Exemplo n.º 1
0
void
OrderedTask::CheckDuplicateWaypoints(Waypoints& waypoints,
                                     OrderedTaskPointVector& points,
                                     const bool is_task)
{
  for (auto begin = points.cbegin(), end = points.cend(), i = begin;
       i != end; ++i) {
    auto wp = waypoints.CheckExistsOrAppend((*i)->GetWaypointPtr());

    const OrderedTaskPoint *new_tp =
      (*i)->Clone(task_behaviour, ordered_settings, std::move(wp));
    if (is_task)
      Replace(*new_tp, std::distance(begin, i));
    else
      ReplaceOptionalStart(*new_tp, std::distance(begin, i));
    delete new_tp;
  }
}
Exemplo n.º 2
0
static void
FillLastUsedList(WaypointSelectInfoVector &list,
                 const std::list<unsigned int> &last_used_ids,
                 const Waypoints &waypoints, const GeoPoint location)
{
  list.clear();

  if (last_used_ids.empty())
    return;

  for (auto it = last_used_ids.rbegin(); it != last_used_ids.rend(); it++) {
    const Waypoint* waypoint = waypoints.LookupId(*it);
    if (waypoint == NULL)
      continue;

    list.push_back(*waypoint, location);
  }
}
Exemplo n.º 3
0
unsigned test_copy(Waypoints& waypoints)
{
    const Waypoint *r = waypoints.lookup_id(5);
    if (!r) {
        return false;
    }
    unsigned size_old = waypoints.size();
    Waypoint wp = *r;
    wp.id = waypoints.size()+1;
    waypoints.append(wp);
    waypoints.optimise();
    unsigned size_new = waypoints.size();
    return (size_new == size_old+1);
}
Exemplo n.º 4
0
static unsigned
TestCopy(Waypoints& waypoints)
{
  const WaypointPtr wp = waypoints.LookupId(5);
  if (!wp)
    return false;

  unsigned size_old = waypoints.size();
  Waypoint wp_copy = *wp;
  wp_copy.id = waypoints.size() + 1;
  waypoints.Append(std::move(wp_copy));
  waypoints.Optimise();
  unsigned size_new = waypoints.size();
  return (size_new == size_old + 1);
}
Exemplo n.º 5
0
void
XCSoarInterface::AfterStartup()
{
  LogStartUp(_T("ProgramStarted = 3"));
  StartupLogFreeRamAndStorage();

  status_messages.Startup(true);

  if (is_simulator()) {
    LogStartUp(_T("GCE_STARTUP_SIMULATOR"));
    InputEvents::processGlideComputer(GCE_STARTUP_SIMULATOR);
  } else {
    LogStartUp(_T("GCE_STARTUP_REAL"));
    InputEvents::processGlideComputer(GCE_STARTUP_REAL);
  }

  OrderedTask *defaultTask = protected_task_manager->TaskCreateDefault(
      &way_points, GetComputerSettings().task.task_type_default);
  if (defaultTask) {
    {
      ScopeSuspendAllThreads suspend;
      defaultTask->CheckDuplicateWaypoints(way_points);
      way_points.Optimise();
    }
    protected_task_manager->TaskCommit(*defaultTask);
    delete defaultTask;
  }

  task_manager->Resume();

  main_window.Fullscreen();
  InfoBoxManager::SetDirty();

  TriggerGPSUpdate();

  status_messages.Startup(false);
}
Exemplo n.º 6
0
static void
TestLookups(const Waypoints &waypoints, const GeoPoint &center)
{
  WaypointPtr waypoint;

  ok1((waypoint = waypoints.LookupId(0)) == NULL);
  ok1((waypoint = waypoints.LookupId(1)) != NULL);
  ok1(waypoint->original_id == 0);
  ok1((waypoint = waypoints.LookupId(151)) != NULL);
  ok1(waypoint->original_id == 150);
  ok1((waypoint = waypoints.LookupId(152)) == NULL);
  ok1((waypoint = waypoints.LookupId(160)) == NULL);

  ok1((waypoint = waypoints.LookupLocation(center, fixed(0))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.LookupName(_T("Waypoint #5"))) != NULL);
  ok1(waypoint->original_id == 4);

  ok1((waypoint = waypoints.LookupLocation(waypoint->location, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 4);
}
Exemplo n.º 7
0
int main(int argc, char** argv)
{
  if (!parse_args(argc,argv)) {
    return 0;
  }

  plan_tests(16);

  Waypoints waypoints;

  ok(setup_waypoints(waypoints),"waypoint setup",0);

  unsigned size = waypoints.size();

  ok(test_lookup(waypoints,3),"waypoint lookup",0);
  ok(!test_lookup(waypoints,5000),"waypoint bad lookup",0);
  ok(test_nearest(waypoints),"waypoint nearest",0);
  ok(test_nearest_landable(waypoints),"waypoint nearest landable",0);
  ok(test_location(waypoints,true),"waypoint location good",0);
  ok(test_location(waypoints,false),"waypoint location bad",0);
  ok(test_range(waypoints,100)==1,"waypoint visit range 100m",0);
  ok(test_radius(waypoints,100)==1,"waypoint radius 100m",0);
  ok(test_range(waypoints,500000)== waypoints.size(),"waypoint range 500000m",0);
  ok(test_radius(waypoints,25000)<= test_range(waypoints,25000),"waypoint radius<range",0);

  // test clear
  waypoints.clear();
  ok(waypoints.size()==0,"waypoint clear",0);
  setup_waypoints(waypoints);
  ok(size == waypoints.size(),"waypoint setup after clear",0);

  ok(test_copy(waypoints),"waypoint copy",0);

  ok(test_erase(waypoints,3),"waypoint erase",0);
  ok(test_replace(waypoints,4),"waypoint replace",0);

  return exit_status();
}
Exemplo n.º 8
0
static void
TestGetNearest(const Waypoints &waypoints, const GeoPoint &center)
{
  WaypointPtr waypoint;
  GeoPoint near = GeoVector(fixed(250), Angle::Degrees(15)).EndPoint(center);
  GeoPoint far = GeoVector(fixed(750), Angle::Degrees(15)).EndPoint(center);
  GeoPoint further = GeoVector(fixed(4200), Angle::Degrees(48)).EndPoint(center);

  ok1((waypoint = waypoints.GetNearest(center, fixed(1))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.GetNearest(center, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.GetNearest(near, fixed(1))) == NULL);

  ok1((waypoint = waypoints.GetNearest(near, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.GetNearest(far, fixed(1))) == NULL);

  ok1((waypoint = waypoints.GetNearest(far, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 1);

  ok1((waypoint = waypoints.GetNearestLandable(center, fixed(1))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.GetNearestLandable(center, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 0);

  ok1((waypoint = waypoints.GetNearestLandable(further, fixed(1))) == NULL);

  ok1((waypoint = waypoints.GetNearestLandable(further, fixed(10000))) != NULL);
  ok1(waypoint->original_id == 3);

  ok1((waypoint = waypoints.GetNearestIf(center, fixed(1), OriginalIDAbove5)) == NULL);

  ok1((waypoint = waypoints.GetNearestIf(center, fixed(10000), OriginalIDAbove5)) != NULL);
  ok1(waypoint->original_id == 6);
}
Exemplo n.º 9
0
static bool
test_task_mat(TaskManager &task_manager, const Waypoints &waypoints)
{
    task_manager.SetFactory(TaskFactoryType::MAT);
    AbstractTaskFactory &fact = task_manager.GetFactory();
    const Waypoint *wp;

    task_report(task_manager, "# adding start\n");
    wp = waypoints.LookupId(1);
    if (wp) {
        OrderedTaskPoint *tp = fact.CreateStart(*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_manager.SetActiveTaskPoint(0);
    task_manager.Resume();

    task_report(task_manager, "# adding intermediate\n");
    wp = waypoints.LookupId(2);
    if (wp) {
        OrderedTaskPoint* tp = fact.CreateIntermediate(TaskPointFactoryType::MAT_CYLINDER,*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_report(task_manager, "# adding intermediate\n");
    wp = waypoints.LookupId(3);
    if (wp) {
        OrderedTaskPoint* tp = fact.CreateIntermediate(TaskPointFactoryType::MAT_CYLINDER,*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_report(task_manager, "# adding finish\n");
    wp = waypoints.LookupId(1);
    if (wp) {
        OrderedTaskPoint *tp = fact.CreateFinish(*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    fact.UpdateStatsGeometry();

    task_report(task_manager, "# checking task..\n");
    if (!fact.Validate()) {
        return false;
    }

    if (!task_manager.CheckOrderedTask()) {
        return false;
    }
    return true;
}
Exemplo n.º 10
0
bool test_task_aat(TaskManager& task_manager,
                   const Waypoints &waypoints)
{
    task_manager.SetFactory(TaskFactoryType::AAT);
    AbstractTaskFactory &fact = task_manager.GetFactory();
    const Waypoint *wp;

    task_report(task_manager, "# adding start\n");
    wp = waypoints.LookupId(1);
    if (wp) {
        OrderedTaskPoint *tp = fact.CreateStart(*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_manager.SetActiveTaskPoint(0);
    task_manager.Resume();

    task_report(task_manager, "# adding intermediate\n");
    wp = waypoints.LookupId(2);
    if (wp) {
        OrderedTaskPoint* tp = fact.CreateIntermediate(TaskPointFactoryType::AAT_CYLINDER,*wp);
        if (tp->GetObservationZone().GetShape() == ObservationZone::Shape::CYLINDER) {
            CylinderZone &cz = (CylinderZone &)tp->GetObservationZone();
            cz.SetRadius(fixed(30000.0));
        }
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_report(task_manager, "# adding intermediate\n");
    wp = waypoints.LookupId(3);
    if (wp) {
        OrderedTaskPoint* tp = fact.CreateIntermediate(TaskPointFactoryType::AAT_CYLINDER,*wp);
        if (tp->GetObservationZone().GetShape() == ObservationZone::Shape::CYLINDER) {
            CylinderZone &cz = (CylinderZone &)tp->GetObservationZone();
            cz.SetRadius(fixed(40000.0));
        }
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    task_report(task_manager, "# adding finish\n");
    wp = waypoints.LookupId(1);
    if (wp) {
        OrderedTaskPoint *tp = fact.CreateFinish(*wp);
        if (!fact.Append(*tp,false)) {
            return false;
        }
        delete tp;
    }

    fact.UpdateStatsGeometry();

    task_report(task_manager, "# checking task..\n");
    if (!fact.Validate()) {
        return false;
    }

    if (!task_manager.CheckOrderedTask()) {
        return false;
    }
    return true;
}
Exemplo n.º 11
0
bool test_task_manip(TaskManager& task_manager,
                     const Waypoints &waypoints)
{
    if (!test_task_mixed(task_manager, waypoints)) {
        return false;
    }
    AbstractTaskFactory &fact = task_manager.GetFactory();

    task_report(task_manager, "# removing tp 2\n");
    if (!fact.Remove(2)) {
        return false;
    }

    task_report(task_manager, "# removing tp 0\n");
    if (!fact.Remove(0)) {
        return false;
    }

    task_report(task_manager, "# removing tp -1 (illegal)\n");
    if (fact.Remove(0-1)) {
        return false;
    }

    task_report(task_manager, "# removing tp 50 (illegal)\n");
    if (fact.Remove(50)) {
        return false;
    }

    OrderedTaskPoint *tp;
    const Waypoint *wp;

    task_report(task_manager, "# inserting at 3\n");
    wp = waypoints.LookupId(3);
    if (wp) {
        tp = fact.CreateIntermediate(TaskPointFactoryType::AST_CYLINDER,*wp);
        if (!fact.Insert(*tp,3)) return false;
        delete tp;
    }

    task_report(task_manager, "# auto-replacing at 2 (no morph)\n");
    wp = waypoints.LookupId(9);
    if (wp) {
        tp = fact.CreateIntermediate(TaskPointFactoryType::AST_CYLINDER,*wp);
        if (!fact.Replace(*tp,2)) return false;
        delete tp;
    }

    task_report(task_manager, "# auto-replacing at 2 (morph)\n");
    wp = waypoints.LookupId(9);
    if (wp) {
        tp = fact.CreateStart(*wp);
        if (!fact.Replace(*tp,2)) return false;
        delete tp;
    }

    task_report(task_manager, "# auto-replacing at 0 (morph this)\n");
    wp = waypoints.LookupId(12);
    if (wp) {
        tp = fact.CreateIntermediate(TaskPointFactoryType::AST_CYLINDER,*wp);
        if (!fact.Replace(*tp,0)) return false;
        delete tp;
    }

    task_report(task_manager, "# auto-replacing at end (morph this)\n");
    wp = waypoints.LookupId(14);
    if (wp) {
        tp = fact.CreateIntermediate(TaskPointFactoryType::AST_CYLINDER,*wp);
        if (!fact.Replace(*tp,task_manager.TaskSize()-1)) return false;
        delete tp;
    }

    task_report(task_manager, "# removing finish point\n");
    if (!fact.Remove(task_manager.TaskSize()-1)) {
        return false;
    }

    task_report(task_manager, "# inserting at 50 (equivalent to append)\n");
    wp = waypoints.LookupId(8);
    if (wp) {
        tp = fact.CreateFinish(*wp);
        if (!fact.Insert(*tp,50)) return false;
        delete tp;
    }

    task_report(task_manager, "# inserting at 0 (morph this)\n");
    wp = waypoints.LookupId(3);
    if (wp) {
        tp = fact.CreateFinish(*wp);
        if (!fact.Insert(*tp,0)) return false;
        delete tp;
    }

    task_report(task_manager, "# inserting at 2 (morph this)\n");
    wp = waypoints.LookupId(4);
    if (wp) {
        tp = fact.CreateStart(*wp);
        if (!fact.Insert(*tp,2)) return false;
        delete tp;
    }

    task_report(task_manager, "# inserting at 2 (direct)\n");
    wp = waypoints.LookupId(6);
    if (wp) {
        tp = fact.CreateIntermediate(*wp);
        if (!fact.Insert(*tp,2,false)) return false;
        delete tp;
    }

    task_report(task_manager, "# checking task\n");

    fact.UpdateStatsGeometry();

    if (task_manager.CheckOrderedTask()) {
        task_manager.Reset();
        task_manager.SetActiveTaskPoint(0);
        task_manager.Resume();
    } else {
        return false;
    }
    return true;
}
Exemplo n.º 12
0
void
XCSoarInterface::Shutdown()
{
  VerboseOperationEnvironment operation;
  gcc_unused ScopeBusyIndicator busy;

  // Show progress dialog
  operation.SetText(_("Shutdown, please wait..."));

  // Log shutdown information
  LogStartUp(_T("Entering shutdown..."));
  StartupLogFreeRamAndStorage();

  // Turn off all displays
  globalRunningEvent.Reset();

#ifdef HAVE_TRACKING
  if (tracking != NULL)
    tracking->StopAsync();
#endif

  // Stop logger and save igc file
  operation.SetText(_("Shutdown, saving logs..."));
  logger.GUIStopLogger(Basic(), true);

  delete flight_logger;
  flight_logger = NULL;

  GetLiveBlackboard().RemoveListener(glide_computer_events);

  FlarmFriends::Save();

  // Save settings to profile
  operation.SetText(_("Shutdown, saving profile..."));
  Profile::Save();

  // Stop sound

  AudioVarioGlue::Deinitialise();

  operation.SetText(_("Shutdown, please wait..."));

  // Stop threads
  LogStartUp(_T("Stop threads"));
#ifndef ENABLE_OPENGL
  draw_thread->BeginStop();
#endif
  calculation_thread->BeginStop();
  merge_thread->BeginStop();

  // Wait for the calculations thread to finish
  LogStartUp(_T("Waiting for calculation thread"));

  merge_thread->Join();
  delete merge_thread;
  merge_thread = NULL;

  calculation_thread->Join();
  delete calculation_thread;
  calculation_thread = NULL;

  //  Wait for the drawing thread to finish
#ifndef ENABLE_OPENGL
  LogStartUp(_T("Waiting for draw thread"));

  draw_thread->Join();
  delete draw_thread;
#endif

  LogStartUp(_T("delete MapWindow"));
  main_window.Deinitialise();

  // Save the task for the next time
  operation.SetText(_("Shutdown, saving task..."));

  LogStartUp(_T("Save default task"));
  protected_task_manager->TaskSaveDefault();

  // Clear waypoint database
  LogStartUp(_T("Close waypoints"));
  way_points.Clear();

  operation.SetText(_("Shutdown, please wait..."));

  // Clear weather database
  LogStartUp(_T("CloseRASP"));
  RASP.Close();

  // Clear terrain database
  LogStartUp(_T("CloseTerrain"));

  delete terrain;

  LogStartUp(_T("CloseTopography"));
  delete topography;

  delete protected_marks;
  delete marks;

  // Close any device connections
  devShutdown();

  NMEALogger::Shutdown();

  delete replay;

  DeviceListDeinitialise();

  delete device_blackboard;
  device_blackboard = NULL;

  protected_task_manager->SetRoutePlanner(NULL);

  delete protected_task_manager;
  delete task_manager;

#ifdef HAVE_NET
  delete noaa_store;
#endif

#ifdef HAVE_TRACKING
  if (tracking != NULL) {
    tracking->WaitStopped();
    delete tracking;
  }
#endif

  // Close the progress dialog
  LogStartUp(_T("Close Progress Dialog"));
  operation.Hide();

  // Clear the EGM96 database
  EGM96::Close();

  delete glide_computer;

  // Clear airspace database
  LogStartUp(_T("Close airspace"));
  airspace_database.clear();

  // Destroy FlarmNet records
  FlarmNet::Destroy();

  delete file_cache;

  LogStartUp(_T("Close Windows - main"));
  main_window.reset();

  CloseLanguageFile();

  Display::RestoreOrientation();

  StartupLogFreeRamAndStorage();

  LogStartUp(_T("Finished shutdown"));
}
Exemplo n.º 13
0
bool test_task_mixed(TaskManager& task_manager,
                     const Waypoints &waypoints)
{
  const TaskProjection &projection =
    task_manager.get_ordered_task().get_task_projection();

  OrderedTaskPoint *tp;
  const Waypoint *wp;

  task_manager.set_factory(TaskBehaviour::FACTORY_MIXED);
  AbstractTaskFactory &fact = task_manager.get_factory();

  task_report(task_manager, "# adding start\n");
  wp = waypoints.lookup_id(1);
  if (wp) {
    tp = fact.createStart(AbstractTaskFactory::START_LINE,*wp);
    if (tp->get_oz()->shape == ObservationZonePoint::CYLINDER) {
      CylinderZone *cz = (CylinderZone *)tp->get_oz();
      cz->setRadius(fixed(5000.0));
      tp->update_oz(projection);
    }
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_manager.setActiveTaskPoint(0);
  task_manager.resume();

  task_report(task_manager, "# adding intermdiate\n");
  wp = waypoints.lookup_id(2);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AST_CYLINDER,*wp);
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_report(task_manager, "# adding intermdiate\n");
  wp = waypoints.lookup_id(3);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AAT_CYLINDER,*wp);
    if (tp->get_oz()->shape == ObservationZonePoint::CYLINDER) {
      CylinderZone *cz = (CylinderZone *)tp->get_oz();
      cz->setRadius(fixed(30000.0));
      tp->update_oz(projection);
    }
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_report(task_manager, "# adding intermediate\n");
  wp = waypoints.lookup_id(4);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AAT_CYLINDER,*wp);
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_report(task_manager, "# adding intermediate\n");
  wp = waypoints.lookup_id(5);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AAT_CYLINDER,*wp);
    if (tp->get_oz()->shape == ObservationZonePoint::CYLINDER) {
      CylinderZone *cz = (CylinderZone *)tp->get_oz();
      cz->setRadius(fixed(30000.0));
      tp->update_oz(projection);
    }
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_report(task_manager, "# adding finish\n");
  wp = waypoints.lookup_id(1);
  if (wp) {
    tp = fact.createFinish(AbstractTaskFactory::FINISH_LINE,*wp);
    if (!fact.append(*tp,false)) return false;
    delete tp;
  } else {
    return false;
  }

  task_report(task_manager, "# checking task\n");
  if (!fact.validate()) {
    return false;
  }

  if (!task_manager.check_ordered_task()) {
    return false;
  }
  return true;
}
Exemplo n.º 14
0
/** 
 * Initialises waypoints with random and non-random waypoints
 * for testing
 *
 * @param waypoints waypoints class to add waypoints to
 */
bool SetupWaypoints(Waypoints &waypoints, const unsigned n)
{
  Waypoint wp = waypoints.Create(GeoPoint(Angle::Zero(),
                                          Angle::Zero()));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(std::move(wp));

  wp = waypoints.Create(GeoPoint(Angle::Zero(),
                                 Angle::Degrees(1)));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(std::move(wp));

  wp = waypoints.Create(GeoPoint(Angle::Degrees(1),
                                 Angle::Degrees(1)));
  wp.name = _T("Hello");
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.5);
  waypoints.Append(std::move(wp));

  wp = waypoints.Create(GeoPoint(Angle::Degrees(0.8),
                                 Angle::Degrees(0.5)));
  wp.name = _T("Unk");
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(std::move(wp));

  wp = waypoints.Create(GeoPoint(Angle::Degrees(1),
                                 Angle::Zero()));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(std::move(wp));

  wp = waypoints.Create(GeoPoint(Angle::Zero(),
                                 Angle::Degrees(0.23)));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(std::move(wp));

  for (unsigned i=0; i<(unsigned)std::max((int)n-6,0); i++) {
    int x = rand()%1200-100;
    int y = rand()%1200-100;
    double z = rand()% std::max(terrain_height,1);
    wp = waypoints.Create(GeoPoint(Angle::Degrees(x / 1000.0),
                                   Angle::Degrees(y / 1000.0)));
    wp.type = Waypoint::Type::NORMAL;
    wp.elevation = fixed(z);
    waypoints.Append(std::move(wp));
  }
  waypoints.Optimise();

  if (verbose) {
    Directory::Create(Path(_T("output/results")));
    std::ofstream fin("output/results/res-wp-in.txt");
    for (unsigned i=1; i<=waypoints.size(); i++) {
      const Waypoint *wpt = waypoints.LookupId(i);
      if (wpt != NULL)
        fin << *wpt;
    }
  }
  return true;
}
Exemplo n.º 15
0
static bool
test_replay_retrospective()
{
  Directory::Create(_T("output/results"));
  std::ofstream f("output/results/res-sample.txt");

  Waypoints waypoints;
  WaypointReader w(waypoint_file.c_str(), 0);
  if (!ok1(!w.Error())) {
    printf("# waypoint file %s\n", waypoint_file.c_str());
    skip(2, 0, "opening waypoint file failed");
    return false;
  }

  NullOperationEnvironment operation;
  if(!ok1(w.Parse(waypoints, operation))) {
    skip(1, 0, "parsing waypoint file failed");
    return false;
  }

  waypoints.Optimise();

  ok1(!waypoints.IsEmpty());

  Retrospective retro(waypoints);

  retro.search_range = range_threshold;
  retro.angle_tolerance = Angle::Degrees(autopilot_parms.bearing_noise);

  FileLineReaderA *reader = new FileLineReaderA(replay_file.c_str());
  if (reader->error()) {
    delete reader;
    return false;
  }

  waypoints.Optimise();

  IgcReplay sim(reader);

  NMEAInfo basic;
  basic.Reset();

  while (sim.Update(basic)) {
    n_samples++;

    if (retro.UpdateSample(basic.location)) {
      std::ofstream g("output/results/res-retro.txt");

      // report task
      auto candidate_list = retro.getNearWaypointList();
      for (auto it = candidate_list.begin(); it != candidate_list.end(); ++it) {
	const Waypoint& wp = it->waypoint;
	g << (double)wp.location.longitude.Degrees() << " "
	  << (double)wp.location.latitude.Degrees() << " "
	  << "\"" << wp.name << "\"\n";
      }
    }

    f << (double)basic.time << " " 
      <<  (double)basic.location.longitude.Degrees() << " "
      <<  (double)basic.location.latitude.Degrees() << "\n";
    f.flush();
  };

  double d_ach, d_can;
  retro.CalcDistances(d_ach, d_can);
  printf("# distances %f %f\n", (double)d_ach, (double)d_can);
  printf("# size %d\n", retro.getNearWaypointList().size());

  return true;
}
Exemplo n.º 16
0
bool
WaypointReaderCompeGPS::ParseLine(const TCHAR* line, const unsigned linenum,
                                  Waypoints &waypoints)
{
  /*
   * G  WGS 84
   * U  1
   * W  IT05FC A 46.9121939503ºN 11.9605922700°E 27-MAR-62 00:00:00 566.000000 Ahornach Sand, Ahornach LP, GS und HG
   * w  Waypoint,0,-1.0,16777215,255,0,0,7,,0.0,
   * W  IT05FB A 46.9260440931ºN 11.9676733017°E 27-MAR-62 00:00:00 1425.000000 Ahornach Sand, Ahornach SP, GS und HG
   * w  Waypoint,0,-1.0,16777215,255,0,0,7,,0.0,
   *
   * W ShortName 31T 318570 4657569 27-MAR-62 00:00:00 0 some Comments
   * W ShortName A 41.234234N 7.234424W 27-MAR-62 00:00:00 0 Comments
   */

  // Skip projection and file encoding information
  if (*line == _T('G') || *line == _T('B'))
    return true;

  // Check for format: UTM or LatLon
  if (*line == _T('U') && _tcsstr(line, _T("U  0")) == line) {
    is_utm = true;
    return true;
  }

  // Skip non-waypoint lines
  if (*line != _T('W'))
    return true;

  // Skip W indicator and whitespace
  line++;
  while (*line == _T(' '))
    line++;

  // Find next space delimiter, skip shortname
  const TCHAR *name = line;
  const TCHAR *space = _tcsstr(line, _T(" "));
  if (space == NULL)
    return false;

  unsigned name_length = space - line;
  if (name_length == 0)
    return false;

  line = space;
  while (*line == _T(' '))
    line++;

  // Parse location
  GeoPoint location;
  if ((!is_utm && !ParseLocation(line, location)) ||
      (is_utm && !ParseLocationUTM(line, location)))
    return false;

  // Skip whitespace
  while (*line == _T(' '))
    line++;

  // Skip unused date field
  line = _tcsstr(line, _T(" "));
  if (line == NULL)
    return false;

  line++;

  // Skip unused time field
  line = _tcsstr(line, _T(" "));
  if (line == NULL)
    return false;

  line++;

  // Create new waypoint instance
  Waypoint waypoint(location);
  waypoint.file_num = file_num;
  waypoint.original_id = 0;
  waypoint.name.assign(name, name_length);

  // Parse altitude
  if (!ParseAltitude(line, waypoint.elevation) &&
      !CheckAltitude(waypoint))
    return false;

  // Skip whitespace
  while (*line == _T(' '))
    line++;

  // Parse waypoint name
  waypoint.comment.assign(line);

  waypoints.Append(std::move(waypoint));
  return true;
}
Exemplo n.º 17
0
/** 
 * Initialises waypoints with random and non-random waypoints
 * for testing
 *
 * @param waypoints waypoints class to add waypoints to
 */
bool setup_waypoints(Waypoints &waypoints, const unsigned n) 
{

  Waypoint wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed_zero),
                                          Angle::Degrees(fixed_zero)));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(wp);

  wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed_zero), 
                                 Angle::Degrees(fixed_one)));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(wp);

  wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed_one), 
                                 Angle::Degrees(fixed_one)));
  wp.name = _T("Hello");
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed_half;
  waypoints.Append(wp);

  wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed(0.8)), 
                                 Angle::Degrees(fixed(0.5))));
  wp.name = _T("Unk");
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(wp);

  wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed_one), 
                                 Angle::Degrees(fixed_zero)));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(wp);

  wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed_zero), 
                                 Angle::Degrees(fixed(0.23))));
  wp.type = Waypoint::Type::AIRFIELD;
  wp.elevation = fixed(0.25);
  waypoints.Append(wp);

  for (unsigned i=0; i<(unsigned)std::max((int)n-6,0); i++) {
    int x = rand()%1200-100;
    int y = rand()%1200-100;
    double z = rand()% std::max(terrain_height,1);
    wp = waypoints.Create(GeoPoint(Angle::Degrees(fixed(x/1000.0)), 
                                   Angle::Degrees(fixed(y/1000.0))));
    wp.type = Waypoint::Type::NORMAL;
    wp.elevation = fixed(z);
    waypoints.Append(wp);
  }
  waypoints.Optimise();

  if (verbose) {
    std::ofstream fin("results/res-wp-in.txt");
    for (unsigned i=1; i<=waypoints.size(); i++) {
      const Waypoint *wp = waypoints.LookupId(i);
      if (wp != NULL)
        fin << *wp;
    }
  }
  return true;
}
Exemplo n.º 18
0
bool
WaypointReaderSeeYou::ParseLine(const TCHAR* line, const unsigned linenum,
                              Waypoints &waypoints)
{
  enum {
    iName = 0,
    iLatitude = 3,
    iLongitude = 4,
    iElevation = 5,
    iStyle = 6,
    iRWDir = 7,
    iRWLen = 8,
    iFrequency = 9,
    iDescription = 10,
  };

  if (linenum == 0)
    ignore_following = false;

  // If (end-of-file or comment)
  if (StringIsEmpty(line) ||
      StringStartsWith(line, _T("**")) ||
      StringStartsWith(line, _T("*")))
    // -> return without error condition
    return true;

  TCHAR ctemp[4096];
  if (_tcslen(line) >= ARRAY_SIZE(ctemp))
    /* line too long for buffer */
    return false;

  // Skip first line if it doesn't begin with a quotation character
  // (usually the field order line)
  if (linenum == 0 && line[0] != _T('\"'))
    return true;

  // If task marker is reached ignore all following lines
  if (_tcsstr(line, _T("-----Related Tasks-----")) == line)
    ignore_following = true;
  if (ignore_following)
    return true;

  // Get fields
  const TCHAR *params[20];
  size_t n_params = ExtractParameters(line, ctemp, params,
                                      ARRAY_SIZE(params), true, _T('"'));

  // Check if the basic fields are provided
  if (iName >= n_params ||
      iLatitude >= n_params ||
      iLongitude >= n_params)
    return false;

  Waypoint new_waypoint;

  // Latitude (e.g. 5115.900N)
  if (!ParseAngle(params[iLatitude], new_waypoint.location.latitude, true))
    return false;

  // Longitude (e.g. 00715.900W)
  if (!ParseAngle(params[iLongitude], new_waypoint.location.longitude, false))
    return false;

  new_waypoint.location.Normalize(); // ensure longitude is within -180:180

  new_waypoint.file_num = file_num;
  new_waypoint.original_id = 0;

  // Name (e.g. "Some Turnpoint")
  if (*params[iName] == _T('\0'))
    return false;
  new_waypoint.name = params[iName];

  // Elevation (e.g. 458.0m)
  /// @todo configurable behaviour
  if ((iElevation >= n_params ||
      !ParseAltitude(params[iElevation], new_waypoint.elevation)) &&
      !CheckAltitude(new_waypoint))
    return false;

  // Style (e.g. 5)
  if (iStyle < n_params)
    ParseStyle(params[iStyle], new_waypoint.type);

  new_waypoint.flags.turn_point = true;

  // Frequency & runway direction/length (for airports and landables)
  // and description (e.g. "Some Description")
  if (new_waypoint.IsLandable()) {
    if (iFrequency < n_params)
      new_waypoint.radio_frequency = RadioFrequency::Parse(params[iFrequency]);

    // Runway length (e.g. 546.0m)
    fixed rwlen = fixed_minus_one;
    if (iRWLen < n_params && ParseDistance(params[iRWLen], rwlen) &&
        positive(rwlen))
      new_waypoint.runway.SetLength(uround(rwlen));

    if (iRWDir < n_params && *params[iRWDir]) {
      TCHAR *end;
      int direction =_tcstol(params[iRWDir], &end, 10);
      if (end == params[iRWDir] || direction < 0 || direction > 360 ||
          (direction == 0 && !positive(rwlen)))
        direction = -1;
      else if (direction == 360)
        direction = 0;
      if (direction >= 0)
        new_waypoint.runway.SetDirectionDegrees(direction);
    }
  }

  if (iDescription < n_params)
    new_waypoint.comment = params[iDescription];

  waypoints.Append(new_waypoint);
  return true;
}
Exemplo n.º 19
0
bool test_task_aat(TaskManager& task_manager,
                   const Waypoints &waypoints)
{
  const TaskProjection &projection =
    task_manager.get_ordered_task().get_task_projection();

  task_manager.set_factory(OrderedTask::FACTORY_AAT);
  AbstractTaskFactory &fact = task_manager.get_factory();
  const Waypoint *wp;

  task_report(task_manager, "# adding start\n");
  wp = waypoints.lookup_id(1);
  if (wp) {
    if (!fact.append(fact.createStart(*wp),false)) {
      return false;
    }
  }

  task_manager.setActiveTaskPoint(0);
  task_manager.resume();

  task_report(task_manager, "# adding intermediate\n");
  wp = waypoints.lookup_id(2);
  if (wp) {
    OrderedTaskPoint* tp = fact.createIntermediate(AbstractTaskFactory::AAT_CYLINDER,*wp);
    if (tp->get_oz()->shape == ObservationZonePoint::CYLINDER) {
      CylinderZone *cz = (CylinderZone *)tp->get_oz();
      cz->setRadius(fixed(30000.0));
      tp->update_oz(projection);
    }
    if (!fact.append(tp,false)) {
      return false;
    }
  }

  task_report(task_manager, "# adding intermediate\n");
  wp = waypoints.lookup_id(3);
  if (wp) {
    OrderedTaskPoint* tp = fact.createIntermediate(AbstractTaskFactory::AAT_CYLINDER,*wp);
    if (tp->get_oz()->shape == ObservationZonePoint::CYLINDER) {
      CylinderZone *cz = (CylinderZone *)tp->get_oz();
      cz->setRadius(fixed(40000.0));
      tp->update_oz(projection);
    }
    if (!fact.append(tp,false)) {
      return false;
    }
  }

  task_report(task_manager, "# adding finish\n");
  wp = waypoints.lookup_id(1);
  if (wp) {
    if (!fact.append(fact.createFinish(*wp),false)) {
      return false;
    }
  }

  task_report(task_manager, "# checking task..\n");
  if (!fact.validate()) {
    return false;
  }

  if (!task_manager.check_ordered_task()) {
    return false;
  }
  return true;
}
Exemplo n.º 20
0
bool test_task_manip(TaskManager& task_manager,
                     const Waypoints &waypoints)
{
  if (!test_task_mixed(task_manager, waypoints)) {
    return false;
  }
  AbstractTaskFactory &fact = task_manager.get_factory();

  task_report(task_manager, "# removing tp 2\n");
  if (!fact.remove(2)) {
    return false;
  }

  task_report(task_manager, "# removing tp 0\n");
  if (!fact.remove(0)) {
    return false;
  }

  task_report(task_manager, "# removing tp -1 (illegal)\n");
  if (fact.remove(0-1)) {
    return false;
  }

  task_report(task_manager, "# removing tp 50 (illegal)\n");
  if (fact.remove(50)) {
    return false;
  }

  OrderedTaskPoint *tp;
  const Waypoint *wp;

  task_report(task_manager, "# inserting at 3\n");
  wp = waypoints.lookup_id(3);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AST_CYLINDER,*wp);
    if (!fact.insert(tp,3)) return false;
  }

  task_report(task_manager, "# auto-replacing at 2 (no morph)\n");
  wp = waypoints.lookup_id(9);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AST_CYLINDER,*wp);
    if (!fact.replace(tp,2)) return false;
  }

  task_report(task_manager, "# auto-replacing at 2 (morph)\n");
  wp = waypoints.lookup_id(9);
  if (wp) {
    tp = fact.createStart(*wp);
    if (!fact.replace(tp,2)) return false;
  }

  task_report(task_manager, "# auto-replacing at 0 (morph this)\n");
  wp = waypoints.lookup_id(12);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AST_CYLINDER,*wp);
    if (!fact.replace(tp,0)) return false;
  }

  task_report(task_manager, "# auto-replacing at end (morph this)\n");
  wp = waypoints.lookup_id(14);
  if (wp) {
    tp = fact.createIntermediate(AbstractTaskFactory::AST_CYLINDER,*wp);
    if (!fact.replace(tp,task_manager.task_size()-1)) return false;
  }

  task_report(task_manager, "# removing finish point\n");
  if (!fact.remove(task_manager.task_size()-1)) {
    return false;
  }

  task_report(task_manager, "# inserting at 50 (equivalent to append)\n");
  wp = waypoints.lookup_id(8);
  if (wp) {
    tp = fact.createFinish(*wp);
    if (!fact.insert(tp,50)) return false;
  }

  task_report(task_manager, "# inserting at 0 (morph this)\n");
  wp = waypoints.lookup_id(3);
  if (wp) {
    tp = fact.createFinish(*wp);
    if (!fact.insert(tp,0)) return false;
  }

  task_report(task_manager, "# inserting at 2 (morph this)\n");
  wp = waypoints.lookup_id(4);
  if (wp) {
    tp = fact.createStart(*wp);
    if (!fact.insert(tp,2)) return false;
  }

  task_report(task_manager, "# inserting at 2 (direct)\n");
  wp = waypoints.lookup_id(6);
  if (wp) {
    tp = fact.createIntermediate(*wp);
    if (!fact.insert(tp,2,false)) return false;
  }

  task_report(task_manager, "# checking task\n");

  if (task_manager.check_ordered_task()) {
    task_manager.reset();
    task_manager.setActiveTaskPoint(0);
    task_manager.resume();
  } else {
    return false;
  }
  return true;
}
Exemplo n.º 21
0
void
MapItemListBuilder::AddWaypoints(const Waypoints &waypoints)
{
  WaypointListBuilderVisitor waypoint_list_builder(list);
  waypoints.VisitWithinRange(location, range, waypoint_list_builder);
}
Exemplo n.º 22
0
void WaypointListBuilder::Visit(const Waypoints &waypoints) {
  if (filter.distance > 0)
    waypoints.VisitWithinRange(location, filter.distance, *this);
  else
    waypoints.VisitNamePrefix(filter.name, *this);
}
Exemplo n.º 23
0
bool test_task_fai(TaskManager& task_manager,
                   const Waypoints &waypoints)
{
  task_manager.SetFactory(TaskFactoryType::FAI_GENERAL);
  AbstractTaskFactory &fact = task_manager.GetFactory();
  WaypointPtr wp;

  task_report(task_manager, "# adding start\n");
  wp = waypoints.LookupId(1);
  if (wp) {
    OrderedTaskPoint *tp = fact.CreateStart(std::move(wp));
    if (!fact.Append(*tp)) {
      return false;
    }
    delete tp;
  }

  task_manager.SetActiveTaskPoint(0);
  task_manager.Resume();

  task_report(task_manager, "# adding intermdiate\n");
  wp = waypoints.LookupId(2);
  if (wp) {
    OrderedTaskPoint *tp = fact.CreateIntermediate(std::move(wp));
    if (!fact.Append(*tp, false)) {
      return false;
    }
    delete tp;
  }

  task_report(task_manager, "# adding intermdiate\n");
  wp = waypoints.LookupId(3);
  if (wp) {
    OrderedTaskPoint *tp = fact.CreateIntermediate(std::move(wp));
    if (!fact.Append(*tp,false)) {
      return false;
    }
    delete tp;
  }

  task_report(task_manager, "# adding finish\n");
  wp = waypoints.LookupId(1);
  if (wp) {
    OrderedTaskPoint *tp = fact.CreateFinish(std::move(wp));
    if (!fact.Append(*tp,false)) {
      return false;
    }
    delete tp;
  }

  fact.UpdateStatsGeometry();

  task_report(task_manager, "# checking task\n");
  if (!fact.Validate()) {
    return false;
  }

  if (!task_manager.CheckOrderedTask()) {
    return false;
  }
  return true;
}
Exemplo n.º 24
0
bool
WaypointReaderWinPilot::ParseLine(const TCHAR *line, Waypoints &waypoints)
{
  TCHAR ctemp[4096];
  const TCHAR *params[20];
  static constexpr unsigned int max_params = ARRAY_SIZE(params);
  size_t n_params;

  // If (end-of-file)
  if (line[0] == '\0')
    // -> return without error condition
    return true;

  // If comment
  if (line[0] == _T('*')) {
    if (first) {
      first = false;
      welt2000_format = (_tcsstr(line, _T("WRITTEN BY WELT2000")) != nullptr);
    }

    // -> return without error condition
    return true;
  }

  if (_tcslen(line) >= ARRAY_SIZE(ctemp))
    /* line too long for buffer */
    return false;

  GeoPoint location;

  // Get fields
  n_params = ExtractParameters(line, ctemp, params, max_params, true);
  if (n_params < 6)
    return false;

  // Latitude (e.g. 51:15.900N)
  if (!ParseAngle(params[1], location.latitude, true))
    return false;

  // Longitude (e.g. 00715.900W)
  if (!ParseAngle(params[2], location.longitude, false))
    return false;
  location.Normalize(); // ensure longitude is within -180:180

  Waypoint new_waypoint = factory.Create(location);

  // Name (e.g. KAMPLI)
  if (*params[5] == _T('\0'))
    return false;
  new_waypoint.name=params[5];

  // Altitude (e.g. 458M)
  /// @todo configurable behaviour
  if (!ParseAltitude(params[3], new_waypoint.elevation) &&
      !factory.FallbackElevation(new_waypoint))
    return false;

  if (n_params > 6) {
    // Description (e.g. 119.750 Airport)
    new_waypoint.comment=params[6];
    if (welt2000_format)
      ParseRunwayDirection(params[6], new_waypoint.runway);
  }

  // Waypoint Flags (e.g. AT)
  ParseFlags(params[4], new_waypoint);

  waypoints.Append(std::move(new_waypoint));
  return true;
}
Exemplo n.º 25
0
void
XCSoarInterface::Shutdown(void)
{
  gcc_unused ScopeBusyIndicator busy;

  // Show progress dialog
  ProgressGlue::Create(_("Shutdown, please wait..."));

  // Log shutdown information
  LogStartUp(_T("Entering shutdown..."));
  StartupLogFreeRamAndStorage();

  // Turn off all displays
  globalRunningEvent.reset();

  // Stop logger and save igc file
  ProgressGlue::Create(_("Shutdown, saving logs..."));
  logger.guiStopLogger(Basic(), true);

  // Save settings to profile
  ProgressGlue::Create(_("Shutdown, saving profile..."));
  Profile::Save();

  // Stop sound
  LogStartUp(_T("SaveSoundSettings"));
  Profile::SetSoundSettings();

#ifndef DISABLEAUDIOVARIO
  //  VarioSound_EnableSound(false);
  //  VarioSound_Close();
#endif

  ProgressGlue::Create(_("Shutdown, please wait..."));

  // Stop threads
  LogStartUp(_T("Stop threads"));
#ifndef ENABLE_OPENGL
  draw_thread->stop();
#endif
  calculation_thread->stop();

  // Wait for the calculations thread to finish
  LogStartUp(_T("Waiting for calculation thread"));
  calculation_thread->join();
  delete calculation_thread;
  calculation_thread = NULL;

  //  Wait for the drawing thread to finish
#ifndef ENABLE_OPENGL
  LogStartUp(_T("Waiting for draw thread"));

  draw_thread->join();
  delete draw_thread;
#endif

  LogStartUp(_T("delete MapWindow"));
  main_window.map.reset();

  // Save the task for the next time
  ProgressGlue::Create(_("Shutdown, saving task..."));

  LogStartUp(_T("Save default task"));
  protected_task_manager->task_save_default();

  // Clear waypoint database
  LogStartUp(_T("Close waypoints"));
  way_points.clear();

  ProgressGlue::Create(_("Shutdown, please wait..."));

  // Clear weather database
  LogStartUp(_T("CloseRASP"));
  RASP.Close();

  // Clear terrain database
  LogStartUp(_T("CloseTerrain"));

  delete terrain;

  LogStartUp(_T("CloseTopography"));
  delete topography;

  delete marks;

  // Close any device connections
  devShutdown();

  RawLoggerShutdown();

  delete replay;

  // Save everything in the persistent memory file
  SaveCalculationsPersist(Basic(), Calculated(),
                          *protected_task_manager, *glide_computer,
                          logger);

  delete protected_task_manager;
  delete task_manager;

  // Kill windows
  LogStartUp(_T("Destroy Info Boxes"));
  InfoBoxManager::Destroy();

  LogStartUp(_T("Destroy Button Labels"));
  ButtonLabel::Destroy();

  // Close the progress dialog
  LogStartUp(_T("Close Progress Dialog"));
  ProgressGlue::Close();

  // Clear the EGM96 database
  CloseGeoid();

  delete glide_computer;

  // Clear airspace database
  LogStartUp(_T("Close airspace"));
  airspace_warnings->clear();
  airspace_database.clear();

  delete airspace_warnings;
  delete airspace_warning;

  // Destroy FlarmNet records
  FlarmNet::Destroy();

  delete file_cache;

  LogStartUp(_T("Close Windows - main "));
  main_window.reset();

  CloseLanguageFile();

  RestoreDisplayOrientation();

  StartupLogFreeRamAndStorage();

  LogStartUp(_T("Finished shutdown"));
}
Exemplo n.º 26
0
bool
WaypointReaderSeeYou::ParseLine(const TCHAR* line, Waypoints &waypoints)
{
  enum {
    iName = 0,
    iLatitude = 3,
    iLongitude = 4,
    iElevation = 5,
    iStyle = 6,
    iRWDir = 7,
    iRWLen = 8,
    iFrequency = 9,
    iDescription = 10,
  };

  if (first) {
    first = false;

    /* skip first line if it doesn't begin with a quotation character
       (usually the field order line) */
    if (line[0] != _T('\"'))
      return true;
  }

  // If (end-of-file or comment)
  if (StringIsEmpty(line) ||
      StringStartsWith(line, _T("*")))
    // -> return without error condition
    return true;

  TCHAR ctemp[4096];
  if (_tcslen(line) >= ARRAY_SIZE(ctemp))
    /* line too long for buffer */
    return false;

  // If task marker is reached ignore all following lines
  if (StringStartsWith(line, _T("-----Related Tasks-----")))
    ignore_following = true;
  if (ignore_following)
    return true;

  // Get fields
  const TCHAR *params[20];
  size_t n_params = ExtractParameters(line, ctemp, params,
                                      ARRAY_SIZE(params), true, _T('"'));

  // Check if the basic fields are provided
  if (iName >= n_params ||
      iLatitude >= n_params ||
      iLongitude >= n_params)
    return false;

  GeoPoint location;

  // Latitude (e.g. 5115.900N)
  if (!ParseAngle(params[iLatitude], location.latitude, true))
    return false;

  // Longitude (e.g. 00715.900W)
  if (!ParseAngle(params[iLongitude], location.longitude, false))
    return false;

  location.Normalize(); // ensure longitude is within -180:180

  Waypoint new_waypoint = factory.Create(location);

  // Name (e.g. "Some Turnpoint")
  if (*params[iName] == _T('\0'))
    return false;
  new_waypoint.name = params[iName];

  // Elevation (e.g. 458.0m)
  /// @todo configurable behaviour
  if ((iElevation >= n_params ||
      !ParseAltitude(params[iElevation], new_waypoint.elevation)) &&
      !factory.FallbackElevation(new_waypoint))
    return false;

  // Style (e.g. 5)
  if (iStyle < n_params)
    ParseStyle(params[iStyle], new_waypoint.type);

  new_waypoint.flags.turn_point = true;

  // Frequency & runway direction/length (for airports and landables)
  // and description (e.g. "Some Description")
  if (new_waypoint.IsLandable()) {
    if (iFrequency < n_params)
      new_waypoint.radio_frequency = RadioFrequency::Parse(params[iFrequency]);

    // Runway length (e.g. 546.0m)
    double rwlen = -1;
    if (iRWLen < n_params && ParseDistance(params[iRWLen], rwlen) &&
        rwlen > 0)
      new_waypoint.runway.SetLength(uround(rwlen));

    if (iRWDir < n_params && *params[iRWDir]) {
      TCHAR *end;
      int direction =_tcstol(params[iRWDir], &end, 10);
      if (end == params[iRWDir] || direction < 0 || direction > 360 ||
          (direction == 0 && rwlen <= 0))
        direction = -1;
      else if (direction == 360)
        direction = 0;
      if (direction >= 0)
        new_waypoint.runway.SetDirectionDegrees(direction);
    }
  }

  if (iDescription < n_params) {
    /*
     * This convention was introduced by the OpenAIP
     * project (http://www.openaip.net/), since no waypoint type
     * exists for thermal hotspots.
     */
    if (StringStartsWith(params[iDescription], _T("Hotspot")))
      new_waypoint.type = Waypoint::Type::THERMAL_HOTSPOT;

    new_waypoint.comment = params[iDescription];
  }

  waypoints.Append(std::move(new_waypoint));
  return true;
}
Exemplo n.º 27
0
/** 
 * Initialises waypoints with random and non-random waypoints
 * for testing
 *
 * @param waypoints waypoints class to add waypoints to
 */
bool setup_waypoints(Waypoints &waypoints, const unsigned n) 
{

  Waypoint wp = waypoints.create(GeoPoint(Angle::degrees(fixed_zero),
                                          Angle::degrees(fixed_zero)));
  wp.Flags.Airport = true;
  wp.Altitude = fixed(0.25);
  waypoints.append(wp);

  wp = waypoints.create(GeoPoint(Angle::degrees(fixed_zero), 
                                 Angle::degrees(fixed_one)));
  wp.Flags.Airport = true;
  wp.Altitude = fixed(0.25);
  waypoints.append(wp);

  wp = waypoints.create(GeoPoint(Angle::degrees(fixed_one), 
                                 Angle::degrees(fixed_one)));
  wp.Name = _T("Hello");
  wp.Flags.Airport = true;
  wp.Altitude = fixed_half;
  waypoints.append(wp);

  wp = waypoints.create(GeoPoint(Angle::degrees(fixed(0.8)), 
                                 Angle::degrees(fixed(0.5))));
  wp.Name = _T("Unk");
  wp.Flags.Airport = true;
  wp.Altitude = fixed(0.25);
  waypoints.append(wp);

  wp = waypoints.create(GeoPoint(Angle::degrees(fixed_one), 
                                 Angle::degrees(fixed_zero)));
  wp.Flags.Airport = true;
  wp.Altitude = fixed(0.25);
  waypoints.append(wp);

  wp = waypoints.create(GeoPoint(Angle::degrees(fixed_zero), 
                                 Angle::degrees(fixed(0.23))));
  wp.Flags.Airport = true;
  wp.Altitude = fixed(0.25);
  waypoints.append(wp);

  for (unsigned i=0; i<(unsigned)std::max((int)n-6,0); i++) {
    int x = rand()%1200-100;
    int y = rand()%1200-100;
    double z = rand()% std::max(terrain_height,1);
    wp = waypoints.create(GeoPoint(Angle::degrees(fixed(x/1000.0)), 
                                   Angle::degrees(fixed(y/1000.0))));
    wp.Flags.Airport = false;
    wp.Altitude = fixed(z);
    waypoints.append(wp);
  }
  waypoints.optimise();

  if (verbose) {
    std::ofstream fin("results/res-wp-in.txt");
    for (unsigned i=1; i<=waypoints.size(); i++) {
      Waypoints::WaypointTree::const_iterator it = waypoints.find_id(i);
      if (it != waypoints.end()) {
#ifdef DO_PRINT
        fin << it->get_waypoint();
#endif
      }
    }
  }
  return true;
}