int column = dataset.getColumnIndex(category); double barX0 = domainAxis.getCategoryMiddle(column, dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge()) - state.getBarWidth() / 2.0; double barW = state.getBarWidth(); // a list to store the series index and bar region, so we can draw // all the labels at the end... List itemLabelList = new ArrayList(); // draw the blocks boolean inverted = rangeAxis.isInverted(); int blockCount = values.size() - 1; for (int k = 0; k < blockCount; k++) { int index = (inverted ? blockCount - k - 1 : k); Object[] prev = (Object[]) values.get(index); Object[] curr = (Object[]) values.get(index + 1); int series = 0; if (curr[0] == null) { series = -((Integer) prev[0]).intValue(); } else { series = ((Integer) curr[0]).intValue(); if (series < 0) { series = -((Integer) prev[0]).intValue(); } } double v0 = ((Double) prev[1]).doubleValue(); double vv0 = rangeAxis.valueToJava2D(v0, dataArea, plot.getRangeAxisEdge()); double v1 = ((Double) curr[1]).doubleValue(); double vv1 = rangeAxis.valueToJava2D(v1, dataArea, plot.getRangeAxisEdge()); Shape[] faces = createHorizontalBlock(barX0, barW, vv0, vv1, inverted); Paint fillPaint = getItemPaint(series, column); Paint fillPaintDark = fillPaint; if (fillPaintDark instanceof Color) { fillPaintDark = ((Color) fillPaint).darker(); } boolean drawOutlines = isDrawBarOutline(); Paint outlinePaint = fillPaint; if (drawOutlines) { outlinePaint = getItemOutlinePaint(series, column); g2.setStroke(getItemOutlineStroke(series, column)); } for (int f = 0; f < 6; f++) { if (f == 5) { g2.setPaint(fillPaint); } else { g2.setPaint(fillPaintDark); } g2.fill(faces[f]); if (drawOutlines) { g2.setPaint(outlinePaint); g2.draw(faces[f]); } } itemLabelList.add(new Object[] {new Integer(series), faces[5].getBounds2D(), BooleanUtilities.valueOf(v0 < getBase())}); // add an item entity, if this information is being collected EntityCollection entities = state.getEntityCollection(); if (entities != null) { addItemEntity(entities, dataset, series, column, faces[5]); } } for (int i = 0; i < itemLabelList.size(); i++) { Object[] record = (Object[]) itemLabelList.get(i); int series = ((Integer) record[0]).intValue(); Rectangle2D bar = (Rectangle2D) record[1]; boolean neg = ((Boolean) record[2]).booleanValue(); CategoryItemLabelGenerator generator = getItemLabelGenerator(series, column); if (generator != null && isItemLabelVisible(series, column)) { drawItemLabel(g2, dataset, series, column, plot, generator, bar, neg); } }
int column = dataset.getColumnIndex(category); double barX0 = domainAxis.getCategoryMiddle(column, dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge()) - state.getBarWidth() / 2.0; double barW = state.getBarWidth(); // a list to store the series index and bar region, so we can draw // all the labels at the end... List itemLabelList = new ArrayList(); // draw the blocks boolean inverted = rangeAxis.isInverted(); int blockCount = values.size() - 1; for (int k = 0; k < blockCount; k++) { int index = (inverted ? blockCount - k - 1 : k); Object[] prev = (Object[]) values.get(index); Object[] curr = (Object[]) values.get(index + 1); int series = 0; if (curr[0] == null) { series = -((Integer) prev[0]).intValue(); } else { series = ((Integer) curr[0]).intValue(); if (series < 0) { series = -((Integer) prev[0]).intValue(); } } double v0 = ((Double) prev[1]).doubleValue(); double vv0 = rangeAxis.valueToJava2D(v0, dataArea, plot.getRangeAxisEdge()); double v1 = ((Double) curr[1]).doubleValue(); double vv1 = rangeAxis.valueToJava2D(v1, dataArea, plot.getRangeAxisEdge()); Shape[] faces = createVerticalBlock(barX0, barW, vv0, vv1, inverted); Paint fillPaint = getItemPaint(series, column); Paint fillPaintDark = fillPaint; if (fillPaintDark instanceof Color) { fillPaintDark = ((Color) fillPaint).darker(); } boolean drawOutlines = isDrawBarOutline(); Paint outlinePaint = fillPaint; if (drawOutlines) { outlinePaint = getItemOutlinePaint(series, column); g2.setStroke(getItemOutlineStroke(series, column)); } for (int f = 0; f < 6; f++) { if (f == 5) { g2.setPaint(fillPaint); } else { g2.setPaint(fillPaintDark); } g2.fill(faces[f]); if (drawOutlines) { g2.setPaint(outlinePaint); g2.draw(faces[f]); } } itemLabelList.add(new Object[] {new Integer(series), faces[5].getBounds2D(), BooleanUtilities.valueOf(v0 < getBase())}); // add an item entity, if this information is being collected EntityCollection entities = state.getEntityCollection(); if (entities != null) { addItemEntity(entities, dataset, series, column, faces[5]); } } for (int i = 0; i < itemLabelList.size(); i++) { Object[] record = (Object[]) itemLabelList.get(i); int series = ((Integer) record[0]).intValue(); Rectangle2D bar = (Rectangle2D) record[1]; boolean neg = ((Boolean) record[2]).booleanValue(); CategoryItemLabelGenerator generator = getItemLabelGenerator(series, column); if (generator != null && isItemLabelVisible(series, column)) { drawItemLabel(g2, dataset, series, column, plot, generator, bar, neg); } }
Clone fragments detected by clone detection tool
File path: /jfreechart-1.0.10/src/org/jfree/chart/renderer/category/StackedBarRenderer3D.java File path: /jfreechart-1.0.10/src/org/jfree/chart/renderer/category/StackedBarRenderer3D.java
Method name: void drawStackHorizontal(List, Comparable, Graphics2D, CategoryItemRendererState, Rectangle2D, CategoryPlot, CategoryAxis, ValueAxis, CategoryDataset) Method name: void drawStackVertical(List, Comparable, Graphics2D, CategoryItemRendererState, Rectangle2D, CategoryPlot, CategoryAxis, ValueAxis, CategoryDataset)
Number of AST nodes: 50 Number of AST nodes: 50
1
int column = dataset.getColumnIndex(category);
1
int column = dataset.getColumnIndex(category);
2
        double barX0 = domainAxis.getCategoryMiddle(column,
2
        double barX0 = domainAxis.getCategoryMiddle(column,
3
                dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge())
3
                dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge())
4
                - state.getBarWidth() / 2.0;
4
                - state.getBarWidth() / 2.0;
5
        double barW = state.getBarWidth();
5
        double barW = state.getBarWidth();
6
        // a list to store the series index and bar region, so we can draw
6
        // a list to store the series index and bar region, so we can draw
7
        // all the labels at the end...
7
        // all the labels at the end...
8
        List itemLabelList = new ArrayList();
8
        List itemLabelList = new ArrayList();
9
        // draw the blocks
9
        // draw the blocks
10
        boolean inverted = rangeAxis.isInverted();
10
        boolean inverted = rangeAxis.isInverted();
11
        int blockCount = values.size() - 1;
11
        int blockCount = values.size() - 1;
12
        for (int k = 0; k < blockCount; k++) {
12
        for (int k = 0; k < blockCount; k++) {
13
            int index = (inverted ? blockCount - k - 1 : k);
13
            int index = (inverted ? blockCount - k - 1 : k);
14
            Object[] prev = (Object[]) values.get(index);
14
            Object[] prev = (Object[]) values.get(index);
15
            Object[] curr = (Object[]) values.get(index + 1);
15
            Object[] curr = (Object[]) values.get(index + 1);
16
            int series = 0;
16
            int series = 0;
17
            if (curr[0] == null) {
17
            if (curr[0] == null) {
18
                series = -((Integer) prev[0]).intValue();
18
                series = -((Integer) prev[0]).intValue();
19
            }
19
            }
20
            else {
20
            else {
21
                series = ((Integer) curr[0]).intValue();
21
                series = ((Integer) curr[0]).intValue();
22
                if (series < 0) {
22
                if (series < 0) {
23
                    series = -((Integer) prev[0]).intValue();
23
                    series = -((Integer) prev[0]).intValue();
24
                }
24
                }
25
            }
25
            }
26
            double v0 = ((Double) prev[1]).doubleValue();
26
            double v0 = ((Double) prev[1]).doubleValue();
27
            double vv0 = rangeAxis.valueToJava2D(v0, dataArea,
27
            double vv0 = rangeAxis.valueToJava2D(v0, dataArea,
28
                    plot.getRangeAxisEdge());
28
                    plot.getRangeAxisEdge());
29
            double v1 = ((Double) curr[1]).doubleValue();
29
            double v1 = ((Double) curr[1]).doubleValue();
30
            double vv1 = rangeAxis.valueToJava2D(v1, dataArea,
30
            double vv1 = rangeAxis.valueToJava2D(v1, dataArea,
31
                    plot.getRangeAxisEdge());
31
                    plot.getRangeAxisEdge());
32
            Shape[] faces = createHorizontalBlock(barX0, barW, vv0, vv1,
32
            Shape[] faces = createVerticalBlock(barX0, barW, vv0, vv1,
33
                    inverted);
33
                    inverted);
34
            Paint fillPaint = getItemPaint(series, column);
34
            Paint fillPaint = getItemPaint(series, column);
35
            Paint fillPaintDark = fillPaint;
35
            Paint fillPaintDark = fillPaint;
36
            if (fillPaintDark instanceof Color) {
36
            if (fillPaintDark instanceof Color) {
37
                fillPaintDark = ((Color) fillPaint).darker();
37
                fillPaintDark = ((Color) fillPaint).darker();
38
            }
38
            }
39
            boolean drawOutlines = isDrawBarOutline();
39
            boolean drawOutlines = isDrawBarOutline();
40
            Paint outlinePaint = fillPaint;
40
            Paint outlinePaint = fillPaint;
41
            if (drawOutlines) {
41
            if (drawOutlines) {
42
                outlinePaint = getItemOutlinePaint(series, column);
42
                outlinePaint = getItemOutlinePaint(series, column);
43
                g2.setStroke(getItemOutlineStroke(series, column));
43
                g2.setStroke(getItemOutlineStroke(series, column));
44
            }
44
            }
45
            for (int f = 0; f < 6; f++) {
45
            for (int f = 0; f < 6; f++) {
46
                if (f == 5) {
46
                if (f == 5) {
47
                    g2.setPaint(fillPaint);
47
                    g2.setPaint(fillPaint);
48
                }
48
                }
49
                else {
49
                else {
50
                    g2.setPaint(fillPaintDark);
50
                    g2.setPaint(fillPaintDark);
51
                }
51
                }
52
                g2.fill(faces[f]);
52
                g2.fill(faces[f]);
53
                if (drawOutlines) {
53
                if (drawOutlines) {
54
                    g2.setPaint(outlinePaint);
54
                    g2.setPaint(outlinePaint);
55
                    g2.draw(faces[f]);
55
                    g2.draw(faces[f]);
56
                }
56
                }
57
            }
57
            }
58
            itemLabelList.add(new Object[] {new Integer(series),
58
            itemLabelList.add(new Object[] {new Integer(series),
59
                    faces[5].getBounds2D(),
59
                    faces[5].getBounds2D(),
60
                    BooleanUtilities.valueOf(v0 < getBase())});
60
                    BooleanUtilities.valueOf(v0 < getBase())});
61
            // add an item entity, if this information is being collected
61
            // add an item entity, if this information is being collected
62
            EntityCollection entities = state.getEntityCollection();
62
            EntityCollection entities = state.getEntityCollection();
63
            if (entities != null) {
63
            if (entities != null) {
64
                addItemEntity(entities, dataset, series, column, faces[5]);
64
                addItemEntity(entities, dataset, series, column, faces[5]);
65
            }
65
            }
66
        }
66
        }
67
        for (int i = 0; i < itemLabelList.size(); i++) {
67
        for (int i = 0; i < itemLabelList.size(); i++) {
68
            Object[] record = (Object[]) itemLabelList.get(i);
68
            Object[] record = (Object[]) itemLabelList.get(i);
69
            int series = ((Integer) record[0]).intValue();
69
            int series = ((Integer) record[0]).intValue();
70
            Rectangle2D bar = (Rectangle2D) record[1];
70
            Rectangle2D bar = (Rectangle2D) record[1];
71
            boolean neg = ((Boolean) record[2]).booleanValue();
71
            boolean neg = ((Boolean) record[2]).booleanValue();
72
            CategoryItemLabelGenerator generator
72
            CategoryItemLabelGenerator generator
73
                    = getItemLabelGenerator(series, column);
73
                    = getItemLabelGenerator(series, column);
74
            if (generator != null && isItemLabelVisible(series, column)) {
74
            if (generator != null && isItemLabelVisible(series, column)) {
75
                drawItemLabel(g2, dataset, series, column, plot, generator,
75
                drawItemLabel(g2, dataset, series, column, plot, generator,
76
                        bar, neg);
76
                        bar, neg);
77
            }
77
            }
78
        }
78
        }
Summary
Number of common nesting structure subtrees1
Number of refactorable cases1
Number of non-refactorable cases0
Time elapsed for finding largest common nesting structure subtrees (ms)8.0
Clones locationClones are declared in the same class
Number of node comparisons410
  1. {Refactorable}
    Mapping Summary
    Number of mapped statements50
    Number of unmapped statements in the first code fragment0
    Number of unmapped statements in the second code fragment0
    Time elapsed for statement mapping (ms)151.1
    Clone typeType 2
    Mapped Statements
    ID Statement ID Statement
    1
    int column = dataset.getColumnIndex(category);
    1
    int column = dataset.getColumnIndex(category);
    2
    double barX0 = domainAxis.getCategoryMiddle(column, dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge()) - state.getBarWidth() / 2.0;
    2
    double barX0 = domainAxis.getCategoryMiddle(column, dataset.getColumnCount(), dataArea, plot.getDomainAxisEdge()) - state.getBarWidth() / 2.0;
    3
    double barW = state.getBarWidth();
    3
    double barW = state.getBarWidth();
    4
    List itemLabelList = new ArrayList();
    4
    List itemLabelList = new ArrayList();
    5
    boolean inverted = rangeAxis.isInverted();
    5
    boolean inverted = rangeAxis.isInverted();
    6
    int blockCount = values.size() - 1;
    6
    int blockCount = values.size() - 1;
    7
    for (int k = 0; k < blockCount; k++)
    7
    for (int k = 0; k < blockCount; k++)
    8
    int index = (inverted ? blockCount - k - 1 : k);
    8
    int index = (inverted ? blockCount - k - 1 : k);
    9
    Object[] prev = (Object[])values.get(index);
    9
    Object[] prev = (Object[])values.get(index);
    10
    Object[] curr = (Object[])values.get(index + 1);
    10
    Object[] curr = (Object[])values.get(index + 1);
    11
    int series = 0;
    11
    int series = 0;
    12
    if (curr[0] == null)
    12
    if (curr[0] == null)
    13
    series = -((Integer)prev[0]).intValue();
    13
    series = -((Integer)prev[0]).intValue();
    else
    else
    14
    series = ((Integer)curr[0]).intValue();
    14
    series = ((Integer)curr[0]).intValue();
    15
    if (series < 0)
    15
    if (series < 0)
    16
    series = -((Integer)prev[0]).intValue();
    16
    series = -((Integer)prev[0]).intValue();
    17
    double v0 = ((Double)prev[1]).doubleValue();
    17
    double v0 = ((Double)prev[1]).doubleValue();
    18
    double vv0 = rangeAxis.valueToJava2D(v0, dataArea, plot.getRangeAxisEdge());
    18
    double vv0 = rangeAxis.valueToJava2D(v0, dataArea, plot.getRangeAxisEdge());
    19
    double v1 = ((Double)curr[1]).doubleValue();
    19
    double v1 = ((Double)curr[1]).doubleValue();
    20
    double vv1 = rangeAxis.valueToJava2D(v1, dataArea, plot.getRangeAxisEdge());
    20
    double vv1 = rangeAxis.valueToJava2D(v1, dataArea, plot.getRangeAxisEdge());
    21
    Shape[] faces = createHorizontalBlock(barX0, barW, vv0, vv1, inverted);
    21
    Shape[] faces = createHorizontalBlock(barX0, barW, vv0, vv1, inverted);
    21
    Shape[] faces = createVerticalBlock(barX0, barW, vv0, vv1, inverted);
    Differences
    Expression1Expression2Difference
    createHorizontalBlockcreateVerticalBlockMETHOD_INVOCATION_NAME_MISMATCH
    Preondition Violations
    Expression createHorizontalBlock(barX0,barW,vv0,vv1,inverted) cannot be parameterized, because it has dependencies to/from statements that will be extracted
    • Inline private method createHorizontalBlock
    Expression createVerticalBlock(barX0,barW,vv0,vv1,inverted) cannot be parameterized, because it has dependencies to/from statements that will be extracted
    • Inline private method createVerticalBlock
    21
    Shape[] faces = createVerticalBlock(barX0, barW, vv0, vv1, inverted);
    22
    Paint fillPaint = getItemPaint(series, column);
    22
    Paint fillPaint = getItemPaint(series, column);
    23
    Paint fillPaintDark = fillPaint;
    23
    Paint fillPaintDark = fillPaint;
    24
    if (fillPaintDark instanceof Color)
    24
    if (fillPaintDark instanceof Color)
    25
    fillPaintDark = ((Color)fillPaint).darker();
    25
    fillPaintDark = ((Color)fillPaint).darker();
    26
    boolean drawOutlines = isDrawBarOutline();
    26
    boolean drawOutlines = isDrawBarOutline();
    27
    Paint outlinePaint = fillPaint;
    27
    Paint outlinePaint = fillPaint;
    28
    if (drawOutlines)
    28
    if (drawOutlines)
    29
    outlinePaint = getItemOutlinePaint(series, column);
    29
    outlinePaint = getItemOutlinePaint(series, column);
    30
    g2.setStroke(getItemOutlineStroke(series, column));
    30
    g2.setStroke(getItemOutlineStroke(series, column));
    31
    for (int f = 0; f < 6; f++)
    31
    for (int f = 0; f < 6; f++)
    32
    if (f == 5)
    32
    if (f == 5)
    33
    g2.setPaint(fillPaint);
    33
    g2.setPaint(fillPaint);
    else
    else
    34
    g2.setPaint(fillPaintDark);
    34
    g2.setPaint(fillPaintDark);
    35
    g2.fill(faces[f]);
    35
    g2.fill(faces[f]);
    36
    if (drawOutlines)
    36
    if (drawOutlines)
    37
    g2.setPaint(outlinePaint);
    37
    g2.setPaint(outlinePaint);
    38
    g2.draw(faces[f]);
    38
    g2.draw(faces[f]);
    39
    itemLabelList.add(new Object[] {new Integer(series), faces[5].getBounds2D(), BooleanUtilities.valueOf(v0 < getBase())});
    39
    itemLabelList.add(new Object[] {new Integer(series), faces[5].getBounds2D(), BooleanUtilities.valueOf(v0 < getBase())});
    40
    EntityCollection entities = state.getEntityCollection();
    40
    EntityCollection entities = state.getEntityCollection();
    41
    if (entities != null)
    41
    if (entities != null)
    42
    addItemEntity(entities, dataset, series, column, faces[5]);
    42
    addItemEntity(entities, dataset, series, column, faces[5]);
    43
    for (int i = 0; i < itemLabelList.size(); i++)
    43
    for (int i = 0; i < itemLabelList.size(); i++)
    44
    Object[] record = (Object[])itemLabelList.get(i);
    44
    Object[] record = (Object[])itemLabelList.get(i);
    45
    int series = ((Integer)record[0]).intValue();
    45
    int series = ((Integer)record[0]).intValue();
    46
    Rectangle2D bar = (Rectangle2D)record[1];
    46
    Rectangle2D bar = (Rectangle2D)record[1];
    47
    boolean neg = ((Boolean)record[2]).booleanValue();
    47
    boolean neg = ((Boolean)record[2]).booleanValue();
    48
    CategoryItemLabelGenerator generator = getItemLabelGenerator(series, column);
    48
    CategoryItemLabelGenerator generator = getItemLabelGenerator(series, column);
    49
    if (generator != null && isItemLabelVisible(series, column))
    49
    if (generator != null && isItemLabelVisible(series, column))
    50
    drawItemLabel(g2, dataset, series, column, plot, generator, bar, neg);
    50
    drawItemLabel(g2, dataset, series, column, plot, generator, bar, neg);
    Precondition Violations (2)
    Row Violation
    1Expression createHorizontalBlock(barX0,barW,vv0,vv1,inverted) cannot be parameterized, because it has dependencies to/from statements that will be extracted
    2Expression createVerticalBlock(barX0,barW,vv0,vv1,inverted) cannot be parameterized, because it has dependencies to/from statements that will be extracted