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I am writing some software to control a quadcopter and have got completely stuck with RtosTimers. I am getting the error "Error: No instance of constructor "rtos::RtosTimer::RtosTimer" matches the argument list in "flightController.h", Line: 13, Col: 29"

I have looked at the example code in the handbook and my code seems to match. I have also googled but I couldn't find anything on using RtosTimers inside of RtosThreads.

Maybe I am going about this the wrong way so if anyone has any suggestions it would be much appreciated.

Here is the code that is causing me problems

//Rtos Timers
RtosTimer UpdateFlightTimer(Task500Hz, osTimerPeriodic, (void *)0);
RtosTimer UpdateCommandTimer(Task50Hz, osTimerPeriodic, (void *)0);

// A thread to monitor the serial ports
void FlightControllerThread(void const *args) 
{  
UpdateFlightTimer.start(2);
UpdateCommandTimer.start(20);

// Wait here forever
Thread::wait(osWaitForever);
}

void Task500Hz(void const *n)
{
//Get IMU data and convert to yaw, pitch, roll
_freeIMU.getQ(_rawQuaternion);
_freeIMU.getRate(_gyroRate);
GetAttitude();

//Rate mode
if(_rate == true && _stab == false)
{
    //Update rate PID process value with gyro rate
    _yawRatePIDController->setProcessValue(_gyroRate[0]);
    _pitchRatePIDController->setProcessValue(_gyroRate[2]);
    _rollRatePIDController->setProcessValue(_gyroRate[1]);

    //Update rate PID set point with desired rate from RC
    _yawRatePIDController->setSetPoint(_rcConstrainedCommands[0]);
    _pitchRatePIDController->setSetPoint(_rcConstrainedCommands[1]);
    _rollRatePIDController->setSetPoint(_rcConstrainedCommands[2]);

    //Compute rate PID outputs
    _ratePIDControllerOutputs[0] = _yawRatePIDController->compute();
    _ratePIDControllerOutputs[1] = _pitchRatePIDController->compute();
    _ratePIDControllerOutputs[2] = _rollRatePIDController->compute();
}
//Stability mode
else
{
    //Update stab PID process value with ypr
    _yawStabPIDController->setProcessValue(_yrp[0]);
    _pitchStabPIDController->setProcessValue(_yrp[2]);
    _rollStabPIDController->setProcessValue(_yrp[1]);

    //Update stab PID set point with desired angle from RC
    _yawStabPIDController->setSetPoint(_yawTarget);
    _pitchStabPIDController->setSetPoint(_rcConstrainedCommands[1]);
    _rollStabPIDController->setSetPoint(_rcConstrainedCommands[2]);

    //Compute stab PID outputs
    _stabPIDControllerOutputs[0] = _yawStabPIDController->compute();
    _stabPIDControllerOutputs[1] = _pitchStabPIDController->compute();
    _stabPIDControllerOutputs[2] = _rollStabPIDController->compute();

    //if pilot commanding yaw
    if(abs(_rcConstrainedCommands[0]) > 5)
    {  
        _stabPIDControllerOutputs[0] = _rcConstrainedCommands[0];  //Feed to rate PID     (overwriting stab PID output)
        _yawTarget = _yrp[0];
    }

    //Update rate PID process value with gyro rate
    _yawRatePIDController->setProcessValue(_gyroRate[0]);
    _pitchRatePIDController->setProcessValue(_gyroRate[2]);
    _rollRatePIDController->setProcessValue(_gyroRate[1]);

    //Update rate PID set point with desired rate from stab PID
    _yawRatePIDController->setSetPoint(_stabPIDControllerOutputs[0]);
    _pitchRatePIDController->setSetPoint(_stabPIDControllerOutputs[1]);
    _rollRatePIDController->setSetPoint(_stabPIDControllerOutputs[2]);

    //Compute rate PID outputs
    _ratePIDControllerOutputs[0] = _yawRatePIDController->compute();
    _ratePIDControllerOutputs[1] = _pitchRatePIDController->compute();
    _ratePIDControllerOutputs[2] = _rollRatePIDController->compute();
}


//Calculate motor power if flying
if(_rcCommands[3] > 0 && _armed == true)
{
    _motorPower[0] = Constrain(_rcConstrainedCommands[3] + _ratePIDControllerOutputs[1] + _ratePIDControllerOutputs[2] + _ratePIDControllerOutputs[0], MOTORS_MIN, MOTORS_MAX);
    _motorPower[1] = Constrain(_rcConstrainedCommands[3] + _ratePIDControllerOutputs[1] - _ratePIDControllerOutputs[2] - _ratePIDControllerOutputs[0], MOTORS_MIN, MOTORS_MAX);
    _motorPower[2] = Constrain(_rcConstrainedCommands[3] - _ratePIDControllerOutputs[1] - _ratePIDControllerOutputs[2] + _ratePIDControllerOutputs[0], MOTORS_MIN, MOTORS_MAX);
    _motorPower[3] = Constrain(_rcConstrainedCommands[3] - _ratePIDControllerOutputs[1] + _ratePIDControllerOutputs[2] - _ratePIDControllerOutputs[0], MOTORS_MIN, MOTORS_MAX);
}
//Not flying
else
{
    //Disable motors
    _motorPower[0] = MOTORS_OFF;
    _motorPower[1] = MOTORS_OFF;
    _motorPower[2] = MOTORS_OFF;
    _motorPower[3] = MOTORS_OFF;

    _notFlying ++;
    if(_notFlying > 200) //Not flying for 1 second
    {
        //Reset iteratior
        _notFlying = 0;

        //Zero gyro
        _freeIMU.zeroGyro();

        //Reset I
        _yawRatePIDController->reset();
        _pitchRatePIDController->reset();
        _rollRatePIDController->reset();
        _yawStabPIDController->reset();
        _pitchStabPIDController->reset();
        _rollStabPIDController->reset();
    }
} 

//Set motor power
_motor1.write(_motorPower[0]);
_motor2.write(_motorPower[1]);
_motor3.write(_motorPower[2]);
_motor4.write(_motorPower[3]);

}

void Task50Hz(void const *n)
{
//Get RC control values

//Constrain
//Rate mode
if(_rate == true && _stab == false)
{
    _rcConstrainedCommands[0] = Constrain(_rcCommands[0], RC_YAW_RATE_MIN, RC_YAW_RATE_MAX);
    _rcConstrainedCommands[1] = Constrain(_rcCommands[1], RC_PITCH_RATE_MIN, RC_PITCH_RATE_MAX);
    _rcConstrainedCommands[2] = Constrain(_rcCommands[2], RC_ROLL_RATE_MIN, RC_ROLL_RATE_MAX);
    _rcConstrainedCommands[3] = Constrain(_rcCommands[3], RC_THRUST_MIN, RC_THRUST_MAX);
}
else
{
    _rcConstrainedCommands[0] = Constrain(_rcCommands[0], RC_YAW_RATE_MIN, RC_YAW_RATE_MAX);
    _rcConstrainedCommands[1] = Constrain(_rcCommands[1], RC_PITCH_ANGLE_MIN, RC_PITCH_ANGLE_MAX);
    _rcConstrainedCommands[2] = Constrain(_rcCommands[2], RC_ROLL_ANGLE_MIN, RC_ROLL_ANGLE_MAX);
    _rcConstrainedCommands[3] = Constrain(_rcCommands[3], RC_THRUST_MIN, RC_THRUST_MAX);
}
}

My program can be found at http://mbed.org/users/joe4465/code/QuadMK5/

And the problem is in flightController.h I think it should be clear what I am trying to do but if anyone isn't sure let me know.

I also have another totally unrelated problem. I can set my PID variables over serial and then save them to a config file but 1 in 3 times if will hang just after it has saved the data to the file and I'm not sure why. Does anyone have any idea what could cause this?

Thanks Joe

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1 Answer 1

I forgot to put void const *n in the parameters of the functions where they are defined at the top

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