/* * Copyright (c) 2006-2007 Erin Catto http://www.gphysics.com * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. */ var Box2D = {}; (function (a2j, undefined) { if(!(Object.defineProperty instanceof Function) && Object.prototype.__defineGetter__ instanceof Function && Object.prototype.__defineSetter__ instanceof Function) { Object.defineProperty = function(obj, p, cfg) { if(cfg.get instanceof Function) obj.__defineGetter__(p, cfg.get); if(cfg.set instanceof Function) obj.__defineSetter__(p, cfg.set); } } function emptyFn() {}; a2j.inherit = function(cls, base) { var tmpCtr = cls; emptyFn.prototype = base.prototype; cls.prototype = new emptyFn; cls.prototype.constructor = tmpCtr; }; a2j.generateCallback = function generateCallback(context, cb) { return function () { cb.apply(context, arguments); }; }; a2j.NVector = function NVector(length) { if (length === undefined) length = 0; var tmp = new Array(length || 0); for (var i = 0; i < length; ++i) tmp[i] = 0; return tmp; }; a2j.is = function is(o1, o2) { if (o1 === null) return false; if ((o2 instanceof Function) && (o1 instanceof o2)) return true; if ((o1.constructor.__implements != undefined) && (o1.constructor.__implements[o2])) return true; return false; }; a2j.parseUInt = function(v) { return Math.abs(parseInt(v)); } })(Box2D); //#TODO remove assignments from global namespace var Vector = Array; var Vector_a2j_Number = Box2D.NVector; //package structure if (typeof(Box2D) === "undefined") Box2D = {}; if (typeof(Box2D.Collision) === "undefined") Box2D.Collision = {}; if (typeof(Box2D.Collision.Shapes) === "undefined") Box2D.Collision.Shapes = {}; if (typeof(Box2D.Common) === "undefined") Box2D.Common = {}; if (typeof(Box2D.Common.Math) === "undefined") Box2D.Common.Math = {}; if (typeof(Box2D.Dynamics) === "undefined") Box2D.Dynamics = {}; if (typeof(Box2D.Dynamics.Contacts) === "undefined") Box2D.Dynamics.Contacts = {}; if (typeof(Box2D.Dynamics.Controllers) === "undefined") Box2D.Dynamics.Controllers = {}; if (typeof(Box2D.Dynamics.Joints) === "undefined") Box2D.Dynamics.Joints = {}; //pre-definitions (function () { Box2D.Collision.IBroadPhase = 'Box2D.Collision.IBroadPhase'; function b2AABB() { b2AABB.b2AABB.apply(this, arguments); }; Box2D.Collision.b2AABB = b2AABB; function b2Bound() { b2Bound.b2Bound.apply(this, arguments); }; Box2D.Collision.b2Bound = b2Bound; function b2BoundValues() { b2BoundValues.b2BoundValues.apply(this, arguments); if (this.constructor === b2BoundValues) this.b2BoundValues.apply(this, arguments); }; Box2D.Collision.b2BoundValues = b2BoundValues; function b2Collision() { b2Collision.b2Collision.apply(this, arguments); }; Box2D.Collision.b2Collision = b2Collision; function b2ContactID() { b2ContactID.b2ContactID.apply(this, arguments); if (this.constructor === b2ContactID) this.b2ContactID.apply(this, arguments); }; Box2D.Collision.b2ContactID = b2ContactID; function b2ContactPoint() { b2ContactPoint.b2ContactPoint.apply(this, arguments); }; Box2D.Collision.b2ContactPoint = b2ContactPoint; function b2Distance() { b2Distance.b2Distance.apply(this, arguments); }; Box2D.Collision.b2Distance = b2Distance; function b2DistanceInput() { b2DistanceInput.b2DistanceInput.apply(this, arguments); }; Box2D.Collision.b2DistanceInput = b2DistanceInput; function b2DistanceOutput() { b2DistanceOutput.b2DistanceOutput.apply(this, arguments); }; Box2D.Collision.b2DistanceOutput = b2DistanceOutput; function b2DistanceProxy() { b2DistanceProxy.b2DistanceProxy.apply(this, arguments); }; Box2D.Collision.b2DistanceProxy = b2DistanceProxy; function b2DynamicTree() { b2DynamicTree.b2DynamicTree.apply(this, arguments); if (this.constructor === b2DynamicTree) this.b2DynamicTree.apply(this, arguments); }; Box2D.Collision.b2DynamicTree = b2DynamicTree; function b2DynamicTreeBroadPhase() { b2DynamicTreeBroadPhase.b2DynamicTreeBroadPhase.apply(this, arguments); }; Box2D.Collision.b2DynamicTreeBroadPhase = b2DynamicTreeBroadPhase; function b2DynamicTreeNode() { b2DynamicTreeNode.b2DynamicTreeNode.apply(this, arguments); }; Box2D.Collision.b2DynamicTreeNode = b2DynamicTreeNode; function b2DynamicTreePair() { b2DynamicTreePair.b2DynamicTreePair.apply(this, arguments); }; Box2D.Collision.b2DynamicTreePair = b2DynamicTreePair; function b2Manifold() { b2Manifold.b2Manifold.apply(this, arguments); if (this.constructor === b2Manifold) this.b2Manifold.apply(this, arguments); }; Box2D.Collision.b2Manifold = b2Manifold; function b2ManifoldPoint() { b2ManifoldPoint.b2ManifoldPoint.apply(this, arguments); if (this.constructor === b2ManifoldPoint) this.b2ManifoldPoint.apply(this, arguments); }; Box2D.Collision.b2ManifoldPoint = b2ManifoldPoint; function b2Point() { b2Point.b2Point.apply(this, arguments); }; Box2D.Collision.b2Point = b2Point; function b2RayCastInput() { b2RayCastInput.b2RayCastInput.apply(this, arguments); if (this.constructor === b2RayCastInput) this.b2RayCastInput.apply(this, arguments); }; Box2D.Collision.b2RayCastInput = b2RayCastInput; function b2RayCastOutput() { b2RayCastOutput.b2RayCastOutput.apply(this, arguments); }; Box2D.Collision.b2RayCastOutput = b2RayCastOutput; function b2Segment() { b2Segment.b2Segment.apply(this, arguments); }; Box2D.Collision.b2Segment = b2Segment; function b2SeparationFunction() { b2SeparationFunction.b2SeparationFunction.apply(this, arguments); }; Box2D.Collision.b2SeparationFunction = b2SeparationFunction; function b2Simplex() { b2Simplex.b2Simplex.apply(this, arguments); if (this.constructor === b2Simplex) this.b2Simplex.apply(this, arguments); }; Box2D.Collision.b2Simplex = b2Simplex; function b2SimplexCache() { b2SimplexCache.b2SimplexCache.apply(this, arguments); }; Box2D.Collision.b2SimplexCache = b2SimplexCache; function b2SimplexVertex() { b2SimplexVertex.b2SimplexVertex.apply(this, arguments); }; Box2D.Collision.b2SimplexVertex = b2SimplexVertex; function b2TimeOfImpact() { b2TimeOfImpact.b2TimeOfImpact.apply(this, arguments); }; Box2D.Collision.b2TimeOfImpact = b2TimeOfImpact; function b2TOIInput() { b2TOIInput.b2TOIInput.apply(this, arguments); }; Box2D.Collision.b2TOIInput = b2TOIInput; function b2WorldManifold() { b2WorldManifold.b2WorldManifold.apply(this, arguments); if (this.constructor === b2WorldManifold) this.b2WorldManifold.apply(this, arguments); }; Box2D.Collision.b2WorldManifold = b2WorldManifold; function ClipVertex() { ClipVertex.ClipVertex.apply(this, arguments); }; Box2D.Collision.ClipVertex = ClipVertex; function Features() { Features.Features.apply(this, arguments); }; Box2D.Collision.Features = Features; function b2CircleShape() { b2CircleShape.b2CircleShape.apply(this, arguments); if (this.constructor === b2CircleShape) this.b2CircleShape.apply(this, arguments); }; Box2D.Collision.Shapes.b2CircleShape = b2CircleShape; function b2EdgeChainDef() { b2EdgeChainDef.b2EdgeChainDef.apply(this, arguments); if (this.constructor === b2EdgeChainDef) this.b2EdgeChainDef.apply(this, arguments); }; Box2D.Collision.Shapes.b2EdgeChainDef = b2EdgeChainDef; function b2EdgeShape() { b2EdgeShape.b2EdgeShape.apply(this, arguments); if (this.constructor === b2EdgeShape) this.b2EdgeShape.apply(this, arguments); }; Box2D.Collision.Shapes.b2EdgeShape = b2EdgeShape; function b2MassData() { b2MassData.b2MassData.apply(this, arguments); }; Box2D.Collision.Shapes.b2MassData = b2MassData; function b2PolygonShape() { b2PolygonShape.b2PolygonShape.apply(this, arguments); if (this.constructor === b2PolygonShape) this.b2PolygonShape.apply(this, arguments); }; Box2D.Collision.Shapes.b2PolygonShape = b2PolygonShape; function b2Shape() { b2Shape.b2Shape.apply(this, arguments); if (this.constructor === b2Shape) this.b2Shape.apply(this, arguments); }; Box2D.Collision.Shapes.b2Shape = b2Shape; Box2D.Common.b2internal = 'Box2D.Common.b2internal'; function b2Color() { b2Color.b2Color.apply(this, arguments); if (this.constructor === b2Color) this.b2Color.apply(this, arguments); }; Box2D.Common.b2Color = b2Color; function b2Settings() { b2Settings.b2Settings.apply(this, arguments); }; Box2D.Common.b2Settings = b2Settings; function b2Mat22() { b2Mat22.b2Mat22.apply(this, arguments); if (this.constructor === b2Mat22) this.b2Mat22.apply(this, arguments); }; Box2D.Common.Math.b2Mat22 = b2Mat22; function b2Mat33() { b2Mat33.b2Mat33.apply(this, arguments); if (this.constructor === b2Mat33) this.b2Mat33.apply(this, arguments); }; Box2D.Common.Math.b2Mat33 = b2Mat33; function b2Math() { b2Math.b2Math.apply(this, arguments); }; Box2D.Common.Math.b2Math = b2Math; function b2Sweep() { b2Sweep.b2Sweep.apply(this, arguments); }; Box2D.Common.Math.b2Sweep = b2Sweep; function b2Transform() { b2Transform.b2Transform.apply(this, arguments); if (this.constructor === b2Transform) this.b2Transform.apply(this, arguments); }; Box2D.Common.Math.b2Transform = b2Transform; function b2Vec2() { b2Vec2.b2Vec2.apply(this, arguments); if (this.constructor === b2Vec2) this.b2Vec2.apply(this, arguments); }; Box2D.Common.Math.b2Vec2 = b2Vec2; function b2Vec3() { b2Vec3.b2Vec3.apply(this, arguments); if (this.constructor === b2Vec3) this.b2Vec3.apply(this, arguments); }; Box2D.Common.Math.b2Vec3 = b2Vec3; function b2Body() { b2Body.b2Body.apply(this, arguments); if (this.constructor === b2Body) this.b2Body.apply(this, arguments); }; Box2D.Dynamics.b2Body = b2Body; function b2BodyDef() { b2BodyDef.b2BodyDef.apply(this, arguments); if (this.constructor === b2BodyDef) this.b2BodyDef.apply(this, arguments); }; Box2D.Dynamics.b2BodyDef = b2BodyDef; function b2ContactFilter() { b2ContactFilter.b2ContactFilter.apply(this, arguments); }; Box2D.Dynamics.b2ContactFilter = b2ContactFilter; function b2ContactImpulse() { b2ContactImpulse.b2ContactImpulse.apply(this, arguments); }; Box2D.Dynamics.b2ContactImpulse = b2ContactImpulse; function b2ContactListener() { b2ContactListener.b2ContactListener.apply(this, arguments); }; Box2D.Dynamics.b2ContactListener = b2ContactListener; function b2ContactManager() { b2ContactManager.b2ContactManager.apply(this, arguments); if (this.constructor === b2ContactManager) this.b2ContactManager.apply(this, arguments); }; Box2D.Dynamics.b2ContactManager = b2ContactManager; function b2DebugDraw() { b2DebugDraw.b2DebugDraw.apply(this, arguments); if (this.constructor === b2DebugDraw) this.b2DebugDraw.apply(this, arguments); }; Box2D.Dynamics.b2DebugDraw = b2DebugDraw; function b2DestructionListener() { b2DestructionListener.b2DestructionListener.apply(this, arguments); }; Box2D.Dynamics.b2DestructionListener = b2DestructionListener; function b2FilterData() { b2FilterData.b2FilterData.apply(this, arguments); }; Box2D.Dynamics.b2FilterData = b2FilterData; function b2Fixture() { b2Fixture.b2Fixture.apply(this, arguments); if (this.constructor === b2Fixture) this.b2Fixture.apply(this, arguments); }; Box2D.Dynamics.b2Fixture = b2Fixture; function b2FixtureDef() { b2FixtureDef.b2FixtureDef.apply(this, arguments); if (this.constructor === b2FixtureDef) this.b2FixtureDef.apply(this, arguments); }; Box2D.Dynamics.b2FixtureDef = b2FixtureDef; function b2Island() { b2Island.b2Island.apply(this, arguments); if (this.constructor === b2Island) this.b2Island.apply(this, arguments); }; Box2D.Dynamics.b2Island = b2Island; function b2TimeStep() { b2TimeStep.b2TimeStep.apply(this, arguments); }; Box2D.Dynamics.b2TimeStep = b2TimeStep; function b2World() { b2World.b2World.apply(this, arguments); if (this.constructor === b2World) this.b2World.apply(this, arguments); }; Box2D.Dynamics.b2World = b2World; function b2CircleContact() { b2CircleContact.b2CircleContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2CircleContact = b2CircleContact; function b2Contact() { b2Contact.b2Contact.apply(this, arguments); if (this.constructor === b2Contact) this.b2Contact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2Contact = b2Contact; function b2ContactConstraint() { b2ContactConstraint.b2ContactConstraint.apply(this, arguments); if (this.constructor === b2ContactConstraint) this.b2ContactConstraint.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactConstraint = b2ContactConstraint; function b2ContactConstraintPoint() { b2ContactConstraintPoint.b2ContactConstraintPoint.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactConstraintPoint = b2ContactConstraintPoint; function b2ContactEdge() { b2ContactEdge.b2ContactEdge.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactEdge = b2ContactEdge; function b2ContactFactory() { b2ContactFactory.b2ContactFactory.apply(this, arguments); if (this.constructor === b2ContactFactory) this.b2ContactFactory.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactFactory = b2ContactFactory; function b2ContactRegister() { b2ContactRegister.b2ContactRegister.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactRegister = b2ContactRegister; function b2ContactResult() { b2ContactResult.b2ContactResult.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactResult = b2ContactResult; function b2ContactSolver() { b2ContactSolver.b2ContactSolver.apply(this, arguments); if (this.constructor === b2ContactSolver) this.b2ContactSolver.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2ContactSolver = b2ContactSolver; function b2EdgeAndCircleContact() { b2EdgeAndCircleContact.b2EdgeAndCircleContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2EdgeAndCircleContact = b2EdgeAndCircleContact; function b2NullContact() { b2NullContact.b2NullContact.apply(this, arguments); if (this.constructor === b2NullContact) this.b2NullContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2NullContact = b2NullContact; function b2PolyAndCircleContact() { b2PolyAndCircleContact.b2PolyAndCircleContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2PolyAndCircleContact = b2PolyAndCircleContact; function b2PolyAndEdgeContact() { b2PolyAndEdgeContact.b2PolyAndEdgeContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2PolyAndEdgeContact = b2PolyAndEdgeContact; function b2PolygonContact() { b2PolygonContact.b2PolygonContact.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2PolygonContact = b2PolygonContact; function b2PositionSolverManifold() { b2PositionSolverManifold.b2PositionSolverManifold.apply(this, arguments); if (this.constructor === b2PositionSolverManifold) this.b2PositionSolverManifold.apply(this, arguments); }; Box2D.Dynamics.Contacts.b2PositionSolverManifold = b2PositionSolverManifold; function b2BuoyancyController() { b2BuoyancyController.b2BuoyancyController.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2BuoyancyController = b2BuoyancyController; function b2ConstantAccelController() { b2ConstantAccelController.b2ConstantAccelController.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2ConstantAccelController = b2ConstantAccelController; function b2ConstantForceController() { b2ConstantForceController.b2ConstantForceController.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2ConstantForceController = b2ConstantForceController; function b2Controller() { b2Controller.b2Controller.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2Controller = b2Controller; function b2ControllerEdge() { b2ControllerEdge.b2ControllerEdge.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2ControllerEdge = b2ControllerEdge; function b2GravityController() { b2GravityController.b2GravityController.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2GravityController = b2GravityController; function b2TensorDampingController() { b2TensorDampingController.b2TensorDampingController.apply(this, arguments); }; Box2D.Dynamics.Controllers.b2TensorDampingController = b2TensorDampingController; function b2DistanceJoint() { b2DistanceJoint.b2DistanceJoint.apply(this, arguments); if (this.constructor === b2DistanceJoint) this.b2DistanceJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2DistanceJoint = b2DistanceJoint; function b2DistanceJointDef() { b2DistanceJointDef.b2DistanceJointDef.apply(this, arguments); if (this.constructor === b2DistanceJointDef) this.b2DistanceJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2DistanceJointDef = b2DistanceJointDef; function b2FrictionJoint() { b2FrictionJoint.b2FrictionJoint.apply(this, arguments); if (this.constructor === b2FrictionJoint) this.b2FrictionJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2FrictionJoint = b2FrictionJoint; function b2FrictionJointDef() { b2FrictionJointDef.b2FrictionJointDef.apply(this, arguments); if (this.constructor === b2FrictionJointDef) this.b2FrictionJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2FrictionJointDef = b2FrictionJointDef; function b2GearJoint() { b2GearJoint.b2GearJoint.apply(this, arguments); if (this.constructor === b2GearJoint) this.b2GearJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2GearJoint = b2GearJoint; function b2GearJointDef() { b2GearJointDef.b2GearJointDef.apply(this, arguments); if (this.constructor === b2GearJointDef) this.b2GearJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2GearJointDef = b2GearJointDef; function b2Jacobian() { b2Jacobian.b2Jacobian.apply(this, arguments); }; Box2D.Dynamics.Joints.b2Jacobian = b2Jacobian; function b2Joint() { b2Joint.b2Joint.apply(this, arguments); if (this.constructor === b2Joint) this.b2Joint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2Joint = b2Joint; function b2JointDef() { b2JointDef.b2JointDef.apply(this, arguments); if (this.constructor === b2JointDef) this.b2JointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2JointDef = b2JointDef; function b2JointEdge() { b2JointEdge.b2JointEdge.apply(this, arguments); }; Box2D.Dynamics.Joints.b2JointEdge = b2JointEdge; function b2LineJoint() { b2LineJoint.b2LineJoint.apply(this, arguments); if (this.constructor === b2LineJoint) this.b2LineJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2LineJoint = b2LineJoint; function b2LineJointDef() { b2LineJointDef.b2LineJointDef.apply(this, arguments); if (this.constructor === b2LineJointDef) this.b2LineJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2LineJointDef = b2LineJointDef; function b2MouseJoint() { b2MouseJoint.b2MouseJoint.apply(this, arguments); if (this.constructor === b2MouseJoint) this.b2MouseJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2MouseJoint = b2MouseJoint; function b2MouseJointDef() { b2MouseJointDef.b2MouseJointDef.apply(this, arguments); if (this.constructor === b2MouseJointDef) this.b2MouseJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2MouseJointDef = b2MouseJointDef; function b2PrismaticJoint() { b2PrismaticJoint.b2PrismaticJoint.apply(this, arguments); if (this.constructor === b2PrismaticJoint) this.b2PrismaticJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2PrismaticJoint = b2PrismaticJoint; function b2PrismaticJointDef() { b2PrismaticJointDef.b2PrismaticJointDef.apply(this, arguments); if (this.constructor === b2PrismaticJointDef) this.b2PrismaticJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2PrismaticJointDef = b2PrismaticJointDef; function b2PulleyJoint() { b2PulleyJoint.b2PulleyJoint.apply(this, arguments); if (this.constructor === b2PulleyJoint) this.b2PulleyJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2PulleyJoint = b2PulleyJoint; function b2PulleyJointDef() { b2PulleyJointDef.b2PulleyJointDef.apply(this, arguments); if (this.constructor === b2PulleyJointDef) this.b2PulleyJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2PulleyJointDef = b2PulleyJointDef; function b2RevoluteJoint() { b2RevoluteJoint.b2RevoluteJoint.apply(this, arguments); if (this.constructor === b2RevoluteJoint) this.b2RevoluteJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2RevoluteJoint = b2RevoluteJoint; function b2RevoluteJointDef() { b2RevoluteJointDef.b2RevoluteJointDef.apply(this, arguments); if (this.constructor === b2RevoluteJointDef) this.b2RevoluteJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2RevoluteJointDef = b2RevoluteJointDef; function b2WeldJoint() { b2WeldJoint.b2WeldJoint.apply(this, arguments); if (this.constructor === b2WeldJoint) this.b2WeldJoint.apply(this, arguments); }; Box2D.Dynamics.Joints.b2WeldJoint = b2WeldJoint; function b2WeldJointDef() { b2WeldJointDef.b2WeldJointDef.apply(this, arguments); if (this.constructor === b2WeldJointDef) this.b2WeldJointDef.apply(this, arguments); }; Box2D.Dynamics.Joints.b2WeldJointDef = b2WeldJointDef; })(); //definitions Box2D.postDefs = []; (function () { var b2CircleShape = Box2D.Collision.Shapes.b2CircleShape, b2EdgeChainDef = Box2D.Collision.Shapes.b2EdgeChainDef, b2EdgeShape = Box2D.Collision.Shapes.b2EdgeShape, b2MassData = Box2D.Collision.Shapes.b2MassData, b2PolygonShape = Box2D.Collision.Shapes.b2PolygonShape, b2Shape = Box2D.Collision.Shapes.b2Shape, b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2AABB = Box2D.Collision.b2AABB, b2Bound = Box2D.Collision.b2Bound, b2BoundValues = Box2D.Collision.b2BoundValues, b2Collision = Box2D.Collision.b2Collision, b2ContactID = Box2D.Collision.b2ContactID, b2ContactPoint = Box2D.Collision.b2ContactPoint, b2Distance = Box2D.Collision.b2Distance, b2DistanceInput = Box2D.Collision.b2DistanceInput, b2DistanceOutput = Box2D.Collision.b2DistanceOutput, b2DistanceProxy = Box2D.Collision.b2DistanceProxy, b2DynamicTree = Box2D.Collision.b2DynamicTree, b2DynamicTreeBroadPhase = Box2D.Collision.b2DynamicTreeBroadPhase, b2DynamicTreeNode = Box2D.Collision.b2DynamicTreeNode, b2DynamicTreePair = Box2D.Collision.b2DynamicTreePair, b2Manifold = Box2D.Collision.b2Manifold, b2ManifoldPoint = Box2D.Collision.b2ManifoldPoint, b2Point = Box2D.Collision.b2Point, b2RayCastInput = Box2D.Collision.b2RayCastInput, b2RayCastOutput = Box2D.Collision.b2RayCastOutput, b2Segment = Box2D.Collision.b2Segment, b2SeparationFunction = Box2D.Collision.b2SeparationFunction, b2Simplex = Box2D.Collision.b2Simplex, b2SimplexCache = Box2D.Collision.b2SimplexCache, b2SimplexVertex = Box2D.Collision.b2SimplexVertex, b2TimeOfImpact = Box2D.Collision.b2TimeOfImpact, b2TOIInput = Box2D.Collision.b2TOIInput, b2WorldManifold = Box2D.Collision.b2WorldManifold, ClipVertex = Box2D.Collision.ClipVertex, Features = Box2D.Collision.Features, IBroadPhase = Box2D.Collision.IBroadPhase; b2AABB.b2AABB = function () { this.lowerBound = new b2Vec2(); this.upperBound = new b2Vec2(); }; b2AABB.prototype.IsValid = function () { var dX = this.upperBound.x - this.lowerBound.x; var dY = this.upperBound.y - this.lowerBound.y; var valid = dX >= 0.0 && dY >= 0.0; valid = valid && this.lowerBound.IsValid() && this.upperBound.IsValid(); return valid; } b2AABB.prototype.GetCenter = function () { return new b2Vec2((this.lowerBound.x + this.upperBound.x) / 2, (this.lowerBound.y + this.upperBound.y) / 2); } b2AABB.prototype.GetExtents = function () { return new b2Vec2((this.upperBound.x - this.lowerBound.x) / 2, (this.upperBound.y - this.lowerBound.y) / 2); } b2AABB.prototype.Contains = function (aabb) { var result = true; result = result && this.lowerBound.x <= aabb.lowerBound.x; result = result && this.lowerBound.y <= aabb.lowerBound.y; result = result && aabb.upperBound.x <= this.upperBound.x; result = result && aabb.upperBound.y <= this.upperBound.y; return result; } b2AABB.prototype.RayCast = function (output, input) { var tmin = (-Number.MAX_VALUE); var tmax = Number.MAX_VALUE; var pX = input.p1.x; var pY = input.p1.y; var dX = input.p2.x - input.p1.x; var dY = input.p2.y - input.p1.y; var absDX = Math.abs(dX); var absDY = Math.abs(dY); var normal = output.normal; var inv_d = 0; var t1 = 0; var t2 = 0; var t3 = 0; var s = 0; { if (absDX < Number.MIN_VALUE) { if (pX < this.lowerBound.x || this.upperBound.x < pX) return false; } else { inv_d = 1.0 / dX; t1 = (this.lowerBound.x - pX) * inv_d; t2 = (this.upperBound.x - pX) * inv_d; s = (-1.0); if (t1 > t2) { t3 = t1; t1 = t2; t2 = t3; s = 1.0; } if (t1 > tmin) { normal.x = s; normal.y = 0; tmin = t1; } tmax = Math.min(tmax, t2); if (tmin > tmax) return false; } } { if (absDY < Number.MIN_VALUE) { if (pY < this.lowerBound.y || this.upperBound.y < pY) return false; } else { inv_d = 1.0 / dY; t1 = (this.lowerBound.y - pY) * inv_d; t2 = (this.upperBound.y - pY) * inv_d; s = (-1.0); if (t1 > t2) { t3 = t1; t1 = t2; t2 = t3; s = 1.0; } if (t1 > tmin) { normal.y = s; normal.x = 0; tmin = t1; } tmax = Math.min(tmax, t2); if (tmin > tmax) return false; } } output.fraction = tmin; return true; } b2AABB.prototype.TestOverlap = function (other) { var d1X = other.lowerBound.x - this.upperBound.x; var d1Y = other.lowerBound.y - this.upperBound.y; var d2X = this.lowerBound.x - other.upperBound.x; var d2Y = this.lowerBound.y - other.upperBound.y; if (d1X > 0.0 || d1Y > 0.0) return false; if (d2X > 0.0 || d2Y > 0.0) return false; return true; } b2AABB.Combine = function (aabb1, aabb2) { var aabb = new b2AABB(); aabb.Combine(aabb1, aabb2); return aabb; } b2AABB.prototype.Combine = function (aabb1, aabb2) { this.lowerBound.x = Math.min(aabb1.lowerBound.x, aabb2.lowerBound.x); this.lowerBound.y = Math.min(aabb1.lowerBound.y, aabb2.lowerBound.y); this.upperBound.x = Math.max(aabb1.upperBound.x, aabb2.upperBound.x); this.upperBound.y = Math.max(aabb1.upperBound.y, aabb2.upperBound.y); } b2Bound.b2Bound = function () {}; b2Bound.prototype.IsLower = function () { return (this.value & 1) == 0; } b2Bound.prototype.IsUpper = function () { return (this.value & 1) == 1; } b2Bound.prototype.Swap = function (b) { var tempValue = this.value; var tempProxy = this.proxy; var tempStabbingCount = this.stabbingCount; this.value = b.value; this.proxy = b.proxy; this.stabbingCount = b.stabbingCount; b.value = tempValue; b.proxy = tempProxy; b.stabbingCount = tempStabbingCount; } b2BoundValues.b2BoundValues = function () {}; b2BoundValues.prototype.b2BoundValues = function () { this.lowerValues = new Vector_a2j_Number(); this.lowerValues[0] = 0.0; this.lowerValues[1] = 0.0; this.upperValues = new Vector_a2j_Number(); this.upperValues[0] = 0.0; this.upperValues[1] = 0.0; } b2Collision.b2Collision = function () {}; b2Collision.ClipSegmentToLine = function (vOut, vIn, normal, offset) { if (offset === undefined) offset = 0; var cv; var numOut = 0; cv = vIn[0]; var vIn0 = cv.v; cv = vIn[1]; var vIn1 = cv.v; var distance0 = normal.x * vIn0.x + normal.y * vIn0.y - offset; var distance1 = normal.x * vIn1.x + normal.y * vIn1.y - offset; if (distance0 <= 0.0) vOut[numOut++].Set(vIn[0]); if (distance1 <= 0.0) vOut[numOut++].Set(vIn[1]); if (distance0 * distance1 < 0.0) { var interp = distance0 / (distance0 - distance1); cv = vOut[numOut]; var tVec = cv.v; tVec.x = vIn0.x + interp * (vIn1.x - vIn0.x); tVec.y = vIn0.y + interp * (vIn1.y - vIn0.y); cv = vOut[numOut]; var cv2; if (distance0 > 0.0) { cv2 = vIn[0]; cv.id = cv2.id; } else { cv2 = vIn[1]; cv.id = cv2.id; }++numOut; } return numOut; } b2Collision.EdgeSeparation = function (poly1, xf1, edge1, poly2, xf2) { if (edge1 === undefined) edge1 = 0; var count1 = parseInt(poly1.m_vertexCount); var vertices1 = poly1.m_vertices; var normals1 = poly1.m_normals; var count2 = parseInt(poly2.m_vertexCount); var vertices2 = poly2.m_vertices; var tMat; var tVec; tMat = xf1.R; tVec = normals1[edge1]; var normal1WorldX = (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var normal1WorldY = (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = xf2.R; var normal1X = (tMat.col1.x * normal1WorldX + tMat.col1.y * normal1WorldY); var normal1Y = (tMat.col2.x * normal1WorldX + tMat.col2.y * normal1WorldY); var index = 0; var minDot = Number.MAX_VALUE; for (var i = 0; i < count2; ++i) { tVec = vertices2[i]; var dot = tVec.x * normal1X + tVec.y * normal1Y; if (dot < minDot) { minDot = dot; index = i; } } tVec = vertices1[edge1]; tMat = xf1.R; var v1X = xf1.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var v1Y = xf1.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = vertices2[index]; tMat = xf2.R; var v2X = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var v2Y = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); v2X -= v1X; v2Y -= v1Y; var separation = v2X * normal1WorldX + v2Y * normal1WorldY; return separation; } b2Collision.FindMaxSeparation = function (edgeIndex, poly1, xf1, poly2, xf2) { var count1 = parseInt(poly1.m_vertexCount); var normals1 = poly1.m_normals; var tVec; var tMat; tMat = xf2.R; tVec = poly2.m_centroid; var dX = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var dY = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = xf1.R; tVec = poly1.m_centroid; dX -= xf1.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); dY -= xf1.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); var dLocal1X = (dX * xf1.R.col1.x + dY * xf1.R.col1.y); var dLocal1Y = (dX * xf1.R.col2.x + dY * xf1.R.col2.y); var edge = 0; var maxDot = (-Number.MAX_VALUE); for (var i = 0; i < count1; ++i) { tVec = normals1[i]; var dot = (tVec.x * dLocal1X + tVec.y * dLocal1Y); if (dot > maxDot) { maxDot = dot; edge = i; } } var s = b2Collision.EdgeSeparation(poly1, xf1, edge, poly2, xf2); var prevEdge = parseInt(edge - 1 >= 0 ? edge - 1 : count1 - 1); var sPrev = b2Collision.EdgeSeparation(poly1, xf1, prevEdge, poly2, xf2); var nextEdge = parseInt(edge + 1 < count1 ? edge + 1 : 0); var sNext = b2Collision.EdgeSeparation(poly1, xf1, nextEdge, poly2, xf2); var bestEdge = 0; var bestSeparation = 0; var increment = 0; if (sPrev > s && sPrev > sNext) { increment = (-1); bestEdge = prevEdge; bestSeparation = sPrev; } else if (sNext > s) { increment = 1; bestEdge = nextEdge; bestSeparation = sNext; } else { edgeIndex[0] = edge; return s; } while (true) { if (increment == (-1)) edge = bestEdge - 1 >= 0 ? bestEdge - 1 : count1 - 1; else edge = bestEdge + 1 < count1 ? bestEdge + 1 : 0;s = b2Collision.EdgeSeparation(poly1, xf1, edge, poly2, xf2); if (s > bestSeparation) { bestEdge = edge; bestSeparation = s; } else { break; } } edgeIndex[0] = bestEdge; return bestSeparation; } b2Collision.FindIncidentEdge = function (c, poly1, xf1, edge1, poly2, xf2) { if (edge1 === undefined) edge1 = 0; var count1 = parseInt(poly1.m_vertexCount); var normals1 = poly1.m_normals; var count2 = parseInt(poly2.m_vertexCount); var vertices2 = poly2.m_vertices; var normals2 = poly2.m_normals; var tMat; var tVec; tMat = xf1.R; tVec = normals1[edge1]; var normal1X = (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var normal1Y = (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = xf2.R; var tX = (tMat.col1.x * normal1X + tMat.col1.y * normal1Y); normal1Y = (tMat.col2.x * normal1X + tMat.col2.y * normal1Y); normal1X = tX; var index = 0; var minDot = Number.MAX_VALUE; for (var i = 0; i < count2; ++i) { tVec = normals2[i]; var dot = (normal1X * tVec.x + normal1Y * tVec.y); if (dot < minDot) { minDot = dot; index = i; } } var tClip; var i1 = parseInt(index); var i2 = parseInt(i1 + 1 < count2 ? i1 + 1 : 0); tClip = c[0]; tVec = vertices2[i1]; tMat = xf2.R; tClip.v.x = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); tClip.v.y = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tClip.id.features.referenceEdge = edge1; tClip.id.features.incidentEdge = i1; tClip.id.features.incidentVertex = 0; tClip = c[1]; tVec = vertices2[i2]; tMat = xf2.R; tClip.v.x = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); tClip.v.y = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tClip.id.features.referenceEdge = edge1; tClip.id.features.incidentEdge = i2; tClip.id.features.incidentVertex = 1; } b2Collision.MakeClipPointVector = function () { var r = new Vector(2); r[0] = new ClipVertex(); r[1] = new ClipVertex(); return r; } b2Collision.CollidePolygons = function (manifold, polyA, xfA, polyB, xfB) { var cv; manifold.m_pointCount = 0; var totalRadius = polyA.m_radius + polyB.m_radius; var edgeA = 0; b2Collision.s_edgeAO[0] = edgeA; var separationA = b2Collision.FindMaxSeparation(b2Collision.s_edgeAO, polyA, xfA, polyB, xfB); edgeA = b2Collision.s_edgeAO[0]; if (separationA > totalRadius) return; var edgeB = 0; b2Collision.s_edgeBO[0] = edgeB; var separationB = b2Collision.FindMaxSeparation(b2Collision.s_edgeBO, polyB, xfB, polyA, xfA); edgeB = b2Collision.s_edgeBO[0]; if (separationB > totalRadius) return; var poly1; var poly2; var xf1; var xf2; var edge1 = 0; var flip = 0; var k_relativeTol = 0.98; var k_absoluteTol = 0.001; var tMat; if (separationB > k_relativeTol * separationA + k_absoluteTol) { poly1 = polyB; poly2 = polyA; xf1 = xfB; xf2 = xfA; edge1 = edgeB; manifold.m_type = b2Manifold.e_faceB; flip = 1; } else { poly1 = polyA; poly2 = polyB; xf1 = xfA; xf2 = xfB; edge1 = edgeA; manifold.m_type = b2Manifold.e_faceA; flip = 0; } var incidentEdge = b2Collision.s_incidentEdge; b2Collision.FindIncidentEdge(incidentEdge, poly1, xf1, edge1, poly2, xf2); var count1 = parseInt(poly1.m_vertexCount); var vertices1 = poly1.m_vertices; var local_v11 = vertices1[edge1]; var local_v12; if (edge1 + 1 < count1) { local_v12 = vertices1[parseInt(edge1 + 1)]; } else { local_v12 = vertices1[0]; } var localTangent = b2Collision.s_localTangent; localTangent.Set(local_v12.x - local_v11.x, local_v12.y - local_v11.y); localTangent.Normalize(); var localNormal = b2Collision.s_localNormal; localNormal.x = localTangent.y; localNormal.y = (-localTangent.x); var planePoint = b2Collision.s_planePoint; planePoint.Set(0.5 * (local_v11.x + local_v12.x), 0.5 * (local_v11.y + local_v12.y)); var tangent = b2Collision.s_tangent; tMat = xf1.R; tangent.x = (tMat.col1.x * localTangent.x + tMat.col2.x * localTangent.y); tangent.y = (tMat.col1.y * localTangent.x + tMat.col2.y * localTangent.y); var tangent2 = b2Collision.s_tangent2; tangent2.x = (-tangent.x); tangent2.y = (-tangent.y); var normal = b2Collision.s_normal; normal.x = tangent.y; normal.y = (-tangent.x); var v11 = b2Collision.s_v11; var v12 = b2Collision.s_v12; v11.x = xf1.position.x + (tMat.col1.x * local_v11.x + tMat.col2.x * local_v11.y); v11.y = xf1.position.y + (tMat.col1.y * local_v11.x + tMat.col2.y * local_v11.y); v12.x = xf1.position.x + (tMat.col1.x * local_v12.x + tMat.col2.x * local_v12.y); v12.y = xf1.position.y + (tMat.col1.y * local_v12.x + tMat.col2.y * local_v12.y); var frontOffset = normal.x * v11.x + normal.y * v11.y; var sideOffset1 = (-tangent.x * v11.x) - tangent.y * v11.y + totalRadius; var sideOffset2 = tangent.x * v12.x + tangent.y * v12.y + totalRadius; var clipPoints1 = b2Collision.s_clipPoints1; var clipPoints2 = b2Collision.s_clipPoints2; var np = 0; np = b2Collision.ClipSegmentToLine(clipPoints1, incidentEdge, tangent2, sideOffset1); if (np < 2) return; np = b2Collision.ClipSegmentToLine(clipPoints2, clipPoints1, tangent, sideOffset2); if (np < 2) return; manifold.m_localPlaneNormal.SetV(localNormal); manifold.m_localPoint.SetV(planePoint); var pointCount = 0; for (var i = 0; i < b2Settings.b2_maxManifoldPoints; ++i) { cv = clipPoints2[i]; var separation = normal.x * cv.v.x + normal.y * cv.v.y - frontOffset; if (separation <= totalRadius) { var cp = manifold.m_points[pointCount]; tMat = xf2.R; var tX = cv.v.x - xf2.position.x; var tY = cv.v.y - xf2.position.y; cp.m_localPoint.x = (tX * tMat.col1.x + tY * tMat.col1.y); cp.m_localPoint.y = (tX * tMat.col2.x + tY * tMat.col2.y); cp.m_id.Set(cv.id); cp.m_id.features.flip = flip; ++pointCount; } } manifold.m_pointCount = pointCount; } b2Collision.CollideCircles = function (manifold, circle1, xf1, circle2, xf2) { manifold.m_pointCount = 0; var tMat; var tVec; tMat = xf1.R; tVec = circle1.m_p; var p1X = xf1.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var p1Y = xf1.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = xf2.R; tVec = circle2.m_p; var p2X = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var p2Y = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); var dX = p2X - p1X; var dY = p2Y - p1Y; var distSqr = dX * dX + dY * dY; var radius = circle1.m_radius + circle2.m_radius; if (distSqr > radius * radius) { return; } manifold.m_type = b2Manifold.e_circles; manifold.m_localPoint.SetV(circle1.m_p); manifold.m_localPlaneNormal.SetZero(); manifold.m_pointCount = 1; manifold.m_points[0].m_localPoint.SetV(circle2.m_p); manifold.m_points[0].m_id.key = 0; } b2Collision.CollidePolygonAndCircle = function (manifold, polygon, xf1, circle, xf2) { manifold.m_pointCount = 0; var tPoint; var dX = 0; var dY = 0; var positionX = 0; var positionY = 0; var tVec; var tMat; tMat = xf2.R; tVec = circle.m_p; var cX = xf2.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var cY = xf2.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); dX = cX - xf1.position.x; dY = cY - xf1.position.y; tMat = xf1.R; var cLocalX = (dX * tMat.col1.x + dY * tMat.col1.y); var cLocalY = (dX * tMat.col2.x + dY * tMat.col2.y); var dist = 0; var normalIndex = 0; var separation = (-Number.MAX_VALUE); var radius = polygon.m_radius + circle.m_radius; var vertexCount = parseInt(polygon.m_vertexCount); var vertices = polygon.m_vertices; var normals = polygon.m_normals; for (var i = 0; i < vertexCount; ++i) { tVec = vertices[i]; dX = cLocalX - tVec.x; dY = cLocalY - tVec.y; tVec = normals[i]; var s = tVec.x * dX + tVec.y * dY; if (s > radius) { return; } if (s > separation) { separation = s; normalIndex = i; } } var vertIndex1 = parseInt(normalIndex); var vertIndex2 = parseInt(vertIndex1 + 1 < vertexCount ? vertIndex1 + 1 : 0); var v1 = vertices[vertIndex1]; var v2 = vertices[vertIndex2]; if (separation < Number.MIN_VALUE) { manifold.m_pointCount = 1; manifold.m_type = b2Manifold.e_faceA; manifold.m_localPlaneNormal.SetV(normals[normalIndex]); manifold.m_localPoint.x = 0.5 * (v1.x + v2.x); manifold.m_localPoint.y = 0.5 * (v1.y + v2.y); manifold.m_points[0].m_localPoint.SetV(circle.m_p); manifold.m_points[0].m_id.key = 0; return; } var u1 = (cLocalX - v1.x) * (v2.x - v1.x) + (cLocalY - v1.y) * (v2.y - v1.y); var u2 = (cLocalX - v2.x) * (v1.x - v2.x) + (cLocalY - v2.y) * (v1.y - v2.y); if (u1 <= 0.0) { if ((cLocalX - v1.x) * (cLocalX - v1.x) + (cLocalY - v1.y) * (cLocalY - v1.y) > radius * radius) return; manifold.m_pointCount = 1; manifold.m_type = b2Manifold.e_faceA; manifold.m_localPlaneNormal.x = cLocalX - v1.x; manifold.m_localPlaneNormal.y = cLocalY - v1.y; manifold.m_localPlaneNormal.Normalize(); manifold.m_localPoint.SetV(v1); manifold.m_points[0].m_localPoint.SetV(circle.m_p); manifold.m_points[0].m_id.key = 0; } else if (u2 <= 0) { if ((cLocalX - v2.x) * (cLocalX - v2.x) + (cLocalY - v2.y) * (cLocalY - v2.y) > radius * radius) return; manifold.m_pointCount = 1; manifold.m_type = b2Manifold.e_faceA; manifold.m_localPlaneNormal.x = cLocalX - v2.x; manifold.m_localPlaneNormal.y = cLocalY - v2.y; manifold.m_localPlaneNormal.Normalize(); manifold.m_localPoint.SetV(v2); manifold.m_points[0].m_localPoint.SetV(circle.m_p); manifold.m_points[0].m_id.key = 0; } else { var faceCenterX = 0.5 * (v1.x + v2.x); var faceCenterY = 0.5 * (v1.y + v2.y); separation = (cLocalX - faceCenterX) * normals[vertIndex1].x + (cLocalY - faceCenterY) * normals[vertIndex1].y; if (separation > radius) return; manifold.m_pointCount = 1; manifold.m_type = b2Manifold.e_faceA; manifold.m_localPlaneNormal.x = normals[vertIndex1].x; manifold.m_localPlaneNormal.y = normals[vertIndex1].y; manifold.m_localPlaneNormal.Normalize(); manifold.m_localPoint.Set(faceCenterX, faceCenterY); manifold.m_points[0].m_localPoint.SetV(circle.m_p); manifold.m_points[0].m_id.key = 0; } } b2Collision.TestOverlap = function (a, b) { var t1 = b.lowerBound; var t2 = a.upperBound; var d1X = t1.x - t2.x; var d1Y = t1.y - t2.y; t1 = a.lowerBound; t2 = b.upperBound; var d2X = t1.x - t2.x; var d2Y = t1.y - t2.y; if (d1X > 0.0 || d1Y > 0.0) return false; if (d2X > 0.0 || d2Y > 0.0) return false; return true; } Box2D.postDefs.push(function () { Box2D.Collision.b2Collision.s_incidentEdge = b2Collision.MakeClipPointVector(); Box2D.Collision.b2Collision.s_clipPoints1 = b2Collision.MakeClipPointVector(); Box2D.Collision.b2Collision.s_clipPoints2 = b2Collision.MakeClipPointVector(); Box2D.Collision.b2Collision.s_edgeAO = new Vector_a2j_Number(1); Box2D.Collision.b2Collision.s_edgeBO = new Vector_a2j_Number(1); Box2D.Collision.b2Collision.s_localTangent = new b2Vec2(); Box2D.Collision.b2Collision.s_localNormal = new b2Vec2(); Box2D.Collision.b2Collision.s_planePoint = new b2Vec2(); Box2D.Collision.b2Collision.s_normal = new b2Vec2(); Box2D.Collision.b2Collision.s_tangent = new b2Vec2(); Box2D.Collision.b2Collision.s_tangent2 = new b2Vec2(); Box2D.Collision.b2Collision.s_v11 = new b2Vec2(); Box2D.Collision.b2Collision.s_v12 = new b2Vec2(); Box2D.Collision.b2Collision.b2CollidePolyTempVec = new b2Vec2(); Box2D.Collision.b2Collision.b2_nullFeature = 0x000000ff; }); b2ContactID.b2ContactID = function () { this.features = new Features(); }; b2ContactID.prototype.b2ContactID = function () { this.features._m_id = this; } b2ContactID.prototype.Set = function (id) { this.key = id._key; } b2ContactID.prototype.Copy = function () { var id = new b2ContactID(); id.key = this.key; return id; } Object.defineProperty(b2ContactID.prototype, 'key', { enumerable: false, configurable: true, get: function () { return this._key; } }); Object.defineProperty(b2ContactID.prototype, 'key', { enumerable: false, configurable: true, set: function (value) { if (value === undefined) value = 0; this._key = value; this.features._referenceEdge = this._key & 0x000000ff; this.features._incidentEdge = ((this._key & 0x0000ff00) >> 8) & 0x000000ff; this.features._incidentVertex = ((this._key & 0x00ff0000) >> 16) & 0x000000ff; this.features._flip = ((this._key & 0xff000000) >> 24) & 0x000000ff; } }); b2ContactPoint.b2ContactPoint = function () { this.position = new b2Vec2(); this.velocity = new b2Vec2(); this.normal = new b2Vec2(); this.id = new b2ContactID(); }; b2Distance.b2Distance = function () {}; b2Distance.Distance = function (output, cache, input) { ++b2Distance.b2_gjkCalls; var proxyA = input.proxyA; var proxyB = input.proxyB; var transformA = input.transformA; var transformB = input.transformB; var simplex = b2Distance.s_simplex; simplex.ReadCache(cache, proxyA, transformA, proxyB, transformB); var vertices = simplex.m_vertices; var k_maxIters = 20; var saveA = b2Distance.s_saveA; var saveB = b2Distance.s_saveB; var saveCount = 0; var closestPoint = simplex.GetClosestPoint(); var distanceSqr1 = closestPoint.LengthSquared(); var distanceSqr2 = distanceSqr1; var i = 0; var p; var iter = 0; while (iter < k_maxIters) { saveCount = simplex.m_count; for (i = 0; i < saveCount; i++) { saveA[i] = vertices[i].indexA; saveB[i] = vertices[i].indexB; } switch (simplex.m_count) { case 1: break; case 2: simplex.Solve2(); break; case 3: simplex.Solve3(); break; default: b2Settings.b2Assert(false); } if (simplex.m_count == 3) { break; } p = simplex.GetClosestPoint(); distanceSqr2 = p.LengthSquared(); if (distanceSqr2 > distanceSqr1) {} distanceSqr1 = distanceSqr2; var d = simplex.GetSearchDirection(); if (d.LengthSquared() < Number.MIN_VALUE * Number.MIN_VALUE) { break; } var vertex = vertices[simplex.m_count]; vertex.indexA = proxyA.GetSupport(b2Math.MulTMV(transformA.R, d.GetNegative())); vertex.wA = b2Math.MulX(transformA, proxyA.GetVertex(vertex.indexA)); vertex.indexB = proxyB.GetSupport(b2Math.MulTMV(transformB.R, d)); vertex.wB = b2Math.MulX(transformB, proxyB.GetVertex(vertex.indexB)); vertex.w = b2Math.SubtractVV(vertex.wB, vertex.wA); ++iter; ++b2Distance.b2_gjkIters; var duplicate = false; for (i = 0; i < saveCount; i++) { if (vertex.indexA == saveA[i] && vertex.indexB == saveB[i]) { duplicate = true; break; } } if (duplicate) { break; }++simplex.m_count; } b2Distance.b2_gjkMaxIters = b2Math.Max(b2Distance.b2_gjkMaxIters, iter); simplex.GetWitnessPoints(output.pointA, output.pointB); output.distance = b2Math.SubtractVV(output.pointA, output.pointB).Length(); output.iterations = iter; simplex.WriteCache(cache); if (input.useRadii) { var rA = proxyA.m_radius; var rB = proxyB.m_radius; if (output.distance > rA + rB && output.distance > Number.MIN_VALUE) { output.distance -= rA + rB; var normal = b2Math.SubtractVV(output.pointB, output.pointA); normal.Normalize(); output.pointA.x += rA * normal.x; output.pointA.y += rA * normal.y; output.pointB.x -= rB * normal.x; output.pointB.y -= rB * normal.y; } else { p = new b2Vec2(); p.x = .5 * (output.pointA.x + output.pointB.x); p.y = .5 * (output.pointA.y + output.pointB.y); output.pointA.x = output.pointB.x = p.x; output.pointA.y = output.pointB.y = p.y; output.distance = 0.0; } } } Box2D.postDefs.push(function () { Box2D.Collision.b2Distance.s_simplex = new b2Simplex(); Box2D.Collision.b2Distance.s_saveA = new Vector_a2j_Number(3); Box2D.Collision.b2Distance.s_saveB = new Vector_a2j_Number(3); }); b2DistanceInput.b2DistanceInput = function () {}; b2DistanceOutput.b2DistanceOutput = function () { this.pointA = new b2Vec2(); this.pointB = new b2Vec2(); }; b2DistanceProxy.b2DistanceProxy = function () {}; b2DistanceProxy.prototype.Set = function (shape) { switch (shape.GetType()) { case b2Shape.e_circleShape: { var circle = (shape instanceof b2CircleShape ? shape : null); this.m_vertices = new Vector(1, true); this.m_vertices[0] = circle.m_p; this.m_count = 1; this.m_radius = circle.m_radius; } break; case b2Shape.e_polygonShape: { var polygon = (shape instanceof b2PolygonShape ? shape : null); this.m_vertices = polygon.m_vertices; this.m_count = polygon.m_vertexCount; this.m_radius = polygon.m_radius; } break; default: b2Settings.b2Assert(false); } } b2DistanceProxy.prototype.GetSupport = function (d) { var bestIndex = 0; var bestValue = this.m_vertices[0].x * d.x + this.m_vertices[0].y * d.y; for (var i = 1; i < this.m_count; ++i) { var value = this.m_vertices[i].x * d.x + this.m_vertices[i].y * d.y; if (value > bestValue) { bestIndex = i; bestValue = value; } } return bestIndex; } b2DistanceProxy.prototype.GetSupportVertex = function (d) { var bestIndex = 0; var bestValue = this.m_vertices[0].x * d.x + this.m_vertices[0].y * d.y; for (var i = 1; i < this.m_count; ++i) { var value = this.m_vertices[i].x * d.x + this.m_vertices[i].y * d.y; if (value > bestValue) { bestIndex = i; bestValue = value; } } return this.m_vertices[bestIndex]; } b2DistanceProxy.prototype.GetVertexCount = function () { return this.m_count; } b2DistanceProxy.prototype.GetVertex = function (index) { if (index === undefined) index = 0; b2Settings.b2Assert(0 <= index && index < this.m_count); return this.m_vertices[index]; } b2DynamicTree.b2DynamicTree = function () {}; b2DynamicTree.prototype.b2DynamicTree = function () { this.m_root = null; this.m_freeList = null; this.m_path = 0; this.m_insertionCount = 0; } b2DynamicTree.prototype.CreateProxy = function (aabb, userData) { var node = this.AllocateNode(); var extendX = b2Settings.b2_aabbExtension; var extendY = b2Settings.b2_aabbExtension; node.aabb.lowerBound.x = aabb.lowerBound.x - extendX; node.aabb.lowerBound.y = aabb.lowerBound.y - extendY; node.aabb.upperBound.x = aabb.upperBound.x + extendX; node.aabb.upperBound.y = aabb.upperBound.y + extendY; node.userData = userData; this.InsertLeaf(node); return node; } b2DynamicTree.prototype.DestroyProxy = function (proxy) { this.RemoveLeaf(proxy); this.FreeNode(proxy); } b2DynamicTree.prototype.MoveProxy = function (proxy, aabb, displacement) { b2Settings.b2Assert(proxy.IsLeaf()); if (proxy.aabb.Contains(aabb)) { return false; } this.RemoveLeaf(proxy); var extendX = b2Settings.b2_aabbExtension + b2Settings.b2_aabbMultiplier * (displacement.x > 0 ? displacement.x : (-displacement.x)); var extendY = b2Settings.b2_aabbExtension + b2Settings.b2_aabbMultiplier * (displacement.y > 0 ? displacement.y : (-displacement.y)); proxy.aabb.lowerBound.x = aabb.lowerBound.x - extendX; proxy.aabb.lowerBound.y = aabb.lowerBound.y - extendY; proxy.aabb.upperBound.x = aabb.upperBound.x + extendX; proxy.aabb.upperBound.y = aabb.upperBound.y + extendY; this.InsertLeaf(proxy); return true; } b2DynamicTree.prototype.Rebalance = function (iterations) { if (iterations === undefined) iterations = 0; if (this.m_root == null) return; for (var i = 0; i < iterations; i++) { var node = this.m_root; var bit = 0; while (node.IsLeaf() == false) { node = (this.m_path >> bit) & 1 ? node.child2 : node.child1; bit = (bit + 1) & 31; }++this.m_path; this.RemoveLeaf(node); this.InsertLeaf(node); } } b2DynamicTree.prototype.GetFatAABB = function (proxy) { return proxy.aabb; } b2DynamicTree.prototype.GetUserData = function (proxy) { return proxy.userData; } b2DynamicTree.prototype.Query = function (callback, aabb) { if (this.m_root == null) return; var stack = new Vector(); var count = 0; stack[count++] = this.m_root; while (count > 0) { var node = stack[--count]; if (node.aabb.TestOverlap(aabb)) { if (node.IsLeaf()) { var proceed = callback(node); if (!proceed) return; } else { stack[count++] = node.child1; stack[count++] = node.child2; } } } } b2DynamicTree.prototype.RayCast = function (callback, input) { if (this.m_root == null) return; var p1 = input.p1; var p2 = input.p2; var r = b2Math.SubtractVV(p1, p2); r.Normalize(); var v = b2Math.CrossFV(1.0, r); var abs_v = b2Math.AbsV(v); var maxFraction = input.maxFraction; var segmentAABB = new b2AABB(); var tX = 0; var tY = 0; { tX = p1.x + maxFraction * (p2.x - p1.x); tY = p1.y + maxFraction * (p2.y - p1.y); segmentAABB.lowerBound.x = Math.min(p1.x, tX); segmentAABB.lowerBound.y = Math.min(p1.y, tY); segmentAABB.upperBound.x = Math.max(p1.x, tX); segmentAABB.upperBound.y = Math.max(p1.y, tY); } var stack = new Vector(); var count = 0; stack[count++] = this.m_root; while (count > 0) { var node = stack[--count]; if (node.aabb.TestOverlap(segmentAABB) == false) { continue; } var c = node.aabb.GetCenter(); var h = node.aabb.GetExtents(); var separation = Math.abs(v.x * (p1.x - c.x) + v.y * (p1.y - c.y)) - abs_v.x * h.x - abs_v.y * h.y; if (separation > 0.0) continue; if (node.IsLeaf()) { var subInput = new b2RayCastInput(); subInput.p1 = input.p1; subInput.p2 = input.p2; subInput.maxFraction = input.maxFraction; maxFraction = callback(subInput, node); if (maxFraction == 0.0) return; if (maxFraction > 0.0) { tX = p1.x + maxFraction * (p2.x - p1.x); tY = p1.y + maxFraction * (p2.y - p1.y); segmentAABB.lowerBound.x = Math.min(p1.x, tX); segmentAABB.lowerBound.y = Math.min(p1.y, tY); segmentAABB.upperBound.x = Math.max(p1.x, tX); segmentAABB.upperBound.y = Math.max(p1.y, tY); } } else { stack[count++] = node.child1; stack[count++] = node.child2; } } } b2DynamicTree.prototype.AllocateNode = function () { if (this.m_freeList) { var node = this.m_freeList; this.m_freeList = node.parent; node.parent = null; node.child1 = null; node.child2 = null; return node; } return new b2DynamicTreeNode(); } b2DynamicTree.prototype.FreeNode = function (node) { node.parent = this.m_freeList; this.m_freeList = node; } b2DynamicTree.prototype.InsertLeaf = function (leaf) { ++this.m_insertionCount; if (this.m_root == null) { this.m_root = leaf; this.m_root.parent = null; return; } var center = leaf.aabb.GetCenter(); var sibling = this.m_root; if (sibling.IsLeaf() == false) { do { var child1 = sibling.child1; var child2 = sibling.child2; var norm1 = Math.abs((child1.aabb.lowerBound.x + child1.aabb.upperBound.x) / 2 - center.x) + Math.abs((child1.aabb.lowerBound.y + child1.aabb.upperBound.y) / 2 - center.y); var norm2 = Math.abs((child2.aabb.lowerBound.x + child2.aabb.upperBound.x) / 2 - center.x) + Math.abs((child2.aabb.lowerBound.y + child2.aabb.upperBound.y) / 2 - center.y); if (norm1 < norm2) { sibling = child1; } else { sibling = child2; } } while (sibling.IsLeaf() == false) } var node1 = sibling.parent; var node2 = this.AllocateNode(); node2.parent = node1; node2.userData = null; node2.aabb.Combine(leaf.aabb, sibling.aabb); if (node1) { if (sibling.parent.child1 == sibling) { node1.child1 = node2; } else { node1.child2 = node2; } node2.child1 = sibling; node2.child2 = leaf; sibling.parent = node2; leaf.parent = node2; do { if (node1.aabb.Contains(node2.aabb)) break; node1.aabb.Combine(node1.child1.aabb, node1.child2.aabb); node2 = node1; node1 = node1.parent; } while (node1) } else { node2.child1 = sibling; node2.child2 = leaf; sibling.parent = node2; leaf.parent = node2; this.m_root = node2; } } b2DynamicTree.prototype.RemoveLeaf = function (leaf) { if (leaf == this.m_root) { this.m_root = null; return; } var node2 = leaf.parent; var node1 = node2.parent; var sibling; if (node2.child1 == leaf) { sibling = node2.child2; } else { sibling = node2.child1; } if (node1) { if (node1.child1 == node2) { node1.child1 = sibling; } else { node1.child2 = sibling; } sibling.parent = node1; this.FreeNode(node2); while (node1) { var oldAABB = node1.aabb; node1.aabb = b2AABB.Combine(node1.child1.aabb, node1.child2.aabb); if (oldAABB.Contains(node1.aabb)) break; node1 = node1.parent; } } else { this.m_root = sibling; sibling.parent = null; this.FreeNode(node2); } } b2DynamicTreeBroadPhase.b2DynamicTreeBroadPhase = function () { this.m_tree = new b2DynamicTree(); this.m_moveBuffer = new Vector(); this.m_pairBuffer = new Vector(); this.m_pairCount = 0; }; b2DynamicTreeBroadPhase.prototype.CreateProxy = function (aabb, userData) { var proxy = this.m_tree.CreateProxy(aabb, userData); ++this.m_proxyCount; this.BufferMove(proxy); return proxy; } b2DynamicTreeBroadPhase.prototype.DestroyProxy = function (proxy) { this.UnBufferMove(proxy); --this.m_proxyCount; this.m_tree.DestroyProxy(proxy); } b2DynamicTreeBroadPhase.prototype.MoveProxy = function (proxy, aabb, displacement) { var buffer = this.m_tree.MoveProxy(proxy, aabb, displacement); if (buffer) { this.BufferMove(proxy); } } b2DynamicTreeBroadPhase.prototype.TestOverlap = function (proxyA, proxyB) { var aabbA = this.m_tree.GetFatAABB(proxyA); var aabbB = this.m_tree.GetFatAABB(proxyB); return aabbA.TestOverlap(aabbB); } b2DynamicTreeBroadPhase.prototype.GetUserData = function (proxy) { return this.m_tree.GetUserData(proxy); } b2DynamicTreeBroadPhase.prototype.GetFatAABB = function (proxy) { return this.m_tree.GetFatAABB(proxy); } b2DynamicTreeBroadPhase.prototype.GetProxyCount = function () { return this.m_proxyCount; } b2DynamicTreeBroadPhase.prototype.UpdatePairs = function (callback) { var __this = this; __this.m_pairCount = 0; var i = 0, queryProxy; for (i = 0; i < __this.m_moveBuffer.length; ++i) { queryProxy = __this.m_moveBuffer[i]; function QueryCallback(proxy) { if (proxy == queryProxy) return true; if (__this.m_pairCount == __this.m_pairBuffer.length) { __this.m_pairBuffer[__this.m_pairCount] = new b2DynamicTreePair(); } var pair = __this.m_pairBuffer[__this.m_pairCount]; pair.proxyA = proxy < queryProxy ? proxy : queryProxy; pair.proxyB = proxy >= queryProxy ? proxy : queryProxy;++__this.m_pairCount; return true; }; var fatAABB = __this.m_tree.GetFatAABB(queryProxy); __this.m_tree.Query(QueryCallback, fatAABB); } __this.m_moveBuffer.length = 0; for (var i = 0; i < __this.m_pairCount;) { var primaryPair = __this.m_pairBuffer[i]; var userDataA = __this.m_tree.GetUserData(primaryPair.proxyA); var userDataB = __this.m_tree.GetUserData(primaryPair.proxyB); callback(userDataA, userDataB); ++i; while (i < __this.m_pairCount) { var pair = __this.m_pairBuffer[i]; if (pair.proxyA != primaryPair.proxyA || pair.proxyB != primaryPair.proxyB) { break; }++i; } } } b2DynamicTreeBroadPhase.prototype.Query = function (callback, aabb) { this.m_tree.Query(callback, aabb); } b2DynamicTreeBroadPhase.prototype.RayCast = function (callback, input) { this.m_tree.RayCast(callback, input); } b2DynamicTreeBroadPhase.prototype.Validate = function () {} b2DynamicTreeBroadPhase.prototype.Rebalance = function (iterations) { if (iterations === undefined) iterations = 0; this.m_tree.Rebalance(iterations); } b2DynamicTreeBroadPhase.prototype.BufferMove = function (proxy) { this.m_moveBuffer[this.m_moveBuffer.length] = proxy; } b2DynamicTreeBroadPhase.prototype.UnBufferMove = function (proxy) { var i = parseInt(this.m_moveBuffer.indexOf(proxy)); this.m_moveBuffer.splice(i, 1); } b2DynamicTreeBroadPhase.prototype.ComparePairs = function (pair1, pair2) { return 0; } b2DynamicTreeBroadPhase.__implements = {}; b2DynamicTreeBroadPhase.__implements[IBroadPhase] = true; b2DynamicTreeNode.b2DynamicTreeNode = function () { this.aabb = new b2AABB(); }; b2DynamicTreeNode.prototype.IsLeaf = function () { return this.child1 == null; } b2DynamicTreePair.b2DynamicTreePair = function () {}; b2Manifold.b2Manifold = function () { this.m_pointCount = 0; }; b2Manifold.prototype.b2Manifold = function () { this.m_points = new Vector(b2Settings.b2_maxManifoldPoints); for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { this.m_points[i] = new b2ManifoldPoint(); } this.m_localPlaneNormal = new b2Vec2(); this.m_localPoint = new b2Vec2(); } b2Manifold.prototype.Reset = function () { for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { ((this.m_points[i] instanceof b2ManifoldPoint ? this.m_points[i] : null)).Reset(); } this.m_localPlaneNormal.SetZero(); this.m_localPoint.SetZero(); this.m_type = 0; this.m_pointCount = 0; } b2Manifold.prototype.Set = function (m) { this.m_pointCount = m.m_pointCount; for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { ((this.m_points[i] instanceof b2ManifoldPoint ? this.m_points[i] : null)).Set(m.m_points[i]); } this.m_localPlaneNormal.SetV(m.m_localPlaneNormal); this.m_localPoint.SetV(m.m_localPoint); this.m_type = m.m_type; } b2Manifold.prototype.Copy = function () { var copy = new b2Manifold(); copy.Set(this); return copy; } Box2D.postDefs.push(function () { Box2D.Collision.b2Manifold.e_circles = 0x0001; Box2D.Collision.b2Manifold.e_faceA = 0x0002; Box2D.Collision.b2Manifold.e_faceB = 0x0004; }); b2ManifoldPoint.b2ManifoldPoint = function () { this.m_localPoint = new b2Vec2(); this.m_id = new b2ContactID(); }; b2ManifoldPoint.prototype.b2ManifoldPoint = function () { this.Reset(); } b2ManifoldPoint.prototype.Reset = function () { this.m_localPoint.SetZero(); this.m_normalImpulse = 0.0; this.m_tangentImpulse = 0.0; this.m_id.key = 0; } b2ManifoldPoint.prototype.Set = function (m) { this.m_localPoint.SetV(m.m_localPoint); this.m_normalImpulse = m.m_normalImpulse; this.m_tangentImpulse = m.m_tangentImpulse; this.m_id.Set(m.m_id); } b2Point.b2Point = function () { this.p = new b2Vec2(); }; b2Point.prototype.Support = function (xf, vX, vY) { if (vX === undefined) vX = 0; if (vY === undefined) vY = 0; return this.p; } b2Point.prototype.GetFirstVertex = function (xf) { return this.p; } b2RayCastInput.b2RayCastInput = function () { this.p1 = new b2Vec2(); this.p2 = new b2Vec2(); }; b2RayCastInput.prototype.b2RayCastInput = function (p1, p2, maxFraction) { if (p1 === undefined) p1 = null; if (p2 === undefined) p2 = null; if (maxFraction === undefined) maxFraction = 1; if (p1) this.p1.SetV(p1); if (p2) this.p2.SetV(p2); this.maxFraction = maxFraction; } b2RayCastOutput.b2RayCastOutput = function () { this.normal = new b2Vec2(); }; b2Segment.b2Segment = function () { this.p1 = new b2Vec2(); this.p2 = new b2Vec2(); }; b2Segment.prototype.TestSegment = function (lambda, normal, segment, maxLambda) { if (maxLambda === undefined) maxLambda = 0; var s = segment.p1; var rX = segment.p2.x - s.x; var rY = segment.p2.y - s.y; var dX = this.p2.x - this.p1.x; var dY = this.p2.y - this.p1.y; var nX = dY; var nY = (-dX); var k_slop = 100.0 * Number.MIN_VALUE; var denom = (-(rX * nX + rY * nY)); if (denom > k_slop) { var bX = s.x - this.p1.x; var bY = s.y - this.p1.y; var a = (bX * nX + bY * nY); if (0.0 <= a && a <= maxLambda * denom) { var mu2 = (-rX * bY) + rY * bX; if ((-k_slop * denom) <= mu2 && mu2 <= denom * (1.0 + k_slop)) { a /= denom; var nLen = Math.sqrt(nX * nX + nY * nY); nX /= nLen; nY /= nLen; lambda[0] = a; normal.Set(nX, nY); return true; } } } return false; } b2Segment.prototype.Extend = function (aabb) { this.ExtendForward(aabb); this.ExtendBackward(aabb); } b2Segment.prototype.ExtendForward = function (aabb) { var dX = this.p2.x - this.p1.x; var dY = this.p2.y - this.p1.y; var lambda = Math.min(dX > 0 ? (aabb.upperBound.x - this.p1.x) / dX : dX < 0 ? (aabb.lowerBound.x - this.p1.x) / dX : Number.POSITIVE_INFINITY, dY > 0 ? (aabb.upperBound.y - this.p1.y) / dY : dY < 0 ? (aabb.lowerBound.y - this.p1.y) / dY : Number.POSITIVE_INFINITY); this.p2.x = this.p1.x + dX * lambda; this.p2.y = this.p1.y + dY * lambda; } b2Segment.prototype.ExtendBackward = function (aabb) { var dX = (-this.p2.x) + this.p1.x; var dY = (-this.p2.y) + this.p1.y; var lambda = Math.min(dX > 0 ? (aabb.upperBound.x - this.p2.x) / dX : dX < 0 ? (aabb.lowerBound.x - this.p2.x) / dX : Number.POSITIVE_INFINITY, dY > 0 ? (aabb.upperBound.y - this.p2.y) / dY : dY < 0 ? (aabb.lowerBound.y - this.p2.y) / dY : Number.POSITIVE_INFINITY); this.p1.x = this.p2.x + dX * lambda; this.p1.y = this.p2.y + dY * lambda; } b2SeparationFunction.b2SeparationFunction = function () { this.m_localPoint = new b2Vec2(); this.m_axis = new b2Vec2(); }; b2SeparationFunction.prototype.Initialize = function (cache, proxyA, transformA, proxyB, transformB) { this.m_proxyA = proxyA; this.m_proxyB = proxyB; var count = parseInt(cache.count); b2Settings.b2Assert(0 < count && count < 3); var localPointA; var localPointA1; var localPointA2; var localPointB; var localPointB1; var localPointB2; var pointAX = 0; var pointAY = 0; var pointBX = 0; var pointBY = 0; var normalX = 0; var normalY = 0; var tMat; var tVec; var s = 0; var sgn = 0; if (count == 1) { this.m_type = b2SeparationFunction.e_points; localPointA = this.m_proxyA.GetVertex(cache.indexA[0]); localPointB = this.m_proxyB.GetVertex(cache.indexB[0]); tVec = localPointA; tMat = transformA.R; pointAX = transformA.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointAY = transformA.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = localPointB; tMat = transformB.R; pointBX = transformB.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointBY = transformB.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); this.m_axis.x = pointBX - pointAX; this.m_axis.y = pointBY - pointAY; this.m_axis.Normalize(); } else if (cache.indexB[0] == cache.indexB[1]) { this.m_type = b2SeparationFunction.e_faceA; localPointA1 = this.m_proxyA.GetVertex(cache.indexA[0]); localPointA2 = this.m_proxyA.GetVertex(cache.indexA[1]); localPointB = this.m_proxyB.GetVertex(cache.indexB[0]); this.m_localPoint.x = 0.5 * (localPointA1.x + localPointA2.x); this.m_localPoint.y = 0.5 * (localPointA1.y + localPointA2.y); this.m_axis = b2Math.CrossVF(b2Math.SubtractVV(localPointA2, localPointA1), 1.0); this.m_axis.Normalize(); tVec = this.m_axis; tMat = transformA.R; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tVec = this.m_localPoint; tMat = transformA.R; pointAX = transformA.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointAY = transformA.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = localPointB; tMat = transformB.R; pointBX = transformB.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointBY = transformB.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); s = (pointBX - pointAX) * normalX + (pointBY - pointAY) * normalY; if (s < 0.0) { this.m_axis.NegativeSelf(); } } else if (cache.indexA[0] == cache.indexA[0]) { this.m_type = b2SeparationFunction.e_faceB; localPointB1 = this.m_proxyB.GetVertex(cache.indexB[0]); localPointB2 = this.m_proxyB.GetVertex(cache.indexB[1]); localPointA = this.m_proxyA.GetVertex(cache.indexA[0]); this.m_localPoint.x = 0.5 * (localPointB1.x + localPointB2.x); this.m_localPoint.y = 0.5 * (localPointB1.y + localPointB2.y); this.m_axis = b2Math.CrossVF(b2Math.SubtractVV(localPointB2, localPointB1), 1.0); this.m_axis.Normalize(); tVec = this.m_axis; tMat = transformB.R; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tVec = this.m_localPoint; tMat = transformB.R; pointBX = transformB.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointBY = transformB.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = localPointA; tMat = transformA.R; pointAX = transformA.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointAY = transformA.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); s = (pointAX - pointBX) * normalX + (pointAY - pointBY) * normalY; if (s < 0.0) { this.m_axis.NegativeSelf(); } } else { localPointA1 = this.m_proxyA.GetVertex(cache.indexA[0]); localPointA2 = this.m_proxyA.GetVertex(cache.indexA[1]); localPointB1 = this.m_proxyB.GetVertex(cache.indexB[0]); localPointB2 = this.m_proxyB.GetVertex(cache.indexB[1]); var pA = b2Math.MulX(transformA, localPointA); var dA = b2Math.MulMV(transformA.R, b2Math.SubtractVV(localPointA2, localPointA1)); var pB = b2Math.MulX(transformB, localPointB); var dB = b2Math.MulMV(transformB.R, b2Math.SubtractVV(localPointB2, localPointB1)); var a = dA.x * dA.x + dA.y * dA.y; var e = dB.x * dB.x + dB.y * dB.y; var r = b2Math.SubtractVV(dB, dA); var c = dA.x * r.x + dA.y * r.y; var f = dB.x * r.x + dB.y * r.y; var b = dA.x * dB.x + dA.y * dB.y; var denom = a * e - b * b; s = 0.0; if (denom != 0.0) { s = b2Math.Clamp((b * f - c * e) / denom, 0.0, 1.0); } var t = (b * s + f) / e; if (t < 0.0) { t = 0.0; s = b2Math.Clamp((b - c) / a, 0.0, 1.0); } localPointA = new b2Vec2(); localPointA.x = localPointA1.x + s * (localPointA2.x - localPointA1.x); localPointA.y = localPointA1.y + s * (localPointA2.y - localPointA1.y); localPointB = new b2Vec2(); localPointB.x = localPointB1.x + s * (localPointB2.x - localPointB1.x); localPointB.y = localPointB1.y + s * (localPointB2.y - localPointB1.y); if (s == 0.0 || s == 1.0) { this.m_type = b2SeparationFunction.e_faceB; this.m_axis = b2Math.CrossVF(b2Math.SubtractVV(localPointB2, localPointB1), 1.0); this.m_axis.Normalize(); this.m_localPoint = localPointB; tVec = this.m_axis; tMat = transformB.R; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tVec = this.m_localPoint; tMat = transformB.R; pointBX = transformB.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointBY = transformB.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = localPointA; tMat = transformA.R; pointAX = transformA.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointAY = transformA.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); sgn = (pointAX - pointBX) * normalX + (pointAY - pointBY) * normalY; if (s < 0.0) { this.m_axis.NegativeSelf(); } } else { this.m_type = b2SeparationFunction.e_faceA; this.m_axis = b2Math.CrossVF(b2Math.SubtractVV(localPointA2, localPointA1), 1.0); this.m_localPoint = localPointA; tVec = this.m_axis; tMat = transformA.R; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tVec = this.m_localPoint; tMat = transformA.R; pointAX = transformA.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointAY = transformA.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tVec = localPointB; tMat = transformB.R; pointBX = transformB.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); pointBY = transformB.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); sgn = (pointBX - pointAX) * normalX + (pointBY - pointAY) * normalY; if (s < 0.0) { this.m_axis.NegativeSelf(); } } } } b2SeparationFunction.prototype.Evaluate = function (transformA, transformB) { var axisA; var axisB; var localPointA; var localPointB; var pointA; var pointB; var seperation = 0; var normal; switch (this.m_type) { case b2SeparationFunction.e_points: { axisA = b2Math.MulTMV(transformA.R, this.m_axis); axisB = b2Math.MulTMV(transformB.R, this.m_axis.GetNegative()); localPointA = this.m_proxyA.GetSupportVertex(axisA); localPointB = this.m_proxyB.GetSupportVertex(axisB); pointA = b2Math.MulX(transformA, localPointA); pointB = b2Math.MulX(transformB, localPointB); seperation = (pointB.x - pointA.x) * this.m_axis.x + (pointB.y - pointA.y) * this.m_axis.y; return seperation; } case b2SeparationFunction.e_faceA: { normal = b2Math.MulMV(transformA.R, this.m_axis); pointA = b2Math.MulX(transformA, this.m_localPoint); axisB = b2Math.MulTMV(transformB.R, normal.GetNegative()); localPointB = this.m_proxyB.GetSupportVertex(axisB); pointB = b2Math.MulX(transformB, localPointB); seperation = (pointB.x - pointA.x) * normal.x + (pointB.y - pointA.y) * normal.y; return seperation; } case b2SeparationFunction.e_faceB: { normal = b2Math.MulMV(transformB.R, this.m_axis); pointB = b2Math.MulX(transformB, this.m_localPoint); axisA = b2Math.MulTMV(transformA.R, normal.GetNegative()); localPointA = this.m_proxyA.GetSupportVertex(axisA); pointA = b2Math.MulX(transformA, localPointA); seperation = (pointA.x - pointB.x) * normal.x + (pointA.y - pointB.y) * normal.y; return seperation; } default: b2Settings.b2Assert(false); return 0.0; } } Box2D.postDefs.push(function () { Box2D.Collision.b2SeparationFunction.e_points = 0x01; Box2D.Collision.b2SeparationFunction.e_faceA = 0x02; Box2D.Collision.b2SeparationFunction.e_faceB = 0x04; }); b2Simplex.b2Simplex = function () { this.m_v1 = new b2SimplexVertex(); this.m_v2 = new b2SimplexVertex(); this.m_v3 = new b2SimplexVertex(); this.m_vertices = new Vector(3); }; b2Simplex.prototype.b2Simplex = function () { this.m_vertices[0] = this.m_v1; this.m_vertices[1] = this.m_v2; this.m_vertices[2] = this.m_v3; } b2Simplex.prototype.ReadCache = function (cache, proxyA, transformA, proxyB, transformB) { b2Settings.b2Assert(0 <= cache.count && cache.count <= 3); var wALocal; var wBLocal; this.m_count = cache.count; var vertices = this.m_vertices; for (var i = 0; i < this.m_count; i++) { var v = vertices[i]; v.indexA = cache.indexA[i]; v.indexB = cache.indexB[i]; wALocal = proxyA.GetVertex(v.indexA); wBLocal = proxyB.GetVertex(v.indexB); v.wA = b2Math.MulX(transformA, wALocal); v.wB = b2Math.MulX(transformB, wBLocal); v.w = b2Math.SubtractVV(v.wB, v.wA); v.a = 0; } if (this.m_count > 1) { var metric1 = cache.metric; var metric2 = this.GetMetric(); if (metric2 < .5 * metric1 || 2.0 * metric1 < metric2 || metric2 < Number.MIN_VALUE) { this.m_count = 0; } } if (this.m_count == 0) { v = vertices[0]; v.indexA = 0; v.indexB = 0; wALocal = proxyA.GetVertex(0); wBLocal = proxyB.GetVertex(0); v.wA = b2Math.MulX(transformA, wALocal); v.wB = b2Math.MulX(transformB, wBLocal); v.w = b2Math.SubtractVV(v.wB, v.wA); this.m_count = 1; } } b2Simplex.prototype.WriteCache = function (cache) { cache.metric = this.GetMetric(); cache.count = Box2D.parseUInt(this.m_count); var vertices = this.m_vertices; for (var i = 0; i < this.m_count; i++) { cache.indexA[i] = Box2D.parseUInt(vertices[i].indexA); cache.indexB[i] = Box2D.parseUInt(vertices[i].indexB); } } b2Simplex.prototype.GetSearchDirection = function () { switch (this.m_count) { case 1: return this.m_v1.w.GetNegative(); case 2: { var e12 = b2Math.SubtractVV(this.m_v2.w, this.m_v1.w); var sgn = b2Math.CrossVV(e12, this.m_v1.w.GetNegative()); if (sgn > 0.0) { return b2Math.CrossFV(1.0, e12); } else { return b2Math.CrossVF(e12, 1.0); } } default: b2Settings.b2Assert(false); return new b2Vec2(); } } b2Simplex.prototype.GetClosestPoint = function () { switch (this.m_count) { case 0: b2Settings.b2Assert(false); return new b2Vec2(); case 1: return this.m_v1.w; case 2: return new b2Vec2(this.m_v1.a * this.m_v1.w.x + this.m_v2.a * this.m_v2.w.x, this.m_v1.a * this.m_v1.w.y + this.m_v2.a * this.m_v2.w.y); default: b2Settings.b2Assert(false); return new b2Vec2(); } } b2Simplex.prototype.GetWitnessPoints = function (pA, pB) { switch (this.m_count) { case 0: b2Settings.b2Assert(false); break; case 1: pA.SetV(this.m_v1.wA); pB.SetV(this.m_v1.wB); break; case 2: pA.x = this.m_v1.a * this.m_v1.wA.x + this.m_v2.a * this.m_v2.wA.x; pA.y = this.m_v1.a * this.m_v1.wA.y + this.m_v2.a * this.m_v2.wA.y; pB.x = this.m_v1.a * this.m_v1.wB.x + this.m_v2.a * this.m_v2.wB.x; pB.y = this.m_v1.a * this.m_v1.wB.y + this.m_v2.a * this.m_v2.wB.y; break; case 3: pB.x = pA.x = this.m_v1.a * this.m_v1.wA.x + this.m_v2.a * this.m_v2.wA.x + this.m_v3.a * this.m_v3.wA.x; pB.y = pA.y = this.m_v1.a * this.m_v1.wA.y + this.m_v2.a * this.m_v2.wA.y + this.m_v3.a * this.m_v3.wA.y; break; default: b2Settings.b2Assert(false); break; } } b2Simplex.prototype.GetMetric = function () { switch (this.m_count) { case 0: b2Settings.b2Assert(false); return 0.0; case 1: return 0.0; case 2: return b2Math.SubtractVV(this.m_v1.w, this.m_v2.w).Length(); case 3: return b2Math.CrossVV(b2Math.SubtractVV(this.m_v2.w, this.m_v1.w), b2Math.SubtractVV(this.m_v3.w, this.m_v1.w)); default: b2Settings.b2Assert(false); return 0.0; } } b2Simplex.prototype.Solve2 = function () { var w1 = this.m_v1.w; var w2 = this.m_v2.w; var e12 = b2Math.SubtractVV(w2, w1); var d12_2 = (-(w1.x * e12.x + w1.y * e12.y)); if (d12_2 <= 0.0) { this.m_v1.a = 1.0; this.m_count = 1; return; } var d12_1 = (w2.x * e12.x + w2.y * e12.y); if (d12_1 <= 0.0) { this.m_v2.a = 1.0; this.m_count = 1; this.m_v1.Set(this.m_v2); return; } var inv_d12 = 1.0 / (d12_1 + d12_2); this.m_v1.a = d12_1 * inv_d12; this.m_v2.a = d12_2 * inv_d12; this.m_count = 2; } b2Simplex.prototype.Solve3 = function () { var w1 = this.m_v1.w; var w2 = this.m_v2.w; var w3 = this.m_v3.w; var e12 = b2Math.SubtractVV(w2, w1); var w1e12 = b2Math.Dot(w1, e12); var w2e12 = b2Math.Dot(w2, e12); var d12_1 = w2e12; var d12_2 = (-w1e12); var e13 = b2Math.SubtractVV(w3, w1); var w1e13 = b2Math.Dot(w1, e13); var w3e13 = b2Math.Dot(w3, e13); var d13_1 = w3e13; var d13_2 = (-w1e13); var e23 = b2Math.SubtractVV(w3, w2); var w2e23 = b2Math.Dot(w2, e23); var w3e23 = b2Math.Dot(w3, e23); var d23_1 = w3e23; var d23_2 = (-w2e23); var n123 = b2Math.CrossVV(e12, e13); var d123_1 = n123 * b2Math.CrossVV(w2, w3); var d123_2 = n123 * b2Math.CrossVV(w3, w1); var d123_3 = n123 * b2Math.CrossVV(w1, w2); if (d12_2 <= 0.0 && d13_2 <= 0.0) { this.m_v1.a = 1.0; this.m_count = 1; return; } if (d12_1 > 0.0 && d12_2 > 0.0 && d123_3 <= 0.0) { var inv_d12 = 1.0 / (d12_1 + d12_2); this.m_v1.a = d12_1 * inv_d12; this.m_v2.a = d12_2 * inv_d12; this.m_count = 2; return; } if (d13_1 > 0.0 && d13_2 > 0.0 && d123_2 <= 0.0) { var inv_d13 = 1.0 / (d13_1 + d13_2); this.m_v1.a = d13_1 * inv_d13; this.m_v3.a = d13_2 * inv_d13; this.m_count = 2; this.m_v2.Set(this.m_v3); return; } if (d12_1 <= 0.0 && d23_2 <= 0.0) { this.m_v2.a = 1.0; this.m_count = 1; this.m_v1.Set(this.m_v2); return; } if (d13_1 <= 0.0 && d23_1 <= 0.0) { this.m_v3.a = 1.0; this.m_count = 1; this.m_v1.Set(this.m_v3); return; } if (d23_1 > 0.0 && d23_2 > 0.0 && d123_1 <= 0.0) { var inv_d23 = 1.0 / (d23_1 + d23_2); this.m_v2.a = d23_1 * inv_d23; this.m_v3.a = d23_2 * inv_d23; this.m_count = 2; this.m_v1.Set(this.m_v3); return; } var inv_d123 = 1.0 / (d123_1 + d123_2 + d123_3); this.m_v1.a = d123_1 * inv_d123; this.m_v2.a = d123_2 * inv_d123; this.m_v3.a = d123_3 * inv_d123; this.m_count = 3; } b2SimplexCache.b2SimplexCache = function () { this.indexA = new Vector_a2j_Number(3); this.indexB = new Vector_a2j_Number(3); }; b2SimplexVertex.b2SimplexVertex = function () {}; b2SimplexVertex.prototype.Set = function (other) { this.wA.SetV(other.wA); this.wB.SetV(other.wB); this.w.SetV(other.w); this.a = other.a; this.indexA = other.indexA; this.indexB = other.indexB; } b2TimeOfImpact.b2TimeOfImpact = function () {}; b2TimeOfImpact.TimeOfImpact = function (input) { ++b2TimeOfImpact.b2_toiCalls; var proxyA = input.proxyA; var proxyB = input.proxyB; var sweepA = input.sweepA; var sweepB = input.sweepB; b2Settings.b2Assert(sweepA.t0 == sweepB.t0); b2Settings.b2Assert(1.0 - sweepA.t0 > Number.MIN_VALUE); var radius = proxyA.m_radius + proxyB.m_radius; var tolerance = input.tolerance; var alpha = 0.0; var k_maxIterations = 1000; var iter = 0; var target = 0.0; b2TimeOfImpact.s_cache.count = 0; b2TimeOfImpact.s_distanceInput.useRadii = false; for (;;) { sweepA.GetTransform(b2TimeOfImpact.s_xfA, alpha); sweepB.GetTransform(b2TimeOfImpact.s_xfB, alpha); b2TimeOfImpact.s_distanceInput.proxyA = proxyA; b2TimeOfImpact.s_distanceInput.proxyB = proxyB; b2TimeOfImpact.s_distanceInput.transformA = b2TimeOfImpact.s_xfA; b2TimeOfImpact.s_distanceInput.transformB = b2TimeOfImpact.s_xfB; b2Distance.Distance(b2TimeOfImpact.s_distanceOutput, b2TimeOfImpact.s_cache, b2TimeOfImpact.s_distanceInput); if (b2TimeOfImpact.s_distanceOutput.distance <= 0.0) { alpha = 1.0; break; } b2TimeOfImpact.s_fcn.Initialize(b2TimeOfImpact.s_cache, proxyA, b2TimeOfImpact.s_xfA, proxyB, b2TimeOfImpact.s_xfB); var separation = b2TimeOfImpact.s_fcn.Evaluate(b2TimeOfImpact.s_xfA, b2TimeOfImpact.s_xfB); if (separation <= 0.0) { alpha = 1.0; break; } if (iter == 0) { if (separation > radius) { target = b2Math.Max(radius - tolerance, 0.75 * radius); } else { target = b2Math.Max(separation - tolerance, 0.02 * radius); } } if (separation - target < 0.5 * tolerance) { if (iter == 0) { alpha = 1.0; break; } break; } var newAlpha = alpha; { var x1 = alpha; var x2 = 1.0; var f1 = separation; sweepA.GetTransform(b2TimeOfImpact.s_xfA, x2); sweepB.GetTransform(b2TimeOfImpact.s_xfB, x2); var f2 = b2TimeOfImpact.s_fcn.Evaluate(b2TimeOfImpact.s_xfA, b2TimeOfImpact.s_xfB); if (f2 >= target) { alpha = 1.0; break; } var rootIterCount = 0; for (;;) { var x = 0; if (rootIterCount & 1) { x = x1 + (target - f1) * (x2 - x1) / (f2 - f1); } else { x = 0.5 * (x1 + x2); } sweepA.GetTransform(b2TimeOfImpact.s_xfA, x); sweepB.GetTransform(b2TimeOfImpact.s_xfB, x); var f = b2TimeOfImpact.s_fcn.Evaluate(b2TimeOfImpact.s_xfA, b2TimeOfImpact.s_xfB); if (b2Math.Abs(f - target) < 0.025 * tolerance) { newAlpha = x; break; } if (f > target) { x1 = x; f1 = f; } else { x2 = x; f2 = f; }++rootIterCount; ++b2TimeOfImpact.b2_toiRootIters; if (rootIterCount == 50) { break; } } b2TimeOfImpact.b2_toiMaxRootIters = b2Math.Max(b2TimeOfImpact.b2_toiMaxRootIters, rootIterCount); } if (newAlpha < (1.0 + 100.0 * Number.MIN_VALUE) * alpha) { break; } alpha = newAlpha; iter++; ++b2TimeOfImpact.b2_toiIters; if (iter == k_maxIterations) { break; } } b2TimeOfImpact.b2_toiMaxIters = b2Math.Max(b2TimeOfImpact.b2_toiMaxIters, iter); return alpha; } Box2D.postDefs.push(function () { Box2D.Collision.b2TimeOfImpact.b2_toiCalls = 0; Box2D.Collision.b2TimeOfImpact.b2_toiIters = 0; Box2D.Collision.b2TimeOfImpact.b2_toiMaxIters = 0; Box2D.Collision.b2TimeOfImpact.b2_toiRootIters = 0; Box2D.Collision.b2TimeOfImpact.b2_toiMaxRootIters = 0; Box2D.Collision.b2TimeOfImpact.s_cache = new b2SimplexCache(); Box2D.Collision.b2TimeOfImpact.s_distanceInput = new b2DistanceInput(); Box2D.Collision.b2TimeOfImpact.s_xfA = new b2Transform(); Box2D.Collision.b2TimeOfImpact.s_xfB = new b2Transform(); Box2D.Collision.b2TimeOfImpact.s_fcn = new b2SeparationFunction(); Box2D.Collision.b2TimeOfImpact.s_distanceOutput = new b2DistanceOutput(); }); b2TOIInput.b2TOIInput = function () { this.proxyA = new b2DistanceProxy(); this.proxyB = new b2DistanceProxy(); this.sweepA = new b2Sweep(); this.sweepB = new b2Sweep(); }; b2WorldManifold.b2WorldManifold = function () { this.m_normal = new b2Vec2(); }; b2WorldManifold.prototype.b2WorldManifold = function () { this.m_points = new Vector(b2Settings.b2_maxManifoldPoints); for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { this.m_points[i] = new b2Vec2(); } } b2WorldManifold.prototype.Initialize = function (manifold, xfA, radiusA, xfB, radiusB) { if (radiusA === undefined) radiusA = 0; if (radiusB === undefined) radiusB = 0; if (manifold.m_pointCount == 0) { return; } var i = 0; var tVec; var tMat; var normalX = 0; var normalY = 0; var planePointX = 0; var planePointY = 0; var clipPointX = 0; var clipPointY = 0; switch (manifold.m_type) { case b2Manifold.e_circles: { tMat = xfA.R; tVec = manifold.m_localPoint; var pointAX = xfA.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; var pointAY = xfA.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = xfB.R; tVec = manifold.m_points[0].m_localPoint; var pointBX = xfB.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; var pointBY = xfB.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; var dX = pointBX - pointAX; var dY = pointBY - pointAY; var d2 = dX * dX + dY * dY; if (d2 > Number.MIN_VALUE * Number.MIN_VALUE) { var d = Math.sqrt(d2); this.m_normal.x = dX / d; this.m_normal.y = dY / d; } else { this.m_normal.x = 1; this.m_normal.y = 0; } var cAX = pointAX + radiusA * this.m_normal.x; var cAY = pointAY + radiusA * this.m_normal.y; var cBX = pointBX - radiusB * this.m_normal.x; var cBY = pointBY - radiusB * this.m_normal.y; this.m_points[0].x = 0.5 * (cAX + cBX); this.m_points[0].y = 0.5 * (cAY + cBY); } break; case b2Manifold.e_faceA: { tMat = xfA.R; tVec = manifold.m_localPlaneNormal; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = xfA.R; tVec = manifold.m_localPoint; planePointX = xfA.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; planePointY = xfA.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; this.m_normal.x = normalX; this.m_normal.y = normalY; for (i = 0; i < manifold.m_pointCount; i++) { tMat = xfB.R; tVec = manifold.m_points[i].m_localPoint; clipPointX = xfB.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; clipPointY = xfB.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; this.m_points[i].x = clipPointX + 0.5 * (radiusA - (clipPointX - planePointX) * normalX - (clipPointY - planePointY) * normalY - radiusB) * normalX; this.m_points[i].y = clipPointY + 0.5 * (radiusA - (clipPointX - planePointX) * normalX - (clipPointY - planePointY) * normalY - radiusB) * normalY; } } break; case b2Manifold.e_faceB: { tMat = xfB.R; tVec = manifold.m_localPlaneNormal; normalX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; normalY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = xfB.R; tVec = manifold.m_localPoint; planePointX = xfB.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; planePointY = xfB.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; this.m_normal.x = (-normalX); this.m_normal.y = (-normalY); for (i = 0; i < manifold.m_pointCount; i++) { tMat = xfA.R; tVec = manifold.m_points[i].m_localPoint; clipPointX = xfA.position.x + tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; clipPointY = xfA.position.y + tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; this.m_points[i].x = clipPointX + 0.5 * (radiusB - (clipPointX - planePointX) * normalX - (clipPointY - planePointY) * normalY - radiusA) * normalX; this.m_points[i].y = clipPointY + 0.5 * (radiusB - (clipPointX - planePointX) * normalX - (clipPointY - planePointY) * normalY - radiusA) * normalY; } } break; } } ClipVertex.ClipVertex = function () { this.v = new b2Vec2(); this.id = new b2ContactID(); }; ClipVertex.prototype.Set = function (other) { this.v.SetV(other.v); this.id.Set(other.id); } Features.Features = function () {}; Object.defineProperty(Features.prototype, 'referenceEdge', { enumerable: false, configurable: true, get: function () { return this._referenceEdge; } }); Object.defineProperty(Features.prototype, 'referenceEdge', { enumerable: false, configurable: true, set: function (value) { if (value === undefined) value = 0; this._referenceEdge = value; this._m_id._key = (this._m_id._key & 0xffffff00) | (this._referenceEdge & 0x000000ff); } }); Object.defineProperty(Features.prototype, 'incidentEdge', { enumerable: false, configurable: true, get: function () { return this._incidentEdge; } }); Object.defineProperty(Features.prototype, 'incidentEdge', { enumerable: false, configurable: true, set: function (value) { if (value === undefined) value = 0; this._incidentEdge = value; this._m_id._key = (this._m_id._key & 0xffff00ff) | ((this._incidentEdge << 8) & 0x0000ff00); } }); Object.defineProperty(Features.prototype, 'incidentVertex', { enumerable: false, configurable: true, get: function () { return this._incidentVertex; } }); Object.defineProperty(Features.prototype, 'incidentVertex', { enumerable: false, configurable: true, set: function (value) { if (value === undefined) value = 0; this._incidentVertex = value; this._m_id._key = (this._m_id._key & 0xff00ffff) | ((this._incidentVertex << 16) & 0x00ff0000); } }); Object.defineProperty(Features.prototype, 'flip', { enumerable: false, configurable: true, get: function () { return this._flip; } }); Object.defineProperty(Features.prototype, 'flip', { enumerable: false, configurable: true, set: function (value) { if (value === undefined) value = 0; this._flip = value; this._m_id._key = (this._m_id._key & 0x00ffffff) | ((this._flip << 24) & 0xff000000); } }); })(); (function () { var b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2CircleShape = Box2D.Collision.Shapes.b2CircleShape, b2EdgeChainDef = Box2D.Collision.Shapes.b2EdgeChainDef, b2EdgeShape = Box2D.Collision.Shapes.b2EdgeShape, b2MassData = Box2D.Collision.Shapes.b2MassData, b2PolygonShape = Box2D.Collision.Shapes.b2PolygonShape, b2Shape = Box2D.Collision.Shapes.b2Shape, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2Body = Box2D.Dynamics.b2Body, b2BodyDef = Box2D.Dynamics.b2BodyDef, b2ContactFilter = Box2D.Dynamics.b2ContactFilter, b2ContactImpulse = Box2D.Dynamics.b2ContactImpulse, b2ContactListener = Box2D.Dynamics.b2ContactListener, b2ContactManager = Box2D.Dynamics.b2ContactManager, b2DebugDraw = Box2D.Dynamics.b2DebugDraw, b2DestructionListener = Box2D.Dynamics.b2DestructionListener, b2FilterData = Box2D.Dynamics.b2FilterData, b2Fixture = Box2D.Dynamics.b2Fixture, b2FixtureDef = Box2D.Dynamics.b2FixtureDef, b2Island = Box2D.Dynamics.b2Island, b2TimeStep = Box2D.Dynamics.b2TimeStep, b2World = Box2D.Dynamics.b2World, b2AABB = Box2D.Collision.b2AABB, b2Bound = Box2D.Collision.b2Bound, b2BoundValues = Box2D.Collision.b2BoundValues, b2Collision = Box2D.Collision.b2Collision, b2ContactID = Box2D.Collision.b2ContactID, b2ContactPoint = Box2D.Collision.b2ContactPoint, b2Distance = Box2D.Collision.b2Distance, b2DistanceInput = Box2D.Collision.b2DistanceInput, b2DistanceOutput = Box2D.Collision.b2DistanceOutput, b2DistanceProxy = Box2D.Collision.b2DistanceProxy, b2DynamicTree = Box2D.Collision.b2DynamicTree, b2DynamicTreeBroadPhase = Box2D.Collision.b2DynamicTreeBroadPhase, b2DynamicTreeNode = Box2D.Collision.b2DynamicTreeNode, b2DynamicTreePair = Box2D.Collision.b2DynamicTreePair, b2Manifold = Box2D.Collision.b2Manifold, b2ManifoldPoint = Box2D.Collision.b2ManifoldPoint, b2Point = Box2D.Collision.b2Point, b2RayCastInput = Box2D.Collision.b2RayCastInput, b2RayCastOutput = Box2D.Collision.b2RayCastOutput, b2Segment = Box2D.Collision.b2Segment, b2SeparationFunction = Box2D.Collision.b2SeparationFunction, b2Simplex = Box2D.Collision.b2Simplex, b2SimplexCache = Box2D.Collision.b2SimplexCache, b2SimplexVertex = Box2D.Collision.b2SimplexVertex, b2TimeOfImpact = Box2D.Collision.b2TimeOfImpact, b2TOIInput = Box2D.Collision.b2TOIInput, b2WorldManifold = Box2D.Collision.b2WorldManifold, ClipVertex = Box2D.Collision.ClipVertex, Features = Box2D.Collision.Features, IBroadPhase = Box2D.Collision.IBroadPhase; Box2D.inherit(b2CircleShape, Box2D.Collision.Shapes.b2Shape); b2CircleShape.prototype.__super = Box2D.Collision.Shapes.b2Shape.prototype; b2CircleShape.b2CircleShape = function () { Box2D.Collision.Shapes.b2Shape.b2Shape.apply(this, arguments); this.m_p = new b2Vec2(); }; b2CircleShape.prototype.Copy = function () { var s = new b2CircleShape(); s.Set(this); return s; } b2CircleShape.prototype.Set = function (other) { this.__super.Set.call(this, other); if (Box2D.is(other, b2CircleShape)) { var other2 = (other instanceof b2CircleShape ? other : null); this.m_p.SetV(other2.m_p); } } b2CircleShape.prototype.TestPoint = function (transform, p) { var tMat = transform.R; var dX = transform.position.x + (tMat.col1.x * this.m_p.x + tMat.col2.x * this.m_p.y); var dY = transform.position.y + (tMat.col1.y * this.m_p.x + tMat.col2.y * this.m_p.y); dX = p.x - dX; dY = p.y - dY; return (dX * dX + dY * dY) <= this.m_radius * this.m_radius; } b2CircleShape.prototype.RayCast = function (output, input, transform) { var tMat = transform.R; var positionX = transform.position.x + (tMat.col1.x * this.m_p.x + tMat.col2.x * this.m_p.y); var positionY = transform.position.y + (tMat.col1.y * this.m_p.x + tMat.col2.y * this.m_p.y); var sX = input.p1.x - positionX; var sY = input.p1.y - positionY; var b = (sX * sX + sY * sY) - this.m_radius * this.m_radius; var rX = input.p2.x - input.p1.x; var rY = input.p2.y - input.p1.y; var c = (sX * rX + sY * rY); var rr = (rX * rX + rY * rY); var sigma = c * c - rr * b; if (sigma < 0.0 || rr < Number.MIN_VALUE) { return false; } var a = (-(c + Math.sqrt(sigma))); if (0.0 <= a && a <= input.maxFraction * rr) { a /= rr; output.fraction = a; output.normal.x = sX + a * rX; output.normal.y = sY + a * rY; output.normal.Normalize(); return true; } return false; } b2CircleShape.prototype.ComputeAABB = function (aabb, transform) { var tMat = transform.R; var pX = transform.position.x + (tMat.col1.x * this.m_p.x + tMat.col2.x * this.m_p.y); var pY = transform.position.y + (tMat.col1.y * this.m_p.x + tMat.col2.y * this.m_p.y); aabb.lowerBound.Set(pX - this.m_radius, pY - this.m_radius); aabb.upperBound.Set(pX + this.m_radius, pY + this.m_radius); } b2CircleShape.prototype.ComputeMass = function (massData, density) { if (density === undefined) density = 0; massData.mass = density * b2Settings.b2_pi * this.m_radius * this.m_radius; massData.center.SetV(this.m_p); massData.I = massData.mass * (0.5 * this.m_radius * this.m_radius + (this.m_p.x * this.m_p.x + this.m_p.y * this.m_p.y)); } b2CircleShape.prototype.ComputeSubmergedArea = function (normal, offset, xf, c) { if (offset === undefined) offset = 0; var p = b2Math.MulX(xf, this.m_p); var l = (-(b2Math.Dot(normal, p) - offset)); if (l < (-this.m_radius) + Number.MIN_VALUE) { return 0; } if (l > this.m_radius) { c.SetV(p); return Math.PI * this.m_radius * this.m_radius; } var r2 = this.m_radius * this.m_radius; var l2 = l * l; var area = r2 * (Math.asin(l / this.m_radius) + Math.PI / 2) + l * Math.sqrt(r2 - l2); var com = (-2 / 3 * Math.pow(r2 - l2, 1.5) / area); c.x = p.x + normal.x * com; c.y = p.y + normal.y * com; return area; } b2CircleShape.prototype.GetLocalPosition = function () { return this.m_p; } b2CircleShape.prototype.SetLocalPosition = function (position) { this.m_p.SetV(position); } b2CircleShape.prototype.GetRadius = function () { return this.m_radius; } b2CircleShape.prototype.SetRadius = function (radius) { if (radius === undefined) radius = 0; this.m_radius = radius; } b2CircleShape.prototype.b2CircleShape = function (radius) { if (radius === undefined) radius = 0; this.__super.b2Shape.call(this); this.m_type = b2Shape.e_circleShape; this.m_radius = radius; } b2EdgeChainDef.b2EdgeChainDef = function () {}; b2EdgeChainDef.prototype.b2EdgeChainDef = function () { this.vertexCount = 0; this.isALoop = true; this.vertices = []; } Box2D.inherit(b2EdgeShape, Box2D.Collision.Shapes.b2Shape); b2EdgeShape.prototype.__super = Box2D.Collision.Shapes.b2Shape.prototype; b2EdgeShape.b2EdgeShape = function () { Box2D.Collision.Shapes.b2Shape.b2Shape.apply(this, arguments); this.s_supportVec = new b2Vec2(); this.m_v1 = new b2Vec2(); this.m_v2 = new b2Vec2(); this.m_coreV1 = new b2Vec2(); this.m_coreV2 = new b2Vec2(); this.m_normal = new b2Vec2(); this.m_direction = new b2Vec2(); this.m_cornerDir1 = new b2Vec2(); this.m_cornerDir2 = new b2Vec2(); }; b2EdgeShape.prototype.TestPoint = function (transform, p) { return false; } b2EdgeShape.prototype.RayCast = function (output, input, transform) { var tMat; var rX = input.p2.x - input.p1.x; var rY = input.p2.y - input.p1.y; tMat = transform.R; var v1X = transform.position.x + (tMat.col1.x * this.m_v1.x + tMat.col2.x * this.m_v1.y); var v1Y = transform.position.y + (tMat.col1.y * this.m_v1.x + tMat.col2.y * this.m_v1.y); var nX = transform.position.y + (tMat.col1.y * this.m_v2.x + tMat.col2.y * this.m_v2.y) - v1Y; var nY = (-(transform.position.x + (tMat.col1.x * this.m_v2.x + tMat.col2.x * this.m_v2.y) - v1X)); var k_slop = 100.0 * Number.MIN_VALUE; var denom = (-(rX * nX + rY * nY)); if (denom > k_slop) { var bX = input.p1.x - v1X; var bY = input.p1.y - v1Y; var a = (bX * nX + bY * nY); if (0.0 <= a && a <= input.maxFraction * denom) { var mu2 = (-rX * bY) + rY * bX; if ((-k_slop * denom) <= mu2 && mu2 <= denom * (1.0 + k_slop)) { a /= denom; output.fraction = a; var nLen = Math.sqrt(nX * nX + nY * nY); output.normal.x = nX / nLen; output.normal.y = nY / nLen; return true; } } } return false; } b2EdgeShape.prototype.ComputeAABB = function (aabb, transform) { var tMat = transform.R; var v1X = transform.position.x + (tMat.col1.x * this.m_v1.x + tMat.col2.x * this.m_v1.y); var v1Y = transform.position.y + (tMat.col1.y * this.m_v1.x + tMat.col2.y * this.m_v1.y); var v2X = transform.position.x + (tMat.col1.x * this.m_v2.x + tMat.col2.x * this.m_v2.y); var v2Y = transform.position.y + (tMat.col1.y * this.m_v2.x + tMat.col2.y * this.m_v2.y); if (v1X < v2X) { aabb.lowerBound.x = v1X; aabb.upperBound.x = v2X; } else { aabb.lowerBound.x = v2X; aabb.upperBound.x = v1X; } if (v1Y < v2Y) { aabb.lowerBound.y = v1Y; aabb.upperBound.y = v2Y; } else { aabb.lowerBound.y = v2Y; aabb.upperBound.y = v1Y; } } b2EdgeShape.prototype.ComputeMass = function (massData, density) { if (density === undefined) density = 0; massData.mass = 0; massData.center.SetV(this.m_v1); massData.I = 0; } b2EdgeShape.prototype.ComputeSubmergedArea = function (normal, offset, xf, c) { if (offset === undefined) offset = 0; var v0 = new b2Vec2(normal.x * offset, normal.y * offset); var v1 = b2Math.MulX(xf, this.m_v1); var v2 = b2Math.MulX(xf, this.m_v2); var d1 = b2Math.Dot(normal, v1) - offset; var d2 = b2Math.Dot(normal, v2) - offset; if (d1 > 0) { if (d2 > 0) { return 0; } else { v1.x = (-d2 / (d1 - d2) * v1.x) + d1 / (d1 - d2) * v2.x; v1.y = (-d2 / (d1 - d2) * v1.y) + d1 / (d1 - d2) * v2.y; } } else { if (d2 > 0) { v2.x = (-d2 / (d1 - d2) * v1.x) + d1 / (d1 - d2) * v2.x; v2.y = (-d2 / (d1 - d2) * v1.y) + d1 / (d1 - d2) * v2.y; } else {} } c.x = (v0.x + v1.x + v2.x) / 3; c.y = (v0.y + v1.y + v2.y) / 3; return 0.5 * ((v1.x - v0.x) * (v2.y - v0.y) - (v1.y - v0.y) * (v2.x - v0.x)); } b2EdgeShape.prototype.GetLength = function () { return this.m_length; } b2EdgeShape.prototype.GetVertex1 = function () { return this.m_v1; } b2EdgeShape.prototype.GetVertex2 = function () { return this.m_v2; } b2EdgeShape.prototype.GetCoreVertex1 = function () { return this.m_coreV1; } b2EdgeShape.prototype.GetCoreVertex2 = function () { return this.m_coreV2; } b2EdgeShape.prototype.GetNormalVector = function () { return this.m_normal; } b2EdgeShape.prototype.GetDirectionVector = function () { return this.m_direction; } b2EdgeShape.prototype.GetCorner1Vector = function () { return this.m_cornerDir1; } b2EdgeShape.prototype.GetCorner2Vector = function () { return this.m_cornerDir2; } b2EdgeShape.prototype.Corner1IsConvex = function () { return this.m_cornerConvex1; } b2EdgeShape.prototype.Corner2IsConvex = function () { return this.m_cornerConvex2; } b2EdgeShape.prototype.GetFirstVertex = function (xf) { var tMat = xf.R; return new b2Vec2(xf.position.x + (tMat.col1.x * this.m_coreV1.x + tMat.col2.x * this.m_coreV1.y), xf.position.y + (tMat.col1.y * this.m_coreV1.x + tMat.col2.y * this.m_coreV1.y)); } b2EdgeShape.prototype.GetNextEdge = function () { return this.m_nextEdge; } b2EdgeShape.prototype.GetPrevEdge = function () { return this.m_prevEdge; } b2EdgeShape.prototype.Support = function (xf, dX, dY) { if (dX === undefined) dX = 0; if (dY === undefined) dY = 0; var tMat = xf.R; var v1X = xf.position.x + (tMat.col1.x * this.m_coreV1.x + tMat.col2.x * this.m_coreV1.y); var v1Y = xf.position.y + (tMat.col1.y * this.m_coreV1.x + tMat.col2.y * this.m_coreV1.y); var v2X = xf.position.x + (tMat.col1.x * this.m_coreV2.x + tMat.col2.x * this.m_coreV2.y); var v2Y = xf.position.y + (tMat.col1.y * this.m_coreV2.x + tMat.col2.y * this.m_coreV2.y); if ((v1X * dX + v1Y * dY) > (v2X * dX + v2Y * dY)) { this.s_supportVec.x = v1X; this.s_supportVec.y = v1Y; } else { this.s_supportVec.x = v2X; this.s_supportVec.y = v2Y; } return this.s_supportVec; } b2EdgeShape.prototype.b2EdgeShape = function (v1, v2) { this.__super.b2Shape.call(this); this.m_type = b2Shape.e_edgeShape; this.m_prevEdge = null; this.m_nextEdge = null; this.m_v1 = v1; this.m_v2 = v2; this.m_direction.Set(this.m_v2.x - this.m_v1.x, this.m_v2.y - this.m_v1.y); this.m_length = this.m_direction.Normalize(); this.m_normal.Set(this.m_direction.y, (-this.m_direction.x)); this.m_coreV1.Set((-b2Settings.b2_toiSlop * (this.m_normal.x - this.m_direction.x)) + this.m_v1.x, (-b2Settings.b2_toiSlop * (this.m_normal.y - this.m_direction.y)) + this.m_v1.y); this.m_coreV2.Set((-b2Settings.b2_toiSlop * (this.m_normal.x + this.m_direction.x)) + this.m_v2.x, (-b2Settings.b2_toiSlop * (this.m_normal.y + this.m_direction.y)) + this.m_v2.y); this.m_cornerDir1 = this.m_normal; this.m_cornerDir2.Set((-this.m_normal.x), (-this.m_normal.y)); } b2EdgeShape.prototype.SetPrevEdge = function (edge, core, cornerDir, convex) { this.m_prevEdge = edge; this.m_coreV1 = core; this.m_cornerDir1 = cornerDir; this.m_cornerConvex1 = convex; } b2EdgeShape.prototype.SetNextEdge = function (edge, core, cornerDir, convex) { this.m_nextEdge = edge; this.m_coreV2 = core; this.m_cornerDir2 = cornerDir; this.m_cornerConvex2 = convex; } b2MassData.b2MassData = function () { this.mass = 0.0; this.center = new b2Vec2(0, 0); this.I = 0.0; }; Box2D.inherit(b2PolygonShape, Box2D.Collision.Shapes.b2Shape); b2PolygonShape.prototype.__super = Box2D.Collision.Shapes.b2Shape.prototype; b2PolygonShape.b2PolygonShape = function () { Box2D.Collision.Shapes.b2Shape.b2Shape.apply(this, arguments); }; b2PolygonShape.prototype.Copy = function () { var s = new b2PolygonShape(); s.Set(this); return s; } b2PolygonShape.prototype.Set = function (other) { this.__super.Set.call(this, other); if (Box2D.is(other, b2PolygonShape)) { var other2 = (other instanceof b2PolygonShape ? other : null); this.m_centroid.SetV(other2.m_centroid); this.m_vertexCount = other2.m_vertexCount; this.Reserve(this.m_vertexCount); for (var i = 0; i < this.m_vertexCount; i++) { this.m_vertices[i].SetV(other2.m_vertices[i]); this.m_normals[i].SetV(other2.m_normals[i]); } } } b2PolygonShape.prototype.SetAsArray = function (vertices, vertexCount) { if (vertexCount === undefined) vertexCount = 0; var v = new Vector(); var i = 0, tVec; for (i = 0; i < vertices.length; ++i) { tVec = vertices[i]; v.push(tVec); } this.SetAsVector(v, vertexCount); } b2PolygonShape.AsArray = function (vertices, vertexCount) { if (vertexCount === undefined) vertexCount = 0; var polygonShape = new b2PolygonShape(); polygonShape.SetAsArray(vertices, vertexCount); return polygonShape; } b2PolygonShape.prototype.SetAsVector = function (vertices, vertexCount) { if (vertexCount === undefined) vertexCount = 0; if (vertexCount == 0) vertexCount = vertices.length; b2Settings.b2Assert(2 <= vertexCount); this.m_vertexCount = vertexCount; this.Reserve(vertexCount); var i = 0; for (i = 0; i < this.m_vertexCount; i++) { this.m_vertices[i].SetV(vertices[i]); } for (i = 0; i < this.m_vertexCount; ++i) { var i1 = parseInt(i); var i2 = parseInt(i + 1 < this.m_vertexCount ? i + 1 : 0); var edge = b2Math.SubtractVV(this.m_vertices[i2], this.m_vertices[i1]); b2Settings.b2Assert(edge.LengthSquared() > Number.MIN_VALUE); this.m_normals[i].SetV(b2Math.CrossVF(edge, 1.0)); this.m_normals[i].Normalize(); } this.m_centroid = b2PolygonShape.ComputeCentroid(this.m_vertices, this.m_vertexCount); } b2PolygonShape.AsVector = function (vertices, vertexCount) { if (vertexCount === undefined) vertexCount = 0; var polygonShape = new b2PolygonShape(); polygonShape.SetAsVector(vertices, vertexCount); return polygonShape; } b2PolygonShape.prototype.SetAsBox = function (hx, hy) { if (hx === undefined) hx = 0; if (hy === undefined) hy = 0; this.m_vertexCount = 4; this.Reserve(4); this.m_vertices[0].Set((-hx), (-hy)); this.m_vertices[1].Set(hx, (-hy)); this.m_vertices[2].Set(hx, hy); this.m_vertices[3].Set((-hx), hy); this.m_normals[0].Set(0.0, (-1.0)); this.m_normals[1].Set(1.0, 0.0); this.m_normals[2].Set(0.0, 1.0); this.m_normals[3].Set((-1.0), 0.0); this.m_centroid.SetZero(); } b2PolygonShape.AsBox = function (hx, hy) { if (hx === undefined) hx = 0; if (hy === undefined) hy = 0; var polygonShape = new b2PolygonShape(); polygonShape.SetAsBox(hx, hy); return polygonShape; } b2PolygonShape.prototype.SetAsOrientedBox = function (hx, hy, center, angle) { if (hx === undefined) hx = 0; if (hy === undefined) hy = 0; if (center === undefined) center = null; if (angle === undefined) angle = 0.0; this.m_vertexCount = 4; this.Reserve(4); this.m_vertices[0].Set((-hx), (-hy)); this.m_vertices[1].Set(hx, (-hy)); this.m_vertices[2].Set(hx, hy); this.m_vertices[3].Set((-hx), hy); this.m_normals[0].Set(0.0, (-1.0)); this.m_normals[1].Set(1.0, 0.0); this.m_normals[2].Set(0.0, 1.0); this.m_normals[3].Set((-1.0), 0.0); this.m_centroid = center; var xf = new b2Transform(); xf.position = center; xf.R.Set(angle); for (var i = 0; i < this.m_vertexCount; ++i) { this.m_vertices[i] = b2Math.MulX(xf, this.m_vertices[i]); this.m_normals[i] = b2Math.MulMV(xf.R, this.m_normals[i]); } } b2PolygonShape.AsOrientedBox = function (hx, hy, center, angle) { if (hx === undefined) hx = 0; if (hy === undefined) hy = 0; if (center === undefined) center = null; if (angle === undefined) angle = 0.0; var polygonShape = new b2PolygonShape(); polygonShape.SetAsOrientedBox(hx, hy, center, angle); return polygonShape; } b2PolygonShape.prototype.SetAsEdge = function (v1, v2) { this.m_vertexCount = 2; this.Reserve(2); this.m_vertices[0].SetV(v1); this.m_vertices[1].SetV(v2); this.m_centroid.x = 0.5 * (v1.x + v2.x); this.m_centroid.y = 0.5 * (v1.y + v2.y); this.m_normals[0] = b2Math.CrossVF(b2Math.SubtractVV(v2, v1), 1.0); this.m_normals[0].Normalize(); this.m_normals[1].x = (-this.m_normals[0].x); this.m_normals[1].y = (-this.m_normals[0].y); } b2PolygonShape.AsEdge = function (v1, v2) { var polygonShape = new b2PolygonShape(); polygonShape.SetAsEdge(v1, v2); return polygonShape; } b2PolygonShape.prototype.TestPoint = function (xf, p) { var tVec; var tMat = xf.R; var tX = p.x - xf.position.x; var tY = p.y - xf.position.y; var pLocalX = (tX * tMat.col1.x + tY * tMat.col1.y); var pLocalY = (tX * tMat.col2.x + tY * tMat.col2.y); for (var i = 0; i < this.m_vertexCount; ++i) { tVec = this.m_vertices[i]; tX = pLocalX - tVec.x; tY = pLocalY - tVec.y; tVec = this.m_normals[i]; var dot = (tVec.x * tX + tVec.y * tY); if (dot > 0.0) { return false; } } return true; } b2PolygonShape.prototype.RayCast = function (output, input, transform) { var lower = 0.0; var upper = input.maxFraction; var tX = 0; var tY = 0; var tMat; var tVec; tX = input.p1.x - transform.position.x; tY = input.p1.y - transform.position.y; tMat = transform.R; var p1X = (tX * tMat.col1.x + tY * tMat.col1.y); var p1Y = (tX * tMat.col2.x + tY * tMat.col2.y); tX = input.p2.x - transform.position.x; tY = input.p2.y - transform.position.y; tMat = transform.R; var p2X = (tX * tMat.col1.x + tY * tMat.col1.y); var p2Y = (tX * tMat.col2.x + tY * tMat.col2.y); var dX = p2X - p1X; var dY = p2Y - p1Y; var index = parseInt((-1)); for (var i = 0; i < this.m_vertexCount; ++i) { tVec = this.m_vertices[i]; tX = tVec.x - p1X; tY = tVec.y - p1Y; tVec = this.m_normals[i]; var numerator = (tVec.x * tX + tVec.y * tY); var denominator = (tVec.x * dX + tVec.y * dY); if (denominator == 0.0) { if (numerator < 0.0) { return false; } } else { if (denominator < 0.0 && numerator < lower * denominator) { lower = numerator / denominator; index = i; } else if (denominator > 0.0 && numerator < upper * denominator) { upper = numerator / denominator; } } if (upper < lower - Number.MIN_VALUE) { return false; } } if (index >= 0) { output.fraction = lower; tMat = transform.R; tVec = this.m_normals[index]; output.normal.x = (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); output.normal.y = (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); return true; } return false; } b2PolygonShape.prototype.ComputeAABB = function (aabb, xf) { var tMat = xf.R; var tVec = this.m_vertices[0]; var lowerX = xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var lowerY = xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); var upperX = lowerX; var upperY = lowerY; for (var i = 1; i < this.m_vertexCount; ++i) { tVec = this.m_vertices[i]; var vX = xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var vY = xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); lowerX = lowerX < vX ? lowerX : vX; lowerY = lowerY < vY ? lowerY : vY; upperX = upperX > vX ? upperX : vX; upperY = upperY > vY ? upperY : vY; } aabb.lowerBound.x = lowerX - this.m_radius; aabb.lowerBound.y = lowerY - this.m_radius; aabb.upperBound.x = upperX + this.m_radius; aabb.upperBound.y = upperY + this.m_radius; } b2PolygonShape.prototype.ComputeMass = function (massData, density) { if (density === undefined) density = 0; if (this.m_vertexCount == 2) { massData.center.x = 0.5 * (this.m_vertices[0].x + this.m_vertices[1].x); massData.center.y = 0.5 * (this.m_vertices[0].y + this.m_vertices[1].y); massData.mass = 0.0; massData.I = 0.0; return; } var centerX = 0.0; var centerY = 0.0; var area = 0.0; var I = 0.0; var p1X = 0.0; var p1Y = 0.0; var k_inv3 = 1.0 / 3.0; for (var i = 0; i < this.m_vertexCount; ++i) { var p2 = this.m_vertices[i]; var p3 = i + 1 < this.m_vertexCount ? this.m_vertices[parseInt(i + 1)] : this.m_vertices[0]; var e1X = p2.x - p1X; var e1Y = p2.y - p1Y; var e2X = p3.x - p1X; var e2Y = p3.y - p1Y; var D = e1X * e2Y - e1Y * e2X; var triangleArea = 0.5 * D;area += triangleArea; centerX += triangleArea * k_inv3 * (p1X + p2.x + p3.x); centerY += triangleArea * k_inv3 * (p1Y + p2.y + p3.y); var px = p1X; var py = p1Y; var ex1 = e1X; var ey1 = e1Y; var ex2 = e2X; var ey2 = e2Y; var intx2 = k_inv3 * (0.25 * (ex1 * ex1 + ex2 * ex1 + ex2 * ex2) + (px * ex1 + px * ex2)) + 0.5 * px * px; var inty2 = k_inv3 * (0.25 * (ey1 * ey1 + ey2 * ey1 + ey2 * ey2) + (py * ey1 + py * ey2)) + 0.5 * py * py;I += D * (intx2 + inty2); } massData.mass = density * area; centerX *= 1.0 / area; centerY *= 1.0 / area; massData.center.Set(centerX, centerY); massData.I = density * I; } b2PolygonShape.prototype.ComputeSubmergedArea = function (normal, offset, xf, c) { if (offset === undefined) offset = 0; var normalL = b2Math.MulTMV(xf.R, normal); var offsetL = offset - b2Math.Dot(normal, xf.position); var depths = new Vector_a2j_Number(); var diveCount = 0; var intoIndex = parseInt((-1)); var outoIndex = parseInt((-1)); var lastSubmerged = false; var i = 0; for (i = 0; i < this.m_vertexCount; ++i) { depths[i] = b2Math.Dot(normalL, this.m_vertices[i]) - offsetL; var isSubmerged = depths[i] < (-Number.MIN_VALUE); if (i > 0) { if (isSubmerged) { if (!lastSubmerged) { intoIndex = i - 1; diveCount++; } } else { if (lastSubmerged) { outoIndex = i - 1; diveCount++; } } } lastSubmerged = isSubmerged; } switch (diveCount) { case 0: if (lastSubmerged) { var md = new b2MassData(); this.ComputeMass(md, 1); c.SetV(b2Math.MulX(xf, md.center)); return md.mass; } else { return 0; } break; case 1: if (intoIndex == (-1)) { intoIndex = this.m_vertexCount - 1; } else { outoIndex = this.m_vertexCount - 1; } break; } var intoIndex2 = parseInt((intoIndex + 1) % this.m_vertexCount); var outoIndex2 = parseInt((outoIndex + 1) % this.m_vertexCount); var intoLamdda = (0 - depths[intoIndex]) / (depths[intoIndex2] - depths[intoIndex]); var outoLamdda = (0 - depths[outoIndex]) / (depths[outoIndex2] - depths[outoIndex]); var intoVec = new b2Vec2(this.m_vertices[intoIndex].x * (1 - intoLamdda) + this.m_vertices[intoIndex2].x * intoLamdda, this.m_vertices[intoIndex].y * (1 - intoLamdda) + this.m_vertices[intoIndex2].y * intoLamdda); var outoVec = new b2Vec2(this.m_vertices[outoIndex].x * (1 - outoLamdda) + this.m_vertices[outoIndex2].x * outoLamdda, this.m_vertices[outoIndex].y * (1 - outoLamdda) + this.m_vertices[outoIndex2].y * outoLamdda); var area = 0; var center = new b2Vec2(); var p2 = this.m_vertices[intoIndex2]; var p3; i = intoIndex2; while (i != outoIndex2) { i = (i + 1) % this.m_vertexCount; if (i == outoIndex2) p3 = outoVec; else p3 = this.m_vertices[i]; var triangleArea = 0.5 * ((p2.x - intoVec.x) * (p3.y - intoVec.y) - (p2.y - intoVec.y) * (p3.x - intoVec.x)); area += triangleArea; center.x += triangleArea * (intoVec.x + p2.x + p3.x) / 3; center.y += triangleArea * (intoVec.y + p2.y + p3.y) / 3; p2 = p3; } center.Multiply(1 / area); c.SetV(b2Math.MulX(xf, center)); return area; } b2PolygonShape.prototype.GetVertexCount = function () { return this.m_vertexCount; } b2PolygonShape.prototype.GetVertices = function () { return this.m_vertices; } b2PolygonShape.prototype.GetNormals = function () { return this.m_normals; } b2PolygonShape.prototype.GetSupport = function (d) { var bestIndex = 0; var bestValue = this.m_vertices[0].x * d.x + this.m_vertices[0].y * d.y; for (var i = 1; i < this.m_vertexCount; ++i) { var value = this.m_vertices[i].x * d.x + this.m_vertices[i].y * d.y; if (value > bestValue) { bestIndex = i; bestValue = value; } } return bestIndex; } b2PolygonShape.prototype.GetSupportVertex = function (d) { var bestIndex = 0; var bestValue = this.m_vertices[0].x * d.x + this.m_vertices[0].y * d.y; for (var i = 1; i < this.m_vertexCount; ++i) { var value = this.m_vertices[i].x * d.x + this.m_vertices[i].y * d.y; if (value > bestValue) { bestIndex = i; bestValue = value; } } return this.m_vertices[bestIndex]; } b2PolygonShape.prototype.Validate = function () { return false; } b2PolygonShape.prototype.b2PolygonShape = function () { this.__super.b2Shape.call(this); this.m_type = b2Shape.e_polygonShape; this.m_centroid = new b2Vec2(); this.m_vertices = new Vector(); this.m_normals = new Vector(); } b2PolygonShape.prototype.Reserve = function (count) { if (count === undefined) count = 0; for (var i = parseInt(this.m_vertices.length); i < count; i++) { this.m_vertices[i] = new b2Vec2(); this.m_normals[i] = new b2Vec2(); } } b2PolygonShape.ComputeCentroid = function (vs, count) { if (count === undefined) count = 0; var c = new b2Vec2(); var area = 0.0; var p1X = 0.0; var p1Y = 0.0; var inv3 = 1.0 / 3.0; for (var i = 0; i < count; ++i) { var p2 = vs[i]; var p3 = i + 1 < count ? vs[parseInt(i + 1)] : vs[0]; var e1X = p2.x - p1X; var e1Y = p2.y - p1Y; var e2X = p3.x - p1X; var e2Y = p3.y - p1Y; var D = (e1X * e2Y - e1Y * e2X); var triangleArea = 0.5 * D;area += triangleArea; c.x += triangleArea * inv3 * (p1X + p2.x + p3.x); c.y += triangleArea * inv3 * (p1Y + p2.y + p3.y); } c.x *= 1.0 / area; c.y *= 1.0 / area; return c; } b2PolygonShape.ComputeOBB = function (obb, vs, count) { if (count === undefined) count = 0; var i = 0; var p = new Vector(count + 1); for (i = 0; i < count; ++i) { p[i] = vs[i]; } p[count] = p[0]; var minArea = Number.MAX_VALUE; for (i = 1; i <= count; ++i) { var root = p[parseInt(i - 1)]; var uxX = p[i].x - root.x; var uxY = p[i].y - root.y; var length = Math.sqrt(uxX * uxX + uxY * uxY); uxX /= length; uxY /= length; var uyX = (-uxY); var uyY = uxX; var lowerX = Number.MAX_VALUE; var lowerY = Number.MAX_VALUE; var upperX = (-Number.MAX_VALUE); var upperY = (-Number.MAX_VALUE); for (var j = 0; j < count; ++j) { var dX = p[j].x - root.x; var dY = p[j].y - root.y; var rX = (uxX * dX + uxY * dY); var rY = (uyX * dX + uyY * dY); if (rX < lowerX) lowerX = rX; if (rY < lowerY) lowerY = rY; if (rX > upperX) upperX = rX; if (rY > upperY) upperY = rY; } var area = (upperX - lowerX) * (upperY - lowerY); if (area < 0.95 * minArea) { minArea = area; obb.R.col1.x = uxX; obb.R.col1.y = uxY; obb.R.col2.x = uyX; obb.R.col2.y = uyY; var centerX = 0.5 * (lowerX + upperX); var centerY = 0.5 * (lowerY + upperY); var tMat = obb.R; obb.center.x = root.x + (tMat.col1.x * centerX + tMat.col2.x * centerY); obb.center.y = root.y + (tMat.col1.y * centerX + tMat.col2.y * centerY); obb.extents.x = 0.5 * (upperX - lowerX); obb.extents.y = 0.5 * (upperY - lowerY); } } } Box2D.postDefs.push(function () { Box2D.Collision.Shapes.b2PolygonShape.s_mat = new b2Mat22(); }); b2Shape.b2Shape = function () {}; b2Shape.prototype.Copy = function () { return null; } b2Shape.prototype.Set = function (other) { this.m_radius = other.m_radius; } b2Shape.prototype.GetType = function () { return this.m_type; } b2Shape.prototype.TestPoint = function (xf, p) { return false; } b2Shape.prototype.RayCast = function (output, input, transform) { return false; } b2Shape.prototype.ComputeAABB = function (aabb, xf) {} b2Shape.prototype.ComputeMass = function (massData, density) { if (density === undefined) density = 0; } b2Shape.prototype.ComputeSubmergedArea = function (normal, offset, xf, c) { if (offset === undefined) offset = 0; return 0; } b2Shape.TestOverlap = function (shape1, transform1, shape2, transform2) { var input = new b2DistanceInput(); input.proxyA = new b2DistanceProxy(); input.proxyA.Set(shape1); input.proxyB = new b2DistanceProxy(); input.proxyB.Set(shape2); input.transformA = transform1; input.transformB = transform2; input.useRadii = true; var simplexCache = new b2SimplexCache(); simplexCache.count = 0; var output = new b2DistanceOutput(); b2Distance.Distance(output, simplexCache, input); return output.distance < 10.0 * Number.MIN_VALUE; } b2Shape.prototype.b2Shape = function () { this.m_type = b2Shape.e_unknownShape; this.m_radius = b2Settings.b2_linearSlop; } Box2D.postDefs.push(function () { Box2D.Collision.Shapes.b2Shape.e_unknownShape = parseInt((-1)); Box2D.Collision.Shapes.b2Shape.e_circleShape = 0; Box2D.Collision.Shapes.b2Shape.e_polygonShape = 1; Box2D.Collision.Shapes.b2Shape.e_edgeShape = 2; Box2D.Collision.Shapes.b2Shape.e_shapeTypeCount = 3; Box2D.Collision.Shapes.b2Shape.e_hitCollide = 1; Box2D.Collision.Shapes.b2Shape.e_missCollide = 0; Box2D.Collision.Shapes.b2Shape.e_startsInsideCollide = parseInt((-1)); }); })(); (function () { var b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3; b2Color.b2Color = function () { this._r = 0; this._g = 0; this._b = 0; }; b2Color.prototype.b2Color = function (rr, gg, bb) { if (rr === undefined) rr = 0; if (gg === undefined) gg = 0; if (bb === undefined) bb = 0; this._r = Box2D.parseUInt(255 * b2Math.Clamp(rr, 0.0, 1.0)); this._g = Box2D.parseUInt(255 * b2Math.Clamp(gg, 0.0, 1.0)); this._b = Box2D.parseUInt(255 * b2Math.Clamp(bb, 0.0, 1.0)); } b2Color.prototype.Set = function (rr, gg, bb) { if (rr === undefined) rr = 0; if (gg === undefined) gg = 0; if (bb === undefined) bb = 0; this._r = Box2D.parseUInt(255 * b2Math.Clamp(rr, 0.0, 1.0)); this._g = Box2D.parseUInt(255 * b2Math.Clamp(gg, 0.0, 1.0)); this._b = Box2D.parseUInt(255 * b2Math.Clamp(bb, 0.0, 1.0)); } Object.defineProperty(b2Color.prototype, 'r', { enumerable: false, configurable: true, set: function (rr) { if (rr === undefined) rr = 0; this._r = Box2D.parseUInt(255 * b2Math.Clamp(rr, 0.0, 1.0)); } }); Object.defineProperty(b2Color.prototype, 'g', { enumerable: false, configurable: true, set: function (gg) { if (gg === undefined) gg = 0; this._g = Box2D.parseUInt(255 * b2Math.Clamp(gg, 0.0, 1.0)); } }); Object.defineProperty(b2Color.prototype, 'b', { enumerable: false, configurable: true, set: function (bb) { if (bb === undefined) bb = 0; this._b = Box2D.parseUInt(255 * b2Math.Clamp(bb, 0.0, 1.0)); } }); Object.defineProperty(b2Color.prototype, 'color', { enumerable: false, configurable: true, get: function () { return (this._r << 16) | (this._g << 8) | (this._b); } }); b2Settings.b2Settings = function () {}; b2Settings.b2MixFriction = function (friction1, friction2) { if (friction1 === undefined) friction1 = 0; if (friction2 === undefined) friction2 = 0; return Math.sqrt(friction1 * friction2); } b2Settings.b2MixRestitution = function (restitution1, restitution2) { if (restitution1 === undefined) restitution1 = 0; if (restitution2 === undefined) restitution2 = 0; return restitution1 > restitution2 ? restitution1 : restitution2; } b2Settings.b2Assert = function (a) { if (!a) { throw "Assertion Failed"; } } Box2D.postDefs.push(function () { Box2D.Common.b2Settings.VERSION = "2.1alpha"; Box2D.Common.b2Settings.USHRT_MAX = 0x0000ffff; Box2D.Common.b2Settings.b2_pi = Math.PI; Box2D.Common.b2Settings.b2_maxManifoldPoints = 2; Box2D.Common.b2Settings.b2_aabbExtension = 0.1; Box2D.Common.b2Settings.b2_aabbMultiplier = 2.0; Box2D.Common.b2Settings.b2_polygonRadius = 2.0 * b2Settings.b2_linearSlop; Box2D.Common.b2Settings.b2_linearSlop = 0.005; Box2D.Common.b2Settings.b2_angularSlop = 2.0 / 180.0 * b2Settings.b2_pi; Box2D.Common.b2Settings.b2_toiSlop = 8.0 * b2Settings.b2_linearSlop; Box2D.Common.b2Settings.b2_maxTOIContactsPerIsland = 32; Box2D.Common.b2Settings.b2_maxTOIJointsPerIsland = 32; Box2D.Common.b2Settings.b2_velocityThreshold = 1.0; Box2D.Common.b2Settings.b2_maxLinearCorrection = 0.2; Box2D.Common.b2Settings.b2_maxAngularCorrection = 8.0 / 180.0 * b2Settings.b2_pi; Box2D.Common.b2Settings.b2_maxTranslation = 20.0; Box2D.Common.b2Settings.b2_maxTranslationSquared = b2Settings.b2_maxTranslation * b2Settings.b2_maxTranslation; Box2D.Common.b2Settings.b2_maxRotation = 0.5 * b2Settings.b2_pi; Box2D.Common.b2Settings.b2_maxRotationSquared = b2Settings.b2_maxRotation * b2Settings.b2_maxRotation; Box2D.Common.b2Settings.b2_contactBaumgarte = 0.2; Box2D.Common.b2Settings.b2_timeToSleep = 0.5; Box2D.Common.b2Settings.b2_linearSleepTolerance = 0.01; Box2D.Common.b2Settings.b2_angularSleepTolerance = 2.0 / 180.0 * b2Settings.b2_pi; }); })(); (function () { var b2AABB = Box2D.Collision.b2AABB, b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3; b2Mat22.b2Mat22 = function () { this.col1 = new b2Vec2(); this.col2 = new b2Vec2(); }; b2Mat22.prototype.b2Mat22 = function () { this.SetIdentity(); } b2Mat22.FromAngle = function (angle) { if (angle === undefined) angle = 0; var mat = new b2Mat22(); mat.Set(angle); return mat; } b2Mat22.FromVV = function (c1, c2) { var mat = new b2Mat22(); mat.SetVV(c1, c2); return mat; } b2Mat22.prototype.Set = function (angle) { if (angle === undefined) angle = 0; var c = Math.cos(angle); var s = Math.sin(angle); this.col1.x = c; this.col2.x = (-s); this.col1.y = s; this.col2.y = c; } b2Mat22.prototype.SetVV = function (c1, c2) { this.col1.SetV(c1); this.col2.SetV(c2); } b2Mat22.prototype.Copy = function () { var mat = new b2Mat22(); mat.SetM(this); return mat; } b2Mat22.prototype.SetM = function (m) { this.col1.SetV(m.col1); this.col2.SetV(m.col2); } b2Mat22.prototype.AddM = function (m) { this.col1.x += m.col1.x; this.col1.y += m.col1.y; this.col2.x += m.col2.x; this.col2.y += m.col2.y; } b2Mat22.prototype.SetIdentity = function () { this.col1.x = 1.0; this.col2.x = 0.0; this.col1.y = 0.0; this.col2.y = 1.0; } b2Mat22.prototype.SetZero = function () { this.col1.x = 0.0; this.col2.x = 0.0; this.col1.y = 0.0; this.col2.y = 0.0; } b2Mat22.prototype.GetAngle = function () { return Math.atan2(this.col1.y, this.col1.x); } b2Mat22.prototype.GetInverse = function (out) { var a = this.col1.x; var b = this.col2.x; var c = this.col1.y; var d = this.col2.y; var det = a * d - b * c; if (det != 0.0) { det = 1.0 / det; } out.col1.x = det * d; out.col2.x = (-det * b); out.col1.y = (-det * c); out.col2.y = det * a; return out; } b2Mat22.prototype.Solve = function (out, bX, bY) { if (bX === undefined) bX = 0; if (bY === undefined) bY = 0; var a11 = this.col1.x; var a12 = this.col2.x; var a21 = this.col1.y; var a22 = this.col2.y; var det = a11 * a22 - a12 * a21; if (det != 0.0) { det = 1.0 / det; } out.x = det * (a22 * bX - a12 * bY); out.y = det * (a11 * bY - a21 * bX); return out; } b2Mat22.prototype.Abs = function () { this.col1.Abs(); this.col2.Abs(); } b2Mat33.b2Mat33 = function () { this.col1 = new b2Vec3(); this.col2 = new b2Vec3(); this.col3 = new b2Vec3(); }; b2Mat33.prototype.b2Mat33 = function (c1, c2, c3) { if (c1 === undefined) c1 = null; if (c2 === undefined) c2 = null; if (c3 === undefined) c3 = null; if (!c1 && !c2 && !c3) { this.col1.SetZero(); this.col2.SetZero(); this.col3.SetZero(); } else { this.col1.SetV(c1); this.col2.SetV(c2); this.col3.SetV(c3); } } b2Mat33.prototype.SetVVV = function (c1, c2, c3) { this.col1.SetV(c1); this.col2.SetV(c2); this.col3.SetV(c3); } b2Mat33.prototype.Copy = function () { return new b2Mat33(this.col1, this.col2, this.col3); } b2Mat33.prototype.SetM = function (m) { this.col1.SetV(m.col1); this.col2.SetV(m.col2); this.col3.SetV(m.col3); } b2Mat33.prototype.AddM = function (m) { this.col1.x += m.col1.x; this.col1.y += m.col1.y; this.col1.z += m.col1.z; this.col2.x += m.col2.x; this.col2.y += m.col2.y; this.col2.z += m.col2.z; this.col3.x += m.col3.x; this.col3.y += m.col3.y; this.col3.z += m.col3.z; } b2Mat33.prototype.SetIdentity = function () { this.col1.x = 1.0; this.col2.x = 0.0; this.col3.x = 0.0; this.col1.y = 0.0; this.col2.y = 1.0; this.col3.y = 0.0; this.col1.z = 0.0; this.col2.z = 0.0; this.col3.z = 1.0; } b2Mat33.prototype.SetZero = function () { this.col1.x = 0.0; this.col2.x = 0.0; this.col3.x = 0.0; this.col1.y = 0.0; this.col2.y = 0.0; this.col3.y = 0.0; this.col1.z = 0.0; this.col2.z = 0.0; this.col3.z = 0.0; } b2Mat33.prototype.Solve22 = function (out, bX, bY) { if (bX === undefined) bX = 0; if (bY === undefined) bY = 0; var a11 = this.col1.x; var a12 = this.col2.x; var a21 = this.col1.y; var a22 = this.col2.y; var det = a11 * a22 - a12 * a21; if (det != 0.0) { det = 1.0 / det; } out.x = det * (a22 * bX - a12 * bY); out.y = det * (a11 * bY - a21 * bX); return out; } b2Mat33.prototype.Solve33 = function (out, bX, bY, bZ) { if (bX === undefined) bX = 0; if (bY === undefined) bY = 0; if (bZ === undefined) bZ = 0; var a11 = this.col1.x; var a21 = this.col1.y; var a31 = this.col1.z; var a12 = this.col2.x; var a22 = this.col2.y; var a32 = this.col2.z; var a13 = this.col3.x; var a23 = this.col3.y; var a33 = this.col3.z; var det = a11 * (a22 * a33 - a32 * a23) + a21 * (a32 * a13 - a12 * a33) + a31 * (a12 * a23 - a22 * a13); if (det != 0.0) { det = 1.0 / det; } out.x = det * (bX * (a22 * a33 - a32 * a23) + bY * (a32 * a13 - a12 * a33) + bZ * (a12 * a23 - a22 * a13)); out.y = det * (a11 * (bY * a33 - bZ * a23) + a21 * (bZ * a13 - bX * a33) + a31 * (bX * a23 - bY * a13)); out.z = det * (a11 * (a22 * bZ - a32 * bY) + a21 * (a32 * bX - a12 * bZ) + a31 * (a12 * bY - a22 * bX)); return out; } b2Math.b2Math = function () {}; b2Math.IsValid = function (x) { if (x === undefined) x = 0; return isFinite(x); } b2Math.Dot = function (a, b) { return a.x * b.x + a.y * b.y; } b2Math.CrossVV = function (a, b) { return a.x * b.y - a.y * b.x; } b2Math.CrossVF = function (a, s) { if (s === undefined) s = 0; var v = new b2Vec2(s * a.y, (-s * a.x)); return v; } b2Math.CrossFV = function (s, a) { if (s === undefined) s = 0; var v = new b2Vec2((-s * a.y), s * a.x); return v; } b2Math.MulMV = function (A, v) { var u = new b2Vec2(A.col1.x * v.x + A.col2.x * v.y, A.col1.y * v.x + A.col2.y * v.y); return u; } b2Math.MulTMV = function (A, v) { var u = new b2Vec2(b2Math.Dot(v, A.col1), b2Math.Dot(v, A.col2)); return u; } b2Math.MulX = function (T, v) { var a = b2Math.MulMV(T.R, v); a.x += T.position.x; a.y += T.position.y; return a; } b2Math.MulXT = function (T, v) { var a = b2Math.SubtractVV(v, T.position); var tX = (a.x * T.R.col1.x + a.y * T.R.col1.y); a.y = (a.x * T.R.col2.x + a.y * T.R.col2.y); a.x = tX; return a; } b2Math.AddVV = function (a, b) { var v = new b2Vec2(a.x + b.x, a.y + b.y); return v; } b2Math.SubtractVV = function (a, b) { var v = new b2Vec2(a.x - b.x, a.y - b.y); return v; } b2Math.Distance = function (a, b) { var cX = a.x - b.x; var cY = a.y - b.y; return Math.sqrt(cX * cX + cY * cY); } b2Math.DistanceSquared = function (a, b) { var cX = a.x - b.x; var cY = a.y - b.y; return (cX * cX + cY * cY); } b2Math.MulFV = function (s, a) { if (s === undefined) s = 0; var v = new b2Vec2(s * a.x, s * a.y); return v; } b2Math.AddMM = function (A, B) { var C = b2Mat22.FromVV(b2Math.AddVV(A.col1, B.col1), b2Math.AddVV(A.col2, B.col2)); return C; } b2Math.MulMM = function (A, B) { var C = b2Mat22.FromVV(b2Math.MulMV(A, B.col1), b2Math.MulMV(A, B.col2)); return C; } b2Math.MulTMM = function (A, B) { var c1 = new b2Vec2(b2Math.Dot(A.col1, B.col1), b2Math.Dot(A.col2, B.col1)); var c2 = new b2Vec2(b2Math.Dot(A.col1, B.col2), b2Math.Dot(A.col2, B.col2)); var C = b2Mat22.FromVV(c1, c2); return C; } b2Math.Abs = function (a) { if (a === undefined) a = 0; return a > 0.0 ? a : (-a); } b2Math.AbsV = function (a) { var b = new b2Vec2(b2Math.Abs(a.x), b2Math.Abs(a.y)); return b; } b2Math.AbsM = function (A) { var B = b2Mat22.FromVV(b2Math.AbsV(A.col1), b2Math.AbsV(A.col2)); return B; } b2Math.Min = function (a, b) { if (a === undefined) a = 0; if (b === undefined) b = 0; return a < b ? a : b; } b2Math.MinV = function (a, b) { var c = new b2Vec2(b2Math.Min(a.x, b.x), b2Math.Min(a.y, b.y)); return c; } b2Math.Max = function (a, b) { if (a === undefined) a = 0; if (b === undefined) b = 0; return a > b ? a : b; } b2Math.MaxV = function (a, b) { var c = new b2Vec2(b2Math.Max(a.x, b.x), b2Math.Max(a.y, b.y)); return c; } b2Math.Clamp = function (a, low, high) { if (a === undefined) a = 0; if (low === undefined) low = 0; if (high === undefined) high = 0; return a < low ? low : a > high ? high : a; } b2Math.ClampV = function (a, low, high) { return b2Math.MaxV(low, b2Math.MinV(a, high)); } b2Math.Swap = function (a, b) { var tmp = a[0]; a[0] = b[0]; b[0] = tmp; } b2Math.Random = function () { return Math.random() * 2 - 1; } b2Math.RandomRange = function (lo, hi) { if (lo === undefined) lo = 0; if (hi === undefined) hi = 0; var r = Math.random(); r = (hi - lo) * r + lo; return r; } b2Math.NextPowerOfTwo = function (x) { if (x === undefined) x = 0; x |= (x >> 1) & 0x7FFFFFFF; x |= (x >> 2) & 0x3FFFFFFF; x |= (x >> 4) & 0x0FFFFFFF; x |= (x >> 8) & 0x00FFFFFF; x |= (x >> 16) & 0x0000FFFF; return x + 1; } b2Math.IsPowerOfTwo = function (x) { if (x === undefined) x = 0; var result = x > 0 && (x & (x - 1)) == 0; return result; } Box2D.postDefs.push(function () { Box2D.Common.Math.b2Math.b2Vec2_zero = new b2Vec2(0.0, 0.0); Box2D.Common.Math.b2Math.b2Mat22_identity = b2Mat22.FromVV(new b2Vec2(1.0, 0.0), new b2Vec2(0.0, 1.0)); Box2D.Common.Math.b2Math.b2Transform_identity = new b2Transform(b2Math.b2Vec2_zero, b2Math.b2Mat22_identity); }); b2Sweep.b2Sweep = function () { this.localCenter = new b2Vec2(); this.c0 = new b2Vec2; this.c = new b2Vec2(); }; b2Sweep.prototype.Set = function (other) { this.localCenter.SetV(other.localCenter); this.c0.SetV(other.c0); this.c.SetV(other.c); this.a0 = other.a0; this.a = other.a; this.t0 = other.t0; } b2Sweep.prototype.Copy = function () { var copy = new b2Sweep(); copy.localCenter.SetV(this.localCenter); copy.c0.SetV(this.c0); copy.c.SetV(this.c); copy.a0 = this.a0; copy.a = this.a; copy.t0 = this.t0; return copy; } b2Sweep.prototype.GetTransform = function (xf, alpha) { if (alpha === undefined) alpha = 0; xf.position.x = (1.0 - alpha) * this.c0.x + alpha * this.c.x; xf.position.y = (1.0 - alpha) * this.c0.y + alpha * this.c.y; var angle = (1.0 - alpha) * this.a0 + alpha * this.a; xf.R.Set(angle); var tMat = xf.R; xf.position.x -= (tMat.col1.x * this.localCenter.x + tMat.col2.x * this.localCenter.y); xf.position.y -= (tMat.col1.y * this.localCenter.x + tMat.col2.y * this.localCenter.y); } b2Sweep.prototype.Advance = function (t) { if (t === undefined) t = 0; if (this.t0 < t && 1.0 - this.t0 > Number.MIN_VALUE) { var alpha = (t - this.t0) / (1.0 - this.t0); this.c0.x = (1.0 - alpha) * this.c0.x + alpha * this.c.x; this.c0.y = (1.0 - alpha) * this.c0.y + alpha * this.c.y; this.a0 = (1.0 - alpha) * this.a0 + alpha * this.a; this.t0 = t; } } b2Transform.b2Transform = function () { this.position = new b2Vec2; this.R = new b2Mat22(); }; b2Transform.prototype.b2Transform = function (pos, r) { if (pos === undefined) pos = null; if (r === undefined) r = null; if (pos) { this.position.SetV(pos); this.R.SetM(r); } } b2Transform.prototype.Initialize = function (pos, r) { this.position.SetV(pos); this.R.SetM(r); } b2Transform.prototype.SetIdentity = function () { this.position.SetZero(); this.R.SetIdentity(); } b2Transform.prototype.Set = function (x) { this.position.SetV(x.position); this.R.SetM(x.R); } b2Transform.prototype.GetAngle = function () { return Math.atan2(this.R.col1.y, this.R.col1.x); } b2Vec2.b2Vec2 = function () {}; b2Vec2.prototype.b2Vec2 = function (x_, y_) { if (x_ === undefined) x_ = 0; if (y_ === undefined) y_ = 0; this.x = x_; this.y = y_; } b2Vec2.prototype.SetZero = function () { this.x = 0.0; this.y = 0.0; } b2Vec2.prototype.Set = function (x_, y_) { if (x_ === undefined) x_ = 0; if (y_ === undefined) y_ = 0; this.x = x_; this.y = y_; } b2Vec2.prototype.SetV = function (v) { this.x = v.x; this.y = v.y; } b2Vec2.prototype.GetNegative = function () { return new b2Vec2((-this.x), (-this.y)); } b2Vec2.prototype.NegativeSelf = function () { this.x = (-this.x); this.y = (-this.y); } b2Vec2.Make = function (x_, y_) { if (x_ === undefined) x_ = 0; if (y_ === undefined) y_ = 0; return new b2Vec2(x_, y_); } b2Vec2.prototype.Copy = function () { return new b2Vec2(this.x, this.y); } b2Vec2.prototype.Add = function (v) { this.x += v.x; this.y += v.y; } b2Vec2.prototype.Subtract = function (v) { this.x -= v.x; this.y -= v.y; } b2Vec2.prototype.Multiply = function (a) { if (a === undefined) a = 0; this.x *= a; this.y *= a; } b2Vec2.prototype.MulM = function (A) { var tX = this.x; this.x = A.col1.x * tX + A.col2.x * this.y; this.y = A.col1.y * tX + A.col2.y * this.y; } b2Vec2.prototype.MulTM = function (A) { var tX = b2Math.Dot(this, A.col1); this.y = b2Math.Dot(this, A.col2); this.x = tX; } b2Vec2.prototype.CrossVF = function (s) { if (s === undefined) s = 0; var tX = this.x; this.x = s * this.y; this.y = (-s * tX); } b2Vec2.prototype.CrossFV = function (s) { if (s === undefined) s = 0; var tX = this.x; this.x = (-s * this.y); this.y = s * tX; } b2Vec2.prototype.MinV = function (b) { this.x = this.x < b.x ? this.x : b.x; this.y = this.y < b.y ? this.y : b.y; } b2Vec2.prototype.MaxV = function (b) { this.x = this.x > b.x ? this.x : b.x; this.y = this.y > b.y ? this.y : b.y; } b2Vec2.prototype.Abs = function () { if (this.x < 0) this.x = (-this.x); if (this.y < 0) this.y = (-this.y); } b2Vec2.prototype.Length = function () { return Math.sqrt(this.x * this.x + this.y * this.y); } b2Vec2.prototype.LengthSquared = function () { return (this.x * this.x + this.y * this.y); } b2Vec2.prototype.Normalize = function () { var length = Math.sqrt(this.x * this.x + this.y * this.y); if (length < Number.MIN_VALUE) { return 0.0; } var invLength = 1.0 / length; this.x *= invLength; this.y *= invLength; return length; } b2Vec2.prototype.IsValid = function () { return b2Math.IsValid(this.x) && b2Math.IsValid(this.y); } b2Vec3.b2Vec3 = function () {}; b2Vec3.prototype.b2Vec3 = function (x, y, z) { if (x === undefined) x = 0; if (y === undefined) y = 0; if (z === undefined) z = 0; this.x = x; this.y = y; this.z = z; } b2Vec3.prototype.SetZero = function () { this.x = this.y = this.z = 0.0; } b2Vec3.prototype.Set = function (x, y, z) { if (x === undefined) x = 0; if (y === undefined) y = 0; if (z === undefined) z = 0; this.x = x; this.y = y; this.z = z; } b2Vec3.prototype.SetV = function (v) { this.x = v.x; this.y = v.y; this.z = v.z; } b2Vec3.prototype.GetNegative = function () { return new b2Vec3((-this.x), (-this.y), (-this.z)); } b2Vec3.prototype.NegativeSelf = function () { this.x = (-this.x); this.y = (-this.y); this.z = (-this.z); } b2Vec3.prototype.Copy = function () { return new b2Vec3(this.x, this.y, this.z); } b2Vec3.prototype.Add = function (v) { this.x += v.x; this.y += v.y; this.z += v.z; } b2Vec3.prototype.Subtract = function (v) { this.x -= v.x; this.y -= v.y; this.z -= v.z; } b2Vec3.prototype.Multiply = function (a) { if (a === undefined) a = 0; this.x *= a; this.y *= a; this.z *= a; } })(); (function () { var b2ControllerEdge = Box2D.Dynamics.Controllers.b2ControllerEdge, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2AABB = Box2D.Collision.b2AABB, b2Bound = Box2D.Collision.b2Bound, b2BoundValues = Box2D.Collision.b2BoundValues, b2Collision = Box2D.Collision.b2Collision, b2ContactID = Box2D.Collision.b2ContactID, b2ContactPoint = Box2D.Collision.b2ContactPoint, b2Distance = Box2D.Collision.b2Distance, b2DistanceInput = Box2D.Collision.b2DistanceInput, b2DistanceOutput = Box2D.Collision.b2DistanceOutput, b2DistanceProxy = Box2D.Collision.b2DistanceProxy, b2DynamicTree = Box2D.Collision.b2DynamicTree, b2DynamicTreeBroadPhase = Box2D.Collision.b2DynamicTreeBroadPhase, b2DynamicTreeNode = Box2D.Collision.b2DynamicTreeNode, b2DynamicTreePair = Box2D.Collision.b2DynamicTreePair, b2Manifold = Box2D.Collision.b2Manifold, b2ManifoldPoint = Box2D.Collision.b2ManifoldPoint, b2Point = Box2D.Collision.b2Point, b2RayCastInput = Box2D.Collision.b2RayCastInput, b2RayCastOutput = Box2D.Collision.b2RayCastOutput, b2Segment = Box2D.Collision.b2Segment, b2SeparationFunction = Box2D.Collision.b2SeparationFunction, b2Simplex = Box2D.Collision.b2Simplex, b2SimplexCache = Box2D.Collision.b2SimplexCache, b2SimplexVertex = Box2D.Collision.b2SimplexVertex, b2TimeOfImpact = Box2D.Collision.b2TimeOfImpact, b2TOIInput = Box2D.Collision.b2TOIInput, b2WorldManifold = Box2D.Collision.b2WorldManifold, ClipVertex = Box2D.Collision.ClipVertex, Features = Box2D.Collision.Features, IBroadPhase = Box2D.Collision.IBroadPhase, b2CircleShape = Box2D.Collision.Shapes.b2CircleShape, b2EdgeChainDef = Box2D.Collision.Shapes.b2EdgeChainDef, b2EdgeShape = Box2D.Collision.Shapes.b2EdgeShape, b2MassData = Box2D.Collision.Shapes.b2MassData, b2PolygonShape = Box2D.Collision.Shapes.b2PolygonShape, b2Shape = Box2D.Collision.Shapes.b2Shape, b2Body = Box2D.Dynamics.b2Body, b2BodyDef = Box2D.Dynamics.b2BodyDef, b2ContactFilter = Box2D.Dynamics.b2ContactFilter, b2ContactImpulse = Box2D.Dynamics.b2ContactImpulse, b2ContactListener = Box2D.Dynamics.b2ContactListener, b2ContactManager = Box2D.Dynamics.b2ContactManager, b2DebugDraw = Box2D.Dynamics.b2DebugDraw, b2DestructionListener = Box2D.Dynamics.b2DestructionListener, b2FilterData = Box2D.Dynamics.b2FilterData, b2Fixture = Box2D.Dynamics.b2Fixture, b2FixtureDef = Box2D.Dynamics.b2FixtureDef, b2Island = Box2D.Dynamics.b2Island, b2TimeStep = Box2D.Dynamics.b2TimeStep, b2World = Box2D.Dynamics.b2World, b2CircleContact = Box2D.Dynamics.Contacts.b2CircleContact, b2Contact = Box2D.Dynamics.Contacts.b2Contact, b2ContactConstraint = Box2D.Dynamics.Contacts.b2ContactConstraint, b2ContactConstraintPoint = Box2D.Dynamics.Contacts.b2ContactConstraintPoint, b2ContactEdge = Box2D.Dynamics.Contacts.b2ContactEdge, b2ContactFactory = Box2D.Dynamics.Contacts.b2ContactFactory, b2ContactRegister = Box2D.Dynamics.Contacts.b2ContactRegister, b2ContactResult = Box2D.Dynamics.Contacts.b2ContactResult, b2ContactSolver = Box2D.Dynamics.Contacts.b2ContactSolver, b2EdgeAndCircleContact = Box2D.Dynamics.Contacts.b2EdgeAndCircleContact, b2NullContact = Box2D.Dynamics.Contacts.b2NullContact, b2PolyAndCircleContact = Box2D.Dynamics.Contacts.b2PolyAndCircleContact, b2PolyAndEdgeContact = Box2D.Dynamics.Contacts.b2PolyAndEdgeContact, b2PolygonContact = Box2D.Dynamics.Contacts.b2PolygonContact, b2PositionSolverManifold = Box2D.Dynamics.Contacts.b2PositionSolverManifold, b2Controller = Box2D.Dynamics.Controllers.b2Controller, b2DistanceJoint = Box2D.Dynamics.Joints.b2DistanceJoint, b2DistanceJointDef = Box2D.Dynamics.Joints.b2DistanceJointDef, b2FrictionJoint = Box2D.Dynamics.Joints.b2FrictionJoint, b2FrictionJointDef = Box2D.Dynamics.Joints.b2FrictionJointDef, b2GearJoint = Box2D.Dynamics.Joints.b2GearJoint, b2GearJointDef = Box2D.Dynamics.Joints.b2GearJointDef, b2Jacobian = Box2D.Dynamics.Joints.b2Jacobian, b2Joint = Box2D.Dynamics.Joints.b2Joint, b2JointDef = Box2D.Dynamics.Joints.b2JointDef, b2JointEdge = Box2D.Dynamics.Joints.b2JointEdge, b2LineJoint = Box2D.Dynamics.Joints.b2LineJoint, b2LineJointDef = Box2D.Dynamics.Joints.b2LineJointDef, b2MouseJoint = Box2D.Dynamics.Joints.b2MouseJoint, b2MouseJointDef = Box2D.Dynamics.Joints.b2MouseJointDef, b2PrismaticJoint = Box2D.Dynamics.Joints.b2PrismaticJoint, b2PrismaticJointDef = Box2D.Dynamics.Joints.b2PrismaticJointDef, b2PulleyJoint = Box2D.Dynamics.Joints.b2PulleyJoint, b2PulleyJointDef = Box2D.Dynamics.Joints.b2PulleyJointDef, b2RevoluteJoint = Box2D.Dynamics.Joints.b2RevoluteJoint, b2RevoluteJointDef = Box2D.Dynamics.Joints.b2RevoluteJointDef, b2WeldJoint = Box2D.Dynamics.Joints.b2WeldJoint, b2WeldJointDef = Box2D.Dynamics.Joints.b2WeldJointDef; b2Body.b2Body = function () { this.m_xf = new b2Transform(); this.m_sweep = new b2Sweep(); this.m_linearVelocity = new b2Vec2(); this.m_force = new b2Vec2(); }; b2Body.prototype.connectEdges = function (s1, s2, angle1) { if (angle1 === undefined) angle1 = 0; var angle2 = Math.atan2(s2.GetDirectionVector().y, s2.GetDirectionVector().x); var coreOffset = Math.tan((angle2 - angle1) * 0.5); var core = b2Math.MulFV(coreOffset, s2.GetDirectionVector()); core = b2Math.SubtractVV(core, s2.GetNormalVector()); core = b2Math.MulFV(b2Settings.b2_toiSlop, core); core = b2Math.AddVV(core, s2.GetVertex1()); var cornerDir = b2Math.AddVV(s1.GetDirectionVector(), s2.GetDirectionVector()); cornerDir.Normalize(); var convex = b2Math.Dot(s1.GetDirectionVector(), s2.GetNormalVector()) > 0.0; s1.SetNextEdge(s2, core, cornerDir, convex); s2.SetPrevEdge(s1, core, cornerDir, convex); return angle2; } b2Body.prototype.CreateFixture = function (def) { if (this.m_world.IsLocked() == true) { return null; } var fixture = new b2Fixture(); fixture.Create(this, this.m_xf, def); if (this.m_flags & b2Body.e_activeFlag) { var broadPhase = this.m_world.m_contactManager.m_broadPhase; fixture.CreateProxy(broadPhase, this.m_xf); } fixture.m_next = this.m_fixtureList; this.m_fixtureList = fixture; ++this.m_fixtureCount; fixture.m_body = this; if (fixture.m_density > 0.0) { this.ResetMassData(); } this.m_world.m_flags |= b2World.e_newFixture; return fixture; } b2Body.prototype.CreateFixture2 = function (shape, density) { if (density === undefined) density = 0.0; var def = new b2FixtureDef(); def.shape = shape; def.density = density; return this.CreateFixture(def); } b2Body.prototype.DestroyFixture = function (fixture) { if (this.m_world.IsLocked() == true) { return; } var node = this.m_fixtureList; var ppF = null; var found = false; while (node != null) { if (node == fixture) { if (ppF) ppF.m_next = fixture.m_next; else this.m_fixtureList = fixture.m_next; found = true; break; } ppF = node; node = node.m_next; } var edge = this.m_contactList; while (edge) { var c = edge.contact; edge = edge.next; var fixtureA = c.GetFixtureA(); var fixtureB = c.GetFixtureB(); if (fixture == fixtureA || fixture == fixtureB) { this.m_world.m_contactManager.Destroy(c); } } if (this.m_flags & b2Body.e_activeFlag) { var broadPhase = this.m_world.m_contactManager.m_broadPhase; fixture.DestroyProxy(broadPhase); } else {} fixture.Destroy(); fixture.m_body = null; fixture.m_next = null; --this.m_fixtureCount; this.ResetMassData(); } b2Body.prototype.SetPositionAndAngle = function (position, angle) { if (angle === undefined) angle = 0; var f; if (this.m_world.IsLocked() == true) { return; } this.m_xf.R.Set(angle); this.m_xf.position.SetV(position); var tMat = this.m_xf.R; var tVec = this.m_sweep.localCenter; this.m_sweep.c.x = (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); this.m_sweep.c.y = (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); this.m_sweep.c.x += this.m_xf.position.x; this.m_sweep.c.y += this.m_xf.position.y; this.m_sweep.c0.SetV(this.m_sweep.c); this.m_sweep.a0 = this.m_sweep.a = angle; var broadPhase = this.m_world.m_contactManager.m_broadPhase; for (f = this.m_fixtureList; f; f = f.m_next) { f.Synchronize(broadPhase, this.m_xf, this.m_xf); } this.m_world.m_contactManager.FindNewContacts(); } b2Body.prototype.SetTransform = function (xf) { this.SetPositionAndAngle(xf.position, xf.GetAngle()); } b2Body.prototype.GetTransform = function () { return this.m_xf; } b2Body.prototype.GetPosition = function () { return this.m_xf.position; } b2Body.prototype.SetPosition = function (position) { this.SetPositionAndAngle(position, this.GetAngle()); } b2Body.prototype.GetAngle = function () { return this.m_sweep.a; } b2Body.prototype.SetAngle = function (angle) { if (angle === undefined) angle = 0; this.SetPositionAndAngle(this.GetPosition(), angle); } b2Body.prototype.GetWorldCenter = function () { return this.m_sweep.c; } b2Body.prototype.GetLocalCenter = function () { return this.m_sweep.localCenter; } b2Body.prototype.SetLinearVelocity = function (v) { if (this.m_type == b2Body.b2_staticBody) { return; } this.m_linearVelocity.SetV(v); } b2Body.prototype.GetLinearVelocity = function () { return this.m_linearVelocity; } b2Body.prototype.SetAngularVelocity = function (omega) { if (omega === undefined) omega = 0; if (this.m_type == b2Body.b2_staticBody) { return; } this.m_angularVelocity = omega; } b2Body.prototype.GetAngularVelocity = function () { return this.m_angularVelocity; } b2Body.prototype.GetDefinition = function () { var bd = new b2BodyDef(); bd.type = this.GetType(); bd.allowSleep = (this.m_flags & b2Body.e_allowSleepFlag) == b2Body.e_allowSleepFlag; bd.angle = this.GetAngle(); bd.angularDamping = this.m_angularDamping; bd.angularVelocity = this.m_angularVelocity; bd.fixedRotation = (this.m_flags & b2Body.e_fixedRotationFlag) == b2Body.e_fixedRotationFlag; bd.bullet = (this.m_flags & b2Body.e_bulletFlag) == b2Body.e_bulletFlag; bd.awake = (this.m_flags & b2Body.e_awakeFlag) == b2Body.e_awakeFlag; bd.linearDamping = this.m_linearDamping; bd.linearVelocity.SetV(this.GetLinearVelocity()); bd.position = this.GetPosition(); bd.userData = this.GetUserData(); return bd; } b2Body.prototype.ApplyForce = function (force, point) { if (this.m_type != b2Body.b2_dynamicBody) { return; } if (this.IsAwake() == false) { this.SetAwake(true); } this.m_force.x += force.x; this.m_force.y += force.y; this.m_torque += ((point.x - this.m_sweep.c.x) * force.y - (point.y - this.m_sweep.c.y) * force.x); } b2Body.prototype.ApplyTorque = function (torque) { if (torque === undefined) torque = 0; if (this.m_type != b2Body.b2_dynamicBody) { return; } if (this.IsAwake() == false) { this.SetAwake(true); } this.m_torque += torque; } b2Body.prototype.ApplyImpulse = function (impulse, point) { if (this.m_type != b2Body.b2_dynamicBody) { return; } if (this.IsAwake() == false) { this.SetAwake(true); } this.m_linearVelocity.x += this.m_invMass * impulse.x; this.m_linearVelocity.y += this.m_invMass * impulse.y; this.m_angularVelocity += this.m_invI * ((point.x - this.m_sweep.c.x) * impulse.y - (point.y - this.m_sweep.c.y) * impulse.x); } b2Body.prototype.Split = function (callback) { var linearVelocity = this.GetLinearVelocity().Copy(); var angularVelocity = this.GetAngularVelocity(); var center = this.GetWorldCenter(); var body1 = this; var body2 = this.m_world.CreateBody(this.GetDefinition()); var prev; for (var f = body1.m_fixtureList; f;) { if (callback(f)) { var next = f.m_next; if (prev) { prev.m_next = next; } else { body1.m_fixtureList = next; } body1.m_fixtureCount--; f.m_next = body2.m_fixtureList; body2.m_fixtureList = f; body2.m_fixtureCount++; f.m_body = body2; f = next; } else { prev = f; f = f.m_next; } } body1.ResetMassData(); body2.ResetMassData(); var center1 = body1.GetWorldCenter(); var center2 = body2.GetWorldCenter(); var velocity1 = b2Math.AddVV(linearVelocity, b2Math.CrossFV(angularVelocity, b2Math.SubtractVV(center1, center))); var velocity2 = b2Math.AddVV(linearVelocity, b2Math.CrossFV(angularVelocity, b2Math.SubtractVV(center2, center))); body1.SetLinearVelocity(velocity1); body2.SetLinearVelocity(velocity2); body1.SetAngularVelocity(angularVelocity); body2.SetAngularVelocity(angularVelocity); body1.SynchronizeFixtures(); body2.SynchronizeFixtures(); return body2; } b2Body.prototype.Merge = function (other) { var f; for (f = other.m_fixtureList; f;) { var next = f.m_next; other.m_fixtureCount--; f.m_next = this.m_fixtureList; this.m_fixtureList = f; this.m_fixtureCount++; f.m_body = body2; f = next; } body1.m_fixtureCount = 0; var body1 = this; var body2 = other; var center1 = body1.GetWorldCenter(); var center2 = body2.GetWorldCenter(); var velocity1 = body1.GetLinearVelocity().Copy(); var velocity2 = body2.GetLinearVelocity().Copy(); var angular1 = body1.GetAngularVelocity(); var angular = body2.GetAngularVelocity(); body1.ResetMassData(); this.SynchronizeFixtures(); } b2Body.prototype.GetMass = function () { return this.m_mass; } b2Body.prototype.GetInertia = function () { return this.m_I; } b2Body.prototype.GetMassData = function (data) { data.mass = this.m_mass; data.I = this.m_I; data.center.SetV(this.m_sweep.localCenter); } b2Body.prototype.SetMassData = function (massData) { b2Settings.b2Assert(this.m_world.IsLocked() == false); if (this.m_world.IsLocked() == true) { return; } if (this.m_type != b2Body.b2_dynamicBody) { return; } this.m_invMass = 0.0; this.m_I = 0.0; this.m_invI = 0.0; this.m_mass = massData.mass; if (this.m_mass <= 0.0) { this.m_mass = 1.0; } this.m_invMass = 1.0 / this.m_mass; if (massData.I > 0.0 && (this.m_flags & b2Body.e_fixedRotationFlag) == 0) { this.m_I = massData.I - this.m_mass * (massData.center.x * massData.center.x + massData.center.y * massData.center.y); this.m_invI = 1.0 / this.m_I; } var oldCenter = this.m_sweep.c.Copy(); this.m_sweep.localCenter.SetV(massData.center); this.m_sweep.c0.SetV(b2Math.MulX(this.m_xf, this.m_sweep.localCenter)); this.m_sweep.c.SetV(this.m_sweep.c0); this.m_linearVelocity.x += this.m_angularVelocity * (-(this.m_sweep.c.y - oldCenter.y)); this.m_linearVelocity.y += this.m_angularVelocity * (+(this.m_sweep.c.x - oldCenter.x)); } b2Body.prototype.ResetMassData = function () { this.m_mass = 0.0; this.m_invMass = 0.0; this.m_I = 0.0; this.m_invI = 0.0; this.m_sweep.localCenter.SetZero(); if (this.m_type == b2Body.b2_staticBody || this.m_type == b2Body.b2_kinematicBody) { return; } var center = b2Vec2.Make(0, 0); for (var f = this.m_fixtureList; f; f = f.m_next) { if (f.m_density == 0.0) { continue; } var massData = f.GetMassData(); this.m_mass += massData.mass; center.x += massData.center.x * massData.mass; center.y += massData.center.y * massData.mass; this.m_I += massData.I; } if (this.m_mass > 0.0) { this.m_invMass = 1.0 / this.m_mass; center.x *= this.m_invMass; center.y *= this.m_invMass; } else { this.m_mass = 1.0; this.m_invMass = 1.0; } if (this.m_I > 0.0 && (this.m_flags & b2Body.e_fixedRotationFlag) == 0) { this.m_I -= this.m_mass * (center.x * center.x + center.y * center.y); this.m_I *= this.m_inertiaScale; b2Settings.b2Assert(this.m_I > 0); this.m_invI = 1.0 / this.m_I; } else { this.m_I = 0.0; this.m_invI = 0.0; } var oldCenter = this.m_sweep.c.Copy(); this.m_sweep.localCenter.SetV(center); this.m_sweep.c0.SetV(b2Math.MulX(this.m_xf, this.m_sweep.localCenter)); this.m_sweep.c.SetV(this.m_sweep.c0); this.m_linearVelocity.x += this.m_angularVelocity * (-(this.m_sweep.c.y - oldCenter.y)); this.m_linearVelocity.y += this.m_angularVelocity * (+(this.m_sweep.c.x - oldCenter.x)); } b2Body.prototype.GetWorldPoint = function (localPoint) { var A = this.m_xf.R; var u = new b2Vec2(A.col1.x * localPoint.x + A.col2.x * localPoint.y, A.col1.y * localPoint.x + A.col2.y * localPoint.y); u.x += this.m_xf.position.x; u.y += this.m_xf.position.y; return u; } b2Body.prototype.GetWorldVector = function (localVector) { return b2Math.MulMV(this.m_xf.R, localVector); } b2Body.prototype.GetLocalPoint = function (worldPoint) { return b2Math.MulXT(this.m_xf, worldPoint); } b2Body.prototype.GetLocalVector = function (worldVector) { return b2Math.MulTMV(this.m_xf.R, worldVector); } b2Body.prototype.GetLinearVelocityFromWorldPoint = function (worldPoint) { return new b2Vec2(this.m_linearVelocity.x - this.m_angularVelocity * (worldPoint.y - this.m_sweep.c.y), this.m_linearVelocity.y + this.m_angularVelocity * (worldPoint.x - this.m_sweep.c.x)); } b2Body.prototype.GetLinearVelocityFromLocalPoint = function (localPoint) { var A = this.m_xf.R; var worldPoint = new b2Vec2(A.col1.x * localPoint.x + A.col2.x * localPoint.y, A.col1.y * localPoint.x + A.col2.y * localPoint.y); worldPoint.x += this.m_xf.position.x; worldPoint.y += this.m_xf.position.y; return new b2Vec2(this.m_linearVelocity.x - this.m_angularVelocity * (worldPoint.y - this.m_sweep.c.y), this.m_linearVelocity.y + this.m_angularVelocity * (worldPoint.x - this.m_sweep.c.x)); } b2Body.prototype.GetLinearDamping = function () { return this.m_linearDamping; } b2Body.prototype.SetLinearDamping = function (linearDamping) { if (linearDamping === undefined) linearDamping = 0; this.m_linearDamping = linearDamping; } b2Body.prototype.GetAngularDamping = function () { return this.m_angularDamping; } b2Body.prototype.SetAngularDamping = function (angularDamping) { if (angularDamping === undefined) angularDamping = 0; this.m_angularDamping = angularDamping; } b2Body.prototype.SetType = function (type) { if (type === undefined) type = 0; if (this.m_type == type) { return; } this.m_type = type; this.ResetMassData(); if (this.m_type == b2Body.b2_staticBody) { this.m_linearVelocity.SetZero(); this.m_angularVelocity = 0.0; } this.SetAwake(true); this.m_force.SetZero(); this.m_torque = 0.0; for (var ce = this.m_contactList; ce; ce = ce.next) { ce.contact.FlagForFiltering(); } } b2Body.prototype.GetType = function () { return this.m_type; } b2Body.prototype.SetBullet = function (flag) { if (flag) { this.m_flags |= b2Body.e_bulletFlag; } else { this.m_flags &= ~b2Body.e_bulletFlag; } } b2Body.prototype.IsBullet = function () { return (this.m_flags & b2Body.e_bulletFlag) == b2Body.e_bulletFlag; } b2Body.prototype.SetSleepingAllowed = function (flag) { if (flag) { this.m_flags |= b2Body.e_allowSleepFlag; } else { this.m_flags &= ~b2Body.e_allowSleepFlag; this.SetAwake(true); } } b2Body.prototype.SetAwake = function (flag) { if (flag) { this.m_flags |= b2Body.e_awakeFlag; this.m_sleepTime = 0.0; } else { this.m_flags &= ~b2Body.e_awakeFlag; this.m_sleepTime = 0.0; this.m_linearVelocity.SetZero(); this.m_angularVelocity = 0.0; this.m_force.SetZero(); this.m_torque = 0.0; } } b2Body.prototype.IsAwake = function () { return (this.m_flags & b2Body.e_awakeFlag) == b2Body.e_awakeFlag; } b2Body.prototype.SetFixedRotation = function (fixed) { if (fixed) { this.m_flags |= b2Body.e_fixedRotationFlag; } else { this.m_flags &= ~b2Body.e_fixedRotationFlag; } this.ResetMassData(); } b2Body.prototype.IsFixedRotation = function () { return (this.m_flags & b2Body.e_fixedRotationFlag) == b2Body.e_fixedRotationFlag; } b2Body.prototype.SetActive = function (flag) { if (flag == this.IsActive()) { return; } var broadPhase; var f; if (flag) { this.m_flags |= b2Body.e_activeFlag; broadPhase = this.m_world.m_contactManager.m_broadPhase; for (f = this.m_fixtureList; f; f = f.m_next) { f.CreateProxy(broadPhase, this.m_xf); } } else { this.m_flags &= ~b2Body.e_activeFlag; broadPhase = this.m_world.m_contactManager.m_broadPhase; for (f = this.m_fixtureList; f; f = f.m_next) { f.DestroyProxy(broadPhase); } var ce = this.m_contactList; while (ce) { var ce0 = ce; ce = ce.next; this.m_world.m_contactManager.Destroy(ce0.contact); } this.m_contactList = null; } } b2Body.prototype.IsActive = function () { return (this.m_flags & b2Body.e_activeFlag) == b2Body.e_activeFlag; } b2Body.prototype.IsSleepingAllowed = function () { return (this.m_flags & b2Body.e_allowSleepFlag) == b2Body.e_allowSleepFlag; } b2Body.prototype.GetFixtureList = function () { return this.m_fixtureList; } b2Body.prototype.GetJointList = function () { return this.m_jointList; } b2Body.prototype.GetControllerList = function () { return this.m_controllerList; } b2Body.prototype.GetContactList = function () { return this.m_contactList; } b2Body.prototype.GetNext = function () { return this.m_next; } b2Body.prototype.GetUserData = function () { return this.m_userData; } b2Body.prototype.SetUserData = function (data) { this.m_userData = data; } b2Body.prototype.GetWorld = function () { return this.m_world; } b2Body.prototype.b2Body = function (bd, world) { this.m_flags = 0; if (bd.bullet) { this.m_flags |= b2Body.e_bulletFlag; } if (bd.fixedRotation) { this.m_flags |= b2Body.e_fixedRotationFlag; } if (bd.allowSleep) { this.m_flags |= b2Body.e_allowSleepFlag; } if (bd.awake) { this.m_flags |= b2Body.e_awakeFlag; } if (bd.active) { this.m_flags |= b2Body.e_activeFlag; } this.m_world = world; this.m_xf.position.SetV(bd.position); this.m_xf.R.Set(bd.angle); this.m_sweep.localCenter.SetZero(); this.m_sweep.t0 = 1.0; this.m_sweep.a0 = this.m_sweep.a = bd.angle; var tMat = this.m_xf.R; var tVec = this.m_sweep.localCenter; this.m_sweep.c.x = (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); this.m_sweep.c.y = (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); this.m_sweep.c.x += this.m_xf.position.x; this.m_sweep.c.y += this.m_xf.position.y; this.m_sweep.c0.SetV(this.m_sweep.c); this.m_jointList = null; this.m_controllerList = null; this.m_contactList = null; this.m_controllerCount = 0; this.m_prev = null; this.m_next = null; this.m_linearVelocity.SetV(bd.linearVelocity); this.m_angularVelocity = bd.angularVelocity; this.m_linearDamping = bd.linearDamping; this.m_angularDamping = bd.angularDamping; this.m_force.Set(0.0, 0.0); this.m_torque = 0.0; this.m_sleepTime = 0.0; this.m_type = bd.type; if (this.m_type == b2Body.b2_dynamicBody) { this.m_mass = 1.0; this.m_invMass = 1.0; } else { this.m_mass = 0.0; this.m_invMass = 0.0; } this.m_I = 0.0; this.m_invI = 0.0; this.m_inertiaScale = bd.inertiaScale; this.m_userData = bd.userData; this.m_fixtureList = null; this.m_fixtureCount = 0; } b2Body.prototype.SynchronizeFixtures = function () { var xf1 = b2Body.s_xf1; xf1.R.Set(this.m_sweep.a0); var tMat = xf1.R; var tVec = this.m_sweep.localCenter; xf1.position.x = this.m_sweep.c0.x - (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); xf1.position.y = this.m_sweep.c0.y - (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); var f; var broadPhase = this.m_world.m_contactManager.m_broadPhase; for (f = this.m_fixtureList; f; f = f.m_next) { f.Synchronize(broadPhase, xf1, this.m_xf); } } b2Body.prototype.SynchronizeTransform = function () { this.m_xf.R.Set(this.m_sweep.a); var tMat = this.m_xf.R; var tVec = this.m_sweep.localCenter; this.m_xf.position.x = this.m_sweep.c.x - (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); this.m_xf.position.y = this.m_sweep.c.y - (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); } b2Body.prototype.ShouldCollide = function (other) { if (this.m_type != b2Body.b2_dynamicBody && other.m_type != b2Body.b2_dynamicBody) { return false; } for (var jn = this.m_jointList; jn; jn = jn.next) { if (jn.other == other) if (jn.joint.m_collideConnected == false) { return false; } } return true; } b2Body.prototype.Advance = function (t) { if (t === undefined) t = 0; this.m_sweep.Advance(t); this.m_sweep.c.SetV(this.m_sweep.c0); this.m_sweep.a = this.m_sweep.a0; this.SynchronizeTransform(); } Box2D.postDefs.push(function () { Box2D.Dynamics.b2Body.s_xf1 = new b2Transform(); Box2D.Dynamics.b2Body.e_islandFlag = 0x0001; Box2D.Dynamics.b2Body.e_awakeFlag = 0x0002; Box2D.Dynamics.b2Body.e_allowSleepFlag = 0x0004; Box2D.Dynamics.b2Body.e_bulletFlag = 0x0008; Box2D.Dynamics.b2Body.e_fixedRotationFlag = 0x0010; Box2D.Dynamics.b2Body.e_activeFlag = 0x0020; Box2D.Dynamics.b2Body.b2_staticBody = 0; Box2D.Dynamics.b2Body.b2_kinematicBody = 1; Box2D.Dynamics.b2Body.b2_dynamicBody = 2; }); b2BodyDef.b2BodyDef = function () { this.position = new b2Vec2(); this.linearVelocity = new b2Vec2(); }; b2BodyDef.prototype.b2BodyDef = function () { this.userData = null; this.position.Set(0.0, 0.0); this.angle = 0.0; this.linearVelocity.Set(0, 0); this.angularVelocity = 0.0; this.linearDamping = 0.0; this.angularDamping = 0.0; this.allowSleep = true; this.awake = true; this.fixedRotation = false; this.bullet = false; this.type = b2Body.b2_staticBody; this.active = true; this.inertiaScale = 1.0; } b2ContactFilter.b2ContactFilter = function () {}; b2ContactFilter.prototype.ShouldCollide = function (fixtureA, fixtureB) { var filter1 = fixtureA.GetFilterData(); var filter2 = fixtureB.GetFilterData(); if (filter1.groupIndex == filter2.groupIndex && filter1.groupIndex != 0) { return filter1.groupIndex > 0; } var collide = (filter1.maskBits & filter2.categoryBits) != 0 && (filter1.categoryBits & filter2.maskBits) != 0; return collide; } b2ContactFilter.prototype.RayCollide = function (userData, fixture) { if (!userData) return true; return this.ShouldCollide((userData instanceof b2Fixture ? userData : null), fixture); } Box2D.postDefs.push(function () { Box2D.Dynamics.b2ContactFilter.b2_defaultFilter = new b2ContactFilter(); }); b2ContactImpulse.b2ContactImpulse = function () { this.normalImpulses = new Vector_a2j_Number(b2Settings.b2_maxManifoldPoints); this.tangentImpulses = new Vector_a2j_Number(b2Settings.b2_maxManifoldPoints); }; b2ContactListener.b2ContactListener = function () {}; b2ContactListener.prototype.BeginContact = function (contact) {} b2ContactListener.prototype.EndContact = function (contact) {} b2ContactListener.prototype.PreSolve = function (contact, oldManifold) {} b2ContactListener.prototype.PostSolve = function (contact, impulse) {} Box2D.postDefs.push(function () { Box2D.Dynamics.b2ContactListener.b2_defaultListener = new b2ContactListener(); }); b2ContactManager.b2ContactManager = function () {}; b2ContactManager.prototype.b2ContactManager = function () { this.m_world = null; this.m_contactCount = 0; this.m_contactFilter = b2ContactFilter.b2_defaultFilter; this.m_contactListener = b2ContactListener.b2_defaultListener; this.m_contactFactory = new b2ContactFactory(this.m_allocator); this.m_broadPhase = new b2DynamicTreeBroadPhase(); } b2ContactManager.prototype.AddPair = function (proxyUserDataA, proxyUserDataB) { var fixtureA = (proxyUserDataA instanceof b2Fixture ? proxyUserDataA : null); var fixtureB = (proxyUserDataB instanceof b2Fixture ? proxyUserDataB : null); var bodyA = fixtureA.GetBody(); var bodyB = fixtureB.GetBody(); if (bodyA == bodyB) return; var edge = bodyB.GetContactList(); while (edge) { if (edge.other == bodyA) { var fA = edge.contact.GetFixtureA(); var fB = edge.contact.GetFixtureB(); if (fA == fixtureA && fB == fixtureB) return; if (fA == fixtureB && fB == fixtureA) return; } edge = edge.next; } if (bodyB.ShouldCollide(bodyA) == false) { return; } if (this.m_contactFilter.ShouldCollide(fixtureA, fixtureB) == false) { return; } var c = this.m_contactFactory.Create(fixtureA, fixtureB); fixtureA = c.GetFixtureA(); fixtureB = c.GetFixtureB(); bodyA = fixtureA.m_body; bodyB = fixtureB.m_body; c.m_prev = null; c.m_next = this.m_world.m_contactList; if (this.m_world.m_contactList != null) { this.m_world.m_contactList.m_prev = c; } this.m_world.m_contactList = c; c.m_nodeA.contact = c; c.m_nodeA.other = bodyB; c.m_nodeA.prev = null; c.m_nodeA.next = bodyA.m_contactList; if (bodyA.m_contactList != null) { bodyA.m_contactList.prev = c.m_nodeA; } bodyA.m_contactList = c.m_nodeA; c.m_nodeB.contact = c; c.m_nodeB.other = bodyA; c.m_nodeB.prev = null; c.m_nodeB.next = bodyB.m_contactList; if (bodyB.m_contactList != null) { bodyB.m_contactList.prev = c.m_nodeB; } bodyB.m_contactList = c.m_nodeB; ++this.m_world.m_contactCount; return; } b2ContactManager.prototype.FindNewContacts = function () { this.m_broadPhase.UpdatePairs(Box2D.generateCallback(this, this.AddPair)); } b2ContactManager.prototype.Destroy = function (c) { var fixtureA = c.GetFixtureA(); var fixtureB = c.GetFixtureB(); var bodyA = fixtureA.GetBody(); var bodyB = fixtureB.GetBody(); if (c.IsTouching()) { this.m_contactListener.EndContact(c); } if (c.m_prev) { c.m_prev.m_next = c.m_next; } if (c.m_next) { c.m_next.m_prev = c.m_prev; } if (c == this.m_world.m_contactList) { this.m_world.m_contactList = c.m_next; } if (c.m_nodeA.prev) { c.m_nodeA.prev.next = c.m_nodeA.next; } if (c.m_nodeA.next) { c.m_nodeA.next.prev = c.m_nodeA.prev; } if (c.m_nodeA == bodyA.m_contactList) { bodyA.m_contactList = c.m_nodeA.next; } if (c.m_nodeB.prev) { c.m_nodeB.prev.next = c.m_nodeB.next; } if (c.m_nodeB.next) { c.m_nodeB.next.prev = c.m_nodeB.prev; } if (c.m_nodeB == bodyB.m_contactList) { bodyB.m_contactList = c.m_nodeB.next; } this.m_contactFactory.Destroy(c); --this.m_contactCount; } b2ContactManager.prototype.Collide = function () { var c = this.m_world.m_contactList; while (c) { var fixtureA = c.GetFixtureA(); var fixtureB = c.GetFixtureB(); var bodyA = fixtureA.GetBody(); var bodyB = fixtureB.GetBody(); if (bodyA.IsAwake() == false && bodyB.IsAwake() == false) { c = c.GetNext(); continue; } if (c.m_flags & b2Contact.e_filterFlag) { if (bodyB.ShouldCollide(bodyA) == false) { var cNuke = c; c = cNuke.GetNext(); this.Destroy(cNuke); continue; } if (this.m_contactFilter.ShouldCollide(fixtureA, fixtureB) == false) { cNuke = c; c = cNuke.GetNext(); this.Destroy(cNuke); continue; } c.m_flags &= ~b2Contact.e_filterFlag; } var proxyA = fixtureA.m_proxy; var proxyB = fixtureB.m_proxy; var overlap = this.m_broadPhase.TestOverlap(proxyA, proxyB); if (overlap == false) { cNuke = c; c = cNuke.GetNext(); this.Destroy(cNuke); continue; } c.Update(this.m_contactListener); c = c.GetNext(); } } Box2D.postDefs.push(function () { Box2D.Dynamics.b2ContactManager.s_evalCP = new b2ContactPoint(); }); b2DebugDraw.b2DebugDraw = function () {}; b2DebugDraw.prototype.b2DebugDraw = function () {} b2DebugDraw.prototype.SetFlags = function (flags) { if (flags === undefined) flags = 0; } b2DebugDraw.prototype.GetFlags = function () {} b2DebugDraw.prototype.AppendFlags = function (flags) { if (flags === undefined) flags = 0; } b2DebugDraw.prototype.ClearFlags = function (flags) { if (flags === undefined) flags = 0; } b2DebugDraw.prototype.SetSprite = function (sprite) {} b2DebugDraw.prototype.GetSprite = function () {} b2DebugDraw.prototype.SetDrawScale = function (drawScale) { if (drawScale === undefined) drawScale = 0; } b2DebugDraw.prototype.GetDrawScale = function () {} b2DebugDraw.prototype.SetLineThickness = function (lineThickness) { if (lineThickness === undefined) lineThickness = 0; } b2DebugDraw.prototype.GetLineThickness = function () {} b2DebugDraw.prototype.SetAlpha = function (alpha) { if (alpha === undefined) alpha = 0; } b2DebugDraw.prototype.GetAlpha = function () {} b2DebugDraw.prototype.SetFillAlpha = function (alpha) { if (alpha === undefined) alpha = 0; } b2DebugDraw.prototype.GetFillAlpha = function () {} b2DebugDraw.prototype.SetXFormScale = function (xformScale) { if (xformScale === undefined) xformScale = 0; } b2DebugDraw.prototype.GetXFormScale = function () {} b2DebugDraw.prototype.DrawPolygon = function (vertices, vertexCount, color) { if (vertexCount === undefined) vertexCount = 0; } b2DebugDraw.prototype.DrawSolidPolygon = function (vertices, vertexCount, color) { if (vertexCount === undefined) vertexCount = 0; } b2DebugDraw.prototype.DrawCircle = function (center, radius, color) { if (radius === undefined) radius = 0; } b2DebugDraw.prototype.DrawSolidCircle = function (center, radius, axis, color) { if (radius === undefined) radius = 0; } b2DebugDraw.prototype.DrawSegment = function (p1, p2, color) {} b2DebugDraw.prototype.DrawTransform = function (xf) {} Box2D.postDefs.push(function () { Box2D.Dynamics.b2DebugDraw.e_shapeBit = 0x0001; Box2D.Dynamics.b2DebugDraw.e_jointBit = 0x0002; Box2D.Dynamics.b2DebugDraw.e_aabbBit = 0x0004; Box2D.Dynamics.b2DebugDraw.e_pairBit = 0x0008; Box2D.Dynamics.b2DebugDraw.e_centerOfMassBit = 0x0010; Box2D.Dynamics.b2DebugDraw.e_controllerBit = 0x0020; }); b2DestructionListener.b2DestructionListener = function () {}; b2DestructionListener.prototype.SayGoodbyeJoint = function (joint) {} b2DestructionListener.prototype.SayGoodbyeFixture = function (fixture) {} b2FilterData.b2FilterData = function () { this.categoryBits = 0x0001; this.maskBits = 0xFFFF; this.groupIndex = 0; }; b2FilterData.prototype.Copy = function () { var copy = new b2FilterData(); copy.categoryBits = this.categoryBits; copy.maskBits = this.maskBits; copy.groupIndex = this.groupIndex; return copy; } b2Fixture.b2Fixture = function () { this.m_filter = new b2FilterData(); }; b2Fixture.prototype.GetType = function () { return this.m_shape.GetType(); } b2Fixture.prototype.GetShape = function () { return this.m_shape; } b2Fixture.prototype.SetSensor = function (sensor) { if (this.m_isSensor == sensor) return; this.m_isSensor = sensor; if (this.m_body == null) return; var edge = this.m_body.GetContactList(); while (edge) { var contact = edge.contact; var fixtureA = contact.GetFixtureA(); var fixtureB = contact.GetFixtureB(); if (fixtureA == this || fixtureB == this) contact.SetSensor(fixtureA.IsSensor() || fixtureB.IsSensor()); edge = edge.next; } } b2Fixture.prototype.IsSensor = function () { return this.m_isSensor; } b2Fixture.prototype.SetFilterData = function (filter) { this.m_filter = filter.Copy(); if (this.m_body) return; var edge = this.m_body.GetContactList(); while (edge) { var contact = edge.contact; var fixtureA = contact.GetFixtureA(); var fixtureB = contact.GetFixtureB(); if (fixtureA == this || fixtureB == this) contact.FlagForFiltering(); edge = edge.next; } } b2Fixture.prototype.GetFilterData = function () { return this.m_filter.Copy(); } b2Fixture.prototype.GetBody = function () { return this.m_body; } b2Fixture.prototype.GetNext = function () { return this.m_next; } b2Fixture.prototype.GetUserData = function () { return this.m_userData; } b2Fixture.prototype.SetUserData = function (data) { this.m_userData = data; } b2Fixture.prototype.TestPoint = function (p) { return this.m_shape.TestPoint(this.m_body.GetTransform(), p); } b2Fixture.prototype.RayCast = function (output, input) { return this.m_shape.RayCast(output, input, this.m_body.GetTransform()); } b2Fixture.prototype.GetMassData = function (massData) { if (massData === undefined) massData = null; if (massData == null) { massData = new b2MassData(); } this.m_shape.ComputeMass(massData, this.m_density); return massData; } b2Fixture.prototype.SetDensity = function (density) { if (density === undefined) density = 0; this.m_density = density; } b2Fixture.prototype.GetDensity = function () { return this.m_density; } b2Fixture.prototype.GetFriction = function () { return this.m_friction; } b2Fixture.prototype.SetFriction = function (friction) { if (friction === undefined) friction = 0; this.m_friction = friction; } b2Fixture.prototype.GetRestitution = function () { return this.m_restitution; } b2Fixture.prototype.SetRestitution = function (restitution) { if (restitution === undefined) restitution = 0; this.m_restitution = restitution; } b2Fixture.prototype.GetAABB = function () { return this.m_aabb; } b2Fixture.prototype.b2Fixture = function () { this.m_aabb = new b2AABB(); this.m_userData = null; this.m_body = null; this.m_next = null; this.m_shape = null; this.m_density = 0.0; this.m_friction = 0.0; this.m_restitution = 0.0; } b2Fixture.prototype.Create = function (body, xf, def) { this.m_userData = def.userData; this.m_friction = def.friction; this.m_restitution = def.restitution; this.m_body = body; this.m_next = null; this.m_filter = def.filter.Copy(); this.m_isSensor = def.isSensor; this.m_shape = def.shape.Copy(); this.m_density = def.density; } b2Fixture.prototype.Destroy = function () { this.m_shape = null; } b2Fixture.prototype.CreateProxy = function (broadPhase, xf) { this.m_shape.ComputeAABB(this.m_aabb, xf); this.m_proxy = broadPhase.CreateProxy(this.m_aabb, this); } b2Fixture.prototype.DestroyProxy = function (broadPhase) { if (this.m_proxy == null) { return; } broadPhase.DestroyProxy(this.m_proxy); this.m_proxy = null; } b2Fixture.prototype.Synchronize = function (broadPhase, transform1, transform2) { if (!this.m_proxy) return; var aabb1 = new b2AABB(); var aabb2 = new b2AABB(); this.m_shape.ComputeAABB(aabb1, transform1); this.m_shape.ComputeAABB(aabb2, transform2); this.m_aabb.Combine(aabb1, aabb2); var displacement = b2Math.SubtractVV(transform2.position, transform1.position); broadPhase.MoveProxy(this.m_proxy, this.m_aabb, displacement); } b2FixtureDef.b2FixtureDef = function () { this.filter = new b2FilterData(); }; b2FixtureDef.prototype.b2FixtureDef = function () { this.shape = null; this.userData = null; this.friction = 0.2; this.restitution = 0.0; this.density = 0.0; this.filter.categoryBits = 0x0001; this.filter.maskBits = 0xFFFF; this.filter.groupIndex = 0; this.isSensor = false; } b2Island.b2Island = function () {}; b2Island.prototype.b2Island = function () { this.m_bodies = new Vector(); this.m_contacts = new Vector(); this.m_joints = new Vector(); } b2Island.prototype.Initialize = function (bodyCapacity, contactCapacity, jointCapacity, allocator, listener, contactSolver) { if (bodyCapacity === undefined) bodyCapacity = 0; if (contactCapacity === undefined) contactCapacity = 0; if (jointCapacity === undefined) jointCapacity = 0; var i = 0; this.m_bodyCapacity = bodyCapacity; this.m_contactCapacity = contactCapacity; this.m_jointCapacity = jointCapacity; this.m_bodyCount = 0; this.m_contactCount = 0; this.m_jointCount = 0; this.m_allocator = allocator; this.m_listener = listener; this.m_contactSolver = contactSolver; for (i = this.m_bodies.length; i < bodyCapacity; i++) this.m_bodies[i] = null; for (i = this.m_contacts.length; i < contactCapacity; i++) this.m_contacts[i] = null; for (i = this.m_joints.length; i < jointCapacity; i++) this.m_joints[i] = null; } b2Island.prototype.Clear = function () { this.m_bodyCount = 0; this.m_contactCount = 0; this.m_jointCount = 0; } b2Island.prototype.Solve = function (step, gravity, allowSleep) { var i = 0; var j = 0; var b; var joint; for (i = 0; i < this.m_bodyCount; ++i) { b = this.m_bodies[i]; if (b.GetType() != b2Body.b2_dynamicBody) continue; b.m_linearVelocity.x += step.dt * (gravity.x + b.m_invMass * b.m_force.x); b.m_linearVelocity.y += step.dt * (gravity.y + b.m_invMass * b.m_force.y); b.m_angularVelocity += step.dt * b.m_invI * b.m_torque; b.m_linearVelocity.Multiply(b2Math.Clamp(1.0 - step.dt * b.m_linearDamping, 0.0, 1.0)); b.m_angularVelocity *= b2Math.Clamp(1.0 - step.dt * b.m_angularDamping, 0.0, 1.0); } this.m_contactSolver.Initialize(step, this.m_contacts, this.m_contactCount, this.m_allocator); var contactSolver = this.m_contactSolver; contactSolver.InitVelocityConstraints(step); for (i = 0; i < this.m_jointCount; ++i) { joint = this.m_joints[i]; joint.InitVelocityConstraints(step); } for (i = 0; i < step.velocityIterations; ++i) { for (j = 0; j < this.m_jointCount; ++j) { joint = this.m_joints[j]; joint.SolveVelocityConstraints(step); } contactSolver.SolveVelocityConstraints(); } for (i = 0; i < this.m_jointCount; ++i) { joint = this.m_joints[i]; joint.FinalizeVelocityConstraints(); } contactSolver.FinalizeVelocityConstraints(); for (i = 0; i < this.m_bodyCount; ++i) { b = this.m_bodies[i]; if (b.GetType() == b2Body.b2_staticBody) continue; var translationX = step.dt * b.m_linearVelocity.x; var translationY = step.dt * b.m_linearVelocity.y; if ((translationX * translationX + translationY * translationY) > b2Settings.b2_maxTranslationSquared) { b.m_linearVelocity.Normalize(); b.m_linearVelocity.x *= b2Settings.b2_maxTranslation * step.inv_dt; b.m_linearVelocity.y *= b2Settings.b2_maxTranslation * step.inv_dt; } var rotation = step.dt * b.m_angularVelocity; if (rotation * rotation > b2Settings.b2_maxRotationSquared) { if (b.m_angularVelocity < 0.0) { b.m_angularVelocity = (-b2Settings.b2_maxRotation * step.inv_dt); } else { b.m_angularVelocity = b2Settings.b2_maxRotation * step.inv_dt; } } b.m_sweep.c0.SetV(b.m_sweep.c); b.m_sweep.a0 = b.m_sweep.a; b.m_sweep.c.x += step.dt * b.m_linearVelocity.x; b.m_sweep.c.y += step.dt * b.m_linearVelocity.y; b.m_sweep.a += step.dt * b.m_angularVelocity; b.SynchronizeTransform(); } for (i = 0; i < step.positionIterations; ++i) { var contactsOkay = contactSolver.SolvePositionConstraints(b2Settings.b2_contactBaumgarte); var jointsOkay = true; for (j = 0; j < this.m_jointCount; ++j) { joint = this.m_joints[j]; var jointOkay = joint.SolvePositionConstraints(b2Settings.b2_contactBaumgarte); jointsOkay = jointsOkay && jointOkay; } if (contactsOkay && jointsOkay) { break; } } this.Report(contactSolver.m_constraints); if (allowSleep) { var minSleepTime = Number.MAX_VALUE; var linTolSqr = b2Settings.b2_linearSleepTolerance * b2Settings.b2_linearSleepTolerance; var angTolSqr = b2Settings.b2_angularSleepTolerance * b2Settings.b2_angularSleepTolerance; for (i = 0; i < this.m_bodyCount; ++i) { b = this.m_bodies[i]; if (b.GetType() == b2Body.b2_staticBody) { continue; } if ((b.m_flags & b2Body.e_allowSleepFlag) == 0) { b.m_sleepTime = 0.0; minSleepTime = 0.0; } if ((b.m_flags & b2Body.e_allowSleepFlag) == 0 || b.m_angularVelocity * b.m_angularVelocity > angTolSqr || b2Math.Dot(b.m_linearVelocity, b.m_linearVelocity) > linTolSqr) { b.m_sleepTime = 0.0; minSleepTime = 0.0; } else { b.m_sleepTime += step.dt; minSleepTime = b2Math.Min(minSleepTime, b.m_sleepTime); } } if (minSleepTime >= b2Settings.b2_timeToSleep) { for (i = 0; i < this.m_bodyCount; ++i) { b = this.m_bodies[i]; b.SetAwake(false); } } } } b2Island.prototype.SolveTOI = function (subStep) { var i = 0; var j = 0; this.m_contactSolver.Initialize(subStep, this.m_contacts, this.m_contactCount, this.m_allocator); var contactSolver = this.m_contactSolver; for (i = 0; i < this.m_jointCount; ++i) { this.m_joints[i].InitVelocityConstraints(subStep); } for (i = 0; i < subStep.velocityIterations; ++i) { contactSolver.SolveVelocityConstraints(); for (j = 0; j < this.m_jointCount; ++j) { this.m_joints[j].SolveVelocityConstraints(subStep); } } for (i = 0; i < this.m_bodyCount; ++i) { var b = this.m_bodies[i]; if (b.GetType() == b2Body.b2_staticBody) continue; var translationX = subStep.dt * b.m_linearVelocity.x; var translationY = subStep.dt * b.m_linearVelocity.y; if ((translationX * translationX + translationY * translationY) > b2Settings.b2_maxTranslationSquared) { b.m_linearVelocity.Normalize(); b.m_linearVelocity.x *= b2Settings.b2_maxTranslation * subStep.inv_dt; b.m_linearVelocity.y *= b2Settings.b2_maxTranslation * subStep.inv_dt; } var rotation = subStep.dt * b.m_angularVelocity; if (rotation * rotation > b2Settings.b2_maxRotationSquared) { if (b.m_angularVelocity < 0.0) { b.m_angularVelocity = (-b2Settings.b2_maxRotation * subStep.inv_dt); } else { b.m_angularVelocity = b2Settings.b2_maxRotation * subStep.inv_dt; } } b.m_sweep.c0.SetV(b.m_sweep.c); b.m_sweep.a0 = b.m_sweep.a; b.m_sweep.c.x += subStep.dt * b.m_linearVelocity.x; b.m_sweep.c.y += subStep.dt * b.m_linearVelocity.y; b.m_sweep.a += subStep.dt * b.m_angularVelocity; b.SynchronizeTransform(); } var k_toiBaumgarte = 0.75; for (i = 0; i < subStep.positionIterations; ++i) { var contactsOkay = contactSolver.SolvePositionConstraints(k_toiBaumgarte); var jointsOkay = true; for (j = 0; j < this.m_jointCount; ++j) { var jointOkay = this.m_joints[j].SolvePositionConstraints(b2Settings.b2_contactBaumgarte); jointsOkay = jointsOkay && jointOkay; } if (contactsOkay && jointsOkay) { break; } } this.Report(contactSolver.m_constraints); } b2Island.prototype.Report = function (constraints) { if (this.m_listener == null) { return; } for (var i = 0; i < this.m_contactCount; ++i) { var c = this.m_contacts[i]; var cc = constraints[i]; for (var j = 0; j < cc.pointCount; ++j) { b2Island.s_impulse.normalImpulses[j] = cc.points[j].normalImpulse; b2Island.s_impulse.tangentImpulses[j] = cc.points[j].tangentImpulse; } this.m_listener.PostSolve(c, b2Island.s_impulse); } } b2Island.prototype.AddBody = function (body) { body.m_islandIndex = this.m_bodyCount; this.m_bodies[this.m_bodyCount++] = body; } b2Island.prototype.AddContact = function (contact) { this.m_contacts[this.m_contactCount++] = contact; } b2Island.prototype.AddJoint = function (joint) { this.m_joints[this.m_jointCount++] = joint; } Box2D.postDefs.push(function () { Box2D.Dynamics.b2Island.s_impulse = new b2ContactImpulse(); }); b2TimeStep.b2TimeStep = function () {}; b2TimeStep.prototype.Set = function (step) { this.dt = step.dt; this.inv_dt = step.inv_dt; this.positionIterations = step.positionIterations; this.velocityIterations = step.velocityIterations; this.warmStarting = step.warmStarting; } b2World.b2World = function () { this.s_stack = new Vector(); this.m_contactManager = new b2ContactManager(); this.m_contactSolver = new b2ContactSolver(); this.m_island = new b2Island(); }; b2World.prototype.b2World = function (gravity, doSleep) { this.m_destructionListener = null; this.m_debugDraw = null; this.m_bodyList = null; this.m_contactList = null; this.m_jointList = null; this.m_controllerList = null; this.m_bodyCount = 0; this.m_contactCount = 0; this.m_jointCount = 0; this.m_controllerCount = 0; b2World.m_warmStarting = true; b2World.m_continuousPhysics = true; this.m_allowSleep = doSleep; this.m_gravity = gravity; this.m_inv_dt0 = 0.0; this.m_contactManager.m_world = this; var bd = new b2BodyDef(); this.m_groundBody = this.CreateBody(bd); } b2World.prototype.SetDestructionListener = function (listener) { this.m_destructionListener = listener; } b2World.prototype.SetContactFilter = function (filter) { this.m_contactManager.m_contactFilter = filter; } b2World.prototype.SetContactListener = function (listener) { this.m_contactManager.m_contactListener = listener; } b2World.prototype.SetDebugDraw = function (debugDraw) { this.m_debugDraw = debugDraw; } b2World.prototype.SetBroadPhase = function (broadPhase) { var oldBroadPhase = this.m_contactManager.m_broadPhase; this.m_contactManager.m_broadPhase = broadPhase; for (var b = this.m_bodyList; b; b = b.m_next) { for (var f = b.m_fixtureList; f; f = f.m_next) { f.m_proxy = broadPhase.CreateProxy(oldBroadPhase.GetFatAABB(f.m_proxy), f); } } } b2World.prototype.Validate = function () { this.m_contactManager.m_broadPhase.Validate(); } b2World.prototype.GetProxyCount = function () { return this.m_contactManager.m_broadPhase.GetProxyCount(); } b2World.prototype.CreateBody = function (def) { if (this.IsLocked() == true) { return null; } var b = new b2Body(def, this); b.m_prev = null; b.m_next = this.m_bodyList; if (this.m_bodyList) { this.m_bodyList.m_prev = b; } this.m_bodyList = b; ++this.m_bodyCount; return b; } b2World.prototype.DestroyBody = function (b) { if (this.IsLocked() == true) { return; } var jn = b.m_jointList; while (jn) { var jn0 = jn; jn = jn.next; if (this.m_destructionListener) { this.m_destructionListener.SayGoodbyeJoint(jn0.joint); } this.DestroyJoint(jn0.joint); } var coe = b.m_controllerList; while (coe) { var coe0 = coe; coe = coe.nextController; coe0.controller.RemoveBody(b); } var ce = b.m_contactList; while (ce) { var ce0 = ce; ce = ce.next; this.m_contactManager.Destroy(ce0.contact); } b.m_contactList = null; var f = b.m_fixtureList; while (f) { var f0 = f; f = f.m_next; if (this.m_destructionListener) { this.m_destructionListener.SayGoodbyeFixture(f0); } f0.DestroyProxy(this.m_contactManager.m_broadPhase); f0.Destroy(); } b.m_fixtureList = null; b.m_fixtureCount = 0; if (b.m_prev) { b.m_prev.m_next = b.m_next; } if (b.m_next) { b.m_next.m_prev = b.m_prev; } if (b == this.m_bodyList) { this.m_bodyList = b.m_next; }--this.m_bodyCount; } b2World.prototype.CreateJoint = function (def) { var j = b2Joint.Create(def, null); j.m_prev = null; j.m_next = this.m_jointList; if (this.m_jointList) { this.m_jointList.m_prev = j; } this.m_jointList = j; ++this.m_jointCount; j.m_edgeA.joint = j; j.m_edgeA.other = j.m_bodyB; j.m_edgeA.prev = null; j.m_edgeA.next = j.m_bodyA.m_jointList; if (j.m_bodyA.m_jointList) j.m_bodyA.m_jointList.prev = j.m_edgeA; j.m_bodyA.m_jointList = j.m_edgeA; j.m_edgeB.joint = j; j.m_edgeB.other = j.m_bodyA; j.m_edgeB.prev = null; j.m_edgeB.next = j.m_bodyB.m_jointList; if (j.m_bodyB.m_jointList) j.m_bodyB.m_jointList.prev = j.m_edgeB; j.m_bodyB.m_jointList = j.m_edgeB; var bodyA = def.bodyA; var bodyB = def.bodyB; if (def.collideConnected == false) { var edge = bodyB.GetContactList(); while (edge) { if (edge.other == bodyA) { edge.contact.FlagForFiltering(); } edge = edge.next; } } return j; } b2World.prototype.DestroyJoint = function (j) { var collideConnected = j.m_collideConnected; if (j.m_prev) { j.m_prev.m_next = j.m_next; } if (j.m_next) { j.m_next.m_prev = j.m_prev; } if (j == this.m_jointList) { this.m_jointList = j.m_next; } var bodyA = j.m_bodyA; var bodyB = j.m_bodyB; bodyA.SetAwake(true); bodyB.SetAwake(true); if (j.m_edgeA.prev) { j.m_edgeA.prev.next = j.m_edgeA.next; } if (j.m_edgeA.next) { j.m_edgeA.next.prev = j.m_edgeA.prev; } if (j.m_edgeA == bodyA.m_jointList) { bodyA.m_jointList = j.m_edgeA.next; } j.m_edgeA.prev = null; j.m_edgeA.next = null; if (j.m_edgeB.prev) { j.m_edgeB.prev.next = j.m_edgeB.next; } if (j.m_edgeB.next) { j.m_edgeB.next.prev = j.m_edgeB.prev; } if (j.m_edgeB == bodyB.m_jointList) { bodyB.m_jointList = j.m_edgeB.next; } j.m_edgeB.prev = null; j.m_edgeB.next = null; b2Joint.Destroy(j, null); --this.m_jointCount; if (collideConnected == false) { var edge = bodyB.GetContactList(); while (edge) { if (edge.other == bodyA) { edge.contact.FlagForFiltering(); } edge = edge.next; } } } b2World.prototype.AddController = function (c) { c.m_next = this.m_controllerList; c.m_prev = null; this.m_controllerList = c; c.m_world = this; this.m_controllerCount++; return c; } b2World.prototype.RemoveController = function (c) { if (c.m_prev) c.m_prev.m_next = c.m_next; if (c.m_next) c.m_next.m_prev = c.m_prev; if (this.m_controllerList == c) this.m_controllerList = c.m_next; this.m_controllerCount--; } b2World.prototype.CreateController = function (controller) { if (controller.m_world != this) throw new Error("Controller can only be a member of one world"); controller.m_next = this.m_controllerList; controller.m_prev = null; if (this.m_controllerList) this.m_controllerList.m_prev = controller; this.m_controllerList = controller; ++this.m_controllerCount; controller.m_world = this; return controller; } b2World.prototype.DestroyController = function (controller) { controller.Clear(); if (controller.m_next) controller.m_next.m_prev = controller.m_prev; if (controller.m_prev) controller.m_prev.m_next = controller.m_next; if (controller == this.m_controllerList) this.m_controllerList = controller.m_next; --this.m_controllerCount; } b2World.prototype.SetWarmStarting = function (flag) { b2World.m_warmStarting = flag; } b2World.prototype.SetContinuousPhysics = function (flag) { b2World.m_continuousPhysics = flag; } b2World.prototype.GetBodyCount = function () { return this.m_bodyCount; } b2World.prototype.GetJointCount = function () { return this.m_jointCount; } b2World.prototype.GetContactCount = function () { return this.m_contactCount; } b2World.prototype.SetGravity = function (gravity) { this.m_gravity = gravity; } b2World.prototype.GetGravity = function () { return this.m_gravity; } b2World.prototype.GetGroundBody = function () { return this.m_groundBody; } b2World.prototype.Step = function (dt, velocityIterations, positionIterations) { if (dt === undefined) dt = 0; if (velocityIterations === undefined) velocityIterations = 0; if (positionIterations === undefined) positionIterations = 0; if (this.m_flags & b2World.e_newFixture) { this.m_contactManager.FindNewContacts(); this.m_flags &= ~b2World.e_newFixture; } this.m_flags |= b2World.e_locked; var step = b2World.s_timestep2; step.dt = dt; step.velocityIterations = velocityIterations; step.positionIterations = positionIterations; if (dt > 0.0) { step.inv_dt = 1.0 / dt; } else { step.inv_dt = 0.0; } step.dtRatio = this.m_inv_dt0 * dt; step.warmStarting = b2World.m_warmStarting; this.m_contactManager.Collide(); if (step.dt > 0.0) { this.Solve(step); } if (b2World.m_continuousPhysics && step.dt > 0.0) { this.SolveTOI(step); } if (step.dt > 0.0) { this.m_inv_dt0 = step.inv_dt; } this.m_flags &= ~b2World.e_locked; } b2World.prototype.ClearForces = function () { for (var body = this.m_bodyList; body; body = body.m_next) { body.m_force.SetZero(); body.m_torque = 0.0; } } b2World.prototype.DrawDebugData = function () { if (this.m_debugDraw == null) { return; } this.m_debugDraw.m_sprite.graphics.clear(); var flags = this.m_debugDraw.GetFlags(); var i = 0; var b; var f; var s; var j; var bp; var invQ = new b2Vec2; var x1 = new b2Vec2; var x2 = new b2Vec2; var xf; var b1 = new b2AABB(); var b2 = new b2AABB(); var vs = [new b2Vec2(), new b2Vec2(), new b2Vec2(), new b2Vec2()]; var color = new b2Color(0, 0, 0); if (flags & b2DebugDraw.e_shapeBit) { for (b = this.m_bodyList; b; b = b.m_next) { xf = b.m_xf; for (f = b.GetFixtureList(); f; f = f.m_next) { s = f.GetShape(); if (b.IsActive() == false) { color.Set(0.5, 0.5, 0.3); this.DrawShape(s, xf, color); } else if (b.GetType() == b2Body.b2_staticBody) { color.Set(0.5, 0.9, 0.5); this.DrawShape(s, xf, color); } else if (b.GetType() == b2Body.b2_kinematicBody) { color.Set(0.5, 0.5, 0.9); this.DrawShape(s, xf, color); } else if (b.IsAwake() == false) { color.Set(0.6, 0.6, 0.6); this.DrawShape(s, xf, color); } else { color.Set(0.9, 0.7, 0.7); this.DrawShape(s, xf, color); } } } } if (flags & b2DebugDraw.e_jointBit) { for (j = this.m_jointList; j; j = j.m_next) { this.DrawJoint(j); } } if (flags & b2DebugDraw.e_controllerBit) { for (var c = this.m_controllerList; c; c = c.m_next) { c.Draw(this.m_debugDraw); } } if (flags & b2DebugDraw.e_pairBit) { color.Set(0.3, 0.9, 0.9); for (var contact = this.m_contactManager.m_contactList; contact; contact = contact.GetNext()) { var fixtureA = contact.GetFixtureA(); var fixtureB = contact.GetFixtureB(); var cA = fixtureA.GetAABB().GetCenter(); var cB = fixtureB.GetAABB().GetCenter(); this.m_debugDraw.DrawSegment(cA, cB, color); } } if (flags & b2DebugDraw.e_aabbBit) { bp = this.m_contactManager.m_broadPhase; vs = [new b2Vec2(), new b2Vec2(), new b2Vec2(), new b2Vec2()]; for (b = this.m_bodyList; b; b = b.GetNext()) { if (b.IsActive() == false) { continue; } for (f = b.GetFixtureList(); f; f = f.GetNext()) { var aabb = bp.GetFatAABB(f.m_proxy); vs[0].Set(aabb.lowerBound.x, aabb.lowerBound.y); vs[1].Set(aabb.upperBound.x, aabb.lowerBound.y); vs[2].Set(aabb.upperBound.x, aabb.upperBound.y); vs[3].Set(aabb.lowerBound.x, aabb.upperBound.y); this.m_debugDraw.DrawPolygon(vs, 4, color); } } } if (flags & b2DebugDraw.e_centerOfMassBit) { for (b = this.m_bodyList; b; b = b.m_next) { xf = b2World.s_xf; xf.R = b.m_xf.R; xf.position = b.GetWorldCenter(); this.m_debugDraw.DrawTransform(xf); } } } b2World.prototype.QueryAABB = function (callback, aabb) { var __this = this; var broadPhase = __this.m_contactManager.m_broadPhase; function WorldQueryWrapper(proxy) { return callback(broadPhase.GetUserData(proxy)); }; broadPhase.Query(WorldQueryWrapper, aabb); } b2World.prototype.QueryShape = function (callback, shape, transform) { var __this = this; if (transform === undefined) transform = null; if (transform == null) { transform = new b2Transform(); transform.SetIdentity(); } var broadPhase = __this.m_contactManager.m_broadPhase; function WorldQueryWrapper(proxy) { var fixture = (broadPhase.GetUserData(proxy) instanceof b2Fixture ? broadPhase.GetUserData(proxy) : null); if (b2Shape.TestOverlap(shape, transform, fixture.GetShape(), fixture.GetBody().GetTransform())) return callback(fixture); return true; }; var aabb = new b2AABB(); shape.ComputeAABB(aabb, transform); broadPhase.Query(WorldQueryWrapper, aabb); } b2World.prototype.QueryPoint = function (callback, p) { var __this = this; var broadPhase = __this.m_contactManager.m_broadPhase; function WorldQueryWrapper(proxy) { var fixture = (broadPhase.GetUserData(proxy) instanceof b2Fixture ? broadPhase.GetUserData(proxy) : null); if (fixture.TestPoint(p)) return callback(fixture); return true; }; var aabb = new b2AABB(); aabb.lowerBound.Set(p.x - b2Settings.b2_linearSlop, p.y - b2Settings.b2_linearSlop); aabb.upperBound.Set(p.x + b2Settings.b2_linearSlop, p.y + b2Settings.b2_linearSlop); broadPhase.Query(WorldQueryWrapper, aabb); } b2World.prototype.RayCast = function (callback, point1, point2) { var __this = this; var broadPhase = __this.m_contactManager.m_broadPhase; var output = new b2RayCastOutput; function RayCastWrapper(input, proxy) { var userData = broadPhase.GetUserData(proxy); var fixture = (userData instanceof b2Fixture ? userData : null); var hit = fixture.RayCast(output, input); if (hit) { var fraction = output.fraction; var point = new b2Vec2((1.0 - fraction) * point1.x + fraction * point2.x, (1.0 - fraction) * point1.y + fraction * point2.y); return callback(fixture, point, output.normal, fraction); } return input.maxFraction; }; var input = new b2RayCastInput(point1, point2); broadPhase.RayCast(RayCastWrapper, input); } b2World.prototype.RayCastOne = function (point1, point2) { var __this = this; var result; function RayCastOneWrapper(fixture, point, normal, fraction) { if (fraction === undefined) fraction = 0; result = fixture; return fraction; }; __this.RayCast(RayCastOneWrapper, point1, point2); return result; } b2World.prototype.RayCastAll = function (point1, point2) { var __this = this; var result = new Vector(); function RayCastAllWrapper(fixture, point, normal, fraction) { if (fraction === undefined) fraction = 0; result[result.length] = fixture; return 1; }; __this.RayCast(RayCastAllWrapper, point1, point2); return result; } b2World.prototype.GetBodyList = function () { return this.m_bodyList; } b2World.prototype.GetJointList = function () { return this.m_jointList; } b2World.prototype.GetContactList = function () { return this.m_contactList; } b2World.prototype.IsLocked = function () { return (this.m_flags & b2World.e_locked) > 0; } b2World.prototype.Solve = function (step) { var b; for (var controller = this.m_controllerList; controller; controller = controller.m_next) { controller.Step(step); } var island = this.m_island; island.Initialize(this.m_bodyCount, this.m_contactCount, this.m_jointCount, null, this.m_contactManager.m_contactListener, this.m_contactSolver); for (b = this.m_bodyList; b; b = b.m_next) { b.m_flags &= ~b2Body.e_islandFlag; } for (var c = this.m_contactList; c; c = c.m_next) { c.m_flags &= ~b2Contact.e_islandFlag; } for (var j = this.m_jointList; j; j = j.m_next) { j.m_islandFlag = false; } var stackSize = parseInt(this.m_bodyCount); var stack = this.s_stack; for (var seed = this.m_bodyList; seed; seed = seed.m_next) { if (seed.m_flags & b2Body.e_islandFlag) { continue; } if (seed.IsAwake() == false || seed.IsActive() == false) { continue; } if (seed.GetType() == b2Body.b2_staticBody) { continue; } island.Clear(); var stackCount = 0; stack[stackCount++] = seed; seed.m_flags |= b2Body.e_islandFlag; while (stackCount > 0) { b = stack[--stackCount]; island.AddBody(b); if (b.IsAwake() == false) { b.SetAwake(true); } if (b.GetType() == b2Body.b2_staticBody) { continue; } var other; for (var ce = b.m_contactList; ce; ce = ce.next) { if (ce.contact.m_flags & b2Contact.e_islandFlag) { continue; } if (ce.contact.IsSensor() == true || ce.contact.IsEnabled() == false || ce.contact.IsTouching() == false) { continue; } island.AddContact(ce.contact); ce.contact.m_flags |= b2Contact.e_islandFlag; other = ce.other; if (other.m_flags & b2Body.e_islandFlag) { continue; } stack[stackCount++] = other; other.m_flags |= b2Body.e_islandFlag; } for (var jn = b.m_jointList; jn; jn = jn.next) { if (jn.joint.m_islandFlag == true) { continue; } other = jn.other; if (other.IsActive() == false) { continue; } island.AddJoint(jn.joint); jn.joint.m_islandFlag = true; if (other.m_flags & b2Body.e_islandFlag) { continue; } stack[stackCount++] = other; other.m_flags |= b2Body.e_islandFlag; } } island.Solve(step, this.m_gravity, this.m_allowSleep); for (var i = 0; i < island.m_bodyCount; ++i) { b = island.m_bodies[i]; if (b.GetType() == b2Body.b2_staticBody) { b.m_flags &= ~b2Body.e_islandFlag; } } } for (i = 0; i < stack.length; ++i) { if (!stack[i]) break; stack[i] = null; } for (b = this.m_bodyList; b; b = b.m_next) { if (b.IsAwake() == false || b.IsActive() == false) { continue; } if (b.GetType() == b2Body.b2_staticBody) { continue; } b.SynchronizeFixtures(); } this.m_contactManager.FindNewContacts(); } b2World.prototype.SolveTOI = function (step) { var b; var fA; var fB; var bA; var bB; var cEdge; var j; var island = this.m_island; island.Initialize(this.m_bodyCount, b2Settings.b2_maxTOIContactsPerIsland, b2Settings.b2_maxTOIJointsPerIsland, null, this.m_contactManager.m_contactListener, this.m_contactSolver); var queue = b2World.s_queue; for (b = this.m_bodyList; b; b = b.m_next) { b.m_flags &= ~b2Body.e_islandFlag; b.m_sweep.t0 = 0.0; } var c; for (c = this.m_contactList; c; c = c.m_next) { c.m_flags &= ~ (b2Contact.e_toiFlag | b2Contact.e_islandFlag); } for (j = this.m_jointList; j; j = j.m_next) { j.m_islandFlag = false; } for (;;) { var minContact = null; var minTOI = 1.0; for (c = this.m_contactList; c; c = c.m_next) { if (c.IsSensor() == true || c.IsEnabled() == false || c.IsContinuous() == false) { continue; } var toi = 1.0; if (c.m_flags & b2Contact.e_toiFlag) { toi = c.m_toi; } else { fA = c.m_fixtureA; fB = c.m_fixtureB; bA = fA.m_body; bB = fB.m_body; if ((bA.GetType() != b2Body.b2_dynamicBody || bA.IsAwake() == false) && (bB.GetType() != b2Body.b2_dynamicBody || bB.IsAwake() == false)) { continue; } var t0 = bA.m_sweep.t0; if (bA.m_sweep.t0 < bB.m_sweep.t0) { t0 = bB.m_sweep.t0; bA.m_sweep.Advance(t0); } else if (bB.m_sweep.t0 < bA.m_sweep.t0) { t0 = bA.m_sweep.t0; bB.m_sweep.Advance(t0); } toi = c.ComputeTOI(bA.m_sweep, bB.m_sweep); b2Settings.b2Assert(0.0 <= toi && toi <= 1.0); if (toi > 0.0 && toi < 1.0) { toi = (1.0 - toi) * t0 + toi; if (toi > 1) toi = 1; } c.m_toi = toi; c.m_flags |= b2Contact.e_toiFlag; } if (Number.MIN_VALUE < toi && toi < minTOI) { minContact = c; minTOI = toi; } } if (minContact == null || 1.0 - 100.0 * Number.MIN_VALUE < minTOI) { break; } fA = minContact.m_fixtureA; fB = minContact.m_fixtureB; bA = fA.m_body; bB = fB.m_body; b2World.s_backupA.Set(bA.m_sweep); b2World.s_backupB.Set(bB.m_sweep); bA.Advance(minTOI); bB.Advance(minTOI); minContact.Update(this.m_contactManager.m_contactListener); minContact.m_flags &= ~b2Contact.e_toiFlag; if (minContact.IsSensor() == true || minContact.IsEnabled() == false) { bA.m_sweep.Set(b2World.s_backupA); bB.m_sweep.Set(b2World.s_backupB); bA.SynchronizeTransform(); bB.SynchronizeTransform(); continue; } if (minContact.IsTouching() == false) { continue; } var seed = bA; if (seed.GetType() != b2Body.b2_dynamicBody) { seed = bB; } island.Clear(); var queueStart = 0; var queueSize = 0; queue[queueStart + queueSize++] = seed; seed.m_flags |= b2Body.e_islandFlag; while (queueSize > 0) { b = queue[queueStart++]; --queueSize; island.AddBody(b); if (b.IsAwake() == false) { b.SetAwake(true); } if (b.GetType() != b2Body.b2_dynamicBody) { continue; } for (cEdge = b.m_contactList; cEdge; cEdge = cEdge.next) { if (island.m_contactCount == island.m_contactCapacity) { break; } if (cEdge.contact.m_flags & b2Contact.e_islandFlag) { continue; } if (cEdge.contact.IsSensor() == true || cEdge.contact.IsEnabled() == false || cEdge.contact.IsTouching() == false) { continue; } island.AddContact(cEdge.contact); cEdge.contact.m_flags |= b2Contact.e_islandFlag; var other = cEdge.other; if (other.m_flags & b2Body.e_islandFlag) { continue; } if (other.GetType() != b2Body.b2_staticBody) { other.Advance(minTOI); other.SetAwake(true); } queue[queueStart + queueSize] = other; ++queueSize; other.m_flags |= b2Body.e_islandFlag; } for (var jEdge = b.m_jointList; jEdge; jEdge = jEdge.next) { if (island.m_jointCount == island.m_jointCapacity) continue; if (jEdge.joint.m_islandFlag == true) continue; other = jEdge.other; if (other.IsActive() == false) { continue; } island.AddJoint(jEdge.joint); jEdge.joint.m_islandFlag = true; if (other.m_flags & b2Body.e_islandFlag) continue; if (other.GetType() != b2Body.b2_staticBody) { other.Advance(minTOI); other.SetAwake(true); } queue[queueStart + queueSize] = other; ++queueSize; other.m_flags |= b2Body.e_islandFlag; } } var subStep = b2World.s_timestep; subStep.warmStarting = false; subStep.dt = (1.0 - minTOI) * step.dt; subStep.inv_dt = 1.0 / subStep.dt; subStep.dtRatio = 0.0; subStep.velocityIterations = step.velocityIterations; subStep.positionIterations = step.positionIterations; island.SolveTOI(subStep); var i = 0; for (i = 0; i < island.m_bodyCount; ++i) { b = island.m_bodies[i]; b.m_flags &= ~b2Body.e_islandFlag; if (b.IsAwake() == false) { continue; } if (b.GetType() != b2Body.b2_dynamicBody) { continue; } b.SynchronizeFixtures(); for (cEdge = b.m_contactList; cEdge; cEdge = cEdge.next) { cEdge.contact.m_flags &= ~b2Contact.e_toiFlag; } } for (i = 0; i < island.m_contactCount; ++i) { c = island.m_contacts[i]; c.m_flags &= ~ (b2Contact.e_toiFlag | b2Contact.e_islandFlag); } for (i = 0; i < island.m_jointCount; ++i) { j = island.m_joints[i]; j.m_islandFlag = false; } this.m_contactManager.FindNewContacts(); } } b2World.prototype.DrawJoint = function (joint) { var b1 = joint.GetBodyA(); var b2 = joint.GetBodyB(); var xf1 = b1.m_xf; var xf2 = b2.m_xf; var x1 = xf1.position; var x2 = xf2.position; var p1 = joint.GetAnchorA(); var p2 = joint.GetAnchorB(); var color = b2World.s_jointColor; switch (joint.m_type) { case b2Joint.e_distanceJoint: this.m_debugDraw.DrawSegment(p1, p2, color); break; case b2Joint.e_pulleyJoint: { var pulley = ((joint instanceof b2PulleyJoint ? joint : null)); var s1 = pulley.GetGroundAnchorA(); var s2 = pulley.GetGroundAnchorB(); this.m_debugDraw.DrawSegment(s1, p1, color); this.m_debugDraw.DrawSegment(s2, p2, color); this.m_debugDraw.DrawSegment(s1, s2, color); } break; case b2Joint.e_mouseJoint: this.m_debugDraw.DrawSegment(p1, p2, color); break; default: if (b1 != this.m_groundBody) this.m_debugDraw.DrawSegment(x1, p1, color); this.m_debugDraw.DrawSegment(p1, p2, color); if (b2 != this.m_groundBody) this.m_debugDraw.DrawSegment(x2, p2, color); } } b2World.prototype.DrawShape = function (shape, xf, color) { switch (shape.m_type) { case b2Shape.e_circleShape: { var circle = ((shape instanceof b2CircleShape ? shape : null)); var center = b2Math.MulX(xf, circle.m_p); var radius = circle.m_radius; var axis = xf.R.col1; this.m_debugDraw.DrawSolidCircle(center, radius, axis, color); } break; case b2Shape.e_polygonShape: { var i = 0; var poly = ((shape instanceof b2PolygonShape ? shape : null)); var vertexCount = parseInt(poly.GetVertexCount()); var localVertices = poly.GetVertices(); var vertices = new Vector(vertexCount); for (i = 0; i < vertexCount; ++i) { vertices[i] = b2Math.MulX(xf, localVertices[i]); } this.m_debugDraw.DrawSolidPolygon(vertices, vertexCount, color); } break; case b2Shape.e_edgeShape: { var edge = (shape instanceof b2EdgeShape ? shape : null); this.m_debugDraw.DrawSegment(b2Math.MulX(xf, edge.GetVertex1()), b2Math.MulX(xf, edge.GetVertex2()), color); } break; } } Box2D.postDefs.push(function () { Box2D.Dynamics.b2World.s_timestep2 = new b2TimeStep(); Box2D.Dynamics.b2World.s_xf = new b2Transform(); Box2D.Dynamics.b2World.s_backupA = new b2Sweep(); Box2D.Dynamics.b2World.s_backupB = new b2Sweep(); Box2D.Dynamics.b2World.s_timestep = new b2TimeStep(); Box2D.Dynamics.b2World.s_queue = new Vector(); Box2D.Dynamics.b2World.s_jointColor = new b2Color(0.5, 0.8, 0.8); Box2D.Dynamics.b2World.e_newFixture = 0x0001; Box2D.Dynamics.b2World.e_locked = 0x0002; }); })(); (function () { var b2CircleShape = Box2D.Collision.Shapes.b2CircleShape, b2EdgeChainDef = Box2D.Collision.Shapes.b2EdgeChainDef, b2EdgeShape = Box2D.Collision.Shapes.b2EdgeShape, b2MassData = Box2D.Collision.Shapes.b2MassData, b2PolygonShape = Box2D.Collision.Shapes.b2PolygonShape, b2Shape = Box2D.Collision.Shapes.b2Shape, b2CircleContact = Box2D.Dynamics.Contacts.b2CircleContact, b2Contact = Box2D.Dynamics.Contacts.b2Contact, b2ContactConstraint = Box2D.Dynamics.Contacts.b2ContactConstraint, b2ContactConstraintPoint = Box2D.Dynamics.Contacts.b2ContactConstraintPoint, b2ContactEdge = Box2D.Dynamics.Contacts.b2ContactEdge, b2ContactFactory = Box2D.Dynamics.Contacts.b2ContactFactory, b2ContactRegister = Box2D.Dynamics.Contacts.b2ContactRegister, b2ContactResult = Box2D.Dynamics.Contacts.b2ContactResult, b2ContactSolver = Box2D.Dynamics.Contacts.b2ContactSolver, b2EdgeAndCircleContact = Box2D.Dynamics.Contacts.b2EdgeAndCircleContact, b2NullContact = Box2D.Dynamics.Contacts.b2NullContact, b2PolyAndCircleContact = Box2D.Dynamics.Contacts.b2PolyAndCircleContact, b2PolyAndEdgeContact = Box2D.Dynamics.Contacts.b2PolyAndEdgeContact, b2PolygonContact = Box2D.Dynamics.Contacts.b2PolygonContact, b2PositionSolverManifold = Box2D.Dynamics.Contacts.b2PositionSolverManifold, b2Body = Box2D.Dynamics.b2Body, b2BodyDef = Box2D.Dynamics.b2BodyDef, b2ContactFilter = Box2D.Dynamics.b2ContactFilter, b2ContactImpulse = Box2D.Dynamics.b2ContactImpulse, b2ContactListener = Box2D.Dynamics.b2ContactListener, b2ContactManager = Box2D.Dynamics.b2ContactManager, b2DebugDraw = Box2D.Dynamics.b2DebugDraw, b2DestructionListener = Box2D.Dynamics.b2DestructionListener, b2FilterData = Box2D.Dynamics.b2FilterData, b2Fixture = Box2D.Dynamics.b2Fixture, b2FixtureDef = Box2D.Dynamics.b2FixtureDef, b2Island = Box2D.Dynamics.b2Island, b2TimeStep = Box2D.Dynamics.b2TimeStep, b2World = Box2D.Dynamics.b2World, b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2AABB = Box2D.Collision.b2AABB, b2Bound = Box2D.Collision.b2Bound, b2BoundValues = Box2D.Collision.b2BoundValues, b2Collision = Box2D.Collision.b2Collision, b2ContactID = Box2D.Collision.b2ContactID, b2ContactPoint = Box2D.Collision.b2ContactPoint, b2Distance = Box2D.Collision.b2Distance, b2DistanceInput = Box2D.Collision.b2DistanceInput, b2DistanceOutput = Box2D.Collision.b2DistanceOutput, b2DistanceProxy = Box2D.Collision.b2DistanceProxy, b2DynamicTree = Box2D.Collision.b2DynamicTree, b2DynamicTreeBroadPhase = Box2D.Collision.b2DynamicTreeBroadPhase, b2DynamicTreeNode = Box2D.Collision.b2DynamicTreeNode, b2DynamicTreePair = Box2D.Collision.b2DynamicTreePair, b2Manifold = Box2D.Collision.b2Manifold, b2ManifoldPoint = Box2D.Collision.b2ManifoldPoint, b2Point = Box2D.Collision.b2Point, b2RayCastInput = Box2D.Collision.b2RayCastInput, b2RayCastOutput = Box2D.Collision.b2RayCastOutput, b2Segment = Box2D.Collision.b2Segment, b2SeparationFunction = Box2D.Collision.b2SeparationFunction, b2Simplex = Box2D.Collision.b2Simplex, b2SimplexCache = Box2D.Collision.b2SimplexCache, b2SimplexVertex = Box2D.Collision.b2SimplexVertex, b2TimeOfImpact = Box2D.Collision.b2TimeOfImpact, b2TOIInput = Box2D.Collision.b2TOIInput, b2WorldManifold = Box2D.Collision.b2WorldManifold, ClipVertex = Box2D.Collision.ClipVertex, Features = Box2D.Collision.Features, IBroadPhase = Box2D.Collision.IBroadPhase; Box2D.inherit(b2CircleContact, Box2D.Dynamics.Contacts.b2Contact); b2CircleContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2CircleContact.b2CircleContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2CircleContact.Create = function (allocator) { return new b2CircleContact(); } b2CircleContact.Destroy = function (contact, allocator) {} b2CircleContact.prototype.Reset = function (fixtureA, fixtureB) { this.__super.Reset.call(this, fixtureA, fixtureB); } b2CircleContact.prototype.Evaluate = function () { var bA = this.m_fixtureA.GetBody(); var bB = this.m_fixtureB.GetBody(); b2Collision.CollideCircles(this.m_manifold, (this.m_fixtureA.GetShape() instanceof b2CircleShape ? this.m_fixtureA.GetShape() : null), bA.m_xf, (this.m_fixtureB.GetShape() instanceof b2CircleShape ? this.m_fixtureB.GetShape() : null), bB.m_xf); } b2Contact.b2Contact = function () { this.m_nodeA = new b2ContactEdge(); this.m_nodeB = new b2ContactEdge(); this.m_manifold = new b2Manifold(); this.m_oldManifold = new b2Manifold(); }; b2Contact.prototype.GetManifold = function () { return this.m_manifold; } b2Contact.prototype.GetWorldManifold = function (worldManifold) { var bodyA = this.m_fixtureA.GetBody(); var bodyB = this.m_fixtureB.GetBody(); var shapeA = this.m_fixtureA.GetShape(); var shapeB = this.m_fixtureB.GetShape(); worldManifold.Initialize(this.m_manifold, bodyA.GetTransform(), shapeA.m_radius, bodyB.GetTransform(), shapeB.m_radius); } b2Contact.prototype.IsTouching = function () { return (this.m_flags & b2Contact.e_touchingFlag) == b2Contact.e_touchingFlag; } b2Contact.prototype.IsContinuous = function () { return (this.m_flags & b2Contact.e_continuousFlag) == b2Contact.e_continuousFlag; } b2Contact.prototype.SetSensor = function (sensor) { if (sensor) { this.m_flags |= b2Contact.e_sensorFlag; } else { this.m_flags &= ~b2Contact.e_sensorFlag; } } b2Contact.prototype.IsSensor = function () { return (this.m_flags & b2Contact.e_sensorFlag) == b2Contact.e_sensorFlag; } b2Contact.prototype.SetEnabled = function (flag) { if (flag) { this.m_flags |= b2Contact.e_enabledFlag; } else { this.m_flags &= ~b2Contact.e_enabledFlag; } } b2Contact.prototype.IsEnabled = function () { return (this.m_flags & b2Contact.e_enabledFlag) == b2Contact.e_enabledFlag; } b2Contact.prototype.GetNext = function () { return this.m_next; } b2Contact.prototype.GetFixtureA = function () { return this.m_fixtureA; } b2Contact.prototype.GetFixtureB = function () { return this.m_fixtureB; } b2Contact.prototype.FlagForFiltering = function () { this.m_flags |= b2Contact.e_filterFlag; } b2Contact.prototype.b2Contact = function () {} b2Contact.prototype.Reset = function (fixtureA, fixtureB) { if (fixtureA === undefined) fixtureA = null; if (fixtureB === undefined) fixtureB = null; this.m_flags = b2Contact.e_enabledFlag; if (!fixtureA || !fixtureB) { this.m_fixtureA = null; this.m_fixtureB = null; return; } if (fixtureA.IsSensor() || fixtureB.IsSensor()) { this.m_flags |= b2Contact.e_sensorFlag; } var bodyA = fixtureA.GetBody(); var bodyB = fixtureB.GetBody(); if (bodyA.GetType() != b2Body.b2_dynamicBody || bodyA.IsBullet() || bodyB.GetType() != b2Body.b2_dynamicBody || bodyB.IsBullet()) { this.m_flags |= b2Contact.e_continuousFlag; } this.m_fixtureA = fixtureA; this.m_fixtureB = fixtureB; this.m_manifold.m_pointCount = 0; this.m_prev = null; this.m_next = null; this.m_nodeA.contact = null; this.m_nodeA.prev = null; this.m_nodeA.next = null; this.m_nodeA.other = null; this.m_nodeB.contact = null; this.m_nodeB.prev = null; this.m_nodeB.next = null; this.m_nodeB.other = null; } b2Contact.prototype.Update = function (listener) { var tManifold = this.m_oldManifold; this.m_oldManifold = this.m_manifold; this.m_manifold = tManifold; this.m_flags |= b2Contact.e_enabledFlag; var touching = false; var wasTouching = (this.m_flags & b2Contact.e_touchingFlag) == b2Contact.e_touchingFlag; var bodyA = this.m_fixtureA.m_body; var bodyB = this.m_fixtureB.m_body; var aabbOverlap = this.m_fixtureA.m_aabb.TestOverlap(this.m_fixtureB.m_aabb); if (this.m_flags & b2Contact.e_sensorFlag) { if (aabbOverlap) { var shapeA = this.m_fixtureA.GetShape(); var shapeB = this.m_fixtureB.GetShape(); var xfA = bodyA.GetTransform(); var xfB = bodyB.GetTransform(); touching = b2Shape.TestOverlap(shapeA, xfA, shapeB, xfB); } this.m_manifold.m_pointCount = 0; } else { if (bodyA.GetType() != b2Body.b2_dynamicBody || bodyA.IsBullet() || bodyB.GetType() != b2Body.b2_dynamicBody || bodyB.IsBullet()) { this.m_flags |= b2Contact.e_continuousFlag; } else { this.m_flags &= ~b2Contact.e_continuousFlag; } if (aabbOverlap) { this.Evaluate(); touching = this.m_manifold.m_pointCount > 0; for (var i = 0; i < this.m_manifold.m_pointCount; ++i) { var mp2 = this.m_manifold.m_points[i]; mp2.m_normalImpulse = 0.0; mp2.m_tangentImpulse = 0.0; var id2 = mp2.m_id; for (var j = 0; j < this.m_oldManifold.m_pointCount; ++j) { var mp1 = this.m_oldManifold.m_points[j]; if (mp1.m_id.key == id2.key) { mp2.m_normalImpulse = mp1.m_normalImpulse; mp2.m_tangentImpulse = mp1.m_tangentImpulse; break; } } } } else { this.m_manifold.m_pointCount = 0; } if (touching != wasTouching) { bodyA.SetAwake(true); bodyB.SetAwake(true); } } if (touching) { this.m_flags |= b2Contact.e_touchingFlag; } else { this.m_flags &= ~b2Contact.e_touchingFlag; } if (wasTouching == false && touching == true) { listener.BeginContact(this); } if (wasTouching == true && touching == false) { listener.EndContact(this); } if ((this.m_flags & b2Contact.e_sensorFlag) == 0) { listener.PreSolve(this, this.m_oldManifold); } } b2Contact.prototype.Evaluate = function () {} b2Contact.prototype.ComputeTOI = function (sweepA, sweepB) { b2Contact.s_input.proxyA.Set(this.m_fixtureA.GetShape()); b2Contact.s_input.proxyB.Set(this.m_fixtureB.GetShape()); b2Contact.s_input.sweepA = sweepA; b2Contact.s_input.sweepB = sweepB; b2Contact.s_input.tolerance = b2Settings.b2_linearSlop; return b2TimeOfImpact.TimeOfImpact(b2Contact.s_input); } Box2D.postDefs.push(function () { Box2D.Dynamics.Contacts.b2Contact.e_sensorFlag = 0x0001; Box2D.Dynamics.Contacts.b2Contact.e_continuousFlag = 0x0002; Box2D.Dynamics.Contacts.b2Contact.e_islandFlag = 0x0004; Box2D.Dynamics.Contacts.b2Contact.e_toiFlag = 0x0008; Box2D.Dynamics.Contacts.b2Contact.e_touchingFlag = 0x0010; Box2D.Dynamics.Contacts.b2Contact.e_enabledFlag = 0x0020; Box2D.Dynamics.Contacts.b2Contact.e_filterFlag = 0x0040; Box2D.Dynamics.Contacts.b2Contact.s_input = new b2TOIInput(); }); b2ContactConstraint.b2ContactConstraint = function () { this.localPlaneNormal = new b2Vec2(); this.localPoint = new b2Vec2(); this.normal = new b2Vec2(); this.normalMass = new b2Mat22(); this.K = new b2Mat22(); }; b2ContactConstraint.prototype.b2ContactConstraint = function () { this.points = new Vector(b2Settings.b2_maxManifoldPoints); for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { this.points[i] = new b2ContactConstraintPoint(); } } b2ContactConstraintPoint.b2ContactConstraintPoint = function () { this.localPoint = new b2Vec2(); this.rA = new b2Vec2(); this.rB = new b2Vec2(); }; b2ContactEdge.b2ContactEdge = function () {}; b2ContactFactory.b2ContactFactory = function () {}; b2ContactFactory.prototype.b2ContactFactory = function (allocator) { this.m_allocator = allocator; this.InitializeRegisters(); } b2ContactFactory.prototype.AddType = function (createFcn, destroyFcn, type1, type2) { if (type1 === undefined) type1 = 0; if (type2 === undefined) type2 = 0; this.m_registers[type1][type2].createFcn = createFcn; this.m_registers[type1][type2].destroyFcn = destroyFcn; this.m_registers[type1][type2].primary = true; if (type1 != type2) { this.m_registers[type2][type1].createFcn = createFcn; this.m_registers[type2][type1].destroyFcn = destroyFcn; this.m_registers[type2][type1].primary = false; } } b2ContactFactory.prototype.InitializeRegisters = function () { this.m_registers = new Vector(b2Shape.e_shapeTypeCount); for (var i = 0; i < b2Shape.e_shapeTypeCount; i++) { this.m_registers[i] = new Vector(b2Shape.e_shapeTypeCount); for (var j = 0; j < b2Shape.e_shapeTypeCount; j++) { this.m_registers[i][j] = new b2ContactRegister(); } } this.AddType(b2CircleContact.Create, b2CircleContact.Destroy, b2Shape.e_circleShape, b2Shape.e_circleShape); this.AddType(b2PolyAndCircleContact.Create, b2PolyAndCircleContact.Destroy, b2Shape.e_polygonShape, b2Shape.e_circleShape); this.AddType(b2PolygonContact.Create, b2PolygonContact.Destroy, b2Shape.e_polygonShape, b2Shape.e_polygonShape); this.AddType(b2EdgeAndCircleContact.Create, b2EdgeAndCircleContact.Destroy, b2Shape.e_edgeShape, b2Shape.e_circleShape); this.AddType(b2PolyAndEdgeContact.Create, b2PolyAndEdgeContact.Destroy, b2Shape.e_polygonShape, b2Shape.e_edgeShape); } b2ContactFactory.prototype.Create = function (fixtureA, fixtureB) { var type1 = parseInt(fixtureA.GetType()); var type2 = parseInt(fixtureB.GetType()); var reg = this.m_registers[type1][type2]; var c; if (reg.pool) { c = reg.pool; reg.pool = c.m_next; reg.poolCount--; c.Reset(fixtureA, fixtureB); return c; } var createFcn = reg.createFcn; if (createFcn != null) { if (reg.primary) { c = createFcn(this.m_allocator); c.Reset(fixtureA, fixtureB); return c; } else { c = createFcn(this.m_allocator); c.Reset(fixtureB, fixtureA); return c; } } else { return null; } } b2ContactFactory.prototype.Destroy = function (contact) { if (contact.m_manifold.m_pointCount > 0) { contact.m_fixtureA.m_body.SetAwake(true); contact.m_fixtureB.m_body.SetAwake(true); } var type1 = parseInt(contact.m_fixtureA.GetType()); var type2 = parseInt(contact.m_fixtureB.GetType()); var reg = this.m_registers[type1][type2]; if (true) { reg.poolCount++; contact.m_next = reg.pool; reg.pool = contact; } var destroyFcn = reg.destroyFcn; destroyFcn(contact, this.m_allocator); } b2ContactRegister.b2ContactRegister = function () {}; b2ContactResult.b2ContactResult = function () { this.position = new b2Vec2(); this.normal = new b2Vec2(); this.id = new b2ContactID(); }; b2ContactSolver.b2ContactSolver = function () { this.m_step = new b2TimeStep(); this.m_constraints = new Vector(); }; b2ContactSolver.prototype.b2ContactSolver = function () {} b2ContactSolver.prototype.Initialize = function (step, contacts, contactCount, allocator) { if (contactCount === undefined) contactCount = 0; var contact; this.m_step.Set(step); this.m_allocator = allocator; var i = 0; var tVec; var tMat; this.m_constraintCount = contactCount; while (this.m_constraints.length < this.m_constraintCount) { this.m_constraints[this.m_constraints.length] = new b2ContactConstraint(); } for (i = 0; i < contactCount; ++i) { contact = contacts[i]; var fixtureA = contact.m_fixtureA; var fixtureB = contact.m_fixtureB; var shapeA = fixtureA.m_shape; var shapeB = fixtureB.m_shape; var radiusA = shapeA.m_radius; var radiusB = shapeB.m_radius; var bodyA = fixtureA.m_body; var bodyB = fixtureB.m_body; var manifold = contact.GetManifold(); var friction = b2Settings.b2MixFriction(fixtureA.GetFriction(), fixtureB.GetFriction()); var restitution = b2Settings.b2MixRestitution(fixtureA.GetRestitution(), fixtureB.GetRestitution()); var vAX = bodyA.m_linearVelocity.x; var vAY = bodyA.m_linearVelocity.y; var vBX = bodyB.m_linearVelocity.x; var vBY = bodyB.m_linearVelocity.y; var wA = bodyA.m_angularVelocity; var wB = bodyB.m_angularVelocity; b2Settings.b2Assert(manifold.m_pointCount > 0); b2ContactSolver.s_worldManifold.Initialize(manifold, bodyA.m_xf, radiusA, bodyB.m_xf, radiusB); var normalX = b2ContactSolver.s_worldManifold.m_normal.x; var normalY = b2ContactSolver.s_worldManifold.m_normal.y; var cc = this.m_constraints[i]; cc.bodyA = bodyA; cc.bodyB = bodyB; cc.manifold = manifold; cc.normal.x = normalX; cc.normal.y = normalY; cc.pointCount = manifold.m_pointCount; cc.friction = friction; cc.restitution = restitution; cc.localPlaneNormal.x = manifold.m_localPlaneNormal.x; cc.localPlaneNormal.y = manifold.m_localPlaneNormal.y; cc.localPoint.x = manifold.m_localPoint.x; cc.localPoint.y = manifold.m_localPoint.y; cc.radius = radiusA + radiusB; cc.type = manifold.m_type; for (var k = 0; k < cc.pointCount; ++k) { var cp = manifold.m_points[k]; var ccp = cc.points[k]; ccp.normalImpulse = cp.m_normalImpulse; ccp.tangentImpulse = cp.m_tangentImpulse; ccp.localPoint.SetV(cp.m_localPoint); var rAX = ccp.rA.x = b2ContactSolver.s_worldManifold.m_points[k].x - bodyA.m_sweep.c.x; var rAY = ccp.rA.y = b2ContactSolver.s_worldManifold.m_points[k].y - bodyA.m_sweep.c.y; var rBX = ccp.rB.x = b2ContactSolver.s_worldManifold.m_points[k].x - bodyB.m_sweep.c.x; var rBY = ccp.rB.y = b2ContactSolver.s_worldManifold.m_points[k].y - bodyB.m_sweep.c.y; var rnA = rAX * normalY - rAY * normalX; var rnB = rBX * normalY - rBY * normalX; rnA *= rnA; rnB *= rnB; var kNormal = bodyA.m_invMass + bodyB.m_invMass + bodyA.m_invI * rnA + bodyB.m_invI * rnB; ccp.normalMass = 1.0 / kNormal; var kEqualized = bodyA.m_mass * bodyA.m_invMass + bodyB.m_mass * bodyB.m_invMass; kEqualized += bodyA.m_mass * bodyA.m_invI * rnA + bodyB.m_mass * bodyB.m_invI * rnB; ccp.equalizedMass = 1.0 / kEqualized; var tangentX = normalY; var tangentY = (-normalX); var rtA = rAX * tangentY - rAY * tangentX; var rtB = rBX * tangentY - rBY * tangentX; rtA *= rtA; rtB *= rtB; var kTangent = bodyA.m_invMass + bodyB.m_invMass + bodyA.m_invI * rtA + bodyB.m_invI * rtB; ccp.tangentMass = 1.0 / kTangent; ccp.velocityBias = 0.0; var tX = vBX + ((-wB * rBY)) - vAX - ((-wA * rAY)); var tY = vBY + (wB * rBX) - vAY - (wA * rAX); var vRel = cc.normal.x * tX + cc.normal.y * tY; if (vRel < (-b2Settings.b2_velocityThreshold)) { ccp.velocityBias += (-cc.restitution * vRel); } } if (cc.pointCount == 2) { var ccp1 = cc.points[0]; var ccp2 = cc.points[1]; var invMassA = bodyA.m_invMass; var invIA = bodyA.m_invI; var invMassB = bodyB.m_invMass; var invIB = bodyB.m_invI; var rn1A = ccp1.rA.x * normalY - ccp1.rA.y * normalX; var rn1B = ccp1.rB.x * normalY - ccp1.rB.y * normalX; var rn2A = ccp2.rA.x * normalY - ccp2.rA.y * normalX; var rn2B = ccp2.rB.x * normalY - ccp2.rB.y * normalX; var k11 = invMassA + invMassB + invIA * rn1A * rn1A + invIB * rn1B * rn1B; var k22 = invMassA + invMassB + invIA * rn2A * rn2A + invIB * rn2B * rn2B; var k12 = invMassA + invMassB + invIA * rn1A * rn2A + invIB * rn1B * rn2B; var k_maxConditionNumber = 100.0; if (k11 * k11 < k_maxConditionNumber * (k11 * k22 - k12 * k12)) { cc.K.col1.Set(k11, k12); cc.K.col2.Set(k12, k22); cc.K.GetInverse(cc.normalMass); } else { cc.pointCount = 1; } } } } b2ContactSolver.prototype.InitVelocityConstraints = function (step) { var tVec; var tVec2; var tMat; for (var i = 0; i < this.m_constraintCount; ++i) { var c = this.m_constraints[i]; var bodyA = c.bodyA; var bodyB = c.bodyB; var invMassA = bodyA.m_invMass; var invIA = bodyA.m_invI; var invMassB = bodyB.m_invMass; var invIB = bodyB.m_invI; var normalX = c.normal.x; var normalY = c.normal.y; var tangentX = normalY; var tangentY = (-normalX); var tX = 0; var j = 0; var tCount = 0; if (step.warmStarting) { tCount = c.pointCount; for (j = 0; j < tCount; ++j) { var ccp = c.points[j]; ccp.normalImpulse *= step.dtRatio; ccp.tangentImpulse *= step.dtRatio; var PX = ccp.normalImpulse * normalX + ccp.tangentImpulse * tangentX; var PY = ccp.normalImpulse * normalY + ccp.tangentImpulse * tangentY; bodyA.m_angularVelocity -= invIA * (ccp.rA.x * PY - ccp.rA.y * PX); bodyA.m_linearVelocity.x -= invMassA * PX; bodyA.m_linearVelocity.y -= invMassA * PY; bodyB.m_angularVelocity += invIB * (ccp.rB.x * PY - ccp.rB.y * PX); bodyB.m_linearVelocity.x += invMassB * PX; bodyB.m_linearVelocity.y += invMassB * PY; } } else { tCount = c.pointCount; for (j = 0; j < tCount; ++j) { var ccp2 = c.points[j]; ccp2.normalImpulse = 0.0; ccp2.tangentImpulse = 0.0; } } } } b2ContactSolver.prototype.SolveVelocityConstraints = function () { var j = 0; var ccp; var rAX = 0; var rAY = 0; var rBX = 0; var rBY = 0; var dvX = 0; var dvY = 0; var vn = 0; var vt = 0; var lambda = 0; var maxFriction = 0; var newImpulse = 0; var PX = 0; var PY = 0; var dX = 0; var dY = 0; var P1X = 0; var P1Y = 0; var P2X = 0; var P2Y = 0; var tMat; var tVec; for (var i = 0; i < this.m_constraintCount; ++i) { var c = this.m_constraints[i]; var bodyA = c.bodyA; var bodyB = c.bodyB; var wA = bodyA.m_angularVelocity; var wB = bodyB.m_angularVelocity; var vA = bodyA.m_linearVelocity; var vB = bodyB.m_linearVelocity; var invMassA = bodyA.m_invMass; var invIA = bodyA.m_invI; var invMassB = bodyB.m_invMass; var invIB = bodyB.m_invI; var normalX = c.normal.x; var normalY = c.normal.y; var tangentX = normalY; var tangentY = (-normalX); var friction = c.friction; var tX = 0; for (j = 0; j < c.pointCount; j++) { ccp = c.points[j]; dvX = vB.x - wB * ccp.rB.y - vA.x + wA * ccp.rA.y; dvY = vB.y + wB * ccp.rB.x - vA.y - wA * ccp.rA.x; vt = dvX * tangentX + dvY * tangentY; lambda = ccp.tangentMass * (-vt); maxFriction = friction * ccp.normalImpulse; newImpulse = b2Math.Clamp(ccp.tangentImpulse + lambda, (-maxFriction), maxFriction); lambda = newImpulse - ccp.tangentImpulse; PX = lambda * tangentX; PY = lambda * tangentY; vA.x -= invMassA * PX; vA.y -= invMassA * PY; wA -= invIA * (ccp.rA.x * PY - ccp.rA.y * PX); vB.x += invMassB * PX; vB.y += invMassB * PY; wB += invIB * (ccp.rB.x * PY - ccp.rB.y * PX); ccp.tangentImpulse = newImpulse; } var tCount = parseInt(c.pointCount); if (c.pointCount == 1) { ccp = c.points[0]; dvX = vB.x + ((-wB * ccp.rB.y)) - vA.x - ((-wA * ccp.rA.y)); dvY = vB.y + (wB * ccp.rB.x) - vA.y - (wA * ccp.rA.x); vn = dvX * normalX + dvY * normalY; lambda = (-ccp.normalMass * (vn - ccp.velocityBias)); newImpulse = ccp.normalImpulse + lambda; newImpulse = newImpulse > 0 ? newImpulse : 0.0; lambda = newImpulse - ccp.normalImpulse; PX = lambda * normalX; PY = lambda * normalY; vA.x -= invMassA * PX; vA.y -= invMassA * PY; wA -= invIA * (ccp.rA.x * PY - ccp.rA.y * PX); vB.x += invMassB * PX; vB.y += invMassB * PY; wB += invIB * (ccp.rB.x * PY - ccp.rB.y * PX); ccp.normalImpulse = newImpulse; } else { var cp1 = c.points[0]; var cp2 = c.points[1]; var aX = cp1.normalImpulse; var aY = cp2.normalImpulse; var dv1X = vB.x - wB * cp1.rB.y - vA.x + wA * cp1.rA.y; var dv1Y = vB.y + wB * cp1.rB.x - vA.y - wA * cp1.rA.x; var dv2X = vB.x - wB * cp2.rB.y - vA.x + wA * cp2.rA.y; var dv2Y = vB.y + wB * cp2.rB.x - vA.y - wA * cp2.rA.x; var vn1 = dv1X * normalX + dv1Y * normalY; var vn2 = dv2X * normalX + dv2Y * normalY; var bX = vn1 - cp1.velocityBias; var bY = vn2 - cp2.velocityBias; tMat = c.K; bX -= tMat.col1.x * aX + tMat.col2.x * aY; bY -= tMat.col1.y * aX + tMat.col2.y * aY; var k_errorTol = 0.001; for (;;) { tMat = c.normalMass; var xX = (-(tMat.col1.x * bX + tMat.col2.x * bY)); var xY = (-(tMat.col1.y * bX + tMat.col2.y * bY)); if (xX >= 0.0 && xY >= 0.0) { dX = xX - aX; dY = xY - aY; P1X = dX * normalX; P1Y = dX * normalY; P2X = dY * normalX; P2Y = dY * normalY; vA.x -= invMassA * (P1X + P2X); vA.y -= invMassA * (P1Y + P2Y); wA -= invIA * (cp1.rA.x * P1Y - cp1.rA.y * P1X + cp2.rA.x * P2Y - cp2.rA.y * P2X); vB.x += invMassB * (P1X + P2X); vB.y += invMassB * (P1Y + P2Y); wB += invIB * (cp1.rB.x * P1Y - cp1.rB.y * P1X + cp2.rB.x * P2Y - cp2.rB.y * P2X); cp1.normalImpulse = xX; cp2.normalImpulse = xY; break; } xX = (-cp1.normalMass * bX); xY = 0.0; vn1 = 0.0; vn2 = c.K.col1.y * xX + bY; if (xX >= 0.0 && vn2 >= 0.0) { dX = xX - aX; dY = xY - aY; P1X = dX * normalX; P1Y = dX * normalY; P2X = dY * normalX; P2Y = dY * normalY; vA.x -= invMassA * (P1X + P2X); vA.y -= invMassA * (P1Y + P2Y); wA -= invIA * (cp1.rA.x * P1Y - cp1.rA.y * P1X + cp2.rA.x * P2Y - cp2.rA.y * P2X); vB.x += invMassB * (P1X + P2X); vB.y += invMassB * (P1Y + P2Y); wB += invIB * (cp1.rB.x * P1Y - cp1.rB.y * P1X + cp2.rB.x * P2Y - cp2.rB.y * P2X); cp1.normalImpulse = xX; cp2.normalImpulse = xY; break; } xX = 0.0; xY = (-cp2.normalMass * bY); vn1 = c.K.col2.x * xY + bX; vn2 = 0.0; if (xY >= 0.0 && vn1 >= 0.0) { dX = xX - aX; dY = xY - aY; P1X = dX * normalX; P1Y = dX * normalY; P2X = dY * normalX; P2Y = dY * normalY; vA.x -= invMassA * (P1X + P2X); vA.y -= invMassA * (P1Y + P2Y); wA -= invIA * (cp1.rA.x * P1Y - cp1.rA.y * P1X + cp2.rA.x * P2Y - cp2.rA.y * P2X); vB.x += invMassB * (P1X + P2X); vB.y += invMassB * (P1Y + P2Y); wB += invIB * (cp1.rB.x * P1Y - cp1.rB.y * P1X + cp2.rB.x * P2Y - cp2.rB.y * P2X); cp1.normalImpulse = xX; cp2.normalImpulse = xY; break; } xX = 0.0; xY = 0.0; vn1 = bX; vn2 = bY; if (vn1 >= 0.0 && vn2 >= 0.0) { dX = xX - aX; dY = xY - aY; P1X = dX * normalX; P1Y = dX * normalY; P2X = dY * normalX; P2Y = dY * normalY; vA.x -= invMassA * (P1X + P2X); vA.y -= invMassA * (P1Y + P2Y); wA -= invIA * (cp1.rA.x * P1Y - cp1.rA.y * P1X + cp2.rA.x * P2Y - cp2.rA.y * P2X); vB.x += invMassB * (P1X + P2X); vB.y += invMassB * (P1Y + P2Y); wB += invIB * (cp1.rB.x * P1Y - cp1.rB.y * P1X + cp2.rB.x * P2Y - cp2.rB.y * P2X); cp1.normalImpulse = xX; cp2.normalImpulse = xY; break; } break; } } bodyA.m_angularVelocity = wA; bodyB.m_angularVelocity = wB; } } b2ContactSolver.prototype.FinalizeVelocityConstraints = function () { for (var i = 0; i < this.m_constraintCount; ++i) { var c = this.m_constraints[i]; var m = c.manifold; for (var j = 0; j < c.pointCount; ++j) { var point1 = m.m_points[j]; var point2 = c.points[j]; point1.m_normalImpulse = point2.normalImpulse; point1.m_tangentImpulse = point2.tangentImpulse; } } } b2ContactSolver.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var minSeparation = 0.0; for (var i = 0; i < this.m_constraintCount; i++) { var c = this.m_constraints[i]; var bodyA = c.bodyA; var bodyB = c.bodyB; var invMassA = bodyA.m_mass * bodyA.m_invMass; var invIA = bodyA.m_mass * bodyA.m_invI; var invMassB = bodyB.m_mass * bodyB.m_invMass; var invIB = bodyB.m_mass * bodyB.m_invI; b2ContactSolver.s_psm.Initialize(c); var normal = b2ContactSolver.s_psm.m_normal; for (var j = 0; j < c.pointCount; j++) { var ccp = c.points[j]; var point = b2ContactSolver.s_psm.m_points[j]; var separation = b2ContactSolver.s_psm.m_separations[j]; var rAX = point.x - bodyA.m_sweep.c.x; var rAY = point.y - bodyA.m_sweep.c.y; var rBX = point.x - bodyB.m_sweep.c.x; var rBY = point.y - bodyB.m_sweep.c.y; minSeparation = minSeparation < separation ? minSeparation : separation; var C = b2Math.Clamp(baumgarte * (separation + b2Settings.b2_linearSlop), (-b2Settings.b2_maxLinearCorrection), 0.0); var impulse = (-ccp.equalizedMass * C); var PX = impulse * normal.x; var PY = impulse * normal.y;bodyA.m_sweep.c.x -= invMassA * PX; bodyA.m_sweep.c.y -= invMassA * PY; bodyA.m_sweep.a -= invIA * (rAX * PY - rAY * PX); bodyA.SynchronizeTransform(); bodyB.m_sweep.c.x += invMassB * PX; bodyB.m_sweep.c.y += invMassB * PY; bodyB.m_sweep.a += invIB * (rBX * PY - rBY * PX); bodyB.SynchronizeTransform(); } } return minSeparation > (-1.5 * b2Settings.b2_linearSlop); } Box2D.postDefs.push(function () { Box2D.Dynamics.Contacts.b2ContactSolver.s_worldManifold = new b2WorldManifold(); Box2D.Dynamics.Contacts.b2ContactSolver.s_psm = new b2PositionSolverManifold(); }); Box2D.inherit(b2EdgeAndCircleContact, Box2D.Dynamics.Contacts.b2Contact); b2EdgeAndCircleContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2EdgeAndCircleContact.b2EdgeAndCircleContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2EdgeAndCircleContact.Create = function (allocator) { return new b2EdgeAndCircleContact(); } b2EdgeAndCircleContact.Destroy = function (contact, allocator) {} b2EdgeAndCircleContact.prototype.Reset = function (fixtureA, fixtureB) { this.__super.Reset.call(this, fixtureA, fixtureB); } b2EdgeAndCircleContact.prototype.Evaluate = function () { var bA = this.m_fixtureA.GetBody(); var bB = this.m_fixtureB.GetBody(); this.b2CollideEdgeAndCircle(this.m_manifold, (this.m_fixtureA.GetShape() instanceof b2EdgeShape ? this.m_fixtureA.GetShape() : null), bA.m_xf, (this.m_fixtureB.GetShape() instanceof b2CircleShape ? this.m_fixtureB.GetShape() : null), bB.m_xf); } b2EdgeAndCircleContact.prototype.b2CollideEdgeAndCircle = function (manifold, edge, xf1, circle, xf2) {} Box2D.inherit(b2NullContact, Box2D.Dynamics.Contacts.b2Contact); b2NullContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2NullContact.b2NullContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2NullContact.prototype.b2NullContact = function () { this.__super.b2Contact.call(this); } b2NullContact.prototype.Evaluate = function () {} Box2D.inherit(b2PolyAndCircleContact, Box2D.Dynamics.Contacts.b2Contact); b2PolyAndCircleContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2PolyAndCircleContact.b2PolyAndCircleContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2PolyAndCircleContact.Create = function (allocator) { return new b2PolyAndCircleContact(); } b2PolyAndCircleContact.Destroy = function (contact, allocator) {} b2PolyAndCircleContact.prototype.Reset = function (fixtureA, fixtureB) { this.__super.Reset.call(this, fixtureA, fixtureB); b2Settings.b2Assert(fixtureA.GetType() == b2Shape.e_polygonShape); b2Settings.b2Assert(fixtureB.GetType() == b2Shape.e_circleShape); } b2PolyAndCircleContact.prototype.Evaluate = function () { var bA = this.m_fixtureA.m_body; var bB = this.m_fixtureB.m_body; b2Collision.CollidePolygonAndCircle(this.m_manifold, (this.m_fixtureA.GetShape() instanceof b2PolygonShape ? this.m_fixtureA.GetShape() : null), bA.m_xf, (this.m_fixtureB.GetShape() instanceof b2CircleShape ? this.m_fixtureB.GetShape() : null), bB.m_xf); } Box2D.inherit(b2PolyAndEdgeContact, Box2D.Dynamics.Contacts.b2Contact); b2PolyAndEdgeContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2PolyAndEdgeContact.b2PolyAndEdgeContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2PolyAndEdgeContact.Create = function (allocator) { return new b2PolyAndEdgeContact(); } b2PolyAndEdgeContact.Destroy = function (contact, allocator) {} b2PolyAndEdgeContact.prototype.Reset = function (fixtureA, fixtureB) { this.__super.Reset.call(this, fixtureA, fixtureB); b2Settings.b2Assert(fixtureA.GetType() == b2Shape.e_polygonShape); b2Settings.b2Assert(fixtureB.GetType() == b2Shape.e_edgeShape); } b2PolyAndEdgeContact.prototype.Evaluate = function () { var bA = this.m_fixtureA.GetBody(); var bB = this.m_fixtureB.GetBody(); this.b2CollidePolyAndEdge(this.m_manifold, (this.m_fixtureA.GetShape() instanceof b2PolygonShape ? this.m_fixtureA.GetShape() : null), bA.m_xf, (this.m_fixtureB.GetShape() instanceof b2EdgeShape ? this.m_fixtureB.GetShape() : null), bB.m_xf); } b2PolyAndEdgeContact.prototype.b2CollidePolyAndEdge = function (manifold, polygon, xf1, edge, xf2) {} Box2D.inherit(b2PolygonContact, Box2D.Dynamics.Contacts.b2Contact); b2PolygonContact.prototype.__super = Box2D.Dynamics.Contacts.b2Contact.prototype; b2PolygonContact.b2PolygonContact = function () { Box2D.Dynamics.Contacts.b2Contact.b2Contact.apply(this, arguments); }; b2PolygonContact.Create = function (allocator) { return new b2PolygonContact(); } b2PolygonContact.Destroy = function (contact, allocator) {} b2PolygonContact.prototype.Reset = function (fixtureA, fixtureB) { this.__super.Reset.call(this, fixtureA, fixtureB); } b2PolygonContact.prototype.Evaluate = function () { var bA = this.m_fixtureA.GetBody(); var bB = this.m_fixtureB.GetBody(); b2Collision.CollidePolygons(this.m_manifold, (this.m_fixtureA.GetShape() instanceof b2PolygonShape ? this.m_fixtureA.GetShape() : null), bA.m_xf, (this.m_fixtureB.GetShape() instanceof b2PolygonShape ? this.m_fixtureB.GetShape() : null), bB.m_xf); } b2PositionSolverManifold.b2PositionSolverManifold = function () {}; b2PositionSolverManifold.prototype.b2PositionSolverManifold = function () { this.m_normal = new b2Vec2(); this.m_separations = new Vector_a2j_Number(b2Settings.b2_maxManifoldPoints); this.m_points = new Vector(b2Settings.b2_maxManifoldPoints); for (var i = 0; i < b2Settings.b2_maxManifoldPoints; i++) { this.m_points[i] = new b2Vec2(); } } b2PositionSolverManifold.prototype.Initialize = function (cc) { b2Settings.b2Assert(cc.pointCount > 0); var i = 0; var clipPointX = 0; var clipPointY = 0; var tMat; var tVec; var planePointX = 0; var planePointY = 0; switch (cc.type) { case b2Manifold.e_circles: { tMat = cc.bodyA.m_xf.R; tVec = cc.localPoint; var pointAX = cc.bodyA.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var pointAY = cc.bodyA.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = cc.bodyB.m_xf.R; tVec = cc.points[0].localPoint; var pointBX = cc.bodyB.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); var pointBY = cc.bodyB.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); var dX = pointBX - pointAX; var dY = pointBY - pointAY; var d2 = dX * dX + dY * dY; if (d2 > Number.MIN_VALUE * Number.MIN_VALUE) { var d = Math.sqrt(d2); this.m_normal.x = dX / d; this.m_normal.y = dY / d; } else { this.m_normal.x = 1.0; this.m_normal.y = 0.0; } this.m_points[0].x = 0.5 * (pointAX + pointBX); this.m_points[0].y = 0.5 * (pointAY + pointBY); this.m_separations[0] = dX * this.m_normal.x + dY * this.m_normal.y - cc.radius; } break; case b2Manifold.e_faceA: { tMat = cc.bodyA.m_xf.R; tVec = cc.localPlaneNormal; this.m_normal.x = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; this.m_normal.y = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = cc.bodyA.m_xf.R; tVec = cc.localPoint; planePointX = cc.bodyA.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); planePointY = cc.bodyA.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = cc.bodyB.m_xf.R; for (i = 0; i < cc.pointCount; ++i) { tVec = cc.points[i].localPoint; clipPointX = cc.bodyB.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); clipPointY = cc.bodyB.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); this.m_separations[i] = (clipPointX - planePointX) * this.m_normal.x + (clipPointY - planePointY) * this.m_normal.y - cc.radius; this.m_points[i].x = clipPointX; this.m_points[i].y = clipPointY; } } break; case b2Manifold.e_faceB: { tMat = cc.bodyB.m_xf.R; tVec = cc.localPlaneNormal; this.m_normal.x = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; this.m_normal.y = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = cc.bodyB.m_xf.R; tVec = cc.localPoint; planePointX = cc.bodyB.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); planePointY = cc.bodyB.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); tMat = cc.bodyA.m_xf.R; for (i = 0; i < cc.pointCount; ++i) { tVec = cc.points[i].localPoint; clipPointX = cc.bodyA.m_xf.position.x + (tMat.col1.x * tVec.x + tMat.col2.x * tVec.y); clipPointY = cc.bodyA.m_xf.position.y + (tMat.col1.y * tVec.x + tMat.col2.y * tVec.y); this.m_separations[i] = (clipPointX - planePointX) * this.m_normal.x + (clipPointY - planePointY) * this.m_normal.y - cc.radius; this.m_points[i].Set(clipPointX, clipPointY); } this.m_normal.x *= (-1); this.m_normal.y *= (-1); } break; } } Box2D.postDefs.push(function () { Box2D.Dynamics.Contacts.b2PositionSolverManifold.circlePointA = new b2Vec2(); Box2D.Dynamics.Contacts.b2PositionSolverManifold.circlePointB = new b2Vec2(); }); })(); (function () { var b2Body = Box2D.Dynamics.b2Body, b2BodyDef = Box2D.Dynamics.b2BodyDef, b2ContactFilter = Box2D.Dynamics.b2ContactFilter, b2ContactImpulse = Box2D.Dynamics.b2ContactImpulse, b2ContactListener = Box2D.Dynamics.b2ContactListener, b2ContactManager = Box2D.Dynamics.b2ContactManager, b2DebugDraw = Box2D.Dynamics.b2DebugDraw, b2DestructionListener = Box2D.Dynamics.b2DestructionListener, b2FilterData = Box2D.Dynamics.b2FilterData, b2Fixture = Box2D.Dynamics.b2Fixture, b2FixtureDef = Box2D.Dynamics.b2FixtureDef, b2Island = Box2D.Dynamics.b2Island, b2TimeStep = Box2D.Dynamics.b2TimeStep, b2World = Box2D.Dynamics.b2World, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2CircleShape = Box2D.Collision.Shapes.b2CircleShape, b2EdgeChainDef = Box2D.Collision.Shapes.b2EdgeChainDef, b2EdgeShape = Box2D.Collision.Shapes.b2EdgeShape, b2MassData = Box2D.Collision.Shapes.b2MassData, b2PolygonShape = Box2D.Collision.Shapes.b2PolygonShape, b2Shape = Box2D.Collision.Shapes.b2Shape, b2BuoyancyController = Box2D.Dynamics.Controllers.b2BuoyancyController, b2ConstantAccelController = Box2D.Dynamics.Controllers.b2ConstantAccelController, b2ConstantForceController = Box2D.Dynamics.Controllers.b2ConstantForceController, b2Controller = Box2D.Dynamics.Controllers.b2Controller, b2ControllerEdge = Box2D.Dynamics.Controllers.b2ControllerEdge, b2GravityController = Box2D.Dynamics.Controllers.b2GravityController, b2TensorDampingController = Box2D.Dynamics.Controllers.b2TensorDampingController; Box2D.inherit(b2BuoyancyController, Box2D.Dynamics.Controllers.b2Controller); b2BuoyancyController.prototype.__super = Box2D.Dynamics.Controllers.b2Controller.prototype; b2BuoyancyController.b2BuoyancyController = function () { Box2D.Dynamics.Controllers.b2Controller.b2Controller.apply(this, arguments); this.normal = new b2Vec2(0, (-1)); this.offset = 0; this.density = 0; this.velocity = new b2Vec2(0, 0); this.linearDrag = 2; this.angularDrag = 1; this.useDensity = false; this.useWorldGravity = true; this.gravity = null; }; b2BuoyancyController.prototype.Step = function (step) { if (!this.m_bodyList) return; if (this.useWorldGravity) { this.gravity = this.GetWorld().GetGravity().Copy(); } for (var i = this.m_bodyList; i; i = i.nextBody) { var body = i.body; if (body.IsAwake() == false) { continue; } var areac = new b2Vec2(); var massc = new b2Vec2(); var area = 0.0; var mass = 0.0; for (var fixture = body.GetFixtureList(); fixture; fixture = fixture.GetNext()) { var sc = new b2Vec2(); var sarea = fixture.GetShape().ComputeSubmergedArea(this.normal, this.offset, body.GetTransform(), sc); area += sarea; areac.x += sarea * sc.x; areac.y += sarea * sc.y; var shapeDensity = 0; if (this.useDensity) { shapeDensity = 1; } else { shapeDensity = 1; } mass += sarea * shapeDensity; massc.x += sarea * sc.x * shapeDensity; massc.y += sarea * sc.y * shapeDensity; } areac.x /= area; areac.y /= area; massc.x /= mass; massc.y /= mass; if (area < Number.MIN_VALUE) continue; var buoyancyForce = this.gravity.GetNegative(); buoyancyForce.Multiply(this.density * area); body.ApplyForce(buoyancyForce, massc); var dragForce = body.GetLinearVelocityFromWorldPoint(areac); dragForce.Subtract(this.velocity); dragForce.Multiply((-this.linearDrag * area)); body.ApplyForce(dragForce, areac); body.ApplyTorque((-body.GetInertia() / body.GetMass() * area * body.GetAngularVelocity() * this.angularDrag)); } } b2BuoyancyController.prototype.Draw = function (debugDraw) { var r = 1000; var p1 = new b2Vec2(); var p2 = new b2Vec2(); p1.x = this.normal.x * this.offset + this.normal.y * r; p1.y = this.normal.y * this.offset - this.normal.x * r; p2.x = this.normal.x * this.offset - this.normal.y * r; p2.y = this.normal.y * this.offset + this.normal.x * r; var color = new b2Color(0, 0, 1); debugDraw.DrawSegment(p1, p2, color); } Box2D.inherit(b2ConstantAccelController, Box2D.Dynamics.Controllers.b2Controller); b2ConstantAccelController.prototype.__super = Box2D.Dynamics.Controllers.b2Controller.prototype; b2ConstantAccelController.b2ConstantAccelController = function () { Box2D.Dynamics.Controllers.b2Controller.b2Controller.apply(this, arguments); this.A = new b2Vec2(0, 0); }; b2ConstantAccelController.prototype.Step = function (step) { var smallA = new b2Vec2(this.A.x * step.dt, this.A.y * step.dt); for (var i = this.m_bodyList; i; i = i.nextBody) { var body = i.body; if (!body.IsAwake()) continue; body.SetLinearVelocity(new b2Vec2(body.GetLinearVelocity().x + smallA.x, body.GetLinearVelocity().y + smallA.y)); } } Box2D.inherit(b2ConstantForceController, Box2D.Dynamics.Controllers.b2Controller); b2ConstantForceController.prototype.__super = Box2D.Dynamics.Controllers.b2Controller.prototype; b2ConstantForceController.b2ConstantForceController = function () { Box2D.Dynamics.Controllers.b2Controller.b2Controller.apply(this, arguments); this.F = new b2Vec2(0, 0); }; b2ConstantForceController.prototype.Step = function (step) { for (var i = this.m_bodyList; i; i = i.nextBody) { var body = i.body; if (!body.IsAwake()) continue; body.ApplyForce(this.F, body.GetWorldCenter()); } } b2Controller.b2Controller = function () {}; b2Controller.prototype.Step = function (step) {} b2Controller.prototype.Draw = function (debugDraw) {} b2Controller.prototype.AddBody = function (body) { var edge = new b2ControllerEdge(); edge.controller = this; edge.body = body; edge.nextBody = this.m_bodyList; edge.prevBody = null; this.m_bodyList = edge; if (edge.nextBody) edge.nextBody.prevBody = edge; this.m_bodyCount++; edge.nextController = body.m_controllerList; edge.prevController = null; body.m_controllerList = edge; if (edge.nextController) edge.nextController.prevController = edge; body.m_controllerCount++; } b2Controller.prototype.RemoveBody = function (body) { var edge = body.m_controllerList; while (edge && edge.controller != this) edge = edge.nextController; if (edge.prevBody) edge.prevBody.nextBody = edge.nextBody; if (edge.nextBody) edge.nextBody.prevBody = edge.prevBody; if (edge.nextController) edge.nextController.prevController = edge.prevController; if (edge.prevController) edge.prevController.nextController = edge.nextController; if (this.m_bodyList == edge) this.m_bodyList = edge.nextBody; if (body.m_controllerList == edge) body.m_controllerList = edge.nextController; body.m_controllerCount--; this.m_bodyCount--; } b2Controller.prototype.Clear = function () { while (this.m_bodyList) this.RemoveBody(this.m_bodyList.body); } b2Controller.prototype.GetNext = function () { return this.m_next; } b2Controller.prototype.GetWorld = function () { return this.m_world; } b2Controller.prototype.GetBodyList = function () { return this.m_bodyList; } b2ControllerEdge.b2ControllerEdge = function () {}; Box2D.inherit(b2GravityController, Box2D.Dynamics.Controllers.b2Controller); b2GravityController.prototype.__super = Box2D.Dynamics.Controllers.b2Controller.prototype; b2GravityController.b2GravityController = function () { Box2D.Dynamics.Controllers.b2Controller.b2Controller.apply(this, arguments); this.G = 1; this.invSqr = true; }; b2GravityController.prototype.Step = function (step) { var i = null; var body1 = null; var p1 = null; var mass1 = 0; var j = null; var body2 = null; var p2 = null; var dx = 0; var dy = 0; var r2 = 0; var f = null; if (this.invSqr) { for (i = this.m_bodyList; i; i = i.nextBody) { body1 = i.body; p1 = body1.GetWorldCenter(); mass1 = body1.GetMass(); for (j = this.m_bodyList; j != i; j = j.nextBody) { body2 = j.body; p2 = body2.GetWorldCenter(); dx = p2.x - p1.x; dy = p2.y - p1.y; r2 = dx * dx + dy * dy; if (r2 < Number.MIN_VALUE) continue; f = new b2Vec2(dx, dy); f.Multiply(this.G / r2 / Math.sqrt(r2) * mass1 * body2.GetMass()); if (body1.IsAwake()) body1.ApplyForce(f, p1); f.Multiply((-1)); if (body2.IsAwake()) body2.ApplyForce(f, p2); } } } else { for (i = this.m_bodyList; i; i = i.nextBody) { body1 = i.body; p1 = body1.GetWorldCenter(); mass1 = body1.GetMass(); for (j = this.m_bodyList; j != i; j = j.nextBody) { body2 = j.body; p2 = body2.GetWorldCenter(); dx = p2.x - p1.x; dy = p2.y - p1.y; r2 = dx * dx + dy * dy; if (r2 < Number.MIN_VALUE) continue; f = new b2Vec2(dx, dy); f.Multiply(this.G / r2 * mass1 * body2.GetMass()); if (body1.IsAwake()) body1.ApplyForce(f, p1); f.Multiply((-1)); if (body2.IsAwake()) body2.ApplyForce(f, p2); } } } } Box2D.inherit(b2TensorDampingController, Box2D.Dynamics.Controllers.b2Controller); b2TensorDampingController.prototype.__super = Box2D.Dynamics.Controllers.b2Controller.prototype; b2TensorDampingController.b2TensorDampingController = function () { Box2D.Dynamics.Controllers.b2Controller.b2Controller.apply(this, arguments); this.T = new b2Mat22(); this.maxTimestep = 0; }; b2TensorDampingController.prototype.SetAxisAligned = function (xDamping, yDamping) { if (xDamping === undefined) xDamping = 0; if (yDamping === undefined) yDamping = 0; this.T.col1.x = (-xDamping); this.T.col1.y = 0; this.T.col2.x = 0; this.T.col2.y = (-yDamping); if (xDamping > 0 || yDamping > 0) { this.maxTimestep = 1 / Math.max(xDamping, yDamping); } else { this.maxTimestep = 0; } } b2TensorDampingController.prototype.Step = function (step) { var timestep = step.dt; if (timestep <= Number.MIN_VALUE) return; if (timestep > this.maxTimestep && this.maxTimestep > 0) timestep = this.maxTimestep; for (var i = this.m_bodyList; i; i = i.nextBody) { var body = i.body; if (!body.IsAwake()) { continue; } var damping = body.GetWorldVector(b2Math.MulMV(this.T, body.GetLocalVector(body.GetLinearVelocity()))); body.SetLinearVelocity(new b2Vec2(body.GetLinearVelocity().x + damping.x * timestep, body.GetLinearVelocity().y + damping.y * timestep)); } } })(); (function () { var b2Color = Box2D.Common.b2Color, b2internal = Box2D.Common.b2internal, b2Settings = Box2D.Common.b2Settings, b2Mat22 = Box2D.Common.Math.b2Mat22, b2Mat33 = Box2D.Common.Math.b2Mat33, b2Math = Box2D.Common.Math.b2Math, b2Sweep = Box2D.Common.Math.b2Sweep, b2Transform = Box2D.Common.Math.b2Transform, b2Vec2 = Box2D.Common.Math.b2Vec2, b2Vec3 = Box2D.Common.Math.b2Vec3, b2DistanceJoint = Box2D.Dynamics.Joints.b2DistanceJoint, b2DistanceJointDef = Box2D.Dynamics.Joints.b2DistanceJointDef, b2FrictionJoint = Box2D.Dynamics.Joints.b2FrictionJoint, b2FrictionJointDef = Box2D.Dynamics.Joints.b2FrictionJointDef, b2GearJoint = Box2D.Dynamics.Joints.b2GearJoint, b2GearJointDef = Box2D.Dynamics.Joints.b2GearJointDef, b2Jacobian = Box2D.Dynamics.Joints.b2Jacobian, b2Joint = Box2D.Dynamics.Joints.b2Joint, b2JointDef = Box2D.Dynamics.Joints.b2JointDef, b2JointEdge = Box2D.Dynamics.Joints.b2JointEdge, b2LineJoint = Box2D.Dynamics.Joints.b2LineJoint, b2LineJointDef = Box2D.Dynamics.Joints.b2LineJointDef, b2MouseJoint = Box2D.Dynamics.Joints.b2MouseJoint, b2MouseJointDef = Box2D.Dynamics.Joints.b2MouseJointDef, b2PrismaticJoint = Box2D.Dynamics.Joints.b2PrismaticJoint, b2PrismaticJointDef = Box2D.Dynamics.Joints.b2PrismaticJointDef, b2PulleyJoint = Box2D.Dynamics.Joints.b2PulleyJoint, b2PulleyJointDef = Box2D.Dynamics.Joints.b2PulleyJointDef, b2RevoluteJoint = Box2D.Dynamics.Joints.b2RevoluteJoint, b2RevoluteJointDef = Box2D.Dynamics.Joints.b2RevoluteJointDef, b2WeldJoint = Box2D.Dynamics.Joints.b2WeldJoint, b2WeldJointDef = Box2D.Dynamics.Joints.b2WeldJointDef, b2Body = Box2D.Dynamics.b2Body, b2BodyDef = Box2D.Dynamics.b2BodyDef, b2ContactFilter = Box2D.Dynamics.b2ContactFilter, b2ContactImpulse = Box2D.Dynamics.b2ContactImpulse, b2ContactListener = Box2D.Dynamics.b2ContactListener, b2ContactManager = Box2D.Dynamics.b2ContactManager, b2DebugDraw = Box2D.Dynamics.b2DebugDraw, b2DestructionListener = Box2D.Dynamics.b2DestructionListener, b2FilterData = Box2D.Dynamics.b2FilterData, b2Fixture = Box2D.Dynamics.b2Fixture, b2FixtureDef = Box2D.Dynamics.b2FixtureDef, b2Island = Box2D.Dynamics.b2Island, b2TimeStep = Box2D.Dynamics.b2TimeStep, b2World = Box2D.Dynamics.b2World; Box2D.inherit(b2DistanceJoint, Box2D.Dynamics.Joints.b2Joint); b2DistanceJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2DistanceJoint.b2DistanceJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_u = new b2Vec2(); }; b2DistanceJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2DistanceJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2DistanceJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse * this.m_u.x, inv_dt * this.m_impulse * this.m_u.y); } b2DistanceJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return 0.0; } b2DistanceJoint.prototype.GetLength = function () { return this.m_length; } b2DistanceJoint.prototype.SetLength = function (length) { if (length === undefined) length = 0; this.m_length = length; } b2DistanceJoint.prototype.GetFrequency = function () { return this.m_frequencyHz; } b2DistanceJoint.prototype.SetFrequency = function (hz) { if (hz === undefined) hz = 0; this.m_frequencyHz = hz; } b2DistanceJoint.prototype.GetDampingRatio = function () { return this.m_dampingRatio; } b2DistanceJoint.prototype.SetDampingRatio = function (ratio) { if (ratio === undefined) ratio = 0; this.m_dampingRatio = ratio; } b2DistanceJoint.prototype.b2DistanceJoint = function (def) { this.__super.b2Joint.call(this, def); var tMat; var tX = 0; var tY = 0; this.m_localAnchor1.SetV(def.localAnchorA); this.m_localAnchor2.SetV(def.localAnchorB); this.m_length = def.length; this.m_frequencyHz = def.frequencyHz; this.m_dampingRatio = def.dampingRatio; this.m_impulse = 0.0; this.m_gamma = 0.0; this.m_bias = 0.0; } b2DistanceJoint.prototype.InitVelocityConstraints = function (step) { var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; this.m_u.x = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; this.m_u.y = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; var length = Math.sqrt(this.m_u.x * this.m_u.x + this.m_u.y * this.m_u.y); if (length > b2Settings.b2_linearSlop) { this.m_u.Multiply(1.0 / length); } else { this.m_u.SetZero(); } var cr1u = (r1X * this.m_u.y - r1Y * this.m_u.x); var cr2u = (r2X * this.m_u.y - r2Y * this.m_u.x); var invMass = bA.m_invMass + bA.m_invI * cr1u * cr1u + bB.m_invMass + bB.m_invI * cr2u * cr2u; this.m_mass = invMass != 0.0 ? 1.0 / invMass : 0.0; if (this.m_frequencyHz > 0.0) { var C = length - this.m_length; var omega = 2.0 * Math.PI * this.m_frequencyHz; var d = 2.0 * this.m_mass * this.m_dampingRatio * omega; var k = this.m_mass * omega * omega; this.m_gamma = step.dt * (d + step.dt * k); this.m_gamma = this.m_gamma != 0.0 ? 1 / this.m_gamma : 0.0; this.m_bias = C * step.dt * k * this.m_gamma; this.m_mass = invMass + this.m_gamma; this.m_mass = this.m_mass != 0.0 ? 1.0 / this.m_mass : 0.0; } if (step.warmStarting) { this.m_impulse *= step.dtRatio; var PX = this.m_impulse * this.m_u.x; var PY = this.m_impulse * this.m_u.y; bA.m_linearVelocity.x -= bA.m_invMass * PX; bA.m_linearVelocity.y -= bA.m_invMass * PY; bA.m_angularVelocity -= bA.m_invI * (r1X * PY - r1Y * PX); bB.m_linearVelocity.x += bB.m_invMass * PX; bB.m_linearVelocity.y += bB.m_invMass * PY; bB.m_angularVelocity += bB.m_invI * (r2X * PY - r2Y * PX); } else { this.m_impulse = 0.0; } } b2DistanceJoint.prototype.SolveVelocityConstraints = function (step) { var tMat; var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var v1X = bA.m_linearVelocity.x + ((-bA.m_angularVelocity * r1Y)); var v1Y = bA.m_linearVelocity.y + (bA.m_angularVelocity * r1X); var v2X = bB.m_linearVelocity.x + ((-bB.m_angularVelocity * r2Y)); var v2Y = bB.m_linearVelocity.y + (bB.m_angularVelocity * r2X); var Cdot = (this.m_u.x * (v2X - v1X) + this.m_u.y * (v2Y - v1Y)); var impulse = (-this.m_mass * (Cdot + this.m_bias + this.m_gamma * this.m_impulse)); this.m_impulse += impulse; var PX = impulse * this.m_u.x; var PY = impulse * this.m_u.y; bA.m_linearVelocity.x -= bA.m_invMass * PX; bA.m_linearVelocity.y -= bA.m_invMass * PY; bA.m_angularVelocity -= bA.m_invI * (r1X * PY - r1Y * PX); bB.m_linearVelocity.x += bB.m_invMass * PX; bB.m_linearVelocity.y += bB.m_invMass * PY; bB.m_angularVelocity += bB.m_invI * (r2X * PY - r2Y * PX); } b2DistanceJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var tMat; if (this.m_frequencyHz > 0.0) { return true; } var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var dX = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; var dY = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; var length = Math.sqrt(dX * dX + dY * dY); dX /= length; dY /= length; var C = length - this.m_length; C = b2Math.Clamp(C, (-b2Settings.b2_maxLinearCorrection), b2Settings.b2_maxLinearCorrection); var impulse = (-this.m_mass * C); this.m_u.Set(dX, dY); var PX = impulse * this.m_u.x; var PY = impulse * this.m_u.y; bA.m_sweep.c.x -= bA.m_invMass * PX; bA.m_sweep.c.y -= bA.m_invMass * PY; bA.m_sweep.a -= bA.m_invI * (r1X * PY - r1Y * PX); bB.m_sweep.c.x += bB.m_invMass * PX; bB.m_sweep.c.y += bB.m_invMass * PY; bB.m_sweep.a += bB.m_invI * (r2X * PY - r2Y * PX); bA.SynchronizeTransform(); bB.SynchronizeTransform(); return b2Math.Abs(C) < b2Settings.b2_linearSlop; } Box2D.inherit(b2DistanceJointDef, Box2D.Dynamics.Joints.b2JointDef); b2DistanceJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2DistanceJointDef.b2DistanceJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); }; b2DistanceJointDef.prototype.b2DistanceJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_distanceJoint; this.length = 1.0; this.frequencyHz = 0.0; this.dampingRatio = 0.0; } b2DistanceJointDef.prototype.Initialize = function (bA, bB, anchorA, anchorB) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA.SetV(this.bodyA.GetLocalPoint(anchorA)); this.localAnchorB.SetV(this.bodyB.GetLocalPoint(anchorB)); var dX = anchorB.x - anchorA.x; var dY = anchorB.y - anchorA.y; this.length = Math.sqrt(dX * dX + dY * dY); this.frequencyHz = 0.0; this.dampingRatio = 0.0; } Box2D.inherit(b2FrictionJoint, Box2D.Dynamics.Joints.b2Joint); b2FrictionJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2FrictionJoint.b2FrictionJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_localAnchorA = new b2Vec2(); this.m_localAnchorB = new b2Vec2(); this.m_linearMass = new b2Mat22(); this.m_linearImpulse = new b2Vec2(); }; b2FrictionJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchorA); } b2FrictionJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchorB); } b2FrictionJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_linearImpulse.x, inv_dt * this.m_linearImpulse.y); } b2FrictionJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return inv_dt * this.m_angularImpulse; } b2FrictionJoint.prototype.SetMaxForce = function (force) { if (force === undefined) force = 0; this.m_maxForce = force; } b2FrictionJoint.prototype.GetMaxForce = function () { return this.m_maxForce; } b2FrictionJoint.prototype.SetMaxTorque = function (torque) { if (torque === undefined) torque = 0; this.m_maxTorque = torque; } b2FrictionJoint.prototype.GetMaxTorque = function () { return this.m_maxTorque; } b2FrictionJoint.prototype.b2FrictionJoint = function (def) { this.__super.b2Joint.call(this, def); this.m_localAnchorA.SetV(def.localAnchorA); this.m_localAnchorB.SetV(def.localAnchorB); this.m_linearMass.SetZero(); this.m_angularMass = 0.0; this.m_linearImpulse.SetZero(); this.m_angularImpulse = 0.0; this.m_maxForce = def.maxForce; this.m_maxTorque = def.maxTorque; } b2FrictionJoint.prototype.InitVelocityConstraints = function (step) { var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var rAX = this.m_localAnchorA.x - bA.m_sweep.localCenter.x; var rAY = this.m_localAnchorA.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * rAX + tMat.col2.x * rAY); rAY = (tMat.col1.y * rAX + tMat.col2.y * rAY); rAX = tX; tMat = bB.m_xf.R; var rBX = this.m_localAnchorB.x - bB.m_sweep.localCenter.x; var rBY = this.m_localAnchorB.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * rBX + tMat.col2.x * rBY); rBY = (tMat.col1.y * rBX + tMat.col2.y * rBY); rBX = tX; var mA = bA.m_invMass; var mB = bB.m_invMass; var iA = bA.m_invI; var iB = bB.m_invI; var K = new b2Mat22(); K.col1.x = mA + mB; K.col2.x = 0.0; K.col1.y = 0.0; K.col2.y = mA + mB; K.col1.x += iA * rAY * rAY; K.col2.x += (-iA * rAX * rAY); K.col1.y += (-iA * rAX * rAY); K.col2.y += iA * rAX * rAX; K.col1.x += iB * rBY * rBY; K.col2.x += (-iB * rBX * rBY); K.col1.y += (-iB * rBX * rBY); K.col2.y += iB * rBX * rBX; K.GetInverse(this.m_linearMass); this.m_angularMass = iA + iB; if (this.m_angularMass > 0.0) { this.m_angularMass = 1.0 / this.m_angularMass; } if (step.warmStarting) { this.m_linearImpulse.x *= step.dtRatio; this.m_linearImpulse.y *= step.dtRatio; this.m_angularImpulse *= step.dtRatio; var P = this.m_linearImpulse; bA.m_linearVelocity.x -= mA * P.x; bA.m_linearVelocity.y -= mA * P.y; bA.m_angularVelocity -= iA * (rAX * P.y - rAY * P.x + this.m_angularImpulse); bB.m_linearVelocity.x += mB * P.x; bB.m_linearVelocity.y += mB * P.y; bB.m_angularVelocity += iB * (rBX * P.y - rBY * P.x + this.m_angularImpulse); } else { this.m_linearImpulse.SetZero(); this.m_angularImpulse = 0.0; } } b2FrictionJoint.prototype.SolveVelocityConstraints = function (step) { var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; var vA = bA.m_linearVelocity; var wA = bA.m_angularVelocity; var vB = bB.m_linearVelocity; var wB = bB.m_angularVelocity; var mA = bA.m_invMass; var mB = bB.m_invMass; var iA = bA.m_invI; var iB = bB.m_invI; tMat = bA.m_xf.R; var rAX = this.m_localAnchorA.x - bA.m_sweep.localCenter.x; var rAY = this.m_localAnchorA.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * rAX + tMat.col2.x * rAY); rAY = (tMat.col1.y * rAX + tMat.col2.y * rAY); rAX = tX; tMat = bB.m_xf.R; var rBX = this.m_localAnchorB.x - bB.m_sweep.localCenter.x; var rBY = this.m_localAnchorB.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * rBX + tMat.col2.x * rBY); rBY = (tMat.col1.y * rBX + tMat.col2.y * rBY); rBX = tX; var maxImpulse = 0; { var Cdot = wB - wA; var impulse = (-this.m_angularMass * Cdot); var oldImpulse = this.m_angularImpulse; maxImpulse = step.dt * this.m_maxTorque; this.m_angularImpulse = b2Math.Clamp(this.m_angularImpulse + impulse, (-maxImpulse), maxImpulse); impulse = this.m_angularImpulse - oldImpulse; wA -= iA * impulse; wB += iB * impulse; } { var CdotX = vB.x - wB * rBY - vA.x + wA * rAY; var CdotY = vB.y + wB * rBX - vA.y - wA * rAX; var impulseV = b2Math.MulMV(this.m_linearMass, new b2Vec2((-CdotX), (-CdotY))); var oldImpulseV = this.m_linearImpulse.Copy(); this.m_linearImpulse.Add(impulseV); maxImpulse = step.dt * this.m_maxForce; if (this.m_linearImpulse.LengthSquared() > maxImpulse * maxImpulse) { this.m_linearImpulse.Normalize(); this.m_linearImpulse.Multiply(maxImpulse); } impulseV = b2Math.SubtractVV(this.m_linearImpulse, oldImpulseV); vA.x -= mA * impulseV.x; vA.y -= mA * impulseV.y; wA -= iA * (rAX * impulseV.y - rAY * impulseV.x); vB.x += mB * impulseV.x; vB.y += mB * impulseV.y; wB += iB * (rBX * impulseV.y - rBY * impulseV.x); } bA.m_angularVelocity = wA; bB.m_angularVelocity = wB; } b2FrictionJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; return true; } Box2D.inherit(b2FrictionJointDef, Box2D.Dynamics.Joints.b2JointDef); b2FrictionJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2FrictionJointDef.b2FrictionJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); }; b2FrictionJointDef.prototype.b2FrictionJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_frictionJoint; this.maxForce = 0.0; this.maxTorque = 0.0; } b2FrictionJointDef.prototype.Initialize = function (bA, bB, anchor) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA.SetV(this.bodyA.GetLocalPoint(anchor)); this.localAnchorB.SetV(this.bodyB.GetLocalPoint(anchor)); } Box2D.inherit(b2GearJoint, Box2D.Dynamics.Joints.b2Joint); b2GearJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2GearJoint.b2GearJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_groundAnchor1 = new b2Vec2(); this.m_groundAnchor2 = new b2Vec2(); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_J = new b2Jacobian(); }; b2GearJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2GearJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2GearJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse * this.m_J.linearB.x, inv_dt * this.m_impulse * this.m_J.linearB.y); } b2GearJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; var tMat = this.m_bodyB.m_xf.R; var rX = this.m_localAnchor1.x - this.m_bodyB.m_sweep.localCenter.x; var rY = this.m_localAnchor1.y - this.m_bodyB.m_sweep.localCenter.y; var tX = tMat.col1.x * rX + tMat.col2.x * rY; rY = tMat.col1.y * rX + tMat.col2.y * rY; rX = tX; var PX = this.m_impulse * this.m_J.linearB.x; var PY = this.m_impulse * this.m_J.linearB.y; return inv_dt * (this.m_impulse * this.m_J.angularB - rX * PY + rY * PX); } b2GearJoint.prototype.GetRatio = function () { return this.m_ratio; } b2GearJoint.prototype.SetRatio = function (ratio) { if (ratio === undefined) ratio = 0; this.m_ratio = ratio; } b2GearJoint.prototype.b2GearJoint = function (def) { this.__super.b2Joint.call(this, def); var type1 = parseInt(def.joint1.m_type); var type2 = parseInt(def.joint2.m_type); this.m_revolute1 = null; this.m_prismatic1 = null; this.m_revolute2 = null; this.m_prismatic2 = null; var coordinate1 = 0; var coordinate2 = 0; this.m_ground1 = def.joint1.GetBodyA(); this.m_bodyA = def.joint1.GetBodyB(); if (type1 == b2Joint.e_revoluteJoint) { this.m_revolute1 = (def.joint1 instanceof b2RevoluteJoint ? def.joint1 : null); this.m_groundAnchor1.SetV(this.m_revolute1.m_localAnchor1); this.m_localAnchor1.SetV(this.m_revolute1.m_localAnchor2); coordinate1 = this.m_revolute1.GetJointAngle(); } else { this.m_prismatic1 = (def.joint1 instanceof b2PrismaticJoint ? def.joint1 : null); this.m_groundAnchor1.SetV(this.m_prismatic1.m_localAnchor1); this.m_localAnchor1.SetV(this.m_prismatic1.m_localAnchor2); coordinate1 = this.m_prismatic1.GetJointTranslation(); } this.m_ground2 = def.joint2.GetBodyA(); this.m_bodyB = def.joint2.GetBodyB(); if (type2 == b2Joint.e_revoluteJoint) { this.m_revolute2 = (def.joint2 instanceof b2RevoluteJoint ? def.joint2 : null); this.m_groundAnchor2.SetV(this.m_revolute2.m_localAnchor1); this.m_localAnchor2.SetV(this.m_revolute2.m_localAnchor2); coordinate2 = this.m_revolute2.GetJointAngle(); } else { this.m_prismatic2 = (def.joint2 instanceof b2PrismaticJoint ? def.joint2 : null); this.m_groundAnchor2.SetV(this.m_prismatic2.m_localAnchor1); this.m_localAnchor2.SetV(this.m_prismatic2.m_localAnchor2); coordinate2 = this.m_prismatic2.GetJointTranslation(); } this.m_ratio = def.ratio; this.m_constant = coordinate1 + this.m_ratio * coordinate2; this.m_impulse = 0.0; } b2GearJoint.prototype.InitVelocityConstraints = function (step) { var g1 = this.m_ground1; var g2 = this.m_ground2; var bA = this.m_bodyA; var bB = this.m_bodyB; var ugX = 0; var ugY = 0; var rX = 0; var rY = 0; var tMat; var tVec; var crug = 0; var tX = 0; var K = 0.0; this.m_J.SetZero(); if (this.m_revolute1) { this.m_J.angularA = (-1.0); K += bA.m_invI; } else { tMat = g1.m_xf.R; tVec = this.m_prismatic1.m_localXAxis1; ugX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; ugY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = bA.m_xf.R; rX = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; rY = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = tMat.col1.x * rX + tMat.col2.x * rY; rY = tMat.col1.y * rX + tMat.col2.y * rY; rX = tX; crug = rX * ugY - rY * ugX; this.m_J.linearA.Set((-ugX), (-ugY)); this.m_J.angularA = (-crug); K += bA.m_invMass + bA.m_invI * crug * crug; } if (this.m_revolute2) { this.m_J.angularB = (-this.m_ratio); K += this.m_ratio * this.m_ratio * bB.m_invI; } else { tMat = g2.m_xf.R; tVec = this.m_prismatic2.m_localXAxis1; ugX = tMat.col1.x * tVec.x + tMat.col2.x * tVec.y; ugY = tMat.col1.y * tVec.x + tMat.col2.y * tVec.y; tMat = bB.m_xf.R; rX = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; rY = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = tMat.col1.x * rX + tMat.col2.x * rY; rY = tMat.col1.y * rX + tMat.col2.y * rY; rX = tX; crug = rX * ugY - rY * ugX; this.m_J.linearB.Set((-this.m_ratio * ugX), (-this.m_ratio * ugY)); this.m_J.angularB = (-this.m_ratio * crug); K += this.m_ratio * this.m_ratio * (bB.m_invMass + bB.m_invI * crug * crug); } this.m_mass = K > 0.0 ? 1.0 / K : 0.0; if (step.warmStarting) { bA.m_linearVelocity.x += bA.m_invMass * this.m_impulse * this.m_J.linearA.x; bA.m_linearVelocity.y += bA.m_invMass * this.m_impulse * this.m_J.linearA.y; bA.m_angularVelocity += bA.m_invI * this.m_impulse * this.m_J.angularA; bB.m_linearVelocity.x += bB.m_invMass * this.m_impulse * this.m_J.linearB.x; bB.m_linearVelocity.y += bB.m_invMass * this.m_impulse * this.m_J.linearB.y; bB.m_angularVelocity += bB.m_invI * this.m_impulse * this.m_J.angularB; } else { this.m_impulse = 0.0; } } b2GearJoint.prototype.SolveVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var Cdot = this.m_J.Compute(bA.m_linearVelocity, bA.m_angularVelocity, bB.m_linearVelocity, bB.m_angularVelocity); var impulse = (-this.m_mass * Cdot); this.m_impulse += impulse; bA.m_linearVelocity.x += bA.m_invMass * impulse * this.m_J.linearA.x; bA.m_linearVelocity.y += bA.m_invMass * impulse * this.m_J.linearA.y; bA.m_angularVelocity += bA.m_invI * impulse * this.m_J.angularA; bB.m_linearVelocity.x += bB.m_invMass * impulse * this.m_J.linearB.x; bB.m_linearVelocity.y += bB.m_invMass * impulse * this.m_J.linearB.y; bB.m_angularVelocity += bB.m_invI * impulse * this.m_J.angularB; } b2GearJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var linearError = 0.0; var bA = this.m_bodyA; var bB = this.m_bodyB; var coordinate1 = 0; var coordinate2 = 0; if (this.m_revolute1) { coordinate1 = this.m_revolute1.GetJointAngle(); } else { coordinate1 = this.m_prismatic1.GetJointTranslation(); } if (this.m_revolute2) { coordinate2 = this.m_revolute2.GetJointAngle(); } else { coordinate2 = this.m_prismatic2.GetJointTranslation(); } var C = this.m_constant - (coordinate1 + this.m_ratio * coordinate2); var impulse = (-this.m_mass * C); bA.m_sweep.c.x += bA.m_invMass * impulse * this.m_J.linearA.x; bA.m_sweep.c.y += bA.m_invMass * impulse * this.m_J.linearA.y; bA.m_sweep.a += bA.m_invI * impulse * this.m_J.angularA; bB.m_sweep.c.x += bB.m_invMass * impulse * this.m_J.linearB.x; bB.m_sweep.c.y += bB.m_invMass * impulse * this.m_J.linearB.y; bB.m_sweep.a += bB.m_invI * impulse * this.m_J.angularB; bA.SynchronizeTransform(); bB.SynchronizeTransform(); return linearError < b2Settings.b2_linearSlop; } Box2D.inherit(b2GearJointDef, Box2D.Dynamics.Joints.b2JointDef); b2GearJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2GearJointDef.b2GearJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); }; b2GearJointDef.prototype.b2GearJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_gearJoint; this.joint1 = null; this.joint2 = null; this.ratio = 1.0; } b2Jacobian.b2Jacobian = function () { this.linearA = new b2Vec2(); this.linearB = new b2Vec2(); }; b2Jacobian.prototype.SetZero = function () { this.linearA.SetZero(); this.angularA = 0.0; this.linearB.SetZero(); this.angularB = 0.0; } b2Jacobian.prototype.Set = function (x1, a1, x2, a2) { if (a1 === undefined) a1 = 0; if (a2 === undefined) a2 = 0; this.linearA.SetV(x1); this.angularA = a1; this.linearB.SetV(x2); this.angularB = a2; } b2Jacobian.prototype.Compute = function (x1, a1, x2, a2) { if (a1 === undefined) a1 = 0; if (a2 === undefined) a2 = 0; return (this.linearA.x * x1.x + this.linearA.y * x1.y) + this.angularA * a1 + (this.linearB.x * x2.x + this.linearB.y * x2.y) + this.angularB * a2; } b2Joint.b2Joint = function () { this.m_edgeA = new b2JointEdge(); this.m_edgeB = new b2JointEdge(); this.m_localCenterA = new b2Vec2(); this.m_localCenterB = new b2Vec2(); }; b2Joint.prototype.GetType = function () { return this.m_type; } b2Joint.prototype.GetAnchorA = function () { return null; } b2Joint.prototype.GetAnchorB = function () { return null; } b2Joint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return null; } b2Joint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return 0.0; } b2Joint.prototype.GetBodyA = function () { return this.m_bodyA; } b2Joint.prototype.GetBodyB = function () { return this.m_bodyB; } b2Joint.prototype.GetNext = function () { return this.m_next; } b2Joint.prototype.GetUserData = function () { return this.m_userData; } b2Joint.prototype.SetUserData = function (data) { this.m_userData = data; } b2Joint.prototype.IsActive = function () { return this.m_bodyA.IsActive() && this.m_bodyB.IsActive(); } b2Joint.Create = function (def, allocator) { var joint = null; switch (def.type) { case b2Joint.e_distanceJoint: { joint = new b2DistanceJoint((def instanceof b2DistanceJointDef ? def : null)); } break; case b2Joint.e_mouseJoint: { joint = new b2MouseJoint((def instanceof b2MouseJointDef ? def : null)); } break; case b2Joint.e_prismaticJoint: { joint = new b2PrismaticJoint((def instanceof b2PrismaticJointDef ? def : null)); } break; case b2Joint.e_revoluteJoint: { joint = new b2RevoluteJoint((def instanceof b2RevoluteJointDef ? def : null)); } break; case b2Joint.e_pulleyJoint: { joint = new b2PulleyJoint((def instanceof b2PulleyJointDef ? def : null)); } break; case b2Joint.e_gearJoint: { joint = new b2GearJoint((def instanceof b2GearJointDef ? def : null)); } break; case b2Joint.e_lineJoint: { joint = new b2LineJoint((def instanceof b2LineJointDef ? def : null)); } break; case b2Joint.e_weldJoint: { joint = new b2WeldJoint((def instanceof b2WeldJointDef ? def : null)); } break; case b2Joint.e_frictionJoint: { joint = new b2FrictionJoint((def instanceof b2FrictionJointDef ? def : null)); } break; default: break; } return joint; } b2Joint.Destroy = function (joint, allocator) {} b2Joint.prototype.b2Joint = function (def) { b2Settings.b2Assert(def.bodyA != def.bodyB); this.m_type = def.type; this.m_prev = null; this.m_next = null; this.m_bodyA = def.bodyA; this.m_bodyB = def.bodyB; this.m_collideConnected = def.collideConnected; this.m_islandFlag = false; this.m_userData = def.userData; } b2Joint.prototype.InitVelocityConstraints = function (step) {} b2Joint.prototype.SolveVelocityConstraints = function (step) {} b2Joint.prototype.FinalizeVelocityConstraints = function () {} b2Joint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; return false; } Box2D.postDefs.push(function () { Box2D.Dynamics.Joints.b2Joint.e_unknownJoint = 0; Box2D.Dynamics.Joints.b2Joint.e_revoluteJoint = 1; Box2D.Dynamics.Joints.b2Joint.e_prismaticJoint = 2; Box2D.Dynamics.Joints.b2Joint.e_distanceJoint = 3; Box2D.Dynamics.Joints.b2Joint.e_pulleyJoint = 4; Box2D.Dynamics.Joints.b2Joint.e_mouseJoint = 5; Box2D.Dynamics.Joints.b2Joint.e_gearJoint = 6; Box2D.Dynamics.Joints.b2Joint.e_lineJoint = 7; Box2D.Dynamics.Joints.b2Joint.e_weldJoint = 8; Box2D.Dynamics.Joints.b2Joint.e_frictionJoint = 9; Box2D.Dynamics.Joints.b2Joint.e_inactiveLimit = 0; Box2D.Dynamics.Joints.b2Joint.e_atLowerLimit = 1; Box2D.Dynamics.Joints.b2Joint.e_atUpperLimit = 2; Box2D.Dynamics.Joints.b2Joint.e_equalLimits = 3; }); b2JointDef.b2JointDef = function () {}; b2JointDef.prototype.b2JointDef = function () { this.type = b2Joint.e_unknownJoint; this.userData = null; this.bodyA = null; this.bodyB = null; this.collideConnected = false; } b2JointEdge.b2JointEdge = function () {}; Box2D.inherit(b2LineJoint, Box2D.Dynamics.Joints.b2Joint); b2LineJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2LineJoint.b2LineJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_localXAxis1 = new b2Vec2(); this.m_localYAxis1 = new b2Vec2(); this.m_axis = new b2Vec2(); this.m_perp = new b2Vec2(); this.m_K = new b2Mat22(); this.m_impulse = new b2Vec2(); }; b2LineJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2LineJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2LineJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * (this.m_impulse.x * this.m_perp.x + (this.m_motorImpulse + this.m_impulse.y) * this.m_axis.x), inv_dt * (this.m_impulse.x * this.m_perp.y + (this.m_motorImpulse + this.m_impulse.y) * this.m_axis.y)); } b2LineJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return inv_dt * this.m_impulse.y; } b2LineJoint.prototype.GetJointTranslation = function () { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var p1 = bA.GetWorldPoint(this.m_localAnchor1); var p2 = bB.GetWorldPoint(this.m_localAnchor2); var dX = p2.x - p1.x; var dY = p2.y - p1.y; var axis = bA.GetWorldVector(this.m_localXAxis1); var translation = axis.x * dX + axis.y * dY; return translation; } b2LineJoint.prototype.GetJointSpeed = function () { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var p1X = bA.m_sweep.c.x + r1X; var p1Y = bA.m_sweep.c.y + r1Y; var p2X = bB.m_sweep.c.x + r2X; var p2Y = bB.m_sweep.c.y + r2Y; var dX = p2X - p1X; var dY = p2Y - p1Y; var axis = bA.GetWorldVector(this.m_localXAxis1); var v1 = bA.m_linearVelocity; var v2 = bB.m_linearVelocity; var w1 = bA.m_angularVelocity; var w2 = bB.m_angularVelocity; var speed = (dX * ((-w1 * axis.y)) + dY * (w1 * axis.x)) + (axis.x * (((v2.x + ((-w2 * r2Y))) - v1.x) - ((-w1 * r1Y))) + axis.y * (((v2.y + (w2 * r2X)) - v1.y) - (w1 * r1X))); return speed; } b2LineJoint.prototype.IsLimitEnabled = function () { return this.m_enableLimit; } b2LineJoint.prototype.EnableLimit = function (flag) { this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_enableLimit = flag; } b2LineJoint.prototype.GetLowerLimit = function () { return this.m_lowerTranslation; } b2LineJoint.prototype.GetUpperLimit = function () { return this.m_upperTranslation; } b2LineJoint.prototype.SetLimits = function (lower, upper) { if (lower === undefined) lower = 0; if (upper === undefined) upper = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_lowerTranslation = lower; this.m_upperTranslation = upper; } b2LineJoint.prototype.IsMotorEnabled = function () { return this.m_enableMotor; } b2LineJoint.prototype.EnableMotor = function (flag) { this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_enableMotor = flag; } b2LineJoint.prototype.SetMotorSpeed = function (speed) { if (speed === undefined) speed = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_motorSpeed = speed; } b2LineJoint.prototype.GetMotorSpeed = function () { return this.m_motorSpeed; } b2LineJoint.prototype.SetMaxMotorForce = function (force) { if (force === undefined) force = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_maxMotorForce = force; } b2LineJoint.prototype.GetMaxMotorForce = function () { return this.m_maxMotorForce; } b2LineJoint.prototype.GetMotorForce = function () { return this.m_motorImpulse; } b2LineJoint.prototype.b2LineJoint = function (def) { this.__super.b2Joint.call(this, def); var tMat; var tX = 0; var tY = 0; this.m_localAnchor1.SetV(def.localAnchorA); this.m_localAnchor2.SetV(def.localAnchorB); this.m_localXAxis1.SetV(def.localAxisA); this.m_localYAxis1.x = (-this.m_localXAxis1.y); this.m_localYAxis1.y = this.m_localXAxis1.x; this.m_impulse.SetZero(); this.m_motorMass = 0.0; this.m_motorImpulse = 0.0; this.m_lowerTranslation = def.lowerTranslation; this.m_upperTranslation = def.upperTranslation; this.m_maxMotorForce = def.maxMotorForce; this.m_motorSpeed = def.motorSpeed; this.m_enableLimit = def.enableLimit; this.m_enableMotor = def.enableMotor; this.m_limitState = b2Joint.e_inactiveLimit; this.m_axis.SetZero(); this.m_perp.SetZero(); } b2LineJoint.prototype.InitVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var tX = 0; this.m_localCenterA.SetV(bA.GetLocalCenter()); this.m_localCenterB.SetV(bB.GetLocalCenter()); var xf1 = bA.GetTransform(); var xf2 = bB.GetTransform(); tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - this.m_localCenterA.x; var r1Y = this.m_localAnchor1.y - this.m_localCenterA.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - this.m_localCenterB.x; var r2Y = this.m_localAnchor2.y - this.m_localCenterB.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var dX = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; var dY = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; this.m_invMassA = bA.m_invMass; this.m_invMassB = bB.m_invMass; this.m_invIA = bA.m_invI; this.m_invIB = bB.m_invI; { this.m_axis.SetV(b2Math.MulMV(xf1.R, this.m_localXAxis1)); this.m_a1 = (dX + r1X) * this.m_axis.y - (dY + r1Y) * this.m_axis.x; this.m_a2 = r2X * this.m_axis.y - r2Y * this.m_axis.x; this.m_motorMass = this.m_invMassA + this.m_invMassB + this.m_invIA * this.m_a1 * this.m_a1 + this.m_invIB * this.m_a2 * this.m_a2; this.m_motorMass = this.m_motorMass > Number.MIN_VALUE ? 1.0 / this.m_motorMass : 0.0; } { this.m_perp.SetV(b2Math.MulMV(xf1.R, this.m_localYAxis1)); this.m_s1 = (dX + r1X) * this.m_perp.y - (dY + r1Y) * this.m_perp.x; this.m_s2 = r2X * this.m_perp.y - r2Y * this.m_perp.x; var m1 = this.m_invMassA; var m2 = this.m_invMassB; var i1 = this.m_invIA; var i2 = this.m_invIB; this.m_K.col1.x = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; this.m_K.col1.y = i1 * this.m_s1 * this.m_a1 + i2 * this.m_s2 * this.m_a2; this.m_K.col2.x = this.m_K.col1.y; this.m_K.col2.y = m1 + m2 + i1 * this.m_a1 * this.m_a1 + i2 * this.m_a2 * this.m_a2; } if (this.m_enableLimit) { var jointTransition = this.m_axis.x * dX + this.m_axis.y * dY; if (b2Math.Abs(this.m_upperTranslation - this.m_lowerTranslation) < 2.0 * b2Settings.b2_linearSlop) { this.m_limitState = b2Joint.e_equalLimits; } else if (jointTransition <= this.m_lowerTranslation) { if (this.m_limitState != b2Joint.e_atLowerLimit) { this.m_limitState = b2Joint.e_atLowerLimit; this.m_impulse.y = 0.0; } } else if (jointTransition >= this.m_upperTranslation) { if (this.m_limitState != b2Joint.e_atUpperLimit) { this.m_limitState = b2Joint.e_atUpperLimit; this.m_impulse.y = 0.0; } } else { this.m_limitState = b2Joint.e_inactiveLimit; this.m_impulse.y = 0.0; } } else { this.m_limitState = b2Joint.e_inactiveLimit; } if (this.m_enableMotor == false) { this.m_motorImpulse = 0.0; } if (step.warmStarting) { this.m_impulse.x *= step.dtRatio; this.m_impulse.y *= step.dtRatio; this.m_motorImpulse *= step.dtRatio; var PX = this.m_impulse.x * this.m_perp.x + (this.m_motorImpulse + this.m_impulse.y) * this.m_axis.x; var PY = this.m_impulse.x * this.m_perp.y + (this.m_motorImpulse + this.m_impulse.y) * this.m_axis.y; var L1 = this.m_impulse.x * this.m_s1 + (this.m_motorImpulse + this.m_impulse.y) * this.m_a1; var L2 = this.m_impulse.x * this.m_s2 + (this.m_motorImpulse + this.m_impulse.y) * this.m_a2; bA.m_linearVelocity.x -= this.m_invMassA * PX; bA.m_linearVelocity.y -= this.m_invMassA * PY; bA.m_angularVelocity -= this.m_invIA * L1; bB.m_linearVelocity.x += this.m_invMassB * PX; bB.m_linearVelocity.y += this.m_invMassB * PY; bB.m_angularVelocity += this.m_invIB * L2; } else { this.m_impulse.SetZero(); this.m_motorImpulse = 0.0; } } b2LineJoint.prototype.SolveVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var v1 = bA.m_linearVelocity; var w1 = bA.m_angularVelocity; var v2 = bB.m_linearVelocity; var w2 = bB.m_angularVelocity; var PX = 0; var PY = 0; var L1 = 0; var L2 = 0; if (this.m_enableMotor && this.m_limitState != b2Joint.e_equalLimits) { var Cdot = this.m_axis.x * (v2.x - v1.x) + this.m_axis.y * (v2.y - v1.y) + this.m_a2 * w2 - this.m_a1 * w1; var impulse = this.m_motorMass * (this.m_motorSpeed - Cdot); var oldImpulse = this.m_motorImpulse; var maxImpulse = step.dt * this.m_maxMotorForce; this.m_motorImpulse = b2Math.Clamp(this.m_motorImpulse + impulse, (-maxImpulse), maxImpulse); impulse = this.m_motorImpulse - oldImpulse; PX = impulse * this.m_axis.x; PY = impulse * this.m_axis.y; L1 = impulse * this.m_a1; L2 = impulse * this.m_a2; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } var Cdot1 = this.m_perp.x * (v2.x - v1.x) + this.m_perp.y * (v2.y - v1.y) + this.m_s2 * w2 - this.m_s1 * w1; if (this.m_enableLimit && this.m_limitState != b2Joint.e_inactiveLimit) { var Cdot2 = this.m_axis.x * (v2.x - v1.x) + this.m_axis.y * (v2.y - v1.y) + this.m_a2 * w2 - this.m_a1 * w1; var f1 = this.m_impulse.Copy(); var df = this.m_K.Solve(new b2Vec2(), (-Cdot1), (-Cdot2)); this.m_impulse.Add(df); if (this.m_limitState == b2Joint.e_atLowerLimit) { this.m_impulse.y = b2Math.Max(this.m_impulse.y, 0.0); } else if (this.m_limitState == b2Joint.e_atUpperLimit) { this.m_impulse.y = b2Math.Min(this.m_impulse.y, 0.0); } var b = (-Cdot1) - (this.m_impulse.y - f1.y) * this.m_K.col2.x; var f2r = 0; if (this.m_K.col1.x != 0.0) { f2r = b / this.m_K.col1.x + f1.x; } else { f2r = f1.x; } this.m_impulse.x = f2r; df.x = this.m_impulse.x - f1.x; df.y = this.m_impulse.y - f1.y; PX = df.x * this.m_perp.x + df.y * this.m_axis.x; PY = df.x * this.m_perp.y + df.y * this.m_axis.y; L1 = df.x * this.m_s1 + df.y * this.m_a1; L2 = df.x * this.m_s2 + df.y * this.m_a2; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } else { var df2 = 0; if (this.m_K.col1.x != 0.0) { df2 = ((-Cdot1)) / this.m_K.col1.x; } else { df2 = 0.0; } this.m_impulse.x += df2; PX = df2 * this.m_perp.x; PY = df2 * this.m_perp.y; L1 = df2 * this.m_s1; L2 = df2 * this.m_s2; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } bA.m_linearVelocity.SetV(v1); bA.m_angularVelocity = w1; bB.m_linearVelocity.SetV(v2); bB.m_angularVelocity = w2; } b2LineJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var limitC = 0; var oldLimitImpulse = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; var c1 = bA.m_sweep.c; var a1 = bA.m_sweep.a; var c2 = bB.m_sweep.c; var a2 = bB.m_sweep.a; var tMat; var tX = 0; var m1 = 0; var m2 = 0; var i1 = 0; var i2 = 0; var linearError = 0.0; var angularError = 0.0; var active = false; var C2 = 0.0; var R1 = b2Mat22.FromAngle(a1); var R2 = b2Mat22.FromAngle(a2); tMat = R1; var r1X = this.m_localAnchor1.x - this.m_localCenterA.x; var r1Y = this.m_localAnchor1.y - this.m_localCenterA.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = R2; var r2X = this.m_localAnchor2.x - this.m_localCenterB.x; var r2Y = this.m_localAnchor2.y - this.m_localCenterB.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var dX = c2.x + r2X - c1.x - r1X; var dY = c2.y + r2Y - c1.y - r1Y; if (this.m_enableLimit) { this.m_axis = b2Math.MulMV(R1, this.m_localXAxis1); this.m_a1 = (dX + r1X) * this.m_axis.y - (dY + r1Y) * this.m_axis.x; this.m_a2 = r2X * this.m_axis.y - r2Y * this.m_axis.x; var translation = this.m_axis.x * dX + this.m_axis.y * dY; if (b2Math.Abs(this.m_upperTranslation - this.m_lowerTranslation) < 2.0 * b2Settings.b2_linearSlop) { C2 = b2Math.Clamp(translation, (-b2Settings.b2_maxLinearCorrection), b2Settings.b2_maxLinearCorrection); linearError = b2Math.Abs(translation); active = true; } else if (translation <= this.m_lowerTranslation) { C2 = b2Math.Clamp(translation - this.m_lowerTranslation + b2Settings.b2_linearSlop, (-b2Settings.b2_maxLinearCorrection), 0.0); linearError = this.m_lowerTranslation - translation; active = true; } else if (translation >= this.m_upperTranslation) { C2 = b2Math.Clamp(translation - this.m_upperTranslation + b2Settings.b2_linearSlop, 0.0, b2Settings.b2_maxLinearCorrection); linearError = translation - this.m_upperTranslation; active = true; } } this.m_perp = b2Math.MulMV(R1, this.m_localYAxis1); this.m_s1 = (dX + r1X) * this.m_perp.y - (dY + r1Y) * this.m_perp.x; this.m_s2 = r2X * this.m_perp.y - r2Y * this.m_perp.x; var impulse = new b2Vec2(); var C1 = this.m_perp.x * dX + this.m_perp.y * dY; linearError = b2Math.Max(linearError, b2Math.Abs(C1)); angularError = 0.0; if (active) { m1 = this.m_invMassA; m2 = this.m_invMassB; i1 = this.m_invIA; i2 = this.m_invIB; this.m_K.col1.x = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; this.m_K.col1.y = i1 * this.m_s1 * this.m_a1 + i2 * this.m_s2 * this.m_a2; this.m_K.col2.x = this.m_K.col1.y; this.m_K.col2.y = m1 + m2 + i1 * this.m_a1 * this.m_a1 + i2 * this.m_a2 * this.m_a2; this.m_K.Solve(impulse, (-C1), (-C2)); } else { m1 = this.m_invMassA; m2 = this.m_invMassB; i1 = this.m_invIA; i2 = this.m_invIB; var k11 = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; var impulse1 = 0; if (k11 != 0.0) { impulse1 = ((-C1)) / k11; } else { impulse1 = 0.0; } impulse.x = impulse1; impulse.y = 0.0; } var PX = impulse.x * this.m_perp.x + impulse.y * this.m_axis.x; var PY = impulse.x * this.m_perp.y + impulse.y * this.m_axis.y; var L1 = impulse.x * this.m_s1 + impulse.y * this.m_a1; var L2 = impulse.x * this.m_s2 + impulse.y * this.m_a2; c1.x -= this.m_invMassA * PX; c1.y -= this.m_invMassA * PY; a1 -= this.m_invIA * L1; c2.x += this.m_invMassB * PX; c2.y += this.m_invMassB * PY; a2 += this.m_invIB * L2; bA.m_sweep.a = a1; bB.m_sweep.a = a2; bA.SynchronizeTransform(); bB.SynchronizeTransform(); return linearError <= b2Settings.b2_linearSlop && angularError <= b2Settings.b2_angularSlop; } Box2D.inherit(b2LineJointDef, Box2D.Dynamics.Joints.b2JointDef); b2LineJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2LineJointDef.b2LineJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); this.localAxisA = new b2Vec2(); }; b2LineJointDef.prototype.b2LineJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_lineJoint; this.localAxisA.Set(1.0, 0.0); this.enableLimit = false; this.lowerTranslation = 0.0; this.upperTranslation = 0.0; this.enableMotor = false; this.maxMotorForce = 0.0; this.motorSpeed = 0.0; } b2LineJointDef.prototype.Initialize = function (bA, bB, anchor, axis) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA = this.bodyA.GetLocalPoint(anchor); this.localAnchorB = this.bodyB.GetLocalPoint(anchor); this.localAxisA = this.bodyA.GetLocalVector(axis); } Box2D.inherit(b2MouseJoint, Box2D.Dynamics.Joints.b2Joint); b2MouseJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2MouseJoint.b2MouseJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.K = new b2Mat22(); this.K1 = new b2Mat22(); this.K2 = new b2Mat22(); this.m_localAnchor = new b2Vec2(); this.m_target = new b2Vec2(); this.m_impulse = new b2Vec2(); this.m_mass = new b2Mat22(); this.m_C = new b2Vec2(); }; b2MouseJoint.prototype.GetAnchorA = function () { return this.m_target; } b2MouseJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor); } b2MouseJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse.x, inv_dt * this.m_impulse.y); } b2MouseJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return 0.0; } b2MouseJoint.prototype.GetTarget = function () { return this.m_target; } b2MouseJoint.prototype.SetTarget = function (target) { if (this.m_bodyB.IsAwake() == false) { this.m_bodyB.SetAwake(true); } this.m_target = target; } b2MouseJoint.prototype.GetMaxForce = function () { return this.m_maxForce; } b2MouseJoint.prototype.SetMaxForce = function (maxForce) { if (maxForce === undefined) maxForce = 0; this.m_maxForce = maxForce; } b2MouseJoint.prototype.GetFrequency = function () { return this.m_frequencyHz; } b2MouseJoint.prototype.SetFrequency = function (hz) { if (hz === undefined) hz = 0; this.m_frequencyHz = hz; } b2MouseJoint.prototype.GetDampingRatio = function () { return this.m_dampingRatio; } b2MouseJoint.prototype.SetDampingRatio = function (ratio) { if (ratio === undefined) ratio = 0; this.m_dampingRatio = ratio; } b2MouseJoint.prototype.b2MouseJoint = function (def) { this.__super.b2Joint.call(this, def); this.m_target.SetV(def.target); var tX = this.m_target.x - this.m_bodyB.m_xf.position.x; var tY = this.m_target.y - this.m_bodyB.m_xf.position.y; var tMat = this.m_bodyB.m_xf.R; this.m_localAnchor.x = (tX * tMat.col1.x + tY * tMat.col1.y); this.m_localAnchor.y = (tX * tMat.col2.x + tY * tMat.col2.y); this.m_maxForce = def.maxForce; this.m_impulse.SetZero(); this.m_frequencyHz = def.frequencyHz; this.m_dampingRatio = def.dampingRatio; this.m_beta = 0.0; this.m_gamma = 0.0; } b2MouseJoint.prototype.InitVelocityConstraints = function (step) { var b = this.m_bodyB; var mass = b.GetMass(); var omega = 2.0 * Math.PI * this.m_frequencyHz; var d = 2.0 * mass * this.m_dampingRatio * omega; var k = mass * omega * omega; this.m_gamma = step.dt * (d + step.dt * k); this.m_gamma = this.m_gamma != 0 ? 1 / this.m_gamma : 0.0; this.m_beta = step.dt * k * this.m_gamma; var tMat;tMat = b.m_xf.R; var rX = this.m_localAnchor.x - b.m_sweep.localCenter.x; var rY = this.m_localAnchor.y - b.m_sweep.localCenter.y; var tX = (tMat.col1.x * rX + tMat.col2.x * rY);rY = (tMat.col1.y * rX + tMat.col2.y * rY); rX = tX; var invMass = b.m_invMass; var invI = b.m_invI;this.K1.col1.x = invMass; this.K1.col2.x = 0.0; this.K1.col1.y = 0.0; this.K1.col2.y = invMass; this.K2.col1.x = invI * rY * rY; this.K2.col2.x = (-invI * rX * rY); this.K2.col1.y = (-invI * rX * rY); this.K2.col2.y = invI * rX * rX; this.K.SetM(this.K1); this.K.AddM(this.K2); this.K.col1.x += this.m_gamma; this.K.col2.y += this.m_gamma; this.K.GetInverse(this.m_mass); this.m_C.x = b.m_sweep.c.x + rX - this.m_target.x; this.m_C.y = b.m_sweep.c.y + rY - this.m_target.y; b.m_angularVelocity *= 0.98; this.m_impulse.x *= step.dtRatio; this.m_impulse.y *= step.dtRatio; b.m_linearVelocity.x += invMass * this.m_impulse.x; b.m_linearVelocity.y += invMass * this.m_impulse.y; b.m_angularVelocity += invI * (rX * this.m_impulse.y - rY * this.m_impulse.x); } b2MouseJoint.prototype.SolveVelocityConstraints = function (step) { var b = this.m_bodyB; var tMat; var tX = 0; var tY = 0; tMat = b.m_xf.R; var rX = this.m_localAnchor.x - b.m_sweep.localCenter.x; var rY = this.m_localAnchor.y - b.m_sweep.localCenter.y; tX = (tMat.col1.x * rX + tMat.col2.x * rY); rY = (tMat.col1.y * rX + tMat.col2.y * rY); rX = tX; var CdotX = b.m_linearVelocity.x + ((-b.m_angularVelocity * rY)); var CdotY = b.m_linearVelocity.y + (b.m_angularVelocity * rX); tMat = this.m_mass; tX = CdotX + this.m_beta * this.m_C.x + this.m_gamma * this.m_impulse.x; tY = CdotY + this.m_beta * this.m_C.y + this.m_gamma * this.m_impulse.y; var impulseX = (-(tMat.col1.x * tX + tMat.col2.x * tY)); var impulseY = (-(tMat.col1.y * tX + tMat.col2.y * tY)); var oldImpulseX = this.m_impulse.x; var oldImpulseY = this.m_impulse.y; this.m_impulse.x += impulseX; this.m_impulse.y += impulseY; var maxImpulse = step.dt * this.m_maxForce; if (this.m_impulse.LengthSquared() > maxImpulse * maxImpulse) { this.m_impulse.Multiply(maxImpulse / this.m_impulse.Length()); } impulseX = this.m_impulse.x - oldImpulseX; impulseY = this.m_impulse.y - oldImpulseY; b.m_linearVelocity.x += b.m_invMass * impulseX; b.m_linearVelocity.y += b.m_invMass * impulseY; b.m_angularVelocity += b.m_invI * (rX * impulseY - rY * impulseX); } b2MouseJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; return true; } Box2D.inherit(b2MouseJointDef, Box2D.Dynamics.Joints.b2JointDef); b2MouseJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2MouseJointDef.b2MouseJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.target = new b2Vec2(); }; b2MouseJointDef.prototype.b2MouseJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_mouseJoint; this.maxForce = 0.0; this.frequencyHz = 5.0; this.dampingRatio = 0.7; } Box2D.inherit(b2PrismaticJoint, Box2D.Dynamics.Joints.b2Joint); b2PrismaticJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2PrismaticJoint.b2PrismaticJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_localXAxis1 = new b2Vec2(); this.m_localYAxis1 = new b2Vec2(); this.m_axis = new b2Vec2(); this.m_perp = new b2Vec2(); this.m_K = new b2Mat33(); this.m_impulse = new b2Vec3(); }; b2PrismaticJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2PrismaticJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2PrismaticJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * (this.m_impulse.x * this.m_perp.x + (this.m_motorImpulse + this.m_impulse.z) * this.m_axis.x), inv_dt * (this.m_impulse.x * this.m_perp.y + (this.m_motorImpulse + this.m_impulse.z) * this.m_axis.y)); } b2PrismaticJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return inv_dt * this.m_impulse.y; } b2PrismaticJoint.prototype.GetJointTranslation = function () { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var p1 = bA.GetWorldPoint(this.m_localAnchor1); var p2 = bB.GetWorldPoint(this.m_localAnchor2); var dX = p2.x - p1.x; var dY = p2.y - p1.y; var axis = bA.GetWorldVector(this.m_localXAxis1); var translation = axis.x * dX + axis.y * dY; return translation; } b2PrismaticJoint.prototype.GetJointSpeed = function () { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var p1X = bA.m_sweep.c.x + r1X; var p1Y = bA.m_sweep.c.y + r1Y; var p2X = bB.m_sweep.c.x + r2X; var p2Y = bB.m_sweep.c.y + r2Y; var dX = p2X - p1X; var dY = p2Y - p1Y; var axis = bA.GetWorldVector(this.m_localXAxis1); var v1 = bA.m_linearVelocity; var v2 = bB.m_linearVelocity; var w1 = bA.m_angularVelocity; var w2 = bB.m_angularVelocity; var speed = (dX * ((-w1 * axis.y)) + dY * (w1 * axis.x)) + (axis.x * (((v2.x + ((-w2 * r2Y))) - v1.x) - ((-w1 * r1Y))) + axis.y * (((v2.y + (w2 * r2X)) - v1.y) - (w1 * r1X))); return speed; } b2PrismaticJoint.prototype.IsLimitEnabled = function () { return this.m_enableLimit; } b2PrismaticJoint.prototype.EnableLimit = function (flag) { this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_enableLimit = flag; } b2PrismaticJoint.prototype.GetLowerLimit = function () { return this.m_lowerTranslation; } b2PrismaticJoint.prototype.GetUpperLimit = function () { return this.m_upperTranslation; } b2PrismaticJoint.prototype.SetLimits = function (lower, upper) { if (lower === undefined) lower = 0; if (upper === undefined) upper = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_lowerTranslation = lower; this.m_upperTranslation = upper; } b2PrismaticJoint.prototype.IsMotorEnabled = function () { return this.m_enableMotor; } b2PrismaticJoint.prototype.EnableMotor = function (flag) { this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_enableMotor = flag; } b2PrismaticJoint.prototype.SetMotorSpeed = function (speed) { if (speed === undefined) speed = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_motorSpeed = speed; } b2PrismaticJoint.prototype.GetMotorSpeed = function () { return this.m_motorSpeed; } b2PrismaticJoint.prototype.SetMaxMotorForce = function (force) { if (force === undefined) force = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_maxMotorForce = force; } b2PrismaticJoint.prototype.GetMotorForce = function () { return this.m_motorImpulse; } b2PrismaticJoint.prototype.b2PrismaticJoint = function (def) { this.__super.b2Joint.call(this, def); var tMat; var tX = 0; var tY = 0; this.m_localAnchor1.SetV(def.localAnchorA); this.m_localAnchor2.SetV(def.localAnchorB); this.m_localXAxis1.SetV(def.localAxisA); this.m_localYAxis1.x = (-this.m_localXAxis1.y); this.m_localYAxis1.y = this.m_localXAxis1.x; this.m_refAngle = def.referenceAngle; this.m_impulse.SetZero(); this.m_motorMass = 0.0; this.m_motorImpulse = 0.0; this.m_lowerTranslation = def.lowerTranslation; this.m_upperTranslation = def.upperTranslation; this.m_maxMotorForce = def.maxMotorForce; this.m_motorSpeed = def.motorSpeed; this.m_enableLimit = def.enableLimit; this.m_enableMotor = def.enableMotor; this.m_limitState = b2Joint.e_inactiveLimit; this.m_axis.SetZero(); this.m_perp.SetZero(); } b2PrismaticJoint.prototype.InitVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var tX = 0; this.m_localCenterA.SetV(bA.GetLocalCenter()); this.m_localCenterB.SetV(bB.GetLocalCenter()); var xf1 = bA.GetTransform(); var xf2 = bB.GetTransform(); tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - this.m_localCenterA.x; var r1Y = this.m_localAnchor1.y - this.m_localCenterA.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - this.m_localCenterB.x; var r2Y = this.m_localAnchor2.y - this.m_localCenterB.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var dX = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; var dY = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; this.m_invMassA = bA.m_invMass; this.m_invMassB = bB.m_invMass; this.m_invIA = bA.m_invI; this.m_invIB = bB.m_invI; { this.m_axis.SetV(b2Math.MulMV(xf1.R, this.m_localXAxis1)); this.m_a1 = (dX + r1X) * this.m_axis.y - (dY + r1Y) * this.m_axis.x; this.m_a2 = r2X * this.m_axis.y - r2Y * this.m_axis.x; this.m_motorMass = this.m_invMassA + this.m_invMassB + this.m_invIA * this.m_a1 * this.m_a1 + this.m_invIB * this.m_a2 * this.m_a2; if (this.m_motorMass > Number.MIN_VALUE) this.m_motorMass = 1.0 / this.m_motorMass; } { this.m_perp.SetV(b2Math.MulMV(xf1.R, this.m_localYAxis1)); this.m_s1 = (dX + r1X) * this.m_perp.y - (dY + r1Y) * this.m_perp.x; this.m_s2 = r2X * this.m_perp.y - r2Y * this.m_perp.x; var m1 = this.m_invMassA; var m2 = this.m_invMassB; var i1 = this.m_invIA; var i2 = this.m_invIB; this.m_K.col1.x = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; this.m_K.col1.y = i1 * this.m_s1 + i2 * this.m_s2; this.m_K.col1.z = i1 * this.m_s1 * this.m_a1 + i2 * this.m_s2 * this.m_a2; this.m_K.col2.x = this.m_K.col1.y; this.m_K.col2.y = i1 + i2; this.m_K.col2.z = i1 * this.m_a1 + i2 * this.m_a2; this.m_K.col3.x = this.m_K.col1.z; this.m_K.col3.y = this.m_K.col2.z; this.m_K.col3.z = m1 + m2 + i1 * this.m_a1 * this.m_a1 + i2 * this.m_a2 * this.m_a2; } if (this.m_enableLimit) { var jointTransition = this.m_axis.x * dX + this.m_axis.y * dY; if (b2Math.Abs(this.m_upperTranslation - this.m_lowerTranslation) < 2.0 * b2Settings.b2_linearSlop) { this.m_limitState = b2Joint.e_equalLimits; } else if (jointTransition <= this.m_lowerTranslation) { if (this.m_limitState != b2Joint.e_atLowerLimit) { this.m_limitState = b2Joint.e_atLowerLimit; this.m_impulse.z = 0.0; } } else if (jointTransition >= this.m_upperTranslation) { if (this.m_limitState != b2Joint.e_atUpperLimit) { this.m_limitState = b2Joint.e_atUpperLimit; this.m_impulse.z = 0.0; } } else { this.m_limitState = b2Joint.e_inactiveLimit; this.m_impulse.z = 0.0; } } else { this.m_limitState = b2Joint.e_inactiveLimit; } if (this.m_enableMotor == false) { this.m_motorImpulse = 0.0; } if (step.warmStarting) { this.m_impulse.x *= step.dtRatio; this.m_impulse.y *= step.dtRatio; this.m_motorImpulse *= step.dtRatio; var PX = this.m_impulse.x * this.m_perp.x + (this.m_motorImpulse + this.m_impulse.z) * this.m_axis.x; var PY = this.m_impulse.x * this.m_perp.y + (this.m_motorImpulse + this.m_impulse.z) * this.m_axis.y; var L1 = this.m_impulse.x * this.m_s1 + this.m_impulse.y + (this.m_motorImpulse + this.m_impulse.z) * this.m_a1; var L2 = this.m_impulse.x * this.m_s2 + this.m_impulse.y + (this.m_motorImpulse + this.m_impulse.z) * this.m_a2; bA.m_linearVelocity.x -= this.m_invMassA * PX; bA.m_linearVelocity.y -= this.m_invMassA * PY; bA.m_angularVelocity -= this.m_invIA * L1; bB.m_linearVelocity.x += this.m_invMassB * PX; bB.m_linearVelocity.y += this.m_invMassB * PY; bB.m_angularVelocity += this.m_invIB * L2; } else { this.m_impulse.SetZero(); this.m_motorImpulse = 0.0; } } b2PrismaticJoint.prototype.SolveVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var v1 = bA.m_linearVelocity; var w1 = bA.m_angularVelocity; var v2 = bB.m_linearVelocity; var w2 = bB.m_angularVelocity; var PX = 0; var PY = 0; var L1 = 0; var L2 = 0; if (this.m_enableMotor && this.m_limitState != b2Joint.e_equalLimits) { var Cdot = this.m_axis.x * (v2.x - v1.x) + this.m_axis.y * (v2.y - v1.y) + this.m_a2 * w2 - this.m_a1 * w1; var impulse = this.m_motorMass * (this.m_motorSpeed - Cdot); var oldImpulse = this.m_motorImpulse; var maxImpulse = step.dt * this.m_maxMotorForce; this.m_motorImpulse = b2Math.Clamp(this.m_motorImpulse + impulse, (-maxImpulse), maxImpulse); impulse = this.m_motorImpulse - oldImpulse; PX = impulse * this.m_axis.x; PY = impulse * this.m_axis.y; L1 = impulse * this.m_a1; L2 = impulse * this.m_a2; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } var Cdot1X = this.m_perp.x * (v2.x - v1.x) + this.m_perp.y * (v2.y - v1.y) + this.m_s2 * w2 - this.m_s1 * w1; var Cdot1Y = w2 - w1; if (this.m_enableLimit && this.m_limitState != b2Joint.e_inactiveLimit) { var Cdot2 = this.m_axis.x * (v2.x - v1.x) + this.m_axis.y * (v2.y - v1.y) + this.m_a2 * w2 - this.m_a1 * w1; var f1 = this.m_impulse.Copy(); var df = this.m_K.Solve33(new b2Vec3(), (-Cdot1X), (-Cdot1Y), (-Cdot2)); this.m_impulse.Add(df); if (this.m_limitState == b2Joint.e_atLowerLimit) { this.m_impulse.z = b2Math.Max(this.m_impulse.z, 0.0); } else if (this.m_limitState == b2Joint.e_atUpperLimit) { this.m_impulse.z = b2Math.Min(this.m_impulse.z, 0.0); } var bX = (-Cdot1X) - (this.m_impulse.z - f1.z) * this.m_K.col3.x; var bY = (-Cdot1Y) - (this.m_impulse.z - f1.z) * this.m_K.col3.y; var f2r = this.m_K.Solve22(new b2Vec2(), bX, bY); f2r.x += f1.x; f2r.y += f1.y; this.m_impulse.x = f2r.x; this.m_impulse.y = f2r.y; df.x = this.m_impulse.x - f1.x; df.y = this.m_impulse.y - f1.y; df.z = this.m_impulse.z - f1.z; PX = df.x * this.m_perp.x + df.z * this.m_axis.x; PY = df.x * this.m_perp.y + df.z * this.m_axis.y; L1 = df.x * this.m_s1 + df.y + df.z * this.m_a1; L2 = df.x * this.m_s2 + df.y + df.z * this.m_a2; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } else { var df2 = this.m_K.Solve22(new b2Vec2(), (-Cdot1X), (-Cdot1Y)); this.m_impulse.x += df2.x; this.m_impulse.y += df2.y; PX = df2.x * this.m_perp.x; PY = df2.x * this.m_perp.y; L1 = df2.x * this.m_s1 + df2.y; L2 = df2.x * this.m_s2 + df2.y; v1.x -= this.m_invMassA * PX; v1.y -= this.m_invMassA * PY; w1 -= this.m_invIA * L1; v2.x += this.m_invMassB * PX; v2.y += this.m_invMassB * PY; w2 += this.m_invIB * L2; } bA.m_linearVelocity.SetV(v1); bA.m_angularVelocity = w1; bB.m_linearVelocity.SetV(v2); bB.m_angularVelocity = w2; } b2PrismaticJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var limitC = 0; var oldLimitImpulse = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; var c1 = bA.m_sweep.c; var a1 = bA.m_sweep.a; var c2 = bB.m_sweep.c; var a2 = bB.m_sweep.a; var tMat; var tX = 0; var m1 = 0; var m2 = 0; var i1 = 0; var i2 = 0; var linearError = 0.0; var angularError = 0.0; var active = false; var C2 = 0.0; var R1 = b2Mat22.FromAngle(a1); var R2 = b2Mat22.FromAngle(a2); tMat = R1; var r1X = this.m_localAnchor1.x - this.m_localCenterA.x; var r1Y = this.m_localAnchor1.y - this.m_localCenterA.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = R2; var r2X = this.m_localAnchor2.x - this.m_localCenterB.x; var r2Y = this.m_localAnchor2.y - this.m_localCenterB.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var dX = c2.x + r2X - c1.x - r1X; var dY = c2.y + r2Y - c1.y - r1Y; if (this.m_enableLimit) { this.m_axis = b2Math.MulMV(R1, this.m_localXAxis1); this.m_a1 = (dX + r1X) * this.m_axis.y - (dY + r1Y) * this.m_axis.x; this.m_a2 = r2X * this.m_axis.y - r2Y * this.m_axis.x; var translation = this.m_axis.x * dX + this.m_axis.y * dY; if (b2Math.Abs(this.m_upperTranslation - this.m_lowerTranslation) < 2.0 * b2Settings.b2_linearSlop) { C2 = b2Math.Clamp(translation, (-b2Settings.b2_maxLinearCorrection), b2Settings.b2_maxLinearCorrection); linearError = b2Math.Abs(translation); active = true; } else if (translation <= this.m_lowerTranslation) { C2 = b2Math.Clamp(translation - this.m_lowerTranslation + b2Settings.b2_linearSlop, (-b2Settings.b2_maxLinearCorrection), 0.0); linearError = this.m_lowerTranslation - translation; active = true; } else if (translation >= this.m_upperTranslation) { C2 = b2Math.Clamp(translation - this.m_upperTranslation + b2Settings.b2_linearSlop, 0.0, b2Settings.b2_maxLinearCorrection); linearError = translation - this.m_upperTranslation; active = true; } } this.m_perp = b2Math.MulMV(R1, this.m_localYAxis1); this.m_s1 = (dX + r1X) * this.m_perp.y - (dY + r1Y) * this.m_perp.x; this.m_s2 = r2X * this.m_perp.y - r2Y * this.m_perp.x; var impulse = new b2Vec3(); var C1X = this.m_perp.x * dX + this.m_perp.y * dY; var C1Y = a2 - a1 - this.m_refAngle; linearError = b2Math.Max(linearError, b2Math.Abs(C1X)); angularError = b2Math.Abs(C1Y); if (active) { m1 = this.m_invMassA; m2 = this.m_invMassB; i1 = this.m_invIA; i2 = this.m_invIB; this.m_K.col1.x = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; this.m_K.col1.y = i1 * this.m_s1 + i2 * this.m_s2; this.m_K.col1.z = i1 * this.m_s1 * this.m_a1 + i2 * this.m_s2 * this.m_a2; this.m_K.col2.x = this.m_K.col1.y; this.m_K.col2.y = i1 + i2; this.m_K.col2.z = i1 * this.m_a1 + i2 * this.m_a2; this.m_K.col3.x = this.m_K.col1.z; this.m_K.col3.y = this.m_K.col2.z; this.m_K.col3.z = m1 + m2 + i1 * this.m_a1 * this.m_a1 + i2 * this.m_a2 * this.m_a2; this.m_K.Solve33(impulse, (-C1X), (-C1Y), (-C2)); } else { m1 = this.m_invMassA; m2 = this.m_invMassB; i1 = this.m_invIA; i2 = this.m_invIB; var k11 = m1 + m2 + i1 * this.m_s1 * this.m_s1 + i2 * this.m_s2 * this.m_s2; var k12 = i1 * this.m_s1 + i2 * this.m_s2; var k22 = i1 + i2; this.m_K.col1.Set(k11, k12, 0.0); this.m_K.col2.Set(k12, k22, 0.0); var impulse1 = this.m_K.Solve22(new b2Vec2(), (-C1X), (-C1Y)); impulse.x = impulse1.x; impulse.y = impulse1.y; impulse.z = 0.0; } var PX = impulse.x * this.m_perp.x + impulse.z * this.m_axis.x; var PY = impulse.x * this.m_perp.y + impulse.z * this.m_axis.y; var L1 = impulse.x * this.m_s1 + impulse.y + impulse.z * this.m_a1; var L2 = impulse.x * this.m_s2 + impulse.y + impulse.z * this.m_a2; c1.x -= this.m_invMassA * PX; c1.y -= this.m_invMassA * PY; a1 -= this.m_invIA * L1; c2.x += this.m_invMassB * PX; c2.y += this.m_invMassB * PY; a2 += this.m_invIB * L2; bA.m_sweep.a = a1; bB.m_sweep.a = a2; bA.SynchronizeTransform(); bB.SynchronizeTransform(); return linearError <= b2Settings.b2_linearSlop && angularError <= b2Settings.b2_angularSlop; } Box2D.inherit(b2PrismaticJointDef, Box2D.Dynamics.Joints.b2JointDef); b2PrismaticJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2PrismaticJointDef.b2PrismaticJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); this.localAxisA = new b2Vec2(); }; b2PrismaticJointDef.prototype.b2PrismaticJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_prismaticJoint; this.localAxisA.Set(1.0, 0.0); this.referenceAngle = 0.0; this.enableLimit = false; this.lowerTranslation = 0.0; this.upperTranslation = 0.0; this.enableMotor = false; this.maxMotorForce = 0.0; this.motorSpeed = 0.0; } b2PrismaticJointDef.prototype.Initialize = function (bA, bB, anchor, axis) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA = this.bodyA.GetLocalPoint(anchor); this.localAnchorB = this.bodyB.GetLocalPoint(anchor); this.localAxisA = this.bodyA.GetLocalVector(axis); this.referenceAngle = this.bodyB.GetAngle() - this.bodyA.GetAngle(); } Box2D.inherit(b2PulleyJoint, Box2D.Dynamics.Joints.b2Joint); b2PulleyJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2PulleyJoint.b2PulleyJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_groundAnchor1 = new b2Vec2(); this.m_groundAnchor2 = new b2Vec2(); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_u1 = new b2Vec2(); this.m_u2 = new b2Vec2(); }; b2PulleyJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2PulleyJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2PulleyJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse * this.m_u2.x, inv_dt * this.m_impulse * this.m_u2.y); } b2PulleyJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return 0.0; } b2PulleyJoint.prototype.GetGroundAnchorA = function () { var a = this.m_ground.m_xf.position.Copy(); a.Add(this.m_groundAnchor1); return a; } b2PulleyJoint.prototype.GetGroundAnchorB = function () { var a = this.m_ground.m_xf.position.Copy(); a.Add(this.m_groundAnchor2); return a; } b2PulleyJoint.prototype.GetLength1 = function () { var p = this.m_bodyA.GetWorldPoint(this.m_localAnchor1); var sX = this.m_ground.m_xf.position.x + this.m_groundAnchor1.x; var sY = this.m_ground.m_xf.position.y + this.m_groundAnchor1.y; var dX = p.x - sX; var dY = p.y - sY; return Math.sqrt(dX * dX + dY * dY); } b2PulleyJoint.prototype.GetLength2 = function () { var p = this.m_bodyB.GetWorldPoint(this.m_localAnchor2); var sX = this.m_ground.m_xf.position.x + this.m_groundAnchor2.x; var sY = this.m_ground.m_xf.position.y + this.m_groundAnchor2.y; var dX = p.x - sX; var dY = p.y - sY; return Math.sqrt(dX * dX + dY * dY); } b2PulleyJoint.prototype.GetRatio = function () { return this.m_ratio; } b2PulleyJoint.prototype.b2PulleyJoint = function (def) { this.__super.b2Joint.call(this, def); var tMat; var tX = 0; var tY = 0; this.m_ground = this.m_bodyA.m_world.m_groundBody; this.m_groundAnchor1.x = def.groundAnchorA.x - this.m_ground.m_xf.position.x; this.m_groundAnchor1.y = def.groundAnchorA.y - this.m_ground.m_xf.position.y; this.m_groundAnchor2.x = def.groundAnchorB.x - this.m_ground.m_xf.position.x; this.m_groundAnchor2.y = def.groundAnchorB.y - this.m_ground.m_xf.position.y; this.m_localAnchor1.SetV(def.localAnchorA); this.m_localAnchor2.SetV(def.localAnchorB); this.m_ratio = def.ratio; this.m_constant = def.lengthA + this.m_ratio * def.lengthB; this.m_maxLength1 = b2Math.Min(def.maxLengthA, this.m_constant - this.m_ratio * b2PulleyJoint.b2_minPulleyLength); this.m_maxLength2 = b2Math.Min(def.maxLengthB, (this.m_constant - b2PulleyJoint.b2_minPulleyLength) / this.m_ratio); this.m_impulse = 0.0; this.m_limitImpulse1 = 0.0; this.m_limitImpulse2 = 0.0; } b2PulleyJoint.prototype.InitVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var p1X = bA.m_sweep.c.x + r1X; var p1Y = bA.m_sweep.c.y + r1Y; var p2X = bB.m_sweep.c.x + r2X; var p2Y = bB.m_sweep.c.y + r2Y; var s1X = this.m_ground.m_xf.position.x + this.m_groundAnchor1.x; var s1Y = this.m_ground.m_xf.position.y + this.m_groundAnchor1.y; var s2X = this.m_ground.m_xf.position.x + this.m_groundAnchor2.x; var s2Y = this.m_ground.m_xf.position.y + this.m_groundAnchor2.y; this.m_u1.Set(p1X - s1X, p1Y - s1Y); this.m_u2.Set(p2X - s2X, p2Y - s2Y); var length1 = this.m_u1.Length(); var length2 = this.m_u2.Length(); if (length1 > b2Settings.b2_linearSlop) { this.m_u1.Multiply(1.0 / length1); } else { this.m_u1.SetZero(); } if (length2 > b2Settings.b2_linearSlop) { this.m_u2.Multiply(1.0 / length2); } else { this.m_u2.SetZero(); } var C = this.m_constant - length1 - this.m_ratio * length2; if (C > 0.0) { this.m_state = b2Joint.e_inactiveLimit; this.m_impulse = 0.0; } else { this.m_state = b2Joint.e_atUpperLimit; } if (length1 < this.m_maxLength1) { this.m_limitState1 = b2Joint.e_inactiveLimit; this.m_limitImpulse1 = 0.0; } else { this.m_limitState1 = b2Joint.e_atUpperLimit; } if (length2 < this.m_maxLength2) { this.m_limitState2 = b2Joint.e_inactiveLimit; this.m_limitImpulse2 = 0.0; } else { this.m_limitState2 = b2Joint.e_atUpperLimit; } var cr1u1 = r1X * this.m_u1.y - r1Y * this.m_u1.x; var cr2u2 = r2X * this.m_u2.y - r2Y * this.m_u2.x; this.m_limitMass1 = bA.m_invMass + bA.m_invI * cr1u1 * cr1u1; this.m_limitMass2 = bB.m_invMass + bB.m_invI * cr2u2 * cr2u2; this.m_pulleyMass = this.m_limitMass1 + this.m_ratio * this.m_ratio * this.m_limitMass2; this.m_limitMass1 = 1.0 / this.m_limitMass1; this.m_limitMass2 = 1.0 / this.m_limitMass2; this.m_pulleyMass = 1.0 / this.m_pulleyMass; if (step.warmStarting) { this.m_impulse *= step.dtRatio; this.m_limitImpulse1 *= step.dtRatio; this.m_limitImpulse2 *= step.dtRatio; var P1X = ((-this.m_impulse) - this.m_limitImpulse1) * this.m_u1.x; var P1Y = ((-this.m_impulse) - this.m_limitImpulse1) * this.m_u1.y; var P2X = ((-this.m_ratio * this.m_impulse) - this.m_limitImpulse2) * this.m_u2.x; var P2Y = ((-this.m_ratio * this.m_impulse) - this.m_limitImpulse2) * this.m_u2.y; bA.m_linearVelocity.x += bA.m_invMass * P1X; bA.m_linearVelocity.y += bA.m_invMass * P1Y; bA.m_angularVelocity += bA.m_invI * (r1X * P1Y - r1Y * P1X); bB.m_linearVelocity.x += bB.m_invMass * P2X; bB.m_linearVelocity.y += bB.m_invMass * P2Y; bB.m_angularVelocity += bB.m_invI * (r2X * P2Y - r2Y * P2X); } else { this.m_impulse = 0.0; this.m_limitImpulse1 = 0.0; this.m_limitImpulse2 = 0.0; } } b2PulleyJoint.prototype.SolveVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; var tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var v1X = 0; var v1Y = 0; var v2X = 0; var v2Y = 0; var P1X = 0; var P1Y = 0; var P2X = 0; var P2Y = 0; var Cdot = 0; var impulse = 0; var oldImpulse = 0; if (this.m_state == b2Joint.e_atUpperLimit) { v1X = bA.m_linearVelocity.x + ((-bA.m_angularVelocity * r1Y)); v1Y = bA.m_linearVelocity.y + (bA.m_angularVelocity * r1X); v2X = bB.m_linearVelocity.x + ((-bB.m_angularVelocity * r2Y)); v2Y = bB.m_linearVelocity.y + (bB.m_angularVelocity * r2X); Cdot = (-(this.m_u1.x * v1X + this.m_u1.y * v1Y)) - this.m_ratio * (this.m_u2.x * v2X + this.m_u2.y * v2Y); impulse = this.m_pulleyMass * ((-Cdot)); oldImpulse = this.m_impulse; this.m_impulse = b2Math.Max(0.0, this.m_impulse + impulse); impulse = this.m_impulse - oldImpulse; P1X = (-impulse * this.m_u1.x); P1Y = (-impulse * this.m_u1.y); P2X = (-this.m_ratio * impulse * this.m_u2.x); P2Y = (-this.m_ratio * impulse * this.m_u2.y); bA.m_linearVelocity.x += bA.m_invMass * P1X; bA.m_linearVelocity.y += bA.m_invMass * P1Y; bA.m_angularVelocity += bA.m_invI * (r1X * P1Y - r1Y * P1X); bB.m_linearVelocity.x += bB.m_invMass * P2X; bB.m_linearVelocity.y += bB.m_invMass * P2Y; bB.m_angularVelocity += bB.m_invI * (r2X * P2Y - r2Y * P2X); } if (this.m_limitState1 == b2Joint.e_atUpperLimit) { v1X = bA.m_linearVelocity.x + ((-bA.m_angularVelocity * r1Y)); v1Y = bA.m_linearVelocity.y + (bA.m_angularVelocity * r1X); Cdot = (-(this.m_u1.x * v1X + this.m_u1.y * v1Y)); impulse = (-this.m_limitMass1 * Cdot); oldImpulse = this.m_limitImpulse1; this.m_limitImpulse1 = b2Math.Max(0.0, this.m_limitImpulse1 + impulse); impulse = this.m_limitImpulse1 - oldImpulse; P1X = (-impulse * this.m_u1.x); P1Y = (-impulse * this.m_u1.y); bA.m_linearVelocity.x += bA.m_invMass * P1X; bA.m_linearVelocity.y += bA.m_invMass * P1Y; bA.m_angularVelocity += bA.m_invI * (r1X * P1Y - r1Y * P1X); } if (this.m_limitState2 == b2Joint.e_atUpperLimit) { v2X = bB.m_linearVelocity.x + ((-bB.m_angularVelocity * r2Y)); v2Y = bB.m_linearVelocity.y + (bB.m_angularVelocity * r2X); Cdot = (-(this.m_u2.x * v2X + this.m_u2.y * v2Y)); impulse = (-this.m_limitMass2 * Cdot); oldImpulse = this.m_limitImpulse2; this.m_limitImpulse2 = b2Math.Max(0.0, this.m_limitImpulse2 + impulse); impulse = this.m_limitImpulse2 - oldImpulse; P2X = (-impulse * this.m_u2.x); P2Y = (-impulse * this.m_u2.y); bB.m_linearVelocity.x += bB.m_invMass * P2X; bB.m_linearVelocity.y += bB.m_invMass * P2Y; bB.m_angularVelocity += bB.m_invI * (r2X * P2Y - r2Y * P2X); } } b2PulleyJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var s1X = this.m_ground.m_xf.position.x + this.m_groundAnchor1.x; var s1Y = this.m_ground.m_xf.position.y + this.m_groundAnchor1.y; var s2X = this.m_ground.m_xf.position.x + this.m_groundAnchor2.x; var s2Y = this.m_ground.m_xf.position.y + this.m_groundAnchor2.y; var r1X = 0; var r1Y = 0; var r2X = 0; var r2Y = 0; var p1X = 0; var p1Y = 0; var p2X = 0; var p2Y = 0; var length1 = 0; var length2 = 0; var C = 0; var impulse = 0; var oldImpulse = 0; var oldLimitPositionImpulse = 0; var tX = 0; var linearError = 0.0; if (this.m_state == b2Joint.e_atUpperLimit) { tMat = bA.m_xf.R; r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; p1X = bA.m_sweep.c.x + r1X; p1Y = bA.m_sweep.c.y + r1Y; p2X = bB.m_sweep.c.x + r2X; p2Y = bB.m_sweep.c.y + r2Y; this.m_u1.Set(p1X - s1X, p1Y - s1Y); this.m_u2.Set(p2X - s2X, p2Y - s2Y); length1 = this.m_u1.Length(); length2 = this.m_u2.Length(); if (length1 > b2Settings.b2_linearSlop) { this.m_u1.Multiply(1.0 / length1); } else { this.m_u1.SetZero(); } if (length2 > b2Settings.b2_linearSlop) { this.m_u2.Multiply(1.0 / length2); } else { this.m_u2.SetZero(); } C = this.m_constant - length1 - this.m_ratio * length2; linearError = b2Math.Max(linearError, (-C)); C = b2Math.Clamp(C + b2Settings.b2_linearSlop, (-b2Settings.b2_maxLinearCorrection), 0.0); impulse = (-this.m_pulleyMass * C); p1X = (-impulse * this.m_u1.x); p1Y = (-impulse * this.m_u1.y); p2X = (-this.m_ratio * impulse * this.m_u2.x); p2Y = (-this.m_ratio * impulse * this.m_u2.y); bA.m_sweep.c.x += bA.m_invMass * p1X; bA.m_sweep.c.y += bA.m_invMass * p1Y; bA.m_sweep.a += bA.m_invI * (r1X * p1Y - r1Y * p1X); bB.m_sweep.c.x += bB.m_invMass * p2X; bB.m_sweep.c.y += bB.m_invMass * p2Y; bB.m_sweep.a += bB.m_invI * (r2X * p2Y - r2Y * p2X); bA.SynchronizeTransform(); bB.SynchronizeTransform(); } if (this.m_limitState1 == b2Joint.e_atUpperLimit) { tMat = bA.m_xf.R; r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; p1X = bA.m_sweep.c.x + r1X; p1Y = bA.m_sweep.c.y + r1Y; this.m_u1.Set(p1X - s1X, p1Y - s1Y); length1 = this.m_u1.Length(); if (length1 > b2Settings.b2_linearSlop) { this.m_u1.x *= 1.0 / length1; this.m_u1.y *= 1.0 / length1; } else { this.m_u1.SetZero(); } C = this.m_maxLength1 - length1; linearError = b2Math.Max(linearError, (-C)); C = b2Math.Clamp(C + b2Settings.b2_linearSlop, (-b2Settings.b2_maxLinearCorrection), 0.0); impulse = (-this.m_limitMass1 * C); p1X = (-impulse * this.m_u1.x); p1Y = (-impulse * this.m_u1.y); bA.m_sweep.c.x += bA.m_invMass * p1X; bA.m_sweep.c.y += bA.m_invMass * p1Y; bA.m_sweep.a += bA.m_invI * (r1X * p1Y - r1Y * p1X); bA.SynchronizeTransform(); } if (this.m_limitState2 == b2Joint.e_atUpperLimit) { tMat = bB.m_xf.R; r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; p2X = bB.m_sweep.c.x + r2X; p2Y = bB.m_sweep.c.y + r2Y; this.m_u2.Set(p2X - s2X, p2Y - s2Y); length2 = this.m_u2.Length(); if (length2 > b2Settings.b2_linearSlop) { this.m_u2.x *= 1.0 / length2; this.m_u2.y *= 1.0 / length2; } else { this.m_u2.SetZero(); } C = this.m_maxLength2 - length2; linearError = b2Math.Max(linearError, (-C)); C = b2Math.Clamp(C + b2Settings.b2_linearSlop, (-b2Settings.b2_maxLinearCorrection), 0.0); impulse = (-this.m_limitMass2 * C); p2X = (-impulse * this.m_u2.x); p2Y = (-impulse * this.m_u2.y); bB.m_sweep.c.x += bB.m_invMass * p2X; bB.m_sweep.c.y += bB.m_invMass * p2Y; bB.m_sweep.a += bB.m_invI * (r2X * p2Y - r2Y * p2X); bB.SynchronizeTransform(); } return linearError < b2Settings.b2_linearSlop; } Box2D.postDefs.push(function () { Box2D.Dynamics.Joints.b2PulleyJoint.b2_minPulleyLength = 2.0; }); Box2D.inherit(b2PulleyJointDef, Box2D.Dynamics.Joints.b2JointDef); b2PulleyJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2PulleyJointDef.b2PulleyJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.groundAnchorA = new b2Vec2(); this.groundAnchorB = new b2Vec2(); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); }; b2PulleyJointDef.prototype.b2PulleyJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_pulleyJoint; this.groundAnchorA.Set((-1.0), 1.0); this.groundAnchorB.Set(1.0, 1.0); this.localAnchorA.Set((-1.0), 0.0); this.localAnchorB.Set(1.0, 0.0); this.lengthA = 0.0; this.maxLengthA = 0.0; this.lengthB = 0.0; this.maxLengthB = 0.0; this.ratio = 1.0; this.collideConnected = true; } b2PulleyJointDef.prototype.Initialize = function (bA, bB, gaA, gaB, anchorA, anchorB, r) { if (r === undefined) r = 0; this.bodyA = bA; this.bodyB = bB; this.groundAnchorA.SetV(gaA); this.groundAnchorB.SetV(gaB); this.localAnchorA = this.bodyA.GetLocalPoint(anchorA); this.localAnchorB = this.bodyB.GetLocalPoint(anchorB); var d1X = anchorA.x - gaA.x; var d1Y = anchorA.y - gaA.y; this.lengthA = Math.sqrt(d1X * d1X + d1Y * d1Y); var d2X = anchorB.x - gaB.x; var d2Y = anchorB.y - gaB.y; this.lengthB = Math.sqrt(d2X * d2X + d2Y * d2Y); this.ratio = r; var C = this.lengthA + this.ratio * this.lengthB; this.maxLengthA = C - this.ratio * b2PulleyJoint.b2_minPulleyLength; this.maxLengthB = (C - b2PulleyJoint.b2_minPulleyLength) / this.ratio; } Box2D.inherit(b2RevoluteJoint, Box2D.Dynamics.Joints.b2Joint); b2RevoluteJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2RevoluteJoint.b2RevoluteJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.K = new b2Mat22(); this.K1 = new b2Mat22(); this.K2 = new b2Mat22(); this.K3 = new b2Mat22(); this.impulse3 = new b2Vec3(); this.impulse2 = new b2Vec2(); this.reduced = new b2Vec2(); this.m_localAnchor1 = new b2Vec2(); this.m_localAnchor2 = new b2Vec2(); this.m_impulse = new b2Vec3(); this.m_mass = new b2Mat33(); }; b2RevoluteJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchor1); } b2RevoluteJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchor2); } b2RevoluteJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse.x, inv_dt * this.m_impulse.y); } b2RevoluteJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return inv_dt * this.m_impulse.z; } b2RevoluteJoint.prototype.GetJointAngle = function () { return this.m_bodyB.m_sweep.a - this.m_bodyA.m_sweep.a - this.m_referenceAngle; } b2RevoluteJoint.prototype.GetJointSpeed = function () { return this.m_bodyB.m_angularVelocity - this.m_bodyA.m_angularVelocity; } b2RevoluteJoint.prototype.IsLimitEnabled = function () { return this.m_enableLimit; } b2RevoluteJoint.prototype.EnableLimit = function (flag) { this.m_enableLimit = flag; } b2RevoluteJoint.prototype.GetLowerLimit = function () { return this.m_lowerAngle; } b2RevoluteJoint.prototype.GetUpperLimit = function () { return this.m_upperAngle; } b2RevoluteJoint.prototype.SetLimits = function (lower, upper) { if (lower === undefined) lower = 0; if (upper === undefined) upper = 0; this.m_lowerAngle = lower; this.m_upperAngle = upper; } b2RevoluteJoint.prototype.IsMotorEnabled = function () { this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); return this.m_enableMotor; } b2RevoluteJoint.prototype.EnableMotor = function (flag) { this.m_enableMotor = flag; } b2RevoluteJoint.prototype.SetMotorSpeed = function (speed) { if (speed === undefined) speed = 0; this.m_bodyA.SetAwake(true); this.m_bodyB.SetAwake(true); this.m_motorSpeed = speed; } b2RevoluteJoint.prototype.GetMotorSpeed = function () { return this.m_motorSpeed; } b2RevoluteJoint.prototype.SetMaxMotorTorque = function (torque) { if (torque === undefined) torque = 0; this.m_maxMotorTorque = torque; } b2RevoluteJoint.prototype.GetMotorTorque = function () { return this.m_maxMotorTorque; } b2RevoluteJoint.prototype.b2RevoluteJoint = function (def) { this.__super.b2Joint.call(this, def); this.m_localAnchor1.SetV(def.localAnchorA); this.m_localAnchor2.SetV(def.localAnchorB); this.m_referenceAngle = def.referenceAngle; this.m_impulse.SetZero(); this.m_motorImpulse = 0.0; this.m_lowerAngle = def.lowerAngle; this.m_upperAngle = def.upperAngle; this.m_maxMotorTorque = def.maxMotorTorque; this.m_motorSpeed = def.motorSpeed; this.m_enableLimit = def.enableLimit; this.m_enableMotor = def.enableMotor; this.m_limitState = b2Joint.e_inactiveLimit; } b2RevoluteJoint.prototype.InitVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var tX = 0; if (this.m_enableMotor || this.m_enableLimit) {} tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var m1 = bA.m_invMass; var m2 = bB.m_invMass; var i1 = bA.m_invI; var i2 = bB.m_invI; this.m_mass.col1.x = m1 + m2 + r1Y * r1Y * i1 + r2Y * r2Y * i2; this.m_mass.col2.x = (-r1Y * r1X * i1) - r2Y * r2X * i2; this.m_mass.col3.x = (-r1Y * i1) - r2Y * i2; this.m_mass.col1.y = this.m_mass.col2.x; this.m_mass.col2.y = m1 + m2 + r1X * r1X * i1 + r2X * r2X * i2; this.m_mass.col3.y = r1X * i1 + r2X * i2; this.m_mass.col1.z = this.m_mass.col3.x; this.m_mass.col2.z = this.m_mass.col3.y; this.m_mass.col3.z = i1 + i2; this.m_motorMass = 1.0 / (i1 + i2); if (this.m_enableMotor == false) { this.m_motorImpulse = 0.0; } if (this.m_enableLimit) { var jointAngle = bB.m_sweep.a - bA.m_sweep.a - this.m_referenceAngle; if (b2Math.Abs(this.m_upperAngle - this.m_lowerAngle) < 2.0 * b2Settings.b2_angularSlop) { this.m_limitState = b2Joint.e_equalLimits; } else if (jointAngle <= this.m_lowerAngle) { if (this.m_limitState != b2Joint.e_atLowerLimit) { this.m_impulse.z = 0.0; } this.m_limitState = b2Joint.e_atLowerLimit; } else if (jointAngle >= this.m_upperAngle) { if (this.m_limitState != b2Joint.e_atUpperLimit) { this.m_impulse.z = 0.0; } this.m_limitState = b2Joint.e_atUpperLimit; } else { this.m_limitState = b2Joint.e_inactiveLimit; this.m_impulse.z = 0.0; } } else { this.m_limitState = b2Joint.e_inactiveLimit; } if (step.warmStarting) { this.m_impulse.x *= step.dtRatio; this.m_impulse.y *= step.dtRatio; this.m_motorImpulse *= step.dtRatio; var PX = this.m_impulse.x; var PY = this.m_impulse.y; bA.m_linearVelocity.x -= m1 * PX; bA.m_linearVelocity.y -= m1 * PY; bA.m_angularVelocity -= i1 * ((r1X * PY - r1Y * PX) + this.m_motorImpulse + this.m_impulse.z); bB.m_linearVelocity.x += m2 * PX; bB.m_linearVelocity.y += m2 * PY; bB.m_angularVelocity += i2 * ((r2X * PY - r2Y * PX) + this.m_motorImpulse + this.m_impulse.z); } else { this.m_impulse.SetZero(); this.m_motorImpulse = 0.0; } } b2RevoluteJoint.prototype.SolveVelocityConstraints = function (step) { var bA = this.m_bodyA; var bB = this.m_bodyB; var tMat; var tX = 0; var newImpulse = 0; var r1X = 0; var r1Y = 0; var r2X = 0; var r2Y = 0; var v1 = bA.m_linearVelocity; var w1 = bA.m_angularVelocity; var v2 = bB.m_linearVelocity; var w2 = bB.m_angularVelocity; var m1 = bA.m_invMass; var m2 = bB.m_invMass; var i1 = bA.m_invI; var i2 = bB.m_invI; if (this.m_enableMotor && this.m_limitState != b2Joint.e_equalLimits) { var Cdot = w2 - w1 - this.m_motorSpeed; var impulse = this.m_motorMass * ((-Cdot)); var oldImpulse = this.m_motorImpulse; var maxImpulse = step.dt * this.m_maxMotorTorque; this.m_motorImpulse = b2Math.Clamp(this.m_motorImpulse + impulse, (-maxImpulse), maxImpulse); impulse = this.m_motorImpulse - oldImpulse; w1 -= i1 * impulse; w2 += i2 * impulse; } if (this.m_enableLimit && this.m_limitState != b2Joint.e_inactiveLimit) { tMat = bA.m_xf.R; r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var Cdot1X = v2.x + ((-w2 * r2Y)) - v1.x - ((-w1 * r1Y)); var Cdot1Y = v2.y + (w2 * r2X) - v1.y - (w1 * r1X); var Cdot2 = w2 - w1; this.m_mass.Solve33(this.impulse3, (-Cdot1X), (-Cdot1Y), (-Cdot2)); if (this.m_limitState == b2Joint.e_equalLimits) { this.m_impulse.Add(this.impulse3); } else if (this.m_limitState == b2Joint.e_atLowerLimit) { newImpulse = this.m_impulse.z + this.impulse3.z; if (newImpulse < 0.0) { this.m_mass.Solve22(this.reduced, (-Cdot1X), (-Cdot1Y)); this.impulse3.x = this.reduced.x; this.impulse3.y = this.reduced.y; this.impulse3.z = (-this.m_impulse.z); this.m_impulse.x += this.reduced.x; this.m_impulse.y += this.reduced.y; this.m_impulse.z = 0.0; } } else if (this.m_limitState == b2Joint.e_atUpperLimit) { newImpulse = this.m_impulse.z + this.impulse3.z; if (newImpulse > 0.0) { this.m_mass.Solve22(this.reduced, (-Cdot1X), (-Cdot1Y)); this.impulse3.x = this.reduced.x; this.impulse3.y = this.reduced.y; this.impulse3.z = (-this.m_impulse.z); this.m_impulse.x += this.reduced.x; this.m_impulse.y += this.reduced.y; this.m_impulse.z = 0.0; } } v1.x -= m1 * this.impulse3.x; v1.y -= m1 * this.impulse3.y; w1 -= i1 * (r1X * this.impulse3.y - r1Y * this.impulse3.x + this.impulse3.z); v2.x += m2 * this.impulse3.x; v2.y += m2 * this.impulse3.y; w2 += i2 * (r2X * this.impulse3.y - r2Y * this.impulse3.x + this.impulse3.z); } else { tMat = bA.m_xf.R; r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var CdotX = v2.x + ((-w2 * r2Y)) - v1.x - ((-w1 * r1Y)); var CdotY = v2.y + (w2 * r2X) - v1.y - (w1 * r1X); this.m_mass.Solve22(this.impulse2, (-CdotX), (-CdotY)); this.m_impulse.x += this.impulse2.x; this.m_impulse.y += this.impulse2.y; v1.x -= m1 * this.impulse2.x; v1.y -= m1 * this.impulse2.y; w1 -= i1 * (r1X * this.impulse2.y - r1Y * this.impulse2.x); v2.x += m2 * this.impulse2.x; v2.y += m2 * this.impulse2.y; w2 += i2 * (r2X * this.impulse2.y - r2Y * this.impulse2.x); } bA.m_linearVelocity.SetV(v1); bA.m_angularVelocity = w1; bB.m_linearVelocity.SetV(v2); bB.m_angularVelocity = w2; } b2RevoluteJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var oldLimitImpulse = 0; var C = 0; var tMat; var bA = this.m_bodyA; var bB = this.m_bodyB; var angularError = 0.0; var positionError = 0.0; var tX = 0; var impulseX = 0; var impulseY = 0; if (this.m_enableLimit && this.m_limitState != b2Joint.e_inactiveLimit) { var angle = bB.m_sweep.a - bA.m_sweep.a - this.m_referenceAngle; var limitImpulse = 0.0; if (this.m_limitState == b2Joint.e_equalLimits) { C = b2Math.Clamp(angle - this.m_lowerAngle, (-b2Settings.b2_maxAngularCorrection), b2Settings.b2_maxAngularCorrection); limitImpulse = (-this.m_motorMass * C); angularError = b2Math.Abs(C); } else if (this.m_limitState == b2Joint.e_atLowerLimit) { C = angle - this.m_lowerAngle; angularError = (-C); C = b2Math.Clamp(C + b2Settings.b2_angularSlop, (-b2Settings.b2_maxAngularCorrection), 0.0); limitImpulse = (-this.m_motorMass * C); } else if (this.m_limitState == b2Joint.e_atUpperLimit) { C = angle - this.m_upperAngle; angularError = C; C = b2Math.Clamp(C - b2Settings.b2_angularSlop, 0.0, b2Settings.b2_maxAngularCorrection); limitImpulse = (-this.m_motorMass * C); } bA.m_sweep.a -= bA.m_invI * limitImpulse; bB.m_sweep.a += bB.m_invI * limitImpulse; bA.SynchronizeTransform(); bB.SynchronizeTransform(); } { tMat = bA.m_xf.R; var r1X = this.m_localAnchor1.x - bA.m_sweep.localCenter.x; var r1Y = this.m_localAnchor1.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * r1X + tMat.col2.x * r1Y); r1Y = (tMat.col1.y * r1X + tMat.col2.y * r1Y); r1X = tX; tMat = bB.m_xf.R; var r2X = this.m_localAnchor2.x - bB.m_sweep.localCenter.x; var r2Y = this.m_localAnchor2.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * r2X + tMat.col2.x * r2Y); r2Y = (tMat.col1.y * r2X + tMat.col2.y * r2Y); r2X = tX; var CX = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; var CY = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; var CLengthSquared = CX * CX + CY * CY; var CLength = Math.sqrt(CLengthSquared); positionError = CLength; var invMass1 = bA.m_invMass; var invMass2 = bB.m_invMass; var invI1 = bA.m_invI; var invI2 = bB.m_invI; var k_allowedStretch = 10.0 * b2Settings.b2_linearSlop; if (CLengthSquared > k_allowedStretch * k_allowedStretch) { var uX = CX / CLength; var uY = CY / CLength; var k = invMass1 + invMass2; var m = 1.0 / k; impulseX = m * ((-CX)); impulseY = m * ((-CY)); var k_beta = 0.5; bA.m_sweep.c.x -= k_beta * invMass1 * impulseX; bA.m_sweep.c.y -= k_beta * invMass1 * impulseY; bB.m_sweep.c.x += k_beta * invMass2 * impulseX; bB.m_sweep.c.y += k_beta * invMass2 * impulseY; CX = bB.m_sweep.c.x + r2X - bA.m_sweep.c.x - r1X; CY = bB.m_sweep.c.y + r2Y - bA.m_sweep.c.y - r1Y; } this.K1.col1.x = invMass1 + invMass2; this.K1.col2.x = 0.0; this.K1.col1.y = 0.0; this.K1.col2.y = invMass1 + invMass2; this.K2.col1.x = invI1 * r1Y * r1Y; this.K2.col2.x = (-invI1 * r1X * r1Y); this.K2.col1.y = (-invI1 * r1X * r1Y); this.K2.col2.y = invI1 * r1X * r1X; this.K3.col1.x = invI2 * r2Y * r2Y; this.K3.col2.x = (-invI2 * r2X * r2Y); this.K3.col1.y = (-invI2 * r2X * r2Y); this.K3.col2.y = invI2 * r2X * r2X; this.K.SetM(this.K1); this.K.AddM(this.K2); this.K.AddM(this.K3); this.K.Solve(b2RevoluteJoint.tImpulse, (-CX), (-CY)); impulseX = b2RevoluteJoint.tImpulse.x; impulseY = b2RevoluteJoint.tImpulse.y; bA.m_sweep.c.x -= bA.m_invMass * impulseX; bA.m_sweep.c.y -= bA.m_invMass * impulseY; bA.m_sweep.a -= bA.m_invI * (r1X * impulseY - r1Y * impulseX); bB.m_sweep.c.x += bB.m_invMass * impulseX; bB.m_sweep.c.y += bB.m_invMass * impulseY; bB.m_sweep.a += bB.m_invI * (r2X * impulseY - r2Y * impulseX); bA.SynchronizeTransform(); bB.SynchronizeTransform(); } return positionError <= b2Settings.b2_linearSlop && angularError <= b2Settings.b2_angularSlop; } Box2D.postDefs.push(function () { Box2D.Dynamics.Joints.b2RevoluteJoint.tImpulse = new b2Vec2(); }); Box2D.inherit(b2RevoluteJointDef, Box2D.Dynamics.Joints.b2JointDef); b2RevoluteJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2RevoluteJointDef.b2RevoluteJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); }; b2RevoluteJointDef.prototype.b2RevoluteJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_revoluteJoint; this.localAnchorA.Set(0.0, 0.0); this.localAnchorB.Set(0.0, 0.0); this.referenceAngle = 0.0; this.lowerAngle = 0.0; this.upperAngle = 0.0; this.maxMotorTorque = 0.0; this.motorSpeed = 0.0; this.enableLimit = false; this.enableMotor = false; } b2RevoluteJointDef.prototype.Initialize = function (bA, bB, anchor) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA = this.bodyA.GetLocalPoint(anchor); this.localAnchorB = this.bodyB.GetLocalPoint(anchor); this.referenceAngle = this.bodyB.GetAngle() - this.bodyA.GetAngle(); } Box2D.inherit(b2WeldJoint, Box2D.Dynamics.Joints.b2Joint); b2WeldJoint.prototype.__super = Box2D.Dynamics.Joints.b2Joint.prototype; b2WeldJoint.b2WeldJoint = function () { Box2D.Dynamics.Joints.b2Joint.b2Joint.apply(this, arguments); this.m_localAnchorA = new b2Vec2(); this.m_localAnchorB = new b2Vec2(); this.m_impulse = new b2Vec3(); this.m_mass = new b2Mat33(); }; b2WeldJoint.prototype.GetAnchorA = function () { return this.m_bodyA.GetWorldPoint(this.m_localAnchorA); } b2WeldJoint.prototype.GetAnchorB = function () { return this.m_bodyB.GetWorldPoint(this.m_localAnchorB); } b2WeldJoint.prototype.GetReactionForce = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return new b2Vec2(inv_dt * this.m_impulse.x, inv_dt * this.m_impulse.y); } b2WeldJoint.prototype.GetReactionTorque = function (inv_dt) { if (inv_dt === undefined) inv_dt = 0; return inv_dt * this.m_impulse.z; } b2WeldJoint.prototype.b2WeldJoint = function (def) { this.__super.b2Joint.call(this, def); this.m_localAnchorA.SetV(def.localAnchorA); this.m_localAnchorB.SetV(def.localAnchorB); this.m_referenceAngle = def.referenceAngle; this.m_impulse.SetZero(); this.m_mass = new b2Mat33(); } b2WeldJoint.prototype.InitVelocityConstraints = function (step) { var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var rAX = this.m_localAnchorA.x - bA.m_sweep.localCenter.x; var rAY = this.m_localAnchorA.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * rAX + tMat.col2.x * rAY); rAY = (tMat.col1.y * rAX + tMat.col2.y * rAY); rAX = tX; tMat = bB.m_xf.R; var rBX = this.m_localAnchorB.x - bB.m_sweep.localCenter.x; var rBY = this.m_localAnchorB.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * rBX + tMat.col2.x * rBY); rBY = (tMat.col1.y * rBX + tMat.col2.y * rBY); rBX = tX; var mA = bA.m_invMass; var mB = bB.m_invMass; var iA = bA.m_invI; var iB = bB.m_invI; this.m_mass.col1.x = mA + mB + rAY * rAY * iA + rBY * rBY * iB; this.m_mass.col2.x = (-rAY * rAX * iA) - rBY * rBX * iB; this.m_mass.col3.x = (-rAY * iA) - rBY * iB; this.m_mass.col1.y = this.m_mass.col2.x; this.m_mass.col2.y = mA + mB + rAX * rAX * iA + rBX * rBX * iB; this.m_mass.col3.y = rAX * iA + rBX * iB; this.m_mass.col1.z = this.m_mass.col3.x; this.m_mass.col2.z = this.m_mass.col3.y; this.m_mass.col3.z = iA + iB; if (step.warmStarting) { this.m_impulse.x *= step.dtRatio; this.m_impulse.y *= step.dtRatio; this.m_impulse.z *= step.dtRatio; bA.m_linearVelocity.x -= mA * this.m_impulse.x; bA.m_linearVelocity.y -= mA * this.m_impulse.y; bA.m_angularVelocity -= iA * (rAX * this.m_impulse.y - rAY * this.m_impulse.x + this.m_impulse.z); bB.m_linearVelocity.x += mB * this.m_impulse.x; bB.m_linearVelocity.y += mB * this.m_impulse.y; bB.m_angularVelocity += iB * (rBX * this.m_impulse.y - rBY * this.m_impulse.x + this.m_impulse.z); } else { this.m_impulse.SetZero(); } } b2WeldJoint.prototype.SolveVelocityConstraints = function (step) { var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; var vA = bA.m_linearVelocity; var wA = bA.m_angularVelocity; var vB = bB.m_linearVelocity; var wB = bB.m_angularVelocity; var mA = bA.m_invMass; var mB = bB.m_invMass; var iA = bA.m_invI; var iB = bB.m_invI; tMat = bA.m_xf.R; var rAX = this.m_localAnchorA.x - bA.m_sweep.localCenter.x; var rAY = this.m_localAnchorA.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * rAX + tMat.col2.x * rAY); rAY = (tMat.col1.y * rAX + tMat.col2.y * rAY); rAX = tX; tMat = bB.m_xf.R; var rBX = this.m_localAnchorB.x - bB.m_sweep.localCenter.x; var rBY = this.m_localAnchorB.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * rBX + tMat.col2.x * rBY); rBY = (tMat.col1.y * rBX + tMat.col2.y * rBY); rBX = tX; var Cdot1X = vB.x - wB * rBY - vA.x + wA * rAY; var Cdot1Y = vB.y + wB * rBX - vA.y - wA * rAX; var Cdot2 = wB - wA; var impulse = new b2Vec3(); this.m_mass.Solve33(impulse, (-Cdot1X), (-Cdot1Y), (-Cdot2)); this.m_impulse.Add(impulse); vA.x -= mA * impulse.x; vA.y -= mA * impulse.y; wA -= iA * (rAX * impulse.y - rAY * impulse.x + impulse.z); vB.x += mB * impulse.x; vB.y += mB * impulse.y; wB += iB * (rBX * impulse.y - rBY * impulse.x + impulse.z); bA.m_angularVelocity = wA; bB.m_angularVelocity = wB; } b2WeldJoint.prototype.SolvePositionConstraints = function (baumgarte) { if (baumgarte === undefined) baumgarte = 0; var tMat; var tX = 0; var bA = this.m_bodyA; var bB = this.m_bodyB; tMat = bA.m_xf.R; var rAX = this.m_localAnchorA.x - bA.m_sweep.localCenter.x; var rAY = this.m_localAnchorA.y - bA.m_sweep.localCenter.y; tX = (tMat.col1.x * rAX + tMat.col2.x * rAY); rAY = (tMat.col1.y * rAX + tMat.col2.y * rAY); rAX = tX; tMat = bB.m_xf.R; var rBX = this.m_localAnchorB.x - bB.m_sweep.localCenter.x; var rBY = this.m_localAnchorB.y - bB.m_sweep.localCenter.y; tX = (tMat.col1.x * rBX + tMat.col2.x * rBY); rBY = (tMat.col1.y * rBX + tMat.col2.y * rBY); rBX = tX; var mA = bA.m_invMass; var mB = bB.m_invMass; var iA = bA.m_invI; var iB = bB.m_invI; var C1X = bB.m_sweep.c.x + rBX - bA.m_sweep.c.x - rAX; var C1Y = bB.m_sweep.c.y + rBY - bA.m_sweep.c.y - rAY; var C2 = bB.m_sweep.a - bA.m_sweep.a - this.m_referenceAngle; var k_allowedStretch = 10.0 * b2Settings.b2_linearSlop; var positionError = Math.sqrt(C1X * C1X + C1Y * C1Y); var angularError = b2Math.Abs(C2); if (positionError > k_allowedStretch) { iA *= 1.0; iB *= 1.0; } this.m_mass.col1.x = mA + mB + rAY * rAY * iA + rBY * rBY * iB; this.m_mass.col2.x = (-rAY * rAX * iA) - rBY * rBX * iB; this.m_mass.col3.x = (-rAY * iA) - rBY * iB; this.m_mass.col1.y = this.m_mass.col2.x; this.m_mass.col2.y = mA + mB + rAX * rAX * iA + rBX * rBX * iB; this.m_mass.col3.y = rAX * iA + rBX * iB; this.m_mass.col1.z = this.m_mass.col3.x; this.m_mass.col2.z = this.m_mass.col3.y; this.m_mass.col3.z = iA + iB; var impulse = new b2Vec3(); this.m_mass.Solve33(impulse, (-C1X), (-C1Y), (-C2)); bA.m_sweep.c.x -= mA * impulse.x; bA.m_sweep.c.y -= mA * impulse.y; bA.m_sweep.a -= iA * (rAX * impulse.y - rAY * impulse.x + impulse.z); bB.m_sweep.c.x += mB * impulse.x; bB.m_sweep.c.y += mB * impulse.y; bB.m_sweep.a += iB * (rBX * impulse.y - rBY * impulse.x + impulse.z); bA.SynchronizeTransform(); bB.SynchronizeTransform(); return positionError <= b2Settings.b2_linearSlop && angularError <= b2Settings.b2_angularSlop; } Box2D.inherit(b2WeldJointDef, Box2D.Dynamics.Joints.b2JointDef); b2WeldJointDef.prototype.__super = Box2D.Dynamics.Joints.b2JointDef.prototype; b2WeldJointDef.b2WeldJointDef = function () { Box2D.Dynamics.Joints.b2JointDef.b2JointDef.apply(this, arguments); this.localAnchorA = new b2Vec2(); this.localAnchorB = new b2Vec2(); }; b2WeldJointDef.prototype.b2WeldJointDef = function () { this.__super.b2JointDef.call(this); this.type = b2Joint.e_weldJoint; this.referenceAngle = 0.0; } b2WeldJointDef.prototype.Initialize = function (bA, bB, anchor) { this.bodyA = bA; this.bodyB = bB; this.localAnchorA.SetV(this.bodyA.GetLocalPoint(anchor)); this.localAnchorB.SetV(this.bodyB.GetLocalPoint(anchor)); this.referenceAngle = this.bodyB.GetAngle() - this.bodyA.GetAngle(); } })(); (function () { var b2DebugDraw = Box2D.Dynamics.b2DebugDraw; b2DebugDraw.b2DebugDraw = function () { this.m_drawScale = 1.0; this.m_lineThickness = 1.0; this.m_alpha = 1.0; this.m_fillAlpha = 1.0; this.m_xformScale = 1.0; var __this = this; //#WORKAROUND this.m_sprite = { graphics: { clear: function () { __this.m_ctx.clearRect(0, 0, __this.m_ctx.canvas.width, __this.m_ctx.canvas.height) } } }; }; b2DebugDraw.prototype._color = function (color, alpha) { return "rgba(" + ((color & 0xFF0000) >> 16) + "," + ((color & 0xFF00) >> 8) + "," + (color & 0xFF) + "," + alpha + ")"; }; b2DebugDraw.prototype.b2DebugDraw = function () { this.m_drawFlags = 0; }; b2DebugDraw.prototype.SetFlags = function (flags) { if (flags === undefined) flags = 0; this.m_drawFlags = flags; }; b2DebugDraw.prototype.GetFlags = function () { return this.m_drawFlags; }; b2DebugDraw.prototype.AppendFlags = function (flags) { if (flags === undefined) flags = 0; this.m_drawFlags |= flags; }; b2DebugDraw.prototype.ClearFlags = function (flags) { if (flags === undefined) flags = 0; this.m_drawFlags &= ~flags; }; b2DebugDraw.prototype.SetSprite = function (sprite) { this.m_ctx = sprite; }; b2DebugDraw.prototype.GetSprite = function () { return this.m_ctx; }; b2DebugDraw.prototype.SetDrawScale = function (drawScale) { if (drawScale === undefined) drawScale = 0; this.m_drawScale = drawScale; }; b2DebugDraw.prototype.GetDrawScale = function () { return this.m_drawScale; }; b2DebugDraw.prototype.SetLineThickness = function (lineThickness) { if (lineThickness === undefined) lineThickness = 0; this.m_lineThickness = lineThickness; this.m_ctx.strokeWidth = lineThickness; }; b2DebugDraw.prototype.GetLineThickness = function () { return this.m_lineThickness; }; b2DebugDraw.prototype.SetAlpha = function (alpha) { if (alpha === undefined) alpha = 0; this.m_alpha = alpha; }; b2DebugDraw.prototype.GetAlpha = function () { return this.m_alpha; }; b2DebugDraw.prototype.SetFillAlpha = function (alpha) { if (alpha === undefined) alpha = 0; this.m_fillAlpha = alpha; }; b2DebugDraw.prototype.GetFillAlpha = function () { return this.m_fillAlpha; }; b2DebugDraw.prototype.SetXFormScale = function (xformScale) { if (xformScale === undefined) xformScale = 0; this.m_xformScale = xformScale; }; b2DebugDraw.prototype.GetXFormScale = function () { return this.m_xformScale; }; b2DebugDraw.prototype.DrawPolygon = function (vertices, vertexCount, color) { if (!vertexCount) return; var s = this.m_ctx; var drawScale = this.m_drawScale; s.beginPath(); s.strokeStyle = this._color(color.color, this.m_alpha); s.moveTo(vertices[0].x * drawScale, vertices[0].y * drawScale); for (var i = 1; i < vertexCount; i++) { s.lineTo(vertices[i].x * drawScale, vertices[i].y * drawScale); } s.lineTo(vertices[0].x * drawScale, vertices[0].y * drawScale); s.closePath(); s.stroke(); }; b2DebugDraw.prototype.DrawSolidPolygon = function (vertices, vertexCount, color) { if (!vertexCount) return; var s = this.m_ctx; var drawScale = this.m_drawScale; s.beginPath(); s.strokeStyle = this._color(color.color, this.m_alpha); s.fillStyle = this._color(color.color, this.m_fillAlpha); s.moveTo(vertices[0].x * drawScale, vertices[0].y * drawScale); for (var i = 1; i < vertexCount; i++) { s.lineTo(vertices[i].x * drawScale, vertices[i].y * drawScale); } s.lineTo(vertices[0].x * drawScale, vertices[0].y * drawScale); s.closePath(); s.fill(); s.stroke(); }; b2DebugDraw.prototype.DrawCircle = function (center, radius, color) { if (!radius) return; var s = this.m_ctx; var drawScale = this.m_drawScale; s.beginPath(); s.strokeStyle = this._color(color.color, this.m_alpha); s.arc(center.x * drawScale, center.y * drawScale, radius * drawScale, 0, Math.PI * 2, true); s.closePath(); s.stroke(); }; b2DebugDraw.prototype.DrawSolidCircle = function (center, radius, axis, color) { if (!radius) return; var s = this.m_ctx, drawScale = this.m_drawScale, cx = center.x * drawScale, cy = center.y * drawScale; s.moveTo(0, 0); s.beginPath(); s.strokeStyle = this._color(color.color, this.m_alpha); s.fillStyle = this._color(color.color, this.m_fillAlpha); s.arc(cx, cy, radius * drawScale, 0, Math.PI * 2, true); s.moveTo(cx, cy); s.lineTo((center.x + axis.x * radius) * drawScale, (center.y + axis.y * radius) * drawScale); s.closePath(); s.fill(); s.stroke(); }; b2DebugDraw.prototype.DrawSegment = function (p1, p2, color) { var s = this.m_ctx, drawScale = this.m_drawScale; s.strokeStyle = this._color(color.color, this.m_alpha); s.beginPath(); s.moveTo(p1.x * drawScale, p1.y * drawScale); s.lineTo(p2.x * drawScale, p2.y * drawScale); s.closePath(); s.stroke(); }; b2DebugDraw.prototype.DrawTransform = function (xf) { var s = this.m_ctx, drawScale = this.m_drawScale; s.beginPath(); s.strokeStyle = this._color(0xff0000, this.m_alpha); s.moveTo(xf.position.x * drawScale, xf.position.y * drawScale); s.lineTo((xf.position.x + this.m_xformScale * xf.R.col1.x) * drawScale, (xf.position.y + this.m_xformScale * xf.R.col1.y) * drawScale); s.strokeStyle = this._color(0xff00, this.m_alpha); s.moveTo(xf.position.x * drawScale, xf.position.y * drawScale); s.lineTo((xf.position.x + this.m_xformScale * xf.R.col2.x) * drawScale, (xf.position.y + this.m_xformScale * xf.R.col2.y) * drawScale); s.closePath(); s.stroke(); }; })(); //post-definitions var i; for (i = 0; i < Box2D.postDefs.length; ++i) Box2D.postDefs[i](); delete Box2D.postDefs;