class Example extends Phaser.Scene { preload () { this.load.setBaseURL('https://cdn.phaserfiles.com/v385'); this.load.image('lemming', 'assets/sprites/lemming.png'); this.load.image('ball', 'assets/sprites/shinyball.png'); this.load.image('mushroom', 'assets/sprites/mushroom-32x32.png'); } create () { this.sprite = this.physics.add.image(400, 300, 'lemming'); const outer = new Phaser.Geom.Rectangle(0, 0, 800, 600); const inner = new Phaser.Geom.Rectangle(350, 250, 100, 100); // Create a few balls this.balls = this.physics.add.group({ immovable: true }); for (let i = 0; i < 12; i++) { const point = Phaser.Geom.Rectangle.RandomOutside(outer, inner); const ball = this.balls.create(point.x, point.y, 'ball'); this.physics.add.existing(ball); ball.body.setImmovable(); } // Create a few mushrooms this.mushrooms = this.physics.add.group({ immovable: true }); for (let i = 0; i < 32; i++) { const point = Phaser.Geom.Rectangle.RandomOutside(outer, inner); const mushroom = this.mushrooms.create(point.x, point.y, 'mushroom'); this.physics.add.existing(mushroom); mushroom.body.setImmovable(); } this.sprite.setVelocity(100, 200).setBounce(1, 1).setCollideWorldBounds(true).setGravityY(200); } update () { // As long as these methods are called as part of the 'update' step // they will process collisions between any physics objects and you // can use the callbacks to handle the results this.physics.collide(this.sprite, this.balls); this.physics.overlap(this.sprite, this.mushrooms, (sprite, mushroom) => { mushroom.destroy(); }); } } const config = { type: Phaser.AUTO, width: 800, height: 600, parent: 'phaser-example', physics: { default: 'arcade', arcade: { debug: true } }, scene: Example }; const game = new Phaser.Game(config);
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class Example extends Phaser.Scene
{
preload ()
{
this.load.setBaseURL('https://cdn.phaserfiles.com/v385');
this.load.image('lemming', 'assets/sprites/lemming.png');
this.load.image('ball', 'assets/sprites/shinyball.png');
this.load.image('mushroom', 'assets/sprites/mushroom-32x32.png');
}
create ()
{
this.sprite = this.physics.add.image(400, 300, 'lemming');
const outer = new Phaser.Geom.Rectangle(0, 0, 800, 600);
const inner = new Phaser.Geom.Rectangle(350, 250, 100, 100);
// Create a few balls
this.balls = this.physics.add.group({ immovable: true });
for (let i = 0; i < 12; i++)
{
const point = Phaser.Geom.Rectangle.RandomOutside(outer, inner);
const ball = this.balls.create(point.x, point.y, 'ball');
this.physics.add.existing(ball);
ball.body.setImmovable();
}
// Create a few mushrooms
this.mushrooms = this.physics.add.group({ immovable: true });
for (let i = 0; i < 32; i++)
{
const point = Phaser.Geom.Rectangle.RandomOutside(outer, inner);
const mushroom = this.mushrooms.create(point.x, point.y, 'mushroom');
this.physics.add.existing(mushroom);
mushroom.body.setImmovable();
}
this.sprite.setVelocity(100, 200).setBounce(1, 1).setCollideWorldBounds(true).setGravityY(200);
}
update ()
{
// As long as these methods are called as part of the 'update' step
// they will process collisions between any physics objects and you
// can use the callbacks to handle the results
this.physics.collide(this.sprite, this.balls);
this.physics.overlap(this.sprite, this.mushrooms, (sprite, mushroom) =>
{
mushroom.destroy();
});
}
}
const config = {
type: Phaser.AUTO,
width: 800,
height: 600,
parent: 'phaser-example',
physics: {
default: 'arcade',
arcade: {
debug: true
}
},
scene: Example
};
const game = new Phaser.Game(config);