/** WARNING -- dangerous! Call {@link #unregister(long)} instead! */ public synchronized void clear() { nextId = INITIAL_ID; nativeObjToIdMap.clear(); }
public void clearOriginalIdentifiers() { currentEquivalentMap.clear(); currentCloneMap.clear(); }
@Override public void clear() { overlays.values().forEach(ControlWidget::onClosed); overlays.clear(); hudScreenLayer.clear(); screens.forEach(ControlWidget::onClosed); screens.clear(); screenLookup.clear(); focus = null; forceReleaseMouse = false; }
public void clear() { if ( tree != null ) { tree.removeAll(); } treeNodeItemMap.clear(); hideAll(); }
@MapFeature.Require(SUPPORTS_REMOVE) public void testClearInverseClears() { BiMap<V, K> inv = getMap().inverse(); inv.clear(); assertTrue(getMap().isEmpty()); assertTrue(inv.isEmpty()); }
@MapFeature.Require(SUPPORTS_REMOVE) public void testClearClearsInverse() { BiMap<V, K> inv = getMap().inverse(); getMap().clear(); assertTrue(getMap().isEmpty()); assertTrue(inv.isEmpty()); }
@Override public void invalidate() { assetManager.getLoadedAssets(UIElement.class).forEach(UIElement::dispose); boolean hudVisible = isHUDVisible(); if (hudVisible) { setHUDVisible(false); } Deque<ResourceUrn> reverseUrns = new LinkedList<>(); Map<UIScreenLayer, ResourceUrn> inverseLookup = screenLookup.inverse(); for (UIScreenLayer screen : screens) { screen.onClosed(); reverseUrns.addFirst(inverseLookup.get(screen)); } screens.clear(); screenLookup.clear(); reverseUrns.forEach(this::pushScreen); if (hudVisible) { setHUDVisible(true); } } @Override
biomeShortIdMap.clear();
public void clear() { oidCache.clear(); } }
/** * This test indexes a specified number of values in the class being tested and checks correctness by * comparing results against {@link BiMap} for the same input. * <ul> * <li> Size of the map (cardinality) should be as expected. </li> * <li> For each value, id should be as expected. </li> * <li> For each id, should return the expected value back. </li> * </ul> */ @Test public void test() { BiMap<FixedIntArray, Integer> expectedMap = addValues(_idMap); int numValues = expectedMap.size(); // Test invalid Value Assert.assertEquals(_idMap.getId(new FixedIntArray(new int[]{})), IdMap.INVALID_ID); Assert.assertEquals(_idMap.size(), numValues); testValues(expectedMap); // Test the clear() api. _idMap.clear(); Assert.assertEquals(_idMap.size(), 0); // Test adding after clearing. expectedMap.clear(); expectedMap = addValues(_idMap); numValues = expectedMap.size(); Assert.assertEquals(_idMap.size(), numValues); testValues(expectedMap); }
@Override public void clear() { if (guidIndex != null) { guidIndex.clear(); } if (guidIndexed != null) { guidIndexed.clear(); } if (indexPerClass != null) { indexPerClass.clear(); } if (nameIndex != null) { nameIndex.clear(); } if (indexPerClassWithSubTypes != null) { indexPerClassWithSubTypes.clear(); } if (objects != null) { objects.clear(); } }
public void clear() { for (Entry<Long, EndPoint> entry : endPoints.entrySet()) { entry.getValue().cleanup(); } endPoints.clear(); } }
@Override public void onDisable() { super.onDisable(); paintings.clear(); }
ChangeVerifier snapshot(Node root) { // remove any existing snapshot data. clonesByCurrent.clear(); snapshotChange = compiler.getChangeStamp(); Node snapshot = root.cloneTree(); associateClones(root, snapshot); return this; }
@MapFeature.Require(SUPPORTS_REMOVE) public void testClearInverseClears() { BiMap<V, K> inv = getMap().inverse(); inv.clear(); assertTrue(getMap().isEmpty()); assertTrue(inv.isEmpty()); }
@MapFeature.Require(SUPPORTS_REMOVE) public void testClearClearsInverse() { BiMap<V, K> inv = getMap().inverse(); getMap().clear(); assertTrue(getMap().isEmpty()); assertTrue(inv.isEmpty()); }