Exemplo n.º 1
0
preStep(cpSlideJoint *joint, double dt)
{
	cpBody a = joint.constraint.a;
	cpBody b = joint.constraint.b;
	
	joint.r1 = cpvrotate(joint.anchr1, a.rot);
	joint.r2 = cpvrotate(joint.anchr2, b.rot);
	
	cpVect delta = cpVect.Sub(cpVect.Add(b.p, joint.r2), cpVect.Add(a.p, joint.r1));
	double dist = cpvlength(delta);
	double pdist = 0.0f;
	if(dist > joint.max) {
		pdist = dist - joint.max;
		joint.n = cpvnormalize_safe(delta);
	} else if(dist < joint.min) {
		pdist = joint.min - dist;
		joint.n = cpvneg(cpvnormalize_safe(delta));
	} else {
		joint.n = cpvzero;
		joint.jnAcc = 0.0f;
	}
	
	// calculate mass normal
	joint.nMass = 1.0f/k_scalar(a, b, joint.r1, joint.r2, joint.n);
	
	// calculate bias velocity
	double maxBias = joint.constraint.maxBias;
	joint.bias = cpfclamp(-bias_coef(joint.constraint.errorBias, dt)*pdist/dt, -maxBias, maxBias);
}
Exemplo n.º 2
0
applyCachedImpulse(cpSlideJoint *joint, double dt_coef)
{
	cpBody a = joint.constraint.a;
	cpBody b = joint.constraint.b;
	
	cpVect j = cpVect.Multiply(joint.n, joint.jnAcc*dt_coef);
	apply_impulses(a, b, joint.r1, joint.r2, j);
}
Exemplo n.º 3
0
    public void Draw(cpSlideJoint constraint)
    {
        cpVect a = cpTransform.Point(constraint.a.transform, constraint.GetAnchorA());
        cpVect b = cpTransform.Point(constraint.b.transform, constraint.GetAnchorB());

        DrawSegment(a, b, 1, cpColor.Grey);
        DrawDot(a, 5, CONSTRAINT_COLOR);
        DrawDot(b, 5, CONSTRAINT_COLOR);
    }
Exemplo n.º 4
0
        protected bool Init(CCPhysicsBody a, CCPhysicsBody b, CCPoint anchr1, CCPoint anchr2, float min, float max)
        {
            if (!base.Init(a, b))
            {
                return(false);
            }

            cpConstraint joint = new cpSlideJoint(GetBodyInfo(a).Body, GetBodyInfo(b).Body,
                                                  PhysicsHelper.CCPointToCpVect(anchr1),
                                                  PhysicsHelper.CCPointToCpVect(anchr2),
                                                  min,
                                                  max);

            if (joint == null)
            {
                return(false);
            }

            _info.Add(joint);

            return(true);
        }
Exemplo n.º 5
0
applyImpulse(cpSlideJoint *joint, double dt)
{
	if(cpveql(joint.n, cpvzero)) return;  // early exit

	cpBody a = joint.constraint.a;
	cpBody b = joint.constraint.b;
	
	cpVect n = joint.n;
	cpVect r1 = joint.r1;
	cpVect r2 = joint.r2;
		
	// compute relative velocity
	cpVect vr = relative_velocity(a, b, r1, r2);
	double vrn = cpVect.Dot(vr, n);
	
	// compute normal impulse
	double jn = (joint.bias - vrn)*joint.nMass;
	double jnOld = joint.jnAcc;
	joint.jnAcc = cpfclamp(jnOld + jn, -joint.constraint.maxForce*dt, 0.0f);
	jn = joint.jnAcc - jnOld;
	
	// apply impulse
	apply_impulses(a, b, joint.r1, joint.r2, cpVect.Multiply(n, jn));
}
Exemplo n.º 6
0
cpSlideJointInit(cpSlideJoint *joint, cpBody a, cpBody b, cpVect anchr1, cpVect anchr2, double min, double max)
{
	cpConstraintInit((cpConstraint )joint, &klass, a, b);
	
	joint.anchr1 = anchr1;
	joint.anchr2 = anchr2;
	joint.min = min;
	joint.max = max;
	
	joint.jnAcc = 0.0f;
	
	return joint;
}
Exemplo n.º 7
0
CP_DefineClassGetter(cpSlideJoint)

cpSlideJoint *