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/**
* Phaser - Camera
*
* A Camera is your view into the game world. It has a position, size, scale and rotation and renders only those objects
* within its field of view. The game automatically creates a single Stage sized camera on boot, but it can be changed and
* additional cameras created via the CameraManager.
*/
module Phaser {
export class Camera {
/**
* Instantiates a new camera at the specified location, with the specified size and zoom level.
*
* @param game {Phaser.Game} Current game instance.
* @param id {number} Unique identity.
* @param x {number} X location of the camera's display in pixels. Uses native, 1:1 resolution, ignores zoom.
* @param y {number} Y location of the camera's display in pixels. Uses native, 1:1 resolution, ignores zoom.
* @param width {number} The width of the camera display in pixels.
* @param height {number} The height of the camera display in pixels.
*/
constructor(game: Game, id: number, x: number, y: number, width: number, height: number) {
this.game = game;
this.ID = id;
this.z = id;
width = this.game.math.clamp(width, this.game.stage.width, 1);
height = this.game.math.clamp(height, this.game.stage.height, 1);
// The view into the world we wish to render (by default the full game world size)
// The size of this Rect is the same as screenView, but the values are all in world coordinates instead of screen coordinates
this.worldView = new Rectangle(0, 0, width, height);
// The rect of the area being rendered in stage/screen coordinates
this.screenView = new Rectangle(x, y, width, height);
this.plugins = new PluginManager(this.game, this);
this.transform = new Phaser.Components.TransformManager(this);
this.texture = new Phaser.Display.Texture(this);
// We create a hidden canvas for our camera the size of the game (we use the screenView to clip the render to the camera size)
this.texture.canvas = document.createElement('canvas');
this.texture.canvas.width = width;
this.texture.canvas.height = height;
this.texture.context = this.texture.canvas.getContext('2d');
// Handy proxies
this.scale = this.transform.scale;
this.alpha = this.texture.alpha;
this.origin = this.transform.origin;
this.crop = this.texture.crop;
}
private _target: Sprite = null;
/**
* Local reference to Game.
*/
public game: Game;
/**
* The PluginManager for the Game
* @type {PluginManager}
*/
public plugins: PluginManager;
/**
* Optional texture used in the background of the Camera.
*/
public texture: Phaser.Display.Texture;
/**
* The transform component.
*/
public transform: Phaser.Components.TransformManager;
/**
* The scale of the Sprite. A value of 1 is original scale. 0.5 is half size. 2 is double the size.
* This is a reference to Sprite.transform.scale
*/
public scale: Phaser.Vec2;
/**
* The crop rectangle allows you to control which part of the sprite texture is rendered without distorting it.
* Set to null to disable, set to a Phaser.Rectangle object to control the region that will be rendered, anything outside the rectangle is ignored.
* This is a reference to Sprite.texture.crop
* @type {Phaser.Rectangle}
*/
public crop: Phaser.Rectangle;
/**
* The origin of the Sprite around which rotation and positioning takes place.
* This is a reference to Sprite.transform.origin
*/
public origin: Phaser.Vec2;
/**
* The alpha of the Sprite between 0 and 1, a value of 1 being fully opaque.
*/
public set alpha(value: number) {
this.texture.alpha = value;
}
/**
* The alpha of the Sprite between 0 and 1, a value of 1 being fully opaque.
*/
public get alpha(): number {
return this.texture.alpha;
}
/**
* Identity of this camera.
*/
public ID: number;
/**
* Camera view Rectangle in world coordinate.
* @type {Rectangle}
*/
public worldView: Rectangle;
/**
* Visible / renderable area (changes if the camera resizes/moves around the stage)
* @type {Rectangle}
*/
public screenView: Rectangle;
/**
* Camera worldBounds.
* @type {Rectangle}
*/
public worldBounds: Rectangle = null;
/**
* A boolean representing if the Camera has been modified in any way via a scale, rotate, flip or skew.
*/
public modified: bool = false;
/**
* Sprite moving inside this Rectangle will not cause camera moving.
* @type {Rectangle}
*/
public deadzone: Rectangle = null;
/**
* Whether this camera is visible or not. (default is true)
* @type {boolean}
*/
public visible: bool = true;
/**
* The z value of this Camera. Cameras are rendered in z-index order by the Renderer.
*/
public z: number = -1;
/**
* Hides an object from this Camera. Hidden objects are not rendered.
* The object must implement a public cameraBlacklist property.
*
* @param object {Sprite/Group} The object this camera should ignore.
*/
public hide(object) {
object.texture.hideFromCamera(this);
}
/**
* Returns true if the object is hidden from this Camera.
*
* @param object {Sprite/Group} The object to check.
*/
public isHidden(object): bool {
return object.texture.isHidden(this);
}
/**
* Un-hides an object previously hidden to this Camera.
* The object must implement a public cameraBlacklist property.
*
* @param object {Sprite/Group} The object this camera should display.
*/
public show(object) {
object.texture.showToCamera(this);
}
/**
* Tells this camera object what sprite to track.
* @param target {Sprite} The object you want the camera to track. Set to null to not follow anything.
* @param [style] {number} Leverage one of the existing "deadzone" presets. If you use a custom deadzone, ignore this parameter and manually specify the deadzone after calling follow().
*/
public follow(target: Sprite, style?: number = Phaser.Types.CAMERA_FOLLOW_LOCKON) {
this._target = target;
var helper: number;
switch (style)
{
case Phaser.Types.CAMERA_FOLLOW_PLATFORMER:
var w: number = this.width / 8;
var h: number = this.height / 3;
this.deadzone = new Rectangle((this.width - w) / 2, (this.height - h) / 2 - h * 0.25, w, h);
break;
case Phaser.Types.CAMERA_FOLLOW_TOPDOWN:
helper = Math.max(this.width, this.height) / 4;
this.deadzone = new Rectangle((this.width - helper) / 2, (this.height - helper) / 2, helper, helper);
break;
case Phaser.Types.CAMERA_FOLLOW_TOPDOWN_TIGHT:
helper = Math.max(this.width, this.height) / 8;
this.deadzone = new Rectangle((this.width - helper) / 2, (this.height - helper) / 2, helper, helper);
break;
case Phaser.Types.CAMERA_FOLLOW_LOCKON:
default:
this.deadzone = null;
break;
}
}
/**
* Move the camera focus to this location instantly.
* @param x {number} X position.
* @param y {number} Y position.
*/
public focusOnXY(x: number, y: number) {
x += (x > 0) ? 0.0000001 : -0.0000001;
y += (y > 0) ? 0.0000001 : -0.0000001;
this.worldView.x = Math.round(x - this.worldView.halfWidth);
this.worldView.y = Math.round(y - this.worldView.halfHeight);
}
/**
* Move the camera focus to this location instantly.
* @param point {any} Point you want to focus.
*/
public focusOn(point) {
point.x += (point.x > 0) ? 0.0000001 : -0.0000001;
point.y += (point.y > 0) ? 0.0000001 : -0.0000001;
this.worldView.x = Math.round(point.x - this.worldView.halfWidth);
this.worldView.y = Math.round(point.y - this.worldView.halfHeight);
}
/**
* Specify the boundaries of the world or where the camera is allowed to move.
*
* @param x {number} The smallest X value of your world (usually 0).
* @param y {number} The smallest Y value of your world (usually 0).
* @param width {number} The largest X value of your world (usually the world width).
* @param height {number} The largest Y value of your world (usually the world height).
*/
public setBounds(x: number = 0, y: number = 0, width: number = 0, height: number = 0) {
if (this.worldBounds == null)
{
this.worldBounds = new Rectangle;
}
this.worldBounds.setTo(x, y, width, height);
this.worldView.x = x;
this.worldView.y = y;
this.update();
}
/**
* Update focusing and scrolling.
*/
public update() {
if (this.modified == false && (!this.transform.scale.equals(1) || !this.transform.skew.equals(0) || this.transform.rotation != 0 || this.transform.rotationOffset != 0 || this.texture.flippedX || this.texture.flippedY))
{
this.modified = true;
}
this.plugins.preUpdate();
if (this._target !== null)
{
if (this.deadzone == null)
{
this.focusOnXY(this._target.x, this._target.y);
}
else
{
var edge: number;
var targetX: number = this._target.x + ((this._target.x > 0) ? 0.0000001 : -0.0000001);
var targetY: number = this._target.y + ((this._target.y > 0) ? 0.0000001 : -0.0000001);
edge = targetX - this.deadzone.x;
if (this.worldView.x > edge)
{
this.worldView.x = edge;
}
edge = targetX + this._target.width - this.deadzone.x - this.deadzone.width;
if (this.worldView.x < edge)
{
this.worldView.x = edge;
}
edge = targetY - this.deadzone.y;
if (this.worldView.y > edge)
{
this.worldView.y = edge;
}
edge = targetY + this._target.height - this.deadzone.y - this.deadzone.height;
if (this.worldView.y < edge)
{
this.worldView.y = edge;
}
}
}
// Make sure we didn't go outside the cameras worldBounds
if (this.worldBounds !== null)
{
if (this.worldView.x < this.worldBounds.left)
{
this.worldView.x = this.worldBounds.left;
}
if (this.worldView.x > this.worldBounds.right - this.width)
{
this.worldView.x = (this.worldBounds.right - this.width) + 1;
}
if (this.worldView.y < this.worldBounds.top)
{
this.worldView.y = this.worldBounds.top;
}
if (this.worldView.y > this.worldBounds.bottom - this.height)
{
this.worldView.y = (this.worldBounds.bottom - this.height) + 1;
}
}
this.worldView.floor();
this.plugins.update();
}
/**
* Update focusing and scrolling.
*/
public postUpdate() {
if (this.modified == true && this.transform.scale.equals(1) && this.transform.skew.equals(0) && this.transform.rotation == 0 && this.transform.rotationOffset == 0 && this.texture.flippedX == false && this.texture.flippedY == false)
{
this.modified = false;
}
// Make sure we didn't go outside the cameras worldBounds
if (this.worldBounds !== null)
{
if (this.worldView.x < this.worldBounds.left)
{
this.worldView.x = this.worldBounds.left;
}
if (this.worldView.x > this.worldBounds.right - this.width)
{
this.worldView.x = this.worldBounds.right - this.width;
}
if (this.worldView.y < this.worldBounds.top)
{
this.worldView.y = this.worldBounds.top;
}
if (this.worldView.y > this.worldBounds.bottom - this.height)
{
this.worldView.y = this.worldBounds.bottom - this.height;
}
}
this.worldView.floor();
this.plugins.postUpdate();
}
/**
* Destroys this camera, associated FX and removes itself from the CameraManager.
*/
public destroy() {
this.game.world.cameras.removeCamera(this.ID);
this.plugins.destroy();
}
public get x(): number {
return this.worldView.x;
}
public get y(): number {
return this.worldView.y;
}
public set x(value: number) {
this.worldView.x = value;
}
public set y(value: number) {
this.worldView.y = value;
}
public get width(): number {
return this.screenView.width;
}
public get height(): number {
return this.screenView.height;
}
public set width(value: number) {
this.screenView.width = value;
this.worldView.width = value;
if (value !== this.texture.canvas.width)
{
this.texture.canvas.width = value;
}
}
public set height(value: number) {
this.screenView.height = value;
this.worldView.height = value;
if (value !== this.texture.canvas.height)
{
this.texture.canvas.height = value;
}
}
public setPosition(x: number, y: number) {
this.screenView.x = x;
this.screenView.y = y;
}
public setSize(width: number, height: number) {
this.screenView.width = width * this.transform.scale.x;
this.screenView.height = height * this.transform.scale.y;
this.worldView.width = width;
this.worldView.height = height;
if (width !== this.texture.canvas.width)
{
this.texture.canvas.width = width;
}
if (height !== this.texture.canvas.height)
{
this.texture.canvas.height = height;
}
}
/**
* The angle of the Camera in degrees. Phaser uses a right-handed coordinate system, where 0 points to the right.
*/
public get rotation(): number {
return this.transform.rotation;
}
/**
* Set the angle of the Camera in degrees. Phaser uses a right-handed coordinate system, where 0 points to the right.
* The value is automatically wrapped to be between 0 and 360.
*/
public set rotation(value: number) {
this.transform.rotation = this.game.math.wrap(value, 360, 0);
}
}
}