X-Git-Url: https://git.mxchange.org/?a=blobdiff_plain;f=src%2FFDM%2FYASim%2FRotor.cpp;h=2a93a4457f4be5e9468ddad21d4784c31f455a4d;hb=d66903e9ad63b91182ccc25d9bb82f18f8dd98b6;hp=5e2bf4b4cf451fb0a80957a6bf30697a264ca036;hpb=57918533eb6f58543b8343081dba059a289c36c1;p=flightgear.git diff --git a/src/FDM/YASim/Rotor.cpp b/src/FDM/YASim/Rotor.cpp index 5e2bf4b4c..2a93a4457 100644 --- a/src/FDM/YASim/Rotor.cpp +++ b/src/FDM/YASim/Rotor.cpp @@ -8,10 +8,10 @@ #include "Ground.hpp" #include "Rotor.hpp" -#include STL_IOSTREAM -#include STL_IOMANIP +#include +#include -SG_USING_STD(setprecision); +using std::setprecision; #ifdef TEST_DEBUG #include @@ -699,7 +699,7 @@ void Rotor::setGlobalGround(double *global_ground, float* global_vel) for(i=0; i<4; i++) _global_ground[i] = global_ground[i]; } -void Rotor::setParameter(char *parametername, float value) +void Rotor::setParameter(const char *parametername, float value) { #define p(a,b) if (strcmp(parametername,#a)==0) _##a = (value * (b)); else p(translift_ve,1) @@ -794,7 +794,6 @@ void Rotor::setCyclicail(float lval,float rval) void Rotor::setRotorBalance(float lval) { lval = Math::clamp(lval, -1, 1); - int i; _balance2 = lval; } @@ -819,7 +818,7 @@ void Rotor::calcLiftFactor(float* v, float rho, State *s) _f_ge=1+_diameter/_ground_effect_altitude*_ground_effect_constant; // Now calculate translational lift - float v_vert = Math::dot3(v,_normal); + // float v_vert = Math::dot3(v,_normal); float help[3]; Math::cross3(v,_normal,help); float v_horiz = Math::mag3(help); @@ -830,6 +829,7 @@ void Rotor::calcLiftFactor(float* v, float rho, State *s) //store the gravity direction Glue::geodUp(s->pos, _grav_direction); + s->velGlobalToLocal(_grav_direction, _grav_direction); } void Rotor::findGroundEffectAltitude(Ground * ground_cb,State *s) @@ -1181,7 +1181,7 @@ void Rotor::compile() * _diameter * _rel_blade_center * _rel_blade_center /(0.5*0.5); float speed=_rotor_rpm/60*_diameter*_rel_blade_center*pi; float lentocenter=_diameter*_rel_blade_center*0.5; - float lentoforceattac=_diameter*_rel_len_hinge*0.5; + // float lentoforceattac=_diameter*_rel_len_hinge*0.5; float zentforce=rotorpartmass*speed*speed/lentocenter; float pitchaforce=_force_at_pitch_a/_number_of_parts*.453*9.81; // was pounds of force, now N, devided by _number_of_parts @@ -1196,8 +1196,8 @@ void Rotor::compile() float relamp=(omega*omega/(2*_delta*Math::sqrt(sqr(omega0*omega0-omega*omega) +4*_delta*_delta*omega*omega)))*_cyclic_factor; - float relamp_theoretical=(omega*omega/(2*delta_theoretical*Math::sqrt(sqr(omega0*omega0-omega*omega) - +4*delta_theoretical*delta_theoretical*omega*omega)))*_cyclic_factor; + //float relamp_theoretical=(omega*omega/(2*delta_theoretical*Math::sqrt(sqr(omega0*omega0-omega*omega) + // +4*delta_theoretical*delta_theoretical*omega*omega)))*_cyclic_factor; _phi=Math::acos(_rel_len_hinge); _phi-=Math::atan(_delta3); if (!_no_torque) @@ -1528,7 +1528,7 @@ void Rotorgear::calcForces(float* torqueOut) total_torque+=r->getTorque()*omegan; } float max_torque_of_engine=0; - SGPropertyNode * node=fgGetNode("/rotors/gear", true); + // SGPropertyNode * node=fgGetNode("/rotors/gear", true); if (_engineon) { max_torque_of_engine=_max_power_engine*_max_rel_torque; @@ -1599,7 +1599,7 @@ void Rotorgear::calcForces(float* torqueOut) for(j=0; j<_rotors.size(); j++) { Rotor* r = (Rotor*)_rotors.get(j); for(i=0; i_rotorparts.size(); i++) { - float torque_scalar=0; + // float torque_scalar=0; Rotorpart* rp = (Rotorpart*)r->_rotorparts.get(i); float torque[3]; rp->getAccelTorque(_ddt_omegarel,torque); @@ -1619,7 +1619,7 @@ void Rotorgear::addRotor(Rotor* rotor) void Rotorgear::compile() { - float wgt = 0; + // float wgt = 0; for(int j=0; j<_rotors.size(); j++) { Rotor* r = (Rotor*)_rotors.get(j); r->compile();