void ProductionQueueOrder::ExecuteImpl() const {
ValidateEmpireID();
Empire* empire = GetEmpire(EmpireID());
try {
if (m_item.build_type == BT_BUILDING || m_item.build_type == BT_SHIP) {
empire->PlaceBuildInQueue(m_item, m_number, m_location, m_new_index);
} else if (m_new_blocksize != INVALID_QUANTITY) {
DebugLogger() << "ProductionQueueOrder quantity " << m_new_quantity << " Blocksize " << m_new_blocksize;
empire->SetBuildQuantityAndBlocksize(m_index, m_new_quantity, m_new_blocksize);
} else if (m_new_quantity != INVALID_QUANTITY) {
empire->SetBuildQuantity(m_index, m_new_quantity);
} else if (m_new_index != INVALID_INDEX) {
empire->MoveBuildWithinQueue(m_index, m_new_index);
} else if (m_rally_point_id != INVALID_OBJECT_ID) {
DebugLogger() << "ProductionQueueOrder setting rally point to id: " << m_rally_point_id;
empire->SetBuildRallyPoint(m_index, m_rally_point_id);
} else if (m_index != INVALID_INDEX) {
DebugLogger() << "ProductionQueueOrder removing build from index " << m_index;
empire->RemoveBuildFromQueue(m_index);
} else {
ErrorLogger() << "Malformed ProductionQueueOrder.";
}
} catch (const std::exception& e) {
ErrorLogger() << "Build order execution threw exception: " << e.what();
}
}
void ProductionQueueOrder::ExecuteImpl() const {
ValidateEmpireID();
Empire* empire = GetEmpire(EmpireID());
try {
if (m_build_type == BT_BUILDING)
empire->PlaceBuildInQueue(BT_BUILDING, m_item_name, m_number, m_location);
else if (m_build_type == BT_SHIP)
empire->PlaceBuildInQueue(BT_SHIP, m_design_id, m_number, m_location);
else if (m_new_blocksize != INVALID_QUANTITY) {
DebugLogger() << "ProductionQueueOrder quantity " << m_new_quantity << " Blocksize " << m_new_blocksize;
empire->SetBuildQuantityAndBlocksize(m_index, m_new_quantity, m_new_blocksize);
}
else if (m_new_quantity != INVALID_QUANTITY)
empire->SetBuildQuantity(m_index, m_new_quantity);
else if (m_new_index != INVALID_INDEX)
empire->MoveBuildWithinQueue(m_index, m_new_index);
else if (m_index != INVALID_INDEX) {
DebugLogger() << "ProductionQueueOrder removing build from index " << m_index;
empire->RemoveBuildFromQueue(m_index);
}
else
ErrorLogger() << "Malformed ProductionQueueOrder.";
} catch (const std::exception& e) {
ErrorLogger() << "Build order execution threw exception: " << e.what();
}
}
void AggressiveOrder::ExecuteImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
if (TemporaryPtr<Fleet> fleet = GetFleet(m_object_id)) {
if (fleet->OwnedBy(empire_id))
fleet->SetAggressive(m_aggression);
}
}
void BombardOrder::ExecuteImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
TemporaryPtr<Ship> ship = GetShip(m_ship);
if (!ship) {
ErrorLogger() << "BombardOrder::ExecuteImpl couldn't get ship with id " << m_ship;
return;
}
if (!ship->CanBombard()) {
ErrorLogger() << "BombardOrder::ExecuteImpl got ship that can't bombard";
return;
}
if (!ship->OwnedBy(empire_id)) {
ErrorLogger() << "BombardOrder::ExecuteImpl got ship that isn't owned by the order-issuing empire";
return;
}
TemporaryPtr<Planet> planet = GetPlanet(m_planet);
if (!planet) {
ErrorLogger() << "BombardOrder::ExecuteImpl couldn't get planet with id " << m_planet;
return;
}
if (planet->OwnedBy(empire_id)) {
ErrorLogger() << "BombardOrder::ExecuteImpl given planet that is already owned by the order-issuing empire";
return;
}
if (!planet->Unowned() && Empires().GetDiplomaticStatus(planet->Owner(), empire_id) != DIPLO_WAR) {
ErrorLogger() << "BombardOrder::ExecuteImpl given planet owned by an empire not at war with order-issuing empire";
return;
}
if (GetUniverse().GetObjectVisibilityByEmpire(m_planet, empire_id) < VIS_BASIC_VISIBILITY) {
ErrorLogger() << "BombardOrder::ExecuteImpl given planet that empire reportedly has insufficient visibility of, but will be allowed to proceed pending investigation";
//return;
}
int ship_system_id = ship->SystemID();
if (ship_system_id == INVALID_OBJECT_ID) {
ErrorLogger() << "BombardOrder::ExecuteImpl given id of ship not in a system";
return;
}
int planet_system_id = planet->SystemID();
if (ship_system_id != planet_system_id) {
ErrorLogger() << "BombardOrder::ExecuteImpl given ids of ship and planet not in the same system";
return;
}
// note: multiple ships, from same or different empires, can invade the same planet on the same turn
DebugLogger() << "BombardOrder::ExecuteImpl set for ship " << m_ship << " "
<< ship->Name() << " to bombard planet " << m_planet << " " << planet->Name();
planet->SetIsAboutToBeBombarded(true);
ship->SetBombardPlanet(m_planet);
if (TemporaryPtr<Fleet> fleet = GetFleet(ship->FleetID()))
fleet->StateChangedSignal();
}
void ResearchQueueOrder::ExecuteImpl() const {
ValidateEmpireID();
Empire* empire = GetEmpire(EmpireID());
if (!empire) return;
if (m_remove) {
DebugLogger() << "ResearchQueueOrder::ExecuteImpl: removing from queue tech: " << m_tech_name;
empire->RemoveTechFromQueue(m_tech_name);
}
else
empire->PlaceTechInQueue(m_tech_name, m_position);
}
void GiveObjectToEmpireOrder::ExecuteImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
if (TemporaryPtr<Fleet> fleet = GetFleet(m_object_id)) {
if (fleet->OwnedBy(empire_id))
fleet->SetGiveToEmpire(m_recipient_empire_id);
} else if (TemporaryPtr<Planet> planet = GetPlanet(m_object_id)) {
if (planet->OwnedBy(empire_id))
planet->SetGiveToEmpire(m_recipient_empire_id);
}
}
bool ScrapOrder::UndoImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
if (TemporaryPtr<Ship> ship = GetShip(m_object_id)) {
if (ship->OwnedBy(empire_id))
ship->SetOrderedScrapped(false);
} else if (TemporaryPtr<Building> building = GetBuilding(m_object_id)) {
if (building->OwnedBy(empire_id))
building->SetOrderedScrapped(false);
} else {
return false;
}
return true;
}
void ChangeFocusOrder::ExecuteImpl() const {
ValidateEmpireID();
TemporaryPtr<Planet> planet = GetPlanet(PlanetID());
if (!planet) {
ErrorLogger() << "Illegal planet id specified in change planet focus order.";
return;
}
if (!planet->OwnedBy(EmpireID())) {
ErrorLogger() << "Empire attempted to issue change planet focus to another's planet.";
return;
}
planet->SetFocus(m_focus);
}
bool GiveObjectToEmpireOrder::UndoImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
if (TemporaryPtr<Fleet> fleet = GetFleet(m_object_id)) {
if (fleet->OwnedBy(empire_id)) {
fleet->ClearGiveToEmpire();
return true;
}
} else if (TemporaryPtr<Planet> planet = GetPlanet(m_object_id)) {
if (planet->OwnedBy(empire_id)) {
planet->ClearGiveToEmpire();
return true;
}
}
return false;
}
void ScrapOrder::ExecuteImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
if (TemporaryPtr<Ship> ship = GetShip(m_object_id)) {
if (ship->SystemID() != INVALID_OBJECT_ID && ship->OwnedBy(empire_id)) {
ship->SetOrderedScrapped(true);
//DebugLogger() << "ScrapOrder::ExecuteImpl empire: " << empire_id
// << " on ship: " << ship->ID() << " at system: " << ship->SystemID()
// << " ... ordered scrapped?: " << ship->OrderedScrapped();
}
} else if (TemporaryPtr<Building> building = GetBuilding(m_object_id)) {
int planet_id = building->PlanetID();
if (TemporaryPtr<const Planet> planet = GetPlanet(planet_id)) {
if (building->OwnedBy(empire_id) && planet->OwnedBy(empire_id))
building->SetOrderedScrapped(true);
}
}
}
void DeleteFleetOrder::ExecuteImpl() const {
ValidateEmpireID();
TemporaryPtr<Fleet> fleet = GetFleet(FleetID());
if (!fleet) {
ErrorLogger() << "Illegal fleet id specified in fleet delete order: " << FleetID();
return;
}
if (!fleet->OwnedBy(EmpireID())) {
ErrorLogger() << "Empire attempted to issue deletion order to another's fleet.";
return;
}
if (!fleet->Empty())
return; // should be no ships to delete
TemporaryPtr<System> system = GetSystem(fleet->SystemID());
if (system)
system->Remove(fleet->ID());
GetUniverse().Destroy(FleetID());
}
void RenameOrder::ExecuteImpl() const {
ValidateEmpireID();
TemporaryPtr<UniverseObject> obj = GetUniverseObject(m_object);
if (!obj) {
ErrorLogger() << "Attempted to rename nonexistant object with id " << m_object;
return;
}
// verify that empire specified in order owns specified object
if (!obj->OwnedBy(EmpireID())) {
ErrorLogger() << "Empire specified in rename order does not own specified object.";
return;
}
// disallow the name "", since that denotes an unknown object
if (m_name == "") {
ErrorLogger() << "Name \"\" specified in rename order is invalid.";
return;
}
obj->Rename(m_name);
}
void FleetMoveOrder::ExecuteImpl() const {
ValidateEmpireID();
TemporaryPtr<Fleet> fleet = GetFleet(FleetID());
if (!fleet) {
ErrorLogger() << "Empire with id " << EmpireID() << " ordered fleet with id " << FleetID() << " to move, but no such fleet exists";
return;
}
TemporaryPtr<const System> destination_system = GetEmpireKnownSystem(DestinationSystemID(), EmpireID());
if (!destination_system) {
ErrorLogger() << "Empire with id " << EmpireID() << " ordered fleet to move to system with id " << DestinationSystemID() << " but no such system is known to that empire";
return;
}
// reject empty routes
if (m_route.empty()) {
ErrorLogger() << "Empire with id " << EmpireID() << " ordered fleet to move on empty route";
return;
}
// verify that empire specified in order owns specified fleet
if (!fleet->OwnedBy(EmpireID()) ) {
ErrorLogger() << "Empire with id " << EmpireID() << " order to move but does not own fleet with id " << FleetID();
return;
}
// verify fleet route first system
int fleet_sys_id = fleet->SystemID();
if (!m_append || fleet->TravelRoute().empty()) {
if (fleet_sys_id != INVALID_OBJECT_ID) {
// fleet is in a system. Its move path should also start from that system.
if (fleet_sys_id != m_start_system) {
ErrorLogger() << "Empire with id " << EmpireID()
<< " ordered a fleet to move from a system with id " << m_start_system
<< " that it is not at. Fleet is located at system with id " << fleet_sys_id;
return;
}
} else {
// fleet is not in a system. Its move path should start from the next system it is moving to.
int next_system = fleet->NextSystemID();
if (next_system != m_start_system) {
ErrorLogger() << "Empire with id " << EmpireID()
<< " ordered a fleet to move starting from a system with id " << m_start_system
<< ", but the fleet's next destination is system with id " << next_system;
return;
}
}
} else {
// We should append and there is something to append to
int last_system = fleet->TravelRoute().back();
if (last_system != m_start_system) {
ErrorLogger() << "Empire with id " << EmpireID()
<< " ordered a fleet to continue from system with id " << m_start_system
<< ", but the fleet's current route won't lead there, it leads to system " << last_system;
return;
}
}
// convert list of ids to list of System
std::list<int> route_list;
if(m_append && !fleet->TravelRoute().empty()){
route_list = fleet->TravelRoute();
route_list.erase(--route_list.end());// Remove the last one since it is the first one of the other
}
std::copy(m_route.begin(), m_route.end(), std::back_inserter(route_list));
// validate route. Only allow travel between systems connected in series by starlanes known to this fleet's owner.
// check destination validity: disallow movement that's out of range
std::pair<int, int> eta = fleet->ETA(fleet->MovePath(route_list));
if (eta.first == Fleet::ETA_NEVER || eta.first == Fleet::ETA_OUT_OF_RANGE) {
DebugLogger() << "FleetMoveOrder::ExecuteImpl rejected out of range move order";
return;
}
std::string waypoints;
for (std::list<int>::iterator it = route_list.begin(); it != route_list.end(); ++it) {
waypoints += std::string(" ") + boost::lexical_cast<std::string>(*it);
}
DebugLogger() << "FleetMoveOrder::ExecuteImpl Setting route of fleet " << fleet->ID() << " to " << waypoints;
fleet->SetRoute(route_list);
}
void ColonizeOrder::ExecuteImpl() const {
ValidateEmpireID();
int empire_id = EmpireID();
TemporaryPtr<Ship> ship = GetShip(m_ship);
if (!ship) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl couldn't get ship with id " << m_ship;
return;
}
if (!ship->CanColonize()) { // verifies that species exists and can colonize and that ship can colonize
ErrorLogger() << "ColonizeOrder::ExecuteImpl got ship that can't colonize";
return;
}
if (!ship->OwnedBy(empire_id)) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl got ship that isn't owned by the order-issuing empire";
return;
}
float colonist_capacity = ship->ColonyCapacity();
TemporaryPtr<Planet> planet = GetPlanet(m_planet);
if (!planet) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl couldn't get planet with id " << m_planet;
return;
}
if (planet->CurrentMeterValue(METER_POPULATION) > 0.0f) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given planet that already has population";
return;
}
if (!planet->Unowned() && planet->Owner() != empire_id) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given planet that owned by another empire";
return;
}
if (planet->OwnedBy(empire_id) && colonist_capacity == 0.0f) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given planet that is already owned by empire and colony ship with zero capcity";
return;
}
if (GetUniverse().GetObjectVisibilityByEmpire(m_planet, empire_id) < VIS_PARTIAL_VISIBILITY) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given planet that empire has insufficient visibility of";
return;
}
if (colonist_capacity > 0.0f && planet->EnvironmentForSpecies(ship->SpeciesName()) < PE_HOSTILE) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl nonzero colonist capacity and planet that ship's species can't colonize";
return;
}
int ship_system_id = ship->SystemID();
if (ship_system_id == INVALID_OBJECT_ID) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given id of ship not in a system";
return;
}
int planet_system_id = planet->SystemID();
if (ship_system_id != planet_system_id) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given ids of ship and planet not in the same system";
return;
}
if (planet->IsAboutToBeColonized()) {
ErrorLogger() << "ColonizeOrder::ExecuteImpl given id planet that is already being colonized";
return;
}
planet->SetIsAboutToBeColonized(true);
ship->SetColonizePlanet(m_planet);
if (TemporaryPtr<Fleet> fleet = GetFleet(ship->FleetID()))
fleet->StateChangedSignal();
}
void FleetTransferOrder::ExecuteImpl() const {
ValidateEmpireID();
// look up the destination fleet
TemporaryPtr<Fleet> target_fleet = GetFleet(DestinationFleet());
if (!target_fleet) {
ErrorLogger() << "Empire attempted to move ships to a nonexistant fleet";
return;
}
// check that destination fleet is owned by empire
if (!target_fleet->OwnedBy(EmpireID())) {
ErrorLogger() << "Empire attempted to move ships to a fleet it does not own";
return;
}
// verify that fleet is in a system
if (target_fleet->SystemID() == INVALID_OBJECT_ID) {
ErrorLogger() << "Empire attempted to transfer ships to/from fleet(s) not in a system";
return;
}
// check that all ships are in the same system
std::vector<TemporaryPtr<Ship> > ships = Objects().FindObjects<Ship>(m_add_ships);
std::vector<TemporaryPtr<Ship> > validated_ships;
validated_ships.reserve(m_add_ships.size());
std::vector<int> validated_ship_ids;
validated_ship_ids.reserve(m_add_ships.size());
for (std::vector<TemporaryPtr<Ship> >::const_iterator it = ships.begin();
it != ships.end(); ++it)
{
TemporaryPtr<Ship> ship = *it;
if (!ship->OwnedBy(EmpireID()))
continue;
if (ship->SystemID() != target_fleet->SystemID())
continue;
if (ship->FleetID() == target_fleet->ID())
continue;
validated_ships.push_back(ship);
validated_ship_ids.push_back(ship->ID());
}
if (validated_ships.empty())
return;
GetUniverse().InhibitUniverseObjectSignals(true);
// remove from old fleet(s)
std::set<TemporaryPtr<Fleet> > modified_fleets;
for (std::vector<TemporaryPtr<Ship> >::iterator it = validated_ships.begin();
it != validated_ships.end(); ++it)
{
TemporaryPtr<Ship> ship = *it;
if (TemporaryPtr<Fleet> source_fleet = GetFleet(ship->FleetID())) {
source_fleet->RemoveShip(ship->ID());
modified_fleets.insert(source_fleet);
}
ship->SetFleetID(target_fleet->ID());
}
// add to new fleet
target_fleet->AddShips(validated_ship_ids);
GetUniverse().InhibitUniverseObjectSignals(false);
// signal change to fleet states
modified_fleets.insert(target_fleet);
for (std::set<TemporaryPtr<Fleet> >::iterator it = modified_fleets.begin();
it != modified_fleets.end(); ++it)
{
TemporaryPtr<Fleet> modified_fleet = *it;
if (!modified_fleet->Empty())
modified_fleet->StateChangedSignal();
// if modified fleet is empty, it should be immently destroyed, so that updating it now is redundant
}
}
void ShipDesignOrder::ExecuteImpl() const {
ValidateEmpireID();
Universe& universe = GetUniverse();
Empire* empire = GetEmpire(EmpireID());
if (m_delete_design_from_empire) {
// player is ordering empire to forget about a particular design
if (!empire->ShipDesignKept(m_design_id)) {
ErrorLogger() << "Tried to remove a ShipDesign that the empire wasn't remembering";
return;
}
empire->RemoveShipDesign(m_design_id);
} else if (m_create_new_design) {
// check if a design with this ID already exists
if (universe.GetShipDesign(m_design_id)) {
ErrorLogger() << "Tried to create a new ShipDesign with an id of an already-existing ShipDesign";
return;
}
ShipDesign* new_ship_design = new ShipDesign(m_name, m_description,
m_designed_on_turn, EmpireID(), m_hull, m_parts,
m_icon, m_3D_model, m_name_desc_in_stringtable,
m_is_monster);
universe.InsertShipDesignID(new_ship_design, m_design_id);
universe.SetEmpireKnowledgeOfShipDesign(m_design_id, EmpireID());
empire->AddShipDesign(m_design_id);
} else if (m_update_name_or_description) {
// player is ordering empire to rename a design
const std::set<int>& empire_known_design_ids = universe.EmpireKnownShipDesignIDs(EmpireID());
std::set<int>::iterator design_it = empire_known_design_ids.find(m_design_id);
if (design_it == empire_known_design_ids.end()) {
ErrorLogger() << "Tried to rename/redescribe a ShipDesign that this empire hasn't seen";
return;
}
const ShipDesign* design = GetShipDesign(*design_it);
if (!design) {
ErrorLogger() << "Tried to rename/redescribe a ShipDesign that doesn't exist (but this empire has seen it)!";
return;
}
if (design->DesignedByEmpire() != EmpireID()) {
ErrorLogger() << "Tried to rename/redescribe a ShipDesign that isn't owned by this empire!";
return;
}
GetUniverse().RenameShipDesign(m_design_id, m_name, m_description);
} else if (m_move_design) {
//Move an existing design from its current location to just before the after_design
if (!empire->ShipDesignKept(m_design_id)) {
ErrorLogger() << "Tried to move a ShipDesign that the empire wasn't remembering";
return;
}
if (m_design_id == m_design_id_after)
return;
empire->RemoveShipDesign(m_design_id);
empire->AddShipDesign(m_design_id, m_design_id_after);
DebugLogger() << "Move Ship Design " << m_design_id << " to before " << m_design_id_after;
} else {
// player is ordering empire to retain a particular design, so that is can
// be used to construct ships by that empire.
// TODO: consider removing this order, so that an empire needs to use
// espionage or trade to gain access to a ship design made by another
// player
// check if empire is already remembering the design
if (empire->ShipDesignKept(m_design_id)) {
ErrorLogger() << "Tried to remember a ShipDesign that was already being remembered";
return;
}
// check if the empire can see any objects that have this design (thus enabling it to be copied)
const std::set<int>& empire_known_design_ids = universe.EmpireKnownShipDesignIDs(EmpireID());
if (empire_known_design_ids.find(m_design_id) != empire_known_design_ids.end()) {
empire->AddShipDesign(m_design_id);
} else {
ErrorLogger() << "Tried to remember a ShipDesign that this empire hasn't seen";
return;
}
}
}
void NewFleetOrder::ExecuteImpl() const {
ValidateEmpireID();
if (m_system_id == INVALID_OBJECT_ID) {
ErrorLogger() << "Empire attempted to create a new fleet outside a system";
return;
}
TemporaryPtr<System> system = GetSystem(m_system_id);
if (!system) {
ErrorLogger() << "Empire attempted to create a new fleet in a nonexistant system";
return;
}
if (m_fleet_names.empty())
return;
if (m_fleet_names.size() != m_fleet_ids.size()
|| m_fleet_names.size() != m_ship_id_groups.size()
|| m_fleet_names.size() != m_aggressives.size())
{
ErrorLogger() << "NewFleetOrder has inconsistent data container sizes...";
return;
}
GetUniverse().InhibitUniverseObjectSignals(true);
std::vector<TemporaryPtr<Fleet> > created_fleets;
created_fleets.reserve(m_fleet_names.size());
// create fleet for each group of ships
for (int i = 0; i < static_cast<int>(m_fleet_names.size()); ++i) {
const std::string& fleet_name = m_fleet_names[i];
int fleet_id = m_fleet_ids[i];
const std::vector<int>& ship_ids = m_ship_id_groups[i];
bool aggressive = m_aggressives[i];
if (ship_ids.empty())
continue; // nothing to do...
// validate specified ships
std::vector<TemporaryPtr<Ship> > validated_ships;
std::vector<int> validated_ships_ids;
for (unsigned int i = 0; i < ship_ids.size(); ++i) {
// verify that empire is not trying to take ships from somebody else's fleet
TemporaryPtr<Ship> ship = GetShip(ship_ids[i]);
if (!ship) {
ErrorLogger() << "Empire attempted to create a new fleet with an invalid ship";
continue;
}
if (!ship->OwnedBy(EmpireID())) {
ErrorLogger() << "Empire attempted to create a new fleet with ships from another's fleet.";
continue;
}
if (ship->SystemID() != m_system_id) {
ErrorLogger() << "Empire attempted to make a new fleet from ship in the wrong system";
continue;
}
validated_ships.push_back(ship);
validated_ships_ids.push_back(ship->ID());
}
if (validated_ships.empty())
continue;
// create fleet
TemporaryPtr<Fleet> fleet = GetUniverse().CreateFleet(fleet_name, system->X(), system->Y(),
EmpireID(), fleet_id);
fleet->GetMeter(METER_STEALTH)->SetCurrent(Meter::LARGE_VALUE);
fleet->SetAggressive(aggressive);
// an ID is provided to ensure consistancy between server and client universes
GetUniverse().SetEmpireObjectVisibility(EmpireID(), fleet->ID(), VIS_FULL_VISIBILITY);
system->Insert(fleet);
// new fleet will get same m_arrival_starlane as fleet of the first ship in the list.
TemporaryPtr<Ship> firstShip = validated_ships[0];
TemporaryPtr<Fleet> firstFleet = GetFleet(firstShip->FleetID());
if (firstFleet)
fleet->SetArrivalStarlane(firstFleet->ArrivalStarlane());
// remove ships from old fleet(s) and add to new
for (std::vector<TemporaryPtr<Ship> >::iterator ship_it = validated_ships.begin();
ship_it != validated_ships.end(); ++ship_it)
{
TemporaryPtr<Ship> ship = *ship_it;
if (TemporaryPtr<Fleet> old_fleet = GetFleet(ship->FleetID()))
old_fleet->RemoveShip(ship->ID());
ship->SetFleetID(fleet->ID());
}
fleet->AddShips(validated_ships_ids);
created_fleets.push_back(fleet);
}
GetUniverse().InhibitUniverseObjectSignals(false);
system->FleetsInsertedSignal(created_fleets);
system->StateChangedSignal();
}
