/* * This file is part of OpenTTD. * OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2. * OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see . */ /** @file refresh.h Definition of link refreshing utility. */ #include "../stdafx.h" #include "../core/bitmath_func.hpp" #include "../station_func.h" #include "../engine_base.h" #include "../vehicle_func.h" #include "refresh.h" #include "linkgraph.h" #include "../safeguards.h" /** * Refresh all links the given vehicle will visit. * @param v Vehicle to refresh links for. * @param allow_merge If the refresher is allowed to merge or extend link graphs. * @param is_full_loading If the vehicle is full loading. */ /* static */ void LinkRefresher::Run(Vehicle *v, bool allow_merge, bool is_full_loading) { /* If there are no orders we can't predict anything.*/ if (v->orders == nullptr) return; /* Make sure the first order is a useful order. */ const Order *first = v->orders->GetNextDecisionNode(v->GetOrder(v->cur_implicit_order_index), 0); if (first == nullptr) return; HopSet seen_hops; LinkRefresher refresher(v, &seen_hops, allow_merge, is_full_loading); refresher.RefreshLinks(first, first, v->last_loading_station != INVALID_STATION ? 1 << HAS_CARGO : 0); } /** * Comparison operator to allow hops to be used in a std::set. * @param other Other hop to be compared with. * @return If this hop is "smaller" than the other (defined by from, to and cargo in this order). */ bool LinkRefresher::Hop::operator<(const Hop &other) const { if (this->from < other.from) { return true; } else if (this->from > other.from) { return false; } if (this->to < other.to) { return true; } else if (this->to > other.to) { return false; } return this->cargo < other.cargo; } /** * Constructor for link refreshing algorithm. * @param vehicle Vehicle to refresh links for. * @param seen_hops Set of hops already seen. This is shared between this * refresher and all its children. * @param allow_merge If the refresher is allowed to merge or extend link graphs. * @param is_full_loading If the vehicle is full loading. */ LinkRefresher::LinkRefresher(Vehicle *vehicle, HopSet *seen_hops, bool allow_merge, bool is_full_loading) : vehicle(vehicle), seen_hops(seen_hops), cargo(CT_INVALID), allow_merge(allow_merge), is_full_loading(is_full_loading) { memset(this->capacities, 0, sizeof(this->capacities)); /* Assemble list of capacities and set last loading stations to 0. */ for (Vehicle *v = this->vehicle; v != nullptr; v = v->Next()) { this->refit_capacities.push_back(RefitDesc(v->cargo_type, v->cargo_cap, v->refit_cap)); if (v->refit_cap > 0) { assert(v->cargo_type < NUM_CARGO); this->capacities[v->cargo_type] += v->refit_cap; } } } /** * Handle refit orders by updating capacities and refit_capacities. * @param refit_cargo Cargo to refit to. * @return True if any vehicle was refit; false if none was. */ bool LinkRefresher::HandleRefit(CargoID refit_cargo) { this->cargo = refit_cargo; RefitList::iterator refit_it = this->refit_capacities.begin(); bool any_refit = false; for (Vehicle *v = this->vehicle; v != nullptr; v = v->Next()) { const Engine *e = Engine::Get(v->engine_type); if (!HasBit(e->info.refit_mask, this->cargo)) { ++refit_it; continue; } any_refit = true; /* Back up the vehicle's cargo type */ CargoID temp_cid = v->cargo_type; byte temp_subtype = v->cargo_subtype; v->cargo_type = this->cargo; v->cargo_subtype = GetBestFittingSubType(v, v, this->cargo); uint16_t mail_capacity = 0; uint amount = e->DetermineCapacity(v, &mail_capacity); /* Restore the original cargo type */ v->cargo_type = temp_cid; v->cargo_subtype = temp_subtype; /* Skip on next refit. */ if (this->cargo != refit_it->cargo && refit_it->remaining > 0) { this->capacities[refit_it->cargo] -= refit_it->remaining; refit_it->remaining = 0; } else if (amount < refit_it->remaining) { this->capacities[refit_it->cargo] -= refit_it->remaining - amount; refit_it->remaining = amount; } refit_it->capacity = amount; refit_it->cargo = this->cargo; ++refit_it; /* Special case for aircraft with mail. */ if (v->type == VEH_AIRCRAFT) { if (mail_capacity < refit_it->remaining) { this->capacities[refit_it->cargo] -= refit_it->remaining - mail_capacity; refit_it->remaining = mail_capacity; } refit_it->capacity = mail_capacity; break; // aircraft have only one vehicle } } return any_refit; } /** * Restore capacities and refit_capacities as vehicle might have been able to load now. */ void LinkRefresher::ResetRefit() { for (auto &it : this->refit_capacities) { if (it.remaining == it.capacity) continue; this->capacities[it.cargo] += it.capacity - it.remaining; it.remaining = it.capacity; } } /** * Predict the next order the vehicle will execute and resolve conditionals by * recursion and return next non-conditional order in list. * @param cur Current order being evaluated. * @param next Next order to be evaluated. * @param flags RefreshFlags to give hints about the previous link and state carried over from that. * @param num_hops Number of hops already taken by recursive calls to this method. * @return new next Order. */ const Order *LinkRefresher::PredictNextOrder(const Order *cur, const Order *next, uint8_t flags, uint num_hops) { /* next is good if it's either nullptr (then the caller will stop the * evaluation) or if it's not conditional and the caller allows it to be * chosen (by setting USE_NEXT). */ while (next != nullptr && (!HasBit(flags, USE_NEXT) || next->IsType(OT_CONDITIONAL))) { /* After the first step any further non-conditional order is good, * regardless of previous USE_NEXT settings. The case of cur and next or * their respective stations being equal is handled elsewhere. */ SetBit(flags, USE_NEXT); if (next->IsType(OT_CONDITIONAL)) { const Order *skip_to = this->vehicle->orders->GetNextDecisionNode( this->vehicle->orders->GetOrderAt(next->GetConditionSkipToOrder()), num_hops); if (skip_to != nullptr && num_hops < this->vehicle->orders->GetNumOrders()) { /* Make copies of capacity tracking lists. There is potential * for optimization here: If the vehicle never refits we don't * need to copy anything. Also, if we've seen the branched link * before we don't need to branch at all. */ LinkRefresher branch(*this); branch.RefreshLinks(cur, skip_to, flags, num_hops + 1); } } /* Reassign next with the following stop. This can be a station or a * depot.*/ next = this->vehicle->orders->GetNextDecisionNode( this->vehicle->orders->GetNext(next), num_hops++); } return next; } /** * Refresh link stats for the given pair of orders. * @param cur Last stop where the consist could interact with cargo. * @param next Next order to be processed. */ void LinkRefresher::RefreshStats(const Order *cur, const Order *next) { StationID next_station = next->GetDestination(); Station *st = Station::GetIfValid(cur->GetDestination()); if (st != nullptr && next_station != INVALID_STATION && next_station != st->index) { Station *st_to = Station::Get(next_station); for (CargoID c = 0; c < NUM_CARGO; c++) { /* Refresh the link and give it a minimum capacity. */ uint cargo_quantity = this->capacities[c]; if (cargo_quantity == 0) continue; if (this->vehicle->GetDisplayMaxSpeed() == 0) continue; /* If not allowed to merge link graphs, make sure the stations are * already in the same link graph. */ if (!this->allow_merge && st->goods[c].link_graph != st_to->goods[c].link_graph) { continue; } /* A link is at least partly restricted if a vehicle can't load at its source. */ EdgeUpdateMode restricted_mode = (cur->GetLoadType() & OLFB_NO_LOAD) == 0 ? EUM_UNRESTRICTED : EUM_RESTRICTED; /* This estimates the travel time of the link as the time needed * to travel between the stations at half the max speed of the consist. * The result is in tiles/tick (= 2048 km-ish/h). */ uint32_t time_estimate = DistanceManhattan(st->xy, st_to->xy) * 4096U / this->vehicle->GetDisplayMaxSpeed(); /* If the vehicle is currently full loading, increase the capacities at the station * where it is loading by an estimate of what it would have transported if it wasn't * loading. Don't do that if the vehicle has been waiting for longer than the entire * order list is supposed to take, though. If that is the case the total duration is * probably far off and we'd greatly overestimate the capacity by increasing.*/ if (this->is_full_loading && this->vehicle->orders != nullptr && st->index == vehicle->last_station_visited && this->vehicle->orders->GetTotalDuration() > (Ticks)this->vehicle->current_order_time) { uint effective_capacity = cargo_quantity * this->vehicle->load_unload_ticks; if (effective_capacity > (uint)this->vehicle->orders->GetTotalDuration()) { IncreaseStats(st, c, next_station, effective_capacity / this->vehicle->orders->GetTotalDuration(), 0, 0, EUM_INCREASE | restricted_mode); } else if (RandomRange(this->vehicle->orders->GetTotalDuration()) < effective_capacity) { IncreaseStats(st, c, next_station, 1, 0, 0, EUM_INCREASE | restricted_mode); } else { IncreaseStats(st, c, next_station, cargo_quantity, 0, time_estimate, EUM_REFRESH | restricted_mode); } } else { IncreaseStats(st, c, next_station, cargo_quantity, 0, time_estimate, EUM_REFRESH | restricted_mode); } } } } /** * Iterate over orders starting at \a cur and \a next and refresh links * associated with them. \a cur and \a next can be equal. If they're not they * must be "neighbours" in their order list, which means \a next must be directly * reachable from \a cur without passing any further OT_GOTO_STATION or * OT_IMPLICIT orders in between. * @param cur Current order being evaluated. * @param next Next order to be checked. * @param flags RefreshFlags to give hints about the previous link and state carried over from that. * @param num_hops Number of hops already taken by recursive calls to this method. */ void LinkRefresher::RefreshLinks(const Order *cur, const Order *next, uint8_t flags, uint num_hops) { while (next != nullptr) { if ((next->IsType(OT_GOTO_DEPOT) || next->IsType(OT_GOTO_STATION)) && next->IsRefit()) { SetBit(flags, WAS_REFIT); if (!next->IsAutoRefit()) { this->HandleRefit(next->GetRefitCargo()); } else if (!HasBit(flags, IN_AUTOREFIT)) { SetBit(flags, IN_AUTOREFIT); LinkRefresher backup(*this); for (CargoID c = 0; c != NUM_CARGO; ++c) { if (CargoSpec::Get(c)->IsValid() && this->HandleRefit(c)) { this->RefreshLinks(cur, next, flags, num_hops); *this = backup; } } } } /* Only reset the refit capacities if the "previous" next is a station, * meaning that either the vehicle was refit at the previous station or * it wasn't at all refit during the current hop. */ if (HasBit(flags, WAS_REFIT) && (next->IsType(OT_GOTO_STATION) || next->IsType(OT_IMPLICIT))) { SetBit(flags, RESET_REFIT); } else { ClrBit(flags, RESET_REFIT); } next = this->PredictNextOrder(cur, next, flags, num_hops); if (next == nullptr) break; Hop hop(cur->index, next->index, this->cargo); if (this->seen_hops->find(hop) != this->seen_hops->end()) { break; } else { this->seen_hops->insert(hop); } /* Don't use the same order again, but choose a new one in the next round. */ ClrBit(flags, USE_NEXT); /* Skip resetting and link refreshing if next order won't do anything with cargo. */ if (!next->IsType(OT_GOTO_STATION) && !next->IsType(OT_IMPLICIT)) continue; if (HasBit(flags, RESET_REFIT)) { this->ResetRefit(); ClrBit(flags, RESET_REFIT); ClrBit(flags, WAS_REFIT); } if (cur->IsType(OT_GOTO_STATION) || cur->IsType(OT_IMPLICIT)) { if (cur->CanLeaveWithCargo(HasBit(flags, HAS_CARGO))) { SetBit(flags, HAS_CARGO); this->RefreshStats(cur, next); } else { ClrBit(flags, HAS_CARGO); } } /* "cur" is only assigned here if the stop is a station so that * whenever stats are to be increased two stations can be found. */ cur = next; } }