Gruppe 3
/
PES4
xx
Fork of PES1 by
main.cpp
- Committer:
- itslinear
- Date:
- 2017-04-19
- Revision:
- 13:7eba9911e196
- Parent:
- 12:b9faf8637183
- Child:
- 14:7e330f65f26e
File content as of revision 13:7eba9911e196:
#include <mbed.h> #include "Roboter.h" DigitalOut led(LED1); //Periphery for distance sensors AnalogIn distance(PB_1); DigitalOut enable(PC_1); DigitalOut bit0(PH_1); DigitalOut bit1(PC_2); DigitalOut bit2(PC_3); IRSensor sensors[6]; // Periphery for servos Servo servos1(PB_7); Servo servos2(PA_6); //Periphery for limit switch DigitalIn limitSwitch1(PA_10); DigitalIn limitSwitch2(PB_13); //Periphery for Switch ON/OFF DigitalIn switchOnOff(USER_BUTTON); //motor stuff DigitalOut enableMotorDriver(PB_2); PwmOut pwmL( PA_8 ); PwmOut pwmR( PA_9 ); //indicator leds arround robot DigitalOut leds[] = { PC_8, PC_6, PB_12, PA_7, PC_0, PC_9 }; Roboter roboter1(&distance, &bit0, &bit1, &bit2, &pwmL, &pwmR, &servos1,&servos2, &limitSwitch1, &limitSwitch2); int main() { enable = 1; // Sensoren einschalten enableMotorDriver = 1; // Schaltet die Motoren ein pwmL.period(0.00005f); // Setzt die Periode auf 50 μs pwmR.period(0.00005f); pwmL = 0.5f; pwmR = 0.5f; int state = 0; // Diese Variable gibt an in welchem State man sich befindet int tempState = 2; while(1) { switch(state) { case 0: // Roboter Anschalten mit Knopf if (switchOnOff == 0) { state = 1; } break; case 1: if(readCamera() == 1 || readCamera() == 2 || readCamera() == 3) { // Die Kamera erkennt ein grünen Klotz state = 4; } if(readCamera() == 4) { // Roboter in Position state = 5; } if(readCamera() == 0){ state = tempState; } case 2: static int time1 = 0; if(time1 < 20) { // Im Kreis drehen für 1s pwmL = 0.4f; pwmR = 0.4f; time1 ++; state = 1; tempState = 2; } else { time1 = 0; pwmL = 0.5f; pwmR = 0.5f; state = 3; } break; case 3: roboter1.bandeAusweichen(); static int time2 = 0; if(time2 < 40) { // gerade aus fahren pwmL = 0.6f; pwmR = 0.4f; time2 ++; state = 1; tempState = 3; } else { time2 = 0; pwmL = 0.5f; pwmR = 0.5f; state = 2; } break; case 4: // Roboter erkennt gründer Klotz, Klotz wird angefahren roboter1.bandeAusweichen(); if(readCamera() == 1) { // links fahren pwmL = 0.45f; pwmR = 0.45f; } if(readCamera() == 2) { // rechts fahren pwmL = 0.55f; pwmR = 0.55f; } if(readCamera() == 3) { // gerade fahren pwmL = 0.55f; pwmR = 0.45f; } state = 1; break; case 5: // Aufnehmen des Klotzes pwmL = 0.5f; pwmR = 0.5f; state = 1; break; default: break; } wait(0.1f); } }