public double getSpeed(int motorNumber) throws CANTimeoutException { double speed = -1; if (motorNumber == 1) { speed = firstShootingMotor.getSpeed(); table.putNumber("firstSpeed", speed); } if (motorNumber == 2) { speed = secondShootingMotor.getSpeed(); table.putNumber("secondSpeed", speed); } return speed; }
/** This function is called periodically during autonomous */ public void autonomousPeriodic() { wedge.moveDown(); lights.set(Relay.Value.kForward); // tracking.run(); try { driveMainBelt(true, true); csc.setSetpoint(2300); // 15' = ~2400rpm if (launcher.getSpeed() < -2250) { try { belt2.setX(-1); } catch (Exception e) { } } else { belt2.setX(0); } station.println(DriverStationLCD.Line.kMain6, 1, "RPM: " + String.valueOf(csc.tmpResult)); } catch (CANTimeoutException ex) { } /*try{ if(tracking.foundTarget()){ station.println(DriverStationLCD.Line.kUser2, 1, "Distance: " + String.valueOf(tracking.getTarget("HIGH").distance)); station.println(DriverStationLCD.Line.kUser3, 1, "Suggested RPM: " + String.valueOf(tracking.getTarget("HIGH").distance*62.8)); if(x>0) station.println(DriverStationLCD.Line.kUser4, 1, "Rotation: <--"); else if(x<0) station.println(DriverStationLCD.Line.kUser4, 1, "Roation: -->"); else station.println(DriverStationLCD.Line.kUser4, 1, "I don't need to rotate"); } else{ station.println(DriverStationLCD.Line.kUser2, 1, "Help, I can't find target by myself!"); station.println(DriverStationLCD.Line.kUser3, 1, ""); station.println(DriverStationLCD.Line.kUser4, 1, ""); } }catch(Exception e){}*/ station.updateLCD(); }
/** This function is called periodically during operator control */ public void teleopPeriodic() { lights.set(Relay.Value.kForward); // tracking.run(); /*try { readString = serial.readString(); readString = readString.substring(readString.indexOf("data{"), readString.indexOf("}")); xTurn = readString.substring(readString.indexOf("x("), readString.indexOf(")")); xTurnVal = Integer.parseInt(xTurn); } catch (VisaException ex) { System.out.println("Error Reading string - " + ex); }*/ y = drive_control.getRawAxis(1); x = drive_control.getRawAxis(2); t = drive_control.getRawAxis(3); if (y > 1) y = 1; else if (y < -1) y = -1; if (x > 1) x = 1; else if (x < -1) x = -1; drive.setDriveJ(x, y, t); /*if(drive_control.getRawButton(12)) //wheelsOn = true; else if(drive_control.getRawButton(11)); wheelsOn = false;*/ /*try{ launcher.setX((drive_control.getRawAxis(4)-1)/2); }catch(Exception e){}*/ // System.out.println((drive_control.getRawAxis(4)-1)*-1350); if (!autoWheels) { csc.setSetpoint((drive_control.getRawAxis(4) - 1) * -1500); try { // launcher.setX((drive_control.getRawAxis(4)+1)*2000); System.out.println( -launcher.getSpeed() + " -- " + csc.tmpResult + " -- " + (drive_control.getRawAxis(4) - 1) * -1500); } catch (Exception e) { System.out.println(e); } if (drive_control.getRawButton(11)) autoWheels = true; } else { csc.setSetpoint(2300); if (drive_control.getRawButton(11)) autoWheels = false; } /*if(wheelsOn) shoot(1); else shoot(0);*/ if (drive_control.getRawButton(5)) { wedge.moveDown(); // servo1.set(1); // servo2.set(0); // wedge.set(Relay.Value.kForward); } else if (drive_control.getRawButton(6)) { wedge.moveUp(); // servo1.set(0); // servo2.set(1); // wedge.set(Relay.Value.kReverse); } else { // servo1.set(.5); // servo2.set(.5); // wedge.set(Relay.Value.kOff); } if (drive_control.getRawButton(3)) turret.set(.5); else if (drive_control.getRawButton(4)) turret.set(-.5); else turret.set(0); if (drive_control.getRawButton(2)) driveMainBelt(true, true); else if (drive_control.getRawButton(7)) driveMainBelt(false, true); else driveMainBelt(false, false); if (drive_control.getTrigger()) { try { belt2.setX(-1); } catch (Exception e) { } } else if (drive_control.getRawButton(8)) { try { belt2.setX(1); } catch (Exception e) { } } else { try { belt2.setX(0); } catch (Exception e) { } } if (control.getRawButton(3)) { turret.set(.25); } else if (control.getRawButton(4)) { turret.set(-.25); } else { turret.set(0); } try { station.println( DriverStationLCD.Line.kMain6, 1, "RPM: " + String.valueOf(-launcher.getSpeed())); } catch (CANTimeoutException ex) { } /*try{ if(tracking.foundTarget()){ station.println(DriverStationLCD.Line.kUser2, 1, "Distance: " + String.valueOf(tracking.getTarget("HIGH").distance)); station.println(DriverStationLCD.Line.kUser3, 1, "Suggested RPM: " + String.valueOf(tracking.getTarget("HIGH").distance*62.8)); if(x>0) station.println(DriverStationLCD.Line.kUser4, 1, "Rotation: <--"); else if(x<0) station.println(DriverStationLCD.Line.kUser4, 1, "Roation: -->"); else station.println(DriverStationLCD.Line.kUser4, 1, "I don't need to rotate"); } else{ station.println(DriverStationLCD.Line.kUser2, 1, "Help, I can't find target by myself!"); station.println(DriverStationLCD.Line.kUser3, 1, ""); station.println(DriverStationLCD.Line.kUser4, 1, ""); } }catch(Exception e){}*/ station.updateLCD(); }