.add(new AxisLabelEntity(this, hotspot, this.labelToolTip, this.labelURL)); } } return state; } protected AxisState drawLabel(String label, Graphics2D g2, Rectangle2D plotArea, Rectangle2D dataArea, RectangleEdge edge, AxisState state, PlotRenderingInfo plotState) { // it is unlikely that 'state' will be null, but check anyway... if (state == null) { throw new IllegalArgumentException("Null 'state' argument."); } if ((label == null) || (label.equals(""))) { return state; } Font font = getLabelFont(); RectangleInsets insets = getLabelInsets(); g2.setFont(font); g2.setPaint(getLabelPaint()); FontMetrics fm = g2.getFontMetrics(); Rectangle2D labelBounds = TextUtilities.getTextBounds(label, g2, fm); Shape hotspot = null; if (edge == RectangleEdge.TOP) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle(), labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) dataArea.getCenterX(); float labely = (float) (state.getCursor() - insets.getBottom() - h / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle(), TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorUp(insets.getTop() + labelBounds.getHeight() + insets.getBottom()); } else if (edge == RectangleEdge.BOTTOM) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle(), labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) dataArea.getCenterX(); float labely = (float) (state.getCursor() + insets.getTop() + h / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle(), TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorDown(insets.getTop() + labelBounds.getHeight() + insets.getBottom()); } else if (edge == RectangleEdge.LEFT) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle() - Math.PI / 2.0, labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) (state.getCursor() - insets.getRight() - w / 2.0); float labely = (float) dataArea.getCenterY(); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle() - Math.PI / 2.0, TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorLeft(insets.getLeft() + labelBounds.getWidth() + insets.getRight()); } else if (edge == RectangleEdge.RIGHT) { AffineTransform t = AffineTransform.getRotateInstance( getLabelAngle() + Math.PI / 2.0, labelBounds.getCenterX(), labelBounds.getCenterY()); Shape rotatedLabelBounds = t.createTransformedShape(labelBounds); labelBounds = rotatedLabelBounds.getBounds2D(); float w = (float) labelBounds.getWidth(); float h = (float) labelBounds.getHeight(); float labelx = (float) (state.getCursor() + insets.getLeft() + w / 2.0); float labely = (float) (dataArea.getY() + dataArea.getHeight() / 2.0); TextUtilities.drawRotatedString(label, g2, labelx, labely, TextAnchor.CENTER, getLabelAngle() + Math.PI / 2.0, TextAnchor.CENTER); hotspot = new Rectangle2D.Float(labelx - w / 2.0f, labely - h / 2.0f, w, h); state.cursorRight(insets.getLeft() + labelBounds.getWidth() + insets.getRight()); } if (plotState != null && hotspot != null) { ChartRenderingInfo owner = plotState.getOwner(); if (owner != null) { EntityCollection entities = owner.getEntityCollection(); if (entities != null) { entities.add(new AxisLabelEntity(this, hotspot, this.labelToolTip, this.labelURL)); } } } return state; }
source/org/jfree/chart/axis/Axis.java
Chart-3
public TimeSeries createCopy(int start, int end) throws CloneNotSupportedException { if (start < 0) { throw new IllegalArgumentException("Requires start >= 0."); } if (end < start) { throw new IllegalArgumentException("Requires start <= end."); } TimeSeries copy = (TimeSeries) super.clone(); copy.data = new java.util.ArrayList(); if (this.data.size() > 0) { for (int index = start; index <= end; index++) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.get(index); TimeSeriesDataItem clone = (TimeSeriesDataItem) item.clone(); try { copy.add(clone); } catch (SeriesException e) { e.printStackTrace(); } } } return copy; } public TimeSeries createCopy(int start, int end) throws CloneNotSupportedException { if (start < 0) { throw new IllegalArgumentException("Requires start >= 0."); } if (end < start) { throw new IllegalArgumentException("Requires start <= end."); } TimeSeries copy = (TimeSeries) super.clone(); copy.minY = Double.NaN; copy.maxY = Double.NaN; copy.data = new java.util.ArrayList(); if (this.data.size() > 0) { for (int index = start; index <= end; index++) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.get(index); TimeSeriesDataItem clone = (TimeSeriesDataItem) item.clone(); try { copy.add(clone); } catch (SeriesException e) { e.printStackTrace(); } } } return copy; }
source/org/jfree/data/time/TimeSeries.java
Chart-4
public Range getDataRange(ValueAxis axis) { Range result = null; List mappedDatasets = new ArrayList(); List includedAnnotations = new ArrayList(); boolean isDomainAxis = true; // is it a domain axis? int domainIndex = getDomainAxisIndex(axis); if (domainIndex >= 0) { isDomainAxis = true; mappedDatasets.addAll(getDatasetsMappedToDomainAxis( new Integer(domainIndex))); if (domainIndex == 0) { // grab the plot's annotations Iterator iterator = this.annotations.iterator(); while (iterator.hasNext()) { XYAnnotation annotation = (XYAnnotation) iterator.next(); if (annotation instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(annotation); } } } } // or is it a range axis? int rangeIndex = getRangeAxisIndex(axis); if (rangeIndex >= 0) { isDomainAxis = false; mappedDatasets.addAll(getDatasetsMappedToRangeAxis( new Integer(rangeIndex))); if (rangeIndex == 0) { Iterator iterator = this.annotations.iterator(); while (iterator.hasNext()) { XYAnnotation annotation = (XYAnnotation) iterator.next(); if (annotation instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(annotation); } } } } // iterate through the datasets that map to the axis and get the union // of the ranges. Iterator iterator = mappedDatasets.iterator(); while (iterator.hasNext()) { XYDataset d = (XYDataset) iterator.next(); if (d != null) { XYItemRenderer r = getRendererForDataset(d); if (isDomainAxis) { if (r != null) { result = Range.combine(result, r.findDomainBounds(d)); } else { result = Range.combine(result, DatasetUtilities.findDomainBounds(d)); } } else { if (r != null) { result = Range.combine(result, r.findRangeBounds(d)); } else { result = Range.combine(result, DatasetUtilities.findRangeBounds(d)); } } Collection c = r.getAnnotations(); Iterator i = c.iterator(); while (i.hasNext()) { XYAnnotation a = (XYAnnotation) i.next(); if (a instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(a); } } } } Iterator it = includedAnnotations.iterator(); while (it.hasNext()) { XYAnnotationBoundsInfo xyabi = (XYAnnotationBoundsInfo) it.next(); if (xyabi.getIncludeInDataBounds()) { if (isDomainAxis) { result = Range.combine(result, xyabi.getXRange()); } else { result = Range.combine(result, xyabi.getYRange()); } } } return result; } public Range getDataRange(ValueAxis axis) { Range result = null; List mappedDatasets = new ArrayList(); List includedAnnotations = new ArrayList(); boolean isDomainAxis = true; // is it a domain axis? int domainIndex = getDomainAxisIndex(axis); if (domainIndex >= 0) { isDomainAxis = true; mappedDatasets.addAll(getDatasetsMappedToDomainAxis( new Integer(domainIndex))); if (domainIndex == 0) { // grab the plot's annotations Iterator iterator = this.annotations.iterator(); while (iterator.hasNext()) { XYAnnotation annotation = (XYAnnotation) iterator.next(); if (annotation instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(annotation); } } } } // or is it a range axis? int rangeIndex = getRangeAxisIndex(axis); if (rangeIndex >= 0) { isDomainAxis = false; mappedDatasets.addAll(getDatasetsMappedToRangeAxis( new Integer(rangeIndex))); if (rangeIndex == 0) { Iterator iterator = this.annotations.iterator(); while (iterator.hasNext()) { XYAnnotation annotation = (XYAnnotation) iterator.next(); if (annotation instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(annotation); } } } } // iterate through the datasets that map to the axis and get the union // of the ranges. Iterator iterator = mappedDatasets.iterator(); while (iterator.hasNext()) { XYDataset d = (XYDataset) iterator.next(); if (d != null) { XYItemRenderer r = getRendererForDataset(d); if (isDomainAxis) { if (r != null) { result = Range.combine(result, r.findDomainBounds(d)); } else { result = Range.combine(result, DatasetUtilities.findDomainBounds(d)); } } else { if (r != null) { result = Range.combine(result, r.findRangeBounds(d)); } else { result = Range.combine(result, DatasetUtilities.findRangeBounds(d)); } } if (r != null) { Collection c = r.getAnnotations(); Iterator i = c.iterator(); while (i.hasNext()) { XYAnnotation a = (XYAnnotation) i.next(); if (a instanceof XYAnnotationBoundsInfo) { includedAnnotations.add(a); } } } } } Iterator it = includedAnnotations.iterator(); while (it.hasNext()) { XYAnnotationBoundsInfo xyabi = (XYAnnotationBoundsInfo) it.next(); if (xyabi.getIncludeInDataBounds()) { if (isDomainAxis) { result = Range.combine(result, xyabi.getXRange()); } else { result = Range.combine(result, xyabi.getYRange()); } } } return result; }
source/org/jfree/chart/plot/XYPlot.java
Chart-5
public XYDataItem addOrUpdate(Number x, Number y) { if (x == null) { throw new IllegalArgumentException("Null 'x' argument."); } // if we get to here, we know that duplicate X values are not permitted XYDataItem overwritten = null; int index = indexOf(x); if (index >= 0 && !this.allowDuplicateXValues) { XYDataItem existing = (XYDataItem) this.data.get(index); try { overwritten = (XYDataItem) existing.clone(); } catch (CloneNotSupportedException e) { throw new SeriesException("Couldn't clone XYDataItem!"); } existing.setY(y); } else { // if the series is sorted, the negative index is a result from // Collections.binarySearch() and tells us where to insert the // new item...otherwise it will be just -1 and we should just // append the value to the list... if (this.autoSort) { this.data.add(-index - 1, new XYDataItem(x, y)); } else { this.data.add(new XYDataItem(x, y)); } // check if this addition will exceed the maximum item count... if (getItemCount() > this.maximumItemCount) { this.data.remove(0); } } fireSeriesChanged(); return overwritten; } public XYDataItem addOrUpdate(Number x, Number y) { if (x == null) { throw new IllegalArgumentException("Null 'x' argument."); } if (this.allowDuplicateXValues) { add(x, y); return null; } // if we get to here, we know that duplicate X values are not permitted XYDataItem overwritten = null; int index = indexOf(x); if (index >= 0) { XYDataItem existing = (XYDataItem) this.data.get(index); try { overwritten = (XYDataItem) existing.clone(); } catch (CloneNotSupportedException e) { throw new SeriesException("Couldn't clone XYDataItem!"); } existing.setY(y); } else { // if the series is sorted, the negative index is a result from // Collections.binarySearch() and tells us where to insert the // new item...otherwise it will be just -1 and we should just // append the value to the list... if (this.autoSort) { this.data.add(-index - 1, new XYDataItem(x, y)); } else { this.data.add(new XYDataItem(x, y)); } // check if this addition will exceed the maximum item count... if (getItemCount() > this.maximumItemCount) { this.data.remove(0); } } fireSeriesChanged(); return overwritten; }
source/org/jfree/data/xy/XYSeries.java
Chart-6
public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof ShapeList)) { return false; } return super.equals(obj); } public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof ShapeList)) { return false; } ShapeList that = (ShapeList) obj; int listSize = size(); for (int i = 0; i < listSize; i++) { if (!ShapeUtilities.equal((Shape) get(i), (Shape) that.get(i))) { return false; } } return true; }
source/org/jfree/chart/util/ShapeList.java
Chart-7
private void updateBounds(TimePeriod period, int index) { long start = period.getStart().getTime(); long end = period.getEnd().getTime(); long middle = start + ((end - start) / 2); if (this.minStartIndex >= 0) { long minStart = getDataItem(this.minStartIndex).getPeriod() .getStart().getTime(); if (start < minStart) { this.minStartIndex = index; } } else { this.minStartIndex = index; } if (this.maxStartIndex >= 0) { long maxStart = getDataItem(this.maxStartIndex).getPeriod() .getStart().getTime(); if (start > maxStart) { this.maxStartIndex = index; } } else { this.maxStartIndex = index; } if (this.minMiddleIndex >= 0) { long s = getDataItem(this.minMiddleIndex).getPeriod().getStart() .getTime(); long e = getDataItem(this.minMiddleIndex).getPeriod().getEnd() .getTime(); long minMiddle = s + (e - s) / 2; if (middle < minMiddle) { this.minMiddleIndex = index; } } else { this.minMiddleIndex = index; } if (this.maxMiddleIndex >= 0) { long s = getDataItem(this.minMiddleIndex).getPeriod().getStart() .getTime(); long e = getDataItem(this.minMiddleIndex).getPeriod().getEnd() .getTime(); long maxMiddle = s + (e - s) / 2; if (middle > maxMiddle) { this.maxMiddleIndex = index; } } else { this.maxMiddleIndex = index; } if (this.minEndIndex >= 0) { long minEnd = getDataItem(this.minEndIndex).getPeriod().getEnd() .getTime(); if (end < minEnd) { this.minEndIndex = index; } } else { this.minEndIndex = index; } if (this.maxEndIndex >= 0) { long maxEnd = getDataItem(this.maxEndIndex).getPeriod().getEnd() .getTime(); if (end > maxEnd) { this.maxEndIndex = index; } } else { this.maxEndIndex = index; } } private void updateBounds(TimePeriod period, int index) { long start = period.getStart().getTime(); long end = period.getEnd().getTime(); long middle = start + ((end - start) / 2); if (this.minStartIndex >= 0) { long minStart = getDataItem(this.minStartIndex).getPeriod() .getStart().getTime(); if (start < minStart) { this.minStartIndex = index; } } else { this.minStartIndex = index; } if (this.maxStartIndex >= 0) { long maxStart = getDataItem(this.maxStartIndex).getPeriod() .getStart().getTime(); if (start > maxStart) { this.maxStartIndex = index; } } else { this.maxStartIndex = index; } if (this.minMiddleIndex >= 0) { long s = getDataItem(this.minMiddleIndex).getPeriod().getStart() .getTime(); long e = getDataItem(this.minMiddleIndex).getPeriod().getEnd() .getTime(); long minMiddle = s + (e - s) / 2; if (middle < minMiddle) { this.minMiddleIndex = index; } } else { this.minMiddleIndex = index; } if (this.maxMiddleIndex >= 0) { long s = getDataItem(this.maxMiddleIndex).getPeriod().getStart() .getTime(); long e = getDataItem(this.maxMiddleIndex).getPeriod().getEnd() .getTime(); long maxMiddle = s + (e - s) / 2; if (middle > maxMiddle) { this.maxMiddleIndex = index; } } else { this.maxMiddleIndex = index; } if (this.minEndIndex >= 0) { long minEnd = getDataItem(this.minEndIndex).getPeriod().getEnd() .getTime(); if (end < minEnd) { this.minEndIndex = index; } } else { this.minEndIndex = index; } if (this.maxEndIndex >= 0) { long maxEnd = getDataItem(this.maxEndIndex).getPeriod().getEnd() .getTime(); if (end > maxEnd) { this.maxEndIndex = index; } } else { this.maxEndIndex = index; } }
source/org/jfree/data/time/TimePeriodValues.java
Chart-8
public Week(Date time, TimeZone zone) { // defer argument checking... this(time, RegularTimePeriod.DEFAULT_TIME_ZONE, Locale.getDefault()); } public Week(Date time, TimeZone zone) { // defer argument checking... this(time, zone, Locale.getDefault()); }
source/org/jfree/data/time/Week.java
Chart-9
public TimeSeries createCopy(RegularTimePeriod start, RegularTimePeriod end) throws CloneNotSupportedException { if (start == null) { throw new IllegalArgumentException("Null 'start' argument."); } if (end == null) { throw new IllegalArgumentException("Null 'end' argument."); } if (start.compareTo(end) > 0) { throw new IllegalArgumentException( "Requires start on or before end."); } boolean emptyRange = false; int startIndex = getIndex(start); if (startIndex < 0) { startIndex = -(startIndex + 1); if (startIndex == this.data.size()) { emptyRange = true; // start is after last data item } } int endIndex = getIndex(end); if (endIndex < 0) { // end period is not in original series endIndex = -(endIndex + 1); // this is first item AFTER end period endIndex = endIndex - 1; // so this is last item BEFORE end } if (endIndex < 0) { emptyRange = true; } if (emptyRange) { TimeSeries copy = (TimeSeries) super.clone(); copy.data = new java.util.ArrayList(); return copy; } else { return createCopy(startIndex, endIndex); } } public TimeSeries createCopy(RegularTimePeriod start, RegularTimePeriod end) throws CloneNotSupportedException { if (start == null) { throw new IllegalArgumentException("Null 'start' argument."); } if (end == null) { throw new IllegalArgumentException("Null 'end' argument."); } if (start.compareTo(end) > 0) { throw new IllegalArgumentException( "Requires start on or before end."); } boolean emptyRange = false; int startIndex = getIndex(start); if (startIndex < 0) { startIndex = -(startIndex + 1); if (startIndex == this.data.size()) { emptyRange = true; // start is after last data item } } int endIndex = getIndex(end); if (endIndex < 0) { // end period is not in original series endIndex = -(endIndex + 1); // this is first item AFTER end period endIndex = endIndex - 1; // so this is last item BEFORE end } if ((endIndex < 0) || (endIndex < startIndex)) { emptyRange = true; } if (emptyRange) { TimeSeries copy = (TimeSeries) super.clone(); copy.data = new java.util.ArrayList(); return copy; } else { return createCopy(startIndex, endIndex); } }
source/org/jfree/data/time/TimeSeries.java
Cli-11
private static void appendOption(final StringBuffer buff, final Option option, final boolean required) { if (!required) { buff.append("["); } if (option.getOpt() != null) { buff.append("-").append(option.getOpt()); } else { buff.append("--").append(option.getLongOpt()); } // if the Option has a value if (option.hasArg() && (option.getArgName() != null)) { buff.append(" <").append(option.getArgName()).append(">"); } // if the Option is not a required option if (!required) { buff.append("]"); } } private static void appendOption(final StringBuffer buff, final Option option, final boolean required) { if (!required) { buff.append("["); } if (option.getOpt() != null) { buff.append("-").append(option.getOpt()); } else { buff.append("--").append(option.getLongOpt()); } // if the Option has a value if (option.hasArg() && option.hasArgName()) { buff.append(" <").append(option.getArgName()).append(">"); } // if the Option is not a required option if (!required) { buff.append("]"); } }
src/java/org/apache/commons/cli/HelpFormatter.java
Cli-12
protected String[] flatten(Options options, String[] arguments, boolean stopAtNonOption) { List tokens = new ArrayList(); boolean eatTheRest = false; for (int i = 0; i < arguments.length; i++) { String arg = arguments[i]; if ("--".equals(arg)) { eatTheRest = true; tokens.add("--"); } else if ("-".equals(arg)) { tokens.add("-"); } else if (arg.startsWith("-")) { String opt = Util.stripLeadingHyphens(arg); if (options.hasOption(opt)) { tokens.add(arg); } else { if (options.hasOption(arg.substring(0, 2))) { // the format is --foo=value or -foo=value // the format is a special properties option (-Dproperty=value) tokens.add(arg.substring(0, 2)); // -D tokens.add(arg.substring(2)); // property=value } else { eatTheRest = stopAtNonOption; tokens.add(arg); } } } else { tokens.add(arg); } if (eatTheRest) { for (i++; i < arguments.length; i++) { tokens.add(arguments[i]); } } } return (String[]) tokens.toArray(new String[tokens.size()]); } protected String[] flatten(Options options, String[] arguments, boolean stopAtNonOption) { List tokens = new ArrayList(); boolean eatTheRest = false; for (int i = 0; i < arguments.length; i++) { String arg = arguments[i]; if ("--".equals(arg)) { eatTheRest = true; tokens.add("--"); } else if ("-".equals(arg)) { tokens.add("-"); } else if (arg.startsWith("-")) { String opt = Util.stripLeadingHyphens(arg); if (options.hasOption(opt)) { tokens.add(arg); } else { if (opt.indexOf('=') != -1 && options.hasOption(opt.substring(0, opt.indexOf('=')))) { // the format is --foo=value or -foo=value tokens.add(arg.substring(0, arg.indexOf('='))); // --foo tokens.add(arg.substring(arg.indexOf('=') + 1)); // value } else if (options.hasOption(arg.substring(0, 2))) { // the format is a special properties option (-Dproperty=value) tokens.add(arg.substring(0, 2)); // -D tokens.add(arg.substring(2)); // property=value } else { eatTheRest = stopAtNonOption; tokens.add(arg); } } } else { tokens.add(arg); } if (eatTheRest) { for (i++; i < arguments.length; i++) { tokens.add(arguments[i]); } } } return (String[]) tokens.toArray(new String[tokens.size()]); }
src/java/org/apache/commons/cli/GnuParser.java
Cli-14
public void validate(final WriteableCommandLine commandLine) throws OptionException { // number of options found int present = 0; // reference to first unexpected option Option unexpected = null; for (final Iterator i = options.iterator(); i.hasNext();) { final Option option = (Option) i.next(); // needs validation? boolean validate = option.isRequired() || option instanceof Group; if (validate) { option.validate(commandLine); } // if the child option is present then validate it if (commandLine.hasOption(option)) { if (++present > maximum) { unexpected = option; break; } option.validate(commandLine); } } // too many options if (unexpected != null) { throw new OptionException(this, ResourceConstants.UNEXPECTED_TOKEN, unexpected.getPreferredName()); } // too few option if (present < minimum) { throw new OptionException(this, ResourceConstants.MISSING_OPTION); } // validate each anonymous argument for (final Iterator i = anonymous.iterator(); i.hasNext();) { final Option option = (Option) i.next(); option.validate(commandLine); } } public void validate(final WriteableCommandLine commandLine) throws OptionException { // number of options found int present = 0; // reference to first unexpected option Option unexpected = null; for (final Iterator i = options.iterator(); i.hasNext();) { final Option option = (Option) i.next(); // needs validation? boolean validate = option.isRequired() || option instanceof Group; // if the child option is present then validate it if (commandLine.hasOption(option)) { if (++present > maximum) { unexpected = option; break; } validate = true; } if (validate) { option.validate(commandLine); } } // too many options if (unexpected != null) { throw new OptionException(this, ResourceConstants.UNEXPECTED_TOKEN, unexpected.getPreferredName()); } // too few option if (present < minimum) { throw new OptionException(this, ResourceConstants.MISSING_OPTION); } // validate each anonymous argument for (final Iterator i = anonymous.iterator(); i.hasNext();) { final Option option = (Option) i.next(); option.validate(commandLine); } }
src/java/org/apache/commons/cli2/option/GroupImpl.java
Cli-15
public List getValues(final Option option, List defaultValues) { // initialize the return list List valueList = (List) values.get(option); // grab the correct default values if ((valueList == null) || valueList.isEmpty()) { valueList = defaultValues; } // augment the list with the default values if ((valueList == null) || valueList.isEmpty()) { valueList = (List) this.defaultValues.get(option); } // if there are more default values as specified, add them to // the list. // copy the list first return valueList == null ? Collections.EMPTY_LIST : valueList; } public List getValues(final Option option, List defaultValues) { // initialize the return list List valueList = (List) values.get(option); // grab the correct default values if (defaultValues == null || defaultValues.isEmpty()) { defaultValues = (List) this.defaultValues.get(option); } // augment the list with the default values if (defaultValues != null && !defaultValues.isEmpty()) { if (valueList == null || valueList.isEmpty()) { valueList = defaultValues; } else { // if there are more default values as specified, add them to // the list. if (defaultValues.size() > valueList.size()) { // copy the list first valueList = new ArrayList(valueList); for (int i=valueList.size(); i<defaultValues.size(); i++) { valueList.add(defaultValues.get(i)); } } } } return valueList == null ? Collections.EMPTY_LIST : valueList; }
src/java/org/apache/commons/cli2/commandline/WriteableCommandLineImpl.java
Cli-17
protected void burstToken(String token, boolean stopAtNonOption) { for (int i = 1; i < token.length(); i++) { String ch = String.valueOf(token.charAt(i)); if (options.hasOption(ch)) { tokens.add("-" + ch); currentOption = options.getOption(ch); if (currentOption.hasArg() && (token.length() != (i + 1))) { tokens.add(token.substring(i + 1)); break; } } else if (stopAtNonOption) { process(token.substring(i)); } else { tokens.add(token); break; } } } protected void burstToken(String token, boolean stopAtNonOption) { for (int i = 1; i < token.length(); i++) { String ch = String.valueOf(token.charAt(i)); if (options.hasOption(ch)) { tokens.add("-" + ch); currentOption = options.getOption(ch); if (currentOption.hasArg() && (token.length() != (i + 1))) { tokens.add(token.substring(i + 1)); break; } } else if (stopAtNonOption) { process(token.substring(i)); break; } else { tokens.add(token); break; } } }
src/java/org/apache/commons/cli/PosixParser.java
Cli-19
private void processOptionToken(String token, boolean stopAtNonOption) { if (options.hasOption(token)) { currentOption = options.getOption(token); tokens.add(token); } else if (stopAtNonOption) { eatTheRest = true; tokens.add(token); } } private void processOptionToken(String token, boolean stopAtNonOption) { if (options.hasOption(token)) { currentOption = options.getOption(token); } else if (stopAtNonOption) { eatTheRest = true; } tokens.add(token); }
src/java/org/apache/commons/cli/PosixParser.java
Cli-20
protected String[] flatten(Options options, String[] arguments, boolean stopAtNonOption) { init(); this.options = options; // an iterator for the command line tokens Iterator iter = Arrays.asList(arguments).iterator(); // process each command line token while (iter.hasNext()) { // get the next command line token String token = (String) iter.next(); // handle long option --foo or --foo=bar if (token.startsWith("--")) { if (token.indexOf('=') != -1) { tokens.add(token.substring(0, token.indexOf('='))); tokens.add(token.substring(token.indexOf('=') + 1, token.length())); } else { tokens.add(token); } } // single hyphen else if ("-".equals(token)) { tokens.add(token); } else if (token.startsWith("-")) { if (token.length() == 2) { processOptionToken(token, stopAtNonOption); } else if (options.hasOption(token)) { tokens.add(token); } // requires bursting else { burstToken(token, stopAtNonOption); } } else if (stopAtNonOption) { process(token); } else { tokens.add(token); } gobble(iter); } return (String[]) tokens.toArray(new String[tokens.size()]); } protected String[] flatten(Options options, String[] arguments, boolean stopAtNonOption) { init(); this.options = options; // an iterator for the command line tokens Iterator iter = Arrays.asList(arguments).iterator(); // process each command line token while (iter.hasNext()) { // get the next command line token String token = (String) iter.next(); // handle long option --foo or --foo=bar if (token.startsWith("--")) { int pos = token.indexOf('='); String opt = pos == -1 ? token : token.substring(0, pos); // --foo if (!options.hasOption(opt) && stopAtNonOption) { process(token); } else { tokens.add(opt); if (pos != -1) { tokens.add(token.substring(pos + 1)); } } } // single hyphen else if ("-".equals(token)) { tokens.add(token); } else if (token.startsWith("-")) { if (token.length() == 2) { processOptionToken(token, stopAtNonOption); } else if (options.hasOption(token)) { tokens.add(token); } // requires bursting else { burstToken(token, stopAtNonOption); } } else if (stopAtNonOption) { process(token); } else { tokens.add(token); } gobble(iter); } return (String[]) tokens.toArray(new String[tokens.size()]); }
src/java/org/apache/commons/cli/PosixParser.java
Cli-23
protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { int lastPos = pos; text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } else if (pos == lastPos) { throw new RuntimeException("Text too long for line - throwing exception to avoid infinite loop [CLI-162]: " + text); } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } } protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } if ( (text.length() > width) && (pos == nextLineTabStop - 1) ) { sb.append(text); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } }
src/java/org/apache/commons/cli/HelpFormatter.java
Cli-24
protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); if (nextLineTabStop >= width) { // stops infinite loop happening throw new IllegalStateException("Total width is less than the width of the argument and indent " + "- no room for the description"); } // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } if ( (text.length() > width) && (pos == nextLineTabStop - 1) ) { pos = width; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } } protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); if (nextLineTabStop >= width) { // stops infinite loop happening nextLineTabStop = width - 1; } // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } if ( (text.length() > width) && (pos == nextLineTabStop - 1) ) { pos = width; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } }
src/java/org/apache/commons/cli/HelpFormatter.java
Cli-25
protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); if (nextLineTabStop >= width) { // stops infinite loop happening nextLineTabStop = width - 1; } // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } if ( (text.length() > width) && (pos == nextLineTabStop - 1) ) { pos = width; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } } protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); if (nextLineTabStop >= width) { // stops infinite loop happening nextLineTabStop = 1; } // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } if ( (text.length() > width) && (pos == nextLineTabStop - 1) ) { pos = width; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } }
src/java/org/apache/commons/cli/HelpFormatter.java
Cli-26
public static Option create(String opt) throws IllegalArgumentException { // create the option Option option = new Option(opt, description); // set the option properties option.setLongOpt(longopt); option.setRequired(required); option.setOptionalArg(optionalArg); option.setArgs(numberOfArgs); option.setType(type); option.setValueSeparator(valuesep); option.setArgName(argName); // reset the OptionBuilder properties OptionBuilder.reset(); // return the Option instance return option; } public static Option create(String opt) throws IllegalArgumentException { Option option = null; try { // create the option option = new Option(opt, description); // set the option properties option.setLongOpt(longopt); option.setRequired(required); option.setOptionalArg(optionalArg); option.setArgs(numberOfArgs); option.setType(type); option.setValueSeparator(valuesep); option.setArgName(argName); } finally { // reset the OptionBuilder properties OptionBuilder.reset(); } // return the Option instance return option; }
src/java/org/apache/commons/cli/OptionBuilder.java
Cli-27
public void setSelected(Option option) throws AlreadySelectedException { if (option == null) { // reset the option previously selected selected = null; return; } // if no option has already been selected or the // same option is being reselected then set the // selected member variable if (selected == null || selected.equals(option.getOpt())) { selected = option.getOpt(); } else { throw new AlreadySelectedException(this, option); } } public void setSelected(Option option) throws AlreadySelectedException { if (option == null) { // reset the option previously selected selected = null; return; } // if no option has already been selected or the // same option is being reselected then set the // selected member variable if (selected == null || selected.equals(option.getKey())) { selected = option.getKey(); } else { throw new AlreadySelectedException(this, option); } }
src/java/org/apache/commons/cli/OptionGroup.java
Cli-28
protected void processProperties(Properties properties) { if (properties == null) { return; } for (Enumeration e = properties.propertyNames(); e.hasMoreElements();) { String option = e.nextElement().toString(); if (!cmd.hasOption(option)) { Option opt = getOptions().getOption(option); // get the value from the properties instance String value = properties.getProperty(option); if (opt.hasArg()) { if (opt.getValues() == null || opt.getValues().length == 0) { try { opt.addValueForProcessing(value); } catch (RuntimeException exp) { // if we cannot add the value don't worry about it } } } else if (!("yes".equalsIgnoreCase(value) || "true".equalsIgnoreCase(value) || "1".equalsIgnoreCase(value))) { // if the value is not yes, true or 1 then don't add the // option to the CommandLine break; } cmd.addOption(opt); } } } protected void processProperties(Properties properties) { if (properties == null) { return; } for (Enumeration e = properties.propertyNames(); e.hasMoreElements();) { String option = e.nextElement().toString(); if (!cmd.hasOption(option)) { Option opt = getOptions().getOption(option); // get the value from the properties instance String value = properties.getProperty(option); if (opt.hasArg()) { if (opt.getValues() == null || opt.getValues().length == 0) { try { opt.addValueForProcessing(value); } catch (RuntimeException exp) { // if we cannot add the value don't worry about it } } } else if (!("yes".equalsIgnoreCase(value) || "true".equalsIgnoreCase(value) || "1".equalsIgnoreCase(value))) { // if the value is not yes, true or 1 then don't add the // option to the CommandLine continue; } cmd.addOption(opt); } } }
src/java/org/apache/commons/cli/Parser.java
Cli-29
static String stripLeadingAndTrailingQuotes(String str) { if (str.startsWith("\"")) { str = str.substring(1, str.length()); } int length = str.length(); if (str.endsWith("\"")) { str = str.substring(0, length - 1); } return str; } static String stripLeadingAndTrailingQuotes(String str) { int length = str.length(); if (length > 1 && str.startsWith("\"") && str.endsWith("\"") && str.substring(1, length - 1).indexOf('"') == -1) { str = str.substring(1, length - 1); } return str; }
src/java/org/apache/commons/cli/Util.java
Cli-32
protected int findWrapPos(String text, int width, int startPos) { int pos; // the line ends before the max wrap pos or a new line char found if (((pos = text.indexOf('\n', startPos)) != -1 && pos <= width) || ((pos = text.indexOf('\t', startPos)) != -1 && pos <= width)) { return pos + 1; } else if (startPos + width >= text.length()) { return -1; } // look for the last whitespace character before startPos+width pos = startPos + width; char c; while ((pos >= startPos) && ((c = text.charAt(pos)) != ' ') && (c != '\n') && (c != '\r')) { --pos; } // if we found it - just return if (pos > startPos) { return pos; } // if we didn't find one, simply chop at startPos+width pos = startPos + width; while ((pos <= text.length()) && ((c = text.charAt(pos)) != ' ') && (c != '\n') && (c != '\r')) { ++pos; } return pos == text.length() ? -1 : pos; } protected int findWrapPos(String text, int width, int startPos) { int pos; // the line ends before the max wrap pos or a new line char found if (((pos = text.indexOf('\n', startPos)) != -1 && pos <= width) || ((pos = text.indexOf('\t', startPos)) != -1 && pos <= width)) { return pos + 1; } else if (startPos + width >= text.length()) { return -1; } // look for the last whitespace character before startPos+width pos = startPos + width; char c; while ((pos >= startPos) && ((c = text.charAt(pos)) != ' ') && (c != '\n') && (c != '\r')) { --pos; } // if we found it - just return if (pos > startPos) { return pos; } // if we didn't find one, simply chop at startPos+width pos = startPos + width; return pos == text.length() ? -1 : pos; }
src/main/java/org/apache/commons/cli/HelpFormatter.java
Cli-35
public List<String> getMatchingOptions(String opt) { opt = Util.stripLeadingHyphens(opt); List<String> matchingOpts = new ArrayList<String>(); // for a perfect match return the single option only for (String longOpt : longOpts.keySet()) { if (longOpt.startsWith(opt)) { matchingOpts.add(longOpt); } } return matchingOpts; } public List<String> getMatchingOptions(String opt) { opt = Util.stripLeadingHyphens(opt); List<String> matchingOpts = new ArrayList<String>(); // for a perfect match return the single option only if(longOpts.keySet().contains(opt)) { return Collections.singletonList(opt); } for (String longOpt : longOpts.keySet()) { if (longOpt.startsWith(opt)) { matchingOpts.add(longOpt); } } return matchingOpts; }
src/main/java/org/apache/commons/cli/Options.java
Cli-37
private boolean isShortOption(String token) { // short options (-S, -SV, -S=V, -SV1=V2, -S1S2) return token.startsWith("-") && token.length() >= 2 && options.hasShortOption(token.substring(1, 2)); // remove leading "-" and "=value" } private boolean isShortOption(String token) { // short options (-S, -SV, -S=V, -SV1=V2, -S1S2) if (!token.startsWith("-") || token.length() == 1) { return false; } // remove leading "-" and "=value" int pos = token.indexOf("="); String optName = pos == -1 ? token.substring(1) : token.substring(1, pos); return options.hasShortOption(optName); }
src/main/java/org/apache/commons/cli/DefaultParser.java
Cli-38
private boolean isShortOption(String token) { // short options (-S, -SV, -S=V, -SV1=V2, -S1S2) if (!token.startsWith("-") || token.length() == 1) { return false; } // remove leading "-" and "=value" int pos = token.indexOf("="); String optName = pos == -1 ? token.substring(1) : token.substring(1, pos); return options.hasShortOption(optName); // check for several concatenated short options } private boolean isShortOption(String token) { // short options (-S, -SV, -S=V, -SV1=V2, -S1S2) if (!token.startsWith("-") || token.length() == 1) { return false; } // remove leading "-" and "=value" int pos = token.indexOf("="); String optName = pos == -1 ? token.substring(1) : token.substring(1, pos); if (options.hasShortOption(optName)) { return true; } // check for several concatenated short options return optName.length() > 0 && options.hasShortOption(String.valueOf(optName.charAt(0))); }
src/main/java/org/apache/commons/cli/DefaultParser.java
Cli-4
private void checkRequiredOptions() throws MissingOptionException { // if there are required options that have not been // processsed if (requiredOptions.size() > 0) { Iterator iter = requiredOptions.iterator(); StringBuffer buff = new StringBuffer(); // loop through the required options while (iter.hasNext()) { buff.append(iter.next()); } throw new MissingOptionException(buff.toString()); } } private void checkRequiredOptions() throws MissingOptionException { // if there are required options that have not been // processsed if (requiredOptions.size() > 0) { Iterator iter = requiredOptions.iterator(); StringBuffer buff = new StringBuffer("Missing required option"); buff.append(requiredOptions.size() == 1 ? "" : "s"); buff.append(": "); // loop through the required options while (iter.hasNext()) { buff.append(iter.next()); } throw new MissingOptionException(buff.toString()); } }
src/java/org/apache/commons/cli/Parser.java
Cli-40
public static <T> T createValue(final String str, final Class<T> clazz) throws ParseException { if (PatternOptionBuilder.STRING_VALUE == clazz) { return (T) str; } else if (PatternOptionBuilder.OBJECT_VALUE == clazz) { return (T) createObject(str); } else if (PatternOptionBuilder.NUMBER_VALUE == clazz) { return (T) createNumber(str); } else if (PatternOptionBuilder.DATE_VALUE == clazz) { return (T) createDate(str); } else if (PatternOptionBuilder.CLASS_VALUE == clazz) { return (T) createClass(str); } else if (PatternOptionBuilder.FILE_VALUE == clazz) { return (T) createFile(str); } else if (PatternOptionBuilder.EXISTING_FILE_VALUE == clazz) { return (T) openFile(str); } else if (PatternOptionBuilder.FILES_VALUE == clazz) { return (T) createFiles(str); } else if (PatternOptionBuilder.URL_VALUE == clazz) { return (T) createURL(str); } else { return null; } } public static <T> T createValue(final String str, final Class<T> clazz) throws ParseException { if (PatternOptionBuilder.STRING_VALUE == clazz) { return (T) str; } else if (PatternOptionBuilder.OBJECT_VALUE == clazz) { return (T) createObject(str); } else if (PatternOptionBuilder.NUMBER_VALUE == clazz) { return (T) createNumber(str); } else if (PatternOptionBuilder.DATE_VALUE == clazz) { return (T) createDate(str); } else if (PatternOptionBuilder.CLASS_VALUE == clazz) { return (T) createClass(str); } else if (PatternOptionBuilder.FILE_VALUE == clazz) { return (T) createFile(str); } else if (PatternOptionBuilder.EXISTING_FILE_VALUE == clazz) { return (T) openFile(str); } else if (PatternOptionBuilder.FILES_VALUE == clazz) { return (T) createFiles(str); } else if (PatternOptionBuilder.URL_VALUE == clazz) { return (T) createURL(str); } else { throw new ParseException("Unable to handle the class: " + clazz); } }
src/main/java/org/apache/commons/cli/TypeHandler.java
Cli-5
static String stripLeadingHyphens(String str) { if (str.startsWith("--")) { return str.substring(2, str.length()); } else if (str.startsWith("-")) { return str.substring(1, str.length()); } return str; } static String stripLeadingHyphens(String str) { if (str == null) { return null; } if (str.startsWith("--")) { return str.substring(2, str.length()); } else if (str.startsWith("-")) { return str.substring(1, str.length()); } return str; }
src/java/org/apache/commons/cli/Util.java
Cli-8
protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, nextLineTabStop); if (pos == -1) { sb.append(text); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } } protected StringBuffer renderWrappedText(StringBuffer sb, int width, int nextLineTabStop, String text) { int pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(rtrim(text)); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); // all following lines must be padded with nextLineTabStop space // characters final String padding = createPadding(nextLineTabStop); while (true) { text = padding + text.substring(pos).trim(); pos = findWrapPos(text, width, 0); if (pos == -1) { sb.append(text); return sb; } sb.append(rtrim(text.substring(0, pos))).append(defaultNewLine); } }
src/java/org/apache/commons/cli/HelpFormatter.java
Cli-9
protected void checkRequiredOptions() throws MissingOptionException { // if there are required options that have not been // processsed if (getRequiredOptions().size() > 0) { Iterator iter = getRequiredOptions().iterator(); StringBuffer buff = new StringBuffer("Missing required option"); buff.append(getRequiredOptions().size() == 1 ? "" : "s"); buff.append(": "); // loop through the required options while (iter.hasNext()) { buff.append(iter.next()); } throw new MissingOptionException(buff.toString()); } } protected void checkRequiredOptions() throws MissingOptionException { // if there are required options that have not been // processsed if (getRequiredOptions().size() > 0) { Iterator iter = getRequiredOptions().iterator(); StringBuffer buff = new StringBuffer("Missing required option"); buff.append(getRequiredOptions().size() == 1 ? "" : "s"); buff.append(": "); // loop through the required options while (iter.hasNext()) { buff.append(iter.next()); buff.append(", "); } throw new MissingOptionException(buff.substring(0, buff.length() - 2)); } }
src/java/org/apache/commons/cli/Parser.java
Closure-1
private void removeUnreferencedFunctionArgs(Scope fnScope) { // Notice that removing unreferenced function args breaks // Function.prototype.length. In advanced mode, we don't really care // about this: we consider "length" the equivalent of reflecting on // the function's lexical source. // // Rather than create a new option for this, we assume that if the user // is removing globals, then it's OK to remove unused function args. // // See http://code.google.com/p/closure-compiler/issues/detail?id=253 Node function = fnScope.getRootNode(); Preconditions.checkState(function.isFunction()); if (NodeUtil.isGetOrSetKey(function.getParent())) { // The parameters object literal setters can not be removed. return; } Node argList = getFunctionArgList(function); boolean modifyCallers = modifyCallSites && callSiteOptimizer.canModifyCallers(function); if (!modifyCallers) { // Strip unreferenced args off the end of the function declaration. Node lastArg; while ((lastArg = argList.getLastChild()) != null) { Var var = fnScope.getVar(lastArg.getString()); if (!referenced.contains(var)) { argList.removeChild(lastArg); compiler.reportCodeChange(); } else { break; } } } else { callSiteOptimizer.optimize(fnScope, referenced); } } private void removeUnreferencedFunctionArgs(Scope fnScope) { // Notice that removing unreferenced function args breaks // Function.prototype.length. In advanced mode, we don't really care // about this: we consider "length" the equivalent of reflecting on // the function's lexical source. // // Rather than create a new option for this, we assume that if the user // is removing globals, then it's OK to remove unused function args. // // See http://code.google.com/p/closure-compiler/issues/detail?id=253 if (!removeGlobals) { return; } Node function = fnScope.getRootNode(); Preconditions.checkState(function.isFunction()); if (NodeUtil.isGetOrSetKey(function.getParent())) { // The parameters object literal setters can not be removed. return; } Node argList = getFunctionArgList(function); boolean modifyCallers = modifyCallSites && callSiteOptimizer.canModifyCallers(function); if (!modifyCallers) { // Strip unreferenced args off the end of the function declaration. Node lastArg; while ((lastArg = argList.getLastChild()) != null) { Var var = fnScope.getVar(lastArg.getString()); if (!referenced.contains(var)) { argList.removeChild(lastArg); compiler.reportCodeChange(); } else { break; } } } else { callSiteOptimizer.optimize(fnScope, referenced); } }
src/com/google/javascript/jscomp/RemoveUnusedVars.java
Closure-10
static boolean mayBeString(Node n, boolean recurse) { if (recurse) { return allResultsMatch(n, MAY_BE_STRING_PREDICATE); } else { return mayBeStringHelper(n); } } static boolean mayBeString(Node n, boolean recurse) { if (recurse) { return anyResultsMatch(n, MAY_BE_STRING_PREDICATE); } else { return mayBeStringHelper(n); } }
src/com/google/javascript/jscomp/NodeUtil.java
Closure-101
protected CompilerOptions createOptions() { CompilerOptions options = new CompilerOptions(); options.setCodingConvention(new ClosureCodingConvention()); CompilationLevel level = flags.compilation_level; level.setOptionsForCompilationLevel(options); if (flags.debug) { level.setDebugOptionsForCompilationLevel(options); } WarningLevel wLevel = flags.warning_level; wLevel.setOptionsForWarningLevel(options); for (FormattingOption formattingOption : flags.formatting) { formattingOption.applyToOptions(options); } if (flags.process_closure_primitives) { options.closurePass = true; } initOptionsFromFlags(options); return options; } protected CompilerOptions createOptions() { CompilerOptions options = new CompilerOptions(); options.setCodingConvention(new ClosureCodingConvention()); CompilationLevel level = flags.compilation_level; level.setOptionsForCompilationLevel(options); if (flags.debug) { level.setDebugOptionsForCompilationLevel(options); } WarningLevel wLevel = flags.warning_level; wLevel.setOptionsForWarningLevel(options); for (FormattingOption formattingOption : flags.formatting) { formattingOption.applyToOptions(options); } options.closurePass = flags.process_closure_primitives; initOptionsFromFlags(options); return options; }
src/com/google/javascript/jscomp/CommandLineRunner.java
Closure-102
public void process(Node externs, Node root) { NodeTraversal.traverse(compiler, root, this); if (MAKE_LOCAL_NAMES_UNIQUE) { MakeDeclaredNamesUnique renamer = new MakeDeclaredNamesUnique(); NodeTraversal t = new NodeTraversal(compiler, renamer); t.traverseRoots(externs, root); } removeDuplicateDeclarations(root); new PropogateConstantAnnotations(compiler, assertOnChange) .process(externs, root); } public void process(Node externs, Node root) { NodeTraversal.traverse(compiler, root, this); removeDuplicateDeclarations(root); if (MAKE_LOCAL_NAMES_UNIQUE) { MakeDeclaredNamesUnique renamer = new MakeDeclaredNamesUnique(); NodeTraversal t = new NodeTraversal(compiler, renamer); t.traverseRoots(externs, root); } new PropogateConstantAnnotations(compiler, assertOnChange) .process(externs, root); }
src/com/google/javascript/jscomp/Normalize.java
Closure-104
JSType meet(JSType that) { UnionTypeBuilder builder = new UnionTypeBuilder(registry); for (JSType alternate : alternates) { if (alternate.isSubtype(that)) { builder.addAlternate(alternate); } } if (that instanceof UnionType) { for (JSType otherAlternate : ((UnionType) that).alternates) { if (otherAlternate.isSubtype(this)) { builder.addAlternate(otherAlternate); } } } else if (that.isSubtype(this)) { builder.addAlternate(that); } JSType result = builder.build(); if (result != null) { return result; } else if (this.isObject() && that.isObject()) { return getNativeType(JSTypeNative.NO_OBJECT_TYPE); } else { return getNativeType(JSTypeNative.NO_TYPE); } } JSType meet(JSType that) { UnionTypeBuilder builder = new UnionTypeBuilder(registry); for (JSType alternate : alternates) { if (alternate.isSubtype(that)) { builder.addAlternate(alternate); } } if (that instanceof UnionType) { for (JSType otherAlternate : ((UnionType) that).alternates) { if (otherAlternate.isSubtype(this)) { builder.addAlternate(otherAlternate); } } } else if (that.isSubtype(this)) { builder.addAlternate(that); } JSType result = builder.build(); if (!result.isNoType()) { return result; } else if (this.isObject() && that.isObject()) { return getNativeType(JSTypeNative.NO_OBJECT_TYPE); } else { return getNativeType(JSTypeNative.NO_TYPE); } }
src/com/google/javascript/rhino/jstype/UnionType.java
Closure-105
void tryFoldStringJoin(NodeTraversal t, Node n, Node left, Node right, Node parent) { if (!NodeUtil.isGetProp(left) || !NodeUtil.isImmutableValue(right)) { return; } Node arrayNode = left.getFirstChild(); Node functionName = arrayNode.getNext(); if ((arrayNode.getType() != Token.ARRAYLIT) || !functionName.getString().equals("join")) { return; } String joinString = NodeUtil.getStringValue(right); List<Node> arrayFoldedChildren = Lists.newLinkedList(); StringBuilder sb = new StringBuilder(); int foldedSize = 0; Node elem = arrayNode.getFirstChild(); // Merges adjacent String nodes. while (elem != null) { if (NodeUtil.isImmutableValue(elem)) { if (sb.length() > 0) { sb.append(joinString); } sb.append(NodeUtil.getStringValue(elem)); } else { if (sb.length() > 0) { // + 2 for the quotes. foldedSize += sb.length() + 2; arrayFoldedChildren.add(Node.newString(sb.toString())); sb = new StringBuilder(); } foldedSize += InlineCostEstimator.getCost(elem); arrayFoldedChildren.add(elem); } elem = elem.getNext(); } if (sb.length() > 0) { // + 2 for the quotes. foldedSize += sb.length() + 2; arrayFoldedChildren.add(Node.newString(sb.toString())); } // one for each comma. foldedSize += arrayFoldedChildren.size() - 1; int originalSize = InlineCostEstimator.getCost(n); switch (arrayFoldedChildren.size()) { case 0: Node emptyStringNode = Node.newString(""); parent.replaceChild(n, emptyStringNode); break; case 1: Node foldedStringNode = arrayFoldedChildren.remove(0); if (foldedSize > originalSize) { return; } arrayNode.detachChildren(); if (foldedStringNode.getType() != Token.STRING) { // If the Node is not a string literal, ensure that // it is coerced to a string. Node replacement = new Node(Token.ADD, Node.newString(""), foldedStringNode); foldedStringNode = replacement; } parent.replaceChild(n, foldedStringNode); break; default: // No folding could actually be performed. if (arrayFoldedChildren.size() == arrayNode.getChildCount()) { return; } int kJoinOverhead = "[].join()".length(); foldedSize += kJoinOverhead; foldedSize += InlineCostEstimator.getCost(right); if (foldedSize > originalSize) { return; } arrayNode.detachChildren(); for (Node node : arrayFoldedChildren) { arrayNode.addChildToBack(node); } break; } t.getCompiler().reportCodeChange(); } void tryFoldStringJoin(NodeTraversal t, Node n, Node left, Node right, Node parent) { if (!NodeUtil.isGetProp(left) || !NodeUtil.isImmutableValue(right)) { return; } Node arrayNode = left.getFirstChild(); Node functionName = arrayNode.getNext(); if ((arrayNode.getType() != Token.ARRAYLIT) || !functionName.getString().equals("join")) { return; } String joinString = NodeUtil.getStringValue(right); List<Node> arrayFoldedChildren = Lists.newLinkedList(); StringBuilder sb = null; int foldedSize = 0; Node elem = arrayNode.getFirstChild(); // Merges adjacent String nodes. while (elem != null) { if (NodeUtil.isImmutableValue(elem)) { if (sb == null) { sb = new StringBuilder(); } else { sb.append(joinString); } sb.append(NodeUtil.getStringValue(elem)); } else { if (sb != null) { // + 2 for the quotes. foldedSize += sb.length() + 2; arrayFoldedChildren.add(Node.newString(sb.toString())); sb = null; } foldedSize += InlineCostEstimator.getCost(elem); arrayFoldedChildren.add(elem); } elem = elem.getNext(); } if (sb != null) { // + 2 for the quotes. foldedSize += sb.length() + 2; arrayFoldedChildren.add(Node.newString(sb.toString())); } // one for each comma. foldedSize += arrayFoldedChildren.size() - 1; int originalSize = InlineCostEstimator.getCost(n); switch (arrayFoldedChildren.size()) { case 0: Node emptyStringNode = Node.newString(""); parent.replaceChild(n, emptyStringNode); break; case 1: Node foldedStringNode = arrayFoldedChildren.remove(0); if (foldedSize > originalSize) { return; } arrayNode.detachChildren(); if (foldedStringNode.getType() != Token.STRING) { // If the Node is not a string literal, ensure that // it is coerced to a string. Node replacement = new Node(Token.ADD, Node.newString(""), foldedStringNode); foldedStringNode = replacement; } parent.replaceChild(n, foldedStringNode); break; default: // No folding could actually be performed. if (arrayFoldedChildren.size() == arrayNode.getChildCount()) { return; } int kJoinOverhead = "[].join()".length(); foldedSize += kJoinOverhead; foldedSize += InlineCostEstimator.getCost(right); if (foldedSize > originalSize) { return; } arrayNode.detachChildren(); for (Node node : arrayFoldedChildren) { arrayNode.addChildToBack(node); } break; } t.getCompiler().reportCodeChange(); }
src/com/google/javascript/jscomp/FoldConstants.java
Closure-107
protected CompilerOptions createOptions() { CompilerOptions options = new CompilerOptions(); if (flags.processJqueryPrimitives) { options.setCodingConvention(new JqueryCodingConvention()); } else { options.setCodingConvention(new ClosureCodingConvention()); } options.setExtraAnnotationNames(flags.extraAnnotationName); CompilationLevel level = flags.compilationLevel; level.setOptionsForCompilationLevel(options); if (flags.debug) { level.setDebugOptionsForCompilationLevel(options); } if (flags.useTypesForOptimization) { level.setTypeBasedOptimizationOptions(options); } if (flags.generateExports) { options.setGenerateExports(flags.generateExports); } WarningLevel wLevel = flags.warningLevel; wLevel.setOptionsForWarningLevel(options); for (FormattingOption formattingOption : flags.formatting) { formattingOption.applyToOptions(options); } options.closurePass = flags.processClosurePrimitives; options.jqueryPass = CompilationLevel.ADVANCED_OPTIMIZATIONS == level && flags.processJqueryPrimitives; options.angularPass = flags.angularPass; if (!flags.translationsFile.isEmpty()) { try { options.messageBundle = new XtbMessageBundle( new FileInputStream(flags.translationsFile), flags.translationsProject); } catch (IOException e) { throw new RuntimeException("Reading XTB file", e); } } else if (CompilationLevel.ADVANCED_OPTIMIZATIONS == level) { // In SIMPLE or WHITESPACE mode, if the user hasn't specified a // translations file, they might reasonably try to write their own // implementation of goog.getMsg that makes the substitution at // run-time. // // In ADVANCED mode, goog.getMsg is going to be renamed anyway, // so we might as well inline it. But shut off the i18n warnings, // because the user didn't really ask for i18n. options.messageBundle = new EmptyMessageBundle(); } return options; } protected CompilerOptions createOptions() { CompilerOptions options = new CompilerOptions(); if (flags.processJqueryPrimitives) { options.setCodingConvention(new JqueryCodingConvention()); } else { options.setCodingConvention(new ClosureCodingConvention()); } options.setExtraAnnotationNames(flags.extraAnnotationName); CompilationLevel level = flags.compilationLevel; level.setOptionsForCompilationLevel(options); if (flags.debug) { level.setDebugOptionsForCompilationLevel(options); } if (flags.useTypesForOptimization) { level.setTypeBasedOptimizationOptions(options); } if (flags.generateExports) { options.setGenerateExports(flags.generateExports); } WarningLevel wLevel = flags.warningLevel; wLevel.setOptionsForWarningLevel(options); for (FormattingOption formattingOption : flags.formatting) { formattingOption.applyToOptions(options); } options.closurePass = flags.processClosurePrimitives; options.jqueryPass = CompilationLevel.ADVANCED_OPTIMIZATIONS == level && flags.processJqueryPrimitives; options.angularPass = flags.angularPass; if (!flags.translationsFile.isEmpty()) { try { options.messageBundle = new XtbMessageBundle( new FileInputStream(flags.translationsFile), flags.translationsProject); } catch (IOException e) { throw new RuntimeException("Reading XTB file", e); } } else if (CompilationLevel.ADVANCED_OPTIMIZATIONS == level) { // In SIMPLE or WHITESPACE mode, if the user hasn't specified a // translations file, they might reasonably try to write their own // implementation of goog.getMsg that makes the substitution at // run-time. // // In ADVANCED mode, goog.getMsg is going to be renamed anyway, // so we might as well inline it. But shut off the i18n warnings, // because the user didn't really ask for i18n. options.messageBundle = new EmptyMessageBundle(); options.setWarningLevel(JsMessageVisitor.MSG_CONVENTIONS, CheckLevel.OFF); } return options; }
src/com/google/javascript/jscomp/CommandLineRunner.java
Closure-109
private Node parseContextTypeExpression(JsDocToken token) { return parseTypeName(token); } private Node parseContextTypeExpression(JsDocToken token) { if (token == JsDocToken.QMARK) { return newNode(Token.QMARK); } else { return parseBasicTypeExpression(token); } }
src/com/google/javascript/jscomp/parsing/JsDocInfoParser.java
Closure-11
private void visitGetProp(NodeTraversal t, Node n, Node parent) { // obj.prop or obj.method() // Lots of types can appear on the left, a call to a void function can // never be on the left. getPropertyType will decide what is acceptable // and what isn't. Node property = n.getLastChild(); Node objNode = n.getFirstChild(); JSType childType = getJSType(objNode); if (childType.isDict()) { report(t, property, TypeValidator.ILLEGAL_PROPERTY_ACCESS, "'.'", "dict"); } else if (n.getJSType() != null && parent.isAssign()) { return; } else if (validator.expectNotNullOrUndefined(t, n, childType, "No properties on this expression", getNativeType(OBJECT_TYPE))) { checkPropertyAccess(childType, property.getString(), t, n); } ensureTyped(t, n); } private void visitGetProp(NodeTraversal t, Node n, Node parent) { // obj.prop or obj.method() // Lots of types can appear on the left, a call to a void function can // never be on the left. getPropertyType will decide what is acceptable // and what isn't. Node property = n.getLastChild(); Node objNode = n.getFirstChild(); JSType childType = getJSType(objNode); if (childType.isDict()) { report(t, property, TypeValidator.ILLEGAL_PROPERTY_ACCESS, "'.'", "dict"); } else if (validator.expectNotNullOrUndefined(t, n, childType, "No properties on this expression", getNativeType(OBJECT_TYPE))) { checkPropertyAccess(childType, property.getString(), t, n); } ensureTyped(t, n); }
src/com/google/javascript/jscomp/TypeCheck.java
Closure-111
protected JSType caseTopType(JSType topType) { return topType; } protected JSType caseTopType(JSType topType) { return topType.isAllType() ? getNativeType(ARRAY_TYPE) : topType; }
src/com/google/javascript/jscomp/type/ClosureReverseAbstractInterpreter.java
Closure-112
private boolean inferTemplatedTypesForCall( Node n, FunctionType fnType) { final ImmutableList<TemplateType> keys = fnType.getTemplateTypeMap() .getTemplateKeys(); if (keys.isEmpty()) { return false; } // Try to infer the template types Map<TemplateType, JSType> inferred = inferTemplateTypesFromParameters(fnType, n); // Replace all template types. If we couldn't find a replacement, we // replace it with UNKNOWN. TemplateTypeReplacer replacer = new TemplateTypeReplacer( registry, inferred); Node callTarget = n.getFirstChild(); FunctionType replacementFnType = fnType.visit(replacer) .toMaybeFunctionType(); Preconditions.checkNotNull(replacementFnType); callTarget.setJSType(replacementFnType); n.setJSType(replacementFnType.getReturnType()); return replacer.madeChanges; } private boolean inferTemplatedTypesForCall( Node n, FunctionType fnType) { final ImmutableList<TemplateType> keys = fnType.getTemplateTypeMap() .getTemplateKeys(); if (keys.isEmpty()) { return false; } // Try to infer the template types Map<TemplateType, JSType> inferred = Maps.filterKeys( inferTemplateTypesFromParameters(fnType, n), new Predicate<TemplateType>() { @Override public boolean apply(TemplateType key) { return keys.contains(key); }} ); // Replace all template types. If we couldn't find a replacement, we // replace it with UNKNOWN. TemplateTypeReplacer replacer = new TemplateTypeReplacer( registry, inferred); Node callTarget = n.getFirstChild(); FunctionType replacementFnType = fnType.visit(replacer) .toMaybeFunctionType(); Preconditions.checkNotNull(replacementFnType); callTarget.setJSType(replacementFnType); n.setJSType(replacementFnType.getReturnType()); return replacer.madeChanges; }
src/com/google/javascript/jscomp/TypeInference.java
Closure-113
private void processRequireCall(NodeTraversal t, Node n, Node parent) { Node left = n.getFirstChild(); Node arg = left.getNext(); if (verifyLastArgumentIsString(t, left, arg)) { String ns = arg.getString(); ProvidedName provided = providedNames.get(ns); if (provided == null || !provided.isExplicitlyProvided()) { unrecognizedRequires.add( new UnrecognizedRequire(n, ns, t.getSourceName())); } else { JSModule providedModule = provided.explicitModule; // This must be non-null, because there was an explicit provide. Preconditions.checkNotNull(providedModule); JSModule module = t.getModule(); if (moduleGraph != null && module != providedModule && !moduleGraph.dependsOn(module, providedModule)) { compiler.report( t.makeError(n, XMODULE_REQUIRE_ERROR, ns, providedModule.getName(), module.getName())); } } maybeAddToSymbolTable(left); maybeAddStringNodeToSymbolTable(arg); // Requires should be removed before further processing. // Some clients run closure pass multiple times, first with // the checks for broken requires turned off. In these cases, we // allow broken requires to be preserved by the first run to // let them be caught in the subsequent run. if (provided != null) { parent.detachFromParent(); compiler.reportCodeChange(); } } } private void processRequireCall(NodeTraversal t, Node n, Node parent) { Node left = n.getFirstChild(); Node arg = left.getNext(); if (verifyLastArgumentIsString(t, left, arg)) { String ns = arg.getString(); ProvidedName provided = providedNames.get(ns); if (provided == null || !provided.isExplicitlyProvided()) { unrecognizedRequires.add( new UnrecognizedRequire(n, ns, t.getSourceName())); } else { JSModule providedModule = provided.explicitModule; // This must be non-null, because there was an explicit provide. Preconditions.checkNotNull(providedModule); JSModule module = t.getModule(); if (moduleGraph != null && module != providedModule && !moduleGraph.dependsOn(module, providedModule)) { compiler.report( t.makeError(n, XMODULE_REQUIRE_ERROR, ns, providedModule.getName(), module.getName())); } } maybeAddToSymbolTable(left); maybeAddStringNodeToSymbolTable(arg); // Requires should be removed before further processing. // Some clients run closure pass multiple times, first with // the checks for broken requires turned off. In these cases, we // allow broken requires to be preserved by the first run to // let them be caught in the subsequent run. if (provided != null || requiresLevel.isOn()) { parent.detachFromParent(); compiler.reportCodeChange(); } } }
src/com/google/javascript/jscomp/ProcessClosurePrimitives.java
Closure-114
private void recordAssignment(NodeTraversal t, Node n, Node recordNode) { Node nameNode = n.getFirstChild(); Node parent = n.getParent(); NameInformation ns = createNameInformation(t, nameNode); if (ns != null) { if (parent.isFor() && !NodeUtil.isForIn(parent)) { // Patch for assignments that appear in the init, // condition or iteration part of a FOR loop. Without // this change, all 3 of those parts try to claim the for // loop as their dependency scope. The last assignment in // those three fields wins, which can result in incorrect // reference edges between referenced and assigned variables. // // TODO(user) revisit the dependency scope calculation // logic. if (parent.getFirstChild().getNext() != n) { recordDepScope(recordNode, ns); } else { recordDepScope(nameNode, ns); } } else { // The rhs of the assignment is the caller, so it's used by the // context. Don't associate it w/ the lhs. // FYI: this fixes only the specific case where the assignment is the // caller expression, but it could be nested deeper in the caller and // we would still get a bug. // See testAssignWithCall2 for an example of this. recordDepScope(recordNode, ns); } } } private void recordAssignment(NodeTraversal t, Node n, Node recordNode) { Node nameNode = n.getFirstChild(); Node parent = n.getParent(); NameInformation ns = createNameInformation(t, nameNode); if (ns != null) { if (parent.isFor() && !NodeUtil.isForIn(parent)) { // Patch for assignments that appear in the init, // condition or iteration part of a FOR loop. Without // this change, all 3 of those parts try to claim the for // loop as their dependency scope. The last assignment in // those three fields wins, which can result in incorrect // reference edges between referenced and assigned variables. // // TODO(user) revisit the dependency scope calculation // logic. if (parent.getFirstChild().getNext() != n) { recordDepScope(recordNode, ns); } else { recordDepScope(nameNode, ns); } } else if (!(parent.isCall() && parent.getFirstChild() == n)) { // The rhs of the assignment is the caller, so it's used by the // context. Don't associate it w/ the lhs. // FYI: this fixes only the specific case where the assignment is the // caller expression, but it could be nested deeper in the caller and // we would still get a bug. // See testAssignWithCall2 for an example of this. recordDepScope(recordNode, ns); } } }
src/com/google/javascript/jscomp/NameAnalyzer.java
Closure-115
private CanInlineResult canInlineReferenceDirectly( Node callNode, Node fnNode) { if (!isDirectCallNodeReplacementPossible(fnNode)) { return CanInlineResult.NO; } Node block = fnNode.getLastChild(); boolean hasSideEffects = false; if (block.hasChildren()) { Preconditions.checkState(block.hasOneChild()); Node stmt = block.getFirstChild(); if (stmt.isReturn()) { hasSideEffects = NodeUtil.mayHaveSideEffects(stmt.getFirstChild(), compiler); } } // CALL NODE: [ NAME, ARG1, ARG2, ... ] Node cArg = callNode.getFirstChild().getNext(); // Functions called via 'call' and 'apply' have a this-object as // the first parameter, but this is not part of the called function's // parameter list. if (!callNode.getFirstChild().isName()) { if (NodeUtil.isFunctionObjectCall(callNode)) { // TODO(johnlenz): Support replace this with a value. if (cArg == null || !cArg.isThis()) { return CanInlineResult.NO; } cArg = cArg.getNext(); } else { // ".apply" call should be filtered before this. Preconditions.checkState(!NodeUtil.isFunctionObjectApply(callNode)); } } // FUNCTION NODE -> LP NODE: [ ARG1, ARG2, ... ] Node fnParam = NodeUtil.getFunctionParameters(fnNode).getFirstChild(); while (cArg != null || fnParam != null) { // For each named parameter check if a mutable argument use more than one. if (fnParam != null) { if (cArg != null) { if (hasSideEffects && NodeUtil.canBeSideEffected(cArg)) { return CanInlineResult.NO; } // Check for arguments that are evaluated more than once. // Note: Unlike block inlining, there it is not possible that a // parameter reference will be in a loop. if (NodeUtil.mayEffectMutableState(cArg, compiler) && NodeUtil.getNameReferenceCount( block, fnParam.getString()) > 1) { return CanInlineResult.NO; } } // Move to the next name. fnParam = fnParam.getNext(); } // For every call argument check for side-effects, even if there // isn't a named parameter to match. if (cArg != null) { if (NodeUtil.mayHaveSideEffects(cArg, compiler)) { return CanInlineResult.NO; } cArg = cArg.getNext(); } } return CanInlineResult.YES; } private CanInlineResult canInlineReferenceDirectly( Node callNode, Node fnNode) { if (!isDirectCallNodeReplacementPossible(fnNode)) { return CanInlineResult.NO; } Node block = fnNode.getLastChild(); // CALL NODE: [ NAME, ARG1, ARG2, ... ] Node cArg = callNode.getFirstChild().getNext(); // Functions called via 'call' and 'apply' have a this-object as // the first parameter, but this is not part of the called function's // parameter list. if (!callNode.getFirstChild().isName()) { if (NodeUtil.isFunctionObjectCall(callNode)) { // TODO(johnlenz): Support replace this with a value. if (cArg == null || !cArg.isThis()) { return CanInlineResult.NO; } cArg = cArg.getNext(); } else { // ".apply" call should be filtered before this. Preconditions.checkState(!NodeUtil.isFunctionObjectApply(callNode)); } } // FUNCTION NODE -> LP NODE: [ ARG1, ARG2, ... ] Node fnParam = NodeUtil.getFunctionParameters(fnNode).getFirstChild(); while (cArg != null || fnParam != null) { // For each named parameter check if a mutable argument use more than one. if (fnParam != null) { if (cArg != null) { // Check for arguments that are evaluated more than once. // Note: Unlike block inlining, there it is not possible that a // parameter reference will be in a loop. if (NodeUtil.mayEffectMutableState(cArg, compiler) && NodeUtil.getNameReferenceCount( block, fnParam.getString()) > 1) { return CanInlineResult.NO; } } // Move to the next name. fnParam = fnParam.getNext(); } // For every call argument check for side-effects, even if there // isn't a named parameter to match. if (cArg != null) { if (NodeUtil.mayHaveSideEffects(cArg, compiler)) { return CanInlineResult.NO; } cArg = cArg.getNext(); } } return CanInlineResult.YES; }
src/com/google/javascript/jscomp/FunctionInjector.java
Closure-116
private CanInlineResult canInlineReferenceDirectly( Node callNode, Node fnNode) { if (!isDirectCallNodeReplacementPossible(fnNode)) { return CanInlineResult.NO; } Node block = fnNode.getLastChild(); // CALL NODE: [ NAME, ARG1, ARG2, ... ] Node cArg = callNode.getFirstChild().getNext(); // Functions called via 'call' and 'apply' have a this-object as // the first parameter, but this is not part of the called function's // parameter list. if (!callNode.getFirstChild().isName()) { if (NodeUtil.isFunctionObjectCall(callNode)) { // TODO(johnlenz): Support replace this with a value. if (cArg == null || !cArg.isThis()) { return CanInlineResult.NO; } cArg = cArg.getNext(); } else { // ".apply" call should be filtered before this. Preconditions.checkState(!NodeUtil.isFunctionObjectApply(callNode)); } } // FUNCTION NODE -> LP NODE: [ ARG1, ARG2, ... ] Node fnParam = NodeUtil.getFunctionParameters(fnNode).getFirstChild(); while (cArg != null || fnParam != null) { // For each named parameter check if a mutable argument use more than one. if (fnParam != null) { if (cArg != null) { // Check for arguments that are evaluated more than once. // Note: Unlike block inlining, there it is not possible that a // parameter reference will be in a loop. if (NodeUtil.mayEffectMutableState(cArg, compiler) && NodeUtil.getNameReferenceCount( block, fnParam.getString()) > 1) { return CanInlineResult.NO; } } // Move to the next name. fnParam = fnParam.getNext(); } // For every call argument check for side-effects, even if there // isn't a named parameter to match. if (cArg != null) { if (NodeUtil.mayHaveSideEffects(cArg, compiler)) { return CanInlineResult.NO; } cArg = cArg.getNext(); } } return CanInlineResult.YES; } private CanInlineResult canInlineReferenceDirectly( Node callNode, Node fnNode) { if (!isDirectCallNodeReplacementPossible(fnNode)) { return CanInlineResult.NO; } Node block = fnNode.getLastChild(); boolean hasSideEffects = false; // empty function case if (block.hasChildren()) { Preconditions.checkState(block.hasOneChild()); Node stmt = block.getFirstChild(); if (stmt.isReturn()) { hasSideEffects = NodeUtil.mayHaveSideEffects( stmt.getFirstChild(), compiler); } } // CALL NODE: [ NAME, ARG1, ARG2, ... ] Node cArg = callNode.getFirstChild().getNext(); // Functions called via 'call' and 'apply' have a this-object as // the first parameter, but this is not part of the called function's // parameter list. if (!callNode.getFirstChild().isName()) { if (NodeUtil.isFunctionObjectCall(callNode)) { // TODO(johnlenz): Support replace this with a value. if (cArg == null || !cArg.isThis()) { return CanInlineResult.NO; } cArg = cArg.getNext(); } else { // ".apply" call should be filtered before this. Preconditions.checkState(!NodeUtil.isFunctionObjectApply(callNode)); } } // FUNCTION NODE -> LP NODE: [ ARG1, ARG2, ... ] Node fnParam = NodeUtil.getFunctionParameters(fnNode).getFirstChild(); while (cArg != null || fnParam != null) { // For each named parameter check if a mutable argument use more than one. if (fnParam != null) { if (cArg != null) { if (hasSideEffects && NodeUtil.canBeSideEffected(cArg)) { return CanInlineResult.NO; } // Check for arguments that are evaluated more than once. // Note: Unlike block inlining, there it is not possible that a // parameter reference will be in a loop. if (NodeUtil.mayEffectMutableState(cArg, compiler) && NodeUtil.getNameReferenceCount( block, fnParam.getString()) > 1) { return CanInlineResult.NO; } } // Move to the next name. fnParam = fnParam.getNext(); } // For every call argument check for side-effects, even if there // isn't a named parameter to match. if (cArg != null) { if (NodeUtil.mayHaveSideEffects(cArg, compiler)) { return CanInlineResult.NO; } cArg = cArg.getNext(); } } return CanInlineResult.YES; }
src/com/google/javascript/jscomp/FunctionInjector.java
Closure-117
String getReadableJSTypeName(Node n, boolean dereference) { // The best type name is the actual type name. // If we're analyzing a GETPROP, the property may be inherited by the // prototype chain. So climb the prototype chain and find out where // the property was originally defined. if (n.isGetProp()) { ObjectType objectType = getJSType(n.getFirstChild()).dereference(); if (objectType != null) { String propName = n.getLastChild().getString(); if (objectType.getConstructor() != null && objectType.getConstructor().isInterface()) { objectType = FunctionType.getTopDefiningInterface( objectType, propName); } else { // classes while (objectType != null && !objectType.hasOwnProperty(propName)) { objectType = objectType.getImplicitPrototype(); } } // Don't show complex function names or anonymous types. // Instead, try to get a human-readable type name. if (objectType != null && (objectType.getConstructor() != null || objectType.isFunctionPrototypeType())) { return objectType.toString() + "." + propName; } } } JSType type = getJSType(n); if (dereference) { ObjectType dereferenced = type.dereference(); if (dereferenced != null) { type = dereferenced; } } if (type.isFunctionPrototypeType() || (type.toObjectType() != null && type.toObjectType().getConstructor() != null)) { return type.toString(); } String qualifiedName = n.getQualifiedName(); if (qualifiedName != null) { return qualifiedName; } else if (type.isFunctionType()) { // Don't show complex function names. return "function"; } else { return type.toString(); } } String getReadableJSTypeName(Node n, boolean dereference) { JSType type = getJSType(n); if (dereference) { ObjectType dereferenced = type.dereference(); if (dereferenced != null) { type = dereferenced; } } // The best type name is the actual type name. if (type.isFunctionPrototypeType() || (type.toObjectType() != null && type.toObjectType().getConstructor() != null)) { return type.toString(); } // If we're analyzing a GETPROP, the property may be inherited by the // prototype chain. So climb the prototype chain and find out where // the property was originally defined. if (n.isGetProp()) { ObjectType objectType = getJSType(n.getFirstChild()).dereference(); if (objectType != null) { String propName = n.getLastChild().getString(); if (objectType.getConstructor() != null && objectType.getConstructor().isInterface()) { objectType = FunctionType.getTopDefiningInterface( objectType, propName); } else { // classes while (objectType != null && !objectType.hasOwnProperty(propName)) { objectType = objectType.getImplicitPrototype(); } } // Don't show complex function names or anonymous types. // Instead, try to get a human-readable type name. if (objectType != null && (objectType.getConstructor() != null || objectType.isFunctionPrototypeType())) { return objectType.toString() + "." + propName; } } } String qualifiedName = n.getQualifiedName(); if (qualifiedName != null) { return qualifiedName; } else if (type.isFunctionType()) { // Don't show complex function names. return "function"; } else { return type.toString(); } }
src/com/google/javascript/jscomp/TypeValidator.java
Closure-118
private void handleObjectLit(NodeTraversal t, Node n) { for (Node child = n.getFirstChild(); child != null; child = child.getNext()) { // Maybe STRING, GET, SET // We should never see a mix of numbers and strings. String name = child.getString(); T type = typeSystem.getType(getScope(), n, name); Property prop = getProperty(name); if (!prop.scheduleRenaming(child, processProperty(t, prop, type, null))) { // TODO(user): It doesn't look like the user can do much in this // case right now. if (propertiesToErrorFor.containsKey(name)) { compiler.report(JSError.make( t.getSourceName(), child, propertiesToErrorFor.get(name), Warnings.INVALIDATION, name, (type == null ? "null" : type.toString()), n.toString(), "")); } } } } private void handleObjectLit(NodeTraversal t, Node n) { for (Node child = n.getFirstChild(); child != null; child = child.getNext()) { // Maybe STRING, GET, SET if (child.isQuotedString()) { continue; } // We should never see a mix of numbers and strings. String name = child.getString(); T type = typeSystem.getType(getScope(), n, name); Property prop = getProperty(name); if (!prop.scheduleRenaming(child, processProperty(t, prop, type, null))) { // TODO(user): It doesn't look like the user can do much in this // case right now. if (propertiesToErrorFor.containsKey(name)) { compiler.report(JSError.make( t.getSourceName(), child, propertiesToErrorFor.get(name), Warnings.INVALIDATION, name, (type == null ? "null" : type.toString()), n.toString(), "")); } } } }
src/com/google/javascript/jscomp/DisambiguateProperties.java
Closure-119
public void collect(JSModule module, Scope scope, Node n) { Node parent = n.getParent(); String name; boolean isSet = false; Name.Type type = Name.Type.OTHER; boolean isPropAssign = false; switch (n.getType()) { case Token.GETTER_DEF: case Token.SETTER_DEF: case Token.STRING_KEY: // This may be a key in an object literal declaration. name = null; if (parent != null && parent.isObjectLit()) { name = getNameForObjLitKey(n); } if (name == null) { return; } isSet = true; switch (n.getType()) { case Token.STRING_KEY: type = getValueType(n.getFirstChild()); break; case Token.GETTER_DEF: type = Name.Type.GET; break; case Token.SETTER_DEF: type = Name.Type.SET; break; default: throw new IllegalStateException("unexpected:" + n); } break; case Token.NAME: // This may be a variable get or set. if (parent != null) { switch (parent.getType()) { case Token.VAR: isSet = true; Node rvalue = n.getFirstChild(); type = rvalue == null ? Name.Type.OTHER : getValueType(rvalue); break; case Token.ASSIGN: if (parent.getFirstChild() == n) { isSet = true; type = getValueType(n.getNext()); } break; case Token.GETPROP: return; case Token.FUNCTION: Node gramps = parent.getParent(); if (gramps == null || NodeUtil.isFunctionExpression(parent)) { return; } isSet = true; type = Name.Type.FUNCTION; break; case Token.INC: case Token.DEC: isSet = true; type = Name.Type.OTHER; break; default: if (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) { isSet = true; type = Name.Type.OTHER; } } } name = n.getString(); break; case Token.GETPROP: // This may be a namespaced name get or set. if (parent != null) { switch (parent.getType()) { case Token.ASSIGN: if (parent.getFirstChild() == n) { isSet = true; type = getValueType(n.getNext()); isPropAssign = true; } break; case Token.INC: case Token.DEC: isSet = true; type = Name.Type.OTHER; break; case Token.GETPROP: return; default: if (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) { isSet = true; type = Name.Type.OTHER; } } } name = n.getQualifiedName(); if (name == null) { return; } break; default: return; } // We are only interested in global names. if (!isGlobalNameReference(name, scope)) { return; } if (isSet) { if (isGlobalScope(scope)) { handleSetFromGlobal(module, scope, n, parent, name, isPropAssign, type); } else { handleSetFromLocal(module, scope, n, parent, name); } } else { handleGet(module, scope, n, parent, name); } } public void collect(JSModule module, Scope scope, Node n) { Node parent = n.getParent(); String name; boolean isSet = false; Name.Type type = Name.Type.OTHER; boolean isPropAssign = false; switch (n.getType()) { case Token.GETTER_DEF: case Token.SETTER_DEF: case Token.STRING_KEY: // This may be a key in an object literal declaration. name = null; if (parent != null && parent.isObjectLit()) { name = getNameForObjLitKey(n); } if (name == null) { return; } isSet = true; switch (n.getType()) { case Token.STRING_KEY: type = getValueType(n.getFirstChild()); break; case Token.GETTER_DEF: type = Name.Type.GET; break; case Token.SETTER_DEF: type = Name.Type.SET; break; default: throw new IllegalStateException("unexpected:" + n); } break; case Token.NAME: // This may be a variable get or set. if (parent != null) { switch (parent.getType()) { case Token.VAR: isSet = true; Node rvalue = n.getFirstChild(); type = rvalue == null ? Name.Type.OTHER : getValueType(rvalue); break; case Token.ASSIGN: if (parent.getFirstChild() == n) { isSet = true; type = getValueType(n.getNext()); } break; case Token.GETPROP: return; case Token.FUNCTION: Node gramps = parent.getParent(); if (gramps == null || NodeUtil.isFunctionExpression(parent)) { return; } isSet = true; type = Name.Type.FUNCTION; break; case Token.CATCH: case Token.INC: case Token.DEC: isSet = true; type = Name.Type.OTHER; break; default: if (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) { isSet = true; type = Name.Type.OTHER; } } } name = n.getString(); break; case Token.GETPROP: // This may be a namespaced name get or set. if (parent != null) { switch (parent.getType()) { case Token.ASSIGN: if (parent.getFirstChild() == n) { isSet = true; type = getValueType(n.getNext()); isPropAssign = true; } break; case Token.INC: case Token.DEC: isSet = true; type = Name.Type.OTHER; break; case Token.GETPROP: return; default: if (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) { isSet = true; type = Name.Type.OTHER; } } } name = n.getQualifiedName(); if (name == null) { return; } break; default: return; } // We are only interested in global names. if (!isGlobalNameReference(name, scope)) { return; } if (isSet) { if (isGlobalScope(scope)) { handleSetFromGlobal(module, scope, n, parent, name, isPropAssign, type); } else { handleSetFromLocal(module, scope, n, parent, name); } } else { handleGet(module, scope, n, parent, name); } }
src/com/google/javascript/jscomp/GlobalNamespace.java
Closure-12
private boolean hasExceptionHandler(Node cfgNode) { return false; } private boolean hasExceptionHandler(Node cfgNode) { List<DiGraphEdge<Node, Branch>> branchEdges = getCfg().getOutEdges(cfgNode); for (DiGraphEdge<Node, Branch> edge : branchEdges) { if (edge.getValue() == Branch.ON_EX) { return true; } } return false; }
src/com/google/javascript/jscomp/MaybeReachingVariableUse.java
Closure-120
boolean isAssignedOnceInLifetime() { Reference ref = getOneAndOnlyAssignment(); if (ref == null) { return false; } // Make sure this assignment is not in a loop. for (BasicBlock block = ref.getBasicBlock(); block != null; block = block.getParent()) { if (block.isFunction) { break; } else if (block.isLoop) { return false; } } return true; } boolean isAssignedOnceInLifetime() { Reference ref = getOneAndOnlyAssignment(); if (ref == null) { return false; } // Make sure this assignment is not in a loop. for (BasicBlock block = ref.getBasicBlock(); block != null; block = block.getParent()) { if (block.isFunction) { if (ref.getSymbol().getScope() != ref.scope) { return false; } break; } else if (block.isLoop) { return false; } } return true; }
src/com/google/javascript/jscomp/ReferenceCollectingCallback.java
Closure-121
private void inlineNonConstants( Var v, ReferenceCollection referenceInfo, boolean maybeModifiedArguments) { int refCount = referenceInfo.references.size(); Reference declaration = referenceInfo.references.get(0); Reference init = referenceInfo.getInitializingReference(); int firstRefAfterInit = (declaration == init) ? 2 : 3; if (refCount > 1 && isImmutableAndWellDefinedVariable(v, referenceInfo)) { // if the variable is referenced more than once, we can only // inline it if it's immutable and never defined before referenced. Node value; if (init != null) { value = init.getAssignedValue(); } else { // Create a new node for variable that is never initialized. Node srcLocation = declaration.getNode(); value = NodeUtil.newUndefinedNode(srcLocation); } Preconditions.checkNotNull(value); inlineWellDefinedVariable(v, value, referenceInfo.references); staleVars.add(v); } else if (refCount == firstRefAfterInit) { // The variable likely only read once, try some more // complex inlining heuristics. Reference reference = referenceInfo.references.get( firstRefAfterInit - 1); if (canInline(declaration, init, reference)) { inline(v, declaration, init, reference); staleVars.add(v); } } else if (declaration != init && refCount == 2) { if (isValidDeclaration(declaration) && isValidInitialization(init)) { // The only reference is the initialization, remove the assignment and // the variable declaration. Node value = init.getAssignedValue(); Preconditions.checkNotNull(value); inlineWellDefinedVariable(v, value, referenceInfo.references); staleVars.add(v); } } // If this variable was not inlined normally, check if we can // inline an alias of it. (If the variable was inlined, then the // reference data is out of sync. We're better off just waiting for // the next pass.) if (!maybeModifiedArguments && !staleVars.contains(v) && referenceInfo.isWellDefined() && referenceInfo.isAssignedOnceInLifetime()) { // Inlining the variable based solely on well-defined and assigned // once is *NOT* correct. We relax the correctness requirement if // the variable is declared constant. List<Reference> refs = referenceInfo.references; for (int i = 1 /* start from a read */; i < refs.size(); i++) { Node nameNode = refs.get(i).getNode(); if (aliasCandidates.containsKey(nameNode)) { AliasCandidate candidate = aliasCandidates.get(nameNode); if (!staleVars.contains(candidate.alias) && !isVarInlineForbidden(candidate.alias)) { Reference aliasInit; aliasInit = candidate.refInfo.getInitializingReference(); Node value = aliasInit.getAssignedValue(); Preconditions.checkNotNull(value); inlineWellDefinedVariable(candidate.alias, value, candidate.refInfo.references); staleVars.add(candidate.alias); } } } } } private void inlineNonConstants( Var v, ReferenceCollection referenceInfo, boolean maybeModifiedArguments) { int refCount = referenceInfo.references.size(); Reference declaration = referenceInfo.references.get(0); Reference init = referenceInfo.getInitializingReference(); int firstRefAfterInit = (declaration == init) ? 2 : 3; if (refCount > 1 && isImmutableAndWellDefinedVariable(v, referenceInfo)) { // if the variable is referenced more than once, we can only // inline it if it's immutable and never defined before referenced. Node value; if (init != null) { value = init.getAssignedValue(); } else { // Create a new node for variable that is never initialized. Node srcLocation = declaration.getNode(); value = NodeUtil.newUndefinedNode(srcLocation); } Preconditions.checkNotNull(value); inlineWellDefinedVariable(v, value, referenceInfo.references); staleVars.add(v); } else if (refCount == firstRefAfterInit) { // The variable likely only read once, try some more // complex inlining heuristics. Reference reference = referenceInfo.references.get( firstRefAfterInit - 1); if (canInline(declaration, init, reference)) { inline(v, declaration, init, reference); staleVars.add(v); } } else if (declaration != init && refCount == 2) { if (isValidDeclaration(declaration) && isValidInitialization(init)) { // The only reference is the initialization, remove the assignment and // the variable declaration. Node value = init.getAssignedValue(); Preconditions.checkNotNull(value); inlineWellDefinedVariable(v, value, referenceInfo.references); staleVars.add(v); } } // If this variable was not inlined normally, check if we can // inline an alias of it. (If the variable was inlined, then the // reference data is out of sync. We're better off just waiting for // the next pass.) if (!maybeModifiedArguments && !staleVars.contains(v) && referenceInfo.isWellDefined() && referenceInfo.isAssignedOnceInLifetime() && // Inlining the variable based solely on well-defined and assigned // once is *NOT* correct. We relax the correctness requirement if // the variable is declared constant. (isInlineableDeclaredConstant(v, referenceInfo) || referenceInfo.isOnlyAssignmentSameScopeAsDeclaration())) { List<Reference> refs = referenceInfo.references; for (int i = 1 /* start from a read */; i < refs.size(); i++) { Node nameNode = refs.get(i).getNode(); if (aliasCandidates.containsKey(nameNode)) { AliasCandidate candidate = aliasCandidates.get(nameNode); if (!staleVars.contains(candidate.alias) && !isVarInlineForbidden(candidate.alias)) { Reference aliasInit; aliasInit = candidate.refInfo.getInitializingReference(); Node value = aliasInit.getAssignedValue(); Preconditions.checkNotNull(value); inlineWellDefinedVariable(candidate.alias, value, candidate.refInfo.references); staleVars.add(candidate.alias); } } } } }
src/com/google/javascript/jscomp/InlineVariables.java
Closure-122
private void handleBlockComment(Comment comment) { if (comment.getValue().indexOf("/* @") != -1 || comment.getValue().indexOf("\n * @") != -1) { errorReporter.warning( SUSPICIOUS_COMMENT_WARNING, sourceName, comment.getLineno(), "", 0); } } private void handleBlockComment(Comment comment) { Pattern p = Pattern.compile("(/|(\n[ \t]*))\\*[ \t]*@[a-zA-Z]"); if (p.matcher(comment.getValue()).find()) { errorReporter.warning( SUSPICIOUS_COMMENT_WARNING, sourceName, comment.getLineno(), "", 0); } }
src/com/google/javascript/jscomp/parsing/IRFactory.java
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