gugus

Dependencies:   mbed

StateMachine.h

Committer:
Brignall
Date:
2018-05-18
Revision:
0:1a0321f1ffbc

File content as of revision 0:1a0321f1ffbc:

/*
 * StateMachine.h
 * Copyright (c) 2018, ZHAW
 * All rights reserved.
 */

#ifndef STATE_MACHINE_H_
#define STATE_MACHINE_H_

#include <cstdlib>
#include <deque>
#include <mbed.h>
#include "Controller.h"
#include "IRSensor.h"
#include "Task.h"
#include "TaskWait.h"
#include "TaskMove.h"
#include "TaskMoveTo.h"
#include "TaskMoveToWaypoint.h"

/**
 * This class implements a simple state machine for a mobile robot.
 * It allows to move the robot forward, and to turn left or right,
 * depending on distance measurements, to avoid collisions with
 * obstacles.
 */
class StateMachine {
    
    public:
        
        static const int    ROBOT_OFF = 0;          // discrete states of this state machine
        static const int    PROCESSING_TASKS = 1;
        static const int    TURN_LEFT = 2;
        static const int    TURN_RIGHT = 3;
        static const int    SLOWING_DOWN = 4;
        
                    StateMachine(Controller& controller, DigitalOut& enableMotorDriver, DigitalOut& led0, DigitalOut& led1, DigitalOut& led2, DigitalOut& led3, DigitalOut& led4, DigitalOut& led5, DigitalIn& button, IRSensor& irSensor0, IRSensor& irSensor1, IRSensor& irSensor2, IRSensor& irSensor3, IRSensor& irSensor4, IRSensor& irSensor5);
        virtual     ~StateMachine();
        int         getState();
        
    private:
        
        static const float  PERIOD;                 // period of task in [s]
        static const float  DISTANCE_THRESHOLD;     // minimum allowed distance to obstacle in [m]
        static const float  TRANSLATIONAL_VELOCITY; // translational velocity in [m/s]
        static const float  ROTATIONAL_VELOCITY;    // rotational velocity in [rad/s]
        
        Controller&     controller;
        DigitalOut&     enableMotorDriver;
        DigitalOut&     led0;
        DigitalOut&     led1;
        DigitalOut&     led2;
        DigitalOut&     led3;
        DigitalOut&     led4;
        DigitalOut&     led5;
        DigitalIn&      button;
        IRSensor&       irSensor0;
        IRSensor&       irSensor1;
        IRSensor&       irSensor2;
        IRSensor&       irSensor3;
        IRSensor&       irSensor4;
        IRSensor&       irSensor5;
        int             state;
        int             buttonNow;
        int             buttonBefore;
        deque<Task*>    taskList;
        Ticker          ticker;
        
        void            run();
};

#endif /* STATE_MACHINE_H_ */