case TFL_TRACKTYPE_FLUIDINERTIA:
f_tmp = self.aim_speed * self.ticrate; // dgr/sec -> dgr/tic
- move_angle_x = bound(-self.aim_speed, move_angle.x * self.track_accel_pitch * f_tmp, self.aim_speed);
- move_angle_y = bound(-self.aim_speed, move_angle.y * self.track_accel_rot * f_tmp, self.aim_speed);
+ move_angle.x = bound(-self.aim_speed, move_angle.x * self.track_accel_pitch * f_tmp, self.aim_speed);
+ move_angle.y = bound(-self.aim_speed, move_angle.y * self.track_accel_rot * f_tmp, self.aim_speed);
move_angle = (self.tur_head.avelocity * self.track_blendrate) + (move_angle * (1 - self.track_blendrate));
break;
case TFL_TRACKTYPE_FLUIDPRECISE:
- move_angle_y = bound(-self.aim_speed, move_angle.y, self.aim_speed);
- move_angle_x = bound(-self.aim_speed, move_angle.x, self.aim_speed);
+ move_angle.y = bound(-self.aim_speed, move_angle.y, self.aim_speed);
+ move_angle.x = bound(-self.aim_speed, move_angle.x, self.aim_speed);
break;
}