bugged
stringlengths 6
599k
| fixed
stringlengths 6
40.8M
| __index_level_0__
int64 0
3.24M
|
|---|---|---|
public void cancelEditing(JTree tree) { if (isEditing(tree)) completeEditing(false, true, false); }
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public void cancelEditing(JTree tree) { if (isEditing(tree)) completeEditing(false, true, false); }
| 101 |
protected void checkForClickInExpandControl(TreePath path, int mouseX, int mouseY) { // FIXME: not implemented }
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protected void checkForClickInExpandControl(TreePath path, int mouseX, int mouseY) { // FIXME: not implemented }
| 102 |
protected void completeEditing() { completeEditing(false, true, false); }
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protected void completeEditing() { completeEditing(false, true, false); }
| 103 |
protected void completeEditing() { completeEditing(false, true, false); }
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protected void completeEditing() { completeEditing(false, true, false); }
| 104 |
protected void completeUIInstall() { // FIXME: not implemented }
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protected void completeUIInstall() { // FIXME: not implemented }
| 105 |
protected void completeUIUninstall() { // FIXME: not implemented }
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protected void completeUIUninstall() { // FIXME: not implemented }
| 106 |
protected void configureLayoutCache() { treeState = createLayoutCache(); }
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protected void configureLayoutCache() { treeState = createLayoutCache(); }
| 107 |
private int convertModifiers(int mod) { if ((mod & KeyEvent.SHIFT_DOWN_MASK) != 0) { mod |= KeyEvent.SHIFT_MASK; mod &= ~KeyEvent.SHIFT_DOWN_MASK; } if ((mod & KeyEvent.CTRL_DOWN_MASK) != 0) { mod |= KeyEvent.CTRL_MASK; mod &= ~KeyEvent.CTRL_DOWN_MASK; } if ((mod & KeyEvent.META_DOWN_MASK) != 0) { mod |= KeyEvent.META_MASK; mod &= ~KeyEvent.META_DOWN_MASK; } if ((mod & KeyEvent.ALT_DOWN_MASK) != 0) { mod |= KeyEvent.ALT_MASK; mod &= ~KeyEvent.ALT_DOWN_MASK; } if ((mod & KeyEvent.ALT_GRAPH_DOWN_MASK) != 0) { mod |= KeyEvent.ALT_GRAPH_MASK; mod &= ~KeyEvent.ALT_GRAPH_DOWN_MASK; } return mod; }
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private int convertModifiers(int mod) { if ((mod & KeyEvent.SHIFT_DOWN_MASK) != 0) { mod |= KeyEvent.SHIFT_MASK; mod &= ~KeyEvent.SHIFT_DOWN_MASK; } if ((mod & KeyEvent.CTRL_DOWN_MASK) != 0) { mod |= KeyEvent.CTRL_MASK; mod &= ~KeyEvent.CTRL_DOWN_MASK; } if ((mod & KeyEvent.META_DOWN_MASK) != 0) { mod |= KeyEvent.META_MASK; mod &= ~KeyEvent.META_DOWN_MASK; } if ((mod & KeyEvent.ALT_DOWN_MASK) != 0) { mod |= KeyEvent.ALT_MASK; mod &= ~KeyEvent.ALT_DOWN_MASK; } if ((mod & KeyEvent.ALT_GRAPH_DOWN_MASK) != 0) { mod |= KeyEvent.ALT_GRAPH_MASK; mod &= ~KeyEvent.ALT_GRAPH_DOWN_MASK; } return mod; }
| 108 |
protected CellEditorListener createCellEditorListener() { return new CellEditorHandler(); }
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protected CellEditorListener createCellEditorListener() { return new CellEditorHandler(); }
| 109 |
protected CellRendererPane createCellRendererPane() { return new CellRendererPane(); }
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protected CellRendererPane createCellRendererPane() { return new CellRendererPane(); }
| 110 |
protected ComponentListener createComponentListener() { return new ComponentHandler(); }
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protected ComponentListener createComponentListener() { return new ComponentHandler(); }
| 111 |
protected TreeCellEditor createDefaultCellEditor() { if (currentCellRenderer != null) return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) currentCellRenderer, cellEditor); return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) createDefaultCellRenderer(), cellEditor); }
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protected TreeCellEditor createDefaultCellEditor() { if (currentCellRenderer != null) return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) currentCellRenderer, cellEditor); return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) createDefaultCellRenderer(), cellEditor); }
| 112 |
protected TreeCellEditor createDefaultCellEditor() { if (currentCellRenderer != null) return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) currentCellRenderer, cellEditor); return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) createDefaultCellRenderer(), cellEditor); }
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protected TreeCellEditor createDefaultCellEditor() { if (currentCellRenderer != null) return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) currentCellRenderer, cellEditor); return new DefaultTreeCellEditor(tree, (DefaultTreeCellRenderer) createDefaultCellRenderer(), cellEditor); }
| 113 |
protected TreeCellRenderer createDefaultCellRenderer() { return new DefaultTreeCellRenderer(); }
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protected TreeCellRenderer createDefaultCellRenderer() { return new DefaultTreeCellRenderer(); }
| 114 |
protected FocusListener createFocusListener() { return new FocusHandler(); }
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protected FocusListener createFocusListener() { return new FocusHandler(); }
| 115 |
protected KeyListener createKeyListener() { return new KeyHandler(); }
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protected KeyListener createKeyListener() { return new KeyHandler(); }
| 116 |
protected AbstractLayoutCache createLayoutCache() { return new FixedHeightLayoutCache(); }
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protected AbstractLayoutCache createLayoutCache() { return new FixedHeightLayoutCache(); }
| 117 |
protected MouseListener createMouseListener() { return new MouseHandler(); }
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protected MouseListener createMouseListener() { return new MouseHandler(); }
| 118 |
protected AbstractLayoutCache.NodeDimensions createNodeDimensions() { // FIXME: not implemented return null; }
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protected AbstractLayoutCache.NodeDimensions createNodeDimensions() { // FIXME: not implemented return null; }
| 119 |
protected PropertyChangeListener createPropertyChangeListener() { return new PropertyChangeHandler(); }
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protected PropertyChangeListener createPropertyChangeListener() { return new PropertyChangeHandler(); }
| 120 |
protected PropertyChangeListener createSelectionModelPropertyChangeListener() { return new SelectionModelPropertyChangeHandler(); }
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protected PropertyChangeListener createSelectionModelPropertyChangeListener() { return new SelectionModelPropertyChangeHandler(); }
| 121 |
protected TreeExpansionListener createTreeExpansionListener() { return new TreeExpansionHandler(); }
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protected TreeExpansionListener createTreeExpansionListener() { return new TreeExpansionHandler(); }
| 122 |
protected TreeModelListener createTreeModelListener() { return new TreeModelHandler(); }
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protected TreeModelListener createTreeModelListener() { return new TreeModelHandler(); }
| 123 |
protected TreeSelectionListener createTreeSelectionListener() { return new TreeSelectionHandler(); }
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protected TreeSelectionListener createTreeSelectionListener() { return new TreeSelectionHandler(); }
| 124 |
public static ComponentUI createUI(JComponent c) { return new BasicTreeUI(); }
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public static ComponentUI createUI(JComponent c) { return new BasicTreeUI(); }
| 125 |
protected void ensureRowsAreVisible(int beginRow, int endRow) { // FIXME: not implemented }
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protected void ensureRowsAreVisible(int beginRow, int endRow) { // FIXME: not implemented }
| 126 |
private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
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private Object findNode(Object root, Object node) { int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
| 127 |
private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
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private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
| 128 |
private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
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private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (treeModel.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
| 129 |
private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(mod.getChild(root, i), node); if (n != null) return n; } return null; }
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private Object findNode(Object root, Object node) { TreeModel mod = tree.getModel(); int size = 0; if (!mod.isLeaf(root)) size = mod.getChildCount(root); for (int i = 0; i < size; i++) { if (mod.getIndexOfChild(root, node) != -1) return root; Object n = findNode(treeModel.getChild(root, i), node); if (n != null) return n; } return null; }
| 130 |
Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
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Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
| 131 |
Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
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Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
| 132 |
Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
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Rectangle getCellBounds(int x, int y, Object cell) { if (cell != null) { String s = cell.toString(); Font f = tree.getFont(); FontMetrics fm = tree.getToolkit().getFontMetrics(f); if (s != null) return new Rectangle(x, y, SwingUtilities.computeStringWidth(fm, s) + 4, fm.getHeight()); } return new Rectangle(x, y, 0, 0); }
| 133 |
protected TreeCellEditor getCellEditor() { return cellEditor; }
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protected TreeCellEditor getCellEditor() { return cellEditor; }
| 134 |
Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
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Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
| 135 |
Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
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Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
| 136 |
Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
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Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
| 137 |
Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
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Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
| 138 |
Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
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Point getCellLocation(int x, int y, JTree tree, TreeModel mod, Object node, Object startNode) { int rowHeight = getRowHeight(); if (startNode == null || startNode.equals(node)) { if (!tree.isRootVisible() && tree.isExpanded(new TreePath(mod.getRoot()))) return new Point(x + ((getLevel(node)) * rightChildIndent), y); return new Point(x + ((getLevel(node) + 1) * rightChildIndent), y); } if (!mod.isLeaf(startNode) && tree.isExpanded(new TreePath(getPathToRoot(startNode, 0))) && !mod.isLeaf(startNode) && mod.getChildCount(startNode) > 0) { Object child = mod.getChild(startNode, 0); if (child != null) return getCellLocation(x, y + rowHeight, tree, mod, node, child); } return getCellLocation(x, y + rowHeight, tree, mod, node, getNextVisibleNode(startNode)); }
| 139 |
protected TreeCellRenderer getCellRenderer() { if (currentCellRenderer != null) return currentCellRenderer; return createDefaultCellRenderer(); }
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protected TreeCellRenderer getCellRenderer() { if (currentCellRenderer != null) return currentCellRenderer; return createDefaultCellRenderer(); }
| 140 |
protected TreeCellRenderer getCellRenderer() { if (currentCellRenderer != null) return currentCellRenderer; return createDefaultCellRenderer(); }
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protected TreeCellRenderer getCellRenderer() { if (currentCellRenderer != null) return currentCellRenderer; return createDefaultCellRenderer(); }
| 141 |
public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
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public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
| 142 |
public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
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public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
| 143 |
public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
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public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
| 144 |
public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
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public TreePath getClosestPathForLocation(JTree tree, int x, int y) { // FIXME: what if root is hidden? should not depend on (0,0) // should start counting rows from where root is. int row = Math.round(y / getRowHeight()); TreePath path = getPathForRow(tree, row); // no row is visible at this node while (row > 0 && path == null) { --row; path = getPathForRow(tree, row); } return path; }
| 145 |
public Icon getCollapsedIcon() { return collapsedIcon; }
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public Icon getCollapsedIcon() { return collapsedIcon; }
| 146 |
public TreePath getEditingPath(JTree tree) { return editingPath; }
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public TreePath getEditingPath(JTree tree) { return editingPath; }
| 147 |
public TreePath getEditingPath(JTree tree) { return editingPath; }
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public TreePath getEditingPath(JTree tree) { return editingPath; }
| 148 |
public Icon getExpandedIcon() { return expandedIcon; }
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public Icon getExpandedIcon() { return expandedIcon; }
| 149 |
protected Color getHashColor() { return UIManager.getLookAndFeelDefaults().getColor("Tree.hash"); }
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protected Color getHashColor() { return UIManager.getLookAndFeelDefaults().getColor("Tree.hash"); }
| 150 |
protected int getHorizontalLegBuffer() { // FIXME: not implemented return 0; }
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protected int getHorizontalLegBuffer() { // FIXME: not implemented return 0; }
| 151 |
protected TreePath getLastChildPath(TreePath parent) { return ((TreePath) parent.getLastPathComponent()); }
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protected TreePath getLastChildPath(TreePath parent) { return ((TreePath) parent.getLastPathComponent()); }
| 152 |
public int getLeftChildIndent(int newAmount) { return leftChildIndent; }
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public int getLeftChildIndent(int newAmount) { return leftChildIndent; }
| 153 |
int getLevel(Object node) { int count = -1; Object current = node; do { current = getParent(tree.getModel().getRoot(), current); count++; } while (current != null); return count; }
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int getLevel(Object node) { int count = -1; Object current = node; do { current = getParent(treeModel.getRoot(), current); count++; } while (current != null); return count; }
| 154 |
public Dimension getMaximumSize(JComponent c) { // FIXME: not implemented return getPreferredSize(c); }
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public Dimension getMaximumSize(JComponent c) { // FIXME: not implemented return getPreferredSize(c); }
| 155 |
public Dimension getMinimumSize(JComponent c) { // FIXME: not implemented return getPreferredSize(c); }
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public Dimension getMinimumSize(JComponent c) { // FIXME: not implemented return getPreferredSize(c); }
| 156 |
protected TreeModel getModel() { return treeModel; }
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protected TreeModel getModel() { return treeModel; }
| 157 |
Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
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Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
| 158 |
Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
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Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
| 159 |
Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
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Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(treeModel.getRoot(), node); } while (sibling == null && node != null); return sibling; }
| 160 |
Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
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Object getNextNode(Object curr) { TreeModel mod = tree.getModel(); if (!mod.isLeaf(curr) && mod.getChildCount(curr) > 0) return mod.getChild(curr, 0); Object node = curr; Object sibling = null; do { sibling = getNextSibling(node); node = getParent(mod.getRoot(), node); } while (sibling == null && node != null); return sibling; }
| 161 |
Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
| 162 |
Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = treeModel.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
| 163 |
Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
| 164 |
Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getNextSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) + 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index == 0 || index >= size) return null; return treeModel.getChild(parent, index); }
| 165 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 166 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 167 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 168 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 169 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 170 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 171 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 172 |
Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
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Object getNextVisibleNode(Object node) { Object next = null; TreePath current = null; if (node != null) next = getNextNode(node); if (next != null) { current = new TreePath(getPathToRoot(next, 0)); if (tree.isVisible(current)) return next; while (next != null && !tree.isVisible(current)) { next = getNextNode(next); if (next != null) current = new TreePath(getPathToRoot(next, 0)); } } return next; }
| 173 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 174 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 175 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 176 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = treeModel.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 177 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 178 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 179 |
public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
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public Rectangle getPathBounds(JTree tree, TreePath path) { if (path != null) { Object cell = path.getLastPathComponent(); TreeModel mod = tree.getModel(); if (mod != null) { Object root = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(root))) root = getNextNode(root); Point loc = getCellLocation(0, 0, tree, mod, cell, root); return getCellBounds(loc.x, loc.y, cell); } } return null; }
| 180 |
public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
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public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
| 181 |
public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
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public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
| 182 |
public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
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public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
| 183 |
public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
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public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
| 184 |
public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
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public TreePath getPathForRow(JTree tree, int row) { TreeModel mod = tree.getModel(); if (mod != null) { Object node = mod.getRoot(); if (!tree.isRootVisible() && tree.isExpanded(new TreePath(getPathToRoot(node, 0)))) node = getNextNode(node); for (int i = 0; i < row; i++) node = getNextVisibleNode(node); if (node == null) return null; return new TreePath(getPathToRoot(node, 0)); } return null; }
| 185 |
Object[] getPathToRoot(Object node, int depth) { TreeModel mod = tree.getModel(); if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(mod.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
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Object[] getPathToRoot(Object node, int depth) { if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(mod.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
| 186 |
Object[] getPathToRoot(Object node, int depth) { TreeModel mod = tree.getModel(); if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(mod.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
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Object[] getPathToRoot(Object node, int depth) { TreeModel mod = tree.getModel(); if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(mod.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
| 187 |
Object[] getPathToRoot(Object node, int depth) { TreeModel mod = tree.getModel(); if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(mod.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
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Object[] getPathToRoot(Object node, int depth) { TreeModel mod = tree.getModel(); if (node == null) { if (depth == 0) return null; return new Object[depth]; } Object[] path = getPathToRoot(getParent(treeModel.getRoot(), node), depth + 1); path[path.length - depth - 1] = node; return path; }
| 188 |
public Dimension getPreferredMinSize() { // FIXME: not implemented return null; }
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public Dimension getPreferredMinSize() { // FIXME: not implemented return null; }
| 189 |
public Dimension getPreferredSize(JComponent c) { return getPreferredSize(c, false); }
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public Dimension getPreferredSize(JComponent c) { return getPreferredSize(c, false); }
| 190 |
Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
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Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
| 191 |
Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
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Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
| 192 |
Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
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Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
| 193 |
Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
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Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
| 194 |
Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
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Object getPreviousNode(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; Object sibling = getPreviousSibling(node); if (sibling == null) return parent; int size = 0; if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); while (size > 0) { sibling = mod.getChild(sibling, size - 1); if (!mod.isLeaf(sibling)) size = mod.getChildCount(sibling); else size = 0; } return sibling; }
| 195 |
Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
| 196 |
Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = treeModel.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
| 197 |
Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
| 198 |
Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return mod.getChild(parent, index); }
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Object getPreviousSibling(Object node) { TreeModel mod = tree.getModel(); Object parent = getParent(mod.getRoot(), node); if (parent == null) return null; int index = mod.getIndexOfChild(parent, node) - 1; int size = 0; if (!mod.isLeaf(parent)) size = mod.getChildCount(parent); if (index < 0 || index >= size) return null; return treeModel.getChild(parent, index); }
| 199 |
Object getPreviousVisibleNode(Object node) { Object prev = null; TreePath current = null; if (node != null) prev = getPreviousNode(node); if (prev != null) { current = new TreePath(getPathToRoot(prev, 0)); if (tree.isVisible(current)) return prev; while (prev != null && !tree.isVisible(current)) { prev = getPreviousNode(prev); if (prev != null) current = new TreePath(getPathToRoot(prev, 0)); } } return prev; }
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Object getPreviousVisibleNode(Object node) { Object prev = null; TreePath current = null; if (node != null) prev = getPreviousNode(node); if (prev != null) { current = new TreePath(getPathToRoot(prev, 0)); if (tree.isVisible(current)) return prev; while (prev != null && !tree.isVisible(current)) { prev = getPreviousNode(prev); if (prev != null) current = new TreePath(getPathToRoot(prev, 0)); } } return prev; }
| 200 |
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