flightgear/src/FDM/YASim/Rotorpart.hpp

#ifndef _ROTORPART_HPP
#define _ROTORPART_HPP
#include <iosfwd>

namespace yasim {
    class Rotor;
    class Rotorpart
    {
        friend std::ostream &  operator<<(std::ostream & out, const Rotorpart& rp);
    private:
        float _dt;
        float _last_torque[3];
        int _compiled;
    public:
        Rotorpart();

        // Position of this surface in local coords
        void setPosition(float* p);
        void getPosition(float* out);
        void setCompiled() {_compiled=1;}
        float getDt() {return _dt;}
        void setPositionForceAttac(float* p);
        void getPositionForceAttac(float* out);
        void setNormal(float* p);
        void getNormal(float* out);
        void setCollective(float pos);
        void setCyclic(float pos);
        void getLastTorque(float *t)
            {for (int i=0;i<3;i++) t[i]=_last_torque[i];}
        void getAccelTorque(float relaccel,float *t);
        void setSpeed(float* p);
        void setDirectionofZentipetalforce(float* p);
        void setDirectionofRotorPart(float* p);
        void setZentipetalForce(float f);
        void setMaxpitch(float f);
        void setMinpitch(float f);
        void setMaxcyclic(float f);
        void setMincyclic(float f);
        void setDelta3(float f);
        void setDynamic(float f);
        void setTranslift(float f);
        void setC2(float f);
        void setZentForce(float f);
        void setRelLenHinge(float f);
        void setRelamp(float f);
        void setDiameter(float f);
        float getAlpha(int i);
        float getrealAlpha(void);
        char* getAlphaoutput(int i);
        void setAlphaoutput(char *text,int i);
        void inititeration(float dt,float *rot);
        float getWeight(void);
        void setWeight(float value);
        void calcForce(float* v, float rho, float* forceOut, float* torqueOut,
            float* torque_scalar);
        float calculateAlpha(float* v, float rho, float incidence, float cyc,
            float alphaalt, float *torque,float *returnlift=0);
        void setlastnextrp(Rotorpart*lastrp,Rotorpart*nextrp,
            Rotorpart *oppositerp,Rotorpart*last90rp,Rotorpart*next90rp);
        void setTorque(float torque_max_force,float torque_no_force);
        void setOmega(float value);
        void setOmegaN(float value);
        void setPhi(float value);
        void setDdtOmega(float value);
        float getIncidence();
        float getPhi();
        void setAlphamin(float f);
        void setAlphamax(float f);
        void setAlpha0(float f);
        void setAlpha0factor(float f);
        void setLen(float value);
        void setParameter(char *parametername, float value);
        void setRotor(Rotor *rotor);
        void setTorqueOfInertia(float toi);
        void writeInfo(std::ostringstream &buffer);
        void setSharedFlapHinge(bool s);
        void setDirection(float direction);
        float getAlphaAlt() {return _alphaalt;}

    private:
        void strncpy(char *dest,const char *src,int maxlen);
        Rotorpart *_lastrp,*_nextrp,*_oppositerp,*_last90rp,*_next90rp;
        Rotor *_rotor;

        float _pos[3];    // position in local coords
        float _posforceattac[3];    // position in local coords
        float _normal[3]; //direcetion of the rotation axis
        float _torque_max_force;
        float _torque_no_force;
        float _speed[3];
        float _direction_of_movement[3];
        float _directionofcentripetalforce[3];
        float _directionofrotorpart[3];
        float _centripetalforce;
        float _cyclic;
        float _collective;
        float _delta3;
        float _dynamic;
        float _translift;
        float _c2;
        float _mass;
        float _alpha;
        float _alphaalt;
        float _alphamin,_alphamax,_alpha0,_alpha0factor;
        float _rellenhinge;
        float _relamp;
        float _omega,_omegan,_ddt_omega;
        float _phi;
        float _len;
        float _incidence;
        float _twist; //outer incidence = inner inner incidence + _twist
        int _number_of_segments;
        float _rel_len_where_incidence_is_measured;
        float _rel_len_blade_start;
        float _diameter;
        float _torque_of_inertia;
        float _torque; 
        // total torque of rotor (scalar) for calculating new rotor rpm
        char _alphaoutputbuf[2][256];
        int _alpha2type;
        float _rotor_correction_factor;
        bool _shared_flap_hinge;
        float _direction;
        float _balance;
    };
    std::ostream &  operator<<(std::ostream & out, const Rotorpart& rp);
}; // namespace yasim
#endif // _ROTORPART_HPP
Initial revision. Maik Justus: First pass at helicopter support for YASim. 2003-10-16 14:40:13 +00:00			`#ifndef _ROTORPART_HPP`
			`#define _ROTORPART_HPP`
Clean up header file use of iostream and "using" declarations Replace include <iostream> with istream, ostream and/or iosfwd as appropriate. Remove using namespace std and using std::foo from header files. 2008-06-02 21:09:51 +00:00			`#include <iosfwd>`

Initial revision. Maik Justus: First pass at helicopter support for YASim. 2003-10-16 14:40:13 +00:00			`namespace yasim {`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`class Rotor;`
			`class Rotorpart`
			`{`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`friend std::ostream & operator<<(std::ostream & out, const Rotorpart& rp);`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`private:`
			`float _dt;`
			`float _last_torque[3];`
			`int _compiled;`
			`public:`
			`Rotorpart();`

			`// Position of this surface in local coords`
			`void setPosition(float* p);`
			`void getPosition(float* out);`
			`void setCompiled() {_compiled=1;}`
			`float getDt() {return _dt;}`
			`void setPositionForceAttac(float* p);`
			`void getPositionForceAttac(float* out);`
			`void setNormal(float* p);`
			`void getNormal(float* out);`
			`void setCollective(float pos);`
			`void setCyclic(float pos);`
			`void getLastTorque(float *t)`
			`{for (int i=0;i<3;i++) t[i]=_last_torque[i];}`
			`void getAccelTorque(float relaccel,float *t);`
			`void setSpeed(float* p);`
			`void setDirectionofZentipetalforce(float* p);`
			`void setDirectionofRotorPart(float* p);`
			`void setZentipetalForce(float f);`
			`void setMaxpitch(float f);`
			`void setMinpitch(float f);`
			`void setMaxcyclic(float f);`
			`void setMincyclic(float f);`
			`void setDelta3(float f);`
			`void setDynamic(float f);`
			`void setTranslift(float f);`
			`void setC2(float f);`
			`void setZentForce(float f);`
			`void setRelLenHinge(float f);`
			`void setRelamp(float f);`
			`void setDiameter(float f);`
			`float getAlpha(int i);`
			`float getrealAlpha(void);`
			`char* getAlphaoutput(int i);`
			`void setAlphaoutput(char *text,int i);`
			`void inititeration(float dt,float *rot);`
			`float getWeight(void);`
			`void setWeight(float value);`
			`void calcForce(float* v, float rho, float* forceOut, float* torqueOut,`
			`float* torque_scalar);`
			`float calculateAlpha(float* v, float rho, float incidence, float cyc,`
			`float alphaalt, float torque,float returnlift=0);`
			`void setlastnextrp(Rotorpartlastrp,Rotorpartnextrp,`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`Rotorpart oppositerp,Rotorpartlast90rp,Rotorpart*next90rp);`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`void setTorque(float torque_max_force,float torque_no_force);`
			`void setOmega(float value);`
			`void setOmegaN(float value);`
Maik JUSTUS: "minor update for the rotor FDM. It results in a more realistic calculation of the phase shift of rotor and therefor in a little bit more realistic flight behavior. (Additionally you can modify the initial position of the rotor and some (not finished) modifications for the jet ranger rotor)." 2007-05-09 20:36:43 +00:00			`void setPhi(float value);`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`void setDdtOmega(float value);`
			`float getIncidence();`
			`float getPhi();`
			`void setAlphamin(float f);`
			`void setAlphamax(float f);`
			`void setAlpha0(float f);`
			`void setAlpha0factor(float f);`
			`void setLen(float value);`
			`void setParameter(char *parametername, float value);`
			`void setRotor(Rotor *rotor);`
			`void setTorqueOfInertia(float toi);`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`void writeInfo(std::ostringstream &buffer);`
Maik JUSTUS: "minor update for the rotor FDM. It results in a more realistic calculation of the phase shift of rotor and therefor in a little bit more realistic flight behavior. (Additionally you can modify the initial position of the rotor and some (not finished) modifications for the jet ranger rotor)." 2007-05-09 20:36:43 +00:00			`void setSharedFlapHinge(bool s);`
Maik: add unbalance and testing of rotor ground contact 2007-05-25 21:15:59 +00:00			`void setDirection(float direction);`
Maik JUSTUS: "minor update for the rotor FDM. It results in a more realistic calculation of the phase shift of rotor and therefor in a little bit more realistic flight behavior. (Additionally you can modify the initial position of the rotor and some (not finished) modifications for the jet ranger rotor)." 2007-05-09 20:36:43 +00:00			`float getAlphaAlt() {return _alphaalt;}`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00
			`private:`
			`void strncpy(char dest,const char src,int maxlen);`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`Rotorpart _lastrp,_nextrp,_oppositerp,_last90rp,*_next90rp;`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`Rotor *_rotor;`

			`float _pos[3]; // position in local coords`
			`float _posforceattac[3]; // position in local coords`
			`float _normal[3]; //direcetion of the rotation axis`
			`float _torque_max_force;`
			`float _torque_no_force;`
			`float _speed[3];`
			`float _direction_of_movement[3];`
Maik JUSTUS: rotor bending fix 2007-01-17 20:30:34 +00:00			`float _directionofcentripetalforce[3];`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`float _directionofrotorpart[3];`
Maik JUSTUS: rotor bending fix 2007-01-17 20:30:34 +00:00			`float _centripetalforce;`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`float _cyclic;`
			`float _collective;`
			`float _delta3;`
			`float _dynamic;`
			`float _translift;`
			`float _c2;`
			`float _mass;`
			`float _alpha;`
			`float _alphaalt;`
			`float _alphamin,_alphamax,_alpha0,_alpha0factor;`
			`float _rellenhinge;`
			`float _relamp;`
			`float _omega,_omegan,_ddt_omega;`
			`float _phi;`
			`float _len;`
			`float _incidence;`
			`float _twist; //outer incidence = inner inner incidence + _twist`
			`int _number_of_segments;`
			`float _rel_len_where_incidence_is_measured;`
			`float _rel_len_blade_start;`
			`float _diameter;`
			`float _torque_of_inertia;`
			`float _torque;`
			`// total torque of rotor (scalar) for calculating new rotor rpm`
			`char _alphaoutputbuf[2][256];`
			`int _alpha2type;`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`float _rotor_correction_factor;`
Maik JUSTUS: "minor update for the rotor FDM. It results in a more realistic calculation of the phase shift of rotor and therefor in a little bit more realistic flight behavior. (Additionally you can modify the initial position of the rotor and some (not finished) modifications for the jet ranger rotor)." 2007-05-09 20:36:43 +00:00			`bool _shared_flap_hinge;`
Maik: add unbalance and testing of rotor ground contact 2007-05-25 21:15:59 +00:00			`float _direction;`
			`float _balance;`
Giant helicopter code update from Maik Justus. 2006-08-14 21:59:44 +00:00			`};`
Helicopter update from Maik: More realistic calculation of vortices at the blades and therefore real airfoil parameters can be used now (not to be mixed up with the vortex ring state which is still not simulated), ground effect is now continuous e. g. at buildings, calculating of the rotor in more than 4 directions, better documentation of the airfoil parameters. 2006-09-14 18:18:33 +00:00			`std::ostream & operator<<(std::ostream & out, const Rotorpart& rp);`
Initial revision. Maik Justus: First pass at helicopter support for YASim. 2003-10-16 14:40:13 +00:00			`}; // namespace yasim`
			`#endif // _ROTORPART_HPP`