public VaryingRestitution()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 1.0f;

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 1.0f;

                float[] restitution = {0.0f, 0.1f, 0.3f, 0.5f, 0.75f, 0.9f, 1.0f};

                for (int i = 0; i < 7; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(-10.0f + 3.0f * i, 20.0f);

                    b2Body body = m_world.CreateBody(bd);

                    fd.restitution = restitution[i];
                    body.CreateFixture(fd);
                }
            }
        }
Exemple #2
0
        public SphereStack()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 1.0f;

                for (int i = 0; i < e_count; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(0.0f, 4.0f + 3.0f * i);

                    m_bodies[i] = m_world.CreateBody(bd);

                    m_bodies[i].CreateFixture(shape, 1.0f);

                    m_bodies[i].LinearVelocity = new b2Vec2(0.0f, -50.0f);
                }
            }
        }
		void CreateNinja() {
			
			
			spriteImageName = String.Format("{0}_standing", baseImageName); 

			onGround = false;
			
			// Define the dynamic body.
			var bodyDef = new b2BodyDef();
			bodyDef.type = b2BodyType.b2_staticBody; //or you could use b2DynamicBody to start the ninja as dynamic
			
			bodyDef.position.Set(initialLocation.X/Constants.PTM_RATIO, initialLocation.Y/Constants.PTM_RATIO);
			
			var shape = new b2CircleShape();
			var radiusInMeters = (40 / Constants.PTM_RATIO) * 0.5f; //increase or decrease 40 for a different circle size definition
			
			shape.Radius = radiusInMeters;
			
			
			// Define the dynamic body fixture.
			var fixtureDef = new b2FixtureDef();
			fixtureDef.shape = shape;	
			fixtureDef.density = 1.0f;
			fixtureDef.friction = 1.0f;
			fixtureDef.restitution =  0.1f;
			
			CreateBodyWithSpriteAndFixture(theWorld, bodyDef, fixtureDef, spriteImageName);
			
		}
Exemple #4
0
        public override void Keyboard(char key)
        {
            switch (key)
            {
                case 'c':
                    if (m_fixture2 == null)
                    {
                        b2CircleShape shape = new b2CircleShape();
                        shape.Radius = 3.0f;
                        shape.Position = new b2Vec2(0.5f, -4.0f);
                        m_fixture2 = m_body.CreateFixture(shape, 10.0f);
                        m_body.SetAwake(true);
                    }
                    break;

                case 'd':
                    if (m_fixture2 != null)
                    {
                        m_body.DestroyFixture(m_fixture2);
                        m_fixture2 = null;
                        m_body.SetAwake(true);
                    }
                    break;

                case 's':
                    if (m_fixture2 != null)
                    {
                        m_sensor = !m_sensor;
                        m_fixture2.IsSensor = m_sensor;
                    }
                    break;
            }
        }
        override public b2Shape Copy()
        {
            b2Shape s = new b2CircleShape();

            s.Set(this);
            return(s);
        }
Exemple #6
0
        public override void Keyboard(char key)
        {
            switch (key)
            {
                case ',':
                    if (m_bullet != null)
                    {
                        m_world.DestroyBody(m_bullet);
                        m_bullet = null;
                    }
                    {
                        b2CircleShape shape = new b2CircleShape();
                        shape.Radius = 0.25f;

                        b2FixtureDef fd = new b2FixtureDef();
                        fd.shape = shape;
                        fd.density = 20.0f;
                        fd.restitution = 0.05f;

                        b2BodyDef bd  = new b2BodyDef();
                        bd.type = b2BodyType.b2_dynamicBody;
                        bd.bullet = true;
                        bd.position.Set(-31.0f, 5.0f);

                        m_bullet = m_world.CreateBody(bd);
                        m_bullet.CreateFixture(fd);

                        m_bullet.LinearVelocity = new b2Vec2(400.0f, 0.0f);
                    }
                    break;
            }
        }
 override public void Set(b2Shape other)
 {
     base.Set(other);
     if (other is b2CircleShape)
     {
         b2CircleShape other2 = other as b2CircleShape;
         m_p.SetV(other2.m_p);
     }
 }
        public ContinuousTest()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(0.0f, 0.0f);
                b2Body body = m_world.CreateBody(bd);

                b2EdgeShape edge = new b2EdgeShape();

                edge.Set(new b2Vec2(-10.0f, 0.0f), new b2Vec2(10.0f, 0.0f));
                body.CreateFixture(edge, 0.0f);

                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.2f, 1.0f, new b2Vec2(0.5f, 1.0f), 0.0f);
                body.CreateFixture(shape, 0.0f);
            }

#if true
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(0.0f, 20.0f);
                //bd.angle = 0.1f;

                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(2.0f, 0.1f);

                m_body = m_world.CreateBody(bd);
                m_body.CreateFixture(shape, 1.0f);

                m_angularVelocity = Rand.RandomFloat(-50.0f, 50.0f);
                //m_angularVelocity = 46.661274f;
                m_body.LinearVelocity = new b2Vec2(0.0f, -100.0f);
                m_body.AngularVelocity = m_angularVelocity;
            }
#else
        {
            b2BodyDef bd  = new b2BodyDef();
            bd.type = b2BodyType.b2_dynamicBody;
            bd.position.Set(0.0f, 2.0f);
            b2Body body = m_world.CreateBody(bd);

            b2CircleShape shape = new b2CircleShape();
            shape.Position = b2Vec2.Zero;
            shape.Radius = 0.5f;
            body.CreateFixture(shape, 1.0f);

            bd.bullet = true;
            bd.position.Set(0.0f, 10.0f);
            body = m_world.CreateBody(bd);
            body.CreateFixture(shape, 1.0f);
            body.LinearVelocity = new b2Vec2(0.0f, -100.0f);
        }
#endif
        }
Exemple #9
0
        public Pulleys()
        {
            float y = 16.0f;
            float L = 12.0f;
            float a = 1.0f;
            float b = 2.0f;

            b2Body ground = null;
            {
                b2BodyDef bd  = new b2BodyDef();
                ground = m_world.CreateBody(bd);

                b2EdgeShape edge = new b2EdgeShape();
                edge.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
                //ground->CreateFixture(&shape, 0.0f);

                b2CircleShape circle = new b2CircleShape();
                circle.Radius = 2.0f;

                circle.Position = new b2Vec2(-10.0f, y + b + L);
                ground.CreateFixture(circle, 0.0f);

                circle.Position = new b2Vec2(10.0f, y + b + L);
                ground.CreateFixture(circle, 0.0f);
            }

            {

                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(a, b);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;

                //bd.fixedRotation = true;
                bd.position.Set(-10.0f, y);
                b2Body body1 = m_world.CreateBody(bd);
                body1.CreateFixture(shape, 5.0f);

                bd.position.Set(10.0f, y);
                b2Body body2 = m_world.CreateBody(bd);
                body2.CreateFixture(shape, 5.0f);

                b2PulleyJointDef pulleyDef = new b2PulleyJointDef();
                b2Vec2 anchor1 = new b2Vec2(-10.0f, y + b);
                b2Vec2 anchor2 = new b2Vec2(10.0f, y + b);
                b2Vec2 groundAnchor1 = new b2Vec2(-10.0f, y + b + L);
                b2Vec2 groundAnchor2 = new b2Vec2(10.0f, y + b + L);
                pulleyDef.Initialize(body1, body2, groundAnchor1, groundAnchor2, anchor1, anchor2, 1.5f);

                m_joint1 = (b2PulleyJoint) m_world.CreateJoint(pulleyDef);
            }
        }
Exemple #10
0
        public SensorTest()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                {
                    b2EdgeShape shape = new b2EdgeShape();
                    shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
                    ground.CreateFixture(shape, 0.0f);
                }

#if false
            {
                b2FixtureDef sd = new b2FixtureDef();
                sd.SetAsBox(10.0f, 2.0f, new b2Vec2(0.0f, 20.0f), 0.0f);
                sd.isSensor = true;
                m_sensor = ground.CreateFixture(sd);
            }
#else
                {
                    b2CircleShape shape = new b2CircleShape();
                    shape.Radius = 5.0f;
                    shape.Position = new b2Vec2(0.0f, 10.0f);

                    b2FixtureDef fd = new b2FixtureDef();
                    fd.shape = shape;
                    fd.isSensor = true;
                    m_sensor = ground.CreateFixture(fd);
                }
#endif
            }

            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 1.0f;

                for (int i = 0; i < e_count; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(-10.0f + 3.0f * i, 20.0f);
                    bd.userData = i; //  m_touching[i];

                    m_touching[i] = false;
                    m_bodies[i] = m_world.CreateBody(bd);

                    m_bodies[i].CreateFixture(shape, 1.0f);
                }
            }
        }
Exemple #11
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        public Confined()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();

                // Floor
                shape.Set(new b2Vec2(-10.0f, 0.0f), new b2Vec2(10.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);

                // Left wall
                shape.Set(new b2Vec2(-10.0f, 0.0f), new b2Vec2(-10.0f, 20.0f));
                ground.CreateFixture(shape, 0.0f);

                // Right wall
                shape.Set(new b2Vec2(10.0f, 0.0f), new b2Vec2(10.0f, 20.0f));
                ground.CreateFixture(shape, 0.0f);

                // Roof
                shape.Set(new b2Vec2(-10.0f, 20.0f), new b2Vec2(10.0f, 20.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            float radius = 0.5f;
            b2CircleShape shape1 = new b2CircleShape();
            shape1.Position = b2Vec2.Zero;
            shape1.Radius = radius;

            b2FixtureDef fd = new b2FixtureDef();
            fd.shape = shape1;
            fd.density = 1.0f;
            fd.friction = 0.1f;

            for (int j = 0; j < e_columnCount; ++j)
            {
                for (int i = 0; i < e_rowCount; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(-10.0f + (2.1f * j + 1.0f + 0.01f * i) * radius, (2.0f * i + 1.0f) * radius);
                    b2Body body = m_world.CreateBody(bd);

                    body.CreateFixture(fd);
                }
            }

            m_world.Gravity = new b2Vec2(0.0f, 0.0f);
        }
Exemple #12
0
        public AddPair()
        {
            m_world.Gravity = new b2Vec2(0.0f, 0.0f);
            {
                b2CircleShape shape = new b2CircleShape();
                shape.Position = b2Vec2.Zero;
                shape.Radius = 0.1f;

                float minX = -6.0f;
                float maxX = 0.0f;
                float minY = 4.0f;
                float maxY = 6.0f;

                for (int i = 0; i < 400; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position = new b2Vec2(Rand.RandomFloat(minX, maxX), Rand.RandomFloat(minY, maxY));
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(shape, 0.01f);
                }
            }

            {
                b2Shape shape = null;
                if (_DoCircle)
                {
                    shape = new b2CircleShape();
                    ((b2CircleShape)shape).Radius = 1.5f;
                }
                else
                {
                    shape = new b2PolygonShape();
                    ((b2PolygonShape)shape).SetAsBox(1.6f, 1.6f);
                }
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position = new b2Vec2(-40.0f, 5.0f);
                bd.bullet = true;
                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(shape, 1.0f);
                body.LinearVelocity = new b2Vec2(150.0f, 0.0f);
            }
        }
        public OneSidedPlatform()
        {
            // Ground
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-20.0f, 0.0f), new b2Vec2(20.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            // Platform
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(0.0f, 10.0f);
                b2Body body = m_world.CreateBody(bd);

                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(3.0f, 0.5f);
                m_platform = body.CreateFixture(shape, 0.0f);

                m_bottom = 10.0f - 0.5f;
                m_top = 10.0f + 0.5f;
            }

            // Actor
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(0.0f, 12.0f);
                b2Body body = m_world.CreateBody(bd);

                m_radius = 0.5f;
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = m_radius;
                m_character = body.CreateFixture(shape, 20.0f);

                body.LinearVelocity = new b2Vec2(0.0f, -50.0f);

                m_state = State.e_unknown;
            }
        }
        public CircleBenchmarkTest()
        {
            b2BodyDef bd = new b2BodyDef();
            b2Body ground = m_world.CreateBody(bd);

            // Floor
            b2EdgeShape shape = new b2EdgeShape();
            shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
            ground.CreateFixture(shape, 0.0f);

            // Left wall
            shape = new b2EdgeShape();
            shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(-40.0f, 45.0f));
            ground.CreateFixture(shape, 0.0f);

            // Right wall
            shape = new b2EdgeShape();
            shape.Set(new b2Vec2(40.0f, 0.0f), new b2Vec2(40.0f, 45.0f));
            ground.CreateFixture(shape, 0.0f);

            // Roof
            shape = new b2EdgeShape();
            shape.Set(new b2Vec2(-40.0f, 45.0f), new b2Vec2(40.0f, 45.0f));
            ground.CreateFixture(shape, 0.0f);

            var sphere = new b2CircleShape();
            sphere.Radius = 1.0f;

            for (int i = 0; i < XCount; i++)
            {
                for (int j = 0; j < YCount; ++j)
                {
                    bd = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(-38f + 2.1f * i, 2.0f + 2.0f * j);

                    var body = m_world.CreateBody(bd);
                    body.CreateFixture(sphere, 1.0f);
                }
            }
        }
Exemple #15
0
        public void CreateCircle()
        {
            float radius = 2.0f;
            b2CircleShape shape = new b2CircleShape();
            shape.Position = b2Vec2.Zero;
            shape.Radius = radius;

            b2FixtureDef fd = new b2FixtureDef();
            fd.shape = shape;
            fd.density = 1.0f;
            fd.friction = 0.0f;

            b2Vec2 p = new b2Vec2(Rand.RandomFloat(), 3.0f + Rand.RandomFloat());
            b2BodyDef bd  = new b2BodyDef();
            bd.type = b2BodyType.b2_dynamicBody;
            bd.position = p;
            //bd.allowSleep = false;
            b2Body body = m_world.CreateBody(bd);

            body.CreateFixture(fd);
        }
Exemple #16
0
        public Dominos()
        {
            b2Body b1;
            {
                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));

                b2BodyDef bd  = new b2BodyDef();
                b1 = m_world.CreateBody(bd);
                b1.CreateFixture(shape, 0.0f);
            }

            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(6.0f, 0.25f);

                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(-1.5f, 10.0f);
                b2Body ground = m_world.CreateBody(bd);
                ground.CreateFixture(shape, 0.0f);
            }

            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.1f, 1.0f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 20.0f;
                fd.friction = 0.1f;

                for (int i = 0; i < 10; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(-6.0f + 1.0f * i, 11.25f);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(fd);
                }
            }

            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(7.0f, 0.25f, b2Vec2.Zero, 0.3f);

                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(1.0f, 6.0f);
                b2Body ground = m_world.CreateBody(bd);
                ground.CreateFixture(shape, 0.0f);
            }

            b2Body b2;
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.25f, 1.5f);

                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(-7.0f, 4.0f);
                b2 = m_world.CreateBody(bd);
                b2.CreateFixture(shape, 0.0f);
            }

            b2Body b3;
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(6.0f, 0.125f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(-0.9f, 1.0f);
                bd.angle = -0.15f;

                b3 = m_world.CreateBody(bd);
                b3.CreateFixture(shape, 10.0f);
            }

            b2RevoluteJointDef jd = new b2RevoluteJointDef();
            b2Vec2 anchor = new b2Vec2();

            anchor.Set(-2.0f, 1.0f);
            jd.Initialize(b1, b3, anchor);
            jd.CollideConnected = true;
            m_world.CreateJoint(jd);

            b2Body b4;
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.25f, 0.25f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(-10.0f, 15.0f);
                b4 = m_world.CreateBody(bd);
                b4.CreateFixture(shape, 10.0f);
            }

            anchor.Set(-7.0f, 15.0f);
            jd.Initialize(b2, b4, anchor);
            m_world.CreateJoint(jd);

            b2Body b5;
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(6.5f, 3.0f);
                b5 = m_world.CreateBody(bd);

                b2PolygonShape shape = new b2PolygonShape();
                b2FixtureDef fd = new b2FixtureDef();

                fd.shape = shape;
                fd.density = 10.0f;
                fd.friction = 0.1f;

                shape.SetAsBox(1.0f, 0.1f, new b2Vec2(0.0f, -0.9f), 0.0f);
                b5.CreateFixture(fd);

                shape.SetAsBox(0.1f, 1.0f, new b2Vec2(-0.9f, 0.0f), 0.0f);
                b5.CreateFixture(fd);

                shape.SetAsBox(0.1f, 1.0f, new b2Vec2(0.9f, 0.0f), 0.0f);
                b5.CreateFixture(fd);
            }

            anchor.Set(6.0f, 2.0f);
            jd.Initialize(b1, b5, anchor);
            m_world.CreateJoint(jd);

            b2Body b6;
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(1.0f, 0.1f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(6.5f, 4.1f);
                b6 = m_world.CreateBody(bd);
                b6.CreateFixture(shape, 30.0f);
            }

            anchor.Set(7.5f, 4.0f);
            jd.Initialize(b5, b6, anchor);
            m_world.CreateJoint(jd);

            b2Body b7;
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.1f, 1.0f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(7.4f, 1.0f);

                b7 = m_world.CreateBody(bd);
                b7.CreateFixture(shape, 10.0f);
            }

            b2DistanceJointDef djd = new b2DistanceJointDef();
            djd.BodyA = b3;
            djd.BodyB = b7;
            djd.localAnchorA.Set(6.0f, 0.0f);
            djd.localAnchorB.Set(0.0f, -1.0f);
            b2Vec2 d = djd.BodyB.GetWorldPoint(djd.localAnchorB) - djd.BodyA.GetWorldPoint(djd.localAnchorA);
            djd.length = d.Length;
            m_world.CreateJoint(djd);

            {
                float radius = 0.2f;

                b2CircleShape shape = new b2CircleShape();
                shape.Radius = radius;

                for (int i = 0; i < 4; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(5.9f + 2.0f * radius * i, 2.4f);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(shape, 10.0f);
                }
            }
        }
Exemple #17
0
        /// Compute the collision manifold between a polygon and a circle.
        public static void b2CollidePolygonAndCircle(b2Manifold manifold, b2PolygonShape polygonA, ref b2Transform xfA, b2CircleShape circleB, ref b2Transform xfB)
        {
            manifold.pointCount = 0;

            // Compute circle position in the frame of the polygon.
            b2Vec2 c;
            c.x = (xfB.q.c * circleB.Position.x - xfB.q.s * circleB.Position.y) + xfB.p.x;
            c.y = (xfB.q.s * circleB.Position.x + xfB.q.c * circleB.Position.y) + xfB.p.y;

            b2Vec2 cLocal;
            float px = c.x - xfA.p.x;
            float py = c.y - xfA.p.y;
            cLocal.x = (xfA.q.c * px + xfA.q.s * py);
            cLocal.y = (-xfA.q.s * px + xfA.q.c * py);

            // Find the min separating edge.
            int normalIndex = 0;
            float separation = -b2Settings.b2_maxFloat;
            float radius = polygonA.Radius + circleB.Radius;
            int vertexCount = polygonA.m_vertexCount;
            b2Vec2[] vertices = polygonA.Vertices;
            b2Vec2[] normals = polygonA.Normals;

            for (int i = 0; i < vertexCount; ++i)
            {
                b2Vec2 tmp;
                tmp.x = cLocal.x - vertices[i].x;
                tmp.y = cLocal.y - vertices[i].y;
                float s = normals[i].x * tmp.x + normals[i].y * tmp.y; // b2Math.b2Dot(normals[i], cLocal - vertices[i]);

                if (s > radius)
                {
                    // Early out.
                    return;
                }

                if (s > separation)
                {
                    separation = s;
                    normalIndex = i;
                }
            }

            // Vertices that subtend the incident face.
            int vertIndex1 = normalIndex;
            int vertIndex2 = vertIndex1 + 1 < vertexCount ? vertIndex1 + 1 : 0;
            b2Vec2 v1 = vertices[vertIndex1];
            b2Vec2 v2 = vertices[vertIndex2];

            // If the center is inside the polygon ...
            if (separation < b2Settings.b2_epsilon)
            {
                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = normals[normalIndex];
                manifold.localPoint.x = 0.5f * (v1.x + v2.x);
                manifold.localPoint.y = 0.5f * (v1.y + v2.y);
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id.key = 0;
                return;
            }

            // Compute barycentric coordinates
            float ax = cLocal.x - v1.x;
            float ay = cLocal.y - v1.y;
            float bx = v2.x - v1.x;
            float by = v2.y - v1.y;
            float u1 = ax * bx + ay * by;

            ax = cLocal.x - v2.x;
            ay = cLocal.y - v2.y;
            bx = v1.x - v2.x;
            by = v1.y - v2.y;
            float u2 = ax * bx + ay * by;
            
            if (u1 <= 0.0f)
            {
                if (b2Math.b2DistanceSquared(ref cLocal, ref v1) > radius * radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = cLocal - v1;
                manifold.localNormal.Normalize();
                manifold.localPoint = v1;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id.key = 0;
            }
            else if (u2 <= 0.0f)
            {
                if (b2Math.b2DistanceSquared(ref cLocal, ref v2) > radius * radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal.x = cLocal.x - v2.x;
                manifold.localNormal.y = cLocal.y - v2.y;
                manifold.localNormal.Normalize();
                manifold.localPoint = v2;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id.key = 0;
            }
            else
            {
                b2Vec2 faceCenter;
                faceCenter.x = 0.5f * (v1.x + v2.x);
                faceCenter.y = 0.5f * (v1.y + v2.y);

                b2Vec2 a;
                a.x = cLocal.x - faceCenter.x;
                a.y = cLocal.y - faceCenter.y;

                separation = b2Math.b2Dot(ref a, ref normals[vertIndex1]);
                
                if (separation > radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = normals[vertIndex1];
                manifold.localPoint = faceCenter;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id.key = 0;
            }
        }
Exemple #18
0
        void CreateEnemy()
        {
            // Define the dynamic body.
            var bodyDef = b2BodyDef.Create();
            bodyDef.type = b2BodyType.b2_dynamicBody; //or you could use b2_staticBody

            bodyDef.fixedRotation = isRotationFixed;

            bodyDef.position.Set(initialLocation.X/Constants.PTM_RATIO, initialLocation.Y/Constants.PTM_RATIO);

            b2PolygonShape shape = new b2PolygonShape();
            b2CircleShape shapeCircle = new b2CircleShape();

            if (shapeCreationMethod == CreationMethod.DiameterOfImageForCircle) {

                var tempSprite = new CCSprite(spriteImageName);
                float radiusInMeters = (tempSprite.ContentSize.Width / Constants.PTM_RATIO) * 0.5f;

                shapeCircle.Radius = radiusInMeters;

            }

            else if ( shapeCreationMethod == CreationMethod.ShapeOfSourceImage) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 4;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //top left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 )/ Constants.PTM_RATIO), //bottom right corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO) //top right corner
                };
                shape.Set(vertices, num);
            }
            else if ( shapeCreationMethod == CreationMethod.ShapeOfSourceImageButSlightlySmaller ) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 4;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) *.8f / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 )*.8f / Constants.PTM_RATIO), //top left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 )*.8f / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 )*.8f / Constants.PTM_RATIO), //bottom left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 )*.8f / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 )*.8f / Constants.PTM_RATIO), //bottom right corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 )*.8f / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 )*.8f / Constants.PTM_RATIO) //top right corner
                };
                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.Triangle) {
                var tempSprite = new CCSprite(spriteImageName);

                var num = 3;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom right corner
                    new b2Vec2( 0.0f / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 )/ Constants.PTM_RATIO) // top center of image
                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.TriangleRightAngle) {
                var tempSprite = new CCSprite(spriteImageName);

                var num = 3;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO),  //top right corner
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //top left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 )/ Constants.PTM_RATIO) //bottom left corner
                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.Trapezoid) {
                var tempSprite = new CCSprite(spriteImageName);

                var num = 4;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO),  //top of image, 3/4's across
                    new b2Vec2( (tempSprite.ContentSize.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO),  //top of image, 1/4's across
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom right corner
                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.Hexagon) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 6;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //top of image, 1/4 across
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 )  / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // left, center
                    new b2Vec2( (tempSprite.ContentSize.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 1/4 across
                    new b2Vec2( (tempSprite.ContentSize.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
                    new b2Vec2( (tempSprite.ContentSize.Width /  2 ) / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // right, center
                    new b2Vec2( (tempSprite.ContentSize.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO) //top of image, 3/4's across
                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.Pentagon) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 5;
                b2Vec2[] vertices = {
                    new b2Vec2( 0 / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //top of image, center
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 )  / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // left, center
                    new b2Vec2( (tempSprite.ContentSize.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 1/4 across
                    new b2Vec2( (tempSprite.ContentSize.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
                    new b2Vec2( (tempSprite.ContentSize.Width /  2 ) / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // right, center

                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.Octagon) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 8;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -6 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //use the source image octogonShape.png for reference
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 )  / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 6 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 )  / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -6 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width / -6 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width / 6 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width /  2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -6 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width /  2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 6 ) / Constants.PTM_RATIO),
                    new b2Vec2( (tempSprite.ContentSize.Width / 6 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO)
                };

                shape.Set(vertices, num);
            }
            else if ( shapeCreationMethod == CreationMethod.Parallelogram) {

                var tempSprite = new CCSprite(spriteImageName);

                var num = 4;
                b2Vec2[] vertices = {
                    new b2Vec2( (tempSprite.ContentSize.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO), //top of image, 1/4 across
                    new b2Vec2( (tempSprite.ContentSize.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
                    new b2Vec2( (tempSprite.ContentSize.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
                    new b2Vec2( (tempSprite.ContentSize.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.ContentSize.Height / 2 ) / Constants.PTM_RATIO) //top right corner
                };

                shape.Set(vertices, num);
            }

            else if ( shapeCreationMethod == CreationMethod.CustomCoordinates1) {  //use your own custom coordinates from a program like Vertex Helper Pro

                var num = 4;
                b2Vec2[] vertices = {
                    new b2Vec2(-64.0f / Constants.PTM_RATIO, 16.0f / Constants.PTM_RATIO),
                    new b2Vec2(-64.0f / Constants.PTM_RATIO, -16.0f / Constants.PTM_RATIO),
                    new b2Vec2(64.0f / Constants.PTM_RATIO, -16.0f / Constants.PTM_RATIO),
                    new b2Vec2(64.0f / Constants.PTM_RATIO, 16.0f / Constants.PTM_RATIO)
                };
                shape.Set(vertices, num);
            }

            // Define the dynamic body fixture.
            var fixtureDef = b2FixtureDef.Create();

            if ( shapeCreationMethod == CreationMethod.DiameterOfImageForCircle) {

                fixtureDef.shape = shapeCircle;

            } else {
                fixtureDef.shape = shape;

            }

            fixtureDef.density = theDensity;
            fixtureDef.friction = 0.3f;
            fixtureDef.restitution =  0.1f; //how bouncy basically

            CreateBodyWithSpriteAndFixture(theWorld, bodyDef, fixtureDef, spriteImageName);

            var blinkInterval = cocos2d.Random.Next(3,8); // range 3 to 8

            Schedule(Blink, blinkInterval); //comment this out if you never want to show the blink
        }
Exemple #19
0
        public Car()
        {
            m_hz = 4.0f;
            m_zeta = 0.7f;
            m_speed = 50.0f;

            b2Body ground = null;
            {
                b2BodyDef bd  = new b2BodyDef();
                ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 0.0f;
                fd.friction = 0.6f;

                shape.Set(new b2Vec2(-20.0f, 0.0f), new b2Vec2(20.0f, 0.0f));
                ground.CreateFixture(fd);

                float[] hs = {0.25f, 1.0f, 4.0f, 0.0f, 0.0f, -1.0f, -2.0f, -2.0f, -1.25f, 0.0f};

                float x = 20.0f, y1 = 0.0f, dx = 5.0f;

                for (int i = 0; i < 10; ++i)
                {
                    float y2 = hs[i];
                    shape.Set(new b2Vec2(x, y1), new b2Vec2(x + dx, y2));
                    ground.CreateFixture(fd);
                    y1 = y2;
                    x += dx;
                }

                for (int i = 0; i < 10; ++i)
                {
                    float y2 = hs[i];
                    shape.Set(new b2Vec2(x, y1), new b2Vec2(x + dx, y2));
                    ground.CreateFixture(fd);
                    y1 = y2;
                    x += dx;
                }

                shape.Set(new b2Vec2(x, 0.0f), new b2Vec2(x + 40.0f, 0.0f));
                ground.CreateFixture(fd);

                x += 80.0f;
                shape.Set(new b2Vec2(x, 0.0f), new b2Vec2(x + 40.0f, 0.0f));
                ground.CreateFixture(fd);

                x += 40.0f;
                shape.Set(new b2Vec2(x, 0.0f), new b2Vec2(x + 10.0f, 5.0f));
                ground.CreateFixture(fd);

                x += 20.0f;
                shape.Set(new b2Vec2(x, 0.0f), new b2Vec2(x + 40.0f, 0.0f));
                ground.CreateFixture(fd);

                x += 40.0f;
                shape.Set(new b2Vec2(x, 0.0f), new b2Vec2(x, 20.0f));
                ground.CreateFixture(fd);
            }

            // Teeter
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(140.0f, 1.0f);
                bd.type = b2BodyType.b2_dynamicBody;
                b2Body body = m_world.CreateBody(bd);

                b2PolygonShape box = new b2PolygonShape();
                box.SetAsBox(10.0f, 0.25f);
                body.CreateFixture(box, 1.0f);

                b2RevoluteJointDef jd = new b2RevoluteJointDef();
                jd.Initialize(ground, body, body.Position);
                jd.lowerAngle = -8.0f * b2Settings.b2_pi / 180.0f;
                jd.upperAngle = 8.0f * b2Settings.b2_pi / 180.0f;
                jd.enableLimit = true;
                m_world.CreateJoint(jd);

                body.ApplyAngularImpulse(100.0f);
            }

            // Bridge
            {
                int N = 20;
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(1.0f, 0.125f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 1.0f;
                fd.friction = 0.6f;

                b2RevoluteJointDef jd = new b2RevoluteJointDef();

                b2Body prevBody = ground;
                for (int i = 0; i < N; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(161.0f + 2.0f * i, -0.125f);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(fd);

                    b2Vec2 anchor = new b2Vec2(160.0f + 2.0f * i, -0.125f);
                    jd.Initialize(prevBody, body, anchor);
                    m_world.CreateJoint(jd);

                    prevBody = body;
                }

                b2Vec2 anchor1 = new b2Vec2(160.0f + 2.0f * N, -0.125f);
                jd.Initialize(prevBody, ground, anchor1);
                m_world.CreateJoint(jd);
            }

            // Boxes
            {
                b2PolygonShape box = new b2PolygonShape();
                box.SetAsBox(0.5f, 0.5f);

                b2Body body = null;
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;

                bd.position.Set(230.0f, 0.5f);
                body = m_world.CreateBody(bd);
                body.CreateFixture(box, 0.5f);

                bd.position.Set(230.0f, 1.5f);
                body = m_world.CreateBody(bd);
                body.CreateFixture(box, 0.5f);

                bd.position.Set(230.0f, 2.5f);
                body = m_world.CreateBody(bd);
                body.CreateFixture(box, 0.5f);

                bd.position.Set(230.0f, 3.5f);
                body = m_world.CreateBody(bd);
                body.CreateFixture(box, 0.5f);

                bd.position.Set(230.0f, 4.5f);
                body = m_world.CreateBody(bd);
                body.CreateFixture(box, 0.5f);
            }

            // Car
            {
                b2PolygonShape chassis = new b2PolygonShape();
                b2Vec2[] vertices = new b2Vec2[8];
                vertices[0].Set(-1.5f, -0.5f);
                vertices[1].Set(1.5f, -0.5f);
                vertices[2].Set(1.5f, 0.0f);
                vertices[3].Set(0.0f, 0.9f);
                vertices[4].Set(-1.15f, 0.9f);
                vertices[5].Set(-1.5f, 0.2f);
                chassis.Set(vertices, 6);

                b2CircleShape circle = new b2CircleShape();
                circle.Radius = 0.4f;

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(0.0f, 1.0f);
                m_car = m_world.CreateBody(bd);
                m_car.CreateFixture(chassis, 1.0f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = circle;
                fd.density = 1.0f;
                fd.friction = 0.9f;

                bd.position.Set(-1.0f, 0.35f);
                m_wheel1 = m_world.CreateBody(bd);
                m_wheel1.CreateFixture(fd);

                bd.position.Set(1.0f, 0.4f);
                m_wheel2 = m_world.CreateBody(bd);
                m_wheel2.CreateFixture(fd);

                b2WheelJointDef jd = new b2WheelJointDef();
                b2Vec2 axis = new b2Vec2(0.0f, 1.0f);

                jd.Initialize(m_car, m_wheel1, m_wheel1.Position, axis);
                jd.motorSpeed = 0.0f;
                jd.maxMotorTorque = 20.0f;
                jd.enableMotor = true;
                jd.frequencyHz = m_hz;
                jd.dampingRatio = m_zeta;
                m_spring1 = (b2WheelJoint) m_world.CreateJoint(jd);

                jd.Initialize(m_car, m_wheel2, m_wheel2.Position, axis);
                jd.motorSpeed = 0.0f;
                jd.maxMotorTorque = 10.0f;
                jd.enableMotor = false;
                jd.frequencyHz = m_hz;
                jd.dampingRatio = m_zeta;
                m_spring2 = (b2WheelJoint) m_world.CreateJoint(jd);
            }
        }
Exemple #20
0
        public Pinball()
        {
            // Ground body
            b2Body ground;
            {
                b2BodyDef bd  = new b2BodyDef();
                ground = m_world.CreateBody(bd);

                b2Vec2[] vs = new b2Vec2[5];
                vs[0].Set(0.0f, -2.0f);
                vs[1].Set(8.0f, 6.0f);
                vs[2].Set(8.0f, 20.0f);
                vs[3].Set(-8.0f, 20.0f);
                vs[4].Set(-8.0f, 6.0f);

                b2ChainShape loop = new b2ChainShape();
                loop.CreateLoop(vs, 5);
                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = loop;
                fd.density = 0.0f;
                ground.CreateFixture(fd);
            }

            // Flippers
            {
                b2Vec2 p1 = new b2Vec2(-2.0f, 0.0f);
                b2Vec2 p2 = new b2Vec2(2.0f, 0.0f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;

                bd.position = p1;
                b2Body leftFlipper = m_world.CreateBody(bd);

                bd.position = p2;
                b2Body rightFlipper = m_world.CreateBody(bd);

                b2PolygonShape box = new b2PolygonShape();
                box.SetAsBox(1.75f, 0.1f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = box;
                fd.density = 1.0f;

                leftFlipper.CreateFixture(fd);
                rightFlipper.CreateFixture(fd);

                b2RevoluteJointDef jd = new b2RevoluteJointDef();
                jd.BodyA = ground;
                jd.localAnchorB.SetZero();
                jd.enableMotor = true;
                jd.maxMotorTorque = 1000.0f;
                jd.enableLimit = true;

                jd.motorSpeed = 0.0f;
                jd.localAnchorA = p1;
                jd.BodyB = leftFlipper;
                jd.lowerAngle = -30.0f * b2Settings.b2_pi / 180.0f;
                jd.upperAngle = 5.0f * b2Settings.b2_pi / 180.0f;
                m_leftJoint = (b2RevoluteJoint) m_world.CreateJoint(jd);

                jd.motorSpeed = 0.0f;
                jd.localAnchorA = p2;
                jd.BodyB = rightFlipper;
                jd.lowerAngle = -5.0f * b2Settings.b2_pi / 180.0f;
                jd.upperAngle = 30.0f * b2Settings.b2_pi / 180.0f;
                m_rightJoint = (b2RevoluteJoint) m_world.CreateJoint(jd);
            }

            // Circle character
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(1.0f, 15.0f);
                bd.type = b2BodyType.b2_dynamicBody;
                bd.bullet = true;

                m_ball = m_world.CreateBody(bd);

                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 0.2f;

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 1.0f;
                m_ball.CreateFixture(fd);
            }

            m_button = false;
        }
Exemple #21
0
        public CompoundShapes()
        {
            {
                b2BodyDef bd  = new b2BodyDef();
                bd.position.Set(0.0f, 0.0f);
                b2Body body = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(50.0f, 0.0f), new b2Vec2(-50.0f, 0.0f));

                body.CreateFixture(shape, 0.0f);
            }

            {
                b2CircleShape circle1 = new b2CircleShape();
                circle1.Radius = 0.5f;
                circle1.Position = new b2Vec2(-0.5f, 0.5f);

                b2CircleShape circle2 = new b2CircleShape();
                circle2.Radius = 0.5f;
                circle2.Position = new b2Vec2(0.5f, 0.5f);

                for (int i = 0; i < 10; ++i)
                {
                    float x = Rand.RandomFloat(-0.1f, 0.1f);
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(x + 5.0f, 1.05f + 2.5f * i);
                    bd.angle = Rand.RandomFloat(-b2Settings.b2_pi, b2Settings.b2_pi);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(circle1, 2.0f);
                    body.CreateFixture(circle2, 0.0f);
                }
            }

            {
                b2PolygonShape polygon1 = new b2PolygonShape();
                polygon1.SetAsBox(0.25f, 0.5f);

                b2PolygonShape polygon2 = new b2PolygonShape();
                polygon2.SetAsBox(0.25f, 0.5f, new b2Vec2(0.0f, -0.5f), 0.5f * b2Settings.b2_pi);

                for (int i = 0; i < 10; ++i)
                {
                    float x = Rand.RandomFloat(-0.1f, 0.1f);
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(x - 5.0f, 1.05f + 2.5f * i);
                    bd.angle = Rand.RandomFloat(-b2Settings.b2_pi, b2Settings.b2_pi);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(polygon1, 2.0f);
                    body.CreateFixture(polygon2, 2.0f);
                }
            }

            {
                b2Transform xf1 = new b2Transform();
                xf1.q.Set(0.3524f * b2Settings.b2_pi);
                xf1.p = xf1.q.GetXAxis();

                b2Vec2[] vertices = new b2Vec2[3];

                b2PolygonShape triangle1 = new b2PolygonShape();
                vertices[0] = b2Math.b2Mul(xf1, new b2Vec2(-1.0f, 0.0f));
                vertices[1] = b2Math.b2Mul(xf1, new b2Vec2(1.0f, 0.0f));
                vertices[2] = b2Math.b2Mul(xf1, new b2Vec2(0.0f, 0.5f));
                triangle1.Set(vertices, 3);

                b2Transform xf2 = new b2Transform();
                xf2.q.Set(-0.3524f * b2Settings.b2_pi);
                xf2.p = -xf2.q.GetXAxis();

                b2PolygonShape triangle2 = new b2PolygonShape();
                vertices[0] = b2Math.b2Mul(xf2, new b2Vec2(-1.0f, 0.0f));
                vertices[1] = b2Math.b2Mul(xf2, new b2Vec2(1.0f, 0.0f));
                vertices[2] = b2Math.b2Mul(xf2, new b2Vec2(0.0f, 0.5f));
                triangle2.Set(vertices, 3);

                for (int i = 0; i < 10; ++i)
                {
                    float x = Rand.RandomFloat(-0.1f, 0.1f);
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position.Set(x, 2.05f + 2.5f * i);
                    bd.angle = 0.0f;
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(triangle1, 2.0f);
                    body.CreateFixture(triangle2, 2.0f);
                }
            }

            {
                b2PolygonShape bottom = new b2PolygonShape();
                bottom.SetAsBox(1.5f, 0.15f);

                b2PolygonShape left = new b2PolygonShape();
                left.SetAsBox(0.15f, 2.7f, new b2Vec2(-1.45f, 2.35f), 0.2f);

                b2PolygonShape right = new b2PolygonShape();
                right.SetAsBox(0.15f, 2.7f, new b2Vec2(1.45f, 2.35f), -0.2f);

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(0.0f, 2.0f);
                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(bottom, 4.0f);
                body.CreateFixture(left, 4.0f);
                body.CreateFixture(right, 4.0f);
            }
        }
Exemple #22
0
        public void LaunchBomb(b2Vec2 position, b2Vec2 velocity)
        {
            if (m_bomb != null)
            {
                m_world.DestroyBody(m_bomb);
                m_bomb = null;
            }

            b2BodyDef bd = new b2BodyDef();
            bd.type = b2BodyType.b2_dynamicBody;
            bd.position = position;
            bd.bullet = true;
            m_bomb = m_world.CreateBody(bd);
            m_bomb.LinearVelocity = velocity;

            b2CircleShape circle = new b2CircleShape();
            circle.Radius = 0.3f;

            b2FixtureDef fd = new b2FixtureDef();
            fd.shape = circle;
            fd.density = 20.0f;
            fd.restitution = 0.0f;

            b2Vec2 minV = position - new b2Vec2(0.3f, 0.3f);
            b2Vec2 maxV = position + new b2Vec2(0.3f, 0.3f);

            b2AABB aabb = new b2AABB();
            aabb.LowerBound = minV;
            aabb.UpperBound = maxV;

            m_bomb.CreateFixture(fd);
        }
        /// Compute the collision manifold between a polygon and a circle.
        public static void b2CollidePolygonAndCircle(ref b2Manifold manifold,
                                        b2PolygonShape polygonA, ref b2Transform xfA,
                                        b2CircleShape circleB, ref b2Transform xfB)
        {
            manifold.pointCount = 0;

            // Compute circle position in the frame of the polygon.
            b2Vec2 c = b2Math.b2Mul(xfB, circleB.Position);
            b2Vec2 cLocal = b2Math.b2MulT(xfA, c);

            // Find the min separating edge.
            int normalIndex = 0;
            float separation = -b2Settings.b2_maxFloat;
            float radius = polygonA.Radius + circleB.Radius;
            int vertexCount = polygonA.VertexCount;
            b2Vec2[] vertices = polygonA.Vertices;
            b2Vec2[] normals = polygonA.Normals;

            for (int i = 0; i < vertexCount; ++i)
            {
                float s = b2Math.b2Dot(normals[i], cLocal - vertices[i]);

                if (s > radius)
                {
                    // Early out.
                    return;
                }

                if (s > separation)
                {
                    separation = s;
                    normalIndex = i;
                }
            }

            // Vertices that subtend the incident face.
            int vertIndex1 = normalIndex;
            int vertIndex2 = vertIndex1 + 1 < vertexCount ? vertIndex1 + 1 : 0;
            b2Vec2 v1 = vertices[vertIndex1];
            b2Vec2 v2 = vertices[vertIndex2];

            // If the center is inside the polygon ...
            if (separation < b2Settings.b2_epsilon)
            {
                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = normals[normalIndex];
                manifold.localPoint = 0.5f * (v1 + v2);
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id = b2ContactFeature.Zero;
                return;
            }

            // Compute barycentric coordinates
            float u1 = b2Math.b2Dot(cLocal - v1, v2 - v1);
            float u2 = b2Math.b2Dot(cLocal - v2, v1 - v2);
            if (u1 <= 0.0f)
            {
                if (b2Math.b2DistanceSquared(cLocal, v1) > radius * radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = cLocal - v1;
                manifold.localNormal.Normalize();
                manifold.localPoint = v1;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id = b2ContactFeature.Zero;
            }
            else if (u2 <= 0.0f)
            {
                if (b2Math.b2DistanceSquared(cLocal, v2) > radius * radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = cLocal - v2;
                manifold.localNormal.Normalize();
                manifold.localPoint = v2;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id = b2ContactFeature.Zero;
            }
            else
            {
                b2Vec2 faceCenter = 0.5f * (v1 + v2);
                separation = b2Math.b2Dot(cLocal - faceCenter, normals[vertIndex1]);
                if (separation > radius)
                {
                    return;
                }

                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_faceA;
                manifold.localNormal = normals[vertIndex1];
                manifold.localPoint = faceCenter;
                manifold.points[0].localPoint = circleB.Position;
                manifold.points[0].id = b2ContactFeature.Zero;
            }
        }
 public b2CircleShape(b2CircleShape copy)
     : base((b2Shape)copy)
 {
     m_p = copy.m_p;
 }
        public virtual b2Shape Clone()
        {
            b2CircleShape clone = new b2CircleShape(this);

            return(clone);
        }
        void AddBall()
        {
            if (ballsBatch.ChildrenCount < MAX_NUM_BALLS) {
                int idx = (CCRandom.Float_0_1 () > .5 ? 0 : 1);
                int idy = (CCRandom.Float_0_1 () > .5 ? 0 : 1);
                var sprite = new CCPhysicsSprite (ballTexture, new CCRect (32 * idx, 32 * idy, 32, 32), PTM_RATIO);

                ballsBatch.AddChild (sprite);

                CCPoint p = GetRandomPosition (sprite.ContentSize);

                sprite.Position = new CCPoint (p.X, p.Y);

                var def = new b2BodyDef ();
                def.position = new b2Vec2 (p.X / PTM_RATIO, p.Y / PTM_RATIO);
                def.linearVelocity = new b2Vec2 (0.0f, -1.0f);
                def.type = b2BodyType.b2_dynamicBody;
                b2Body body = world.CreateBody (def);

                var circle = new b2CircleShape ();
                circle.Radius = 0.5f;

                var fd = new b2FixtureDef ();
                fd.shape = circle;
                fd.density = 1f;
                fd.restitution = 0.85f;
                fd.friction = 0f;
                body.CreateFixture (fd);

                sprite.PhysicsBody = body;
            }
        }
Exemple #27
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        public Bridge()
        {
            b2Body ground = null;
            {
                b2BodyDef bd  = new b2BodyDef();
                ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(0.5f, 0.125f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 20.0f;
                fd.friction = 0.2f;

                b2RevoluteJointDef jd = new b2RevoluteJointDef();

                b2Body prevBody = ground;
                for (int i = 0; i < e_count; ++i)
                {
                    b2BodyDef bd  = new b2BodyDef();
                    bd.type = b2BodyType.b2_dynamicBody;
                    bd.position = new b2Vec2(-14.5f + 1.0f * i, 5.0f);
                    b2Body body = m_world.CreateBody(bd);
                    body.CreateFixture(fd);

                    b2Vec2 anchor = new b2Vec2(-15.0f + 1.0f * i, 5.0f);
                    jd.Initialize(prevBody, body, anchor);
                    m_world.CreateJoint(jd);

                    if (i == (e_count >> 1))
                    {
                        m_middle = body;
                    }
                    prevBody = body;
                }

                b2Vec2 anchor1 = new b2Vec2(-15.0f + 1.0f * e_count, 5.0f);
                jd.Initialize(prevBody, ground, anchor1);
                m_world.CreateJoint(jd);
            }

            for (int i = 0; i < 2; ++i)
            {
                b2Vec2[] vertices = new b2Vec2[3];
                vertices[0].Set(-0.5f, 0.0f);
                vertices[1].Set(0.5f, 0.0f);
                vertices[2].Set(0.0f, 1.5f);

                b2PolygonShape shape = new b2PolygonShape();
                shape.Set(vertices, 3);

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 1.0f;

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position = new b2Vec2(-8.0f + 8.0f * i, 12.0f);
                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(fd);
            }

            for (int i = 0; i < 3; ++i)
            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 0.5f;

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                fd.density = 1.0f;

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(-6.0f + 6.0f * i, 10.0f);
                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(fd);
            }
        }
		void CreateObject()
		{
			
			
			// Define the dynamic body.
			var bodyDef = new b2BodyDef();
			bodyDef.type = b2BodyType.b2_dynamicBody; //or you could use b2_staticBody

			bodyDef.position.Set(initialLocation.X/Constants.PTM_RATIO, initialLocation.Y/Constants.PTM_RATIO);
			
			var shape = new b2PolygonShape();
			var shapeCircle = new b2CircleShape();
			
			if (shapeCreationMethod == CreationMethod.DiameterOfImageForCircle) {
				
				var tempSprite = new CCSprite(spriteImageName);
                var radiusInMeters = (tempSprite.Texture.ContentSizeInPixels.Width / Constants.PTM_RATIO) * 0.5f;
				
				shapeCircle.Radius = radiusInMeters;
				
			}
			
			
			else if ( shapeCreationMethod == CreationMethod.ShapeOfSourceImage) {
				
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 4;
				b2Vec2[] vertices = {
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //top left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 )/ Constants.PTM_RATIO), //bottom right corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO) //top right corner
				};
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.Triangle) {
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 3;
				b2Vec2[] vertices = {
					new b2Vec2((tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom right corner
					new b2Vec2( 0.0f / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 )/ Constants.PTM_RATIO) // top center of image
				};
				
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.TriangleRightAngle) {
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 3;
				b2Vec2[] vertices = {
					new b2Vec2((tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO),  //top right corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //top left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 )/ Constants.PTM_RATIO) //bottom left corner
				};
				
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.Trapezoid) {
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 4;
				b2Vec2[] vertices = {
					new b2Vec2((tempSprite.Texture.ContentSizeInPixels.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO),  //top of image, 3/4's across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO),  //top of image, 1/4's across
					new b2Vec2((tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom right corner
				};
				
				shape.Set(vertices, num);
			}
			
			
			else if ( shapeCreationMethod == CreationMethod.Hexagon) {
				
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 6;
				b2Vec2[] vertices = {
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //top of image, 1/4 across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 )  / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // left, center
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 1/4 across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width /  2 ) / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // right, center
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO) //top of image, 3/4's across
				};
				
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.Pentagon) {
				
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 5;
				b2Vec2[] vertices = {
					new b2Vec2( 0 / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //top of image, center 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 )  / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // left, center
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 1/4 across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width /  2 ) / Constants.PTM_RATIO, 0.0f / Constants.PTM_RATIO), // right, center
					
				};
				
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.Octagon) {
				
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 8;
				b2Vec2[] vertices = {
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -6 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //use the source image octogonShape.png for reference
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 )  / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 6 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 )  / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -6 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -6 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 6 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width /  2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -6 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width /  2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 6 ) / Constants.PTM_RATIO), 
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 6 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO) 
				};
				
				shape.Set(vertices, num);
			}
			else if ( shapeCreationMethod == CreationMethod.Parallelogram) {
				
				var tempSprite = new CCSprite(spriteImageName);
				
				var num = 4;
				b2Vec2[] vertices = {
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO), //top of image, 1/4 across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / -2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom left corner
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 4 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / -2 ) / Constants.PTM_RATIO), //bottom of image, 3/4's across
					new b2Vec2( (tempSprite.Texture.ContentSizeInPixels.Width / 2 ) / Constants.PTM_RATIO, (tempSprite.Texture.ContentSizeInPixels.Height / 2 ) / Constants.PTM_RATIO) //top right corner
				};
				
				shape.Set(vertices, num);
			}
			
			else if ( shapeCreationMethod == CreationMethod.CustomCoordinates1) {  //use your own custom coordinates from a program like Vertex Helper Pro
				
				var num = 4;
				b2Vec2[] vertices = {
					new b2Vec2(-64.0f / Constants.PTM_RATIO, 16.0f / Constants.PTM_RATIO),
					new b2Vec2(-64.0f / Constants.PTM_RATIO, -16.0f / Constants.PTM_RATIO),
					new b2Vec2(64.0f / Constants.PTM_RATIO, -16.0f / Constants.PTM_RATIO),
					new b2Vec2(64.0f / Constants.PTM_RATIO, 16.0f / Constants.PTM_RATIO)
				};
				shape.Set(vertices, num);
			}
			
			
			
			
			// Define the dynamic body fixture.
			var fixtureDef = new b2FixtureDef();
			
			if ( shapeCreationMethod == CreationMethod.DiameterOfImageForCircle) {
				
				fixtureDef.shape = shapeCircle;	
				
			} else {
				fixtureDef.shape = shape;	
				
			}
			
			fixtureDef.density = theDensity;
			fixtureDef.friction = 0.3f;
			fixtureDef.restitution =  0.1f;
			
			CreateBodyWithSpriteAndFixture(theWorld, bodyDef, fixtureDef, spriteImageName);
			
			
			if ( angle != 0 ) {
				
				int currentAngle = (int)body.Angle ;
				b2Vec2 locationInMeters = body.Position;
				body.SetTransform( locationInMeters , CCMacros.CCDegreesToRadians( currentAngle + angle  )  );
				
			}
			
			if (IsStatic) {
				
				MakeBodyStatic();
			}
		}
Exemple #29
0
        /// Compute the collision manifold between two circles.
        public static void b2CollideCircles(b2Manifold manifold, b2CircleShape circleA, ref b2Transform xfA, b2CircleShape circleB, ref b2Transform xfB)
        {
            manifold.pointCount = 0;

            float pAx = (xfA.q.c * circleA.Position.x - xfA.q.s * circleA.Position.y) + xfA.p.x;
            float pAy = (xfA.q.s * circleA.Position.x + xfA.q.c * circleA.Position.y) + xfA.p.y;

            float pBx = (xfB.q.c * circleB.Position.x - xfB.q.s * circleB.Position.y) + xfB.p.x;
            float pBy = (xfB.q.s * circleB.Position.x + xfB.q.c * circleB.Position.y) + xfB.p.y;

            float dx = pBx - pAx;
            float dy = pBy - pAy;

            float distSqr = dx * dx + dy * dy;

            float rA = circleA.Radius, rB = circleB.Radius;
            float radius = rA + rB;
            
            if (distSqr > radius * radius)
            {
                return;
            }

            manifold.type = b2ManifoldType.e_circles;
            manifold.localPoint = circleA.Position;
            manifold.localNormal = b2Vec2.Zero;
            manifold.pointCount = 1;

            manifold.points[0].localPoint = circleB.Position;
            manifold.points[0].id.key = 0;
        }
 public b2CircleShape(b2CircleShape copy)
     : base(copy)
 {
     Position = copy.Position;
 }
        /// Compute the collision manifold between two circles.
        public static void b2CollideCircles(ref b2Manifold manifold,
                               b2CircleShape circleA, ref b2Transform xfA,
                               b2CircleShape circleB, ref b2Transform xfB)
        {
            manifold.pointCount = 0;

            b2Vec2 pA = b2Math.b2Mul(xfA, circleA.Position);
            b2Vec2 pB = b2Math.b2Mul(xfB, circleB.Position);

            b2Vec2 d = pB - pA;
            float distSqr = b2Math.b2Dot(d, d);
            float rA = circleA.Radius, rB = circleB.Radius;
            float radius = rA + rB;
            if (distSqr > radius * radius)
            {
                return;
            }

            manifold.type = b2ManifoldType.e_circles;
            manifold.localPoint = circleA.Position;
            manifold.localNormal.SetZero();
            manifold.pointCount = 1;

            manifold.points[0].localPoint = circleB.Position;
            manifold.points[0].id = b2ContactFeature.Zero;
        }
        public override b2Shape Clone()
        {
            b2CircleShape clone = new b2CircleShape(this);

            return(clone);
        }
        /// Compute the collision manifold between an edge and a circle.
        public static void b2CollideEdgeAndCircle(ref b2Manifold manifold,
                                        b2EdgeShape edgeA, ref b2Transform xfA,
                                        b2CircleShape circleB, ref b2Transform xfB)
        {
            manifold.pointCount = 0;

            // Compute circle in frame of edge
            b2Vec2 Q = b2Math.b2MulT(xfA, b2Math.b2Mul(xfB, circleB.Position));

            b2Vec2 A = edgeA.Vertex1, B = edgeA.Vertex2;
            b2Vec2 e = B - A;
            b2Vec2 diff;

            // Barycentric coordinates
            diff = B - Q;
            float u = b2Math.b2Dot(ref e, ref diff); // B - Q);
            diff = Q - A;
            float v = b2Math.b2Dot(ref e, ref diff); // Q - A);

            float radius = edgeA.Radius + circleB.Radius;

            b2ContactFeature cf = b2ContactFeature.Zero;
            cf.indexB = 0;
            cf.typeB = b2ContactFeatureType.e_vertex;

            // Region A
            if (v <= 0.0f)
            {
                b2Vec2 P = A;
                b2Vec2 d = Q - P;
                float dd = d.LengthSquared; //  b2Math.b2Dot(d, d);
                if (dd > radius * radius)
                {
                    return;
                }

                // Is there an edge connected to A?
                if (edgeA.HasVertex0)
                {
                    b2Vec2 A1 = edgeA.Vertex0;
                    b2Vec2 B1 = A;
                    b2Vec2 e1 = B1 - A1;
                    diff = B1 - Q;
                    float u1 = b2Math.b2Dot(ref e1, ref diff);

                    // Is the circle in Region AB of the previous edge?
                    if (u1 > 0.0f)
                    {
                        return;
                    }
                }

                cf.indexA = 0;
                cf.typeA = b2ContactFeatureType.e_vertex;
                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_circles;
                manifold.localNormal.SetZero();
                manifold.localPoint = P;
                manifold.points[0].id.key = 0;
                manifold.points[0].id.Set(cf);
                manifold.points[0].localPoint = circleB.Position;
                return;
            }

            // Region B
            if (u <= 0.0f)
            {
                b2Vec2 P = B;
                b2Vec2 d = Q - P;
                float dd = d.LengthSquared; //  b2Math.b2Dot(d, d);
                if (dd > radius * radius)
                {
                    return;
                }

                // Is there an edge connected to B?
                if (edgeA.HasVertex3)
                {
                    b2Vec2 B2 = edgeA.Vertex3;
                    b2Vec2 A2 = B;
                    b2Vec2 e2 = B2 - A2;
                    diff = Q - A2;
                    float v2 = b2Math.b2Dot(ref e2, ref diff);

                    // Is the circle in Region AB of the next edge?
                    if (v2 > 0.0f)
                    {
                        return;
                    }
                }

                cf.indexA = 1;
                cf.typeA = b2ContactFeatureType.e_vertex;
                manifold.pointCount = 1;
                manifold.type = b2ManifoldType.e_circles;
                manifold.localNormal.SetZero();
                manifold.localPoint = P;
                manifold.points[0].id.key = 0;
                manifold.points[0].id.Set(cf);
                manifold.points[0].localPoint = circleB.Position;
                return;
            }

            // Region AB
            float den = e.Length; // b2Math.b2Dot(e, e);
            System.Diagnostics.Debug.Assert(den > 0.0f);
            b2Vec2 xP = (1.0f / den) * (u * A + v * B);
            b2Vec2 xd = Q - xP;
            float xdd = xd.LengthSquared; //  b2Math.b2Dot(xd, xd);
            if (xdd > radius * radius)
            {
                return;
            }

            b2Vec2 n = b2Vec2.Zero; // new b2Vec2(-e.y, e.x); 
            n.m_x = -e.y;
            n.m_y = e.x;
            diff = Q - A;
            if (b2Math.b2Dot(ref n, ref diff) < 0.0f)
            {
                // n.Set(-n.x, -n.y);
                n.Set(-n.m_x, -n.m_y);
            }
            n.Normalize();

            cf.indexA = 0;
            cf.typeA = b2ContactFeatureType.e_face;
            manifold.pointCount = 1;
            manifold.type = b2ManifoldType.e_faceA;
            manifold.localNormal = n;
            manifold.localPoint = A;
            manifold.points[0].id.key = 0;
            manifold.points[0].id.Set(cf);
            manifold.points[0].localPoint = circleB.Position;
        }
        public CollisionFiltering()
        {
            // Ground body
            {
                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));

                b2FixtureDef sd = new b2FixtureDef();
                sd.shape = shape;
                sd.friction = 0.3f;

                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);
                ground.CreateFixture(sd);
            }

            // Small triangle
            b2Vec2[] vertices = new b2Vec2[3];
            vertices[0].Set(-1.0f, 0.0f);
            vertices[1].Set(1.0f, 0.0f);
            vertices[2].Set(0.0f, 2.0f);
            b2PolygonShape polygon = new b2PolygonShape();
            polygon.Set(vertices, 3);

            b2FixtureDef triangleShapeDef = new b2FixtureDef();
            triangleShapeDef.shape = polygon;
            triangleShapeDef.density = 1.0f;

            triangleShapeDef.filter.groupIndex = k_smallGroup;
            triangleShapeDef.filter.categoryBits = k_triangleCategory;
            triangleShapeDef.filter.maskBits = k_triangleMask;

            b2BodyDef triangleBodyDef  = new b2BodyDef();
            triangleBodyDef.type = b2BodyType.b2_dynamicBody;
            triangleBodyDef.position.Set(-5.0f, 2.0f);

            b2Body body1 = m_world.CreateBody(triangleBodyDef);
            body1.CreateFixture(triangleShapeDef);

            // Large triangle (recycle definitions)
            vertices[0] *= 2.0f;
            vertices[1] *= 2.0f;
            vertices[2] *= 2.0f;
            polygon.Set(vertices, 3);
            triangleShapeDef.filter.groupIndex = k_largeGroup;
            triangleBodyDef.position.Set(-5.0f, 6.0f);
            triangleBodyDef.fixedRotation = true; // look at me!

            b2Body body2 = m_world.CreateBody(triangleBodyDef);
            body2.CreateFixture(triangleShapeDef);

            {
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(-5.0f, 10.0f);
                b2Body body = m_world.CreateBody(bd);

                b2PolygonShape p = new b2PolygonShape();
                p.SetAsBox(0.5f, 1.0f);
                body.CreateFixture(p, 1.0f);

                b2PrismaticJointDef jd = new b2PrismaticJointDef();
                jd.BodyA = body2;
                jd.BodyB = body;
                jd.enableLimit = true;
                jd.localAnchorA.Set(0.0f, 4.0f);
                jd.localAnchorB.SetZero();
                jd.localAxisA.Set(0.0f, 1.0f);
                jd.lowerTranslation = -1.0f;
                jd.upperTranslation = 1.0f;

                m_world.CreateJoint(jd);
            }

            // Small box
            polygon.SetAsBox(1.0f, 0.5f);
            b2FixtureDef boxShapeDef = new b2FixtureDef();
            boxShapeDef.shape = polygon;
            boxShapeDef.density = 1.0f;
            boxShapeDef.restitution = 0.1f;

            boxShapeDef.filter.groupIndex = k_smallGroup;
            boxShapeDef.filter.categoryBits = k_boxCategory;
            boxShapeDef.filter.maskBits = k_boxMask;

            b2BodyDef boxBodyDef  = new b2BodyDef();
            boxBodyDef.type = b2BodyType.b2_dynamicBody;
            boxBodyDef.position.Set(0.0f, 2.0f);

            b2Body body3 = m_world.CreateBody(boxBodyDef);
            body3.CreateFixture(boxShapeDef);

            // Large box (recycle definitions)
            polygon.SetAsBox(2.0f, 1.0f);
            boxShapeDef.filter.groupIndex = k_largeGroup;
            boxBodyDef.position.Set(0.0f, 6.0f);

            b2Body body4 = m_world.CreateBody(boxBodyDef);
            body4.CreateFixture(boxShapeDef);

            // Small circle
            b2CircleShape circle = new b2CircleShape();
            circle.Radius = 1.0f;

            b2FixtureDef circleShapeDef = new b2FixtureDef();
            circleShapeDef.shape = circle;
            circleShapeDef.density = 1.0f;

            circleShapeDef.filter.groupIndex = k_smallGroup;
            circleShapeDef.filter.categoryBits = k_circleCategory;
            circleShapeDef.filter.maskBits = k_circleMask;

            b2BodyDef circleBodyDef  = new b2BodyDef();
            circleBodyDef.type = b2BodyType.b2_dynamicBody;
            circleBodyDef.position.Set(5.0f, 2.0f);

            b2Body body5 = m_world.CreateBody(circleBodyDef);
            body5.CreateFixture(circleShapeDef);

            // Large circle
            circle.Radius = circle.Radius * 2.0f;
            circleShapeDef.filter.groupIndex = k_largeGroup;
            circleBodyDef.position.Set(5.0f, 6.0f);

            b2Body body6 = m_world.CreateBody(circleBodyDef);
            body6.CreateFixture(circleShapeDef);
        }
Exemple #35
0
        public Revolute()
        {
            b2Body ground;
            {
                b2BodyDef bd  = new b2BodyDef();
                ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-40.0f, 0.0f), new b2Vec2(40.0f, 0.0f));

                b2FixtureDef fd = new b2FixtureDef();
                fd.shape = shape;
                //fd.filter.categoryBits = 2;

                ground.CreateFixture(fd);
            }

            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 0.5f;

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;

                b2RevoluteJointDef rjd = new b2RevoluteJointDef();

                bd.position.Set(-10.0f, 20.0f);
                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(shape, 5.0f);

                float w = 100.0f;
                body.AngularVelocity = w;
                body.LinearVelocity = new b2Vec2(-8.0f * w, 0.0f);

                rjd.Initialize(ground, body, new b2Vec2(-10.0f, 12.0f));
                rjd.motorSpeed = 1.0f * b2Settings.b2_pi;
                rjd.maxMotorTorque = 10000.0f;
                rjd.enableMotor = false;
                rjd.lowerAngle = -0.25f * b2Settings.b2_pi;
                rjd.upperAngle = 0.5f * b2Settings.b2_pi;
                rjd.enableLimit = true;
                rjd.CollideConnected = true;

                m_joint = (b2RevoluteJoint) m_world.CreateJoint(rjd);
            }

            {
                b2CircleShape circle_shape = new b2CircleShape();
                circle_shape.Radius = 3.0f;

                b2BodyDef circle_bd  = new b2BodyDef();
                circle_bd.type = b2BodyType.b2_dynamicBody;
                circle_bd.position.Set(5.0f, 30.0f);

                b2FixtureDef fd = new b2FixtureDef();
                fd.density = 5.0f;
                fd.filter.maskBits = 1;
                fd.shape = circle_shape;

                m_ball = m_world.CreateBody(circle_bd);
                m_ball.CreateFixture(fd);

                b2PolygonShape polygon_shape = new b2PolygonShape();
                polygon_shape.SetAsBox(10.0f, 0.2f, new b2Vec2(-10.0f, 0.0f), 0.0f);

                b2BodyDef polygon_bd  = new b2BodyDef();
                polygon_bd.position.Set(20.0f, 10.0f);
                polygon_bd.type = b2BodyType.b2_dynamicBody;
                polygon_bd.bullet = true;
                b2Body polygon_body = m_world.CreateBody(polygon_bd);
                polygon_body.CreateFixture(polygon_shape, 2.0f);

                b2RevoluteJointDef rjd = new b2RevoluteJointDef();
                rjd.Initialize(ground, polygon_body, new b2Vec2(20.0f, 10.0f));
                rjd.lowerAngle = -0.25f * b2Settings.b2_pi;
                rjd.upperAngle = 0.0f * b2Settings.b2_pi;
                rjd.enableLimit = true;
                m_world.CreateJoint(rjd);
            }

            // Tests mass computation of a small object far from the origin
            {
                b2BodyDef bodyDef  = new b2BodyDef();
                bodyDef.type = b2BodyType.b2_dynamicBody;
                b2Body body = m_world.CreateBody(bodyDef);

                b2PolygonShape polyShape = new b2PolygonShape();
                b2Vec2[] verts = new b2Vec2[3];
                verts[0].Set(17.63f, 36.31f);
                verts[1].Set(17.52f, 36.69f);
                verts[2].Set(17.19f, 36.36f);
                polyShape.Set(verts, 3);

                b2FixtureDef polyFixtureDef = new b2FixtureDef();
                polyFixtureDef.shape = polyShape;
                polyFixtureDef.density = 1;

                body.CreateFixture(polyFixtureDef); //assertion hits inside here
            }

        }
Exemple #36
0
        public TheoJansen()
        {
            m_offset.Set(0.0f, 8.0f);
            m_motorSpeed = 2.0f;
            m_motorOn = true;
            b2Vec2 pivot = new b2Vec2(0.0f, 0.8f);

            // Ground
            {
                b2BodyDef bd  = new b2BodyDef();
                b2Body ground = m_world.CreateBody(bd);

                b2EdgeShape shape = new b2EdgeShape();
                shape.Set(new b2Vec2(-50.0f, 0.0f), new b2Vec2(50.0f, 0.0f));
                ground.CreateFixture(shape, 0.0f);

                shape.Set(new b2Vec2(-50.0f, 0.0f), new b2Vec2(-50.0f, 10.0f));
                ground.CreateFixture(shape, 0.0f);

                shape.Set(new b2Vec2(50.0f, 0.0f), new b2Vec2(50.0f, 10.0f));
                ground.CreateFixture(shape, 0.0f);
            }

            // Balls
            for (int i = 0; i < 40; ++i)
            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 0.25f;

                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position.Set(-40.0f + 2.0f * i, 0.5f);

                b2Body body = m_world.CreateBody(bd);
                body.CreateFixture(shape, 1.0f);
            }

            // Chassis
            {
                b2PolygonShape shape = new b2PolygonShape();
                shape.SetAsBox(2.5f, 1.0f);

                b2FixtureDef sd = new b2FixtureDef();
                sd.density = 1.0f;
                sd.shape = shape;
                sd.filter.groupIndex = -1;
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position = pivot + m_offset;
                m_chassis = m_world.CreateBody(bd);
                m_chassis.CreateFixture(sd);
            }

            {
                b2CircleShape shape = new b2CircleShape();
                shape.Radius = 1.6f;

                b2FixtureDef sd = new b2FixtureDef();
                sd.density = 1.0f;
                sd.shape = shape;
                sd.filter.groupIndex = -1;
                b2BodyDef bd  = new b2BodyDef();
                bd.type = b2BodyType.b2_dynamicBody;
                bd.position = pivot + m_offset;
                m_wheel = m_world.CreateBody(bd);
                m_wheel.CreateFixture(sd);
            }

            {
                b2RevoluteJointDef jd = new b2RevoluteJointDef();
                jd.Initialize(m_wheel, m_chassis, pivot + m_offset);
                jd.CollideConnected = false;
                jd.motorSpeed = m_motorSpeed;
                jd.maxMotorTorque = 400.0f;
                jd.enableMotor = m_motorOn;
                m_motorJoint = (b2RevoluteJoint) m_world.CreateJoint(jd);
            }

            b2Vec2 wheelAnchor = new b2Vec2();

            wheelAnchor = pivot + new b2Vec2(0.0f, -0.8f);

            CreateLeg(-1.0f, wheelAnchor);
            CreateLeg(1.0f, wheelAnchor);

            m_wheel.SetTransform(m_wheel.Position, 120.0f * b2Settings.b2_pi / 180.0f);
            CreateLeg(-1.0f, wheelAnchor);
            CreateLeg(1.0f, wheelAnchor);

            m_wheel.SetTransform(m_wheel.Position, -120.0f * b2Settings.b2_pi / 180.0f);
            CreateLeg(-1.0f, wheelAnchor);
            CreateLeg(1.0f, wheelAnchor);
        }