@Override
public void doActivate() {
super.doActivate();
final Procedure1<Text> _function =
(Text it) -> {
String _name = this.getName();
it.setText(_name);
TooltipExtensions.setTooltip(it, "Zoom to reveal content");
};
ObjectExtensions.<Text>operator_doubleArrow(this.label, _function);
boolean _equals = Objects.equal(this.innerDiagram, null);
if (_equals) {
String _name = this.getName();
String _plus = ("No inner diagram set on node " + _name);
String _plus_1 = (_plus + ". LOD behavior deactivated");
LevelOfDetailDiagramNode.LOG.severe(_plus_1);
} else {
XDiagram _diagram = CoreExtensions.getDiagram(this);
ViewportTransform _viewportTransform = _diagram.getViewportTransform();
ReadOnlyDoubleProperty _scaleProperty = _viewportTransform.scaleProperty();
final ChangeListener<Number> _function_1 =
(ObservableValue<? extends Number> prop, Number oldVal, Number newVal) -> {
Bounds _boundsInLocal = this.getBoundsInLocal();
final Bounds bounds = this.localToScene(_boundsInLocal);
double _width = bounds.getWidth();
double _height = bounds.getHeight();
final double area = (_width * _height);
if ((area <= 100000)) {
this.label.setVisible(true);
this.innerDiagramGroup.setVisible(false);
this.pane.setBackgroundPaint(RectangleBorderPane.DEFAULT_BACKGROUND);
} else {
this.label.setVisible(false);
this.innerDiagramGroup.setVisible(true);
this.innerDiagram.activate();
final Procedure1<DiagramScaler> _function_2 =
(DiagramScaler it) -> {
Bounds _layoutBounds = this.label.getLayoutBounds();
double _width_1 = _layoutBounds.getWidth();
double _plus_2 = (_width_1 + 40);
it.setWidth(_plus_2);
Bounds _layoutBounds_1 = this.label.getLayoutBounds();
double _height_1 = _layoutBounds_1.getHeight();
double _plus_3 = (_height_1 + 20);
it.setHeight(_plus_3);
it.activate();
};
ObjectExtensions.<DiagramScaler>operator_doubleArrow(this.diagramScaler, _function_2);
Paint _backgroundPaint = this.innerDiagram.getBackgroundPaint();
this.pane.setBackgroundPaint(_backgroundPaint);
}
};
_scaleProperty.addListener(_function_1);
}
}
@Override
public void drag(MouseEvent e, Dimension delta) {
if (invalidGesture) {
return;
}
if (selectionBounds == null) {
return;
}
Rectangle sel = updateSelectionBounds(e);
for (IContentPart<Node, ? extends Node> targetPart : targetParts) {
// compute initial and new bounds for this target
Bounds initialBounds = getBounds(selectionBounds, targetPart);
Bounds newBounds = getBounds(sel, targetPart);
// compute translation in scene coordinates
double dx = newBounds.getMinX() - initialBounds.getMinX();
double dy = newBounds.getMinY() - initialBounds.getMinY();
// transform translation to parent coordinates
Node visual = targetPart.getVisual();
Point2D originInParent = visual.getParent().sceneToLocal(0, 0);
Point2D deltaInParent = visual.getParent().sceneToLocal(dx, dy);
dx = deltaInParent.getX() - originInParent.getX();
dy = deltaInParent.getY() - originInParent.getY();
// apply translation
getTransformPolicy(targetPart).setPostTranslate(translateIndices.get(targetPart), dx, dy);
// check if we can resize the part
AffineTransform affineTransform = getTransformPolicy(targetPart).getCurrentNodeTransform();
if (affineTransform.getRotation().equals(Angle.fromDeg(0))) {
// no rotation => resize possible
// TODO: special case 90 degree rotations
double dw = newBounds.getWidth() - initialBounds.getWidth();
double dh = newBounds.getHeight() - initialBounds.getHeight();
Point2D originInLocal = visual.sceneToLocal(newBounds.getMinX(), newBounds.getMinY());
Point2D dstInLocal =
visual.sceneToLocal(newBounds.getMinX() + dw, newBounds.getMinY() + dh);
dw = dstInLocal.getX() - originInLocal.getX();
dh = dstInLocal.getY() - originInLocal.getY();
getResizePolicy(targetPart).resize(dw, dh);
} else {
// compute scaling based on bounds change
double sx = newBounds.getWidth() / initialBounds.getWidth();
double sy = newBounds.getHeight() / initialBounds.getHeight();
// apply scaling
getTransformPolicy(targetPart).setPostScale(scaleIndices.get(targetPart), sx, sy);
}
}
}
private static Bounds translateBounds(Bounds bounds, Point2D offset) {
return new BoundingBox(
bounds.getMinX() + offset.getX(),
bounds.getMinY() + offset.getY(),
bounds.getWidth(),
bounds.getHeight());
}
@Override
public Point2D _getMidpoint() {
StackPane tabRegion = getTabRegion();
Bounds boundsInParent = tabRegion.getBoundsInParent();
double x = boundsInParent.getWidth() / 2;
double y = boundsInParent.getHeight() / 2;
return tabRegion.localToParent(x, y);
}
public void setLayoutBounds(Bounds layoutBounds) {
// Setup layoutX/layoutY on the image view and the region (1)
region.setLayoutX(layoutBounds.getMinX());
region.setLayoutY(layoutBounds.getMinY());
region.setPrefWidth(layoutBounds.getWidth());
region.setPrefHeight(layoutBounds.getHeight());
}
@Override
protected void anchorBoundsDidChange() {
final Bounds lb = getAnchor().getLayoutBounds();
messagePanelController.setPanelWidth(lb.getWidth());
// This callback should not be needed for auto hiding popups
// See RT-31292 : Popup does not auto hide when resizing the window
updatePopupLocation();
}
private void handlePlatform() {
switch (currentDirection) {
case NONE:
break;
case LEFT:
{
double newPos = rect.getTranslateX() - SPEED;
if (newPos < areaBounds.getMinX()) {
newPos = areaBounds.getMinX();
}
rect.setTranslateX(newPos);
}
break;
case RIGHT:
{
double newPos = rect.getTranslateX() + SPEED;
if (newPos > areaBounds.getMaxX() - rectBounds.getWidth()) {
newPos = areaBounds.getMaxX() - rectBounds.getWidth();
}
rect.setTranslateX(newPos);
}
break;
case UP:
sceneSpeed += 0.1;
if (sceneSpeed > 10) {
sceneSpeed = 10;
}
break;
case DOWN:
sceneSpeed -= 0.1;
if (sceneSpeed < 0) {
sceneSpeed = 0;
}
break;
default:
break;
}
}
private void animateTransitionToLabel(Label newLabel) {
final Bounds newLabelBounds = newLabel.getBoundsInParent();
final double newX = newLabelBounds.getMinX();
final double newWidth = newLabelBounds.getWidth();
animation.getKeyFrames().clear();
animation
.getKeyFrames()
.add(
new KeyFrame(
TRANSITION_DURATION,
new KeyValue(selectedBackground.xProperty(), newX),
new KeyValue(selectedBackground.widthProperty(), newWidth)));
animation.play();
}
@Override
public Object eval(Environment env) {
Sprite sprite = env.getSprite();
Bounds spriteBounds = sprite.getBoundsInLocal();
Pane parent = (AnchorPane) sprite.getParent();
// x軸への動きしか想定しない
double rCollision =
parent.getWidth() - sprite.getTranslateX() - env.getX() - spriteBounds.getWidth();
double lCollision = sprite.getTranslateX() + env.getX();
if (rCollision < 0 || lCollision < 0) {
return TRUE;
}
return FALSE;
}
protected void animateComputeBox(double frac, Context context) {
bounds = label.getBoundsInParent();
bounds =
new BoundingBox(
bounds.getMinX() - HMARGIN,
bounds.getMinY() - VMARGIN,
bounds.getWidth() + 2 * HMARGIN,
bounds.getHeight() + 2 * VMARGIN);
rectangle.setFill(Color.TRANSPARENT);
context.styles.get(StyleId.LineColor).apply(rectangle);
context.styles.get(StyleId.PenWidth).apply(rectangle);
context.styles.get(StyleId.Dash).apply(rectangle);
context.styles.get(StyleId.Opacity).apply(rectangle);
rectangle.setX(bounds.getMinX());
rectangle.setY(bounds.getMinY());
rectangle.setWidth(0d);
rectangle.setHeight(0d);
rectangle.setVisible(false);
}
private void handleEvents(final String EVENT_TYPE) {
if ("RESIZE".equals(EVENT_TYPE)) {
resize();
redraw();
} else if ("REDRAW".equals(EVENT_TYPE)) {
redraw();
} else if ("RECALC".equals(EVENT_TYPE)) {
angleRange = Helper.clamp(90.0, 180.0, getSkinnable().getAngleRange());
startAngle = getStartAngle();
minValue = getSkinnable().getMinValue();
range = getSkinnable().getRange();
sections = getSkinnable().getSections();
angleStep = angleRange / range;
redraw();
} else if ("FINISHED".equals(EVENT_TYPE)) {
needleTooltip.setText(String.format(locale, formatString, getSkinnable().getValue()));
double value = getSkinnable().getValue();
if (getSkinnable().isValueVisible()) {
Bounds bounds = pane.localToScreen(pane.getBoundsInLocal());
double xFactor = value > getSkinnable().getRange() * 0.8 ? 0.0 : 0.25;
double tooltipAngle = value * angleStep;
double sinValue = Math.sin(Math.toRadians(180 + angleRange * 0.5 - tooltipAngle));
double cosValue = Math.cos(Math.toRadians(180 + angleRange * 0.5 - tooltipAngle));
double needleTipX =
bounds.getMinX() + bounds.getWidth() * 0.5 + bounds.getHeight() * sinValue;
double needleTipY =
bounds.getMinY() + bounds.getHeight() * 0.72 + bounds.getHeight() * cosValue;
needleTooltip.show(needle, needleTipX, needleTipY);
needleTooltip.setAnchorX(needleTooltip.getX() - needleTooltip.getWidth() * xFactor);
}
if (sections.isEmpty() || sectionsAlwaysVisible) return;
for (Section section : sections) {
if (section.contains(value)) {
barTooltip.setText(section.getText());
break;
}
}
} else if ("VISIBILITY".equals(EVENT_TYPE)) {
Helper.enableNode(titleText, !getSkinnable().getTitle().isEmpty());
}
}
@Override
protected void layoutChildren() {
super.layoutChildren();
if (_nodeByPosition.isEmpty()) {
adjustLineCount(0);
setPrefWidth(0);
setPrefHeight(0);
return;
}
// Calculate width per position based on layout bounds
Map<NodePosition, Double> widthByPosition = new HashMap<>();
Map<Integer, Double> levelHeight = new HashMap<>();
Map<Integer, Set<NodePosition>> positionsByLevel = new HashMap<>();
Map<NodePosition, Set<NodePosition>> positionsByParentPosition = new HashMap<>();
int maxLevel = Collections.max(_nodeByLevel.keySet());
for (int curLevel = maxLevel; curLevel >= 0; --curLevel) {
levelHeight.put(curLevel, 0.0);
positionsByLevel.put(curLevel, new HashSet<NodePosition>());
}
for (int curLevel = maxLevel; curLevel >= 0; --curLevel) {
// Get bounds of nodes on current level
Set<Node> curLevelNodes = _nodeByLevel.get(curLevel);
if (curLevelNodes != null) {
// Get node bounds
for (Node node : curLevelNodes) {
// Node data
NodePosition nodePosition = _positionByNode.get(node);
Bounds nodeBounds = node.getLayoutBounds();
// Get bounds
widthByPosition.put(nodePosition, nodeBounds.getWidth() + this.getXAxisSpacing());
levelHeight.put(
curLevel,
Math.max(levelHeight.get(curLevel), nodeBounds.getHeight() + this.getYAxisSpacing()));
// Register positions
positionsByLevel.get(curLevel).add(nodePosition);
if (curLevel > 0) {
positionsByLevel.get(curLevel - 1).add(nodePosition.getParent());
}
}
}
// Calculate position widths of current level
for (NodePosition position : positionsByLevel.get(curLevel)) {
// Register positions
if (position.getLevel() > 0) {
NodePosition parentPosition = position.getParent();
positionsByLevel.get(position.getLevel() - 1).add(parentPosition);
if (positionsByParentPosition.containsKey(parentPosition) == false) {
positionsByParentPosition.put(parentPosition, new HashSet<NodePosition>());
}
positionsByParentPosition.get(parentPosition).add(position);
}
// Get width of children
double widthOfChildren = 0;
Set<NodePosition> parentPositions = positionsByParentPosition.get(position);
if (parentPositions != null) {
for (NodePosition childPosition : parentPositions) {
if (widthByPosition.containsKey(childPosition) == true) {
widthOfChildren += widthByPosition.get(childPosition);
}
}
}
// Get maximum of node bound and sum of child node bounds
if (widthByPosition.containsKey(position) == false) {
widthByPosition.put(position, widthOfChildren);
} else {
widthByPosition.put(position, Math.max(widthByPosition.get(position), widthOfChildren));
}
}
}
// Calculate position boxes
Map<NodePosition, Rectangle2D> boxesByPosition = new HashMap<>();
if (positionsByLevel.containsKey(0) == false || positionsByLevel.get(0).size() != 1) {
throw new IllegalStateException();
}
boxesByPosition.put(
NodePosition.ROOT,
new Rectangle2D(0, 0, widthByPosition.get(NodePosition.ROOT), levelHeight.get(0)));
for (int curLevel = 0; curLevel <= maxLevel; ++curLevel) {
for (NodePosition position : positionsByLevel.get(curLevel)) {
Rectangle2D positionBox = boxesByPosition.get(position);
List<NodePosition> childPositions = new ArrayList<>();
if (positionsByParentPosition.containsKey(position)) {
childPositions.addAll(positionsByParentPosition.get(position));
}
Collections.sort(childPositions);
double childX = positionBox.getMinX();
for (NodePosition childPosition : childPositions) {
double childWidth = widthByPosition.get(childPosition);
boxesByPosition.put(
childPosition,
new Rectangle2D(
childX,
positionBox.getMaxY(),
childWidth,
levelHeight.get(childPosition.getLevel())));
childX += childWidth;
}
}
}
// Position nodes
Map<NodePosition, Double> xCenterHintByPosition = new HashMap<>();
Map<NodePosition, Double> yCenterHintByPosition = new HashMap<>();
for (int curLevel = maxLevel; curLevel >= 0; --curLevel) {
for (NodePosition position : positionsByLevel.get(curLevel)) {
// Calculate center hints
Rectangle2D positionBox = boxesByPosition.get(position);
double xCenterHint = (positionBox.getMinX() + positionBox.getMaxX()) / 2;
if (xCenterHintByPosition.containsKey(position) == true) {
xCenterHint = xCenterHintByPosition.get(position);
}
double yCenterHint = (positionBox.getMinY() + positionBox.getMaxY()) / 2;
xCenterHintByPosition.put(position, xCenterHint);
yCenterHintByPosition.put(position, yCenterHint);
// Position node
if (_nodeByPosition.containsKey(position)) {
Node node = _nodeByPosition.get(position);
Bounds nodeBounds = node.getLayoutBounds();
node.relocate(
xCenterHint - nodeBounds.getWidth() / 2, yCenterHint - nodeBounds.getHeight() / 2);
}
// Update parent node position hint
NodePosition parentPosition = position.getParent();
if (xCenterHintByPosition.containsKey(parentPosition)) {
xCenterHintByPosition.put(
parentPosition, (xCenterHintByPosition.get(parentPosition) + xCenterHint) / 2);
} else {
xCenterHintByPosition.put(parentPosition, xCenterHint);
}
}
}
// Update lines
if (this.getShowLines() == true) {
adjustLineCount(boxesByPosition.size() - 1);
int currentLine = 0;
for (NodePosition position : boxesByPosition.keySet()) {
if (positionsByParentPosition.containsKey(position) == false) {
continue;
}
for (NodePosition childPosition : positionsByParentPosition.get(position)) {
Bounds fromBounds =
_nodeByPosition.containsKey(position)
? _nodeByPosition.get(position).getLayoutBounds()
: null;
Bounds toBounds =
_nodeByPosition.containsKey(childPosition)
? _nodeByPosition.get(childPosition).getLayoutBounds()
: null;
Point2D lineFrom =
new Point2D(
xCenterHintByPosition.get(position),
yCenterHintByPosition.get(position)
+ (fromBounds != null ? (fromBounds.getHeight() / 2) : 0)
+ this.getLineSpacing());
Point2D lineTo =
new Point2D(
xCenterHintByPosition.get(childPosition),
yCenterHintByPosition.get(childPosition)
- (toBounds != null ? (toBounds.getHeight() / 2) : 0)
- this.getLineSpacing());
Line l = _lines.get(currentLine);
l.setStartX(lineFrom.getX());
l.setStartY(lineFrom.getY());
l.setEndX(lineTo.getX());
l.setEndY(lineTo.getY());
++currentLine;
}
}
} else {
adjustLineCount(0);
}
// Update preferred size
double totalHeight = 0;
for (Double h : levelHeight.values()) {
totalHeight += h;
}
setPrefWidth(widthByPosition.get(NodePosition.ROOT));
setPrefHeight(totalHeight);
}
protected void animateDrawBox(double frac, Context context) {
rectangle.setWidth(bounds.getWidth() * frac);
rectangle.setHeight(bounds.getHeight() * frac);
if (frac != 0d) rectangle.setVisible(true);
}
private void adjustWorkspace() {
final Bounds backgroundBounds, extensionBounds;
final Object userSceneGraph;
if (fxomDocument == null) {
userSceneGraph = null;
} else {
userSceneGraph = fxomDocument.getSceneGraphRoot();
}
if ((userSceneGraph instanceof Node) && (layoutException == null)) {
final Node rootNode = (Node) userSceneGraph;
final Bounds rootBounds = rootNode.getLayoutBounds();
if (rootBounds.isEmpty()
|| (rootBounds.getWidth() == 0.0)
|| (rootBounds.getHeight() == 0.0)) {
backgroundBounds = new BoundingBox(0.0, 0.0, 0.0, 0.0);
extensionBounds = new BoundingBox(0.0, 0.0, 0.0, 0.0);
} else {
final double scale;
if ((rootBounds.getDepth() > 0) && autoResize3DContent) {
// Content is 3D
final double scaleX = AUTORESIZE_SIZE / rootBounds.getWidth();
final double scaleY = AUTORESIZE_SIZE / rootBounds.getHeight();
final double scaleZ = AUTORESIZE_SIZE / rootBounds.getDepth();
scale = Math.min(scaleX, Math.min(scaleY, scaleZ));
} else {
scale = 1.0;
}
contentGroup.setScaleX(scale);
contentGroup.setScaleY(scale);
contentGroup.setScaleZ(scale);
final Bounds contentBounds = rootNode.localToParent(rootBounds);
backgroundBounds =
new BoundingBox(
0.0,
0.0,
contentBounds.getMinX() + contentBounds.getWidth(),
contentBounds.getMinY() + contentBounds.getHeight());
final Bounds unclippedRootBounds = computeUnclippedBounds(rootNode);
assert unclippedRootBounds.getHeight() != 0.0;
assert unclippedRootBounds.getWidth() != 0.0;
assert rootNode.getParent() == contentGroup;
final Bounds unclippedContentBounds = rootNode.localToParent(unclippedRootBounds);
extensionBounds = computeExtensionBounds(backgroundBounds, unclippedContentBounds);
}
} else {
backgroundBounds = new BoundingBox(0.0, 0.0, 320.0, 150.0);
extensionBounds = new BoundingBox(0.0, 0.0, 0.0, 0.0);
}
backgroundPane.setPrefWidth(backgroundBounds.getWidth());
backgroundPane.setPrefHeight(backgroundBounds.getHeight());
extensionRect.setX(extensionBounds.getMinX());
extensionRect.setY(extensionBounds.getMinY());
extensionRect.setWidth(extensionBounds.getWidth());
extensionRect.setHeight(extensionBounds.getHeight());
contentSubScene.setWidth(contentGroup.getLayoutBounds().getWidth());
contentSubScene.setHeight(contentGroup.getLayoutBounds().getHeight());
}