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flightgear/src/FDM/YASim/Hitch.cpp

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#include "Math.hpp"
#include "BodyEnvironment.hpp"
#include "RigidBody.hpp"
#include <string.h>
#include <sstream>
#include "Hitch.hpp"
namespace yasim {
Hitch::Hitch(const char *name)
{
int i;
strncpy(_name,name,128);
_name[127]=0;
for(i=0; i<3; i++)
_pos[i] = _force[i] = _winchPos[i] = _mp_lpos[i]=_towEndForce[i]=_mp_force[i]=0;
for(i=0; i<2; i++)
_global_ground[i] = 0;
_global_ground[2] = 1;
_global_ground[3] = -1e5;
_forceMagnitude=0;
_open=true;
_oldOpen=_open;
_towLength=60;
_towElasticConstant=1e5;
_towBrakeForce=100000;
_towWeightPerM=1;
_winchMaxSpeed=40;
_winchRelSpeed=0;
_winchInitialTowLength=1000;
_winchPower=100000;
_winchMaxForce=10000;
_winchActualForce=0;
_winchMaxTowLength=1000;
_winchMinTowLength=0;
_dist=0;
_towEndIsConnectedToProperty=false;
_towEndNode=0;
_nodeIsMultiplayer=false;
_nodeIsAiAircraft=false;
_forceIsCalculatedByMaster=false;
_nodeID=0;
//_ai_MP_callsign=0;
_height_above_ground=0;
_winch_height_above_ground=0;
_loPosFrac=0;
_lowest_tow_height=0;
_state=new State;
_displayed_len_lower_dist_message=false;
_last_wish=true;
_isSlave=false;
_mpAutoConnectPeriod=0;
_timeToNextAutoConnectTry=0;
_timeToNextReConnectTry=10;
_speed_in_tow_direction=0;
_mp_time_lag=1;
_mp_last_reported_dist=0;
_mp_last_reported_v=0;
_mp_is_slave=false;
_mp_open_last_state=false;
_timeLagCorrectedDist=0;
//tie the properties
char text[128];
sprintf(text,"/sim/hitches/%s", _name);
_node = fgGetNode(text, true);
_node->tie("tow/length",SGRawValuePointer<float>(&_towLength));
_node->tie("tow/elastic-constant",SGRawValuePointer<float>(&_towElasticConstant));
_node->tie("tow/weight-per-m-kg-m",SGRawValuePointer<float>(&_towWeightPerM));
_node->tie("tow/brake-force",SGRawValuePointer<float>(&_towBrakeForce));
_node->tie("winch/max-speed-m-s",SGRawValuePointer<float>(&_winchMaxSpeed));
_node->tie("winch/rel-speed",SGRawValuePointer<float>(&_winchRelSpeed));
_node->tie("winch/initial-tow-length-m",SGRawValuePointer<float>(&_winchInitialTowLength));
_node->tie("winch/min-tow-length-m",SGRawValuePointer<float>(&_winchMinTowLength));
_node->tie("winch/max-tow-length-m",SGRawValuePointer<float>(&_winchMaxTowLength));
_node->tie("winch/global-pos-x",SGRawValuePointer<double>(&_winchPos[0]));
_node->tie("winch/global-pos-y",SGRawValuePointer<double>(&_winchPos[1]));
_node->tie("winch/global-pos-z",SGRawValuePointer<double>(&_winchPos[2]));
_node->tie("winch/max-power",SGRawValuePointer<float>(&_winchPower));
_node->tie("winch/max-force",SGRawValuePointer<float>(&_winchMaxForce));
_node->tie("winch/actual-force",SGRawValuePointer<float>(&_winchActualForce));
_node->tie("tow/end-force-x",SGRawValuePointer<float>(&_reportTowEndForce[0]));
_node->tie("tow/end-force-y",SGRawValuePointer<float>(&_reportTowEndForce[1]));
_node->tie("tow/end-force-z",SGRawValuePointer<float>(&_reportTowEndForce[2]));
_node->tie("force",SGRawValuePointer<float>(&_forceMagnitude));
_node->tie("open",SGRawValuePointer<bool>(&_open));
_node->tie("force-is-calculated-by-other",SGRawValuePointer<bool>(&_forceIsCalculatedByMaster));
_node->tie("local-pos-x",SGRawValuePointer<float>(&_pos[0]));
_node->tie("local-pos-y",SGRawValuePointer<float>(&_pos[1]));
_node->tie("local-pos-z",SGRawValuePointer<float>(&_pos[2]));
_node->tie("tow/dist",SGRawValuePointer<float>(&_dist));
_node->tie("tow/dist-time-lag-corrected",SGRawValuePointer<float>(&_timeLagCorrectedDist));
_node->tie("tow/connected-to-property-node",SGRawValuePointer<bool>(&_towEndIsConnectedToProperty));
_node->tie("tow/connected-to-mp-node",SGRawValuePointer<bool>(&_nodeIsMultiplayer));
_node->tie("tow/connected-to-ai-node",SGRawValuePointer<bool>(&_nodeIsAiAircraft));
_node->tie("tow/connected-to-ai-or-mp-id",SGRawValuePointer<int>(&_nodeID));
_node->tie("debug/hitch-height-above-ground",SGRawValuePointer<float>(&_height_above_ground));
_node->tie("debug/tow-end-height-above-ground",SGRawValuePointer<float>(&_winch_height_above_ground));
_node->tie("debug/tow-rel-lo-pos",SGRawValuePointer<float>(&_loPosFrac));
_node->tie("debug/tow-lowest-pos-height",SGRawValuePointer<float>(&_lowest_tow_height));
_node->tie("is-slave",SGRawValuePointer<bool>(&_isSlave));
_node->tie("speed-in-tow-direction",SGRawValuePointer<float>(&_speed_in_tow_direction));
_node->tie("mp-auto-connect-period",SGRawValuePointer<float>(&_mpAutoConnectPeriod));
_node->tie("mp-time-lag",SGRawValuePointer<float>(&_mp_time_lag));
_node->setStringValue("tow/node","");
_node->setStringValue("tow/connected-to-ai-or-mp-callsign");
_node->setBoolValue("broken",false);
}
Hitch::~Hitch()
{
_node->untie("tow/length");
_node->untie("tow/elastic-constant");
_node->untie("tow/weight-per-m-kg-m");
_node->untie("tow/brake-force");
_node->untie("winch/max-speed-m-s");
_node->untie("winch/rel-speed");
_node->untie("winch/initial-tow-length-m");
_node->untie("winch/min-tow-length-m");
_node->untie("winch/max-tow-length-m");
_node->untie("winch/global-pos-x");
_node->untie("winch/global-pos-y");
_node->untie("winch/global-pos-z");
_node->untie("winch/max-power");
_node->untie("winch/max-force");
_node->untie("winch/actual-force");
_node->untie("tow/end-force-x");
_node->untie("tow/end-force-y");
_node->untie("tow/end-force-z");
_node->untie("force");
_node->untie("open");
_node->untie("force-is-calculated-by-other");
_node->untie("local-pos-x");
_node->untie("local-pos-y");
_node->untie("local-pos-z");
_node->untie("tow/dist");
_node->untie("tow/dist-time-lag-corrected");
_node->untie("tow/connected-to-property-node");
_node->untie("tow/connected-to-mp-node");
_node->untie("tow/connected-to-ai-node");
_node->untie("tow/connected-to-ai-or-mp-id");
_node->untie("debug/hitch-height-above-ground");
_node->untie("debug/tow-end-height-above-ground");
_node->untie("debug/tow-rel-lo-pos");
_node->untie("debug/tow-lowest-pos-height");
_node->untie("is-slave");
_node->untie("speed-in-tow-direction");
_node->untie("mp-auto-connect-period");
_node->untie("mp-time-lag");
delete _state;
}
void Hitch::setPosition(float* position)
{
int i;
for(i=0; i<3; i++) _pos[i] = position[i];
}
void Hitch::setTowLength(float length)
{
_towLength = length;
}
void Hitch::setOpen(bool isOpen)
{
//test if we already processed this before
//without this test a binded property could
//try to close the Hitch every run
//it will close, if we are near the end
//e.g. if we are flying over the parked
//tow-aircraft....
if (isOpen==_last_wish)
return;
_last_wish=isOpen;
_open=isOpen;
}
void Hitch::setTowElasticConstant(float sc)
{
_towElasticConstant=sc;
}
void Hitch::setTowBreakForce(float bf)
{
_towBrakeForce=bf;
}
void Hitch::setWinchMaxForce(float f)
{
_winchMaxForce=f;
}
void Hitch::setTowWeightPerM(float rw)
{
_towWeightPerM=rw;
}
void Hitch::setWinchMaxSpeed(float mws)
{
_winchMaxSpeed=mws;
}
void Hitch::setWinchRelSpeed(float rws)
{
_winchRelSpeed=rws;
}
void Hitch::setWinchPosition(double *winchPosition)//in global coordinates!
{
for (int i=0; i<3;i++)
_winchPos[i]=winchPosition[i];
}
void Hitch::setMpAutoConnectPeriod(float dt)
{
_mpAutoConnectPeriod=dt;
}
void Hitch::setForceIsCalculatedByOther(bool b)
{
_forceIsCalculatedByMaster=b;
}
const char *Hitch::getConnectedPropertyNode() const
{
if (_towEndNode)
return _towEndNode->getDisplayName();
else
return 0;
}
void Hitch::setConnectedPropertyNode(const char *nodename)
{
_towEndNode=fgGetNode(nodename,false);
}
void Hitch::setWinchPositionAuto(bool doit)
{
static bool lastState=false;
if(!_state)
return;
if (!doit)
{
lastState=false;
return;
}
if(lastState)
return;
lastState=true;
float lWinchPos[3];
// The ground plane transformed to the local frame.
float ground[4];
_state->planeGlobalToLocal(_global_ground, ground);
float help[3];
//find a normalized vector pointing forward parallel to the ground
help[0]=0;
help[1]=1;
help[2]=0;
Math::cross3(ground,help,help);
//multiplay by initial tow length;
//reduced by 1m to be able to close the
//hitch either if the glider slips backwards a bit
Math::mul3((_winchInitialTowLength-1.),help,help);
//add to the actual pos
Math::add3(_pos,help,lWinchPos);
//put it onto the ground plane
Math::mul3(ground[3],ground,help);
Math::add3(lWinchPos,help,lWinchPos);
_state->posLocalToGlobal(lWinchPos,_winchPos);
_towLength=_winchInitialTowLength;
fgGetNode("/sim/messages/pilot", true)->setStringValue("coonected to winch!");
_open=false;
_node->setBoolValue("broken",false);
//set the dist value (if not, the hitch would open in the next calcforce run
//float delta[3];
//Math::sub3(lWinchPos,_pos,delta);
//_dist=Math::mag3(delta);
_dist=Math::mag3(lWinchPos); //use the aircraft center as reference for distance calculation
//this position is transferred to the MP-Aircraft.
//With this trick, both player in aerotow get the same length
}
void Hitch::findBestAIObject(bool doit,bool running_as_autoconnect)
{
static bool lastState=false;
if(!_state)
return;
if (!doit)
{
lastState=false;
return;
}
if(lastState)
return;
lastState=true;
double gpos[3];
_state->posLocalToGlobal(_pos,gpos);
double bestdist=_towLength*_towLength;//squared!
_towEndIsConnectedToProperty=false;
SGPropertyNode * ainode = fgGetNode("/ai/models",false);
if(!ainode) return;
char myCallsign[256]="***********";
if (running_as_autoconnect)
{
//get own callsign
SGPropertyNode *cs=fgGetNode("/sim/multiplay/callsign",false);
if (cs)
{
strncpy(myCallsign,cs->getStringValue(),256);
myCallsign[255]=0;
}
//reset tow length for search radius. Lentgh will be later copied from master
_towLength=_winchInitialTowLength;
}
bool found=false;
vector <SGPropertyNode_ptr> nodes;//<SGPropertyNode_ptr>
for (int i=0;i<ainode->nChildren();i++)
{
SGPropertyNode * n=ainode->getChild(i);
_nodeIsMultiplayer = strncmp("multiplayer",n->getName(),11)==0;
_nodeIsAiAircraft = strncmp("aircraft",n->getName(),8)==0;
if (!(_nodeIsMultiplayer || _nodeIsAiAircraft))
continue;
if (running_as_autoconnect)
{
if (!_nodeIsMultiplayer)
continue;
if(n->getBoolValue("sim/hitches/aerotow/open",true)) continue;
if(strncmp(myCallsign,n->getStringValue("sim/hitches/aerotow/tow/connected-to-ai-or-mp-callsign"),255)!=0)
continue;
}
double pos[3];
pos[0]=n->getDoubleValue("position/global-x",0);
pos[1]=n->getDoubleValue("position/global-y",0);
pos[2]=n->getDoubleValue("position/global-z",0);
double dist=0;
for (int j=0;j<3;j++)
dist+=(pos[j]-gpos[j])*(pos[j]-gpos[j]);
if (dist<bestdist)
{
bestdist=dist;
_towEndNode=n;
_towEndIsConnectedToProperty=true;
//_node->setStringValue("tow/node",n->getPath());
_node->setStringValue("tow/node",n->getDisplayName());
_nodeID=n->getIntValue("id",0);
_node->setStringValue("tow/connected-to-ai-or-mp-callsign",n->getStringValue("callsign"));
_open=false;
found = true;
}
}
if (found)
{
if (!running_as_autoconnect)
{
std::stringstream message;
message<<_node->getStringValue("tow/connected-to-ai-or-mp-callsign")
<<", I am on your hook, distance "<<Math::sqrt(bestdist)<<"m";
fgGetNode("/sim/messages/pilot", true)->setStringValue(message.str().c_str());
}
else
{
std::stringstream message;
message<<_node->getStringValue("tow/connected-to-ai-or-mp-callsign")
<<": I am on your hook, distance "<<Math::sqrt(bestdist)<<"m";
fgGetNode("/sim/messages/ai-plane", true)->setStringValue(message.str().c_str());
}
if (running_as_autoconnect)
_isSlave=true;
//set the dist value to some value below the tow lentgh (if not, the hitch
//would open in the next calc force run
_dist=_towLength*0.5;
_mp_open_last_state=true;
}
else
if (!running_as_autoconnect)
{
fgGetNode("/sim/messages/atc", true)->setStringValue("Sorry, no aircraft for aerotow!");
}
}
void Hitch::setWinchInitialTowLength(float length)
{
_winchInitialTowLength=length;
}
void Hitch::setWinchPower(float power)
{
_winchPower=power;
}
void Hitch::setWinchMaxTowLength(float length)
{
_winchMaxTowLength=length;
}
void Hitch::setWinchMinTowLength(float length)
{
_winchMinTowLength=length;
}
void Hitch::setGlobalGround(double *global_ground, float *global_vel)
{
int i;
for(i=0; i<4; i++) _global_ground[i] = global_ground[i];
for(i=0; i<3; i++) _global_vel[i] = global_vel[i];
}
void Hitch::getPosition(float* out)
{
int i;
for(i=0; i<3; i++) out[i] = _pos[i];
}
float Hitch::getTowLength(void)
{
return _towLength;
}
void Hitch::calcForce(Ground *g_cb, RigidBody* body, State* s)
{
float lWinchPos[3],delta[3],deltaN[3];
*_state=*s;
s->posGlobalToLocal(_winchPos,lWinchPos);
Math::sub3(lWinchPos,_pos,delta);
//_dist=Math::mag3(delta);
_dist=Math::mag3(lWinchPos); //use the aircraft center as reference for distance calculation
//this position is transferred to the MP-Aircraft.
//With this trick, both player in aerotow get the same length
Math::unit3(delta,deltaN);
float lvel[3];
s->velGlobalToLocal(s->v,lvel);
_speed_in_tow_direction=Math::dot3(lvel,deltaN);
if (_towEndIsConnectedToProperty && _nodeIsMultiplayer)
{
float mp_delta_dist_due_to_time_lag=0.5*_mp_time_lag*(-_mp_v+_speed_in_tow_direction);
_timeLagCorrectedDist=_dist+mp_delta_dist_due_to_time_lag;
if(_forceIsCalculatedByMaster && !_open)
{
s->velGlobalToLocal(_mp_force,_force);
return;
}
}
else
_timeLagCorrectedDist=_dist;
if (_open)
{
_force[0]=_force[1]=_force[2]=0;
return;
}
if(_dist>_towLength)
if(_towLength>1e-3)
_forceMagnitude=(_dist-_towLength)/_towLength*_towElasticConstant;
else
_forceMagnitude=2*_towBrakeForce;
else
_forceMagnitude=0;
if(_forceMagnitude>=_towBrakeForce)
{
_forceMagnitude=0;
_open=true;
_node->setBoolValue("broken",true);
_force[0]=_force[1]=_force[2]=0;
_towEndForce[0]=_towEndForce[1]=_towEndForce[2]=0;
_reportTowEndForce[0]=_reportTowEndForce[1]=_reportTowEndForce[2]=0;
return;
}
Math::mul3(_forceMagnitude,deltaN,_force);
Math::mul3(-1.,_force,_towEndForce);
_winchActualForce=_forceMagnitude; //missing: gravity on this end and friction
//Add the gravitiy of the rope.
//calculate some numbers:
float grav_force=_towWeightPerM*_towLength*9.81;
//the length of the gravity-expanded row:
float leng=_towLength+grav_force*_towLength/_towElasticConstant;
// The ground plane transformed to the local frame.
float ground[4];
s->planeGlobalToLocal(_global_ground, ground);
// The velocity of the contact patch transformed to local coordinates.
//float glvel[3];
//s->velGlobalToLocal(_global_vel, glvel);
_height_above_ground = ground[3] - Math::dot3(_pos, ground);
//the same for the winch-pos (the pos of the tow end)
_winch_height_above_ground = ground[3] - Math::dot3(lWinchPos, ground);
//the frac of the grav force acting on _pos:
float grav_frac=0.5*(1+(_height_above_ground-_winch_height_above_ground)/leng);
grav_frac=Math::clamp(grav_frac,0,1);
float grav_frac_tow_end=1-grav_frac;
//reduce grav_frac, if the tow has ground contact.
if (_height_above_ground<leng) //if not, the tow can not be on ground
{
float fa[3],fb[3],fg[3];
//the grav force an the hitch position:
Math::mul3(-grav_frac*grav_force,ground,fg);
//the total force on hitch postion:
Math::add3(fg,_force,fa);
//the grav force an the tow end position:
Math::mul3(-(1-grav_frac)*grav_force,ground,fg);
//the total force on tow end postion:
//note: sub: _force on tow-end is negative of force on hitch postion
Math::sub3(fg,_force,fb);
float fa_=Math::mag3(fa);
float fb_=Math::mag3(fb);
float stretchedTowLen;
stretchedTowLen=_towLength*(1.+(fa_+fb_)/(2*_towElasticConstant));
//the relative position of the lowest postion of the tow:
if ((fa_+fb_)>1e-3)
_loPosFrac=fa_/(fa_+fb_);
else
_loPosFrac=0.5;
//dist to tow-end parallel to ground
float ground_dist;
float help[3];
//Math::cross3(delta,ground,help);//as long as we calculate the dist without _pos, od it with lWinchpos, the dist to our center....
Math::cross3(lWinchPos,ground,help);
ground_dist=Math::mag3(help);
//height of lowest tow pos (relative to _pos)
_lowest_tow_height=_loPosFrac*Math::sqrt(Math::abs(stretchedTowLen*stretchedTowLen-ground_dist*ground_dist));
if (_height_above_ground<_lowest_tow_height)
{
if (_height_above_ground>1e-3)
grav_frac*=_height_above_ground/_lowest_tow_height;
else
grav_frac=0;
}
if (_winch_height_above_ground<(_lowest_tow_height-_height_above_ground+_winch_height_above_ground))
{
if (_winch_height_above_ground>1e-3)
grav_frac_tow_end*=_winch_height_above_ground/
(_lowest_tow_height-_height_above_ground+_winch_height_above_ground);
else
grav_frac_tow_end=0;
}
}
else _lowest_tow_height=_loPosFrac=-1; //for debug output
float grav_force_v[3];
Math::mul3(grav_frac*grav_force,ground,grav_force_v);
Math::add3(grav_force_v,_force,_force);
_forceMagnitude=Math::mag3(_force);
//the same for the tow end:
Math::mul3(grav_frac_tow_end*grav_force,ground,grav_force_v);
Math::add3(grav_force_v,_towEndForce,_towEndForce);
s->velLocalToGlobal(_towEndForce,_towEndForce);
if(_forceMagnitude>=_towBrakeForce)
{
_forceMagnitude=0;
_open=true;
_node->setBoolValue("broken",true);
_force[0]=_force[1]=_force[2]=0;
_towEndForce[0]=_towEndForce[1]=_towEndForce[2]=0;
}
}
// Computed values: total force
void Hitch::getForce(float* force, float* off)
{
Math::set3(_force, force);
Math::set3(_pos, off);
}
void Hitch::integrate (float dt)
{
//check if hitch has opened or closed, if yes: message
if (_open !=_oldOpen)
{
if (_oldOpen)
{
if (_dist>_towLength*1.00001)
{
std::stringstream message;
message<<"Could not lock Hitch (tow length is insufficient) on hitch '"<<_name<<"' !";
fgGetNode("/sim/messages/pilot", true)->setStringValue(message.str().c_str());
_open=true;
return;
}
_node->setBoolValue("broken",false);
}
std::stringstream message;
if (_node->getBoolValue("broken",false)&&_open)
message<<"Oh no, the tow is broken";
else
message<<(_open?"Opened hitch '":"Locked hitch '")<<_name<<"' !";
fgGetNode("/sim/messages/pilot", true)->setStringValue(message.str().c_str());
_oldOpen=_open;
}
//check, if tow end should be searched in all MP-aircrafts
if(_open && _mpAutoConnectPeriod)
{
_isSlave=false;
_timeToNextAutoConnectTry-=dt;
if ((_timeToNextAutoConnectTry>_mpAutoConnectPeriod) || (_timeToNextAutoConnectTry<0))
{
_timeToNextAutoConnectTry=_mpAutoConnectPeriod;
//search for MP-Aircraft, which is towed with us
findBestAIObject(true,true);
}
}
//check, if tow end can be modified by property, if yes: update
if(_towEndIsConnectedToProperty)
{
if (_node)
{
//_towEndNode=fgGetNode(_node->getStringValue("tow/node"), false);
char towNode[256];
strncpy(towNode,_node->getStringValue("tow/node"),256);
towNode[255]=0;
_towEndNode=fgGetNode("ai/models")->getNode(towNode, false);
//AI and multiplayer objects seem to change node?
//Check if we have the right one by callsign
if (_nodeIsMultiplayer || _nodeIsAiAircraft)
{
char MPcallsign[256]="";
const char *MPc;
MPc=_node->getStringValue("tow/connected-to-ai-or-mp-callsign");
if (MPc)
{
strncpy(MPcallsign,MPc,256);
MPcallsign[255]=0;
}
if (((_towEndNode)&&(strncmp(_towEndNode->getStringValue("callsign"),MPcallsign,255)!=0))||!_towEndNode)
{
_timeToNextReConnectTry-=dt;
if((_timeToNextReConnectTry<0)||(_timeToNextReConnectTry>10))
{
_timeToNextReConnectTry=10;
SGPropertyNode * ainode = fgGetNode("/ai/models",false);
if(ainode)
{
for (int i=0;i<ainode->nChildren();i++)
{
SGPropertyNode * n=ainode->getChild(i);
if(_nodeIsMultiplayer?strncmp("multiplayer",n->getName(),11)==0:strncmp("aircraft",n->getName(),8))
if (strcmp(n->getStringValue("callsign"),MPcallsign)==0)//found
{
_towEndNode=n;
//_node->setStringValue("tow/node",n->getPath());
_node->setStringValue("tow/node",n->getDisplayName());
}
}
}
}
}
}
if(_towEndNode)
{
_winchPos[0]=_towEndNode->getDoubleValue("position/global-x",_winchPos[0]);
_winchPos[1]=_towEndNode->getDoubleValue("position/global-y",_winchPos[1]);
_winchPos[2]=_towEndNode->getDoubleValue("position/global-z",_winchPos[2]);
_mp_lpos[0]=_towEndNode->getFloatValue("sim/hitches/aerotow/local-pos-x",0);
_mp_lpos[1]=_towEndNode->getFloatValue("sim/hitches/aerotow/local-pos-y",0);
_mp_lpos[2]=_towEndNode->getFloatValue("sim/hitches/aerotow/local-pos-z",0);
_mp_dist=_towEndNode->getFloatValue("sim/hitches/aerotow/tow/dist");
_mp_v=_towEndNode->getFloatValue("sim/hitches/aerotow/speed-in-tow-direction");
_mp_force[0]=_towEndNode->getFloatValue("sim/hitches/aerotow/tow/end-force-x",0);
_mp_force[1]=_towEndNode->getFloatValue("sim/hitches/aerotow/tow/end-force-y",0);
_mp_force[2]=_towEndNode->getFloatValue("sim/hitches/aerotow/tow/end-force-z",0);
if(_isSlave)
{
#define gf(a,b) a=_towEndNode->getFloatValue(b,a)
#define gb(a,b) a=_towEndNode->getBoolValue(b,a)
gf(_towLength,"sim/hitches/aerotow/tow/length");
gf(_towElasticConstant,"sim/hitches/aerotow/tow/elastic-constant");
gf(_towWeightPerM,"sim/hitches/aerotow/tow/weight-per-m-kg-m");
gf(_towBrakeForce,"sim/hitches/aerotow/brake-force");
gb(_open,"sim/hitches/aerotow/open");
gb(_mp_is_slave,"sim/hitches/aerotow/is-slave");
#undef gf
#undef gb
if (_mp_is_slave) _isSlave=false; //someone should be master
}
else
{
//check if other has opened hitch, but is neccessary, that it was closed before
bool mp_open=_towEndNode->getBoolValue("sim/hitches/aerotow/open",_mp_open_last_state);
if (mp_open != _mp_open_last_state) //state has changed
{
_mp_open_last_state=mp_open; //store that value
if(!_open)
{
if(mp_open)
{
_oldOpen=_open=true;
std::stringstream message;
message<<_node->getStringValue("tow/connected-to-ai-or-mp-callsign")
<<": I have released the tow!";
fgGetNode("/sim/messages/ai-plane", true)->setStringValue(message.str().c_str());
}
}
}
}
//try to calculate the time lag
if ((_mp_last_reported_dist!=_mp_dist)||(_mp_last_reported_v!=_mp_v)) //new data;
{
_mp_last_reported_dist=_mp_dist;
_mp_last_reported_v=_mp_v;
float total_v=-_mp_v+_speed_in_tow_direction;//mp has opposite tow direction
float abs_v=Math::abs(total_v);
if (abs_v>0.1)
{
float actual_time_lag_guess=(_mp_dist-_dist)/total_v;
//check, if it sounds ok
if((actual_time_lag_guess>0)&&(actual_time_lag_guess<5))
{
float frac=abs_v*0.01;
if (frac>0.05) frac=0.05;
// if we are slow, the guess of the lag can be rather wrong. as faster we are
// the better the guess. Therefore frac is proportiona to the speed. Clamp it
// at 5m/s
_mp_time_lag=(1-frac)*_mp_time_lag+frac*actual_time_lag_guess;
}
}
}
}
}
}
//set the _reported_tow_end_force (smoothed)
//smooth it a bit and store it
float sc=10.*dt; //100ms
float tmp[3];
Math::mul3(sc,_towEndForce,tmp);
Math::mul3(1.-sc,_reportTowEndForce,_reportTowEndForce);
Math::add3(tmp,_reportTowEndForce,_reportTowEndForce);
if (_open) return;
if (_winchRelSpeed==0) return;
float factor=1,offset=0;
if (_winchActualForce>_winchMaxForce)
offset=-(_winchActualForce-_winchMaxForce)/_winchMaxForce*20;
if (_winchRelSpeed>0.01) // to avoit div by zero
{
float maxForcePowerLimit=_winchPower/(_winchRelSpeed*_winchMaxSpeed);
if (_winchActualForce>maxForcePowerLimit)
factor-=(_winchActualForce-maxForcePowerLimit)/maxForcePowerLimit;
}
_towLength-=dt*(factor*_winchRelSpeed+offset)*_winchMaxSpeed;
if (_towLength<=_winchMinTowLength)
{
if (_winchRelSpeed<0)
_winchRelSpeed=0;
_towLength=_winchMinTowLength;
return;
}
if (_towLength>=_winchMaxTowLength)
{
if (_winchRelSpeed<0)
_winchRelSpeed=0;
_towLength=_winchMaxTowLength;
return;
}
}
}; // namespace yasim