source: code/branches/physics/src/ogreode/OgreOdeJoint.h @ 1923

#ifndef _OGREODEJOINT_H_
#define _OGREODEJOINT_H_

#include "OgreOdePreReqs.h"
#include <OgreVector3.h>

namespace OgreOde 
{
        class _OgreOdeExport JointGroup
        {
                friend class World;
                friend class Joint;

        public:
        JointGroup(World *world);
                virtual ~JointGroup();

                void empty();

                virtual size_t getID();

        protected:
                dJointGroupID getJointGroupID() const;

        protected:
        dJointGroupID _joint_group;
        World *_world;
        };

        class _OgreOdeExport Joint
    {
                friend class World;

        public:
                enum Type
                {
                        Type_BallJoint                                  = dJointTypeBall,
                        Type_HingeJoint                                 = dJointTypeHinge,
                        Type_SliderJoint                                = dJointTypeSlider,
                        Type_UniversalJoint                             = dJointTypeUniversal,
                        Type_Suspension_Joint                   = dJointTypeHinge2,
                        Type_FixedJoint                                 = dJointTypeFixed,
                        Type_AngularMotorJoint                  = dJointTypeAMotor,
                        Type_PlanarJoint                                = dJointTypePlane2D,
#if ODE_VERSION_MINOR > 9
                        Type_SliderHingeJoint                   = dJointTypePR,
                        Type_SliderUniversalJoint               = dJointTypePU,
                        Type_PistonJoint                                = dJointTypePiston
#else
                        Type_SliderHingeJoint                   = dJointTypePR
#endif
                };

                enum Parameter
                {
                        Parameter_LowStop                               = dParamLoStop,
                        Parameter_HighStop                              = dParamHiStop,
                        Parameter_MotorVelocity                 = dParamVel,
                        Parameter_MaximumForce                  = dParamFMax,
                        Parameter_FudgeFactor                   = dParamFudgeFactor,
                        Parameter_Bounceyness                   = dParamBounce,
                        Parameter_CFM                                   = dParamCFM,
                        Parameter_ERP                                   = dParamERP,
                        Parameter_StopERP                               = dParamStopERP,
                        Parameter_StopCFM                               = dParamStopCFM,
                        Parameter_SuspensionERP                 = dParamSuspensionERP, // SuspensionJoint
                        Parameter_SuspensionCFM                 = dParamSuspensionCFM  // SuspensionJoint
                };

        public:
                Joint(World *world, const JointGroup* group = 0);
                virtual ~Joint();

                Joint::Type getType(); 

                void registerJoint();

                void detach();
                virtual void attach(const Body* body);
                virtual void attach(const Body* body_a,const Body* body_b); 

                Body* getFirstBody(); 
                Body* getSecondBody(); 
                
                static bool areConnected(const Body* body_a,const Body* body_b); 
                static bool areConnectedExcluding(const Body* body_a,const Body* body_b,Joint::Type joint_type); 
        
                void enableFeedback(); 
                void disableFeedback(); 
                const Ogre::Vector3& getFirstForce();
                const Ogre::Vector3& getFirstTorque();
                const Ogre::Vector3& getSecondForce();
                const Ogre::Vector3& getSecondTorque();

                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                virtual void setAdditionalAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAdditionalAxis();
                virtual Ogre::Real getAngle();
                virtual Ogre::Real getAngleRate();
                virtual Ogre::Real getPosition();
                virtual Ogre::Real getPositionRate();

                virtual void setParameter(Joint::Parameter parameter,Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);

                virtual size_t getID();

                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);
                virtual void addForce(Ogre::Real force, Ogre::Real force2 = 0.0, Ogre::Real force3 = 0.0);

        protected:
                dJointID getJointID();

                dWorldID getWorldID();
                dJointGroupID getJointGroupID(const JointGroup* group) const;

        protected:
                dJointID _joint;
                dJointFeedback _feedback;
                Ogre::Vector3 _axis,_anchor,_anchor_error,_additional_axis;
        Ogre::Vector3 _first_force,_first_torque,_second_force,_second_torque;
        World *_world;
        };

        class _OgreOdeExport BallJoint:public Joint
        {
        public:
                BallJoint(World *world, const JointGroup* group = 0);
                ~BallJoint();

                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                
                // as of ode-0.9 can set Parameter_CFM and Parameter_ERP to make the joint springy, an axis value isn't needed
                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);
        };

        class _OgreOdeExport HingeJoint:public Joint
        {
        public:
                HingeJoint(World *world, const JointGroup* group = 0);
                ~HingeJoint();

                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                virtual Ogre::Real getAngle();
                virtual Ogre::Real getAngleRate();

                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);

                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);
        };

        class _OgreOdeExport SliderJoint:public Joint
        {
        public:
                SliderJoint(World *world, const JointGroup* group = 0);
                ~SliderJoint();

                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                virtual Ogre::Real getPosition();
                virtual Ogre::Real getPositionRate();

                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter, int axis = 1);

                virtual void addForce(Ogre::Real force, Ogre::Real force2 = 0.0, Ogre::Real force3 = 0.0);
        };

        class _OgreOdeExport UniversalJoint:public Joint
        {
        public:
                UniversalJoint(World *world, const JointGroup* group = 0);
                ~UniversalJoint();

                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                virtual void setAdditionalAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAdditionalAxis();

                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value, int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);

                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);
        };

        class _OgreOdeExport FixedJoint:public Joint
        {
        public:
                FixedJoint(World *world, const JointGroup* group = 0);
                ~FixedJoint();

                virtual void attach(const Body* body);
                virtual void attach(const Body* body_a,const Body* body_b); 
        };

        class _OgreOdeExport SuspensionJoint:public Joint
        {
        public:
                SuspensionJoint(World *world, const JointGroup* group = 0);
                ~SuspensionJoint();

                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAdditionalAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                virtual void setAdditionalAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAdditionalAxis();
                virtual Ogre::Real getAngle();
                virtual Ogre::Real getAngleRate();
                virtual Ogre::Real getPositionRate();

                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);

                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);

        protected:
                Ogre::Vector3 _anchor2;
        };

        class _OgreOdeExport AngularMotorJoint:public Joint
        {
        public:
                enum Mode
                {
                        Mode_UserAngularMotor   = dAMotorUser,
                        Mode_EulerAngularMotor  = dAMotorEuler 
                };

                enum RelativeOrientation
                {
                        RelativeOrientation_GlobalFrame = 0,
                        RelativeOrientation_FirstBody   = 1,            
                        RelativeOrientation_SecondBody  = 2
                };

        public:
                AngularMotorJoint(World *world, const JointGroup* group = 0);
                ~AngularMotorJoint();

                void setMode(AngularMotorJoint::Mode mode);
                AngularMotorJoint::Mode getMode(); 

                void setAxisCount(int axes);
                int getAxisCount(); 

                void setAxis(int axis_number,AngularMotorJoint::RelativeOrientation orientation,const Ogre::Vector3& axis);
                const Ogre::Vector3& getAxis(int axis_number);
                AngularMotorJoint::RelativeOrientation getAxisRelativeOrientation(int axis_number); 

                void setAngle(int axis, Ogre::Real angle); 
                Ogre::Real getAngle(int axis); 
                Ogre::Real getAngleRate(int axis); 

                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);

                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);
        };

        /** Planar joints are for 2D physics in the x, y plane wth z=0
        */
        class _OgreOdeExport PlanarJoint:public Joint
        {
        public:
                PlanarJoint(World *world, const JointGroup* group = 0);
                ~PlanarJoint();

                virtual void setParameterX(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual void setParameterY(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual void setParameterAngle(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
        };
        
        
        /** A prismatic and rotoide joint (ODE_API JointPR) combines a Slider (prismatic) and a Hinge (rotoide). 
                It can be used to decrease the number of bodies in a simulation. 
                Usually you cannot attach 2 ODE joints together they need a body in between. 
                An example of use of this type of joint can be in the creation of a hydraulic piston.
                
                The 2 axies must not be parallel. Since this is a new joint only when the 2 joint are at 
                90deg of each other was fully tested.
        */
        class _OgreOdeExport SliderHingeJoint:public Joint
        {
        public:
                SliderHingeJoint(World *world, const JointGroup* group = 0);
                ~SliderHingeJoint();
                
                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                
                // Equivalent to getting the Slider's extension
                virtual Ogre::Real getPosition();
                virtual Ogre::Real getPositionRate();
                
                // Set the axis for the Slider articulation
                virtual void setAxis(const Ogre::Vector3& axis);
                // Get the axis for the Slider articulation
                virtual const Ogre::Vector3& getAxis();
                // Set the axis for the Hinge articulation. 
                virtual void setAdditionalAxis(const Ogre::Vector3& axis);
                // Get the axis for the Hinge articulation
                virtual const Ogre::Vector3& getAdditionalAxis();
                
                // Set joint parameter axis = 3 for Hinge
                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);
                
                // Applies the torque about the Hinge axis of the joint 
                virtual void addTorque(Ogre::Real torque, Ogre::Real torque2 = 0.0, Ogre::Real torque3 = 0.0);
        };
        
        
#if ODE_VERSION_MINOR > 9

        /** "A piston joint is similar to a Slider joint except that rotation around the translation axis is possible."
        */
        class _OgreOdeExport PistonJoint : public Joint
        {
        public:
                PistonJoint(World *world, const JointGroup* group = 0);
                
                // "The joint will try to keep the distance of this point fixed with respect to body2. 
                // The input is specified in world coordinates. 
                // If there is no body attached to the joint this function has not effect."
                virtual void setAnchor(const Ogre::Vector3& position);
                virtual const Ogre::Vector3& getAnchor();
                virtual const Ogre::Vector3& getAnchorError();
                
                virtual void setAxis(const Ogre::Vector3& axis);
                virtual const Ogre::Vector3& getAxis();
                // "This function set prismatic axis of the joint and also set the position of the joint."
                virtual void setAxisDelta(const Ogre::Vector3& axis, const Ogre::Vector3& initalPosition);
                
                // "Get the piston linear position.
                // When the anchor is set, the current position of body1 and the anchor is examined and that 
                // position will be the zero position"          
                virtual Ogre::Real getPosition();
                virtual Ogre::Real getPositionRate();
                
                // "Get the angle and the time derivative of this value. 
                // The angle is measured between the two bodies, or between the body and the static environment. 
                // The angle will be between -pi..pi. 
                // The only possible axis of rotation is the one defined by the dJointSetPistonAxis.
                // When the piston anchor or axis is set, the current position of the attached bodies is examined 
                // and that position will be the zero angle."
                virtual Ogre::Real getAngle();
                virtual Ogre::Real getAngleRate();
                
                // "This function create a force inside the piston and this force will be applied on the 2 bodies.
                // Then force is apply to the center of mass of each body and the orientation of the force vector is 
                // along the axis of the piston"
                // One axis so only the first force is used
                virtual void addForce(Ogre::Real force, Ogre::Real force2 = 0.0, Ogre::Real force3 = 0.0);
                
                // Set joint parameter
                virtual void setParameter(Joint::Parameter parameter, Ogre::Real value,int axis = 1);
                virtual Ogre::Real getParameter(Joint::Parameter parameter,int axis = 1);
        };

#endif /* ODE_VERSION_MINOR > 9 */

}

#endif