我也有同样的问题,因为我也在使用 JavaFX 8 特定的 TableViewSkin/VirtualFlow 代码,但现在使用这个解决方法,它总结了关于这个问题的另一篇文章中的一些建议 - 请参阅Tableview 可见行
此解决方法在 Java8/9 中运行和编译,并且不使用参考包 com.sun.javafx。要使用该类,您需要在构建 TableView 和向其中添加行之间创建一个 TableViewExtra:
TableView<YourRowType> tableView = new TableView<YourRowType>();
TableViewExtra<YourRowType> tvX = new TableViewExtra(tableView);
// Add some rows etc
然后你可以调用:
int firstVisRowIndex = tvX.getFirstVisibleIndex();
int lastVisRowIndex = tvX.getLastVisibleIndex();
txV.scrollToSelection();
您可以看到我曾经在评论中使用的旧 com.sun.javafx 依赖项:
import java.util.LinkedHashSet;
//com.sun.javafx: START
//import com.sun.javafx.scene.control.skin.TableViewSkin;
//import com.sun.javafx.scene.control.skin.VirtualFlow;
//import javafx.beans.value.ChangeListener;
//import javafx.beans.value.ObservableValue;
//import javafx.scene.Node;
//import javafx.scene.control.IndexedCell;
//import javafx.scene.control.Skin;
// com.sun.javafx: END
import javafx.collections.ObservableList;
import javafx.scene.control.TableRow;
import javafx.scene.control.TableView;
import javafx.util.Callback;
/**
* Extra calls for TableView which would have been nice to see in JavaFx TableView
*/
public class TableViewExtra<T> // com.sun.javafx: implements ChangeListener<Skin<?>>
{
private final TableView<T> tableView;
// com.sun.javafx: private VirtualFlow<?> flow;
LinkedHashSet<TableRow<T>> rows = new LinkedHashSet<>();
private int firstIndex;
private int lastIndex;
public TableViewExtra(TableView<T> tableView)
{
this.tableView = tableView;
// com.sun.javafx: tableView.skinProperty().addListener(this);
// Callback to monitor row creation and to identify visible screen rows
final Callback<TableView<T>, TableRow<T>> rf = tableView.getRowFactory();
final Callback<TableView<T>, TableRow<T>> modifiedRowFactory = new Callback<TableView<T>, TableRow<T>>() {
@Override
public TableRow<T> call(TableView<T> param)
{
TableRow<T> r = rf != null ? rf.call(param) : new TableRow<T>();
// Save row, this implementation relies on JaxaFX re-using TableRow efficiently
rows.add(r);
return r;
}
};
tableView.setRowFactory(modifiedRowFactory);
}
// com.sun.javafx BEGIN
// public void changed(ObservableValue<? extends Skin<?>> ov, Skin<?> t, Skin<?> t1)
// {
// if (t1 == null) {
// return;
// }
//
// TableViewSkin<?> tvs = (TableViewSkin<?>) t1;
// ObservableList<Node> kids = tvs.getChildren();
//
// if (kids == null || kids.isEmpty() || kids.size() < 2) {
// return;
// }
// flow = (VirtualFlow<?>) kids.get(1);
// }
// com.sun.javafx END
/**
* Changes the current view to ensure that one of the passed index positions
* is visible on screen. The view is not changed if any of the passed index positions is already visible.
* The table scroll position is moved so that the closest index to the current position is visible.
* @param indices Assumed to be in ascending order.
*
*/
public void
scrollToIndex(int ... indices)
{
int first = getFirstVisibleIndex();
int last = getLastVisibleIndex();
int where = first;
boolean changeScrollPos = true;
// No point moving current scroll position if one of the index items is visible already:
if (first >= 0 && last >= first)
for (int idx : indices)
{
if (first <= idx && idx <= last)
{
changeScrollPos = false;
break;
}
}
if (indices.length > 0 && changeScrollPos)
{
where = indices[0];
if (first >= 0)
{
int x = closestTo(indices, first);
int abs = Math.abs(x - first);
if (abs < Math.abs(where - first))
{
where = x;
}
}
if (last >= 0)
{
int x = closestTo(indices, last);
int abs = Math.abs(x - last);
if (abs < Math.abs(where - last))
{
where = x;
}
}
tableView.scrollTo(where);
}
}
private static int closestTo(int[] indices, int value)
{
int x = indices[0];
int diff = Math.abs(value - x);
int newDiff = diff;
for (int v : indices)
{
newDiff = Math.abs(value - v);
if (newDiff < diff)
{
x = v;
diff = newDiff;
}
}
return x;
}
private void recomputeVisibleIndexes()
{
firstIndex = -1;
lastIndex = -1;
// Work out which of the rows are visible
double tblViewHeight = tableView.getHeight();
double headerHeight = tableView.lookup(".column-header-background").getBoundsInLocal().getHeight();
double viewPortHeight = tblViewHeight - headerHeight;
for(TableRow<T> r : rows)
{
if (!r.isVisible()) continue; // tingyik90
double minY = r.getBoundsInParent().getMinY();
double maxY = r.getBoundsInParent().getMaxY();
boolean hidden = (maxY < 0) || (minY > viewPortHeight);
// boolean fullyVisible = !hidden && (maxY <= viewPortHeight) && (minY >= 0);
if (!hidden)
{
if (firstIndex < 0 || r.getIndex() < firstIndex)
{
firstIndex = r.getIndex();
}
if (lastIndex < 0 || r.getIndex() > lastIndex)
{
lastIndex = r.getIndex();
}
}
}
}
/**
* Find the first row in the tableView which is visible on the display
* @return -1 if none visible or the index of the first visible row (wholly or fully)
*/
public int getFirstVisibleIndex()
{
// com.sun.javafx: START
// int jre8Index = -1;
// if (flow != null)
// {
// IndexedCell<?> cell = flow.getFirstVisibleCell();
// if (cell != null)
// {
// jre8Index = cell.getIndex();
// }
// }
// com.sun.javafx: END
recomputeVisibleIndexes();
System.out.println("getFirstVisibleIndex "+firstIndex+" rows="+rows.size()/*com.sun.javafx:+" jre8Index="+jre8Index*/);
return firstIndex;
}
/**
* Find the last row in the tableView which is visible on the display
* @return -1 if none visible or the index of the last visible row (wholly or fully)
*/
public int getLastVisibleIndex()
{
// com.sun.javafx: END
// int jre8Index = -1;
// if (flow != null)
// {
// IndexedCell<?> cell = flow.getLastVisibleCell();
// if (cell != null)
// jre8Index = cell.getIndex();
// }
// com.sun.javafx: END
recomputeVisibleIndexes();
System.out.println("getLastVisibleIndex "+lastIndex+" rows="+rows.size()/*com.sun.javafx:+" jre8Index="+jre8Index*/);
return lastIndex;
}
/**
* Ensure that some part of the current selection is visible in the display view
*/
public void scrollToSelection()
{
ObservableList<Integer> seln = tableView.getSelectionModel().getSelectedIndices();
int[] indices = new int[seln.size()];
for (int i = 0; i < indices.length; i++)
{
indices[i] = seln.get(i).intValue();
}
scrollToIndex(indices);
}
}