/** * @author Richard Davey <rich@photonstorm.com> * @copyright 2016 Photon Storm Ltd. * @license {@link https://github.com/photonstorm/phaser/blob/master/license.txt|MIT License} */ /** * The Weapon Plugin provides the ability to easily create a bullet pool and manager. * * Weapons fire Phaser.Bullet objects, which are essentially Sprites with a few extra properties. * The Bullets are enabled for Arcade Physics. They do not currently work with P2 Physics. * * The Bullets are created inside of `Weapon.bullets`, which is a Phaser.Group instance. Anything you * can usually do with a Group, such as move it around the display list, iterate it, etc can be done * to the bullets Group too. * * Bullets can have textures and even animations. You can control the speed at which they are fired, * the firing rate, the firing angle, and even set things like gravity for them. * * A small example, assumed to be running from within a Phaser.State create method. * * `var weapon = this.add.weapon(10, 'bullet');` * `weapon.fireFrom.set(300, 300);` * `this.input.onDown.add(weapon.fire, this);` * * @class Phaser.Weapon * @constructor * @param {Phaser.Game} game - A reference to the current Phaser.Game instance. * @param {Phaser.PluginManager} parent - The Phaser Plugin Manager which looks after this plugin. */ Phaser.Weapon = function (game, parent) { Phaser.Plugin.call(this, game, parent); /** * This is the Phaser.Group that contains all of the bullets managed by this plugin. * @type {Phaser.Group} */ this.bullets = null; /** * Should the bullet pool run out of bullets (i.e. they are all in flight) then this * boolean controls if the Group will create a brand new bullet object or not. * @type {boolean} */ this.autoExpandBulletsGroup = false; /** * Will this weapon auto fire? If set to true then a new bullet will be fired * based on the `fireRate` value. * @type {boolean} */ this.autofire = false; /** * The total number of bullets this Weapon has fired so far. * You can limit the number of shots allowed (via `fireLimit`), and reset * this total via `Weapon.resetShots`. * @type {number} */ this.shots = 0; /** * The maximum number of shots that this Weapon is allowed to fire before it stops. * When the limit is his the `Weapon.onFireLimit` Signal is dispatched. * You can reset the shot counter via `Weapon.resetShots`. * @type {number} */ this.fireLimit = 0; /** * The rate at which this Weapon can fire. The value is given in milliseconds. * @type {number} */ this.fireRate = 100; /** * This is a modifier that is added to the `fireRate` each update to add variety * to the firing rate of the Weapon. The value is given in milliseconds. * If you've a `fireRate` of 200 and a `fireRateVariance` of 50 then the actual * firing rate of the Weapon will be between 150 and 250. * @type {number} */ this.fireRateVariance = 0; /** * This is a Rectangle from within which the bullets are fired. By default it's a 1x1 * rectangle, the equivalent of a Point. But you can change the width and height, and if * larger than 1x1 it'll pick a random point within the rectangle to launch the bullet from. * @type {Phaser.Rectangle} */ this.fireFrom = new Phaser.Rectangle(0, 0, 1, 1); /** * The angle at which the bullets are fired. This can be a const such as Phaser.ANGLE_UP * or it can be any number from 0 to 360 inclusive, where 0 degrees is to the right. * @type {integer} */ this.fireAngle = Phaser.ANGLE_UP; /** * When a Bullet is fired it can optionally inherit the velocity of the `trackedSprite` if set. * @type {boolean} */ this.bulletInheritSpriteSpeed = false; /** * The string based name of the animation that the Bullet will be given on launch. * This is set via `Weapon.addBulletAnimation`. * @type {string} */ this.bulletAnimation = ''; /** * If you've added a set of frames via `Weapon.setBulletFrames` then you can optionally * chose for each Bullet fired to pick a random frame from the set. * @type {boolean} */ this.bulletFrameRandom = false; /** * If you've added a set of frames via `Weapon.setBulletFrames` then you can optionally * chose for each Bullet fired to use the next frame in the set. The frame index is then * advanced one frame until it reaches the end of the set, then it starts from the start * again. Cycling frames like this allows you to create varied bullet effects via * sprite sheets. * @type {boolean} */ this.bulletFrameCycle = false; /** * Should the Bullets wrap around the world bounds? This automatically calls * `World.wrap` on the Bullet each frame. See the docs for that method for details. * @type {boolean} */ this.bulletWorldWrap = false; /** * If `bulletWorldWrap` is true then you can provide an optional padding value with this * property. It's added to the calculations determining when the Bullet should wrap around * the world or not. The value is given in pixels. * @type {integer} */ this.bulletWorldWrapPadding = 0; /** * An optional angle offset applied to the Bullets when they are launched. * This is useful if for example your bullet sprites have been drawn facing up, instead of * to the right, and you want to fire them at an angle. In which case you can set the * angle offset to be 90 and they'll be properly rotated when fired. * @type {number} */ this.bulletAngleOffset = 0; /** * This is a variance added to the angle of Bullets when they are fired. * If you fire from an angle of 90 and have a `bulletAngleVariance` of 20 then the actual * angle of the Bullets will be between 70 and 110 degrees. This is a quick way to add a * great 'spread' effect to a Weapon. * @type {number} */ this.bulletAngleVariance = 0; /** * The speed at which the bullets are fired. This value is given in pixels per second, and * is used to set the starting velocity of the bullets. * @type {number} */ this.bulletSpeed = 200; /** * This is a variance added to the speed of Bullets when they are fired. * If bullets have a `bulletSpeed` value of 200, and a `bulletSpeedVariance` of 50 * then the actual speed of the Bullets will be between 150 and 250 pixels per second. * @type {number} */ this.bulletSpeedVariance = 0; /** * If you've set `bulletKillType` to `Phaser.Weapon.KILL_LIFESPAN` this controls the amount * of lifespan the Bullets have set on launch. The value is given in milliseconds. * When a Bullet hits its lifespan limit it will be automatically killed. * @type {number} */ this.bulletLifespan = 0; /** * If you've set `bulletKillType` to `Phaser.Weapon.KILL_DISTANCE` this controls the distance * the Bullet can travel before it is automatically killed. The distance is given in pixels. * @type {number} */ this.bulletKillDistance = 0; /** * This is the amount of gravity added to the Bullets physics body when fired. * Gravity is expressed in pixels / second / second. * @type {Phaser.Point} */ this.bulletGravity = new Phaser.Point(0, 0); /** * Bullets can optionally adjust their rotation in-flight to match their velocity. * This can create the effect of a bullet 'pointing' to the path it is following, for example * an arrow being fired from a bow, and works especially well when added to `bulletGravity`. * @type {boolean} */ this.bulletRotateToVelocity = false; /** * The Texture Key that the Bullets use when rendering. * Changing this has no effect on bullets in-flight, only on newly spawned bullets. * @type {string} */ this.bulletKey = ''; /** * The Texture Frame that the Bullets use when rendering. * Changing this has no effect on bullets in-flight, only on newly spawned bullets. * @type {string|integer} */ this.bulletFrame = ''; /** * Private var that holds the public `bulletClass` property. * @type {object} * @private */ this._bulletClass = Phaser.Bullet; /** * Private var that holds the public `bulletCollideWorldBounds` property. * @type {boolean} * @private */ this._bulletCollideWorldBounds = false; /** * Private var that holds the public `bulletKillType` property. * @type {integer} * @private */ this._bulletKillType = Phaser.Weapon.KILL_WORLD_BOUNDS; /** * Holds internal data about custom bullet body sizes. * * @type {Object} * @private */ this._data = { customBody: false, width: 0, height: 0, offsetX: 0, offsetY: 0 }; /** * This Rectangle defines the bounds that are used when determining if a Bullet should be killed or not. * It's used in combination with `Weapon.bulletKillType` when that is set to either `Phaser.Weapon.KILL_WEAPON_BOUNDS` * or `Phaser.Weapon.KILL_STATIC_BOUNDS`. If you are not using either of these kill types then the bounds are ignored. * If you are tracking a Sprite or Point then the bounds are centered on that object every frame. * * @type {Phaser.Rectangle} */ this.bounds = new Phaser.Rectangle(); /** * The Rectangle used to calculate the bullet bounds from. * * @type {Phaser.Rectangle} * @private */ this.bulletBounds = game.world.bounds; /** * This array stores the frames added via `Weapon.setBulletFrames`. * * @type {Array} * @protected */ this.bulletFrames = []; /** * The index of the frame within `Weapon.bulletFrames` that is currently being used. * This value is only used if `Weapon.bulletFrameCycle` is set to `true`. * @type {number} * @private */ this.bulletFrameIndex = 0; /** * An internal object that stores the animation data added via `Weapon.addBulletAnimation`. * @type {Object} * @private */ this.anims = {}; /** * The onFire Signal is dispatched each time `Weapon.fire` is called, and a Bullet is * _successfully_ launched. The callback is set two arguments: a reference to the Weapon that fired the bullet, * and a reference to the bullet sprite itself. * * @type {Phaser.Signal} */ this.onFire = new Phaser.Signal(); /** * The onKill Signal is dispatched each time a Bullet that is in-flight is killed. This can be the result * of leaving the Weapon bounds, an expiring lifespan, or exceeding a specified distance. * The callback is sent one argument: A reference to the bullet sprite itself. * * @type {Phaser.Signal} */ this.onKill = new Phaser.Signal(); /** * The onFireLimit Signal is dispatched if `Weapon.fireLimit` is > 0, and a bullet launch takes the number * of shots fired to equal the fire limit. * The callback is sent two arguments: A reference to the Weapon that hit the limit, and the value of * `Weapon.fireLimit`. * * @type {Phaser.Signal} */ this.onFireLimit = new Phaser.Signal(); /** * The Sprite currently being tracked by the Weapon, if any. * This is set via the `Weapon.trackSprite` method. * * @type {Phaser.Sprite|Object} */ this.trackedSprite = null; /** * The Pointer currently being tracked by the Weapon, if any. * This is set via the `Weapon.trackPointer` method. * * @type {Phaser.Pointer} */ this.trackedPointer = null; /** * If the Weapon is tracking a Sprite, should it also track the Sprites rotation? * This is useful for a game such as Asteroids, where you want the weapon to fire based * on the sprites rotation. * * @type {boolean} */ this.trackRotation = false; /** * The Track Offset is a Point object that allows you to specify a pixel offset that bullets use * when launching from a tracked Sprite or Pointer. For example if you've got a bullet that is 2x2 pixels * in size, but you're tracking a Sprite that is 32x32, then you can set `trackOffset.x = 16` to have * the bullet launched from the center of the Sprite. * * @type {Phaser.Point} */ this.trackOffset = new Phaser.Point(); /** * Internal firing rate time tracking variable. * * @type {number} * @private */ this._nextFire = 0; }; Phaser.Weapon.prototype = Object.create(Phaser.Plugin.prototype); Phaser.Weapon.prototype.constructor = Phaser.Weapon; /** * A `bulletKillType` constant that stops the bullets from ever being destroyed automatically. * @constant * @type {integer} */ Phaser.Weapon.KILL_NEVER = 0; /** * A `bulletKillType` constant that automatically kills the bullets when their `bulletLifespan` expires. * @constant * @type {integer} */ Phaser.Weapon.KILL_LIFESPAN = 1; /** * A `bulletKillType` constant that automatically kills the bullets after they * exceed the `bulletDistance` from their original firing position. * @constant * @type {integer} */ Phaser.Weapon.KILL_DISTANCE = 2; /** * A `bulletKillType` constant that automatically kills the bullets when they leave the `Weapon.bounds` rectangle. * @constant * @type {integer} */ Phaser.Weapon.KILL_WEAPON_BOUNDS = 3; /** * A `bulletKillType` constant that automatically kills the bullets when they leave the `Camera.bounds` rectangle. * @constant * @type {integer} */ Phaser.Weapon.KILL_CAMERA_BOUNDS = 4; /** * A `bulletKillType` constant that automatically kills the bullets when they leave the `World.bounds` rectangle. * @constant * @type {integer} */ Phaser.Weapon.KILL_WORLD_BOUNDS = 5; /** * A `bulletKillType` constant that automatically kills the bullets when they leave the `Weapon.bounds` rectangle. * @constant * @type {integer} */ Phaser.Weapon.KILL_STATIC_BOUNDS = 6; /** * This method performs two actions: First it will check to see if the `Weapon.bullets` Group exists or not, * and if not it creates it, adding it the `group` given as the 4th argument. * * Then it will seed the bullet pool with the `quantity` number of Bullets, using the texture key and frame * provided (if any). * * If for example you set the quantity to be 10, then this Weapon will only ever be able to have 10 bullets * in-flight simultaneously. If you try to fire an 11th bullet then nothing will happen until one, or more, of * the in-flight bullets have been killed, freeing them up for use by the Weapon again. * * If you do not wish to have a limit set, then pass in -1 as the quantity. In this instance the Weapon will * keep increasing the size of the bullet pool as needed. It will never reduce the size of the pool however, * so be careful it doesn't grow too large. * * You can either set the texture key and frame here, or via the `Weapon.bulletKey` and `Weapon.bulletFrame` * properties. You can also animate bullets, or set them to use random frames. All Bullets belonging to a * single Weapon instance must share the same texture key however. * * @method Phaser.Weapon#createBullets * @param {integer} [quantity=1] - The quantity of bullets to seed the Weapon with. If -1 it will set the pool to automatically expand. * @param {string} [key] - The Game.cache key of the image that this Sprite will use. * @param {integer|string} [frame] - If the Sprite image contains multiple frames you can specify which one to use here. * @param {Phaser.Group} [group] - Optional Group to add the object to. If not specified it will be added to the World group. * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.createBullets = function (quantity, key, frame, group) { if (quantity === undefined) { quantity = 1; } if (group === undefined) { group = this.game.world; } if (!this.bullets) { this.bullets = this.game.add.physicsGroup(Phaser.Physics.ARCADE, group); this.bullets.classType = this._bulletClass; } if (quantity !== 0) { if (quantity === -1) { this.autoExpandBulletsGroup = true; quantity = 1; } this.bullets.createMultiple(quantity, key, frame); this.bullets.setAll('data.bulletManager', this); this.bulletKey = key; this.bulletFrame = frame; } return this; }; /** * Call a function on each in-flight bullet in this Weapon. * * See {@link Phaser.Group#forEachExists forEachExists} for more details. * * @method Phaser.Weapon#forEach * @param {function} callback - The function that will be called for each applicable child. The child will be passed as the first argument. * @param {object} callbackContext - The context in which the function should be called (usually 'this'). * @param {...any} [args=(none)] - Additional arguments to pass to the callback function, after the child item. * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.forEach = function (callback, callbackContext) { this.bullets.forEachExists(callback, callbackContext, arguments); return this; }; /** * Sets `Body.enable` to `false` on each bullet in this Weapon. * This has the effect of stopping them in-flight should they be moving. * It also stops them being able to be checked for collision. * * @method Phaser.Weapon#pauseAll * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.pauseAll = function () { this.bullets.setAll('body.enable', false); return this; }; /** * Sets `Body.enable` to `true` on each bullet in this Weapon. * This has the effect of resuming their motion should they be in-flight. * It also enables them for collision checks again. * * @method Phaser.Weapon#resumeAll * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.resumeAll = function () { this.bullets.setAll('body.enable', true); return this; }; /** * Calls `Bullet.kill` on every in-flight bullet in this Weapon. * Also re-enables their physics bodies, should they have been disabled via `pauseAll`. * * @method Phaser.Weapon#killAll * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.killAll = function () { this.bullets.callAllExists('kill', true); this.bullets.setAll('body.enable', true); return this; }; /** * Resets the `Weapon.shots` counter back to zero. This is used when you've set * `Weapon.fireLimit`, and have hit (or just wish to reset) your limit. * * @method Phaser.Weapon#resetShots * @param {integer} [newLimit] - Optionally set a new `Weapon.fireLimit`. * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.resetShots = function (newLimit) { this.shots = 0; if (newLimit !== undefined) { this.fireLimit = newLimit; } return this; }; /** * Destroys this Weapon. It removes itself from the PluginManager, destroys * the bullets Group, and nulls internal references. * * @method Phaser.Weapon#destroy */ Phaser.Weapon.prototype.destroy = function () { this.parent.remove(this, false); this.bullets.destroy(); this.game = null; this.parent = null; this.active = false; this.visible = false; }; /** * Internal update method, called by the PluginManager. * * @method Phaser.Weapon#update * @protected */ Phaser.Weapon.prototype.update = function () { if (this._bulletKillType === Phaser.Weapon.KILL_WEAPON_BOUNDS) { if (this.trackedSprite) { this.trackedSprite.updateTransform(); this.bounds.centerOn(this.trackedSprite.worldPosition.x, this.trackedSprite.worldPosition.y); } else if (this.trackedPointer) { this.bounds.centerOn(this.trackedPointer.worldX, this.trackedPointer.worldY); } } if (this.autofire && this.game.time.now < this._nextFire) { this.fire(); } }; /** * Sets this Weapon to track the given Sprite, or any Object with a public `world` Point object. * When a Weapon tracks a Sprite it will automatically update its `fireFrom` value to match the Sprites * position within the Game World, adjusting the coordinates based on the offset arguments. * * This allows you to lock a Weapon to a Sprite, so that bullets are always launched from its location. * * Calling `trackSprite` will reset `Weapon.trackedPointer` to null, should it have been set, as you can * only track _either_ a Sprite, or a Pointer, at once, but not both. * * @method Phaser.Weapon#trackSprite * @param {Phaser.Sprite|Object} sprite - The Sprite to track the position of. * @param {integer} [offsetX=0] - The horizontal offset from the Sprites position to be applied to the Weapon. * @param {integer} [offsetY=0] - The vertical offset from the Sprites position to be applied to the Weapon. * @param {boolean} [trackRotation=false] - Should the Weapon also track the Sprites rotation? * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.trackSprite = function (sprite, offsetX, offsetY, trackRotation) { if (offsetX === undefined) { offsetX = 0; } if (offsetY === undefined) { offsetY = 0; } if (trackRotation === undefined) { trackRotation = false; } this.trackedPointer = null; this.trackedSprite = sprite; this.trackRotation = trackRotation; this.trackOffset.set(offsetX, offsetY); return this; }; /** * Sets this Weapon to track the given Pointer. * When a Weapon tracks a Pointer it will automatically update its `fireFrom` value to match the Pointers * position within the Game World, adjusting the coordinates based on the offset arguments. * * This allows you to lock a Weapon to a Pointer, so that bullets are always launched from its location. * * Calling `trackPointer` will reset `Weapon.trackedSprite` to null, should it have been set, as you can * only track _either_ a Pointer, or a Sprite, at once, but not both. * * @method Phaser.Weapon#trackPointer * @param {Phaser.Pointer} [pointer] - The Pointer to track the position of. Defaults to `Input.activePointer` if not specified. * @param {integer} [offsetX=0] - The horizontal offset from the Pointers position to be applied to the Weapon. * @param {integer} [offsetY=0] - The vertical offset from the Pointers position to be applied to the Weapon. * @return {Phaser.Weapon} This Weapon instance. */ Phaser.Weapon.prototype.trackPointer = function (pointer, offsetX, offsetY) { if (pointer === undefined) { pointer = this.game.input.activePointer; } if (offsetX === undefined) { offsetX = 0; } if (offsetY === undefined) { offsetY = 0; } this.trackedPointer = pointer; this.trackedSprite = null; this.trackRotation = false; this.trackOffset.set(offsetX, offsetY); return this; }; /** * Attempts to fire a single Bullet. If there are no more bullets available in the pool, and the pool cannot be extended, * then this method returns `false`. It will also return false if not enough time has expired since the last time * the Weapon was fired, as defined in the `Weapon.fireRate` property. * * Otherwise the first available bullet is selected and launched. * * The arguments are all optional, but allow you to control both where the bullet is launched from, and aimed at. * * If you don't provide any of the arguments then it uses those set via properties such as `Weapon.trackedSprite`, * `Weapon.bulletAngle` and so on. * * When the bullet is launched it has its texture and frame updated, as required. The velocity of the bullet is * calculated based on Weapon properties like `bulletSpeed`. * * @method Phaser.Weapon#fire * @param {Phaser.Sprite|Phaser.Point|Object} [from] - Optionally fires the bullet **from** the `x` and `y` properties of this object. If set this overrides `Weapon.trackedSprite` or `trackedPointer`. Pass `null` to ignore it. * @param {number} [x] - The x coordinate, in world space, to fire the bullet **towards**. If left as `undefined` the bullet direction is based on its angle. * @param {number} [y] - The y coordinate, in world space, to fire the bullet **towards**. If left as `undefined` the bullet direction is based on its angle. * @return {boolean} True if a bullet was successfully fired, otherwise false. */ Phaser.Weapon.prototype.fire = function (from, x, y) { if (this.game.time.now < this._nextFire || (this.fireLimit > 0 && this.shots === this.fireLimit)) { return false; } var speed = this.bulletSpeed; // Apply +- speed variance if (this.bulletSpeedVariance !== 0) { speed += Phaser.Math.between(-this.bulletSpeedVariance, this.bulletSpeedVariance); } if (from) { if (this.fireFrom.width > 1) { this.fireFrom.centerOn(from.x, from.y); } else { this.fireFrom.x = from.x; this.fireFrom.y = from.y; } } else if (this.trackedSprite) { if (this.fireFrom.width > 1) { this.fireFrom.centerOn(this.trackedSprite.world.x + this.trackOffset.x, this.trackedSprite.world.y + this.trackOffset.y); } else { this.fireFrom.x = this.trackedSprite.world.x + this.trackOffset.x; this.fireFrom.y = this.trackedSprite.world.y + this.trackOffset.y; } if (this.bulletInheritSpriteSpeed) { speed += this.trackedSprite.body.speed; } } else if (this.trackedPointer) { if (this.fireFrom.width > 1) { this.fireFrom.centerOn(this.trackedPointer.world.x + this.trackOffset.x, this.trackedPointer.world.y + this.trackOffset.y); } else { this.fireFrom.x = this.trackedPointer.world.x + this.trackOffset.x; this.fireFrom.y = this.trackedPointer.world.y + this.trackOffset.y; } } var fromX = (this.fireFrom.width > 1) ? this.fireFrom.randomX : this.fireFrom.x; var fromY = (this.fireFrom.height > 1) ? this.fireFrom.randomY : this.fireFrom.y; var angle = (this.trackRotation) ? this.trackedSprite.angle : this.fireAngle; // The position (in world space) to fire the bullet towards, if set if (x !== undefined && y !== undefined) { angle = this.game.math.radToDeg(Math.atan2(y - fromY, x - fromX)); } // Apply +- angle variance if (this.bulletAngleVariance !== 0) { angle += Phaser.Math.between(-this.bulletAngleVariance, this.bulletAngleVariance); } var moveX = 0; var moveY = 0; // Avoid sin/cos for right-angled shots if (angle === 0 || angle === 180) { moveX = Math.cos(this.game.math.degToRad(angle)) * speed; } else if (angle === 90 || angle === 270) { moveY = Math.sin(this.game.math.degToRad(angle)) * speed; } else { moveX = Math.cos(this.game.math.degToRad(angle)) * speed; moveY = Math.sin(this.game.math.degToRad(angle)) * speed; } var bullet = null; if (this.autoExpandBulletsGroup) { bullet = this.bullets.getFirstExists(false, true, fromX, fromY, this.bulletKey, this.bulletFrame); bullet.data.bulletManager = this; } else { bullet = this.bullets.getFirstExists(false); } if (bullet) { bullet.reset(fromX, fromY); bullet.data.fromX = fromX; bullet.data.fromY = fromY; bullet.data.killType = this.bulletKillType; bullet.data.killDistance = this.bulletKillDistance; bullet.data.rotateToVelocity = this.bulletRotateToVelocity; if (this.bulletKillType === Phaser.Weapon.KILL_LIFESPAN) { bullet.lifespan = this.bulletLifespan; } bullet.angle = angle + this.bulletAngleOffset; // Frames and Animations if (this.bulletAnimation !== '') { if (bullet.animations.getAnimation(this.bulletAnimation) === null) { var anim = this.anims[this.bulletAnimation]; bullet.animations.add(anim.name, anim.frames, anim.frameRate, anim.loop, anim.useNumericIndex); } bullet.animations.play(this.bulletAnimation); } else { if (this.bulletFrameCycle) { bullet.frame = this.bulletFrames[this.bulletFrameIndex]; this.bulletFrameIndex++; if (this.bulletFrameIndex >= this.bulletFrames.length) { this.bulletFrameIndex = 0; } } else if (this.bulletFrameRandom) { bullet.frame = this.bulletFrames[Math.floor(Math.random() * this.bulletFrames.length)]; } } if (bullet.data.bodyDirty) { if (this._data.customBody) { bullet.body.setSize(this._data.width, this._data.height, this._data.offsetX, this._data.offsetY); } bullet.body.collideWorldBounds = this.bulletCollideWorldBounds; bullet.data.bodyDirty = false; } bullet.body.velocity.set(moveX, moveY); bullet.body.gravity.set(this.bulletGravity.x, this.bulletGravity.y); this._nextFire = this.game.time.now + this.fireRate; this.shots++; this.onFire.dispatch(bullet, this, speed); if (this.fireLimit > 0 && this.shots === this.fireLimit) { this.onFireLimit.dispatch(this, this.fireLimit); } } }; /** * Fires a bullet **at** the given Pointer. The bullet will be launched from the `Weapon.fireFrom` position, * or from a Tracked Sprite or Pointer, if you have one set. * * @method Phaser.Weapon#fireAtPointer * @param {Phaser.Pointer} [pointer] - The Pointer to fire the bullet towards. * @return {boolean} True if a bullet was successfully fired, otherwise false. */ Phaser.Weapon.prototype.fireAtPointer = function (pointer) { if (pointer === undefined) { pointer = this.game.input.activePointer; } return this.fire(null, pointer.worldX, pointer.worldY); }; /** * Fires a bullet **at** the given Sprite. The bullet will be launched from the `Weapon.fireFrom` position, * or from a Tracked Sprite or Pointer, if you have one set. * * @method Phaser.Weapon#fireAtSprite * @param {Phaser.Sprite} [sprite] - The Sprite to fire the bullet towards. * @return {boolean} True if a bullet was successfully fired, otherwise false. */ Phaser.Weapon.prototype.fireAtSprite = function (sprite) { return this.fire(null, sprite.world.x, sprite.world.y); }; /** * Fires a bullet **at** the given coordinates. The bullet will be launched from the `Weapon.fireFrom` position, * or from a Tracked Sprite or Pointer, if you have one set. * * @method Phaser.Weapon#fireAtXY * @param {number} [x] - The x coordinate, in world space, to fire the bullet towards. * @param {number} [y] - The y coordinate, in world space, to fire the bullet towards. * @return {boolean} True if a bullet was successfully fired, otherwise false. */ Phaser.Weapon.prototype.fireAtXY = function (x, y) { return this.fire(null, x, y); }; /** * You can modify the size of the physics Body the Bullets use to be any dimension you need. * This allows you to make it smaller, or larger, than the parent Sprite. * You can also control the x and y offset of the Body. This is the position of the * Body relative to the top-left of the Sprite _texture_. * * For example: If you have a Sprite with a texture that is 80x100 in size, * and you want the physics body to be 32x32 pixels in the middle of the texture, you would do: * * `setSize(32, 32, 24, 34)` * * Where the first two parameters is the new Body size (32x32 pixels). * 24 is the horizontal offset of the Body from the top-left of the Sprites texture, and 34 * is the vertical offset. * * @method Phaser.Weapon#setBulletBodyOffset * @param {number} width - The width of the Body. * @param {number} height - The height of the Body. * @param {number} [offsetX] - The X offset of the Body from the top-left of the Sprites texture. * @param {number} [offsetY] - The Y offset of the Body from the top-left of the Sprites texture. * @return {Phaser.Weapon} The Weapon Plugin. */ Phaser.Weapon.prototype.setBulletBodyOffset = function (width, height, offsetX, offsetY) { if (offsetX === undefined) { offsetX = 0; } if (offsetY === undefined) { offsetY = 0; } this._data.customBody = true; this._data.width = width; this._data.height = height; this._data.offsetX = offsetX; this._data.offsetY = offsetY; // Update all bullets in the pool this.bullets.callAll('body.setSize', 'body', width, height, offsetX, offsetY); this.bullets.setAll('data.bodyDirty', false); return this; }; /** * Sets the texture frames that the bullets can use when being launched. * * This is intended for use when you've got numeric based frames, such as those loaded via a Sprite Sheet. * * It works by calling `Phaser.ArrayUtils.numberArray` internally, using the min and max values * provided. Then it sets the frame index to be zero. * * You can optionally set the cycle and random booleans, to allow bullets to cycle through the frames * when they're fired, or pick one at random. * * @method Phaser.Weapon#setBulletFrames * @param {integer} min - The minimum value the frame can be. Usually zero. * @param {integer} max - The maximum value the frame can be. * @param {boolean} [cycle=true] - Should the bullet frames cycle as they are fired? * @param {boolean} [random=false] - Should the bullet frames be picked at random as they are fired? * @return {Phaser.Weapon} The Weapon Plugin. */ Phaser.Weapon.prototype.setBulletFrames = function (min, max, cycle, random) { if (cycle === undefined) { cycle = true; } if (random === undefined) { random = false; } this.bulletFrames = Phaser.ArrayUtils.numberArray(min, max); this.bulletFrameIndex = 0; this.bulletFrameCycle = cycle; this.bulletFrameRandom = random; return this; }; /** * Adds a new animation under the given key. Optionally set the frames, frame rate and loop. * The arguments are all the same as for `Animation.add`, and work in the same way. * * `Weapon.bulletAnimation` will be set to this animation after it's created. From that point on, all * bullets fired will play using this animation. You can swap between animations by calling this method * several times, and then just changing the `Weapon.bulletAnimation` property to the name of the animation * you wish to play for the next launched bullet. * * If you wish to stop using animations at all, set `Weapon.bulletAnimation` to '' (an empty string). * * @method Phaser.Weapon#addBulletAnimation * @param {string} name - The unique (within the Weapon instance) name for the animation, i.e. "fire", "blast". * @param {Array} [frames=null] - An array of numbers/strings that correspond to the frames to add to this animation and in which order. e.g. [1, 2, 3] or ['run0', 'run1', run2]). If null then all frames will be used. * @param {number} [frameRate=60] - The speed at which the animation should play. The speed is given in frames per second. * @param {boolean} [loop=false] - Whether or not the animation is looped or just plays once. * @param {boolean} [useNumericIndex=true] - Are the given frames using numeric indexes (default) or strings? * @return {Phaser.Weapon} The Weapon Plugin. */ Phaser.Weapon.prototype.addBulletAnimation = function (name, frames, frameRate, loop, useNumericIndex) { this.anims[name] = { name: name, frames: frames, frameRate: frameRate, loop: loop, useNumericIndex: useNumericIndex }; // Add the animation to any existing bullets in the pool this.bullets.callAll('animations.add', 'animations', name, frames, frameRate, loop, useNumericIndex); this.bulletAnimation = name; return this; }; /** * Uses `Game.Debug` to draw some useful information about this Weapon, including the number of bullets * both in-flight, and available. And optionally the physics debug bodies of the bullets. * * @method Phaser.Weapon#debug * @param {integer} [x=16] - The coordinate, in screen space, at which to draw the Weapon debug data. * @param {integer} [y=32] - The coordinate, in screen space, at which to draw the Weapon debug data. * @param {boolean} [debugBodies=false] - Optionally draw the physics body of every bullet in-flight. */ Phaser.Weapon.prototype.debug = function (x, y, debugBodies) { if (x === undefined) { x = 16; } if (y === undefined) { y = 32; } if (debugBodies === undefined) { debugBodies = false; } this.game.debug.text("Weapon Plugin", x, y); this.game.debug.text("Bullets Alive: " + this.bullets.total + " - Total: " + this.bullets.length, x, y + 24); if (debugBodies) { this.bullets.forEachExists(this.game.debug.body, this.game.debug, 'rgba(255, 0, 255, 0.8)'); } }; /** * The Class of the bullets that are launched by this Weapon. Defaults `Phaser.Bullet`, but can be * overridden before calling `createBullets` and set to your own class type. * * @name Phaser.Weapon#bulletClass * @property {Object} bulletClass */ Object.defineProperty(Phaser.Weapon.prototype, "bulletClass", { get: function () { return this._bulletClass; }, set: function (classType) { this._bulletClass = classType; this.bullets.classType = this._bulletClass; } }); /** * This controls how the bullets will be killed. The default is `Phaser.Weapon.KILL_WORLD_BOUNDS`. * * There are 7 different "kill types" available: * * * `Phaser.Weapon.KILL_NEVER` * The bullets are never destroyed by the Weapon. It's up to you to destroy them via your own code. * * * `Phaser.Weapon.KILL_LIFESPAN` * The bullets are automatically killed when their `bulletLifespan` amount expires. * * * `Phaser.Weapon.KILL_DISTANCE` * The bullets are automatically killed when they exceed `bulletDistance` pixels away from their original launch position. * * * `Phaser.Weapon.KILL_WEAPON_BOUNDS` * The bullets are automatically killed when they no longer intersect with the `Weapon.bounds` rectangle. * * * `Phaser.Weapon.KILL_CAMERA_BOUNDS` * The bullets are automatically killed when they no longer intersect with the `Camera.bounds` rectangle. * * * `Phaser.Weapon.KILL_WORLD_BOUNDS` * The bullets are automatically killed when they no longer intersect with the `World.bounds` rectangle. * * * `Phaser.Weapon.KILL_STATIC_BOUNDS` * The bullets are automatically killed when they no longer intersect with the `Weapon.bounds` rectangle. * The difference between static bounds and weapon bounds, is that a static bounds will never be adjusted to * match the position of a tracked sprite or pointer. * * @name Phaser.Weapon#bulletKillType * @property {integer} bulletKillType */ Object.defineProperty(Phaser.Weapon.prototype, "bulletKillType", { get: function () { return this._bulletKillType; }, set: function (type) { switch (type) { case Phaser.Weapon.KILL_STATIC_BOUNDS: case Phaser.Weapon.KILL_WEAPON_BOUNDS: this.bulletBounds = this.bounds; break; case Phaser.Weapon.KILL_CAMERA_BOUNDS: this.bulletBounds = this.game.camera.view; break; case Phaser.Weapon.KILL_WORLD_BOUNDS: this.bulletBounds = this.game.world.bounds; break; } this._bulletKillType = type; } }); /** * Should bullets collide with the World bounds or not? * * @name Phaser.Weapon#bulletCollideWorldBounds * @property {boolean} bulletCollideWorldBounds */ Object.defineProperty(Phaser.Weapon.prototype, "bulletCollideWorldBounds", { get: function () { return this._bulletCollideWorldBounds; }, set: function (value) { this._bulletCollideWorldBounds = value; this.bullets.setAll('body.collideWorldBounds', value); this.bullets.setAll('data.bodyDirty', false); } }); /** * The x coordinate from which bullets are fired. This is the same as `Weapon.fireFrom.x`, and * can be overridden by the `Weapon.fire` arguments. * * @name Phaser.Weapon#x * @property {number} x */ Object.defineProperty(Phaser.Weapon.prototype, "x", { get: function () { return this.fireFrom.x; }, set: function (value) { this.fireFrom.x = value; } }); /** * The y coordinate from which bullets are fired. This is the same as `Weapon.fireFrom.y`, and * can be overridden by the `Weapon.fire` arguments. * * @name Phaser.Weapon#y * @property {number} y */ Object.defineProperty(Phaser.Weapon.prototype, "y", { get: function () { return this.fireFrom.y; }, set: function (value) { this.fireFrom.y = value; } });