bool Update() { ProtectedTaskManager::Lease lease(*protected_task_manager); alternates = lease->GetAlternates(); return !alternates.empty(); }
bool AbortTask::FillReachable(const AircraftState &state, AlternateList &approx_waypoints, const GlidePolar &polar, bool only_airfield, bool final_glide, bool safety) { if (IsTaskFull() || approx_waypoints.empty()) return false; const AGeoPoint p_start(state.location, state.altitude); bool found_final_glide = false; reservable_priority_queue<AlternatePoint, AlternateList, AbortRank> q; q.reserve(32); for (auto v = approx_waypoints.begin(); v != approx_waypoints.end();) { if (only_airfield && !v->waypoint.IsAirport()) { ++v; continue; } UnorderedTaskPoint t(v->waypoint, task_behaviour); GlideResult result = TaskSolution::GlideSolutionRemaining(t, state, task_behaviour.glide, polar); if (IsReachable(result, final_glide)) { bool intersects = false; const bool is_reachable_final = IsReachable(result, true); if (intersection_test && final_glide && is_reachable_final) intersects = intersection_test->Intersects( AGeoPoint(v->waypoint.location, result.min_arrival_altitude)); if (!intersects) { q.push(AlternatePoint(v->waypoint, result)); // remove it since it's already in the list now v = approx_waypoints.erase(v); if (is_reachable_final) found_final_glide = true; continue; // skip incrementing v since we just erased it } } ++v; } while (!q.empty() && !IsTaskFull()) { const AlternatePoint top = q.top(); task_points.emplace_back(top.waypoint, task_behaviour, top.solution); const int i = task_points.size() - 1; if (task_points[i].point.GetWaypoint().id == active_waypoint) active_task_point = i; q.pop(); } return found_final_glide; }