Example #1
0
        protected internal override void OnApplyConstraint(UserJointBase joint)
        {
            Matrix3D m = Joint.BodyToWorldMatrix(joint.ParentBody, _parentDirection);
            Matrix3D c = Joint.BodyToWorldMatrix(joint.ChildBody, this.Direction);

            double sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetUpVector(ref c), Math3D.GetUpVector(ref m)), Math3D.GetFrontVector(ref c));
            double ca = Vector3D.DotProduct(Math3D.GetUpVector(ref c), Math3D.GetUpVector(ref m));
            double a  = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetFrontVector(ref m));
            ApplyConstraintProperties(joint);

            sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetRightVector(ref c), Math3D.GetRightVector(ref m)), Math3D.GetUpVector(ref c));
            ca = Vector3D.DotProduct(Math3D.GetRightVector(ref c), Math3D.GetRightVector(ref m));
            a  = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetUpVector(ref m));
            ApplyConstraintProperties(joint);

            sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetFrontVector(ref c), Math3D.GetFrontVector(ref m)), Math3D.GetRightVector(ref c));
            ca = Vector3D.DotProduct(Math3D.GetFrontVector(ref c), Math3D.GetFrontVector(ref m));
            a  = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetRightVector(ref m));
            ApplyConstraintProperties(joint);
        }
Example #2
0
        internal protected void UpdateForce(UserJointBase joint, int index)
        {
            if (_averages.Count > ForceAverageSampleCount)
            {
                _averages.RemoveAt(0);
            }

            var impulseForce = joint.NewtonJoint.UserBilateralGetRowForce(index);

            _averages.Add(impulseForce);

            ImpulseForce = impulseForce;

            int count = _averages.Count;

            if (count >= ForceAverageSampleCount)
            {
                double force = 0;
                for (int i = 0; i < count; i++)
                {
                    force += _averages[i];
                }

                Force = force / count;
            }
        }
        public override void Initialise(UserJointBase joint)
        {
            base.Initialise(joint);

            foreach (UserJointConstraint constraint in _children)
                constraint.Initialise(joint);
        }
Example #4
0
 protected internal override void ApplyConstraint(UserJointBase joint)
 {
     foreach (UserJointConstraint constraint in _children)
     {
         constraint.ApplyConstraint(joint);
     }
 }
 protected internal override void ApplyConstraint(UserJointBase joint)
 {
     foreach (UserJointConstraint constraint in _children)
     {
         constraint.ApplyConstraint(joint);
     }
 }
        protected internal override void OnApplyConstraint(UserJointBase joint)
        {
            Matrix3D m = Joint.BodyToWorldMatrix(joint.ParentBody, _parentDirection);
            Matrix3D c = Joint.BodyToWorldMatrix(joint.ChildBody, this.Direction);

            double sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetUpVector(ref c), Math3D.GetUpVector(ref m)), Math3D.GetFrontVector(ref c));
            double ca = Vector3D.DotProduct(Math3D.GetUpVector(ref c), Math3D.GetUpVector(ref m));
            double a = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetFrontVector(ref m));
            ApplyConstraintProperties(joint);

            sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetRightVector(ref c), Math3D.GetRightVector(ref m)), Math3D.GetUpVector(ref c));
            ca = Vector3D.DotProduct(Math3D.GetRightVector(ref c), Math3D.GetRightVector(ref m));
            a = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetUpVector(ref m));
            ApplyConstraintProperties(joint);

            sa = Vector3D.DotProduct(Vector3D.CrossProduct(Math3D.GetFrontVector(ref c), Math3D.GetFrontVector(ref m)), Math3D.GetRightVector(ref c));
            ca = Vector3D.DotProduct(Math3D.GetFrontVector(ref c), Math3D.GetFrontVector(ref m));
            a = Math.Atan2(sa, ca);

            joint.NewtonJoint.UserBilateralAddAngularRow((float)a, Math3D.GetRightVector(ref m));
            ApplyConstraintProperties(joint);
        }
        protected internal override void OnApplyConstraint(UserJointBase joint)
        {
            Matrix3D m = Joint.BodyToWorldMatrix(joint.ChildBody, this.PivotPoint, this.Direction);
            Vector3D childPivotPoint = Math3D.GetOffset(ref m);

            Vector3D parentPivotPoint = (Vector3D)Joint.BodyToWorld(joint.ParentBody, _parentPivotPoint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetFrontVector(ref m)
                );
            ApplyConstraintProperties(joint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetUpVector(ref m)
                );
            ApplyConstraintProperties(joint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetRightVector(ref m)
                );
            ApplyConstraintProperties(joint);
        }
Example #8
0
        protected internal override void OnApplyConstraint(UserJointBase joint)
        {
            Matrix3D m = Joint.BodyToWorldMatrix(joint.ChildBody, this.PivotPoint, this.Direction);
            Vector3D childPivotPoint = Math3D.GetOffset(ref m);

            Vector3D parentPivotPoint = (Vector3D)Joint.BodyToWorld(joint.ParentBody, _parentPivotPoint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetFrontVector(ref m)
                );
            ApplyConstraintProperties(joint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetUpVector(ref m)
                );
            ApplyConstraintProperties(joint);

            joint.NewtonJoint.UserBilateralAddLinearRow(
                childPivotPoint, parentPivotPoint,
                Math3D.GetRightVector(ref m)
                );
            ApplyConstraintProperties(joint);
        }
Example #9
0
 protected internal override void OnApplyConstraint(UserJointBase joint)
 {
     joint.NewtonJoint.UserBilateralAddAngularRow(
         (float)RelativeAngleError,
         Joint.BodyToWorld(joint.ChildBody, this.Axis)
         );
     ApplyConstraintProperties(joint);
 }
 protected internal override void OnApplyConstraint(UserJointBase joint)
 {
     joint.NewtonJoint.UserBilateralAddAngularRow(
         (float)RelativeAngleError,
         Joint.BodyToWorld(joint.ChildBody, this.Axis)
         );
     ApplyConstraintProperties(joint);
 }
Example #11
0
        public override void Initialise(UserJointBase joint)
        {
            base.Initialise(joint);

            foreach (UserJointConstraint constraint in _children)
            {
                constraint.Initialise(joint);
            }
        }
Example #12
0
        internal void Initialise(UserJointConstraint item)
        {
            UserJointBase joint = this.OwnerJoint;

            if (joint != null)
            {
                if (joint.IsInitialised)
                {
                    item.Initialise(joint);
                }
            }
        }
Example #13
0
        protected virtual void ApplyConstraintProperties(UserJointBase joint)
        {
            CJointUserDefinedBilateral handle = joint.NewtonJoint;

            object value = this.MinFriction;

            if (value != null)
            {
                handle.UserBilateralRowMinimumFriction = (float)(double)value;
            }

            value = this.MaxFriction;
            if (value != null)
            {
                handle.UserBilateralRowMaximumFriction = (float)(double)value;
            }

            value = this.Acceleration;
            if (value != null)
            {
                handle.UserBilateralRowAcceleration = (float)(double)value;
            }

            double dvalue = this.Stiffness;

            if (dvalue != STIFFNESS_DEFAULT)
            {
                handle.UserBilateralRowStiffness = (float)dvalue;
            }

            value = this.SpringStiffness;
            object value2 = this.SpringDamper;

            if ((value != null) && (value2 != null))
            {
                handle.UserBilateralSetRowSpringDamperAcceleration((float)(double)value, (float)(double)value2);
            }
        }
		internal protected abstract void OnApplyConstraint(UserJointBase joint);
 protected internal override void OnApplyConstraint(UserJointBase joint)
 {
     //
 }
Example #16
0
 public virtual void Initialise(UserJointBase joint)
 {
 }
Example #17
0
 protected internal override void OnApplyConstraint(UserJointBase joint)
 {
     //
 }
Example #18
0
 internal protected abstract void OnApplyConstraint(UserJointBase joint);
Example #19
0
        public override void Initialise(UserJointBase joint)
        {
            base.Initialise(joint);

            Update();
        }
		protected virtual void ApplyConstraintProperties(UserJointBase joint)
		{
			CJointUserDefinedBilateral handle = joint.NewtonJoint;

			object value = this.MinFriction;
			if (value != null)
				handle.UserBilateralRowMinimumFriction = (float)(double)value;

			value = this.MaxFriction;
			if (value != null)
				handle.UserBilateralRowMaximumFriction = (float)(double)value;

			value = this.Acceleration;
			if (value != null)
				handle.UserBilateralRowAcceleration = (float)(double)value;

			double dvalue = this.Stiffness;
			if (dvalue != STIFFNESS_DEFAULT)
				handle.UserBilateralRowStiffness = (float)dvalue;

			value = this.SpringStiffness;
			object value2 = this.SpringDamper;
			if ((value != null) && (value2 != null))
				handle.UserBilateralSetRowSpringDamperAcceleration((float)(double)value, (float)(double)value2);
		}
		internal protected void UpdateForce(UserJointBase joint, int index)
		{
			if (_averages.Count > ForceAverageSampleCount)
				_averages.RemoveAt(0);

			var impulseForce = joint.NewtonJoint.UserBilateralGetRowForce(index);
			_averages.Add(impulseForce);

			ImpulseForce = impulseForce;

			int count = _averages.Count;
			if (count >= ForceAverageSampleCount)
			{
				double force = 0;
				for (int i = 0; i < count; i++)
				{
					force += _averages[i];
				}

				Force = force / count;
			}
		}
Example #22
0
 internal protected virtual void ApplyConstraint(UserJointBase joint)
 {
     OnApplyConstraint(joint);
 }
		public virtual void Initialise(UserJointBase joint)
		{
		}
        public override void Initialise(UserJointBase joint)
        {
            base.Initialise(joint);

            Update();
        }
		internal protected virtual void ApplyConstraint(UserJointBase joint)
		{
			OnApplyConstraint(joint);
		}