// @Override
  public void execute2(SensorData data, ModifiableAction action) {
    double absMeasure = Math.abs(situation.getMeasure());
    double trackPos = data.getTrackPosition();
    double trackAngle = data.getAngleToTrackAxis();

    boolean mirror = situation.isRight();

    if (mirror) {
      trackPos *= -1.0;
      trackAngle *= -1.0;
    }
    // 0.976807459	0,008231851	-0,209828013	-0,634093073	0,046558592	-0,079286572	1,05025865
    //	0,517923684	-0,158864381	1,460560156	0,944967234	0,836506662	0,99226593	1,01798939

    double result =
        0.002708663 * absMeasure * absMeasure
            + 0.983090667 * trackPos * trackPos
            + 0.995064624 * trackAngle * trackAngle
            + 0.0 * absMeasure * trackPos
            + 1.695369918 * absMeasure * trackAngle
            + 1.010313665 * trackPos * trackAngle
            + 1.020039262;

    if (mirror) {
      result *= -1.0;
    }

    result = Math.min(45.0, Math.max(-45.0, result));
    action.setSteering(result / 45.0);
    action.limitValues();
  }
  @Override
  public void execute(SensorData data, ModifiableAction action) {
    // steering based on the "biggest sensor value" heuristic
    double[] rawSensors = data.getRawTrackEdgeSensors();
    int index = 0;
    double longest = rawSensors[0];
    for (int i = 1; i < rawSensors.length; ++i) {
      if (rawSensors[i] > longest) {
        index = i;
        longest = rawSensors[i];
      }
    }

    double angleD = -angles[index];

    if (TEXT_DEBUG) {
      System.out.println(
          Utils.timeToExactString(data.getCurrentLapTime())
              + " @ "
              + data.getDistanceRacedS()
              + "- track: "
              + data.getTrackPositionS()
              + ", index: "
              + index
              + ", angleD: "
              + Utils.dTS(angleD));
    }

    double absMeasure = Math.abs(situation.getMeasure());

    if (absMeasure >= 20.0 && absMeasure < 35.0) {
      angleD *= 1.0 + ((absMeasure - 20.0) / (35.0 - 20.0));

    } else if (absMeasure >= 35.0 && absMeasure < 60.0) {
      angleD *= 2.0 + ((absMeasure - 35.0) / (60.0 - 35.0));

    } else if (absMeasure >= 60.0) {
      angleD *= 3.0;
    }

    if (TEXT_DEBUG) {
      System.out.println("absMeasure: " + Utils.dTS(absMeasure) + ", angleD: " + Utils.dTS(angleD));
    }

    double trackPos = data.getTrackPosition();
    double trackAngle = data.getAngleToTrackAxis();

    if (situation.isCorner()) {
      boolean mirror = situation.isRight();

      if (mirror) {
        trackPos *= -1.0;
        trackAngle *= -1.0;
        angleD *= -1.0;
        index = 18 - index;
      }

      double absTrackPos = SensorData.calcAbsoluteTrackPosition(trackPos, trackWidth);

      // inside
      if (absTrackPos - (CAR_WIDTH * 0.5) < INSIDE_MARGIN && trackAngle < 0.0) {
        double beta = (INSIDE_MARGIN - (absTrackPos - (CAR_WIDTH * 0.5))) / INSIDE_MARGIN;
        if (TEXT_DEBUG) {
          System.out.println("Inside");
        }

        // not so close -> open steering
        if (beta < 0.5) {
          // System.out.println("IN - Opening@"+Utils.dTS(data.getDistanceFromStartLine()));
          if (TEXT_DEBUG) {
            System.out.print("Beta: " + Utils.dTS(beta) + ", old: " + Utils.dTS(angleD));
          }
          double alpha = (beta - 0.5) * -(1 / 0.5);
          angleD *= alpha;
          if (TEXT_DEBUG) {
            System.out.println(", alpha: " + Utils.dTS(alpha) + ", new: " + Utils.dTS(angleD));
          }

        } else {
          // System.out.println("IN - Other@"+Utils.dTS(data.getDistanceFromStartLine()));
          beta = Math.min(beta, 1.0);
          // very close, steer in the other direction
          if (TEXT_DEBUG) {
            System.out.print("Beta: " + Utils.dTS(beta) + ", old: " + Utils.dTS(angleD));
          }
          double alpha = (beta - 0.5) * (1 / 0.5);
          angleD = Math.toDegrees(trackAngle) * alpha;
          // angleD = 2.0*alpha;
          if (TEXT_DEBUG) {
            System.out.println(", alpha: " + Utils.dTS(alpha) + ", new: " + Utils.dTS(angleD));
          }
        }
      }

      // outside
      if (absTrackPos + (CAR_WIDTH * 0.5) > trackWidth - OUTSIDE_MARGIN) {
        // System.out.println("OUT@"+Utils.dTS(data.getDistanceFromStartLine()));
        if (TEXT_DEBUG) {
          System.out.println("Outside");
        }
        // increase steering angle
        double alpha = Math.min(absMeasure, OUTSIDE_DOUBLE) / OUTSIDE_DOUBLE;
        double beta =
            ((absTrackPos + (CAR_WIDTH * 0.5)) - (trackWidth - OUTSIDE_MARGIN)) / OUTSIDE_MARGIN;

        if (TEXT_DEBUG) {
          System.out.print("Beta: " + Utils.dTS(beta) + ", old: " + Utils.dTS(angleD));
        }

        beta = Math.min(beta, 1.0);
        angleD *= 1.0 + (alpha * beta);

        if (TEXT_DEBUG) {
          System.out.println(
              ", 1+alpha: " + Utils.dTS(1.0 + alpha) + ", new: " + Utils.dTS(angleD));
        }
      }

      // if(Math.abs(Math.toDegrees(trackAngle)) < 10.0){
      //    System.out.println(absMeasure + ";" + trackPos + ";" + Math.toDegrees(trackAngle) + ";"
      // + index + ";" + angleD);
      // }

      if (mirror) {
        angleD *= -1.0;
      }
    }

    angleD = Math.min(45.0, Math.max(-45.0, angleD));
    action.setSteering(angleD / 45.0);
    action.limitValues();
    if (TEXT_DEBUG) {
      System.out.println("Final value: " + action.getSteeringS());
    }
  }