I'm using KeyListener
s in my code (game or otherwise) as the way for my on-screen objects to react to user key input. Here is my code:
public class MyGame extends JFrame {
static int up = KeyEvent.VK_UP;
static int right = KeyEvent.VK_RIGHT;
static int down = KeyEvent.VK_DOWN;
static int left = KeyEvent.VK_LEFT;
static int fire = KeyEvent.VK_Q;
public MyGame() {
// Do all the layout management and what not...
JLabel obj1 = new JLabel();
JLabel obj2 = new JLabel();
obj1.addKeyListener(new MyKeyListener());
obj2.addKeyListener(new MyKeyListener());
add(obj1);
add(obj2);
// Do other GUI things...
}
static void move(int direction, Object source) {
// do something
}
static void fire(Object source) {
// do something
}
static void rebindKey(int newKey, String oldKey) {
// Depends on your GUI implementation.
// Detecting the new key by a KeyListener is the way to go this time.
if (oldKey.equals("up"))
up = newKey;
if (oldKey.equals("down"))
down = newKey;
// ...
}
public static void main(String[] args) {
new MyGame();
}
private static class MyKeyListener extends KeyAdapter {
@Override
public void keyPressed(KeyEvent e) {
Object source = e.getSource();
int action = e.getExtendedKeyCode();
/* Will not work if you want to allow rebinding keys since case variables must be constants.
switch (action) {
case up:
move(1, source);
case right:
move(2, source);
case down:
move(3, source);
case left:
move(4, source);
case fire:
fire(source);
...
}
*/
if (action == up)
move(1, source);
else if (action == right)
move(2, source);
else if (action == down)
move(3, source);
else if (action == left)
move(4, source);
else if (action == fire)
fire(source);
}
}
}
I have problems with the responsiveness:
Why does this happen and how do I fix this?
This answer explains and demonstrates how to use key bindings instead of key listeners for educational purpose. It is not
It is
Answer; Read the Swing tutorial on key bindings.
I don't want to read manuals, tell me why I would want to use key bindings instead of the beautiful code I have already!
Well, the Swing tutorial explains that
OK, you convinced me to try it out. How does it work?
The tutorial has a good section about it. Key bindings involve 2 objects InputMap
and ActionMap
. InputMap
maps a user input to an action name, ActionMap
maps an action name to an Action
. When the user presses a key, the input map is searched for the key and finds an action name, then the action map is searched for the action name and executes the action.
Looks cumbersome. Why not bind the user input to directly to the action and get rid of the action name? Then you need only one map and not two.
Good question! You will see that this is one of the things that make key bindings more manageable (disable, rebind etc.).
I want you to give me a full working code of this.
No (the Swing tutorial has working examples).
You suck!I hate you!
Here is how to make a single key binding:
myComponent.getInputMap().put("userInput", "myAction");
myComponent.getActionMap().put("myAction", action);
Note that there are 3 InputMap
s reacting to different focus states:
myComponent.getInputMap(JComponent.WHEN_FOCUSED);
myComponent.getInputMap(JComponent.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT);
myComponent.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW);
WHEN_FOCUSED
, which is also the one used when no argument is supplied, is used when the component has focus. This is similar to the key listener case.WHEN_ANCESTOR_OF_FOCUSED_COMPONENT
is used when a focused component is inside a component which is registered to receive the action. If you have many crew members inside a spaceship and you want the spaceship to continue receiving input while any of the crew members has focus, use this.WHEN_IN_FOCUSED_WINDOW
is used when a component which is registered to receive the action is inside a focused component. If you have many tanks in a focused window and you want all of them to receive input at the same time, use this.The code presented in the question will look something like this assuming both objects are to be controlled at the same time:
public class MyGame extends JFrame {
private static final int IFW = JComponent.WHEN_IN_FOCUSED_WINDOW;
private static final String MOVE_UP = "move up";
private static final String MOVE_DOWN = "move down";
private static final String FIRE = "move fire";
static JLabel obj1 = new JLabel();
static JLabel obj2 = new JLabel();
public MyGame() {
// Do all the layout management and what not...
obj1.getInputMap(IFW).put(KeyStroke.getKeyStroke("UP"), MOVE_UP);
obj1.getInputMap(IFW).put(KeyStroke.getKeyStroke("DOWN"), MOVE_DOWN);
// ...
obj1.getInputMap(IFW).put(KeyStroke.getKeyStroke("control CONTROL"), FIRE);
obj2.getInputMap(IFW).put(KeyStroke.getKeyStroke("W"), MOVE_UP);
obj2.getInputMap(IFW).put(KeyStroke.getKeyStroke("S"), MOVE_DOWN);
// ...
obj2.getInputMap(IFW).put(KeyStroke.getKeyStroke("T"), FIRE);
obj1.getActionMap().put(MOVE_UP, new MoveAction(1, 1));
obj1.getActionMap().put(MOVE_DOWN, new MoveAction(2, 1));
// ...
obj1.getActionMap().put(FIRE, new FireAction(1));
obj2.getActionMap().put(MOVE_UP, new MoveAction(1, 2));
obj2.getActionMap().put(MOVE_DOWN, new MoveAction(2, 2));
// ...
obj2.getActionMap().put(FIRE, new FireAction(2));
// In practice you would probably create your own objects instead of the JLabels.
// Then you can create a convenience method obj.inputMapPut(String ks, String a)
// equivalent to obj.getInputMap(IFW).put(KeyStroke.getKeyStroke(ks), a);
// and something similar for the action map.
add(obj1);
add(obj2);
// Do other GUI things...
}
static void rebindKey(KeyEvent ke, String oldKey) {
// Depends on your GUI implementation.
// Detecting the new key by a KeyListener is the way to go this time.
obj1.getInputMap(IFW).remove(KeyStroke.getKeyStroke(oldKey));
// Removing can also be done by assigning the action name "none".
obj1.getInputMap(IFW).put(KeyStroke.getKeyStrokeForEvent(ke),
obj1.getInputMap(IFW).get(KeyStroke.getKeyStroke(oldKey)));
// You can drop the remove action if you want a secondary key for the action.
}
public static void main(String[] args) {
new MyGame();
}
private class MoveAction extends AbstractAction {
int direction;
int player;
MoveAction(int direction, int player) {
this.direction = direction;
this.player = player;
}
@Override
public void actionPerformed(ActionEvent e) {
// Same as the move method in the question code.
// Player can be detected by e.getSource() instead and call its own move method.
}
}
private class FireAction extends AbstractAction {
int player;
FireAction(int player) {
this.player = player;
}
@Override
public void actionPerformed(ActionEvent e) {
// Same as the fire method in the question code.
// Player can be detected by e.getSource() instead, and call its own fire method.
// If so then remove the constructor.
}
}
}
You can see that separating the input map from the action map allow reusable code and better control of bindings. In addition, you can also control an Action directly if you need the functionality. For example:
FireAction p1Fire = new FireAction(1);
p1Fire.setEnabled(false); // Disable the action (for both players in this case).
See the Action tutorial for more information.
I see that you used 1 action, move, for 4 keys (directions) and 1 action, fire, for 1 key. Why not give each key its own action, or give all keys the same action and sort out what to do inside the action (like in the move case)?
Good point. Technically you can do both, but you have to think what makes sense and what allows for easy management and reusable code. Here I assumed moving is similar for all directions and firing is different, so I chose this approach.
I see a lot of
KeyStroke
s used, what are those? Are they like aKeyEvent
?
Yes, they have a similar function, but are more appropriate for use here. See their API for info and on how to create them.
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