/*
* 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 cargotype.cpp Implementation of cargoes. */
#include "stdafx.h"
#include "cargotype.h"
#include "core/geometry_func.hpp"
#include "newgrf_cargo.h"
#include "string_func.h"
#include "strings_func.h"
#include "settings_type.h"
#include "table/sprites.h"
#include "table/strings.h"
#include "table/cargo_const.h"
#include "safeguards.h"
CargoSpec CargoSpec::array[NUM_CARGO];
std::array, NUM_TPE> CargoSpec::town_production_cargoes{};
/**
* Bitmask of cargo types available. This includes phony cargoes like regearing cargoes.
* Initialized during a call to #SetupCargoForClimate.
*/
CargoTypes _cargo_mask;
/**
* Bitmask of real cargo types available. Phony cargoes like regearing cargoes are excluded.
*/
CargoTypes _standard_cargo_mask;
/**
* List of default cargo labels, used when setting up cargo types for default vehicles.
* This is done by label so that a cargo label can be redefined in a different slot.
*/
static std::vector _default_cargo_labels;
/**
* Set up the default cargo types for the given landscape type.
* @param l Landscape
*/
void SetupCargoForClimate(LandscapeID l)
{
assert(l < lengthof(_default_climate_cargo));
_cargo_mask = 0;
_default_cargo_labels.clear();
/* Copy from default cargo by label or index. */
auto insert = std::begin(CargoSpec::array);
for (const auto &cl : _default_climate_cargo[l]) {
/* Check if value is an index into the cargo table */
if (std::holds_alternative(cl)) {
/* Copy the default cargo by index. */
*insert = _default_cargo[std::get(cl)];
} else {
/* Search for label in default cargo types and copy if found. */
CargoLabel label = std::get(cl);
auto found = std::find_if(std::begin(_default_cargo), std::end(_default_cargo), [&label](const CargoSpec &cs) { return cs.label == label; });
if (found != std::end(_default_cargo)) {
*insert = *found;
} else {
/* Index or label is invalid, this should not happen. */
NOT_REACHED();
}
}
if (insert->IsValid()) {
SetBit(_cargo_mask, insert->Index());
_default_cargo_labels.push_back(insert->label);
}
++insert;
}
/* Reset and disable remaining cargo types. */
std::fill(insert, std::end(CargoSpec::array), CargoSpec{});
BuildCargoLabelMap();
}
/**
* Build cargo label map.
* This is called multiple times during NewGRF initialization as cargos are defined, so that TranslateRefitMask() and
* GetCargoTranslation(), also used during initialization, get the correct information.
*/
void BuildCargoLabelMap()
{
CargoSpec::label_map.clear();
for (const CargoSpec &cs : CargoSpec::array) {
/* During initialization, CargoSpec can be marked valid before the label has been set. */
if (!cs.IsValid() || cs.label == CargoLabel{0}) continue;
/* Label already exists, don't addd again. */
if (CargoSpec::label_map.count(cs.label) != 0) continue;
CargoSpec::label_map.insert(std::make_pair(cs.label, cs.Index()));
}
}
/**
* Test if a cargo is a default cargo type.
* @param cid Cargo ID.
* @returns true iff the cargo type is a default cargo type.
*/
bool IsDefaultCargo(CargoID cid)
{
auto cs = CargoSpec::Get(cid);
if (!cs->IsValid()) return false;
CargoLabel label = cs->label;
return std::any_of(std::begin(_default_cargo_labels), std::end(_default_cargo_labels), [&label](const CargoLabel &cl) { return cl == label; });
}
/**
* Get dimensions of largest cargo icon.
* @return Dimensions of largest cargo icon.
*/
Dimension GetLargestCargoIconSize()
{
Dimension size = {0, 0};
for (const CargoSpec *cs : _sorted_cargo_specs) {
size = maxdim(size, GetSpriteSize(cs->GetCargoIcon()));
}
return size;
}
/**
* Find the CargoID of a 'bitnum' value.
* @param bitnum 'bitnum' to find.
* @return First CargoID with the given bitnum, or #INVALID_CARGO if not found or if the provided \a bitnum is invalid.
*/
CargoID GetCargoIDByBitnum(uint8_t bitnum)
{
if (bitnum == INVALID_CARGO_BITNUM) return INVALID_CARGO;
for (const CargoSpec *cs : CargoSpec::Iterate()) {
if (cs->bitnum == bitnum) return cs->Index();
}
/* No matching label was found, so it is invalid */
return INVALID_CARGO;
}
/**
* Get sprite for showing cargo of this type.
* @return Sprite number to use.
*/
SpriteID CargoSpec::GetCargoIcon() const
{
SpriteID sprite = this->sprite;
if (sprite == 0xFFFF) {
/* A value of 0xFFFF indicates we should draw a custom icon */
sprite = GetCustomCargoSprite(this);
}
if (sprite == 0) sprite = SPR_CARGO_GOODS;
return sprite;
}
std::array _sorted_cargo_types; ///< Sort order of cargoes by cargo ID.
std::vector _sorted_cargo_specs; ///< Cargo specifications sorted alphabetically by name.
std::span _sorted_standard_cargo_specs; ///< Standard cargo specifications sorted alphabetically by name.
/** Sort cargo specifications by their name. */
static bool CargoSpecNameSorter(const CargoSpec * const &a, const CargoSpec * const &b)
{
std::string a_name = GetString(a->name);
std::string b_name = GetString(b->name);
int res = StrNaturalCompare(a_name, b_name); // Sort by name (natural sorting).
/* If the names are equal, sort by cargo bitnum. */
return (res != 0) ? res < 0 : (a->bitnum < b->bitnum);
}
/** Sort cargo specifications by their cargo class. */
static bool CargoSpecClassSorter(const CargoSpec * const &a, const CargoSpec * const &b)
{
int res = (b->classes & CC_PASSENGERS) - (a->classes & CC_PASSENGERS);
if (res == 0) {
res = (b->classes & CC_MAIL) - (a->classes & CC_MAIL);
if (res == 0) {
res = (a->classes & CC_SPECIAL) - (b->classes & CC_SPECIAL);
if (res == 0) {
return CargoSpecNameSorter(a, b);
}
}
}
return res < 0;
}
/** Initialize the list of sorted cargo specifications. */
void InitializeSortedCargoSpecs()
{
for (auto &tpc : CargoSpec::town_production_cargoes) tpc.clear();
_sorted_cargo_specs.clear();
/* Add each cargo spec to the list, and determine the largest cargo icon size. */
for (const CargoSpec *cargo : CargoSpec::Iterate()) {
_sorted_cargo_specs.push_back(cargo);
}
/* Sort cargo specifications by cargo class and name. */
std::sort(_sorted_cargo_specs.begin(), _sorted_cargo_specs.end(), &CargoSpecClassSorter);
/* Populate */
for (auto it = std::begin(_sorted_cargo_specs); it != std::end(_sorted_cargo_specs); ++it) {
_sorted_cargo_types[(*it)->Index()] = static_cast(it - std::begin(_sorted_cargo_specs));
}
/* Count the number of standard cargos and fill the mask. */
_standard_cargo_mask = 0;
uint8_t nb_standard_cargo = 0;
for (const auto &cargo : _sorted_cargo_specs) {
assert(cargo->town_production_effect != INVALID_TPE);
CargoSpec::town_production_cargoes[cargo->town_production_effect].push_back(cargo);
if (cargo->classes & CC_SPECIAL) break;
nb_standard_cargo++;
SetBit(_standard_cargo_mask, cargo->Index());
}
/* _sorted_standard_cargo_specs is a subset of _sorted_cargo_specs. */
_sorted_standard_cargo_specs = { _sorted_cargo_specs.data(), nb_standard_cargo };
}
uint64_t CargoSpec::WeightOfNUnitsInTrain(uint32_t n) const
{
if (this->is_freight) n *= _settings_game.vehicle.freight_trains;
return this->WeightOfNUnits(n);
}