a
Dependencies: Servo ServoArm mbed
Fork of PES_Official-TestF by
Headers/Robot.h
- Committer:
- beacon
- Date:
- 2017-05-18
- Revision:
- 17:4e1be70bdedb
- Parent:
- 15:915f8839fe48
File content as of revision 17:4e1be70bdedb:
#ifndef ROBOT_H #define ROBOT_H #include <cstdlib> #include <mbed.h> #include "Servo.h" #include "ServoArm.h" #include <Ultraschall.h> #include "mbed.h" /* Declarations for the Motors in the Robot in order to drive -------- */ class DistanceSensors { public: DistanceSensors(AnalogIn* sensorVoltage, AnalogIn* frontS, AnalogIn* leftS, AnalogIn* rightS, DigitalOut* bit0, DigitalOut* bit1, DigitalOut* bit2, int number); DistanceSensors(); void init(AnalogIn* sensorVoltage, AnalogIn* frontS, AnalogIn* leftS, AnalogIn* rightS, DigitalOut* bit0, DigitalOut* bit1, DigitalOut* bit2, int number); virtual ~DistanceSensors(); float read(); operator float(); //Is here to constantly return the value of read. private: AnalogIn* sensorVoltage; AnalogIn* frontS; AnalogIn* leftS; AnalogIn* rightS; DigitalOut* bit0; DigitalOut* bit1; DigitalOut* bit2; int number; }; class Farbsensor { public: Farbsensor(); Farbsensor(AnalogIn* FarbVoltage); void init(AnalogIn* FarbVoltage); int read(); operator int(); private: AnalogIn* FarbVoltage; }; class Arm{ public: Arm(); Arm(ServoArm* servoArm); void init(ServoArm* servoArm); int collectToDown(); int downToCollect(); int collectToBack(); int backToCollect(); private: ServoArm* arm; float angle; }; class Leiste{ public: Leiste(); Leiste(Servo* servoLeiste); void init(Servo* servoLeiste); int upToDown(); int downToUp(); private: Servo* leiste; }; class Greifer { public: Greifer(Servo* greifer); Greifer(); void init(Servo* greifer); int take(); int leave(); void nullPos(); private: Servo* greifer; }; class USsensor { public: USsensor(); USsensor(Ultraschall* Usensor); void init(Ultraschall* Usensor); float read(); operator float(); private: Ultraschall* Usensor; }; class Robot { public: //Robot related: Robot(PwmOut* left, PwmOut* right, DigitalOut* powerSignal, DigitalOut* leds, AnalogIn* FarbVoltage, AnalogIn* frontS, AnalogIn* leftS, AnalogIn* rightS, ServoArm* Arm, Servo* Greifer, Servo* Leiste, Ultraschall* USsensor ); //Drive Functions void drive(); void driveB(); void turnLeft(); void turnLeftS(); void turnRight(); void turnRightS(); void turnAround(int left); void stop(); //Functions that use the drive functions void driveSlowly(); void driveBackSlowly();/* void wallRight(int* counter, int* timer, int* lastAct); void wallLeft(int* counter, int* timer, int* lastAct); void wallFront(int* counter, int* timer, int* lastAct); void counterMax(int* counter, int* timer, int* lastAct, int* rando); void legoFront(int* counter, int* timer, int* lastAct, int* legoFound, int* found); void legoRight(int* counter, int* timer, int* lastAct, int* legoFound); void legoLeft(int* counter, int* timer, int* lastAct, int* legoFound); void nothingFound(int* counter, int* timer, int* lastAct); */ int search(int* timer); float see(int sensor); int getErrorMotor(); //DistanceSensors related: DistanceSensors sensors[9]; USsensor USsensor; AnalogIn* frontS; AnalogIn* leftS; AnalogIn* rightS; void initializeDistanceSensors(); //void init(); //LEDS related: DigitalOut* leds; //Farbsensors related: Farbsensor FarbVoltage; DigitalOut* led; //Arm related: Arm Arm; //Greifer related: Greifer Greifer; //Leiste related: Leiste Leiste; private: //Robot related: PwmOut* left; PwmOut* right; DigitalIn* errorMotor; DigitalOut* powerSignal; DigitalIn* errorSignal; DigitalIn* overtemperatur; Servo* greifer; Servo* leiste; ServoArm* arm; }; #endif