private void installListeners() {
treeTableView
.getSelectionModel()
.selectedItemProperty()
.addListener(
(observable, oldValue, newValue) -> {
if (newValue != null) {
selectedAccountProperty.setValue(newValue.getValue());
} else {
selectedAccountProperty.setValue(null);
}
});
for (final TreeTableColumn<?, ?> treeTableColumn : treeTableView.getColumns()) {
treeTableColumn
.visibleProperty()
.addListener((observable, oldValue, newValue) -> saveColumnVisibility());
}
}
private TreeTableView<ITreeNode> createTreeTableView(ProfileContainer container) {
final List<Profile> profiles = container.getProfiles();
final MyTreeNode rootNode = new MyTreeNode(null);
for (Profile p : profiles) {
final MyTreeNode profileNode = new MyTreeNode(p);
rootNode.addChild(profileNode);
profileNode.addChild(createTreeNodes(p.getTopLevelMethod()));
}
final MyTreeModel model = new MyTreeModel(rootNode, new MethodStatsHelper(container));
final TreeItem<ITreeNode> root = model.toTreeItems();
root.setExpanded(true);
final TreeTableView<ITreeNode> treeTableView = new TreeTableView<>(root);
for (int i = 0; i < model.getColumnCount(); i++) {
final int columnNo = i;
final TreeTableColumn<ITreeNode, String> newColumn =
new TreeTableColumn<>(model.getColumnName(i));
newColumn.setCellValueFactory(
new Callback<
TreeTableColumn.CellDataFeatures<ITreeNode, String>, ObservableValue<String>>() {
@Override
public ObservableValue<String> call(CellDataFeatures<ITreeNode, String> param) {
return new ReadOnlyStringWrapper(
model.getValue(param.getValue().getValue(), columnNo));
}
});
treeTableView.getColumns().add(newColumn);
}
treeTableView.setShowRoot(false);
return treeTableView;
}
public Map<IPropertyName, Object> getChangeMap() {
final Map<IPropertyName, Object> result = new HashMap<>();
if (MathUtils.equals(treeTableColumn.getMinWidth(), originalSizing.getMinWidth()) == false) {
result.put(minWidthName, treeTableColumn.getMinWidth());
}
if (MathUtils.equals(treeTableColumn.getPrefWidth(), originalSizing.getPrefWidth()) == false) {
result.put(prefWidthName, treeTableColumn.getPrefWidth());
}
if (MathUtils.equals(treeTableColumn.getMaxWidth(), originalSizing.getMaxWidth()) == false) {
result.put(maxWidthName, treeTableColumn.getMaxWidth());
}
return result;
}
@SuppressWarnings("unchecked")
private void initializeTreeTableView() {
treeTableView.setShowRoot(false); // don't show the root
treeTableView.setEditable(true); // required for editable columns
treeTableView.setTableMenuButtonVisible(true);
// force resize policy for better default appearance
treeTableView.setColumnResizePolicy(TreeTableView.CONSTRAINED_RESIZE_POLICY);
final TreeTableColumn<Account, String> nameColumn =
new TreeTableColumn<>(resources.getString("Column.Account"));
nameColumn.setCellValueFactory(
param -> new ReadOnlyStringWrapper(param.getValue().getValue().getName()));
final TreeTableColumn<Account, Integer> entriesColumn =
new TreeTableColumn<>(resources.getString("Column.Entries"));
entriesColumn.setCellValueFactory(
param ->
new SimpleIntegerProperty(param.getValue().getValue().getTransactionCount())
.asObject());
final TreeTableColumn<Account, BigDecimal> balanceColumn =
new TreeTableColumn<>(resources.getString("Column.Balance"));
balanceColumn.setCellValueFactory(
param ->
new ReadOnlyObjectWrapper<>(
AccountBalanceDisplayManager.convertToSelectedBalanceMode(
param.getValue().getValue().getAccountType(),
param.getValue().getValue().getTreeBalance())));
balanceColumn.setCellFactory(cell -> new AccountCommodityFormatTreeTableCell());
final TreeTableColumn<Account, BigDecimal> reconciledBalanceColumn =
new TreeTableColumn<>(resources.getString("Column.ReconciledBalance"));
reconciledBalanceColumn.setCellValueFactory(
param ->
new ReadOnlyObjectWrapper<>(
AccountBalanceDisplayManager.convertToSelectedBalanceMode(
param.getValue().getValue().getAccountType(),
param.getValue().getValue().getReconciledTreeBalance())));
reconciledBalanceColumn.setCellFactory(cell -> new AccountCommodityFormatTreeTableCell());
final TreeTableColumn<Account, String> currencyColumn =
new TreeTableColumn<>(resources.getString("Column.Currency"));
currencyColumn.setCellValueFactory(
param ->
new ReadOnlyStringWrapper(param.getValue().getValue().getCurrencyNode().getSymbol()));
final TreeTableColumn<Account, String> typeColumn =
new TreeTableColumn<>(resources.getString("Column.Type"));
typeColumn.setCellValueFactory(
param ->
new ReadOnlyStringWrapper(param.getValue().getValue().getAccountType().toString()));
final TreeTableColumn<Account, Integer> codeColumn =
new TreeTableColumn<>(resources.getString("Column.Code"));
codeColumn.setEditable(true);
codeColumn.setCellValueFactory(
param ->
new SimpleIntegerProperty(param.getValue().getValue().getAccountCode()).asObject());
codeColumn.setCellFactory(param -> new IntegerEditingTreeTableCell());
codeColumn.setOnEditCommit(
event -> updateAccountCode(event.getRowValue().getValue(), event.getNewValue()));
treeTableView
.getColumns()
.addAll(
nameColumn,
codeColumn,
entriesColumn,
balanceColumn,
reconciledBalanceColumn,
currencyColumn,
typeColumn);
restoreColumnVisibility();
installListeners();
}
public TreeTableColumnResizer(TreeTableColumn<?, ?> treeTableColumn) {
assert treeTableColumn != null;
assert treeTableColumn.getTreeTableView() != null;
this.treeTableColumn = treeTableColumn;
this.originalSizing = new ColumnSizing(this.treeTableColumn);
final List<?> columns;
if (this.treeTableColumn.getParentColumn() != null) {
columns = this.treeTableColumn.getParentColumn().getColumns();
} else {
columns = this.treeTableColumn.getTreeTableView().getColumns();
}
final int columnIndex = columns.indexOf(this.treeTableColumn);
if (columnIndex + 1 < columns.size()) {
this.treeTableColumnNext = (TreeTableColumn<?, ?>) columns.get(columnIndex + 1);
this.originalSizingNext = new ColumnSizing(this.treeTableColumnNext);
} else {
this.treeTableColumnNext = null;
this.originalSizingNext = null;
}
//
// Case #1 : treeTableColumnNext != null
//
// x1 x2 x3
// --+-----------------+------------------------+--
// | col n | col n+1 |
// | | |
//
// Range for moving x2 is [x1, x3]
//
//
// Case #2 : treeTableColumnNext == null
//
// Case #2.1: treeTableColumn.getParentColumn() != null
//
// x1 x2 x3
// --+-----------------+ |
// | col n | |
// | | |
// parentColumn maxX
//
//
// Case #2.2: treeTableColumn.getParentColumn() == null
//
// x1 x2 x3
// --+-----------------+ |
// | col n | |
// | | |
// treeTableView maxX
//
// Range for moving x2 is [x1, x3]
//
//
final TreeTableViewDesignInfoX di = new TreeTableViewDesignInfoX();
final Bounds columnBounds = di.getColumnBounds(treeTableColumn);
x1 = columnBounds.getMinX();
x2 = columnBounds.getMaxX();
if (treeTableColumnNext != null) {
final Bounds nextBounds = di.getColumnBounds(treeTableColumnNext);
x3 = nextBounds.getMaxX();
} else {
if (treeTableColumn.getParentColumn() != null) {
final TableColumnBase<?, ?> parentColumn =
(TableColumnBase<?, ?>) this.treeTableColumn.getParentColumn();
assert parentColumn instanceof TreeTableColumn<?, ?>;
final Bounds parentBounds = di.getColumnBounds((TreeTableColumn<?, ?>) parentColumn);
x3 = parentBounds.getMaxX();
} else {
final Bounds layoutBounds = treeTableColumn.getTreeTableView().getLayoutBounds();
x3 = layoutBounds.getMaxX();
}
}
}
public void applyTo(TreeTableColumn<?, ?> tc) {
tc.setMinWidth(minWidth);
tc.setMaxWidth(maxWidth);
tc.setPrefWidth(prefWidth);
}
public ColumnSizing(TreeTableColumn<?, ?> tc) {
this.minWidth = tc.getMinWidth();
this.maxWidth = tc.getMaxWidth();
this.prefWidth = tc.getPrefWidth();
}
public void updateWidth(double dx) {
// Clamp x2 + dx in [x1, x3]
final double newX2 = Math.max(x1, Math.min(x3, x2 + dx));
final double newWidth = newX2 - x1;
final double newWidthNext = x3 - newX2;
// assert (newCellWidth+newNextWidth) ==
// (downColWidths[colIndex]+downColWidths[colIndex+1]) :
// "newCellWidth+newNextWidth=" + (newCellWidth+newNextWidth) + ", " +
// "downColWidths[colIndex]+downColWidths[colIndex+1]=" +
// (downColWidths[colIndex]+downColWidths[colIndex+1]);
// Updates width of treeTableColumn
treeTableColumn.setPrefWidth(newWidth);
if (treeTableColumn.getMinWidth() == Region.USE_COMPUTED_SIZE) {
treeTableColumn.setMinWidth(newWidth);
} else {
treeTableColumn.setMinWidth(Math.min(newWidth, treeTableColumn.getMinWidth()));
}
if (treeTableColumn.getMaxWidth() == Region.USE_COMPUTED_SIZE) {
treeTableColumn.setMaxWidth(newWidth);
} else {
treeTableColumn.setMaxWidth(Math.max(newWidth, treeTableColumn.getMaxWidth()));
}
// Updates with of treeTableColumnNext
if (treeTableColumnNext != null) {
treeTableColumnNext.setPrefWidth(newWidthNext);
if (treeTableColumnNext.getMinWidth() == Region.USE_COMPUTED_SIZE) {
treeTableColumnNext.setMinWidth(newWidthNext);
} else {
treeTableColumnNext.setMinWidth(Math.min(newWidthNext, treeTableColumnNext.getMinWidth()));
}
if (treeTableColumnNext.getMaxWidth() == Region.USE_COMPUTED_SIZE) {
treeTableColumnNext.setMaxWidth(newWidthNext);
} else {
treeTableColumnNext.setMaxWidth(Math.max(newWidthNext, treeTableColumnNext.getMaxWidth()));
}
}
}
