/* * 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.h Types/functions related to cargoes. */ #ifndef CARGOTYPE_H #define CARGOTYPE_H #include "economy_type.h" #include "cargo_type.h" #include "gfx_type.h" #include "strings_type.h" #include "landscape_type.h" #include "core/bitmath_func.hpp" /** Globally unique label of a cargo type. */ typedef uint32_t CargoLabel; /** Town growth effect when delivering cargo. */ enum TownAcceptanceEffect : byte { TAE_BEGIN = 0, TAE_NONE = TAE_BEGIN, ///< Cargo has no effect. TAE_PASSENGERS, ///< Cargo behaves passenger-like. TAE_MAIL, ///< Cargo behaves mail-like. TAE_GOODS, ///< Cargo behaves goods/candy-like. TAE_WATER, ///< Cargo behaves water-like. TAE_FOOD, ///< Cargo behaves food/fizzy-drinks-like. TAE_END, ///< End of town effects. NUM_TAE = TAE_END, ///< Amount of town effects. }; /** Town effect when producing cargo. */ enum TownProductionEffect : byte { TPE_NONE, ///< Town will not produce this cargo type. TPE_PASSENGERS, ///< Cargo behaves passenger-like for production. TPE_MAIL, ///< Cargo behaves mail-like for production. NUM_TPE, /** * Invalid town production effect. Used as a sentinel to indicate if a NewGRF has explicitly set an effect. * This does not 'exist' after cargo types are finalised. */ INVALID_TPE, }; /** Cargo classes. */ enum CargoClass { CC_NOAVAILABLE = 0, ///< No cargo class has been specified CC_PASSENGERS = 1 << 0, ///< Passengers CC_MAIL = 1 << 1, ///< Mail CC_EXPRESS = 1 << 2, ///< Express cargo (Goods, Food, Candy, but also possible for passengers) CC_ARMOURED = 1 << 3, ///< Armoured cargo (Valuables, Gold, Diamonds) CC_BULK = 1 << 4, ///< Bulk cargo (Coal, Grain etc., Ores, Fruit) CC_PIECE_GOODS = 1 << 5, ///< Piece goods (Livestock, Wood, Steel, Paper) CC_LIQUID = 1 << 6, ///< Liquids (Oil, Water, Rubber) CC_REFRIGERATED = 1 << 7, ///< Refrigerated cargo (Food, Fruit) CC_HAZARDOUS = 1 << 8, ///< Hazardous cargo (Nuclear Fuel, Explosives, etc.) CC_COVERED = 1 << 9, ///< Covered/Sheltered Freight (Transportation in Box Vans, Silo Wagons, etc.) CC_SPECIAL = 1 << 15, ///< Special bit used for livery refit tricks instead of normal cargoes. }; static const byte INVALID_CARGO_BITNUM = 0xFF; ///< Constant representing invalid cargo static const uint TOWN_PRODUCTION_DIVISOR = 256; /** Specification of a cargo type. */ struct CargoSpec { CargoLabel label; ///< Unique label of the cargo type. uint8_t bitnum{INVALID_CARGO_BITNUM}; ///< Cargo bit number, is #INVALID_CARGO_BITNUM for a non-used spec. uint8_t legend_colour; uint8_t rating_colour; uint8_t weight; ///< Weight of a single unit of this cargo type in 1/16 ton (62.5 kg). uint16_t multiplier{0x100}; ///< Capacity multiplier for vehicles. (8 fractional bits) uint16_t classes; ///< Classes of this cargo type. @see CargoClass int32_t initial_payment; ///< Initial payment rate before inflation is applied. uint8_t transit_periods[2]; bool is_freight; ///< Cargo type is considered to be freight (affects train freight multiplier). TownAcceptanceEffect town_acceptance_effect; ///< The effect that delivering this cargo type has on towns. Also affects destination of subsidies. TownProductionEffect town_production_effect{INVALID_TPE}; ///< The effect on town cargo production. uint16_t town_production_multiplier{TOWN_PRODUCTION_DIVISOR}; ///< Town production multipler, if commanded by TownProductionEffect. uint8_t callback_mask; ///< Bitmask of cargo callbacks that have to be called StringID name; ///< Name of this type of cargo. StringID name_single; ///< Name of a single entity of this type of cargo. StringID units_volume; ///< Name of a single unit of cargo of this type. StringID quantifier; ///< Text for multiple units of cargo of this type. StringID abbrev; ///< Two letter abbreviation for this cargo type. SpriteID sprite; ///< Icon to display this cargo type, may be \c 0xFFF (which means to resolve an action123 chain). const struct GRFFile *grffile; ///< NewGRF where #group belongs to. const struct SpriteGroup *group; Money current_payment; /** * Determines index of this cargospec * @return index (in the CargoSpec::array array) */ inline CargoID Index() const { return this - CargoSpec::array; } /** * Tests for validity of this cargospec * @return is this cargospec valid? * @note assert(cs->IsValid()) can be triggered when GRF config is modified */ inline bool IsValid() const { return this->bitnum != INVALID_CARGO_BITNUM; } /** * Total number of cargospecs, both valid and invalid * @return length of CargoSpec::array */ static inline size_t GetArraySize() { return lengthof(CargoSpec::array); } /** * Retrieve cargo details for the given cargo ID * @param index ID of cargo * @pre index is a valid cargo ID */ static inline CargoSpec *Get(size_t index) { assert(index < lengthof(CargoSpec::array)); return &CargoSpec::array[index]; } SpriteID GetCargoIcon() const; inline uint64_t WeightOfNUnits(uint32_t n) const { return n * this->weight / 16u; } uint64_t WeightOfNUnitsInTrain(uint32_t n) const; /** * Iterator to iterate all valid CargoSpec */ struct Iterator { typedef CargoSpec value_type; typedef CargoSpec *pointer; typedef CargoSpec &reference; typedef size_t difference_type; typedef std::forward_iterator_tag iterator_category; explicit Iterator(size_t index) : index(index) { this->ValidateIndex(); }; bool operator==(const Iterator &other) const { return this->index == other.index; } bool operator!=(const Iterator &other) const { return !(*this == other); } CargoSpec * operator*() const { return CargoSpec::Get(this->index); } Iterator & operator++() { this->index++; this->ValidateIndex(); return *this; } private: size_t index; void ValidateIndex() { while (this->index < CargoSpec::GetArraySize() && !(CargoSpec::Get(this->index)->IsValid())) this->index++; } }; /* * Iterable ensemble of all valid CargoSpec */ struct IterateWrapper { size_t from; IterateWrapper(size_t from = 0) : from(from) {} Iterator begin() { return Iterator(this->from); } Iterator end() { return Iterator(CargoSpec::GetArraySize()); } bool empty() { return this->begin() == this->end(); } }; /** * Returns an iterable ensemble of all valid CargoSpec * @param from index of the first CargoSpec to consider * @return an iterable ensemble of all valid CargoSpec */ static IterateWrapper Iterate(size_t from = 0) { return IterateWrapper(from); } /** List of cargo specs for each Town Product Effect. */ static std::array, NUM_TPE> town_production_cargoes; private: static CargoSpec array[NUM_CARGO]; ///< Array holding all CargoSpecs friend void SetupCargoForClimate(LandscapeID l); friend void FinaliseCargoArray(); }; extern CargoTypes _cargo_mask; extern CargoTypes _standard_cargo_mask; void SetupCargoForClimate(LandscapeID l); CargoID GetCargoIDByLabel(CargoLabel cl); CargoID GetCargoIDByBitnum(uint8_t bitnum); CargoID GetDefaultCargoID(LandscapeID l, CargoType ct); Dimension GetLargestCargoIconSize(); void InitializeSortedCargoSpecs(); extern std::array _sorted_cargo_types; extern std::vector _sorted_cargo_specs; extern std::span _sorted_standard_cargo_specs; /** * Does cargo \a c have cargo class \a cc? * @param c Cargo type. * @param cc Cargo class. * @return The type fits in the class. */ inline bool IsCargoInClass(CargoID c, CargoClass cc) { return (CargoSpec::Get(c)->classes & cc) != 0; } using SetCargoBitIterator = SetBitIterator; /** Comparator to sort CargoID by according to desired order. */ struct CargoIDComparator { bool operator() (const CargoID &lhs, const CargoID &rhs) const { return _sorted_cargo_types[lhs] < _sorted_cargo_types[rhs]; } }; #endif /* CARGOTYPE_H */