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OpenTTD-patches/src/economy.cpp

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/*
* 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 <http://www.gnu.org/licenses/>.
*/
/** @file economy.cpp Handling of the economy. */
#include "stdafx.h"
#include "company_func.h"
#include "command_func.h"
#include "industry.h"
#include "town.h"
#include "news_func.h"
#include "network/network.h"
#include "network/network_func.h"
#include "ai/ai.hpp"
#include "aircraft.h"
#include "train.h"
#include "newgrf_engine.h"
#include "engine_base.h"
#include "ground_vehicle.hpp"
#include "newgrf_cargo.h"
#include "newgrf_sound.h"
#include "newgrf_industrytiles.h"
#include "newgrf_station.h"
#include "newgrf_airporttiles.h"
#include "newgrf_roadstop.h"
#include "object.h"
#include "strings_func.h"
#include "date_func.h"
#include "vehicle_func.h"
#include "sound_func.h"
#include "autoreplace_func.h"
#include "company_gui.h"
#include "signs_base.h"
#include "subsidy_base.h"
#include "subsidy_func.h"
#include "station_base.h"
#include "waypoint_base.h"
#include "economy_base.h"
#include "core/pool_func.hpp"
#include "core/backup_type.hpp"
#include "infrastructure_func.h"
#include "cargo_type.h"
#include "water.h"
#include "game/game.hpp"
#include "cargomonitor.h"
#include "goal_base.h"
#include "story_base.h"
#include "linkgraph/refresh.h"
#include "tracerestrict.h"
#include "tbtr_template_vehicle.h"
#include "tbtr_template_vehicle_func.h"
#include "scope_info.h"
#include "pathfinder/yapf/yapf_cache.h"
#include "debug_desync.h"
#include "event_logs.h"
#include "table/strings.h"
#include "table/pricebase.h"
#include "safeguards.h"
/* Initialize the cargo payment-pool */
CargoPaymentPool _cargo_payment_pool("CargoPayment");
INSTANTIATE_POOL_METHODS(CargoPayment)
/**
* Multiply two integer values and shift the results to right.
*
* This function multiplies two integer values. The result is
* shifted by the amount of shift to right.
*
* @param a The first integer
* @param b The second integer
* @param shift The amount to shift the value to right.
* @return The shifted result
*/
static inline int32 BigMulS(const int32 a, const int32 b, const uint8 shift)
{
return (int32)((int64)a * (int64)b >> shift);
}
typedef std::vector<Industry *> SmallIndustryList;
/**
* Score info, values used for computing the detailed performance rating.
*/
const ScoreInfo _score_info[] = {
{ 120, 100}, // SCORE_VEHICLES
{ 80, 100}, // SCORE_STATIONS
{ 10000, 100}, // SCORE_MIN_PROFIT
{ 50000, 50}, // SCORE_MIN_INCOME
{ 100000, 100}, // SCORE_MAX_INCOME
{ 40000, 400}, // SCORE_DELIVERED
{ 8, 50}, // SCORE_CARGO
{10000000, 50}, // SCORE_MONEY
{ 250000, 50}, // SCORE_LOAN
{ 0, 0} // SCORE_TOTAL
};
int64 _score_part[MAX_COMPANIES][SCORE_END];
Economy _economy;
Prices _price;
Money _additional_cash_required;
static PriceMultipliers _price_base_multiplier;
/**
* Calculate the value of the company. That is the value of all
* assets (vehicles, stations, shares) and money minus the loan,
* except when including_loan is \c false which is useful when
* we want to calculate the value for bankruptcy.
* @param c the company to get the value of.
* @param including_loan include the loan in the company value.
* @return the value of the company.
*/
Money CalculateCompanyValue(const Company *c, bool including_loan)
{
Money owned_shares_value = 0;
for (const Company *co : Company::Iterate()) {
uint8 shares_owned = 0;
for (uint8 i = 0; i < 4; i++) {
if (co->share_owners[i] == c->index) {
shares_owned++;
}
}
owned_shares_value += (CalculateCompanyValueExcludingShares(co) / 4) * shares_owned;
}
return std::max<Money>(owned_shares_value + CalculateCompanyValueExcludingShares(c), 1);
}
Money CalculateCompanyValueExcludingShares(const Company *c, bool including_loan)
{
Owner owner = c->index;
uint num = 0;
for (const Station *st : Station::Iterate()) {
if (st->owner == owner) num += CountBits((byte)st->facilities);
}
Money value = num * _price[PR_STATION_VALUE] * 25;
for (const Vehicle *v : Vehicle::Iterate()) {
if (v->owner != owner) continue;
if (HasBit(v->subtype, GVSF_VIRTUAL)) continue;
if (v->type == VEH_TRAIN ||
v->type == VEH_ROAD ||
(v->type == VEH_AIRCRAFT && Aircraft::From(v)->IsNormalAircraft()) ||
v->type == VEH_SHIP) {
value += v->value * 3 >> 1;
}
}
/* Add real money value */
if (including_loan) value -= c->current_loan;
value += c->money;
return std::max<Money>(value, 1);
}
/**
* if update is set to true, the economy is updated with this score
* (also the house is updated, should only be true in the on-tick event)
* @param update the economy with calculated score
* @param c company been evaluated
* @return actual score of this company
*
*/
int UpdateCompanyRatingAndValue(Company *c, bool update)
{
Owner owner = c->index;
int score = 0;
memset(_score_part[owner], 0, sizeof(_score_part[owner]));
/* Count vehicles */
{
Money min_profit = 0;
bool min_profit_first = true;
uint num = 0;
for (const Vehicle *v : Vehicle::Iterate()) {
if (v->owner != owner) continue;
if (IsCompanyBuildableVehicleType(v->type) && v->IsPrimaryVehicle() && !HasBit(v->subtype, GVSF_VIRTUAL)) {
if (v->profit_last_year > 0) num++; // For the vehicle score only count profitable vehicles
if (v->age > 730) {
/* Find the vehicle with the lowest amount of profit */
if (min_profit_first || min_profit > v->profit_last_year) {
min_profit = v->profit_last_year;
min_profit_first = false;
}
}
}
}
min_profit >>= 8; // remove the fract part
_score_part[owner][SCORE_VEHICLES] = num;
/* Don't allow negative min_profit to show */
if (min_profit > 0) {
_score_part[owner][SCORE_MIN_PROFIT] = min_profit;
}
}
/* Count stations */
{
uint num = 0;
for (const Station *st : Station::Iterate()) {
/* Only count stations that are actually serviced */
if (st->owner == owner && (st->time_since_load <= 20 || st->time_since_unload <= 20)) num += CountBits((byte)st->facilities);
}
_score_part[owner][SCORE_STATIONS] = num;
}
/* Generate statistics depending on recent income statistics */
{
int numec = std::min<uint>(c->num_valid_stat_ent, 12u);
if (numec != 0) {
const CompanyEconomyEntry *cee = c->old_economy;
Money min_income = cee->income + cee->expenses;
Money max_income = cee->income + cee->expenses;
do {
min_income = std::min(min_income, cee->income + cee->expenses);
max_income = std::max(max_income, cee->income + cee->expenses);
} while (++cee, --numec);
if (min_income > 0) {
_score_part[owner][SCORE_MIN_INCOME] = min_income;
}
_score_part[owner][SCORE_MAX_INCOME] = max_income;
}
}
/* Generate score depending on amount of transported cargo */
{
int numec = std::min<uint>(c->num_valid_stat_ent, 4u);
if (numec != 0) {
const CompanyEconomyEntry *cee = c->old_economy;
OverflowSafeInt64 total_delivered = 0;
do {
total_delivered += cee->delivered_cargo.GetSum<OverflowSafeInt64>();
} while (++cee, --numec);
_score_part[owner][SCORE_DELIVERED] = total_delivered;
}
}
/* Generate score for variety of cargo */
{
_score_part[owner][SCORE_CARGO] = c->old_economy->delivered_cargo.GetCount();
}
/* Generate score for company's money */
{
if (c->money > 0) {
_score_part[owner][SCORE_MONEY] = c->money;
}
}
/* Generate score for loan */
{
_score_part[owner][SCORE_LOAN] = _score_info[SCORE_LOAN].needed - c->current_loan;
}
/* Now we calculate the score for each item.. */
{
int total_score = 0;
int s;
score = 0;
for (ScoreID i = SCORE_BEGIN; i < SCORE_END; i++) {
/* Skip the total */
if (i == SCORE_TOTAL) continue;
/* Check the score */
s = Clamp<int64>(_score_part[owner][i], 0, _score_info[i].needed) * _score_info[i].score / _score_info[i].needed;
score += s;
total_score += _score_info[i].score;
}
_score_part[owner][SCORE_TOTAL] = score;
/* We always want the score scaled to SCORE_MAX (1000) */
if (total_score != SCORE_MAX) score = score * SCORE_MAX / total_score;
}
if (update) {
c->old_economy[0].performance_history = score;
UpdateCompanyHQ(c->location_of_HQ, score);
c->old_economy[0].company_value = CalculateCompanyValue(c);
}
SetWindowDirty(WC_PERFORMANCE_DETAIL, 0);
return score;
}
/**
* Change the ownership of all the items of a company.
* @param old_owner The company that gets removed.
* @param new_owner The company to merge to, or INVALID_OWNER to remove the company.
*/
void ChangeOwnershipOfCompanyItems(Owner old_owner, Owner new_owner)
{
/* We need to set _current_company to old_owner before we try to move
* the client. This is needed as it needs to know whether "you" really
* are the current local company. */
Backup<CompanyID> cur_company(_current_company, old_owner, FILE_LINE);
/* In all cases, make spectators of clients connected to that company */
if (_networking) NetworkClientsToSpectators(old_owner);
if (old_owner == _local_company) {
/* Single player cheated to AI company.
* There are no spectators in singleplayer mode, so we must pick some other company. */
assert(!_networking);
Backup<CompanyID> cur_company2(_current_company, FILE_LINE);
for (const Company *c : Company::Iterate()) {
if (c->index != old_owner) {
SetLocalCompany(c->index);
break;
}
}
cur_company2.Restore();
assert(old_owner != _local_company);
}
ClearOrderDestinationRefcountMap();
assert(old_owner != new_owner);
{
uint i;
/* See if the old_owner had shares in other companies */
for (const Company *c : Company::Iterate()) {
for (i = 0; i < 4; i++) {
if (c->share_owners[i] == old_owner) {
/* Sell its shares */
CommandCost res = DoCommand(0, c->index, 0, DC_EXEC | DC_BANKRUPT, CMD_SELL_SHARE_IN_COMPANY);
/* Because we are in a DoCommand, we can't just execute another one and
* expect the money to be removed. We need to do it ourself! */
SubtractMoneyFromCompany(res);
}
}
}
/* Sell all the shares that people have on this company */
Backup<CompanyID> cur_company2(_current_company, FILE_LINE);
Company *c = Company::Get(old_owner);
for (i = 0; i < 4; i++) {
if (c->share_owners[i] == INVALID_OWNER) continue;
if (c->bankrupt_value == 0 && c->share_owners[i] == new_owner) {
/* You are the one buying the company; so don't sell the shares back to you. */
c->share_owners[i] = INVALID_OWNER;
} else {
cur_company2.Change(c->share_owners[i]);
/* Sell the shares */
CommandCost res = DoCommand(0, old_owner, 0, DC_EXEC | DC_BANKRUPT, CMD_SELL_SHARE_IN_COMPANY);
/* Because we are in a DoCommand, we can't just execute another one and
* expect the money to be removed. We need to do it ourself! */
SubtractMoneyFromCompany(res);
}
}
cur_company2.Restore();
}
/* Temporarily increase the company's money, to be sure that
* removing their property doesn't fail because of lack of money.
* Not too drastically though, because it could overflow */
if (new_owner == INVALID_OWNER) {
Company::Get(old_owner)->money = UINT64_MAX >> 2; // jackpot ;p
}
for (Subsidy *s : Subsidy::Iterate()) {
if (s->awarded == old_owner) {
if (new_owner == INVALID_OWNER) {
delete s;
} else {
s->awarded = new_owner;
}
}
}
if (new_owner == INVALID_OWNER) RebuildSubsidisedSourceAndDestinationCache();
/* Take care of rating and transport rights in towns */
for (Town *t : Town::Iterate()) {
/* If a company takes over, give the ratings to that company. */
if (new_owner != INVALID_OWNER) {
if (HasBit(t->have_ratings, old_owner)) {
if (HasBit(t->have_ratings, new_owner)) {
/* use max of the two ratings. */
t->ratings[new_owner] = std::max(t->ratings[new_owner], t->ratings[old_owner]);
} else {
SetBit(t->have_ratings, new_owner);
t->ratings[new_owner] = t->ratings[old_owner];
}
}
}
/* Reset the ratings for the old owner */
t->ratings[old_owner] = RATING_INITIAL;
ClrBit(t->have_ratings, old_owner);
/* Transfer exclusive rights */
if (t->exclusive_counter > 0 && t->exclusivity == old_owner) {
if (new_owner != INVALID_OWNER) {
t->exclusivity = new_owner;
} else {
t->exclusive_counter = 0;
t->exclusivity = INVALID_COMPANY;
}
}
}
{
for (Vehicle *v : Vehicle::Iterate()) {
if (v->owner == old_owner && IsCompanyBuildableVehicleType(v->type)) {
if (new_owner == INVALID_OWNER) {
if (v->Previous() == nullptr) {
if (_settings_game.economy.infrastructure_sharing[VEH_TRAIN] && v->type == VEH_TRAIN && Train::From(v)->IsFrontEngine() && !Train::From(v)->IsVirtual()) {
DeleteVisibleTrain(Train::From(v));
} else {
delete v;
}
}
} else {
if (v->IsEngineCountable()) GroupStatistics::CountEngine(v, -1);
if (v->IsPrimaryVehicle()) GroupStatistics::CountVehicle(v, -1);
}
}
}
}
/* In all cases clear replace engine rules.
* Even if it was copied, it could interfere with new owner's rules */
RemoveAllEngineReplacementForCompany(Company::Get(old_owner));
if (new_owner == INVALID_OWNER) {
RemoveAllGroupsForCompany(old_owner);
} else {
for (Group *g : Group::Iterate()) {
if (g->owner == old_owner) g->owner = new_owner;
}
}
/* Change ownership of vehicles */
if (new_owner != INVALID_OWNER) {
FreeUnitIDGenerator unitidgen[] = {
FreeUnitIDGenerator(VEH_TRAIN, new_owner), FreeUnitIDGenerator(VEH_ROAD, new_owner),
FreeUnitIDGenerator(VEH_SHIP, new_owner), FreeUnitIDGenerator(VEH_AIRCRAFT, new_owner)
};
/* Override company settings to new company defaults in case we need to convert them.
* This is required as the CmdChangeServiceInt doesn't copy the supplied value when it is non-custom
*/
if (new_owner != INVALID_OWNER) {
Company *old_company = Company::Get(old_owner);
Company *new_company = Company::Get(new_owner);
old_company->settings.vehicle.servint_aircraft = new_company->settings.vehicle.servint_aircraft;
old_company->settings.vehicle.servint_trains = new_company->settings.vehicle.servint_trains;
old_company->settings.vehicle.servint_roadveh = new_company->settings.vehicle.servint_roadveh;
old_company->settings.vehicle.servint_ships = new_company->settings.vehicle.servint_ships;
old_company->settings.vehicle.servint_ispercent = new_company->settings.vehicle.servint_ispercent;
}
for (Vehicle *v : Vehicle::Iterate()) {
if (v->owner == old_owner && IsCompanyBuildableVehicleType(v->type)) {
assert(new_owner != INVALID_OWNER);
/* Correct default values of interval settings while maintaining custom set ones.
* This prevents invalid values on mismatching company defaults being accepted.
*/
if (!v->ServiceIntervalIsCustom()) {
Company *new_company = Company::Get(new_owner);
/* Technically, passing the interval is not needed as the command will query the default value itself.
* However, do not rely on that behaviour.
*/
int interval = CompanyServiceInterval(new_company, v->type);
DoCommand(v->tile, v->index, interval | (new_company->settings.vehicle.servint_ispercent << 17), DC_EXEC | DC_BANKRUPT, CMD_CHANGE_SERVICE_INT);
}
v->owner = new_owner;
/* Owner changes, clear cache */
v->colourmap = PAL_NONE;
v->InvalidateNewGRFCache();
v->InvalidateImageCache();
if (v->IsEngineCountable()) {
GroupStatistics::CountEngine(v, 1);
}
if (v->IsPrimaryVehicle() && !HasBit(v->subtype, GVSF_VIRTUAL)) {
GroupStatistics::CountVehicle(v, 1);
v->unitnumber = unitidgen[v->type].NextID();
}
/* Invalidate the vehicle's cargo payment "owner cache". */
if (v->cargo_payment != nullptr) v->cargo_payment->owner = nullptr;
}
}
if (new_owner != INVALID_OWNER) GroupStatistics::UpdateAutoreplace(new_owner);
} else {
/* Depending on sharing settings, other companies could be affected too.
* Let the infrastructure sharing code handle this. */
HandleSharingCompanyDeletion(old_owner);
}
TraceRestrictUpdateCompanyID(old_owner, new_owner);
/* Change ownership of template vehicles */
if (new_owner == INVALID_OWNER) {
for (TemplateVehicle *tv : TemplateVehicle::Iterate()) {
if (tv->owner == old_owner && tv->Prev() == nullptr) {
for (TemplateReplacement *tr : TemplateReplacement::Iterate()) {
if (tr->Template() == tv->index) {
delete tr;
}
}
delete tv;
}
}
ReindexTemplateReplacements();
} else {
for (TemplateVehicle *tv : TemplateVehicle::Iterate()) {
if (tv->owner == old_owner) tv->owner = new_owner;
}
}
/* Change ownership of tiles */
{
TileIndex tile = 0;
do {
ChangeTileOwner(tile, old_owner, new_owner);
} while (++tile != MapSize());
if (new_owner != INVALID_OWNER) {
/* Update all signals because there can be new segment that was owned by two companies
* and signals were not propagated
* Similar with crossings - it is needed to bar crossings that weren't before
* because of different owner of crossing and approaching train */
UpdateAllBlockSignals(new_owner);
} else if (_settings_game.economy.infrastructure_sharing[VEH_TRAIN]) {
/* tracks are being removed while sharing is enabled.
* Thus, update all signals and crossings. */
UpdateAllBlockSignals();
}
/* Update any signals in the buffer */
UpdateSignalsInBuffer();
}
/* Add airport infrastructure count of the old company to the new one. */
if (new_owner != INVALID_OWNER) Company::Get(new_owner)->infrastructure.airport += Company::Get(old_owner)->infrastructure.airport;
/* convert owner of stations (including deleted ones, but excluding buoys) */
for (Station *st : Station::Iterate()) {
if (st->owner == old_owner) {
/* if a company goes bankrupt, set owner to OWNER_NONE so the sign doesn't disappear immediately
* also, drawing station window would cause reading invalid company's colour */
st->owner = new_owner == INVALID_OWNER ? OWNER_NONE : new_owner;
}
}
/* do the same for waypoints (we need to do this here so deleted waypoints are converted too) */
for (Waypoint *wp : Waypoint::Iterate()) {
if (wp->owner == old_owner) {
wp->owner = new_owner == INVALID_OWNER ? OWNER_NONE : new_owner;
}
}
for (Sign *si : Sign::Iterate()) {
if (si->owner == old_owner) si->owner = new_owner == INVALID_OWNER ? OWNER_NONE : new_owner;
}
/* Remove Game Script created Goals, CargoMonitors and Story pages. */
for (Goal *g : Goal::Iterate()) {
if (g->company == old_owner) delete g;
}
ClearCargoPickupMonitoring(old_owner);
ClearCargoDeliveryMonitoring(old_owner);
for (StoryPage *sp : StoryPage::Iterate()) {
if (sp->company == old_owner) delete sp;
}
/* Change colour of existing windows */
if (new_owner != INVALID_OWNER) ChangeWindowOwner(old_owner, new_owner);
/* Change owner of deferred cargo payments */
ChangeOwnershipOfCargoPacketDeferredPayments(old_owner, new_owner);
IntialiseOrderDestinationRefcountMap();
YapfNotifyTrackLayoutChange(INVALID_TILE, INVALID_TRACK);
NotifyRoadLayoutChanged();
InvalidateTemplateReplacementImages();
cur_company.Restore();
if (new_owner != INVALID_OWNER) {
AppendSpecialEventsLogEntry(stdstr_fmt("Company merge: old: %u, new %u", old_owner, new_owner));
} else {
AppendSpecialEventsLogEntry(stdstr_fmt("Company deletion: old: %u", old_owner));
}
RegisterGameEvents(new_owner != INVALID_OWNER ? GEF_COMPANY_MERGE : GEF_COMPANY_DELETE);
MarkWholeScreenDirty();
}
/**
* Check for bankruptcy of a company. Called every three months.
* @param c Company to check.
*/
static void CompanyCheckBankrupt(Company *c)
{
/* If the company has money again, it does not go bankrupt */
if (c->money - c->current_loan >= -_economy.max_loan) {
int previous_months_of_bankruptcy = CeilDiv(c->months_of_bankruptcy, 3);
c->months_of_bankruptcy = 0;
c->bankrupt_asked = 0;
if (previous_months_of_bankruptcy != 0) CompanyAdminUpdate(c);
return;
}
c->months_of_bankruptcy++;
switch (c->months_of_bankruptcy) {
/* All the boring cases (months) with a bad balance where no action is taken */
case 0:
case 1:
case 2:
case 3:
case 5:
case 6:
case 8:
case 9:
break;
/* Warn about bankruptcy after 3 months */
case 4: {
CompanyNewsInformation *cni = new CompanyNewsInformation(c);
SetDParam(0, STR_NEWS_COMPANY_IN_TROUBLE_TITLE);
SetDParam(1, STR_NEWS_COMPANY_IN_TROUBLE_DESCRIPTION);
SetDParamStr(2, cni->company_name);
AddCompanyNewsItem(STR_MESSAGE_NEWS_FORMAT, cni);
AI::BroadcastNewEvent(new ScriptEventCompanyInTrouble(c->index));
Game::NewEvent(new ScriptEventCompanyInTrouble(c->index));
break;
}
/* Offer company for sale after 6 months */
case 7: {
/* Don't consider the loan */
Money val = CalculateCompanyValue(c, false);
c->bankrupt_value = val;
c->bankrupt_asked = 1 << c->index; // Don't ask the owner
c->bankrupt_timeout = 0;
/* The company assets should always have some value */
assert(c->bankrupt_value > 0);
break;
}
/* Bankrupt company after 6 months (if the company has no value) or latest
* after 9 months (if it still had value after 6 months) */
default:
case 10: {
if (!_networking && _local_company == c->index) {
/* If we are in singleplayer mode, leave the company playing. Eg. there
* is no THE-END, otherwise mark the client as spectator to make sure
* they are no longer in control of this company. However... when you
* join another company (cheat) the "unowned" company can bankrupt. */
c->bankrupt_asked = MAX_UVALUE(CompanyMask);
break;
}
/* Actually remove the company, but not when we're a network client.
* In case of network clients we will be getting a command from the
* server. It is done in this way as we are called from the
* StateGameLoop which can't change the current company, and thus
* updating the local company triggers an assert later on. In the
* case of a network game the command will be processed at a time
* that changing the current company is okay. In case of single
* player we are sure (the above check) that we are not the local
* company and thus we won't be moved. */
if (!_networking || _network_server) {
DoCommandP(0, CCA_DELETE | (c->index << 16) | (CRR_BANKRUPT << 24), 0, CMD_COMPANY_CTRL);
return;
}
break;
}
}
if (CeilDiv(c->months_of_bankruptcy, 3) != CeilDiv(c->months_of_bankruptcy - 1, 3)) CompanyAdminUpdate(c);
}
/**
* Update the finances of all companies.
* Pay for the stations, update the history graph, update ratings and company values, and deal with bankruptcy.
*/
static void CompaniesGenStatistics()
{
/* Check for bankruptcy each month */
for (Company *c : Company::Iterate()) {
CompanyCheckBankrupt(c);
}
Backup<CompanyID> cur_company(_current_company, FILE_LINE);
/* Pay Infrastructure Maintenance, if enabled */
if (_settings_game.economy.infrastructure_maintenance) {
/* Improved monthly infrastructure costs. */
for (const Company *c : Company::Iterate()) {
cur_company.Change(c->index);
CommandCost cost(EXPENSES_PROPERTY);
uint32 rail_total = c->infrastructure.GetRailTotal();
for (RailType rt = RAILTYPE_BEGIN; rt < RAILTYPE_END; rt++) {
if (c->infrastructure.rail[rt] != 0) cost.AddCost(RailMaintenanceCost(rt, c->infrastructure.rail[rt], rail_total));
}
cost.AddCost(SignalMaintenanceCost(c->infrastructure.signal));
uint32 road_total = c->infrastructure.GetRoadTotal();
uint32 tram_total = c->infrastructure.GetTramTotal();
for (RoadType rt = ROADTYPE_BEGIN; rt < ROADTYPE_END; rt++) {
if (c->infrastructure.road[rt] != 0) cost.AddCost(RoadMaintenanceCost(rt, c->infrastructure.road[rt], RoadTypeIsRoad(rt) ? road_total : tram_total));
}
cost.AddCost(CanalMaintenanceCost(c->infrastructure.water));
cost.AddCost(StationMaintenanceCost(c->infrastructure.station));
cost.AddCost(AirportMaintenanceCost(c->index));
SubtractMoneyFromCompany(cost);
}
}
cur_company.Restore();
/* Only run the economic statics and update company stats every 3rd month (1st of quarter). */
if (!HasBit(1 << 0 | 1 << 3 | 1 << 6 | 1 << 9, _cur_date_ymd.month)) return;
for (Company *c : Company::Iterate()) {
/* Drop the oldest history off the end */
std::copy_backward(c->old_economy, c->old_economy + MAX_HISTORY_QUARTERS - 1, c->old_economy + MAX_HISTORY_QUARTERS);
c->old_economy[0] = c->cur_economy;
c->cur_economy = {};
if (c->num_valid_stat_ent != MAX_HISTORY_QUARTERS) c->num_valid_stat_ent++;
UpdateCompanyRatingAndValue(c, true);
if (c->block_preview != 0) c->block_preview--;
}
SetWindowDirty(WC_INCOME_GRAPH, 0);
SetWindowDirty(WC_OPERATING_PROFIT, 0);
SetWindowDirty(WC_DELIVERED_CARGO, 0);
SetWindowDirty(WC_PERFORMANCE_HISTORY, 0);
SetWindowDirty(WC_COMPANY_VALUE, 0);
SetWindowDirty(WC_COMPANY_LEAGUE, 0);
}
/**
* Add monthly inflation
* @param check_year Shall the inflation get stopped after 170 years?
* @return true if inflation is maxed and nothing was changed
*/
bool AddInflation(bool check_year)
{
/* The cargo payment inflation differs from the normal inflation, so the
* relative amount of money you make with a transport decreases slowly over
* the 170 years. After a few hundred years we reach a level in which the
* games will become unplayable as the maximum income will be less than
* the minimum running cost.
*
* Furthermore there are a lot of inflation related overflows all over the
* place. Solving them is hardly possible because inflation will always
* reach the overflow threshold some day. So we'll just perform the
* inflation mechanism during the first 170 years (the amount of years that
* one had in the original TTD) and stop doing the inflation after that
* because it only causes problems that can't be solved nicely and the
* inflation doesn't add anything after that either; it even makes playing
* it impossible due to the diverging cost and income rates.
*/
if (_settings_game.economy.inflation_fixed_dates) {
if (check_year && (_cur_year < ORIGINAL_BASE_YEAR || _cur_year >= ORIGINAL_MAX_YEAR)) return true;
} else {
if (check_year && (_cur_year - _settings_game.game_creation.starting_year) >= (ORIGINAL_MAX_YEAR - ORIGINAL_BASE_YEAR)) return true;
}
if (_economy.inflation_prices == MAX_INFLATION || _economy.inflation_payment == MAX_INFLATION) return true;
/* Approximation for (100 + infl_amount)% ** (1 / 12) - 100%
* scaled by 65536
* 12 -> months per year
* This is only a good approximation for small values
*/
_economy.inflation_prices += (_economy.inflation_prices * _economy.infl_amount * 54) >> 16;
_economy.inflation_payment += (_economy.inflation_payment * _economy.infl_amount_pr * 54) >> 16;
if (_economy.inflation_prices > MAX_INFLATION) _economy.inflation_prices = MAX_INFLATION;
if (_economy.inflation_payment > MAX_INFLATION) _economy.inflation_payment = MAX_INFLATION;
return false;
}
/**
* Computes all prices, payments and maximum loan.
*/
void RecomputePrices()
{
/* Setup maximum loan */
_economy.max_loan = ((uint64)_settings_game.difficulty.max_loan * _economy.inflation_prices >> 16) / 50000 * 50000;
/* Setup price bases */
for (Price i = PR_BEGIN; i < PR_END; i++) {
Money price = _price_base_specs[i].start_price;
/* Apply difficulty settings */
uint mod = 1;
switch (_price_base_specs[i].category) {
case PCAT_RUNNING:
mod = _settings_game.difficulty.vehicle_costs;
break;
case PCAT_CONSTRUCTION:
mod = _settings_game.difficulty.construction_cost;
break;
default: break;
}
switch (mod) {
case 0: price *= 6; break;
case 1: price *= 8; break; // normalised to 1 below
case 2: price *= 9; break;
default: NOT_REACHED();
}
/* Apply inflation */
price = (int64)price * _economy.inflation_prices;
/* Apply newgrf modifiers, remove fractional part of inflation, and normalise on medium difficulty. */
int shift = _price_base_multiplier[i] - 16 - 3;
if (shift >= 0) {
price <<= shift;
} else {
price >>= -shift;
}
/* Make sure the price does not get reduced to zero.
* Zero breaks quite a few commands that use a zero
* cost to see whether something got changed or not
* and based on that cause an error. When the price
* is zero that fails even when things are done. */
if (price == 0) {
price = Clamp(_price_base_specs[i].start_price, -1, 1);
/* No base price should be zero, but be sure. */
assert(price != 0);
}
/* Store value */
_price[i] = price;
}
/* Setup cargo payment */
for (CargoSpec *cs : CargoSpec::Iterate()) {
cs->current_payment = (cs->initial_payment * (int64)_economy.inflation_payment) >> 16;
}
SetWindowClassesDirty(WC_BUILD_VEHICLE);
SetWindowClassesDirty(WC_REPLACE_VEHICLE);
SetWindowClassesDirty(WC_VEHICLE_DETAILS);
SetWindowClassesDirty(WC_COMPANY_INFRASTRUCTURE);
InvalidateWindowData(WC_PAYMENT_RATES, 0);
}
/** Let all companies pay the monthly interest on their loan. */
static void CompaniesPayInterest()
{
Backup<CompanyID> cur_company(_current_company, FILE_LINE);
for (const Company *c : Company::Iterate()) {
cur_company.Change(c->index);
/* Over a year the paid interest should be "loan * interest percentage",
* but... as that number is likely not dividable by 12 (pay each month),
* one needs to account for that in the monthly fee calculations.
* To easily calculate what one should pay "this" month, you calculate
* what (total) should have been paid up to this month and you subtract
* whatever has been paid in the previous months. This will mean one month
* it'll be a bit more and the other it'll be a bit less than the average
* monthly fee, but on average it will be exact.
* In order to prevent cheating or abuse (just not paying interest by not
* taking a loan we make companies pay interest on negative cash as well
*/
Money yearly_fee = c->current_loan * _economy.interest_rate / 100;
if (c->money < 0) {
yearly_fee += -c->money *_economy.interest_rate / 100;
}
Money up_to_previous_month = yearly_fee * _cur_date_ymd.month / 12;
Money up_to_this_month = yearly_fee * (_cur_date_ymd.month + 1) / 12;
SubtractMoneyFromCompany(CommandCost(EXPENSES_LOAN_INTEREST, up_to_this_month - up_to_previous_month));
SubtractMoneyFromCompany(CommandCost(EXPENSES_OTHER, _price[PR_STATION_VALUE] >> 2));
}
cur_company.Restore();
}
static void HandleEconomyFluctuations()
{
if (_settings_game.difficulty.economy != 0) {
/* When economy is Fluctuating, decrease counter */
_economy.fluct--;
} else if (EconomyIsInRecession()) {
/* When it's Steady and we are in recession, end it now */
_economy.fluct = -12;
} else {
/* No need to do anything else in other cases */
return;
}
if (_economy.fluct == 0) {
_economy.fluct = -(int)GB(Random(), 0, 2);
AddNewsItem(STR_NEWS_BEGIN_OF_RECESSION, NT_ECONOMY, NF_NORMAL);
} else if (_economy.fluct == -12) {
_economy.fluct = GB(Random(), 0, 8) + 312;
AddNewsItem(STR_NEWS_END_OF_RECESSION, NT_ECONOMY, NF_NORMAL);
}
}
/**
* Reset changes to the price base multipliers.
*/
void ResetPriceBaseMultipliers()
{
memset(_price_base_multiplier, 0, sizeof(_price_base_multiplier));
}
/**
* Change a price base by the given factor.
* The price base is altered by factors of two.
* NewBaseCost = OldBaseCost * 2^n
* @param price Index of price base to change.
* @param factor Amount to change by.
*/
void SetPriceBaseMultiplier(Price price, int factor)
{
assert(price < PR_END);
_price_base_multiplier[price] = Clamp(factor, MIN_PRICE_MODIFIER, MAX_PRICE_MODIFIER);
}
/**
* Initialize the variables that will maintain the daily industry change system.
* @param init_counter specifies if the counter is required to be initialized
*/
void StartupIndustryDailyChanges(bool init_counter)
{
uint map_size = MapLogX() + MapLogY();
/* After getting map size, it needs to be scaled appropriately and divided by 31,
* which stands for the days in a month.
* Using just 31 will make it so that a monthly reset (based on the real number of days of that month)
* would not be needed.
* Since it is based on "fractional parts", the leftover days will not make much of a difference
* on the overall total number of changes performed */
_economy.industry_daily_increment = (1 << map_size) / 31;
if (init_counter) {
/* A new game or a savegame from an older version will require the counter to be initialized */
_economy.industry_daily_change_counter = 0;
}
}
void StartupEconomy()
{
_economy.interest_rate = _settings_game.difficulty.initial_interest;
_economy.infl_amount = _settings_game.difficulty.initial_interest;
_economy.infl_amount_pr = std::max(0, _settings_game.difficulty.initial_interest - 1);
_economy.fluct = GB(Random(), 0, 8) + 168;
if (_settings_game.economy.inflation && _settings_game.economy.inflation_fixed_dates) {
/* Apply inflation that happened before our game start year. */
int months = (std::min(_cur_year, ORIGINAL_MAX_YEAR) - ORIGINAL_BASE_YEAR) * 12;
for (int i = 0; i < months; i++) {
AddInflation(false);
}
}
/* Set up prices */
RecomputePrices();
StartupIndustryDailyChanges(true); // As we are starting a new game, initialize the counter too
}
/**
* Resets economy to initial values
*/
void InitializeEconomy()
{
_economy.inflation_prices = _economy.inflation_payment = 1 << 16;
ClearCargoPickupMonitoring();
ClearCargoDeliveryMonitoring();
}
/**
* Determine a certain price
* @param index Price base
* @param cost_factor Price factor
* @param grf_file NewGRF to use local price multipliers from.
* @param shift Extra bit shifting after the computation
* @return Price
*/
Money GetPrice(Price index, uint cost_factor, const GRFFile *grf_file, int shift)
{
if (index >= PR_END) return 0;
Money cost = _price[index] * cost_factor;
if (grf_file != nullptr) shift += grf_file->price_base_multipliers[index];
if (shift >= 0) {
cost <<= shift;
} else {
cost >>= -shift;
}
return cost;
}
Money GetTransportedGoodsIncome(uint num_pieces, uint dist, byte transit_days, CargoID cargo_type)
{
const CargoSpec *cs = CargoSpec::Get(cargo_type);
if (!cs->IsValid()) {
/* User changed newgrfs and some vehicle still carries some cargo which is no longer available. */
return 0;
}
/* Use callback to calculate cargo profit, if available */
if (HasBit(cs->callback_mask, CBM_CARGO_PROFIT_CALC)) {
uint32 var18 = std::min(dist, 0xFFFFu) | (std::min(num_pieces, 0xFFu) << 16) | (transit_days << 24);
uint16 callback = GetCargoCallback(CBID_CARGO_PROFIT_CALC, 0, var18, cs);
if (callback != CALLBACK_FAILED) {
int result = GB(callback, 0, 14);
/* Simulate a 15 bit signed value */
if (HasBit(callback, 14)) result -= 0x4000;
/* "The result should be a signed multiplier that gets multiplied
* by the amount of cargo moved and the price factor, then gets
* divided by 8192." */
return result * num_pieces * cs->current_payment / 8192;
}
}
static const int MIN_TIME_FACTOR = 31;
static const int MAX_TIME_FACTOR = 255;
const int days1 = cs->transit_days[0];
const int days2 = cs->transit_days[1];
const int days_over_days1 = std::max( transit_days - days1, 0);
const int days_over_days2 = std::max(days_over_days1 - days2, 0);
/*
* The time factor is calculated based on the time it took
* (transit_days) compared two cargo-depending values. The
* range is divided into three parts:
*
* - constant for fast transits
* - linear decreasing with time with a slope of -1 for medium transports
* - linear decreasing with time with a slope of -2 for slow transports
*
*/
const int time_factor = std::max(MAX_TIME_FACTOR - days_over_days1 - days_over_days2, MIN_TIME_FACTOR);
return BigMulS(dist * time_factor * num_pieces, cs->current_payment, 21);
}
/** The industries we've currently brought cargo to. */
static SmallIndustryList _cargo_delivery_destinations;
template <class F>
void ForAcceptingIndustries(const Station *st, CargoID cargo_type, IndustryID source, CompanyID company, F&& f) {
for (const auto &i : st->industries_near) {
Industry *ind = i.industry;
if (ind->index == source) continue;
uint cargo_index;
for (cargo_index = 0; cargo_index < lengthof(ind->accepts_cargo); cargo_index++) {
if (cargo_type == ind->accepts_cargo[cargo_index]) break;
}
/* Check if matching cargo has been found */
if (cargo_index >= lengthof(ind->accepts_cargo)) continue;
/* Check if industry temporarily refuses acceptance */
if (IndustryTemporarilyRefusesCargo(ind, cargo_type)) continue;
if (ind->exclusive_supplier != INVALID_OWNER && ind->exclusive_supplier != st->owner) continue;
if (!f(ind, cargo_index)) break;
}
}
uint DeliverGoodsToIndustryNearestFirst(const Station *st, CargoID cargo_type, uint num_pieces, IndustryID source, CompanyID company)
{
/* Find the nearest industrytile to the station sign inside the catchment area, whose industry accepts the cargo.
* This fails in three cases:
* 1) The station accepts the cargo because there are enough houses around it accepting the cargo.
* 2) The industries in the catchment area temporarily reject the cargo, and the daily station loop has not yet updated station acceptance.
* 3) The results of callbacks CBID_INDUSTRY_REFUSE_CARGO and CBID_INDTILE_CARGO_ACCEPTANCE are inconsistent. (documented behaviour)
*/
uint accepted = 0;
ForAcceptingIndustries(st, cargo_type, source, company, [&](Industry *ind, uint cargo_index) {
/* Insert the industry into _cargo_delivery_destinations, if not yet contained */
include(_cargo_delivery_destinations, ind);
uint amount = std::min(num_pieces, 0xFFFFu - ind->incoming_cargo_waiting[cargo_index]);
ind->incoming_cargo_waiting[cargo_index] += amount;
ind->last_cargo_accepted_at[cargo_index] = _date;
num_pieces -= amount;
accepted += amount;
/* Update the cargo monitor. */
AddCargoDelivery(cargo_type, company, amount, ST_INDUSTRY, source, st, ind->index);
return num_pieces != 0;
});
return accepted;
}
uint DeliverGoodsToIndustryEqually(const Station *st, CargoID cargo_type, uint num_pieces, IndustryID source, CompanyID company)
{
struct AcceptingIndustry {
Industry *ind;
uint cargo_index;
uint capacity;
uint delivered;
};
std::vector<AcceptingIndustry> acceptingIndustries;
ForAcceptingIndustries(st, cargo_type, source, company, [&](Industry *ind, uint cargo_index) {
uint capacity = 0xFFFFu - ind->incoming_cargo_waiting[cargo_index];
if (capacity > 0) acceptingIndustries.push_back({ ind, cargo_index, capacity, 0 });
return true;
});
if (acceptingIndustries.empty()) return 0;
uint accepted = 0;
auto distributeCargo = [&](AcceptingIndustry &e, uint amount) {
e.capacity -= amount;
e.delivered += amount;
num_pieces -= amount;
accepted += amount;
};
auto finalizeCargo = [&](AcceptingIndustry &e) {
if (e.delivered == 0) return;
include(_cargo_delivery_destinations, e.ind);
e.ind->incoming_cargo_waiting[e.cargo_index] += e.delivered;
e.ind->last_cargo_accepted_at[e.cargo_index] = _date;
AddCargoDelivery(cargo_type, company, e.delivered, ST_INDUSTRY, source, st, e.ind->index);
};
if (acceptingIndustries.size() == 1) {
distributeCargo(acceptingIndustries[0], std::min<uint>(acceptingIndustries[0].capacity, num_pieces));
finalizeCargo(acceptingIndustries[0]);
return accepted;
}
/* Sort in order of decreasing capacity */
std::sort(acceptingIndustries.begin(), acceptingIndustries.end(), [](AcceptingIndustry &a, AcceptingIndustry &b) {
return std::tie(a.capacity, a.ind->index) > std::tie(b.capacity, b.ind->index);
});
/* Handle low-capacity industries first */
do {
uint amount = num_pieces / static_cast<uint>(acceptingIndustries.size());
AcceptingIndustry &acc = acceptingIndustries.back();
if (amount >= acc.capacity) {
distributeCargo(acc, acc.capacity);
finalizeCargo(acc);
acceptingIndustries.pop_back();
} else {
break;
}
} while (!acceptingIndustries.empty());
/* Remaining industries can accept all remaining cargo when distributed evenly */
if (!acceptingIndustries.empty()) {
uint amount = num_pieces / static_cast<uint>(acceptingIndustries.size());
if (amount > 0) {
for (auto &e : acceptingIndustries) {
distributeCargo(e, amount);
}
}
/* If cargo didn't divide evenly into remaining industries, distribute the remainder randomly */
if (num_pieces > 0) {
assert(num_pieces < acceptingIndustries.size());
uint idx = RandomRange((uint)acceptingIndustries.size());
for (uint i = 0; i < acceptingIndustries.size(); ++i) {
if (acceptingIndustries[idx].capacity > 0) {
distributeCargo(acceptingIndustries[idx], 1);
if (num_pieces == 0) break;
}
idx++;
if (idx == acceptingIndustries.size()) idx = 0;
}
}
for (auto &e : acceptingIndustries) {
finalizeCargo(e);
}
}
return accepted;
}
/**
* Transfer goods from station to industry.
* Original distribution mode: All cargo is delivered to the nearest (Manhattan) industry to the station sign, which is inside the acceptance rectangle and actually accepts the cargo.
* Balanced distribution: Cargo distributed equally amongst the accepting industries in the acceptance rectangle.
* @param st The station that accepted the cargo
* @param cargo_type Type of cargo delivered
* @param num_pieces Amount of cargo delivered
* @param source The source of the cargo
* @param company The company delivering the cargo
* @return actually accepted pieces of cargo
*/
static uint DeliverGoodsToIndustry(const Station *st, CargoID cargo_type, uint num_pieces, IndustryID source, CompanyID company)
{
switch (_settings_game.station.station_delivery_mode) {
case SD_BALANCED:
return DeliverGoodsToIndustryEqually(st, cargo_type, num_pieces, source, company);
default:
return DeliverGoodsToIndustryNearestFirst(st, cargo_type, num_pieces, source, company);
}
}
/**
* Delivers goods to industries/towns and calculates the payment
* @param num_pieces amount of cargo delivered
* @param cargo_type the type of cargo that is delivered
* @param dest Station the cargo has been unloaded
* @param source_tile The origin of the cargo for distance calculation
* @param days_in_transit Travel time
* @param company The company delivering the cargo
* @param src_type Type of source of cargo (industry, town, headquarters)
* @param src Index of source of cargo
* @return Revenue for delivering cargo
* @note The cargo is just added to the stockpile of the industry. It is due to the caller to trigger the industry's production machinery
*/
static Money DeliverGoods(int num_pieces, CargoID cargo_type, StationID dest, TileIndex source_tile, byte days_in_transit, Company *company, SourceType src_type, SourceID src)
{
assert(num_pieces > 0);
Station *st = Station::Get(dest);
/* Give the goods to the industry. */
uint accepted_ind = DeliverGoodsToIndustry(st, cargo_type, num_pieces, src_type == ST_INDUSTRY ? src : INVALID_INDUSTRY, company->index);
/* If this cargo type is always accepted, accept all */
uint accepted_total = HasBit(st->always_accepted, cargo_type) ? num_pieces : accepted_ind;
/* Update station statistics */
if (accepted_total > 0) {
SetBit(st->goods[cargo_type].status, GoodsEntry::GES_EVER_ACCEPTED);
SetBit(st->goods[cargo_type].status, GoodsEntry::GES_CURRENT_MONTH);
SetBit(st->goods[cargo_type].status, GoodsEntry::GES_ACCEPTED_BIGTICK);
}
/* Update company statistics */
company->cur_economy.delivered_cargo[cargo_type] += accepted_total;
/* Increase town's counter for town effects */
const CargoSpec *cs = CargoSpec::Get(cargo_type);
st->town->received[cs->town_effect].new_act += accepted_total;
/* Determine profit */
Money profit = GetTransportedGoodsIncome(accepted_total, DistanceManhattan(source_tile, st->xy), days_in_transit, cargo_type);
/* Update the cargo monitor. */
AddCargoDelivery(cargo_type, company->index, accepted_total - accepted_ind, src_type, src, st);
/* Modify profit if a subsidy is in effect */
if (CheckSubsidised(cargo_type, company->index, src_type, src, st)) {
switch (_settings_game.difficulty.subsidy_multiplier) {
case 0: profit += profit >> 1; break;
case 1: profit *= 2; break;
case 2: profit *= 3; break;
default: profit *= 4; break;
}
}
return profit;
}
/**
* Inform the industry about just delivered cargo
* DeliverGoodsToIndustry() silently incremented incoming_cargo_waiting, now it is time to do something with the new cargo.
* @param i The industry to process
*/
static void TriggerIndustryProduction(Industry *i)
{
const IndustrySpec *indspec = GetIndustrySpec(i->type);
uint16 callback = indspec->callback_mask;
i->was_cargo_delivered = true;
if (HasBit(callback, CBM_IND_PRODUCTION_CARGO_ARRIVAL) || HasBit(callback, CBM_IND_PRODUCTION_256_TICKS)) {
if (HasBit(callback, CBM_IND_PRODUCTION_CARGO_ARRIVAL)) {
IndustryProductionCallback(i, 0);
} else {
SetWindowDirty(WC_INDUSTRY_VIEW, i->index);
}
} else {
for (uint ci_in = 0; ci_in < lengthof(i->incoming_cargo_waiting); ci_in++) {
uint cargo_waiting = i->incoming_cargo_waiting[ci_in];
if (cargo_waiting == 0) continue;
for (uint ci_out = 0; ci_out < lengthof(i->produced_cargo_waiting); ci_out++) {
i->produced_cargo_waiting[ci_out] = std::min(i->produced_cargo_waiting[ci_out] + (cargo_waiting * indspec->input_cargo_multiplier[ci_in][ci_out] / 256), 0xFFFFu);
}
i->incoming_cargo_waiting[ci_in] = 0;
}
}
TriggerIndustry(i, INDUSTRY_TRIGGER_RECEIVED_CARGO);
StartStopIndustryTileAnimation(i, IAT_INDUSTRY_RECEIVED_CARGO);
}
/**
* Makes us a new cargo payment helper.
* @param front The front of the train
*/
CargoPayment::CargoPayment(Vehicle *front) :
front(front),
current_station(front->last_station_visited)
{
}
CargoPayment::~CargoPayment()
{
if (this->CleaningPool()) return;
this->front->cargo_payment = nullptr;
if (this->visual_profit == 0 && this->visual_transfer == 0) return;
Backup<CompanyID> cur_company(_current_company, this->front->owner, FILE_LINE);
SubtractMoneyFromCompany(CommandCost(this->front->GetExpenseType(true), -this->route_profit));
this->front->profit_this_year += (this->visual_profit + this->visual_transfer) << 8;
if (this->route_profit != 0 && IsLocalCompany() && !PlayVehicleSound(this->front, VSE_LOAD_UNLOAD)) {
SndPlayVehicleFx(SND_14_CASHTILL, this->front);
}
if (HasBit(_extra_display_opt, XDO_SHOW_MONEY_TEXT_EFFECTS)) {
if (this->visual_transfer != 0) {
ShowFeederIncomeAnimation(this->front->x_pos, this->front->y_pos,
this->front->z_pos, this->visual_transfer, -this->visual_profit);
} else {
ShowCostOrIncomeAnimation(this->front->x_pos, this->front->y_pos,
this->front->z_pos, -this->visual_profit);
}
}
cur_company.Restore();
}
/**
* Handle payment for final delivery of the given cargo packet.
* @param cp The cargo packet to pay for.
* @param count The number of packets to pay for.
*/
void CargoPayment::PayFinalDelivery(CargoPacket *cp, uint count)
{
if (this->owner == nullptr) {
this->owner = Company::Get(this->front->owner);
}
/* Handle end of route payment */
Money profit = DeliverGoods(count, this->ct, this->current_station, cp->SourceStationXY(), cp->DaysInTransit(), this->owner, cp->SourceSubsidyType(), cp->SourceSubsidyID());
profit -= cp->FeederShare(count);
/* For Infrastructure patch. Handling transfers between other companies */
this->route_profit += profit;
cp->PayDeferredPayments();
/* The vehicle's profit is whatever route profit there is minus feeder shares. */
this->visual_profit += profit;
}
/**
* Handle payment for transfer of the given cargo packet.
* @param cp The cargo packet to pay for; actual payment won't be made!.
* @param count The number of packets to pay for.
* @return The amount of money paid for the transfer.
*/
Money CargoPayment::PayTransfer(CargoPacket *cp, uint count)
{
Money profit = -cp->FeederShare(count) + GetTransportedGoodsIncome(
count,
/* pay transfer vehicle the difference between the payment for the journey from
* the source to the current point, and the sum of the previous transfer payments */
DistanceManhattan(cp->SourceStationXY(), Station::Get(this->current_station)->xy),
cp->DaysInTransit(),
this->ct);
profit = profit * _settings_game.economy.feeder_payment_share / 100;
/* For Infrastructure patch. Handling transfers between other companies */
cp->RegisterDeferredCargoPayment(this->front->owner, this->front->type, profit);
this->visual_transfer += profit; // accumulate transfer profits for whole vehicle
return profit; // account for the (virtual) profit already made for the cargo packet
}
/**
* Returns the load type of a vehicle.
* In case of cargo type order, the load type returned depends on the cargo carriable by the vehicle.
* @pre v != nullptr
* @param v A pointer to a vehicle.
* @return the load type of this vehicle.
*/
static OrderLoadFlags GetLoadType(const Vehicle *v)
{
return v->First()->current_order.GetCargoLoadType(v->cargo_type);
}
/**
* Returns the unload type of a vehicle.
* In case of cargo type order, the unload type returned depends on the cargo carriable by the vehicle.
* @pre v != nullptr
* @param v A pointer to a vehicle.
* @return The unload type of this vehicle.
*/
static OrderUnloadFlags GetUnloadType(const Vehicle *v)
{
return v->First()->current_order.GetCargoUnloadType(v->cargo_type);
}
/**
* Prepare the vehicle to be unloaded.
* @param front_v the vehicle to be unloaded
*/
void PrepareUnload(Vehicle *front_v)
{
Station *curr_station = Station::Get(front_v->last_station_visited);
curr_station->loading_vehicles.push_back(front_v);
/* At this moment loading cannot be finished */
ClrBit(front_v->vehicle_flags, VF_LOADING_FINISHED);
/* Start unloading at the first possible moment */
front_v->load_unload_ticks = 1;
assert(front_v->cargo_payment == nullptr);
/* One CargoPayment per vehicle and the vehicle limit equals the
* limit in number of CargoPayments. Can't go wrong. */
static_assert(CargoPaymentPool::MAX_SIZE == VehiclePool::MAX_SIZE);
assert(CargoPayment::CanAllocateItem());
front_v->cargo_payment = new CargoPayment(front_v);
CargoStationIDStackSet next_station = front_v->GetNextStoppingStation();
if (front_v->orders == nullptr || (front_v->current_order.GetUnloadType() & OUFB_NO_UNLOAD) == 0) {
Station *st = Station::Get(front_v->last_station_visited);
for (Vehicle *v = front_v; v != nullptr; v = v->Next()) {
if (GetUnloadType(v) & OUFB_NO_UNLOAD) continue;
const GoodsEntry *ge = &st->goods[v->cargo_type];
if (v->cargo_cap > 0 && v->cargo.TotalCount() > 0) {
v->cargo.Stage(
HasBit(ge->status, GoodsEntry::GES_ACCEPTANCE),
front_v->last_station_visited, next_station.Get(v->cargo_type),
GetUnloadType(v), ge,
front_v->cargo_payment);
if (v->cargo.UnloadCount() > 0) SetBit(v->vehicle_flags, VF_CARGO_UNLOADING);
}
}
}
}
/**
* Gets the amount of cargo the given vehicle can load in the current tick.
* This is only about loading speed. The free capacity is ignored.
* @param v Vehicle to be queried.
* @return Amount of cargo the vehicle can load at once.
*/
static uint GetLoadAmount(Vehicle *v)
{
const Engine *e = v->GetEngine();
uint load_amount = e->info.load_amount;
/* The default loadamount for mail is 1/4 of the load amount for passengers */
bool air_mail = v->type == VEH_AIRCRAFT && !Aircraft::From(v)->IsNormalAircraft();
if (air_mail) load_amount = CeilDiv(load_amount, 4);
if (_settings_game.order.gradual_loading) {
uint16 cb_load_amount = CALLBACK_FAILED;
if (e->GetGRF() != nullptr && e->GetGRF()->grf_version >= 8) {
/* Use callback 36 */
cb_load_amount = GetVehicleProperty(v, PROP_VEHICLE_LOAD_AMOUNT, CALLBACK_FAILED);
} else if (HasBit(e->info.callback_mask, CBM_VEHICLE_LOAD_AMOUNT)) {
/* Use callback 12 */
cb_load_amount = GetVehicleCallback(CBID_VEHICLE_LOAD_AMOUNT, 0, 0, v->engine_type, v);
}
if (cb_load_amount != CALLBACK_FAILED) {
if (e->GetGRF()->grf_version < 8) cb_load_amount = GB(cb_load_amount, 0, 8);
if (cb_load_amount >= 0x100) {
ErrorUnknownCallbackResult(e->GetGRFID(), CBID_VEHICLE_LOAD_AMOUNT, cb_load_amount);
} else if (cb_load_amount != 0) {
load_amount = cb_load_amount;
}
}
}
/* Scale load amount the same as capacity */
if (HasBit(e->info.misc_flags, EF_NO_DEFAULT_CARGO_MULTIPLIER) && !air_mail) load_amount = CeilDiv(load_amount * CargoSpec::Get(v->cargo_type)->multiplier, 0x100);
/* Zero load amount breaks a lot of things. */
return std::max(1u, load_amount);
}
/**
* Iterate the articulated parts of a vehicle, also considering the special cases of "normal"
* aircraft and double headed trains. Apply an action to each vehicle and immediately return false
* if that action does so. Otherwise return true.
* @tparam Taction Class of action to be applied. Must implement bool operator()([const] Vehicle *).
* @param v First articulated part.
* @param action Instance of Taction.
* @param ignore_multihead_rear Don't call action on multihead rear.
* @return false if any of the action invocations returned false, true otherwise.
*/
template<class Taction>
bool IterateVehicleParts(Vehicle *v, Taction action, bool ignore_multihead_rear = false)
{
for (Vehicle *w = v; w != nullptr;
w = w->HasArticulatedPart() ? w->GetNextArticulatedPart() : nullptr) {
if (!action(w)) return false;
if (!ignore_multihead_rear && w->type == VEH_TRAIN) {
Train *train = Train::From(w);
if (train->IsMultiheaded() && !action(train->other_multiheaded_part)) return false;
}
}
if (v->type == VEH_AIRCRAFT && Aircraft::From(v)->IsNormalAircraft()) return action(v->Next());
return true;
}
/**
* Action to check if a vehicle has no stored cargo.
*/
struct IsEmptyAction
{
/**
* Checks if the vehicle has stored cargo.
* @param v Vehicle to be checked.
* @return true if v is either empty or has only reserved cargo, false otherwise.
*/
bool operator()(const Vehicle *v)
{
return v->cargo.StoredCount() == 0;
}
};
/**
* Action to check whether a vehicle is wholly in the platform.
*/
struct ThroughLoadTrainInPlatformAction
{
/**
* Checks if the vehicle has stored cargo.
* @param v Vehicle to be checked.
* @return true if v is either empty or has only reserved cargo, false otherwise.
*/
bool operator()(const Vehicle *v)
{
assert(v->type == VEH_TRAIN);
return !HasBit(Train::From(v)->flags, VRF_BEYOND_PLATFORM_END) && !HasBit(Train::From(v)->flags, VRF_NOT_YET_IN_PLATFORM);
}
};
/**
* Refit preparation action.
*/
struct PrepareRefitAction
{
CargoArray &consist_capleft; ///< Capacities left in the consist.
CargoTypes &refit_mask; ///< Bitmask of possible refit cargoes.
/**
* Create a refit preparation action.
* @param consist_capleft Capacities left in consist, to be updated here.
* @param refit_mask Refit mask to be constructed from refit information of vehicles.
*/
PrepareRefitAction(CargoArray &consist_capleft, CargoTypes &refit_mask) :
consist_capleft(consist_capleft), refit_mask(refit_mask) {}
/**
* Prepares for refitting of a vehicle, subtracting its free capacity from consist_capleft and
* adding the cargoes it can refit to to the refit mask.
* @param v The vehicle to be refitted.
* @return true.
*/
bool operator()(const Vehicle *v)
{
this->consist_capleft[v->cargo_type] -= v->cargo_cap - v->cargo.ReservedCount();
this->refit_mask |= EngInfo(v->engine_type)->refit_mask;
return true;
}
};
/**
* Action for returning reserved cargo.
*/
struct ReturnCargoAction
{
Station *st; ///< Station to give the returned cargo to.
StationID next_hop; ///< Next hop the cargo should be assigned to.
/**
* Construct a cargo return action.
* @param st Station to give the returned cargo to.
* @param next_one Next hop the cargo should be assigned to.
*/
ReturnCargoAction(Station *st, StationID next_one) : st(st), next_hop(next_one) {}
/**
* Return all reserved cargo from a vehicle.
* @param v Vehicle to return cargo from.
* @return true.
*/
bool operator()(Vehicle *v)
{
v->cargo.Return(UINT_MAX, &this->st->goods[v->cargo_type].cargo, this->next_hop);
return true;
}
};
/**
* Action for finalizing a refit.
*/
struct FinalizeRefitAction
{
CargoArray &consist_capleft; ///< Capacities left in the consist.
Station *st; ///< Station to reserve cargo from.
const CargoStationIDStackSet &next_station; ///< Next hops to reserve cargo for.
bool do_reserve; ///< If the vehicle should reserve.
Vehicle *cargo_type_loading; ///< Non-null if vehicle should reserve if the cargo type of the vehicle is a cargo-specific full-load order using this pointer
/**
* Create a finalizing action.
* @param consist_capleft Capacities left in the consist.
* @param st Station to reserve cargo from.
* @param next_station Next hops to reserve cargo for.
* @param do_reserve If we should reserve cargo or just add up the capacities.
* @param cargo_type_loading Non-null if vehicle should reserve if the cargo type of the vehicle is a cargo-specific full-load order using this pointer
*/
FinalizeRefitAction(CargoArray &consist_capleft, Station *st, const CargoStationIDStackSet &next_station, bool do_reserve, Vehicle *cargo_type_loading) :
consist_capleft(consist_capleft), st(st), next_station(next_station), do_reserve(do_reserve), cargo_type_loading(cargo_type_loading) {}
/**
* Reserve cargo from the station and update the remaining consist capacities with the
* vehicle's remaining free capacity.
* @param v Vehicle to be finalized.
* @return true.
*/
bool operator()(Vehicle *v)
{
if (this->do_reserve || (cargo_type_loading == nullptr || (cargo_type_loading->current_order.GetCargoLoadTypeRaw(v->cargo_type) & OLFB_FULL_LOAD))) {
this->st->goods[v->cargo_type].cargo.Reserve(v->cargo_cap - v->cargo.RemainingCount(),
&v->cargo, st->xy, this->next_station.Get(v->cargo_type));
}
this->consist_capleft[v->cargo_type] += v->cargo_cap - v->cargo.RemainingCount();
return true;
}
};
/**
* Refit a vehicle in a station.
* @param v Vehicle to be refitted.
* @param consist_capleft Added cargo capacities in the consist.
* @param st Station the vehicle is loading at.
* @param next_station Possible next stations the vehicle can travel to.
* @param new_cid Target cargo for refit.
*/
static void HandleStationRefit(Vehicle *v, CargoArray &consist_capleft, Station *st, CargoStationIDStackSet next_station, CargoID new_cid)
{
Vehicle *v_start = v->GetFirstEnginePart();
if (!IterateVehicleParts(v_start, IsEmptyAction())) return;
if (v->type == VEH_TRAIN && !IterateVehicleParts(v_start, ThroughLoadTrainInPlatformAction())) return;
Backup<CompanyID> cur_company(_current_company, v->owner, FILE_LINE);
CargoTypes refit_mask = v->GetEngine()->info.refit_mask;
/* Remove old capacity from consist capacity and collect refit mask. */
IterateVehicleParts(v_start, PrepareRefitAction(consist_capleft, refit_mask));
bool is_auto_refit = new_cid == CT_AUTO_REFIT;
bool check_order = (v->First()->current_order.GetLoadType() == OLFB_CARGO_TYPE_LOAD);
if (is_auto_refit) {
/* Get a refittable cargo type with waiting cargo for next_station or INVALID_STATION. */
new_cid = v_start->cargo_type;
for (CargoID cid : SetCargoBitIterator(refit_mask)) {
if (check_order && v->First()->current_order.GetCargoLoadType(cid) == OLFB_NO_LOAD) continue;
if (st->goods[cid].cargo.HasCargoFor(next_station.Get(cid))) {
/* Try to find out if auto-refitting would succeed. In case the refit is allowed,
* the returned refit capacity will be greater than zero. */
DoCommand(v_start->tile, v_start->index, cid | 1U << 24 | 0xFF << 8 | 1U << 16, DC_QUERY_COST, GetCmdRefitVeh(v_start)); // Auto-refit and only this vehicle including artic parts.
/* Try to balance different loadable cargoes between parts of the consist, so that
* all of them can be loaded. Avoid a situation where all vehicles suddenly switch
* to the first loadable cargo for which there is only one packet. If the capacities
* are equal refit to the cargo of which most is available. This is important for
* consists of only a single vehicle as those will generally have a consist_capleft
* of 0 for all cargoes. */
if (_returned_refit_capacity > 0 && (consist_capleft[cid] < consist_capleft[new_cid] ||
(consist_capleft[cid] == consist_capleft[new_cid] &&
st->goods[cid].cargo.AvailableCount() > st->goods[new_cid].cargo.AvailableCount()))) {
new_cid = cid;
}
}
}
}
/* Refit if given a valid cargo. */
if (new_cid < NUM_CARGO && new_cid != v_start->cargo_type) {
/* INVALID_STATION because in the DT_MANUAL case that's correct and in the DT_(A)SYMMETRIC
* cases the next hop of the vehicle doesn't really tell us anything if the cargo had been
* "via any station" before reserving. We rather produce some more "any station" cargo than
* misrouting it. */
IterateVehicleParts(v_start, ReturnCargoAction(st, INVALID_STATION));
CommandCost cost = DoCommand(v_start->tile, v_start->index, new_cid | 1U << 24 | 0xFF << 8 | 1U << 16, DC_EXEC, GetCmdRefitVeh(v_start)); // Auto-refit and only this vehicle including artic parts.
if (cost.Succeeded()) v->First()->profit_this_year -= cost.GetCost() << 8;
}
/* Add new capacity to consist capacity and reserve cargo */
IterateVehicleParts(v_start, FinalizeRefitAction(consist_capleft, st, next_station,
is_auto_refit || (v->First()->current_order.GetLoadType() & OLFB_FULL_LOAD) != 0,
(v->First()->current_order.GetLoadType() == OLFB_CARGO_TYPE_LOAD) ? v->First() : nullptr));
cur_company.Restore();
}
/**
* Test whether a vehicle can load cargo at a station even if exclusive transport rights are present.
* @param st Station with cargo waiting to be loaded.
* @param v Vehicle loading the cargo.
* @return true when a vehicle can load the cargo.
*/
static bool MayLoadUnderExclusiveRights(const Station *st, const Vehicle *v)
{
return st->owner != OWNER_NONE || st->town->exclusive_counter == 0 || st->town->exclusivity == v->owner;
}
struct ReserveCargoAction {
Station *st;
const CargoStationIDStackSet &next_station;
Vehicle *cargo_type_loading;
bool through_load;
ReserveCargoAction(Station *st, const CargoStationIDStackSet &next_station, Vehicle *cargo_type_loading, bool through_load) :
st(st), next_station(next_station), cargo_type_loading(cargo_type_loading), through_load(through_load) {}
bool operator()(Vehicle *v)
{
/* Don't try to reserve cargo if the vehicle has already advanced beyond the station platform */
if (v->type == VEH_TRAIN && HasBit(Train::From(v)->flags, VRF_BEYOND_PLATFORM_END)) return true;
if (cargo_type_loading != nullptr) {
OrderLoadFlags flags = cargo_type_loading->current_order.GetCargoLoadTypeRaw(v->cargo_type);
if (flags & OLFB_NO_LOAD) return true;
if (!(flags & OLFB_FULL_LOAD) && !through_load) return true;
}
if (v->cargo_cap > v->cargo.RemainingCount() && MayLoadUnderExclusiveRights(st, v)) {
st->goods[v->cargo_type].cargo.Reserve(v->cargo_cap - v->cargo.RemainingCount(),
&v->cargo, st->xy, next_station.Get(v->cargo_type));
}
return true;
}
};
/**
* Reserves cargo if the full load order and improved_load is set or if the
* current order allows autorefit.
* @param st Station where the consist is loading at the moment.
* @param u Front of the loading vehicle consist.
* @param consist_capleft If given, save free capacities after reserving there.
* @param next_station Station(s) the vehicle will stop at next.
* @param cargo_type_loading check cargo-specific loading type
* @param through_load through load mode
*/
static void ReserveConsist(Station *st, Vehicle *u, CargoArray *consist_capleft, const CargoStationIDStackSet &next_station,
bool cargo_type_loading, bool through_load)
{
/* If there is a cargo payment not all vehicles of the consist have tried to do the refit.
* In that case, only reserve if it's a fixed refit and the equivalent of "articulated chain"
* a vehicle belongs to already has the right cargo. */
bool must_reserve = !u->current_order.IsRefit() || u->cargo_payment == nullptr;
for (Vehicle *v = u; v != nullptr; v = v->Next()) {
assert(v->cargo_cap >= v->cargo.RemainingCount());
/* Exclude various ways in which the vehicle might not be the head of an equivalent of
* "articulated chain". Also don't do the reservation if the vehicle is going to refit
* to a different cargo and hasn't tried to do so, yet. */
if (!v->IsArticulatedPart() &&
(v->type != VEH_TRAIN || !Train::From(v)->IsRearDualheaded()) &&
(v->type != VEH_AIRCRAFT || Aircraft::From(v)->IsNormalAircraft()) &&
(must_reserve || u->current_order.GetRefitCargo() == v->cargo_type)) {
IterateVehicleParts(v, ReserveCargoAction(st, next_station, cargo_type_loading ? u : nullptr, through_load), through_load);
} else if (through_load && v->type == VEH_TRAIN && Train::From(v)->IsRearDualheaded()) {
ReserveCargoAction(st, next_station, cargo_type_loading ? u : nullptr, through_load)(v);
}
if (consist_capleft == nullptr || v->cargo_cap == 0) continue;
if (cargo_type_loading) {
OrderLoadFlags flags = u->current_order.GetCargoLoadTypeRaw(v->cargo_type);
if (flags & OLFB_NO_LOAD) continue;
if (!(flags & OLFB_FULL_LOAD) && !through_load) continue;
}
(*consist_capleft)[v->cargo_type] += v->cargo_cap - v->cargo.RemainingCount();
}
}
/**
* Update the vehicle's load_unload_ticks, the time it will wait until it tries to load or unload
* again. Adjust for overhang of trains and set it at least to 1.
* @param front The vehicle to be updated.
* @param st The station the vehicle is loading at.
* @param ticks The time it would normally wait, based on cargo loaded and unloaded.
* @param platform_length_left Platform length left, negative values indicate train is overhanging platform
*/
static void UpdateLoadUnloadTicks(Vehicle *front, const Station *st, int ticks, int platform_length_left)
{
if (front->type == VEH_TRAIN) {
/* Each platform tile is worth 2 rail vehicles. */
int overhang = -platform_length_left;
if (overhang > 0) {
ticks <<= 1;
ticks += (overhang * ticks) / 8;
}
}
/* Always wait at least 1, otherwise we'll wait 'infinitively' long. */
front->load_unload_ticks = std::max(1, ticks);
}
/**
* Loads/unload the vehicle if possible.
* @param front the vehicle to be (un)loaded
*/
static void LoadUnloadVehicle(Vehicle *front)
{
assert(front->current_order.IsType(OT_LOADING));
StationID last_visited = front->last_station_visited;
Station *st = Station::Get(last_visited);
Vehicle *station_vehicle = front;
if (front->type == VEH_TRAIN) station_vehicle = Train::From(front)->GetStationLoadingVehicle();
TileIndex station_tile = station_vehicle->tile;
SCOPE_INFO_FMT([&], "LoadUnloadVehicle: %s, %s, %s, %X", scope_dumper().StationInfo(st), scope_dumper().VehicleInfo(front), scope_dumper().VehicleInfo(station_vehicle), station_tile);
bool pull_through_mode = false;
bool load_unload_not_yet_in_station = false;
bool unload_payment_not_yet_in_station = false;
if (front->type == VEH_TRAIN && front->cur_real_order_index < front->GetNumOrders()) {
Order *order = front->GetOrder(front->cur_real_order_index);
if (order->IsType(OT_GOTO_STATION) && order->GetDestination() == last_visited &&
order->GetStopLocation() == OSL_PLATFORM_THROUGH) {
pull_through_mode = true;
for (Vehicle *v = front; v != nullptr; v = v->Next()) {
/* Passengers may not be through-loaded */
if (v->cargo_cap > 0 && IsCargoInClass(v->cargo_type, CC_PASSENGERS)) {
pull_through_mode = false;
break;
}
/* Disallow through-load when any part of train is in a depot, to prevent cheating */
if (Train::From(v)->IsInDepot()) {
pull_through_mode = false;
break;
}
}
}
}
int platform_length_left = 0;
if (pull_through_mode) {
platform_length_left = st->GetPlatformLength(station_tile, ReverseDiagDir(DirToDiagDir(station_vehicle->direction))) * TILE_SIZE - GetTileMarginInFrontOfTrain(Train::From(station_vehicle));
} else if (front->type == VEH_TRAIN) {
platform_length_left = st->GetPlatformLength(station_tile) * TILE_SIZE - front->GetGroundVehicleCache()->cached_total_length;
}
CargoStationIDStackSet next_station = front->GetNextStoppingStation();
bool use_autorefit = front->current_order.IsRefit() && front->current_order.GetRefitCargo() == CT_AUTO_REFIT;
CargoArray consist_capleft;
bool should_reserve_consist = false;
bool reserve_consist_cargo_type_loading = false;
if (_settings_game.order.improved_load && use_autorefit) {
if (front->cargo_payment == nullptr) should_reserve_consist = true;
} else {
if ((front->current_order.GetLoadType() & OLFB_FULL_LOAD) || (front->current_order.GetLoadType() == OLFB_CARGO_TYPE_LOAD) || pull_through_mode) {
should_reserve_consist = true;
reserve_consist_cargo_type_loading = (front->current_order.GetLoadType() == OLFB_CARGO_TYPE_LOAD);
}
}
if (should_reserve_consist) {
ReserveConsist(st, front,
(use_autorefit && front->load_unload_ticks != 0) ? &consist_capleft : nullptr,
next_station,
reserve_consist_cargo_type_loading,
pull_through_mode);
}
/* We have not waited enough time till the next round of loading/unloading */
if (front->load_unload_ticks != 0) return;
if (front->type == VEH_TRAIN && (!IsTileType(station_tile, MP_STATION) || GetStationIndex(station_tile) != st->index)) {
/* The train reversed in the station. Take the "easy" way
* out and let the train just leave as it always did. */
SetBit(front->vehicle_flags, VF_LOADING_FINISHED);
front->load_unload_ticks = 1;
return;
}
int new_load_unload_ticks = 0;
bool dirty_vehicle = false;
bool dirty_station = false;
bool completely_emptied = true;
bool anything_unloaded = false;
bool anything_loaded = false;
CargoTypes full_load_amount = 0;
CargoTypes cargo_not_full = 0;
CargoTypes cargo_full = 0;
CargoTypes reservation_left = 0;
CargoTypes not_yet_in_station_cargo_not_full = 0;
CargoTypes not_yet_in_station_cargo_full = 0;
CargoTypes beyond_platform_end_cargo_full = 0;
front->cur_speed = 0;
CargoPayment *payment = front->cargo_payment;
uint artic_part = 0; // Articulated part we are currently trying to load. (not counting parts without capacity)
for (Vehicle *v = front; v != nullptr; v = v->Next()) {
if (pull_through_mode && HasBit(Train::From(v)->flags, VRF_BEYOND_PLATFORM_END)) {
if (v->cargo_cap != 0) {
if (v->cargo.StoredCount() >= v->cargo_cap) {
SetBit(beyond_platform_end_cargo_full, v->cargo_type);
}
}
continue;
}
if (pull_through_mode && !v->IsArticulatedPart()) {
int length = Train::From(v)->gcache.cached_veh_length;
Vehicle *u = v;
while (u->HasArticulatedPart()) {
u = u->GetNextArticulatedPart();
length += Train::From(u)->gcache.cached_veh_length;
}
if (v != station_vehicle && !HasBit(Train::From(v->Previous())->flags, VRF_BEYOND_PLATFORM_END) && length > platform_length_left) {
for (Vehicle *skip = v; skip != nullptr; skip = skip->Next()) {
SetBit(Train::From(skip)->flags, VRF_NOT_YET_IN_PLATFORM);
if (HasBit(skip->vehicle_flags, VF_CARGO_UNLOADING)) {
unload_payment_not_yet_in_station = true;
load_unload_not_yet_in_station = true;
} else if (skip->cargo.ReservedCount() || skip->cargo.UnloadCount() || (skip->cargo_cap != 0 && front->current_order.IsRefit())) {
load_unload_not_yet_in_station = true;
}
if (skip->cargo_cap != 0) {
if (skip->cargo.StoredCount() >= skip->cargo_cap) {
SetBit(not_yet_in_station_cargo_full, skip->cargo_type);
} else {
SetBit(not_yet_in_station_cargo_not_full, skip->cargo_type);
}
}
}
break; // articulated vehicle won't fit in platform, no loading
}
platform_length_left -= length;
}
if (v == front || !v->Previous()->HasArticulatedPart()) artic_part = 0;
if (v->cargo_cap == 0) continue;
artic_part++;
GoodsEntry *ge = &st->goods[v->cargo_type];
if (HasBit(v->vehicle_flags, VF_CARGO_UNLOADING) && (GetUnloadType(v) & OUFB_NO_UNLOAD) == 0) {
uint cargo_count = v->cargo.UnloadCount();
uint amount_unloaded = _settings_game.order.gradual_loading ? std::min(cargo_count, GetLoadAmount(v)) : cargo_count;
bool remaining = false; // Are there cargo entities in this vehicle that can still be unloaded here?
assert(payment != nullptr);
payment->SetCargo(v->cargo_type);
if (!HasBit(ge->status, GoodsEntry::GES_ACCEPTANCE) && v->cargo.ActionCount(VehicleCargoList::MTA_DELIVER) > 0) {
/* The station does not accept our goods anymore. */
if (GetUnloadType(v) & (OUFB_TRANSFER | OUFB_UNLOAD)) {
/* Transfer instead of delivering. */
v->cargo.Reassign<VehicleCargoList::MTA_DELIVER, VehicleCargoList::MTA_TRANSFER>(
v->cargo.ActionCount(VehicleCargoList::MTA_DELIVER), INVALID_STATION);
} else {
uint new_remaining = v->cargo.RemainingCount() + v->cargo.ActionCount(VehicleCargoList::MTA_DELIVER);
if (v->cargo_cap < new_remaining) {
/* Return some of the reserved cargo to not overload the vehicle. */
v->cargo.Return(new_remaining - v->cargo_cap, &ge->cargo, INVALID_STATION);
}
/* Keep instead of delivering. This may lead to no cargo being unloaded, so ...*/
v->cargo.Reassign<VehicleCargoList::MTA_DELIVER, VehicleCargoList::MTA_KEEP>(
v->cargo.ActionCount(VehicleCargoList::MTA_DELIVER));
/* ... say we unloaded something, otherwise we'll think we didn't unload
* something and we didn't load something, so we must be finished
* at this station. Setting the unloaded means that we will get a
* retry for loading in the next cycle. */
anything_unloaded = true;
}
}
if (v->cargo.ActionCount(VehicleCargoList::MTA_TRANSFER) > 0) {
/* Mark the station dirty if we transfer, but not if we only deliver. */
dirty_station = true;
if (!ge->HasRating()) {
/* Upon transferring cargo, make sure the station has a rating. Fake a pickup for the
* first unload to prevent the cargo from quickly decaying after the initial drop. */
ge->time_since_pickup = 0;
SetBit(ge->status, GoodsEntry::GES_RATING);
}
}
amount_unloaded = v->cargo.Unload(amount_unloaded, &ge->cargo, payment);
remaining = v->cargo.UnloadCount() > 0;
if (amount_unloaded > 0) {
dirty_vehicle = true;
anything_unloaded = true;
new_load_unload_ticks += amount_unloaded;
/* Deliver goods to the station */
st->time_since_unload = 0;
}
if (_settings_game.order.gradual_loading && remaining) {
completely_emptied = false;
} else {
/* We have finished unloading (cargo count == 0) */
ClrBit(v->vehicle_flags, VF_CARGO_UNLOADING);
}
continue;
} else if (HasBit(v->vehicle_flags, VF_CARGO_UNLOADING) && payment == nullptr) {
/* Once the payment has been made, never attempt to unload again */
ClrBit(v->vehicle_flags, VF_CARGO_UNLOADING);
}
/* Do not pick up goods when we have no-load set or loading is stopped.
* Per-cargo no-load orders can only be checked after attempting to refit. */
if (front->current_order.GetLoadType() & OLFB_NO_LOAD || HasBit(front->vehicle_flags, VF_STOP_LOADING)) continue;
/* This order has a refit, if this is the first vehicle part carrying cargo and the whole vehicle is empty, try refitting. */
if (front->current_order.IsRefit() && artic_part == 1) {
HandleStationRefit(v, consist_capleft, st, next_station, front->current_order.GetRefitCargo());
ge = &st->goods[v->cargo_type];
}
/* Do not pick up goods when we have no-load set. */
if (GetLoadType(v) & OLFB_NO_LOAD) continue;
/* As we're loading here the following link can carry the full capacity of the vehicle. */
v->refit_cap = v->cargo_cap;
/* update stats */
int t;
switch (front->type) {
case VEH_TRAIN:
case VEH_SHIP:
t = front->vcache.cached_max_speed;
break;
case VEH_ROAD:
t = front->vcache.cached_max_speed / 2;
break;
case VEH_AIRCRAFT:
t = Aircraft::From(front)->GetSpeedOldUnits(); // Convert to old units.
break;
default: NOT_REACHED();
}
/* if last speed is 0, we treat that as if no vehicle has ever visited the station. */
ge->last_speed = std::min(t, 255);
ge->last_age = std::min(_cur_year - front->build_year, 255);
assert(v->cargo_cap >= v->cargo.StoredCount());
/* Capacity available for loading more cargo. */
uint cap_left = v->cargo_cap - v->cargo.StoredCount();
if (cap_left > 0) {
/* If vehicle can load cargo, reset time_since_pickup. */
ge->time_since_pickup = 0;
/* If there's goods waiting at the station, and the vehicle
* has capacity for it, load it on the vehicle. */
if ((v->cargo.ActionCount(VehicleCargoList::MTA_LOAD) > 0 || ge->cargo.AvailableCount() > 0) && MayLoadUnderExclusiveRights(st, v)) {
if (v->cargo.StoredCount() == 0) TriggerVehicle(v, VEHICLE_TRIGGER_NEW_CARGO);
if (_settings_game.order.gradual_loading) cap_left = std::min(cap_left, GetLoadAmount(v));
uint loaded = ge->cargo.Load(cap_left, &v->cargo, st->xy, next_station.Get(v->cargo_type));
if (v->cargo.ActionCount(VehicleCargoList::MTA_LOAD) > 0) {
/* Remember if there are reservations left so that we don't stop
* loading before they're loaded. */
SetBit(reservation_left, v->cargo_type);
}
/* Store whether the maximum possible load amount was loaded or not.*/
if (loaded == cap_left) {
SetBit(full_load_amount, v->cargo_type);
} else {
ClrBit(full_load_amount, v->cargo_type);
}
/* TODO: Regarding this, when we do gradual loading, we
* should first unload all vehicles and then start
* loading them. Since this will cause
* VEHICLE_TRIGGER_EMPTY to be called at the time when
* the whole vehicle chain is really totally empty, the
* completely_emptied assignment can then be safely
* removed; that's how TTDPatch behaves too. --pasky */
if (loaded > 0) {
completely_emptied = false;
anything_loaded = true;
st->time_since_load = 0;
ge->last_vehicle_type = v->type;
if (ge->cargo.TotalCount() == 0) {
TriggerStationRandomisation(st, st->xy, SRT_CARGO_TAKEN, v->cargo_type);
TriggerStationAnimation(st, st->xy, SAT_CARGO_TAKEN, v->cargo_type);
AirportAnimationTrigger(st, AAT_STATION_CARGO_TAKEN, v->cargo_type);
TriggerRoadStopAnimation(st, st->xy, SAT_NEW_CARGO, v->cargo_type);
TriggerRoadStopRandomisation(st, st->xy, RSRT_CARGO_TAKEN, v->cargo_type);
}
new_load_unload_ticks += loaded;
dirty_vehicle = dirty_station = true;
}
}
}
if (v->cargo.StoredCount() >= v->cargo_cap) {
SetBit(cargo_full, v->cargo_type);
} else {
SetBit(cargo_not_full, v->cargo_type);
}
}
if (anything_loaded || anything_unloaded) {
if (front->type == VEH_TRAIN) {
TriggerStationRandomisation(st, station_tile, SRT_TRAIN_LOADS);
TriggerStationAnimation(st, station_tile, SAT_TRAIN_LOADS);
} else if (front->type == VEH_ROAD) {
TriggerRoadStopRandomisation(st, station_tile, RSRT_VEH_LOADS);
TriggerRoadStopAnimation(st, station_tile, SAT_TRAIN_LOADS);
}
}
/* Only set completely_emptied, if we just unloaded all remaining cargo */
completely_emptied &= anything_unloaded;
if (!anything_unloaded && !unload_payment_not_yet_in_station) delete payment;
ClrBit(front->vehicle_flags, VF_STOP_LOADING);
CargoTypes full_load_cargo_mask = 0;
if (front->current_order.GetLoadType() & OLFB_FULL_LOAD) {
full_load_cargo_mask = ALL_CARGOTYPES;
} else if (front->current_order.GetLoadType() == OLFB_CARGO_TYPE_LOAD) {
for (Vehicle *v = front; v != nullptr; v = v->Next()) {
if (front->current_order.GetCargoLoadTypeRaw(v->cargo_type) & OLFB_FULL_LOAD) {
SetBit(full_load_cargo_mask, v->cargo_type);
}
}
}
auto may_leave_early = [&]() -> bool {
switch (front->current_order.GetLeaveType()) {
case OLT_NORMAL:
return false;
case OLT_LEAVE_EARLY:
return true;
case OLT_LEAVE_EARLY_FULL_ANY:
return !((front->type == VEH_AIRCRAFT && IsCargoInClass(front->cargo_type, CC_PASSENGERS) && front->cargo_cap > front->cargo.StoredCount()) ||
((cargo_not_full | not_yet_in_station_cargo_not_full) != 0 && ((cargo_full | beyond_platform_end_cargo_full) & ~(cargo_not_full | not_yet_in_station_cargo_not_full)) == 0));
case OLT_LEAVE_EARLY_FULL_ALL:
return (cargo_not_full | not_yet_in_station_cargo_not_full) == 0;
default:
NOT_REACHED();
}
};
if (anything_loaded || anything_unloaded) {
if (_settings_game.order.gradual_loading) {
/* The time it takes to load one 'slice' of cargo or passengers depends
* on the vehicle type - the values here are those found in TTDPatch */
const uint gradual_loading_wait_time[] = { 40, 20, 10, 20 };
new_load_unload_ticks = gradual_loading_wait_time[front->type];
}
/* We loaded less cargo than possible for all cargo types and it's not full
* load and we're not supposed to wait any longer: stop loading. */
if (!anything_unloaded && full_load_amount == 0 && reservation_left == 0 && full_load_cargo_mask == 0 &&
(front->current_order_time >= (uint)std::max<int>(front->current_order.GetTimetabledWait() - front->lateness_counter, 0) ||
may_leave_early())) {
SetBit(front->vehicle_flags, VF_STOP_LOADING);
if (may_leave_early()) {
front->current_order.SetLeaveType(OLT_LEAVE_EARLY);
}
}
UpdateLoadUnloadTicks(front, st, new_load_unload_ticks, platform_length_left);
} else {
UpdateLoadUnloadTicks(front, st, 20, platform_length_left); // We need the ticks for link refreshing.
bool finished_loading = true;
if (full_load_cargo_mask != 0) {
const bool full_load_any_order = front->current_order.GetLoadType() == OLF_FULL_LOAD_ANY;
if (full_load_any_order) {
/* if the aircraft carries passengers and is NOT full, then
* continue loading, no matter how much mail is in */
if ((front->type == VEH_AIRCRAFT && IsCargoInClass(front->cargo_type, CC_PASSENGERS) && front->cargo_cap > front->cargo.StoredCount()) ||
(cargo_not_full != 0 && ((cargo_full | beyond_platform_end_cargo_full) & ~cargo_not_full) == 0)) { // There are still non-full cargoes
finished_loading = false;
}
} else if ((cargo_not_full & full_load_cargo_mask) != 0) {
finished_loading = false;
}
if (finished_loading && pull_through_mode) {
if (full_load_any_order) {
if (not_yet_in_station_cargo_not_full != 0 &&
((cargo_full | not_yet_in_station_cargo_full) & ~(cargo_not_full | not_yet_in_station_cargo_not_full)) == 0) {
finished_loading = false;
SetBit(Train::From(front)->flags, VRF_ADVANCE_IN_PLATFORM);
}
} else if (not_yet_in_station_cargo_not_full) {
finished_loading = false;
SetBit(Train::From(front)->flags, VRF_ADVANCE_IN_PLATFORM);
}
}
}
if (finished_loading && pull_through_mode && load_unload_not_yet_in_station) {
finished_loading = false;
SetBit(Train::From(front)->flags, VRF_ADVANCE_IN_PLATFORM);
}
/* Refresh next hop stats if we're full loading to make the links
* known to the distribution algorithm and allow cargo to be sent
* along them. Otherwise the vehicle could wait for cargo
* indefinitely if it hasn't visited the other links yet, or if the
* links die while it's loading. */
if (!finished_loading) LinkRefresher::Run(front, true, true);
SB(front->vehicle_flags, VF_LOADING_FINISHED, 1, finished_loading);
if (finished_loading && may_leave_early()) {
front->current_order.SetLeaveType(OLT_LEAVE_EARLY);
}
}
/* Calculate the loading indicator fill percent and display
* In the Game Menu do not display indicators
* If _settings_client.gui.loading_indicators == 2, show indicators (bool can be promoted to int as 0 or 1 - results in 2 > 0,1 )
* if _settings_client.gui.loading_indicators == 1, _local_company must be the owner or must be a spectator to show ind., so 1 > 0
* if _settings_client.gui.loading_indicators == 0, do not display indicators ... 0 is never greater than anything
*/
if (_game_mode != GM_MENU && (_settings_client.gui.loading_indicators > (uint)(front->owner != _local_company && _local_company != COMPANY_SPECTATOR))
&& !front->current_order.IsType(OT_LOADING_ADVANCE)) {
StringID percent_up_down = STR_NULL;
int percent = CalcPercentVehicleFilled(front, &percent_up_down);
if (front->fill_percent_te_id == INVALID_TE_ID) {
front->fill_percent_te_id = ShowFillingPercent(front->x_pos, front->y_pos, front->z_pos + 20, percent, percent_up_down);
} else {
UpdateFillingPercent(front->fill_percent_te_id, percent, percent_up_down);
}
}
if (completely_emptied) {
/* Make sure the vehicle is marked dirty, since we need to update the NewGRF
* properties such as weight, power and TE whenever the trigger runs. */
dirty_vehicle = true;
TriggerVehicle(front, VEHICLE_TRIGGER_EMPTY);
}
if (dirty_vehicle) {
DirtyVehicleListWindowForVehicle(front);
SetWindowDirty(WC_VEHICLE_DETAILS, front->index);
front->MarkDirty();
}
if (dirty_station) {
st->MarkTilesDirty(true);
SetWindowDirty(WC_STATION_VIEW, last_visited);
InvalidateWindowData(WC_STATION_LIST, last_visited);
}
}
/**
* Load/unload the vehicles in this station according to the order
* they entered.
* @param st the station to do the loading/unloading for
*/
void LoadUnloadStation(Station *st)
{
/* No vehicle is here... */
if (st->loading_vehicles.empty()) return;
Vehicle *last_loading = nullptr;
/* Check if anything will be loaded at all. Otherwise we don't need to reserve either. */
for (Vehicle *v : st->loading_vehicles) {
if ((v->vehstatus & (VS_STOPPED | VS_CRASHED)) || v->current_order.IsType(OT_LOADING_ADVANCE)) continue;
assert(v->load_unload_ticks != 0);
if (--v->load_unload_ticks == 0) last_loading = v;
}
/* We only need to reserve and load/unload up to the last loading vehicle.
* Anything else will be forgotten anyway after returning from this function.
*
* Especially this means we do _not_ need to reserve cargo for a single
* consist in a station which is not allowed to load yet because its
* load_unload_ticks is still not 0.
*/
if (last_loading == nullptr) return;
for (Vehicle *v : st->loading_vehicles) {
if (!(v->vehstatus & (VS_STOPPED | VS_CRASHED)) && !v->current_order.IsType(OT_LOADING_ADVANCE)) LoadUnloadVehicle(v);
if (v == last_loading) break;
}
/* Call the production machinery of industries */
for (Industry *iid : _cargo_delivery_destinations) {
TriggerIndustryProduction(iid);
}
_cargo_delivery_destinations.clear();
}
/**
* Monthly update of the economic data (of the companies as well as economic fluctuations).
*/
void CompaniesMonthlyLoop()
{
CompaniesGenStatistics();
if (_settings_game.economy.inflation) {
AddInflation();
RecomputePrices();
}
CompaniesPayInterest();
HandleEconomyFluctuations();
}
static void DoAcquireCompany(Company *c)
{
CompanyID ci = c->index;
DEBUG(desync, 1, "buy_company: date{%08x; %02x; %02x}, buyer: %u, bought: %u", _date, _date_fract, _tick_skip_counter, (uint) _current_company, (uint) ci);
CompanyNewsInformation *cni = new CompanyNewsInformation(c, Company::Get(_current_company));
SetDParam(0, STR_NEWS_COMPANY_MERGER_TITLE);
SetDParam(1, c->bankrupt_value == 0 ? STR_NEWS_MERGER_TAKEOVER_TITLE : STR_NEWS_COMPANY_MERGER_DESCRIPTION);
SetDParamStr(2, cni->company_name);
SetDParamStr(3, cni->other_company_name);
SetDParam(4, c->bankrupt_value);
AddCompanyNewsItem(STR_MESSAGE_NEWS_FORMAT, cni);
AI::BroadcastNewEvent(new ScriptEventCompanyMerger(ci, _current_company));
Game::NewEvent(new ScriptEventCompanyMerger(ci, _current_company));
ChangeOwnershipOfCompanyItems(ci, _current_company);
if (c->bankrupt_value == 0) {
Company *owner = Company::Get(_current_company);
/* Get both the balance and the loan of the company you just bought. */
SubtractMoneyFromCompany(CommandCost(EXPENSES_OTHER, -c->money));
owner->current_loan += c->current_loan;
}
if (c->is_ai) AI::Stop(c->index);
c->bankrupt_asked = 0;
DeleteCompanyWindows(ci);
InvalidateWindowClassesData(WC_TRAINS_LIST, 0);
InvalidateWindowClassesData(WC_TRACE_RESTRICT_SLOTS, 0);
InvalidateWindowClassesData(WC_SHIPS_LIST, 0);
InvalidateWindowClassesData(WC_ROADVEH_LIST, 0);
InvalidateWindowClassesData(WC_AIRCRAFT_LIST, 0);
InvalidateWindowClassesData(WC_DEPARTURES_BOARD, 0);
delete c;
CheckCaches(true, nullptr, CHECK_CACHE_ALL | CHECK_CACHE_EMIT_LOG);
}
extern int GetAmountOwnedBy(const Company *c, Owner owner);
/**
* Acquire shares in an opposing company.
* @param tile unused
* @param flags type of operation
* @param p1 company to buy the shares from
* @param p2 unused
* @param text unused
* @return the cost of this operation or an error
*/
CommandCost CmdBuyShareInCompany(TileIndex tile, DoCommandFlag flags, uint32 p1, uint32 p2, const char *text)
{
CommandCost cost(EXPENSES_OTHER);
CompanyID target_company = (CompanyID)p1;
Company *c = Company::GetIfValid(target_company);
/* Check if buying shares is allowed (protection against modified clients)
* Cannot buy own shares */
if (c == nullptr || !_settings_game.economy.allow_shares || _current_company == target_company) return CMD_ERROR;
/* Protect new companies from hostile takeovers */
if (_cur_year - c->inaugurated_year < _settings_game.economy.min_years_for_shares) return_cmd_error(STR_ERROR_PROTECTED);
/* Those lines are here for network-protection (clients can be slow) */
if (GetAmountOwnedBy(c, COMPANY_SPECTATOR) == 0) return cost;
if (GetAmountOwnedBy(c, COMPANY_SPECTATOR) == 1) {
if (!c->is_ai) return cost; // We can not buy out a real company (temporarily). TODO: well, enable it obviously.
if (GetAmountOwnedBy(c, _current_company) == 3 && !MayCompanyTakeOver(_current_company, target_company)) return_cmd_error(STR_ERROR_TOO_MANY_VEHICLES_IN_GAME);
}
cost.AddCost(CalculateCompanyValue(c) >> 2);
if (flags & DC_EXEC) {
Owner *b = c->share_owners;
while (*b != COMPANY_SPECTATOR) b++; // share owners is guaranteed to contain at least one COMPANY_SPECTATOR
*b = _current_company;
for (int i = 0; c->share_owners[i] == _current_company;) {
if (++i == 4) {
c->bankrupt_value = 0;
DoAcquireCompany(c);
break;
}
}
InvalidateWindowData(WC_COMPANY, target_company);
CompanyAdminUpdate(c);
}
return cost;
}
/**
* Sell shares in an opposing company.
* @param tile unused
* @param flags type of operation
* @param p1 company to sell the shares from
* @param p2 unused
* @param text unused
* @return the cost of this operation or an error
*/
CommandCost CmdSellShareInCompany(TileIndex tile, DoCommandFlag flags, uint32 p1, uint32 p2, const char *text)
{
CompanyID target_company = (CompanyID)p1;
Company *c = Company::GetIfValid(target_company);
/* Cannot sell own shares */
if (c == nullptr || _current_company == target_company) return CMD_ERROR;
/* Check if selling shares is allowed (protection against modified clients).
* However, we must sell shares of companies being closed down. */
if (!_settings_game.economy.allow_shares && !(flags & DC_BANKRUPT)) return CMD_ERROR;
/* Those lines are here for network-protection (clients can be slow) */
if (GetAmountOwnedBy(c, _current_company) == 0) return CommandCost();
/* adjust it a little to make it less profitable to sell and buy */
Money cost = CalculateCompanyValue(c) >> 2;
cost = -(cost - (cost >> 7));
if (flags & DC_EXEC) {
Owner *b = c->share_owners;
while (*b != _current_company) b++; // share owners is guaranteed to contain company
*b = COMPANY_SPECTATOR;
InvalidateWindowData(WC_COMPANY, target_company);
CompanyAdminUpdate(c);
}
return CommandCost(EXPENSES_OTHER, cost);
}
/**
* Buy up another company.
* When a competing company is gone bankrupt you get the chance to purchase
* that company.
* @todo currently this only works for AI companies
* @param tile unused
* @param flags type of operation
* @param p1 company to buy up
* @param p2 unused
* @param text unused
* @return the cost of this operation or an error
*/
CommandCost CmdBuyCompany(TileIndex tile, DoCommandFlag flags, uint32 p1, uint32 p2, const char *text)
{
CompanyID target_company = (CompanyID)p1;
Company *c = Company::GetIfValid(target_company);
if (c == nullptr) return CMD_ERROR;
/* Disable takeovers when not asked */
if (!HasBit(c->bankrupt_asked, _current_company)) return CMD_ERROR;
/* Disable taking over the local company in singleplayer mode */
if (!_networking && _local_company == c->index) return CMD_ERROR;
/* Do not allow companies to take over themselves */
if (target_company == _current_company) return CMD_ERROR;
/* Disable taking over when not allowed. */
if (!MayCompanyTakeOver(_current_company, target_company)) return CMD_ERROR;
/* Get the cost here as the company is deleted in DoAcquireCompany. */
CommandCost cost(EXPENSES_OTHER, c->bankrupt_value);
if (flags & DC_EXEC) {
DoAcquireCompany(c);
}
return cost;
}
/**
* Decline to buy up another company.
* When a competing company is gone bankrupt you get the chance to purchase
* that company, actively decline the offer.
* @param tile unused
* @param flags type of operation
* @param p1 company to buy up
* @param p2 unused
* @param text unused
* @return the cost of this operation or an error
*/
CommandCost CmdDeclineBuyCompany(TileIndex tile, DoCommandFlag flags, uint32 p1, uint32 p2, const char *text)
{
CompanyID target_company = (CompanyID)p1;
Company *c = Company::GetIfValid(target_company);
if (c == nullptr) return CommandCost();
if (flags & DC_EXEC) {
if (c->bankrupt_last_asked == _current_company) {
c->bankrupt_timeout = 0;
}
}
return CommandCost();
}
uint ScaleQuantity(uint amount, int scale_factor, bool allow_trunc)
{
scale_factor += 200; // ensure factor is positive
assert(scale_factor >= 0);
int cf = (scale_factor / 10) - 20;
int fine = scale_factor % 10;
return ScaleQuantity(amount, cf, fine, allow_trunc);
}
uint ScaleQuantity(uint amount, int cf, int fine, bool allow_trunc)
{
if (fine != 0) {
// 2^0.1 << 16 to 2^0.9 << 16
const uint32 adj[9] = {70239, 75281, 80684, 86475, 92681, 99334, 106463, 114104, 122294};
uint64 scaled_amount = ((uint64) amount) * ((uint64) adj[fine - 1]);
amount = scaled_amount >> 16;
}
// apply scale factor
if (cf < 0) {
// approx (amount / 2^cf)
// when allow_trunc is false: adjust with a constant offset of {(2 ^ cf) - 1} (i.e. add cf * 1-bits) before dividing to ensure that it doesn't become zero
// this skews the curve a little so that isn't entirely exponential, but will still decrease
// when allow_trunc is true: adjust with a randomised offset
uint offset = ((1 << -cf) - 1);
if (allow_trunc) offset &= Random();
amount = (amount + offset) >> -cf;
} else if (cf > 0) {
// approx (amount * 2^cf)
amount = amount << cf;
}
return amount;
}
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