private static Bounds computeExtensionBounds( Bounds backgroundBounds, Bounds unclippedContentBounds) { final Bounds totalBounds = unionOfBounds(backgroundBounds, unclippedContentBounds); final double backgroundCenterX, backgroundCenterY; backgroundCenterX = (backgroundBounds.getMinX() + backgroundBounds.getMaxX()) / 2.0; backgroundCenterY = (backgroundBounds.getMinY() + backgroundBounds.getMaxY()) / 2.0; assert totalBounds.contains(backgroundCenterX, backgroundCenterY); double extensionHalfWidth, extensionHalfHeight; extensionHalfWidth = Math.max( backgroundCenterX - totalBounds.getMinX(), totalBounds.getMaxX() - backgroundCenterX); extensionHalfHeight = Math.max( backgroundCenterY - totalBounds.getMinY(), totalBounds.getMaxY() - backgroundCenterY); // We a few pixels in order the parent ring of root object // to fit inside the extension rect. extensionHalfWidth += 20.0; extensionHalfHeight += 20.0; return new BoundingBox( backgroundCenterX - extensionHalfWidth, backgroundCenterY - extensionHalfHeight, extensionHalfWidth * 2, extensionHalfHeight * 2); }
private static Bounds computeUnclippedBounds(Node node) { final Bounds layoutBounds; double minX, minY, maxX, maxY, minZ, maxZ; assert node != null; assert node.getLayoutBounds().isEmpty() == false; layoutBounds = node.getLayoutBounds(); minX = layoutBounds.getMinX(); minY = layoutBounds.getMinY(); maxX = layoutBounds.getMaxX(); maxY = layoutBounds.getMaxY(); minZ = layoutBounds.getMinZ(); maxZ = layoutBounds.getMaxZ(); if (node instanceof Parent) { final Parent parent = (Parent) node; for (Node child : parent.getChildrenUnmodifiable()) { final Bounds childBounds = child.getBoundsInParent(); minX = Math.min(minX, childBounds.getMinX()); minY = Math.min(minY, childBounds.getMinY()); maxX = Math.max(maxX, childBounds.getMaxX()); maxY = Math.max(maxY, childBounds.getMaxY()); minZ = Math.min(minZ, childBounds.getMinZ()); maxZ = Math.max(maxZ, childBounds.getMaxZ()); } } assert minX <= maxX; assert minY <= maxY; assert minZ <= maxZ; return new BoundingBox(minX, minY, minZ, maxX - minX, maxY - minY, maxZ - minZ); }
private static Bounds intersectBounds(Bounds a, Bounds b) { double minX = Math.max(a.getMinX(), b.getMinX()); double minY = Math.max(a.getMinY(), b.getMinY()); double maxX = Math.min(a.getMaxX(), b.getMaxX()); double maxY = Math.min(a.getMaxY(), b.getMaxY()); double width = maxX - minX; double height = maxY - minY; return new BoundingBox(minX, minY, width, height); }
/** Transforms the given bounds in the given scene to the screen's coordinate system. */ public static Bounds boundsOnScreen(Bounds boundsInScene, Scene scene) { Bounds sceneBoundsInWindow = bounds(scene); Bounds windowBoundsOnScreen = bounds(scene.getWindow()); return translateBounds( boundsInScene, byOffset( sceneBoundsInWindow.getMinX() + windowBoundsOnScreen.getMinX(), sceneBoundsInWindow.getMinY() + windowBoundsOnScreen.getMinY())); }
@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()); }
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()); }
private void advanceBall() { double refAngle = 0; boolean doBounce = false; double jitter = 0; if (ballBounds.getMaxY() >= rectBounds.getMinY()) { if (ballBounds.getMaxX() < rectBounds.getMinX() || ballBounds.getMinX() > rectBounds.getMaxX()) { isExploding = true; ball.setFill(Color.RED); } else { // calculate a value between -0.5 and 0.5 which corresponds to the // position within the platform where the ball bounces double pos = (ball.getTranslateX() - rect.getTranslateX()) / rect.getWidth(); if (pos < 0) { pos = 0; } if (pos > 1) { pos = 1; } pos = pos - 0.5; // system.err.printf("%s\n", pos); jitter = pos; doBounce = true; } } if (ballBounds.getMinY() <= areaBounds.getMinY() || ballBounds.getMaxY() >= areaBounds.getMaxY()) { // this must never happen! doBounce = true; } else if (ballBounds.getMinX() <= areaBounds.getMinX() || ballBounds.getMaxX() >= areaBounds.getMaxX()) { doBounce = true; refAngle = Math.PI / 2; } if (doBounce) { ballAngle = calculateExitAngle(ballAngle, refAngle) + jitter; dx = ballSpeed * Math.cos(ballAngle); dy = ballSpeed * Math.sin(ballAngle); } ball.setTranslateX(ball.getTranslateX() + dx); ball.setTranslateY(ball.getTranslateY() - dy); }
/* This code has been taken from: * https://community.oracle.com/thread/2534556?tstart=0 * AND WAS MODIFIED!*/ public static final Point2D getNodeLocation(Node node) { double x = 0, y = 0; for (Node n = node; n != null; n = n.getParent()) { Bounds parentBounds = n.getBoundsInParent(); x += parentBounds.getMinX(); y += parentBounds.getMinY(); } return new Point2D(x, y); }
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; } }
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); }
// as of JDK 1.6: @Override public int getScreenLocationX() { // this code is never called? Bounds lBoundsInScenenode = node.localToScene(node.getBoundsInLocal()); int v = (int) Math.ceil( node.getScene().getX() + node.getScene().getX() + lBoundsInScenenode.getMinX()); // for debugging System.out.println(getComponent() + " getScreenLocationX =" + v); return v; }
public Pair<CoordinatePair, CoordinatePair> addAnchorLines(ComponentView componentView) { Bounds bounds = componentView.getBoundsInParent(); // Left Anchor wire CoordinatePair pair1 = new CoordinatePair(bounds.getMinX() - Component.OFFSET, bounds.getMaxY() / 2); // Right Anchor wire CoordinatePair pair2 = new CoordinatePair(bounds.getMaxX() + Component.OFFSET, bounds.getMaxY() / 2); Line line1 = new Line( bounds.getMinX(), bounds.getMaxY() / 2, bounds.getMinX() - Component.OFFSET, bounds.getMaxY() / 2); Line line2 = new Line( bounds.getMaxX(), bounds.getMaxY() / 2, bounds.getMaxX() + Component.OFFSET, bounds.getMaxY() / 2); componentView.getChildren().addAll(line1, line2); return new Pair(pair1, pair2); }
private static Bounds unionOfBounds(Bounds b1, Bounds b2) { final Bounds result; if (b1.isEmpty()) { result = b2; } else if (b2.isEmpty()) { result = b1; } else { final double minX = Math.min(b1.getMinX(), b2.getMinX()); final double minY = Math.min(b1.getMinY(), b2.getMinY()); final double minZ = Math.min(b1.getMinZ(), b2.getMinZ()); final double maxX = Math.max(b1.getMaxX(), b2.getMaxX()); final double maxY = Math.max(b1.getMaxY(), b2.getMaxY()); final double maxZ = Math.max(b1.getMaxZ(), b2.getMaxZ()); assert minX <= maxX; assert minY <= maxY; assert minZ <= maxZ; result = new BoundingBox(minX, minY, minZ, maxX - minX, maxY - minY, maxZ - minZ); } return result; }
private SequentialTransition CalculateTransition( Card c, HBox PlayerCardBox, ImageView imView, int iCardDrawn) { // This is the card that is going to be dealt to the player. String strCard = "/res/img/" + c.getCardImg(); ImageView imgvCardDealt = new ImageView(new Image(getClass().getResourceAsStream(strCard), 96, 71, true, true)); // imgvCardFaceDown - There's already a place holder card // sitting in // the player's hbox. It's face down. Find it // and then determine it's bounds and top left hand handle. ImageView imgvCardFaceDown = (ImageView) PlayerCardBox.getChildren().get(iCardDrawn - 1); Bounds bndCardDealt = imgvCardFaceDown.localToScene(imgvCardFaceDown.getBoundsInLocal()); Point2D pntCardDealt = new Point2D(bndCardDealt.getMinX(), bndCardDealt.getMinY()); // imgvDealerDeck = the card in the common area, where dealer's // card // is located. Find the boundary top left point. ImageView imgvDealerDeck = (ImageView) HboxCommonArea.getChildren().get(0); Bounds bndCardDeck = imgvDealerDeck.localToScene(imgvDealerDeck.getBoundsInLocal()); Point2D pntCardDeck = new Point2D(bndCardDeck.getMinX(), bndCardDeck.getMinY()); // Add a sequential transition to the card (move, rotate) SequentialTransition transMoveRotCard = createTransition(pntCardDeck, pntCardDealt, imView); // Add a parallel transition to the card (fade in/fade out). final ParallelTransition transFadeCardInOut = createFadeTransition( imgvCardFaceDown, new Image(getClass().getResourceAsStream(strCard), 75, 75, true, true)); SequentialTransition transAllActions = new SequentialTransition(); transAllActions.getChildren().addAll(transMoveRotCard, transFadeCardInOut); return transAllActions; }
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(); }
/** Update the popup location below the anchor node. */ @Override protected void updatePopupLocation() { final Bounds anchorBounds = getAnchor().getLayoutBounds(); Point2D popupLocation; assert anchorBounds != null; // At exit time, closeRequestHandler() is not always called. // So this method can be invoked after the anchor has been removed the // scene. This looks like a bug in FX... // Anway we protect ourself by checking. if (getAnchor().getScene() != null) { popupLocation = getAnchor().localToScreen(anchorBounds.getMinX(), anchorBounds.getMaxY()); getPopup().setX(popupLocation.getX()); getPopup().setY(popupLocation.getY()); } }
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()); } }
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(); } } }
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()); }
/** Translates the given bounds in the given window to the screen's coordinate system */ public static Bounds boundsOnScreen(Bounds boundsInWindow, Window window) { Bounds windowBoundsOnScreen = bounds(window); return translateBounds( boundsInWindow, byOffset(windowBoundsOnScreen.getMinX(), windowBoundsOnScreen.getMinY())); }