I have a simple FX example with a simple component.
package fxtest;
import javafx.application.Application;
import javafx.scene.Scene;
import javafx.scene.layout.BorderPane;
import javafx.scene.layout.StackPane;
import javafx.scene.paint.Color;
import javafx.scene.shape.Rectangle;
import javafx.stage.Stage;
public class App extends Application {
#Override
public void start(Stage stage) {
var bp = new BorderPane();
var r = new Rectangle(0, 0, 200, 200);
r.setFill(Color.GREEN);
var sp = new StackPane(r);
bp.setCenter(sp);
bp.setTop(new XPane());
bp.setBottom(new XPane());
bp.setLeft(new XPane());
bp.setRight(new XPane());
var scene = new Scene(bp, 640, 480);
stage.setScene(scene);
stage.show();
}
public static void main(String[] args) {
launch();
}
}
package fxtest;
import javafx.collections.ObservableList;
import javafx.scene.Node;
import javafx.scene.layout.Region;
import javafx.scene.paint.Color;
import javafx.scene.shape.Line;
import javafx.scene.shape.Rectangle;
public class XPane extends Region {
public XPane() {
setMaxSize(Double.MAX_VALUE, Double.MAX_VALUE);
setMinSize(100, 100);
setPrefSize(100, 100);
widthProperty().addListener((o) -> {
populate();
});
heightProperty().addListener((o) -> {
populate();
});
populate();
}
private void populate() {
ObservableList<Node> children = getChildren();
Rectangle r = new Rectangle(getWidth(), getHeight());
r.setFill(Color.WHITE);
r.setStroke(Color.BLACK);
children.add(r);
Line line = new Line(0, 0, getWidth(), getHeight());
children.add(line);
line = new Line(0, getHeight(), getWidth(), 0);
children.add(line);
}
}
When run, it does what I expect:
When I grow the window, the X's grow.
But when I shrink the window, I get artifacts of the side panels.
I would have thought erasing the backgrounds would have fixed this, but I guess there's some ordering issue. But even still, when you drag the corner, all of the XPanes change size, and they all get repainted, but the artifacts remain.
I tried wrapping the XPanes in to a StackPane, but that didn't do anything (I didn't think it would, but tried it anyway).
How do I remedy this? This is JavaFX 13 on JDK 16 on macOS Big Sur.
Why you get artifacts
I think a different approach should be used rather than fixing the approach you have, but you could fix it if you want.
You are adding new rectangles and lines to your XPane in listeners. Every time the height or width changes, you add a new set of nodes, but the old set of nodes at the old height and widths remains. Eventually, if you resize enough, performance will drop or you will run out of memory or resources, making the program unusable.
A BorderPane paints its children (the center and the XPanes) in the order they were added without clipping, so these old lines will remain and the renderer will paint them over some panes as you resize. Similarly, some panes will paint over some lines because you are building up potentially lots of filled rectangles in the panes and they are partially overlapping lots of lines created.
To fix this, clear() the child node list in your populate() method before you add any new nodes.
private void populate() {
ObservableList<Node> children = getChildren();
children.clear();
// now you can add new nodes...
}
Alternate Solution
Change listeners on widths and heights aren't really the place to add content to a custom region, IMO.
I think that it is best to take advantage of the scene graph and let it handle the repainting and updating of existing nodes after you change the attributes of those nodes, instead of creating new nodes all the time.
Here is an example that subclasses Region and paints fine when a resize occurs.
import javafx.scene.layout.Region;
import javafx.scene.paint.Color;
import javafx.scene.shape.Line;
import javafx.scene.shape.Rectangle;
public class XPane extends Region {
public XPane() {
super();
Rectangle border = new Rectangle();
Line topLeftToBottomRight = new Line();
Line bottomLeftToTopRight = new Line();
getChildren().addAll(
border,
topLeftToBottomRight,
bottomLeftToTopRight
);
border.setStroke(Color.BLACK);
border.setFill(Color.WHITE);
border.widthProperty().bind(
widthProperty()
);
border.heightProperty().bind(
heightProperty()
);
topLeftToBottomRight.endXProperty().bind(
widthProperty()
);
topLeftToBottomRight.endYProperty().bind(
heightProperty()
);
bottomLeftToTopRight.startYProperty().bind(
heightProperty()
);
bottomLeftToTopRight.endXProperty().bind(
widthProperty()
);
setMinSize(100, 100);
setPrefSize(100, 100);
}
}
On Region vs Pane
I'm not sure if you should be subclassing Pane or Region, the main difference between the two is that a Pane has a public accessor for a modifiable child list, but a Region does not. So it would depend on what you are trying to do. If it is just drawing X's like the example, then Region is appropriate.
On layoutChildren() vs binding
The Region documentation states:
By default a Region inherits the layout behavior of its superclass,
Parent, which means that it will resize any resizable child nodes to
their preferred size, but will not reposition them. If an application
needs more specific layout behavior, then it should use one of the
Region subclasses: StackPane, HBox, VBox, TilePane, FlowPane,
BorderPane, GridPane, or AnchorPane.
To implement a more custom layout, a Region subclass must override
computePrefWidth, computePrefHeight, and layoutChildren. Note that
layoutChildren is called automatically by the scene graph while
executing a top-down layout pass and it should not be invoked directly
by the region subclass.
Region subclasses which layout their children will position nodes by
setting layoutX/layoutY and do not alter translateX/translateY, which
are reserved for adjustments and animation.
I am not actually doing that here, instead, I am binding in the constructor rather than overriding layoutChildren(). You could implement an alternate solution that operates as the documentation discusses, overriding layoutChildren() rather than using binding, but it is more complicated and less well documented on how to do that.
It is uncommon to subclass Region and override layoutChildren(). Instead, usually, a combination of standard layout Panes will be used and constraints set on the panes and nodes to get the desired layout. This lets the layout engine do a lot of the work such as snapping to pixels, calculating margins and insets, respecting constraints, repositioning content, etc, a lot of which would need to be done manually for a layoutChildren() implementation.
One common approach is to bind the relevant geometric properties to the desired properties of the enclosing container. A related example is examined here, and others are collected here.
The variation below binds the vertices of several Shape instances to the Pane width and height properties. Resize the enclosing stage to see how the BorderPane children conform to entries in the BorderPane Resize Table. The example also adds a red Circle, which stays centered in each child, growing and shrinking in the center to fill the smaller of the width or height. The approach relies on the fluent arithmetic API available to properties that implement NumberExpression or methods defined in Bindings.
c.centerXProperty().bind(widthProperty().divide(2));
c.centerYProperty().bind(heightProperty().divide(2));
NumberBinding diameter = Bindings.min(widthProperty(), heightProperty());
c.radiusProperty().bind(diameter.divide(2));
import javafx.application.Application;
import javafx.beans.binding.Bindings;
import javafx.beans.binding.NumberBinding;
import javafx.scene.Scene;
import javafx.scene.layout.BorderPane;
import javafx.stage.Stage;
import javafx.scene.layout.Pane;
import javafx.scene.paint.Color;
import javafx.scene.shape.Circle;
import javafx.scene.shape.Line;
import javafx.scene.shape.Rectangle;
/**
* #see https://stackoverflow.com/q/70311488/230513
*/
public class App extends Application {
#Override
public void start(Stage stage) {
var bp = new BorderPane(new XPane(), new XPane(),
new XPane(), new XPane(), new XPane());
stage.setScene(new Scene(bp, 640, 480));
stage.show();
}
private static class XPane extends Pane {
private final Rectangle r = new Rectangle();
private final Circle c = new Circle(8, Color.RED);
private final Line line1 = new Line();
private final Line line2 = new Line();
public XPane() {
setPrefSize(100, 100);
r.widthProperty().bind(this.widthProperty());
r.heightProperty().bind(this.heightProperty());
r.setFill(Color.WHITE);
r.setStroke(Color.BLACK);
getChildren().add(r);
line1.endXProperty().bind(widthProperty());
line1.endYProperty().bind(heightProperty());
getChildren().add(line1);
line2.startXProperty().bind(widthProperty());
line2.endYProperty().bind(heightProperty());
getChildren().add(line2);
c.centerXProperty().bind(widthProperty().divide(2));
c.centerYProperty().bind(heightProperty().divide(2));
NumberBinding diameter = Bindings.min(widthProperty(), heightProperty());
c.radiusProperty().bind(diameter.divide(2));
getChildren().add(c);
}
}
public static void main(String[] args) {
launch();
}
}
Related
I have a JavaFX Group that contains a lot of ImageViews and a few overlays. I want it to render a specific mathematical rectangle which usually does not match the bounding box of the combined children. For a simpler concrete example I have created the following app:
import javafx.application.*;
import javafx.scene.*;
import javafx.scene.layout.*;
import javafx.scene.paint.*;
import javafx.scene.shape.*;
import javafx.stage.*;
public class GroupWindow
extends Application
{
#Override
public void start(Stage stage)
throws Exception
{
Group gr = new Group();
Shape circle1 = new Circle(-300, 0, 50);
circle1.setFill(Color.GREEN);
gr.getChildren().add(circle1);
Shape circle2 = new Circle(0, 300, 50);
circle2.setFill(Color.GREEN);
gr.getChildren().add(circle2);
Shape LLrect = new Rectangle(-200, 0, 200,200);
LLrect.setFill(Color.BLUE);
gr.getChildren().add(LLrect);
VBox vbox = new VBox(gr);
stage.setScene(new Scene(vbox));
stage.show();
}
public static void main(String[] args)
{
Application.launch(args);
}
}
When I run the application I get a window that looks like
What I need is for it to look like
I could accomplish this if I knew the method call that would tell the Group to restrict its viewport to x in [-200..200] and y in [-200..200].
One comment suggests setting a clip. Adding a gr.setClip(new Rectangle(-200,-200, 400,400)); causes it to not draw the green circles, but the rendered window encompasses the same space as the first (undesirable) screenshot. So the clip does not affect how the Group decides its rendering window.
What technique should I use to specify this intent to javafx's layout engine?
I'm trying to create a draggable selection box for a sketching program in JavaFX, one like this:
I'm only not sure how to do it. I initially wanted to do it like this: capture the mouse coordinates when the mouse is pressed and do it again at the end of a drag, then calculate the height and width and make a transparent button with a black border with these properties.
But, then I realized that when I do it like this, it is not possible to see the button while you are scaling the plane, unless you draw and delete a lot of buttons.
So, I wondered if there is a better way to do something like this or is my reasoning above right? Thanks
I would use a Rectangle instead of a Button. Just do what you describe, but update the size (and position) of the rectangle on mouse drag, instead of only adding it when the mouse is released.
import javafx.application.Application;
import javafx.scene.Scene;
import javafx.scene.layout.Pane;
import javafx.scene.paint.Color;
import javafx.scene.shape.Rectangle;
import javafx.stage.Stage;
public class SelectionRectangle extends Application {
private double mouseDownX ;
private double mouseDownY ;
#Override
public void start(Stage primaryStage) {
Rectangle selectionRectangle = new Rectangle();
selectionRectangle.setStroke(Color.BLACK);
selectionRectangle.setFill(Color.TRANSPARENT);
selectionRectangle.getStrokeDashArray().addAll(5.0, 5.0);
Pane pane = new Pane();
pane.setMinSize(600, 600);
pane.getChildren().add(selectionRectangle);
pane.setOnMousePressed(e -> {
mouseDownX = e.getX();
mouseDownY = e.getY();
selectionRectangle.setX(mouseDownX);
selectionRectangle.setY(mouseDownY);
selectionRectangle.setWidth(0);
selectionRectangle.setHeight(0);
});
pane.setOnMouseDragged(e -> {
selectionRectangle.setX(Math.min(e.getX(), mouseDownX));
selectionRectangle.setWidth(Math.abs(e.getX() - mouseDownX));
selectionRectangle.setY(Math.min(e.getY(), mouseDownY));
selectionRectangle.setHeight(Math.abs(e.getY() - mouseDownY));
});
primaryStage.setScene(new Scene(pane));
primaryStage.show();
}
public static void main(String[] args) {
launch(args);
}
}
You can use a mouse released handler to figure out what's selected, by looking at the x, y, width, and height properties of the rectangle, as needed.
I am using NetBeans IDE 8.2 for JavaFX. I already know that in order to change the position of a button I need to use setLayoutX/Y. I have tried this, and there is no effect on the buttons. Here is my code:
/*
* To change this license header, choose License Headers in Project Properties.
* To change this template file, choose Tools | Templates
* and open the template in the editor.
*/
package javafxapplication2;
import javafx.application.Application;
import javafx.event.ActionEvent;
import javafx.event.EventHandler;
import javafx.scene.Scene;
import javafx.scene.control.Button;
import javafx.scene.layout.StackPane;
import javafx.stage.Stage;
/**
*
* #author coolDawg1234
*/
public class JavaFXApplication2 extends Application {
#Override
public void start(Stage primaryStage) {
String x = "1";
String y = "0";
Button btn1 = new Button(x);
btn1.setOnAction(new EventHandler<ActionEvent>() {
#Override
public void handle(ActionEvent event) {
System.out.print(x);
}
});
Button btn2 = new Button(y);
btn2.setOnAction(new EventHandler<ActionEvent>() {
#Override
public void handle(ActionEvent event) {
System.out.print(y);
}
});
StackPane root = new StackPane();
root.getChildren().add(btn1);
btn1.setLayoutX(250);
btn1.setLayoutY(220);
root.getChildren().add(btn2);
btn1.setLayoutX(200);
btn1.setLayoutY(200);
Scene scene = new Scene(root, 1000, 1000);
primaryStage.setTitle("WHAT\'s GOOD MY MANS");
primaryStage.setScene(scene);
primaryStage.show();
}
/**
* #param args the command line arguments
*/
public static void main(String[] args) {
launch(args);
}
}
Netbeans gives me 0 errors for this, and everything other than the position of the buttons looks fine to me.
Please help me find my problem.
The container for your buttons is a StackPane. StackPane is an implementation of Pane such that it will, by default, layout its children at the center of itself. Therefore, whenever the scene needs to perform a layout, StackPane will set the layoutX and layoutY values (therefore overwriting whatever you had set) in its layoutChildren() method based on its own layout strategy. This behavior happens for most, if not all, subclasses of Pane.
If you need to manually position your child nodes, you need to use the generic Pane container. You can either choose to subclass it and provide your own layout strategy/logic, or simply set layoutX and layoutY values on the child nodes directly.
If you need the layout strategy provided by StackPane, but you would want it to be positioned slightly different from the default position, then you may be looking for translateXProperty() and translateYProperty().
30 root.getChildren().add(btn1);
31 btn1.setLayoutX(250);
32 btn1.setLayoutY(220);
33 root.getChildren().add(btn2);
34 btn1.setLayoutX(200);
35 btn1.setLayoutY(200);
Just take the right variable (consistent) btn1 gets two coordinates for the same direktion (250 for X in row 31, and 200 for X in row 34), so that button which has no directly set coordinates, has in this layout the coordinates (0,0).
I need a bunch of widgets, including a TabPane, inside a scrollable and zoomable view, basically this:
ScrollPane[ Group[ widgets .. including TabPane ] ]
The ScrollPane is obviously needed for scrolling, and the Group holds all the widgets and supports zooming.
The initial problem with that approach is that the ScrollPane shows scroll bars based on the original size of the widgets, not based on the actual size.
In the screenshot, note how scrollbars are shown even though the tab pane is much smaller than the viewport, so no scrollbars are needed.
The web site https://pixelduke.wordpress.com/2012/09/16/zooming-inside-a-scrollpane explains how to solve that by adding another nested Group:
ScrollPane[ Group[ Group[ widgets .. including TabPane ] ] ]
The inner Group, as before, holds all the widgets and supports zooming.
The outer Group automatically gets the layout bounds of the zoomed
widgets in the inner group, allowing the ScrollPane to correctly configure the scroll bars.
.. but now the TabPane will fail to properly draw itself.
All you see is the red background of the TabPane:
The complete tab pane only shows up once it's somehow forced to refresh.
The example code toggles the 'side' property of the tab pane when you press 'SPACE'.
Now I have it all: Tab Pane draws OK, inner group can be zoomed, scroll bars appear as soon as the zoomed content no longer fits the viewport. But having to force the Tab Pane refresh is certainly a hack.
Is there a fault in my scene graph?
Is this a bug in the TabPane rendering?
The problem certainly seems limited to the TabPane. When I add other groups, rectangles, buttons, text nodes to the 'widgets' in the inner group, they all render fine. Only the TabPane refuses to show its tabs.
Tried this with both JDK 1.8.0_51 and 1.8.0_73, also tried on Windows, Linux and Mac OS X.
import javafx.application.Application;
import javafx.geometry.Side;
import javafx.scene.Group;
import javafx.scene.Scene;
import javafx.scene.control.ScrollPane;
import javafx.scene.control.Tab;
import javafx.scene.control.TabPane;
import javafx.scene.input.KeyCode;
import javafx.scene.input.KeyEvent;
import javafx.scene.layout.Pane;
import javafx.scene.layout.Region;
import javafx.scene.paint.Color;
import javafx.scene.shape.Rectangle;
import javafx.stage.Stage;
public class TabDemo extends Application
{
#Override
public void start(final Stage stage)
{
// TabPane with some tabs
final TabPane tabs = new TabPane();
tabs.setStyle("-fx-background-color: red;");
for (int i=0; i<3; ++i)
{
final Rectangle rect = new Rectangle(i*100, 100, 10+i*100, 20+i*80);
rect.setFill(Color.BLUE);
final Pane content = new Pane(rect);
final Tab tab = new Tab("Tab " + (i+1), content);
tab.setClosable(false);
tabs.getTabs().add(tab);
}
tabs.setMinSize(Region.USE_PREF_SIZE, Region.USE_PREF_SIZE);
tabs.setPrefSize(400, 300);
final Group widgets = new Group(tabs);
widgets.setScaleX(0.5);
widgets.setScaleY(0.5);
final Group scroll_content = new Group(widgets);
final ScrollPane scroll = new ScrollPane(scroll_content);
final Scene scene = new Scene(scroll);
stage.setTitle("Tab Demo");
stage.setScene(scene);
stage.show();
// Unfortunately, the setup of ScrollPane -> Group -> Group -> TabPane
// breaks the rendering of the TabPane.
// While the red background shows the area occupied by TabPane,
// the actual Tabs are missing..
System.out.println("See anything?");
scene.addEventFilter(KeyEvent.KEY_PRESSED, (KeyEvent event) ->
{
if (event.getCode() == KeyCode.SPACE)
{ // .. until 'side' or 'tabMinWidth' or .. are twiddled to force a refresh
tabs.setSide(Side.BOTTOM);
tabs.setSide(Side.TOP);
System.out.println("See it now?");
}
});
}
public static void main(String[] args)
{
launch(args);
}
}
I am working through some coursework and am running into an odd issue. I'm working with javafx learning how to build shapes and work with alignment. Anyway my circle object will not respond to setCenterX or setCenterY commands (the radius definition statement does work) in the original definition statements nor in the commands issued by my event handlers which should be redefining these set x and set y values. I cannot figure out why. Please see my code below. When working correctly my code would allow me to move the circle object around the screen with the buttons and event handlers I've created. If I can figure out why the setCenterX and setCenterY don't work, I'm sure I can get the rest. Thanks for your help in advance.
package bravo15;
import javafx.application.Application;
import javafx.geometry.Pos;
import javafx.scene.Scene;
import javafx.scene.control.Button;
import javafx.scene.layout.HBox;
import javafx.scene.layout.Pane;
import javafx.scene.paint.Color;
import javafx.scene.shape.Circle;
import javafx.scene.layout.BorderPane;
import javafx.stage.Stage;
import javafx.scene.Scene;
public class FifteenDotThreeVersionThree extends Application {
#Override // Override the start method in the Application class
public void start(Stage primaryStage) {
Circle circle = new Circle();
circle.setCenterX(300);
circle.setCenterY(300);
circle.setRadius(50);
// Hold four buttons in an HBox
// Define hbox
HBox hBox = new HBox();
hBox.setSpacing(10);
hBox.setAlignment(Pos.CENTER);
// define buttons
Button btLeft = new Button("Left");
Button btRight = new Button("Right");
Button btUp = new Button("Up");
Button btDown = new Button("Down");
// add defined buttons into the hbox
hBox.getChildren().add(btLeft);
hBox.getChildren().add(btRight);
hBox.getChildren().add(btUp);
hBox.getChildren().add(btDown);
// Create and register the handlers for the four buttons
btLeft.setOnAction(e -> circle.setCenterX(circle.getCenterX() - 10));
btRight.setOnAction(e -> circle.setCenterX(circle.getCenterX() + 10));
btUp.setOnAction(e -> circle.setCenterY(circle.getCenterY() + 10));
btDown.setOnAction(e -> circle.setCenterY(circle.getCenterY() - 10));
BorderPane borderPane = new BorderPane();
borderPane.setTop(circle);
borderPane.setBottom(hBox);
BorderPane.setAlignment(hBox, Pos.CENTER);
// Create a scene and place it in the stage
Scene scene = new Scene(borderPane, 200, 200);
primaryStage.setTitle("ControlCircle Version 3"); // Set the stage title
primaryStage.setScene(scene); // Place the scene in the stage
primaryStage.show(); // Display the stage
}
/**
* The main method is only needed for the IDE with limited
* JavaFX support. Not needed for running from the command line.
*/
public static void main(String[] args) {
launch(args);
}
}
A BorderPane manages the layout of its components, so it positions the circle for you by setting its layoutX and layoutY properties so that it appears at the top left.
Wrap it in a Pane, which performs no layout, and place the Pane in the top of the border pane:
borderPane.setTop(new Pane(circle));
Note that you have things set up so that it is initially off-screen. You probably want to increase the size of the scene:
Scene scene = new Scene(borderPane, 600, 600);
You can do it this way to shift the circle:
btLeft.setOnAction(e -> circle.setTranslateX(circle.getTranslateX() - 10));
btRight.setOnAction(e -> circle.setTranslateX(circle.getTranslateX() + 10));
btUp.setOnAction(e -> circle.setTranslateY(circle.getTranslateY() - 10));
btDown.setOnAction(e -> circle.setTranslateY(circle.getTranslateY() + 10));
setTranslateX():
Defines the x coordinate of the translation that is added to this
Node's transform. The node's final translation will be computed as
layoutX + translateX, where layoutX establishes the node's stable
position and translateX optionally makes dynamic adjustments to that
position. This variable can be used to alter the location of a node
without disturbing its layoutBounds, which makes it useful for
animating a node's location.
And it looks better with borderPane.setCenter(circle); than borderPane.setTop(circle);.
I have also removed the following lines:
circle.setCenterX(300);
circle.setCenterY(300);