/** * @author Richard Davey * @copyright 2020 Photon Storm Ltd. * @license {@link https://opensource.org/licenses/MIT|MIT License} */ var Bodies = require('./lib/factory/Bodies'); var Body = require('./lib/body/Body'); var Class = require('../../utils/Class'); var Common = require('./lib/core/Common'); var Composite = require('./lib/body/Composite'); var Engine = require('./lib/core/Engine'); var EventEmitter = require('eventemitter3'); var Events = require('./events'); var GetFastValue = require('../../utils/object/GetFastValue'); var GetValue = require('../../utils/object/GetValue'); var MatterBody = require('./lib/body/Body'); var MatterEvents = require('./lib/core/Events'); var MatterTileBody = require('./MatterTileBody'); var MatterWorld = require('./lib/body/World'); var Vector = require('./lib/geometry/Vector'); /** * @classdesc * The Matter World class is responsible for managing one single instance of a Matter Physics World for Phaser. * * Access this via `this.matter.world` from within a Scene. * * This class creates a Matter JS World Composite along with the Matter JS Engine during instantiation. It also * handles delta timing, bounds, body and constraint creation and debug drawing. * * If you wish to access the Matter JS World object directly, see the `localWorld` property. * If you wish to access the Matter Engine directly, see the `engine` property. * * This class is an Event Emitter and will proxy _all_ Matter JS events, as they are received. * * @class World * @extends Phaser.Events.EventEmitter * @memberof Phaser.Physics.Matter * @constructor * @since 3.0.0 * * @param {Phaser.Scene} scene - The Scene to which this Matter World instance belongs. * @param {Phaser.Types.Physics.Matter.MatterWorldConfig} config - The Matter World configuration object. */ var World = new Class({ Extends: EventEmitter, initialize: function World (scene, config) { EventEmitter.call(this); /** * The Scene to which this Matter World instance belongs. * * @name Phaser.Physics.Matter.World#scene * @type {Phaser.Scene} * @since 3.0.0 */ this.scene = scene; /** * An instance of the MatterJS Engine. * * @name Phaser.Physics.Matter.World#engine * @type {MatterJS.Engine} * @since 3.0.0 */ this.engine = Engine.create(config); /** * A `World` composite object that will contain all simulated bodies and constraints. * * @name Phaser.Physics.Matter.World#localWorld * @type {MatterJS.World} * @since 3.0.0 */ this.localWorld = this.engine.world; var gravity = GetValue(config, 'gravity', null); if (gravity) { this.setGravity(gravity.x, gravity.y, gravity.scale); } else if (gravity === false) { this.setGravity(0, 0, 0); } /** * An object containing the 4 wall bodies that bound the physics world. * * @name Phaser.Physics.Matter.World#walls * @type {object} * @since 3.0.0 */ this.walls = { left: null, right: null, top: null, bottom: null }; /** * A flag that toggles if the world is enabled or not. * * @name Phaser.Physics.Matter.World#enabled * @type {boolean} * @default true * @since 3.0.0 */ this.enabled = GetValue(config, 'enabled', true); /** * The correction argument is an optional Number that specifies the time correction factor to apply to the update. * This can help improve the accuracy of the simulation in cases where delta is changing between updates. * The value of correction is defined as delta / lastDelta, i.e. the percentage change of delta over the last step. * Therefore the value is always 1 (no correction) when delta is constant (or when no correction is desired, which is the default). * See the paper on Time Corrected Verlet for more information. * * @name Phaser.Physics.Matter.World#correction * @type {number} * @default 1 * @since 3.4.0 */ this.correction = GetValue(config, 'correction', 1); /** * This function is called every time the core game loop steps, which is bound to the * Request Animation Frame frequency unless otherwise modified. * * The function is passed two values: `time` and `delta`, both of which come from the game step values. * * It must return a number. This number is used as the delta value passed to Matter.Engine.update. * * You can override this function with your own to define your own timestep. * * If you need to update the Engine multiple times in a single game step then call * `World.update` as many times as required. Each call will trigger the `getDelta` function. * If you wish to have full control over when the Engine updates then see the property `autoUpdate`. * * You can also adjust the number of iterations that Engine.update performs. * Use the Scene Matter Physics config object to set the following properties: * * positionIterations (defaults to 6) * velocityIterations (defaults to 4) * constraintIterations (defaults to 2) * * Adjusting these values can help performance in certain situations, depending on the physics requirements * of your game. * * @name Phaser.Physics.Matter.World#getDelta * @type {function} * @since 3.4.0 */ this.getDelta = GetValue(config, 'getDelta', this.update60Hz); var runnerConfig = GetFastValue(config, 'runner', {}); var hasFPS = GetFastValue(runnerConfig, 'fps', false); var fps = GetFastValue(runnerConfig, 'fps', 60); var delta = GetFastValue(runnerConfig, 'delta', 1000 / fps); var deltaMin = GetFastValue(runnerConfig, 'deltaMin', 1000 / fps); var deltaMax = GetFastValue(runnerConfig, 'deltaMax', 1000 / (fps * 0.5)); if (!hasFPS) { fps = 1000 / delta; } /** * The Matter JS Runner Configuration object. * * This object is populated via the Matter Configuration object's `runner` property and is * updated constantly during the game step. * * @name Phaser.Physics.Matter.World#runner * @type {Phaser.Types.Physics.Matter.MatterRunnerConfig} * @since 3.22.0 */ this.runner = { fps: fps, correction: GetFastValue(runnerConfig, 'correction', 1), deltaSampleSize: GetFastValue(runnerConfig, 'deltaSampleSize', 60), counterTimestamp: 0, frameCounter: 0, deltaHistory: [], timePrev: null, timeScalePrev: 1, frameRequestId: null, isFixed: GetFastValue(runnerConfig, 'isFixed', false), delta: delta, deltaMin: deltaMin, deltaMax: deltaMax }; /** * Automatically call Engine.update every time the game steps. * If you disable this then you are responsible for calling `World.step` directly from your game. * If you call `set60Hz` or `set30Hz` then `autoUpdate` is reset to `true`. * * @name Phaser.Physics.Matter.World#autoUpdate * @type {boolean} * @default true * @since 3.4.0 */ this.autoUpdate = GetValue(config, 'autoUpdate', true); var debugConfig = GetValue(config, 'debug', false); /** * A flag that controls if the debug graphics will be drawn to or not. * * @name Phaser.Physics.Matter.World#drawDebug * @type {boolean} * @default false * @since 3.0.0 */ this.drawDebug = (typeof(debugConfig) === 'object') ? true : debugConfig; /** * An instance of the Graphics object the debug bodies are drawn to, if enabled. * * @name Phaser.Physics.Matter.World#debugGraphic * @type {Phaser.GameObjects.Graphics} * @since 3.0.0 */ this.debugGraphic; /** * The debug configuration object. * * The values stored in this object are read from the Matter World Config `debug` property. * * When a new Body or Constraint is _added to the World_, they are given the values stored in this object, * unless they have their own `render` object set that will override them. * * Note that while you can modify the values of properties in this object at run-time, it will not change * any of the Matter objects _already added_. It will only impact objects newly added to the world, or one * that is removed and then re-added at a later time. * * @name Phaser.Physics.Matter.World#debugConfig * @type {Phaser.Types.Physics.Matter.MatterDebugConfig} * @since 3.22.0 */ this.debugConfig = { showAxes: GetFastValue(debugConfig, 'showAxes', false), showAngleIndicator: GetFastValue(debugConfig, 'showAngleIndicator', false), angleColor: GetFastValue(debugConfig, 'angleColor', 0xe81153), showBroadphase: GetFastValue(debugConfig, 'showBroadphase', false), broadphaseColor: GetFastValue(debugConfig, 'broadphaseColor', 0xffb400), showBounds: GetFastValue(debugConfig, 'showBounds', false), boundsColor: GetFastValue(debugConfig, 'boundsColor', 0xffffff), showVelocity: GetFastValue(debugConfig, 'showVelocity', false), velocityColor: GetFastValue(debugConfig, 'velocityColor', 0x00aeef), showCollisions: GetFastValue(debugConfig, 'showCollisions', false), collisionColor: GetFastValue(debugConfig, 'collisionColor', 0xf5950c), showSeparations: GetFastValue(debugConfig, 'showSeparations', false), separationColor: GetFastValue(debugConfig, 'separationColor', 0xffa500), showBody: GetFastValue(debugConfig, 'showBody', true), showStaticBody: GetFastValue(debugConfig, 'showStaticBody', true), showInternalEdges: GetFastValue(debugConfig, 'showInternalEdges', false), renderFill: GetFastValue(debugConfig, 'renderFill', false), renderLine: GetFastValue(debugConfig, 'renderLine', true), fillColor: GetFastValue(debugConfig, 'fillColor', 0x106909), fillOpacity: GetFastValue(debugConfig, 'fillOpacity', 1), lineColor: GetFastValue(debugConfig, 'lineColor', 0x28de19), lineOpacity: GetFastValue(debugConfig, 'lineOpacity', 1), lineThickness: GetFastValue(debugConfig, 'lineThickness', 1), staticFillColor: GetFastValue(debugConfig, 'staticFillColor', 0x0d177b), staticLineColor: GetFastValue(debugConfig, 'staticLineColor', 0x1327e4), showSleeping: GetFastValue(debugConfig, 'showSleeping', false), staticBodySleepOpacity: GetFastValue(debugConfig, 'staticBodySleepOpacity', 0.7), sleepFillColor: GetFastValue(debugConfig, 'sleepFillColor', 0x464646), sleepLineColor: GetFastValue(debugConfig, 'sleepLineColor', 0x999a99), showSensors: GetFastValue(debugConfig, 'showSensors', true), sensorFillColor: GetFastValue(debugConfig, 'sensorFillColor', 0x0d177b), sensorLineColor: GetFastValue(debugConfig, 'sensorLineColor', 0x1327e4), showPositions: GetFastValue(debugConfig, 'showPositions', true), positionSize: GetFastValue(debugConfig, 'positionSize', 4), positionColor: GetFastValue(debugConfig, 'positionColor', 0xe042da), showJoint: GetFastValue(debugConfig, 'showJoint', true), jointColor: GetFastValue(debugConfig, 'jointColor', 0xe0e042), jointLineOpacity: GetFastValue(debugConfig, 'jointLineOpacity', 1), jointLineThickness: GetFastValue(debugConfig, 'jointLineThickness', 2), pinSize: GetFastValue(debugConfig, 'pinSize', 4), pinColor: GetFastValue(debugConfig, 'pinColor', 0x42e0e0), springColor: GetFastValue(debugConfig, 'springColor', 0xe042e0), anchorColor: GetFastValue(debugConfig, 'anchorColor', 0xefefef), anchorSize: GetFastValue(debugConfig, 'anchorSize', 4), showConvexHulls: GetFastValue(debugConfig, 'showConvexHulls', false), hullColor: GetFastValue(debugConfig, 'hullColor', 0xd703d0) }; if (this.drawDebug) { this.createDebugGraphic(); } this.setEventsProxy(); // Create the walls if (GetFastValue(config, 'setBounds', false)) { var boundsConfig = config['setBounds']; if (typeof boundsConfig === 'boolean') { this.setBounds(); } else { var x = GetFastValue(boundsConfig, 'x', 0); var y = GetFastValue(boundsConfig, 'y', 0); var width = GetFastValue(boundsConfig, 'width', scene.sys.scale.width); var height = GetFastValue(boundsConfig, 'height', scene.sys.scale.height); var thickness = GetFastValue(boundsConfig, 'thickness', 64); var left = GetFastValue(boundsConfig, 'left', true); var right = GetFastValue(boundsConfig, 'right', true); var top = GetFastValue(boundsConfig, 'top', true); var bottom = GetFastValue(boundsConfig, 'bottom', true); this.setBounds(x, y, width, height, thickness, left, right, top, bottom); } } }, /** * Sets the debug render style for the children of the given Matter Composite. * * Composites themselves do not render, but they can contain bodies, constraints and other composites that may do. * So the children of this composite are passed to the `setBodyRenderStyle`, `setCompositeRenderStyle` and * `setConstraintRenderStyle` methods accordingly. * * @method Phaser.Physics.Matter.World#setCompositeRenderStyle * @since 3.22.0 * * @param {MatterJS.CompositeType} composite - The Matter Composite to set the render style on. * * @return {this} This Matter World instance for method chaining. */ setCompositeRenderStyle: function (composite) { var bodies = composite.bodies; var constraints = composite.constraints; var composites = composite.composites; var i; var obj; var render; for (i = 0; i < bodies.length; i++) { obj = bodies[i]; render = obj.render; this.setBodyRenderStyle(obj, render.lineColor, render.lineOpacity, render.lineThickness, render.fillColor, render.fillOpacity); } for (i = 0; i < constraints.length; i++) { obj = constraints[i]; render = obj.render; this.setConstraintRenderStyle(obj, render.lineColor, render.lineOpacity, render.lineThickness, render.pinSize, render.anchorColor, render.anchorSize); } for (i = 0; i < composites.length; i++) { obj = composites[i]; this.setCompositeRenderStyle(obj); } return this; }, /** * Sets the debug render style for the given Matter Body. * * If you are using this on a Phaser Game Object, such as a Matter Sprite, then pass in the body property * to this method, not the Game Object itself. * * If you wish to skip a parameter, so it retains its current value, pass `false` for it. * * If you wish to reset the Body render colors to the defaults found in the World Debug Config, then call * this method with just the `body` parameter provided and no others. * * @method Phaser.Physics.Matter.World#setBodyRenderStyle * @since 3.22.0 * * @param {MatterJS.BodyType} body - The Matter Body to set the render style on. * @param {number} [lineColor] - The line color. If `null` it will use the World Debug Config value. * @param {number} [lineOpacity] - The line opacity, between 0 and 1. If `null` it will use the World Debug Config value. * @param {number} [lineThickness] - The line thickness. If `null` it will use the World Debug Config value. * @param {number} [fillColor] - The fill color. If `null` it will use the World Debug Config value. * @param {number} [fillOpacity] - The fill opacity, between 0 and 1. If `null` it will use the World Debug Config value. * * @return {this} This Matter World instance for method chaining. */ setBodyRenderStyle: function (body, lineColor, lineOpacity, lineThickness, fillColor, fillOpacity) { var render = body.render; var config = this.debugConfig; if (!render) { return this; } if (lineColor === undefined || lineColor === null) { lineColor = (body.isStatic) ? config.staticLineColor : config.lineColor; } if (lineOpacity === undefined || lineOpacity === null) { lineOpacity = config.lineOpacity; } if (lineThickness === undefined || lineThickness === null) { lineThickness = config.lineThickness; } if (fillColor === undefined || fillColor === null) { fillColor = (body.isStatic) ? config.staticFillColor : config.fillColor; } if (fillOpacity === undefined || fillOpacity === null) { fillOpacity = config.fillOpacity; } if (lineColor !== false) { render.lineColor = lineColor; } if (lineOpacity !== false) { render.lineOpacity = lineOpacity; } if (lineThickness !== false) { render.lineThickness = lineThickness; } if (fillColor !== false) { render.fillColor = fillColor; } if (fillOpacity !== false) { render.fillOpacity = fillOpacity; } return this; }, /** * Sets the debug render style for the given Matter Constraint. * * If you are using this on a Phaser Game Object, then pass in the body property * to this method, not the Game Object itself. * * If you wish to skip a parameter, so it retains its current value, pass `false` for it. * * If you wish to reset the Constraint render colors to the defaults found in the World Debug Config, then call * this method with just the `constraint` parameter provided and no others. * * @method Phaser.Physics.Matter.World#setConstraintRenderStyle * @since 3.22.0 * * @param {MatterJS.ConstraintType} constraint - The Matter Constraint to set the render style on. * @param {number} [lineColor] - The line color. If `null` it will use the World Debug Config value. * @param {number} [lineOpacity] - The line opacity, between 0 and 1. If `null` it will use the World Debug Config value. * @param {number} [lineThickness] - The line thickness. If `null` it will use the World Debug Config value. * @param {number} [pinSize] - If this constraint is a pin, this sets the size of the pin circle. If `null` it will use the World Debug Config value. * @param {number} [anchorColor] - The color used when rendering this constraints anchors. If `null` it will use the World Debug Config value. * @param {number} [anchorSize] - The size of the anchor circle, if this constraint has anchors. If `null` it will use the World Debug Config value. * * @return {this} This Matter World instance for method chaining. */ setConstraintRenderStyle: function (constraint, lineColor, lineOpacity, lineThickness, pinSize, anchorColor, anchorSize) { var render = constraint.render; var config = this.debugConfig; if (!render) { return this; } // Reset them if (lineColor === undefined || lineColor === null) { var type = render.type; if (type === 'line') { lineColor = config.jointColor; } else if (type === 'pin') { lineColor = config.pinColor; } else if (type === 'spring') { lineColor = config.springColor; } } if (lineOpacity === undefined || lineOpacity === null) { lineOpacity = config.jointLineOpacity; } if (lineThickness === undefined || lineThickness === null) { lineThickness = config.jointLineThickness; } if (pinSize === undefined || pinSize === null) { pinSize = config.pinSize; } if (anchorColor === undefined || anchorColor === null) { anchorColor = config.anchorColor; } if (anchorSize === undefined || anchorSize === null) { anchorSize = config.anchorSize; } if (lineColor !== false) { render.lineColor = lineColor; } if (lineOpacity !== false) { render.lineOpacity = lineOpacity; } if (lineThickness !== false) { render.lineThickness = lineThickness; } if (pinSize !== false) { render.pinSize = pinSize; } if (anchorColor !== false) { render.anchorColor = anchorColor; } if (anchorSize !== false) { render.anchorSize = anchorSize; } return this; }, /** * This internal method acts as a proxy between all of the Matter JS events and then re-emits them * via this class. * * @method Phaser.Physics.Matter.World#setEventsProxy * @since 3.0.0 */ setEventsProxy: function () { var _this = this; var engine = this.engine; var world = this.localWorld; // Inject debug styles if (this.drawDebug) { MatterEvents.on(world, 'compositeModified', function (composite) { _this.setCompositeRenderStyle(composite); }); MatterEvents.on(world, 'beforeAdd', function (event) { var objects = [].concat(event.object); for (var i = 0; i < objects.length; i++) { var obj = objects[i]; var render = obj.render; if (obj.type === 'body') { _this.setBodyRenderStyle(obj, render.lineColor, render.lineOpacity, render.lineThickness, render.fillColor, render.fillOpacity); } else if (obj.type === 'composite') { _this.setCompositeRenderStyle(obj); } else if (obj.type === 'constraint') { _this.setConstraintRenderStyle(obj, render.lineColor, render.lineOpacity, render.lineThickness, render.pinSize, render.anchorColor, render.anchorSize); } } }); } MatterEvents.on(world, 'beforeAdd', function (event) { _this.emit(Events.BEFORE_ADD, event); }); MatterEvents.on(world, 'afterAdd', function (event) { _this.emit(Events.AFTER_ADD, event); }); MatterEvents.on(world, 'beforeRemove', function (event) { _this.emit(Events.BEFORE_REMOVE, event); }); MatterEvents.on(world, 'afterRemove', function (event) { _this.emit(Events.AFTER_REMOVE, event); }); MatterEvents.on(engine, 'beforeUpdate', function (event) { _this.emit(Events.BEFORE_UPDATE, event); }); MatterEvents.on(engine, 'afterUpdate', function (event) { _this.emit(Events.AFTER_UPDATE, event); }); MatterEvents.on(engine, 'collisionStart', function (event) { var pairs = event.pairs; var bodyA; var bodyB; if (pairs.length > 0) { bodyA = pairs[0].bodyA; bodyB = pairs[0].bodyB; } _this.emit(Events.COLLISION_START, event, bodyA, bodyB); }); MatterEvents.on(engine, 'collisionActive', function (event) { var pairs = event.pairs; var bodyA; var bodyB; if (pairs.length > 0) { bodyA = pairs[0].bodyA; bodyB = pairs[0].bodyB; } _this.emit(Events.COLLISION_ACTIVE, event, bodyA, bodyB); }); MatterEvents.on(engine, 'collisionEnd', function (event) { var pairs = event.pairs; var bodyA; var bodyB; if (pairs.length > 0) { bodyA = pairs[0].bodyA; bodyB = pairs[0].bodyB; } _this.emit(Events.COLLISION_END, event, bodyA, bodyB); }); }, /** * Sets the bounds of the Physics world to match the given world pixel dimensions. * You can optionally set which 'walls' to create: left, right, top or bottom. * If none of the walls are given it will default to use the walls settings it had previously. * I.e. if you previously told it to not have the left or right walls, and you then adjust the world size * the newly created bounds will also not have the left and right walls. * Explicitly state them in the parameters to override this. * * @method Phaser.Physics.Matter.World#setBounds * @since 3.0.0 * * @param {number} [x=0] - The x coordinate of the top-left corner of the bounds. * @param {number} [y=0] - The y coordinate of the top-left corner of the bounds. * @param {number} [width] - The width of the bounds. * @param {number} [height] - The height of the bounds. * @param {number} [thickness=64] - The thickness of each wall, in pixels. * @param {boolean} [left=true] - If true will create the left bounds wall. * @param {boolean} [right=true] - If true will create the right bounds wall. * @param {boolean} [top=true] - If true will create the top bounds wall. * @param {boolean} [bottom=true] - If true will create the bottom bounds wall. * * @return {Phaser.Physics.Matter.World} This Matter World object. */ setBounds: function (x, y, width, height, thickness, left, right, top, bottom) { if (x === undefined) { x = 0; } if (y === undefined) { y = 0; } if (width === undefined) { width = this.scene.sys.scale.width; } if (height === undefined) { height = this.scene.sys.scale.height; } if (thickness === undefined) { thickness = 64; } if (left === undefined) { left = true; } if (right === undefined) { right = true; } if (top === undefined) { top = true; } if (bottom === undefined) { bottom = true; } this.updateWall(left, 'left', x - thickness, y - thickness, thickness, height + (thickness * 2)); this.updateWall(right, 'right', x + width, y - thickness, thickness, height + (thickness * 2)); this.updateWall(top, 'top', x, y - thickness, width, thickness); this.updateWall(bottom, 'bottom', x, y + height, width, thickness); return this; }, /** * Updates the 4 rectangle bodies that were created, if `setBounds` was set in the Matter config, to use * the new positions and sizes. This method is usually only called internally via the `setBounds` method. * * @method Phaser.Physics.Matter.World#updateWall * @since 3.0.0 * * @param {boolean} add - `true` if the walls are being added or updated, `false` to remove them from the world. * @param {string} [position] - Either `left`, `right`, `top` or `bottom`. Only optional if `add` is `false`. * @param {number} [x] - The horizontal position to place the walls at. Only optional if `add` is `false`. * @param {number} [y] - The vertical position to place the walls at. Only optional if `add` is `false`. * @param {number} [width] - The width of the walls, in pixels. Only optional if `add` is `false`. * @param {number} [height] - The height of the walls, in pixels. Only optional if `add` is `false`. */ updateWall: function (add, position, x, y, width, height) { var wall = this.walls[position]; if (add) { if (wall) { MatterWorld.remove(this.localWorld, wall); } // adjust center x += (width / 2); y += (height / 2); this.walls[position] = this.create(x, y, width, height, { isStatic: true, friction: 0, frictionStatic: 0 }); } else { if (wall) { MatterWorld.remove(this.localWorld, wall); } this.walls[position] = null; } }, /** * Creates a Phaser.GameObjects.Graphics object that is used to render all of the debug bodies and joints to. * * This method is called automatically by the constructor, if debugging has been enabled. * * The created Graphics object is automatically added to the Scene at 0x0 and given a depth of `Number.MAX_VALUE`, * so it renders above all else in the Scene. * * The Graphics object is assigned to the `debugGraphic` property of this class and `drawDebug` is enabled. * * @method Phaser.Physics.Matter.World#createDebugGraphic * @since 3.0.0 * * @return {Phaser.GameObjects.Graphics} The newly created Graphics object. */ createDebugGraphic: function () { var graphic = this.scene.sys.add.graphics({ x: 0, y: 0 }); graphic.setDepth(Number.MAX_VALUE); this.debugGraphic = graphic; this.drawDebug = true; return graphic; }, /** * Sets the world gravity and gravity scale to 0. * * @method Phaser.Physics.Matter.World#disableGravity * @since 3.0.0 * * @return {this} This Matter World object. */ disableGravity: function () { this.localWorld.gravity.x = 0; this.localWorld.gravity.y = 0; this.localWorld.gravity.scale = 0; return this; }, /** * Sets the worlds gravity to the values given. * * Gravity effects all bodies in the world, unless they have the `ignoreGravity` flag set. * * @method Phaser.Physics.Matter.World#setGravity * @since 3.0.0 * * @param {number} [x=0] - The world gravity x component. * @param {number} [y=1] - The world gravity y component. * @param {number} [scale=0.001] - The gravity scale factor. * * @return {this} This Matter World object. */ setGravity: function (x, y, scale) { if (x === undefined) { x = 0; } if (y === undefined) { y = 1; } this.localWorld.gravity.x = x; this.localWorld.gravity.y = y; if (scale !== undefined) { this.localWorld.gravity.scale = scale; } return this; }, /** * Creates a rectangle Matter body and adds it to the world. * * @method Phaser.Physics.Matter.World#create * @since 3.0.0 * * @param {number} x - The horizontal position of the body in the world. * @param {number} y - The vertical position of the body in the world. * @param {number} width - The width of the body. * @param {number} height - The height of the body. * @param {object} options - Optional Matter configuration object. * * @return {MatterJS.BodyType} The Matter.js body that was created. */ create: function (x, y, width, height, options) { var body = Bodies.rectangle(x, y, width, height, options); MatterWorld.add(this.localWorld, body); return body; }, /** * Adds a Matter JS object, or array of objects, to the world. * * The objects should be valid Matter JS entities, such as a Body, Composite or Constraint. * * Triggers `beforeAdd` and `afterAdd` events. * * @method Phaser.Physics.Matter.World#add * @since 3.0.0 * * @param {(object|object[])} object - Can be single object, or an array, and can be a body, composite or constraint. * * @return {this} This Matter World object. */ add: function (object) { MatterWorld.add(this.localWorld, object); return this; }, /** * Removes a Matter JS object, or array of objects, from the world. * * The objects should be valid Matter JS entities, such as a Body, Composite or Constraint. * * Triggers `beforeRemove` and `afterRemove` events. * * @method Phaser.Physics.Matter.World#remove * @since 3.0.0 * * @param {(object|object[])} object - Can be single object, or an array, and can be a body, composite or constraint. * @param {boolean} [deep=false] - Optionally search the objects children and recursively remove those as well. * * @return {this} This Matter World object. */ remove: function (object, deep) { if (!Array.isArray(object)) { object = [ object ]; } for (var i = 0; i < object.length; i++) { var entity = object[i]; var body = (entity.body) ? entity.body : entity; Composite.remove(this.localWorld, body, deep); } return this; }, /** * Removes a Matter JS constraint, or array of constraints, from the world. * * Triggers `beforeRemove` and `afterRemove` events. * * @method Phaser.Physics.Matter.World#removeConstraint * @since 3.0.0 * * @param {(MatterJS.ConstraintType|MatterJS.ConstraintType[])} constraint - A Matter JS Constraint, or an array of constraints, to be removed. * @param {boolean} [deep=false] - Optionally search the objects children and recursively remove those as well. * * @return {this} This Matter World object. */ removeConstraint: function (constraint, deep) { Composite.remove(this.localWorld, constraint, deep); return this; }, /** * Adds `MatterTileBody` instances for all the colliding tiles within the given tilemap layer. * * Set the appropriate tiles in your layer to collide before calling this method! * * @method Phaser.Physics.Matter.World#convertTilemapLayer * @since 3.0.0 * * @param {(Phaser.Tilemaps.DynamicTilemapLayer|Phaser.Tilemaps.StaticTilemapLayer)} tilemapLayer - * An array of tiles. * @param {object} [options] - Options to be passed to the MatterTileBody constructor. {@see Phaser.Physics.Matter.TileBody} * * @return {this} This Matter World object. */ convertTilemapLayer: function (tilemapLayer, options) { var layerData = tilemapLayer.layer; var tiles = tilemapLayer.getTilesWithin(0, 0, layerData.width, layerData.height, { isColliding: true }); this.convertTiles(tiles, options); return this; }, /** * Adds `MatterTileBody` instances for the given tiles. This adds bodies regardless of whether the * tiles are set to collide or not. * * @method Phaser.Physics.Matter.World#convertTiles * @since 3.0.0 * * @param {Phaser.Tilemaps.Tile[]} tiles - An array of tiles. * @param {object} [options] - Options to be passed to the MatterTileBody constructor. {@see Phaser.Physics.Matter.TileBody} * * @return {this} This Matter World object. */ convertTiles: function (tiles, options) { if (tiles.length === 0) { return this; } for (var i = 0; i < tiles.length; i++) { new MatterTileBody(this, tiles[i], options); } return this; }, /** * Returns the next unique group index for which bodies will collide. * If `isNonColliding` is `true`, returns the next unique group index for which bodies will not collide. * * @method Phaser.Physics.Matter.World#nextGroup * @since 3.0.0 * * @param {boolean} [isNonColliding=false] - If `true`, returns the next unique group index for which bodies will _not_ collide. * * @return {number} Unique category bitfield */ nextGroup: function (isNonColliding) { return MatterBody.nextGroup(isNonColliding); }, /** * Returns the next unique category bitfield (starting after the initial default category 0x0001). * There are 32 available. * * @method Phaser.Physics.Matter.World#nextCategory * @since 3.0.0 * * @return {number} Unique category bitfield */ nextCategory: function () { return MatterBody.nextCategory(); }, /** * Pauses this Matter World instance and sets `enabled` to `false`. * * A paused world will not run any simulations for the duration it is paused. * * @method Phaser.Physics.Matter.World#pause * @fires Phaser.Physics.Matter.Events#PAUSE * @since 3.0.0 * * @return {this} This Matter World object. */ pause: function () { this.enabled = false; this.emit(Events.PAUSE); return this; }, /** * Resumes this Matter World instance from a paused state and sets `enabled` to `true`. * * @method Phaser.Physics.Matter.World#resume * @fires Phaser.Physics.Matter.Events#RESUME * @since 3.0.0 * * @return {this} This Matter World object. */ resume: function () { this.enabled = true; this.emit(Events.RESUME); return this; }, /** * The internal update method. This is called automatically by the parent Scene. * * Moves the simulation forward in time by delta ms. Uses `World.correction` value as an optional number that * specifies the time correction factor to apply to the update. This can help improve the accuracy of the * simulation in cases where delta is changing between updates. The value of correction is defined as `delta / lastDelta`, * i.e. the percentage change of delta over the last step. Therefore the value is always 1 (no correction) when * delta is constant (or when no correction is desired, which is the default). * See the paper on Time Corrected Verlet for more information. * * Triggers `beforeUpdate` and `afterUpdate` events. Triggers `collisionStart`, `collisionActive` and `collisionEnd` events. * * If the World is paused, `update` is still run, but exits early and does not update the Matter Engine. * * @method Phaser.Physics.Matter.World#update * @since 3.0.0 * * @param {number} time - The current time. Either a High Resolution Timer value if it comes from Request Animation Frame, or Date.now if using SetTimeout. * @param {number} delta - The delta time in ms since the last frame. This is a smoothed and capped value based on the FPS rate. */ update: function (time, delta) { if (!this.enabled || !this.autoUpdate) { return; } var engine = this.engine; var runner = this.runner; var timing = engine.timing; var correction = this.correction; if (runner.isFixed) { // fixed timestep delta = this.getDelta(time, delta); } else { // dynamic timestep based on wall clock between calls delta = (time - runner.timePrev) || runner.delta; runner.timePrev = time; // optimistically filter delta over a few frames, to improve stability runner.deltaHistory.push(delta); runner.deltaHistory = runner.deltaHistory.slice(-runner.deltaSampleSize); delta = Math.min.apply(null, runner.deltaHistory); // limit delta delta = delta < runner.deltaMin ? runner.deltaMin : delta; delta = delta > runner.deltaMax ? runner.deltaMax : delta; // correction for delta correction = delta / runner.delta; // update engine timing object runner.delta = delta; } // time correction for time scaling if (runner.timeScalePrev !== 0) { correction *= timing.timeScale / runner.timeScalePrev; } if (timing.timeScale === 0) { correction = 0; } runner.timeScalePrev = timing.timeScale; runner.correction = correction; // fps counter runner.frameCounter += 1; if (time - runner.counterTimestamp >= 1000) { runner.fps = runner.frameCounter * ((time - runner.counterTimestamp) / 1000); runner.counterTimestamp = time; runner.frameCounter = 0; } Engine.update(engine, delta, correction); }, /** * Manually advances the physics simulation by one iteration. * * You can optionally pass in the `delta` and `correction` values to be used by Engine.update. * If undefined they use the Matter defaults of 60Hz and no correction. * * Calling `step` directly bypasses any checks of `enabled` or `autoUpdate`. * * It also ignores any custom `getDelta` functions, as you should be passing the delta * value in to this call. * * You can adjust the number of iterations that Engine.update performs internally. * Use the Scene Matter Physics config object to set the following properties: * * positionIterations (defaults to 6) * velocityIterations (defaults to 4) * constraintIterations (defaults to 2) * * Adjusting these values can help performance in certain situations, depending on the physics requirements * of your game. * * @method Phaser.Physics.Matter.World#step * @since 3.4.0 * * @param {number} [delta=16.666] - The delta value. * @param {number} [correction=1] - Optional delta correction value. */ step: function (delta, correction) { Engine.update(this.engine, delta, correction); }, /** * Runs the Matter Engine.update at a fixed timestep of 60Hz. * * @method Phaser.Physics.Matter.World#update60Hz * @since 3.4.0 * * @return {number} The delta value to be passed to Engine.update. */ update60Hz: function () { return 1000 / 60; }, /** * Runs the Matter Engine.update at a fixed timestep of 30Hz. * * @method Phaser.Physics.Matter.World#update30Hz * @since 3.4.0 * * @return {number} The delta value to be passed to Engine.update. */ update30Hz: function () { return 1000 / 30; }, /** * Returns `true` if the given body can be found within the World. * * @method Phaser.Physics.Matter.World#has * @since 3.22.0 * * @param {(MatterJS.Body|Phaser.GameObjects.GameObject)} body - The Matter Body, or Game Object, to search for within the world. * * @return {MatterJS.BodyType[]} An array of all the Matter JS Bodies in this World. */ has: function (body) { var src = (body.hasOwnProperty('body')) ? body.body : body; return (Composite.get(this.localWorld, src.id, src.type) !== null); }, /** * Returns all the bodies in the Matter World, including all bodies in children, recursively. * * @method Phaser.Physics.Matter.World#getAllBodies * @since 3.22.0 * * @return {MatterJS.BodyType[]} An array of all the Matter JS Bodies in this World. */ getAllBodies: function () { return Composite.allBodies(this.localWorld); }, /** * Returns all the constraints in the Matter World, including all constraints in children, recursively. * * @method Phaser.Physics.Matter.World#getAllConstraints * @since 3.22.0 * * @return {MatterJS.ConstraintType[]} An array of all the Matter JS Constraints in this World. */ getAllConstraints: function () { return Composite.allConstraints(this.localWorld); }, /** * Returns all the composites in the Matter World, including all composites in children, recursively. * * @method Phaser.Physics.Matter.World#getAllComposites * @since 3.22.0 * * @return {MatterJS.CompositeType[]} An array of all the Matter JS Composites in this World. */ getAllComposites: function () { return Composite.allComposites(this.localWorld); }, /** * Handles the rendering of bodies and debug information to the debug Graphics object, if enabled. * * This method is called automatically by the Scene after all processing has taken place. * * @method Phaser.Physics.Matter.World#postUpdate * @private * @since 3.0.0 */ postUpdate: function () { if (!this.drawDebug) { return; } var config = this.debugConfig; var engine = this.engine; var graphics = this.debugGraphic; var bodies = Composite.allBodies(this.localWorld); this.debugGraphic.clear(); if (config.showBroadphase && engine.broadphase.controller) { this.renderGrid(engine.broadphase, graphics, config.broadphaseColor, 0.5); } if (config.showBounds) { this.renderBodyBounds(bodies, graphics, config.boundsColor, 0.5); } if (config.showBody || config.showStaticBody) { this.renderBodies(bodies); } if (config.showJoint) { this.renderJoints(); } if (config.showAxes || config.showAngleIndicator) { this.renderBodyAxes(bodies, graphics, config.showAxes, config.angleColor, 0.5); } if (config.showVelocity) { this.renderBodyVelocity(bodies, graphics, config.velocityColor, 1, 2); } if (config.showSeparations) { this.renderSeparations(engine.pairs.list, graphics, config.separationColor); } if (config.showCollisions) { this.renderCollisions(engine.pairs.list, graphics, config.collisionColor); } }, /** * Renders the Engine Broadphase Controller Grid to the given Graphics instance. * * The debug renderer calls this method if the `showBroadphase` config value is set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render the Grid to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderGrid * @since 3.22.0 * * @param {MatterJS.Grid} grid - The Matter Grid to be rendered. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * @param {number} lineOpacity - The line opacity, between 0 and 1. * * @return {this} This Matter World instance for method chaining. */ renderGrid: function (grid, graphics, lineColor, lineOpacity) { graphics.lineStyle(1, lineColor, lineOpacity); var bucketKeys = Common.keys(grid.buckets); for (var i = 0; i < bucketKeys.length; i++) { var bucketId = bucketKeys[i]; if (grid.buckets[bucketId].length < 2) { continue; } var region = bucketId.split(/C|R/); graphics.strokeRect( parseInt(region[1], 10) * grid.bucketWidth, parseInt(region[2], 10) * grid.bucketHeight, grid.bucketWidth, grid.bucketHeight ); } return this; }, /** * Renders the list of Pair separations to the given Graphics instance. * * The debug renderer calls this method if the `showSeparations` config value is set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render the Grid to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderSeparations * @since 3.22.0 * * @param {MatterJS.Pair[]} pairs - An array of Matter Pairs to be rendered. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * * @return {this} This Matter World instance for method chaining. */ renderSeparations: function (pairs, graphics, lineColor) { graphics.lineStyle(1, lineColor, 1); for (var i = 0; i < pairs.length; i++) { var pair = pairs[i]; if (!pair.isActive) { continue; } var collision = pair.collision; var bodyA = collision.bodyA; var bodyB = collision.bodyB; var posA = bodyA.position; var posB = bodyB.position; var penetration = collision.penetration; var k = (!bodyA.isStatic && !bodyB.isStatic) ? 4 : 1; if (bodyB.isStatic) { k = 0; } graphics.lineBetween( posB.x, posB.y, posB.x - (penetration.x * k), posB.y - (penetration.y * k) ); k = (!bodyA.isStatic && !bodyB.isStatic) ? 4 : 1; if (bodyA.isStatic) { k = 0; } graphics.lineBetween( posA.x, posA.y, posA.x - (penetration.x * k), posA.y - (penetration.y * k) ); } return this; }, /** * Renders the list of collision points and normals to the given Graphics instance. * * The debug renderer calls this method if the `showCollisions` config value is set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render the Grid to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderCollisions * @since 3.22.0 * * @param {MatterJS.Pair[]} pairs - An array of Matter Pairs to be rendered. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * * @return {this} This Matter World instance for method chaining. */ renderCollisions: function (pairs, graphics, lineColor) { graphics.lineStyle(1, lineColor, 0.5); graphics.fillStyle(lineColor, 1); var i; var pair; // Collision Positions for (i = 0; i < pairs.length; i++) { pair = pairs[i]; if (!pair.isActive) { continue; } for (var j = 0; j < pair.activeContacts.length; j++) { var contact = pair.activeContacts[j]; var vertex = contact.vertex; graphics.fillRect(vertex.x - 2, vertex.y - 2, 5, 5); } } // Collision Normals for (i = 0; i < pairs.length; i++) { pair = pairs[i]; if (!pair.isActive) { continue; } var collision = pair.collision; var contacts = pair.activeContacts; if (contacts.length > 0) { var normalPosX = contacts[0].vertex.x; var normalPosY = contacts[0].vertex.y; if (contacts.length === 2) { normalPosX = (contacts[0].vertex.x + contacts[1].vertex.x) / 2; normalPosY = (contacts[0].vertex.y + contacts[1].vertex.y) / 2; } if (collision.bodyB === collision.supports[0].body || collision.bodyA.isStatic) { graphics.lineBetween( normalPosX - collision.normal.x * 8, normalPosY - collision.normal.y * 8, normalPosX, normalPosY ); } else { graphics.lineBetween( normalPosX + collision.normal.x * 8, normalPosY + collision.normal.y * 8, normalPosX, normalPosY ); } } } return this; }, /** * Renders the bounds of an array of Bodies to the given Graphics instance. * * If the body is a compound body, it will render the bounds for the parent compound. * * The debug renderer calls this method if the `showBounds` config value is set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render bounds to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderBodyBounds * @since 3.22.0 * * @param {array} bodies - An array of bodies from the localWorld. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * @param {number} lineOpacity - The line opacity, between 0 and 1. */ renderBodyBounds: function (bodies, graphics, lineColor, lineOpacity) { graphics.lineStyle(1, lineColor, lineOpacity); for (var i = 0; i < bodies.length; i++) { var body = bodies[i]; // 1) Don't show invisible bodies if (!body.render.visible) { continue; } var bounds = body.bounds; if (bounds) { graphics.strokeRect( bounds.min.x, bounds.min.y, bounds.max.x - bounds.min.x, bounds.max.y - bounds.min.y ); } else { var parts = body.parts; for (var j = parts.length > 1 ? 1 : 0; j < parts.length; j++) { var part = parts[j]; graphics.strokeRect( part.bounds.min.x, part.bounds.min.y, part.bounds.max.x - part.bounds.min.x, part.bounds.max.y - part.bounds.min.y ); } } } return this; }, /** * Renders either all axes, or a single axis indicator, for an array of Bodies, to the given Graphics instance. * * The debug renderer calls this method if the `showAxes` or `showAngleIndicator` config values are set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render bounds to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderBodyAxes * @since 3.22.0 * * @param {array} bodies - An array of bodies from the localWorld. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {boolean} showAxes - If `true` it will render all body axes. If `false` it will render a single axis indicator. * @param {number} lineColor - The line color. * @param {number} lineOpacity - The line opacity, between 0 and 1. */ renderBodyAxes: function (bodies, graphics, showAxes, lineColor, lineOpacity) { graphics.lineStyle(1, lineColor, lineOpacity); for (var i = 0; i < bodies.length; i++) { var body = bodies[i]; var parts = body.parts; // 1) Don't show invisible bodies if (!body.render.visible) { continue; } var part; var j; var k; if (showAxes) { for (j = parts.length > 1 ? 1 : 0; j < parts.length; j++) { part = parts[j]; for (k = 0; k < part.axes.length; k++) { var axis = part.axes[k]; graphics.lineBetween( part.position.x, part.position.y, part.position.x + axis.x * 20, part.position.y + axis.y * 20 ); } } } else { for (j = parts.length > 1 ? 1 : 0; j < parts.length; j++) { part = parts[j]; for (k = 0; k < part.axes.length; k++) { graphics.lineBetween( part.position.x, part.position.y, (part.vertices[0].x + part.vertices[part.vertices.length - 1].x) / 2, (part.vertices[0].y + part.vertices[part.vertices.length - 1].y) / 2 ); } } } } return this; }, /** * Renders a velocity indicator for an array of Bodies, to the given Graphics instance. * * The debug renderer calls this method if the `showVelocity` config value is set. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render bounds to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderBodyVelocity * @since 3.22.0 * * @param {array} bodies - An array of bodies from the localWorld. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * @param {number} lineOpacity - The line opacity, between 0 and 1. * @param {number} lineThickness - The line thickness. */ renderBodyVelocity: function (bodies, graphics, lineColor, lineOpacity, lineThickness) { graphics.lineStyle(lineThickness, lineColor, lineOpacity); for (var i = 0; i < bodies.length; i++) { var body = bodies[i]; // 1) Don't show invisible bodies if (!body.render.visible) { continue; } graphics.lineBetween( body.position.x, body.position.y, body.position.x + (body.position.x - body.positionPrev.x) * 2, body.position.y + (body.position.y - body.positionPrev.y) * 2 ); } return this; }, /** * Renders the given array of Bodies to the debug graphics instance. * * Called automatically by the `postUpdate` method. * * @method Phaser.Physics.Matter.World#renderBodies * @private * @since 3.14.0 * * @param {array} bodies - An array of bodies from the localWorld. */ renderBodies: function (bodies) { var graphics = this.debugGraphic; var config = this.debugConfig; var showBody = config.showBody; var showStaticBody = config.showStaticBody; var showSleeping = config.showSleeping; var showInternalEdges = config.showInternalEdges; var showConvexHulls = config.showConvexHulls; var renderFill = config.renderFill; var renderLine = config.renderLine; var staticBodySleepOpacity = config.staticBodySleepOpacity; var sleepFillColor = config.sleepFillColor; var sleepLineColor = config.sleepLineColor; var hullColor = config.hullColor; for (var i = 0; i < bodies.length; i++) { var body = bodies[i]; // 1) Don't show invisible bodies if (!body.render.visible) { continue; } // 2) Don't show static bodies, OR // 3) Don't show dynamic bodies if ((!showStaticBody && body.isStatic) || (!showBody && !body.isStatic)) { continue; } var lineColor = body.render.lineColor; var lineOpacity = body.render.lineOpacity; var lineThickness = body.render.lineThickness; var fillColor = body.render.fillColor; var fillOpacity = body.render.fillOpacity; if (showSleeping && body.isSleeping) { if (body.isStatic) { lineOpacity *= staticBodySleepOpacity; fillOpacity *= staticBodySleepOpacity; } else { lineColor = sleepLineColor; fillColor = sleepFillColor; } } if (!renderFill) { fillColor = null; } if (!renderLine) { lineColor = null; } this.renderBody(body, graphics, showInternalEdges, lineColor, lineOpacity, lineThickness, fillColor, fillOpacity); var partsLength = body.parts.length; if (showConvexHulls && partsLength > 1) { this.renderConvexHull(body, graphics, hullColor, lineThickness); } } }, /** * Renders a single Matter Body to the given Phaser Graphics Game Object. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render a Body to your own Graphics instance. * * If you don't wish to render a line around the body, set the `lineColor` parameter to `null`. * Equally, if you don't wish to render a fill, set the `fillColor` parameter to `null`. * * @method Phaser.Physics.Matter.World#renderBody * @since 3.22.0 * * @param {MatterJS.BodyType} body - The Matter Body to be rendered. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {boolean} showInternalEdges - Render internal edges of the polygon? * @param {number} [lineColor] - The line color. * @param {number} [lineOpacity] - The line opacity, between 0 and 1. * @param {number} [lineThickness=1] - The line thickness. * @param {number} [fillColor] - The fill color. * @param {number} [fillOpacity] - The fill opacity, between 0 and 1. * * @return {this} This Matter World instance for method chaining. */ renderBody: function (body, graphics, showInternalEdges, lineColor, lineOpacity, lineThickness, fillColor, fillOpacity) { if (lineColor === undefined) { lineColor = null; } if (lineOpacity === undefined) { lineOpacity = null; } if (lineThickness === undefined) { lineThickness = 1; } if (fillColor === undefined) { fillColor = null; } if (fillOpacity === undefined) { fillOpacity = null; } var config = this.debugConfig; var sensorFillColor = config.sensorFillColor; var sensorLineColor = config.sensorLineColor; // Handle compound parts var parts = body.parts; var partsLength = parts.length; for (var k = (partsLength > 1) ? 1 : 0; k < partsLength; k++) { var part = parts[k]; var render = part.render; var opacity = render.opacity; if (!render.visible || opacity === 0 || (part.isSensor && !config.showSensors)) { continue; } // Part polygon var circleRadius = part.circleRadius; graphics.beginPath(); if (part.isSensor) { if (fillColor !== null) { graphics.fillStyle(sensorFillColor, fillOpacity * opacity); } if (lineColor !== null) { graphics.lineStyle(lineThickness, sensorLineColor, lineOpacity * opacity); } } else { if (fillColor !== null) { graphics.fillStyle(fillColor, fillOpacity * opacity); } if (lineColor !== null) { graphics.lineStyle(lineThickness, lineColor, lineOpacity * opacity); } } if (circleRadius) { graphics.arc(part.position.x, part.position.y, circleRadius, 0, 2 * Math.PI); } else { var vertices = part.vertices; var vertLength = vertices.length; graphics.moveTo(vertices[0].x, vertices[0].y); for (var j = 1; j < vertLength; j++) { var vert = vertices[j]; if (!vertices[j - 1].isInternal || showInternalEdges) { graphics.lineTo(vert.x, vert.y); } else { graphics.moveTo(vert.x, vert.y); } if (j < vertLength && vert.isInternal && !showInternalEdges) { var nextIndex = (j + 1) % vertLength; graphics.moveTo(vertices[nextIndex].x, vertices[nextIndex].y); } } graphics.closePath(); } if (fillColor !== null) { graphics.fillPath(); } if (lineColor !== null) { graphics.strokePath(); } } if (config.showPositions && !body.isStatic) { var px = body.position.x; var py = body.position.y; var hs = Math.ceil(config.positionSize / 2); graphics.fillStyle(config.positionColor, 1); graphics.fillRect(px - hs, py - hs, config.positionSize, config.positionSize); } return this; }, /** * Renders the Convex Hull for a single Matter Body to the given Phaser Graphics Game Object. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render a Body hull to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderConvexHull * @since 3.22.0 * * @param {MatterJS.BodyType} body - The Matter Body to be rendered. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} hullColor - The color used to render the hull. * @param {number} [lineThickness=1] - The hull line thickness. * * @return {this} This Matter World instance for method chaining. */ renderConvexHull: function (body, graphics, hullColor, lineThickness) { if (lineThickness === undefined) { lineThickness = 1; } var parts = body.parts; var partsLength = parts.length; // Render Convex Hulls if (partsLength > 1) { var verts = body.vertices; graphics.lineStyle(lineThickness, hullColor); graphics.beginPath(); graphics.moveTo(verts[0].x, verts[0].y); for (var v = 1; v < verts.length; v++) { graphics.lineTo(verts[v].x, verts[v].y); } graphics.lineTo(verts[0].x, verts[0].y); graphics.strokePath(); } return this; }, /** * Renders all of the constraints in the world (unless they are specifically set to invisible). * * Called automatically by the `postUpdate` method. * * @method Phaser.Physics.Matter.World#renderJoints * @private * @since 3.14.0 */ renderJoints: function () { var graphics = this.debugGraphic; // Render constraints var constraints = Composite.allConstraints(this.localWorld); for (var i = 0; i < constraints.length; i++) { var config = constraints[i].render; var lineColor = config.lineColor; var lineOpacity = config.lineOpacity; var lineThickness = config.lineThickness; var pinSize = config.pinSize; var anchorColor = config.anchorColor; var anchorSize = config.anchorSize; this.renderConstraint(constraints[i], graphics, lineColor, lineOpacity, lineThickness, pinSize, anchorColor, anchorSize); } }, /** * Renders a single Matter Constraint, such as a Pin or a Spring, to the given Phaser Graphics Game Object. * * This method is used internally by the Matter Debug Renderer, but is also exposed publically should * you wish to render a Constraint to your own Graphics instance. * * @method Phaser.Physics.Matter.World#renderConstraint * @since 3.22.0 * * @param {MatterJS.ConstraintType} constraint - The Matter Constraint to render. * @param {Phaser.GameObjects.Graphics} graphics - The Graphics object to render to. * @param {number} lineColor - The line color. * @param {number} lineOpacity - The line opacity, between 0 and 1. * @param {number} lineThickness - The line thickness. * @param {number} pinSize - If this constraint is a pin, this sets the size of the pin circle. * @param {number} anchorColor - The color used when rendering this constraints anchors. Set to `null` to not render anchors. * @param {number} anchorSize - The size of the anchor circle, if this constraint has anchors and is rendering them. * * @return {this} This Matter World instance for method chaining. */ renderConstraint: function (constraint, graphics, lineColor, lineOpacity, lineThickness, pinSize, anchorColor, anchorSize) { var render = constraint.render; if (!render.visible || !constraint.pointA || !constraint.pointB) { return this; } graphics.lineStyle(lineThickness, lineColor, lineOpacity); var bodyA = constraint.bodyA; var bodyB = constraint.bodyB; var start; var end; if (bodyA) { start = Vector.add(bodyA.position, constraint.pointA); } else { start = constraint.pointA; } if (render.type === 'pin') { graphics.strokeCircle(start.x, start.y, pinSize); } else { if (bodyB) { end = Vector.add(bodyB.position, constraint.pointB); } else { end = constraint.pointB; } graphics.beginPath(); graphics.moveTo(start.x, start.y); if (render.type === 'spring') { var delta = Vector.sub(end, start); var normal = Vector.perp(Vector.normalise(delta)); var coils = Math.ceil(Common.clamp(constraint.length / 5, 12, 20)); var offset; for (var j = 1; j < coils; j += 1) { offset = (j % 2 === 0) ? 1 : -1; graphics.lineTo( start.x + delta.x * (j / coils) + normal.x * offset * 4, start.y + delta.y * (j / coils) + normal.y * offset * 4 ); } } graphics.lineTo(end.x, end.y); } graphics.strokePath(); if (render.anchors && anchorSize > 0) { graphics.fillStyle(anchorColor); graphics.fillCircle(start.x, start.y, anchorSize); graphics.fillCircle(end.x, end.y, anchorSize); } return this; }, /** * Resets the internal collision IDs that Matter.JS uses for Body collision groups. * * You should call this before destroying your game if you need to restart the game * again on the same page, without first reloading the page. Or, if you wish to * consistently destroy a Scene that contains Matter.js and then run it again * later in the same game. * * @method Phaser.Physics.Matter.World#resetCollisionIDs * @since 3.17.0 */ resetCollisionIDs: function () { Body._nextCollidingGroupId = 1; Body._nextNonCollidingGroupId = -1; Body._nextCategory = 0x0001; return this; }, /** * Will remove all Matter physics event listeners and clear the matter physics world, * engine and any debug graphics, if any. * * @method Phaser.Physics.Matter.World#shutdown * @since 3.0.0 */ shutdown: function () { MatterEvents.off(this.engine); this.removeAllListeners(); MatterWorld.clear(this.localWorld, false); Engine.clear(this.engine); if (this.drawDebug) { this.debugGraphic.destroy(); } }, /** * Will remove all Matter physics event listeners and clear the matter physics world, * engine and any debug graphics, if any. * * After destroying the world it cannot be re-used again. * * @method Phaser.Physics.Matter.World#destroy * @since 3.0.0 */ destroy: function () { this.shutdown(); } }); module.exports = World;