source: flair-src/trunk/demos/SimpleFleet/uav/src/SimpleFleet.cpp@ 431

//  created:    2015/11/05

//  filename:   SimpleFleet.cpp

//

//  author:     Guillaume Sanahuja

//              Copyright Heudiasyc UMR UTC/CNRS 7253

//

//  version:    $Id: $

//

//  purpose:    demo fleet

//

//

/*********************************************************************/



#include "SimpleFleet.h"

#include <TargetController.h>

#include <Uav.h>

#include <GridLayout.h>

#include <PushButton.h>

#include <DataPlot1D.h>

#include <Ahrs.h>

#include <MetaUsRangeFinder.h>

#include <MetaDualShock3.h>

#include <FrameworkManager.h>

#include <VrpnClient.h>

#include <MetaVrpnObject.h>

#include <TrajectoryGenerator2DCircle.h>

#include <Vector3D.h>

#include <Vector2D.h>

#include <PidThrust.h>

#include <Euler.h>

#include <Matrix.h>

#include <AhrsData.h>

#include <Ahrs.h>

#include <DoubleSpinBox.h>

#include <stdio.h>

#include <cmath>

#include <Tab.h>

#include <Pid.h>

#include <UdpSocket.h>

#include <string.h>



#define PI ((float)3.14159265358979323846)



using namespace std;

using namespace flair::core;

using namespace flair::gui;

using namespace flair::sensor;

using namespace flair::filter;

using namespace flair::meta;





SimpleFleet::SimpleFleet(string broadcast,TargetController *controller): UavStateMachine(controller), behaviourMode(BehaviourMode_t::Default), vrpnLost(false) {

    Uav* uav=GetUav();

                

        VrpnClient* vrpnclient=new VrpnClient("vrpn", uav->GetDefaultVrpnAddress(),80,uav->GetDefaultVrpnConnectionType());

    if(vrpnclient->ConnectionType()==VrpnClient::Xbee) {

        uavVrpn = new MetaVrpnObject(uav->ObjectName(),(uint8_t)0);

    } else if (vrpnclient->ConnectionType()==VrpnClient::Vrpn) {

        uavVrpn = new MetaVrpnObject(uav->ObjectName());

    } else if (vrpnclient->ConnectionType()==VrpnClient::VrpnLite) {

        uavVrpn = new MetaVrpnObject(uav->ObjectName());

    }

        getFrameworkManager()->AddDeviceToLog(uavVrpn);

        uav->GetAhrs()->YawPlot()->AddCurve(uavVrpn->State()->Element(2),DataPlot::Green);

        vrpnclient->Start();



    circle=new TrajectoryGenerator2DCircle(vrpnclient->GetLayout()->NewRow(),"circle");

    uavVrpn->xPlot()->AddCurve(circle->GetMatrix()->Element(0,0),0,0,255);

    uavVrpn->yPlot()->AddCurve(circle->GetMatrix()->Element(0,1),0,0,255);

    uavVrpn->VxPlot()->AddCurve(circle->GetMatrix()->Element(1,0),0,0,255);

    uavVrpn->VyPlot()->AddCurve(circle->GetMatrix()->Element(1,1),0,0,255);



    xCircleCenter=new DoubleSpinBox(vrpnclient->GetLayout()->NewRow(),"x circle center"," m",-5,5,0.1,1,0);

    yCircleCenter=new DoubleSpinBox(vrpnclient->GetLayout()->NewRow(),"y circle center"," m",-5,5,0.1,1,0);

    yDisplacement=new DoubleSpinBox(vrpnclient->GetLayout()->NewRow(),"y displacement"," m",0,2,0.1,1,0);



    //parent->AddDeviceToLog(Uz());



    u_x=new Pid(setupLawTab->At(1,0),"u_x");

    u_x->UseDefaultPlot(graphLawTab->NewRow());

    u_y=new Pid(setupLawTab->At(1,1),"u_y");

    u_y->UseDefaultPlot(graphLawTab->LastRowLastCol());



    message=new UdpSocket(uav,"Message",broadcast,true);



    customReferenceOrientation= new AhrsData(this,"reference");

    uav->GetAhrs()->AddPlot(customReferenceOrientation,DataPlot::Yellow);

    AddDataToControlLawLog(customReferenceOrientation);



    customOrientation=new AhrsData(this,"orientation");

/*

    //check init conditions

    Vector3D uav_pos;

    Euler vrpn_euler;

    GetVrpnObject()->GetPosition(uav_pos);

    GetVrpnObject()->GetEuler(vrpn_euler);



    if(name=="x8_0") {

        //x8_0 should be on the left, with 0 yaw

        if(uav_pos.y>yCircleCenter->Value() || vrpn_euler.yaw>20 || vrpn_euler.yaw<-20) Thread::Err("wrong init position\n");

    }

    if(name=="x8_1") {

        //x8_1 should be on the right, with 180 yaw

        if(uav_pos.y<yCircleCenter->Value() || (vrpn_euler.yaw<160 && vrpn_euler.yaw>-160)) Thread::Err("wrong init position %f %f\n",yCircleCenter->Value(),vrpn_euler.yaw);

    }

    */

}



SimpleFleet::~SimpleFleet() {

}



const AhrsData *SimpleFleet::GetOrientation(void) const {

    //get yaw from vrpn

                Quaternion vrpnQuaternion;

    uavVrpn->GetQuaternion(vrpnQuaternion);



    //get roll, pitch and w from imu

    Quaternion ahrsQuaternion;

    Vector3Df ahrsAngularSpeed;

    GetDefaultOrientation()->GetQuaternionAndAngularRates(ahrsQuaternion, ahrsAngularSpeed);



    Euler ahrsEuler=ahrsQuaternion.ToEuler();

    ahrsEuler.yaw=vrpnQuaternion.ToEuler().yaw;

    Quaternion mixQuaternion=ahrsEuler.ToQuaternion();



    customOrientation->SetQuaternionAndAngularRates(mixQuaternion,ahrsAngularSpeed);



    return customOrientation;

}



void SimpleFleet::AltitudeValues(float &z,float &dz) const {

    Vector3Df uav_pos,uav_vel;



    uavVrpn->GetPosition(uav_pos);

    uavVrpn->GetSpeed(uav_vel);

    //z and dz must be in uav's frame

    z=-uav_pos.z;

    dz=-uav_vel.z;

}



const AhrsData *SimpleFleet::GetReferenceOrientation(void) {

    Vector2Df pos_err, vel_err; // in uav coordinate system

    float yaw_ref;

    Euler refAngles;



    PositionValues(pos_err, vel_err, yaw_ref);



    refAngles.yaw=yaw_ref;



    u_x->SetValues(pos_err.x, vel_err.x);

    u_x->Update(GetTime());

    refAngles.pitch=u_x->Output();



    u_y->SetValues(pos_err.y, vel_err.y);

    u_y->Update(GetTime());

    refAngles.roll=-u_y->Output();



    customReferenceOrientation->SetQuaternionAndAngularRates(refAngles.ToQuaternion(),Vector3Df(0,0,0));



    return customReferenceOrientation;

}



void SimpleFleet::PositionValues(Vector2Df &pos_error,Vector2Df &vel_error,float &yaw_ref) {

    Vector3Df uav_pos,uav_vel; // in VRPN coordinate system

    Vector2Df uav_2Dpos,uav_2Dvel; // in VRPN coordinate system



    uavVrpn->GetPosition(uav_pos);

    uavVrpn->GetSpeed(uav_vel);



    uav_pos.To2Dxy(uav_2Dpos);

    uav_vel.To2Dxy(uav_2Dvel);



    if (behaviourMode==BehaviourMode_t::PositionHold1 || behaviourMode==BehaviourMode_t::PositionHold2

        || behaviourMode==BehaviourMode_t::PositionHold3 || behaviourMode==BehaviourMode_t::PositionHold4) {

        pos_error=uav_2Dpos-posHold;

        vel_error=uav_2Dvel;

        yaw_ref=yawHold;

    } else { //Circle

        Vector2Df circle_pos,circle_vel;

        Vector2Df target_2Dpos;



        //circle center

        target_2Dpos.x=xCircleCenter->Value();

        target_2Dpos.y=yCircleCenter->Value();

        circle->SetCenter(target_2Dpos);



        //circle reference

        circle->Update(GetTime());

        circle->GetPosition(circle_pos);

        circle->GetSpeed(circle_vel);



        //error in optitrack frame

        pos_error=uav_2Dpos-circle_pos;

        vel_error=uav_2Dvel-circle_vel;

        yaw_ref=PI/2+atan2(uav_pos.y-target_2Dpos.y,uav_pos.x-target_2Dpos.x);

    }

    //error in uav frame

    Quaternion currentQuaternion=GetCurrentQuaternion();

    Euler currentAngles;//in vrpn frame

    currentQuaternion.ToEuler(currentAngles);

    pos_error.Rotate(-currentAngles.yaw);

    vel_error.Rotate(-currentAngles.yaw);

}



void SimpleFleet::SignalEvent(Event_t event) {

    UavStateMachine::SignalEvent(event);



    switch(event) {

    case Event_t::EmergencyStop:

        message->SendMessage("EmergencyStop");

        break;

    case Event_t::TakingOff:

        //behaviourMode=BehaviourMode_t::Default;

        message->SendMessage("TakeOff");

        VrpnPositionHold();

        behaviourMode=BehaviourMode_t::PositionHold1;

        break;

    case Event_t::StartLanding:

        VrpnPositionHold();

        behaviourMode=BehaviourMode_t::PositionHold4;

        message->SendMessage("Landing");

        break;

    case Event_t::EnteringControlLoop:

        CheckMessages();

        if ((behaviourMode==BehaviourMode_t::Circle1) && (!circle->IsRunning())) {

            VrpnPositionHold();

            behaviourMode=BehaviourMode_t::PositionHold2;

            if(posHold.y<0) {

                posHold.y-=yDisplacement->Value();

            } else {

                posHold.y+=yDisplacement->Value();

            }

            posWait=GetTime();

            Printf("Circle1 -> PositionHold2\n");

        }

        if (behaviourMode==BehaviourMode_t::PositionHold2 && GetTime()>(posWait+3*(Time)1000000000)) {

            behaviourMode=BehaviourMode_t::PositionHold3;

            if(posHold.y<0) {

                posHold.y+=yDisplacement->Value();

            } else {

                posHold.y-=yDisplacement->Value();

            }

            posWait=GetTime();

            Printf("PositionHold2 -> PositionHold3\n");

        }

        if (behaviourMode==BehaviourMode_t::PositionHold3 && GetTime()>(posWait+3*(Time)1000000000)) {

            behaviourMode=BehaviourMode_t::Circle2;

            StartCircle();

            Printf("PositionHold3 -> Circle2\n");

        }

        if ((behaviourMode==BehaviourMode_t::Circle2) && (!circle->IsRunning())) {

            Printf("Circle2 -> Land\n");

            behaviourMode=BehaviourMode_t::PositionHold4;

            Land();

        }



        break;

    case Event_t::EnteringFailSafeMode:

        behaviourMode=BehaviourMode_t::Default;

        break;

    case Event_t::ZTrajectoryFinished:

        Printf("PositionHold1 -> Circle1\n");

        StartCircle();

        behaviourMode=BehaviourMode_t::Circle1;

        break;

    }

}



void SimpleFleet::CheckMessages(void) {

    char msg[64];

    char src[64];

    size_t src_size=sizeof(src);

    while(message->RecvMessage(msg,sizeof(msg),TIME_NONBLOCK,src,&src_size)>0) {

        //printf("%s %s\n",GetUav()->ObjectName().c_str(),src);

        if(strcmp(src,GetUav()->ObjectName().c_str())!=0) {

            /*

            if(strcmp(msg,"StopMotors")==0 && orientation_state!=OrientationState_t::Stopped)

            {

                joy->FlashLed(DualShock3::led1,10,10);

                joy->Rumble(0x70);

                GetBldc()->SetEnabled(false);

                GetUavMultiplex()->UnlockUserInterface();

                altitude_state=AltitudeState_t::Stopped;

                orientation_state=OrientationState_t::Stopped;

                GetAhrs()->UnlockUserInterface();

            }

*/

            if(strcmp(msg,"TakeOff")==0) {

                Printf("TakeOff fleet\n");

                TakeOff();

            }

            if(strcmp(msg,"Landing")==0) {

                Printf("Landing fleet\n");

                Land();

            }

            if(strcmp(msg,"EmergencyStop")==0) {

                Printf("EmergencyStop fleet\n");

                EmergencyStop();

            }

        }

    }

}



void SimpleFleet::ExtraSecurityCheck(void) {

    if (!vrpnLost && behaviourMode!=BehaviourMode_t::Default) {

        if (!uavVrpn->IsTracked(500)) {

            Thread::Err("Optitrack, uav lost\n");

            vrpnLost=true;

            EnterFailSafeMode();

            Land();

        }

    }

}



void SimpleFleet::ExtraCheckJoystick(void) {



}



void SimpleFleet::StartCircle(void) {

    if (SetOrientationMode(OrientationMode_t::Custom)) {

        Thread::Info("Demo flotte: start circle\n");

    } else {

        Thread::Warn("Demo flotte: could not start circle\n");

        return;

    }

    Vector3Df uav_pos;

    Vector2Df uav_2Dpos,target_2Dpos;



    //circle center

    target_2Dpos.x=xCircleCenter->Value();

    target_2Dpos.y=yCircleCenter->Value();

    circle->SetCenter(target_2Dpos);



    uavVrpn->GetPosition(uav_pos);

    uav_pos.To2Dxy(uav_2Dpos);

    circle->StartTraj(uav_2Dpos,1);



    u_x->Reset();

    u_y->Reset();

}



void SimpleFleet::StopCircle(void) {

    circle->FinishTraj();

    //joy->Rumble(0x70);

    Thread::Info("Demo flotte: finishing circle\n");

}



void SimpleFleet::VrpnPositionHold(void) {

  if (SetOrientationMode(OrientationMode_t::Custom)) {

        Thread::Info("Demo flotte: holding position\n");

    } else {

        Thread::Info("Demo flotte: could not hold position\n");

        //return;

    }  

                

                Quaternion vrpnQuaternion;

    uavVrpn->GetQuaternion(vrpnQuaternion);

                yawHold=vrpnQuaternion.ToEuler().yaw;



                Vector3Df vrpnPosition;

    uavVrpn->GetPosition(vrpnPosition);

    vrpnPosition.To2Dxy(posHold);



    u_x->Reset();

    u_y->Reset();

}