OpenTTD-patches/player.h
bjarni 00a08601c9 (svn r6424) -Codechange: [autoreplace] removed a loop though all vehicles from each time the window is redrawn
To do this, the player struct contains an array, that contains the count of each engine type that the player owns
   Those arrays are updated each time a vehicle is build or deleted and is calculated on load (it's not saved)
   It's possible to access the arrays outside of the autoreplace GUI, so feel free to read from them in other patches as well
2006-09-08 10:47:39 +00:00

316 lines
9.0 KiB
C

/* $Id$ */
#ifndef PLAYER_H
#define PLAYER_H
#include "pool.h"
#include "aystar.h"
#include "rail.h"
#include "engine.h"
typedef struct PlayerEconomyEntry {
int32 income;
int32 expenses;
int32 delivered_cargo;
int32 performance_history; // player score (scale 0-1000)
int64 company_value;
} PlayerEconomyEntry;
typedef struct AiBuildRec {
TileIndex spec_tile;
TileIndex use_tile;
byte rand_rng;
byte cur_building_rule;
byte unk6;
byte unk7;
byte buildcmd_a;
byte buildcmd_b;
byte direction;
CargoID cargo;
} AiBuildRec;
typedef struct PlayerAI {
byte state;
byte tick; // Used to determine how often to move
uint32 state_counter; // Can hold tile index!
uint16 timeout_counter;
byte state_mode;
byte banned_tile_count;
byte railtype_to_use;
CargoID cargo_type;
byte num_wagons;
byte build_kind;
byte num_build_rec;
byte num_loco_to_build;
byte num_want_fullload;
byte route_type_mask;
TileIndex start_tile_a;
TileIndex cur_tile_a;
byte cur_dir_a;
byte start_dir_a;
TileIndex start_tile_b;
TileIndex cur_tile_b;
byte cur_dir_b;
byte start_dir_b;
Vehicle *cur_veh; /* only used by some states */
AiBuildRec src, dst, mid1, mid2;
VehicleID wagon_list[9];
byte order_list_blocks[20];
TileIndex banned_tiles[16];
byte banned_val[16];
} PlayerAI;
typedef struct Ai_PathFinderInfo {
TileIndex start_tile_tl; // tl = top-left
TileIndex start_tile_br; // br = bottom-right
TileIndex end_tile_tl; // tl = top-left
TileIndex end_tile_br; // br = bottom-right
byte start_direction; // 0 to 3 or AI_PATHFINDER_NO_DIRECTION
byte end_direction; // 0 to 3 or AI_PATHFINDER_NO_DIRECTION
TileIndex route[500];
byte route_extra[500]; // Some extra information about the route like bridge/tunnel
int route_length;
int position; // Current position in the build-path, needed to build the path
bool rail_or_road; // true = rail, false = road
} Ai_PathFinderInfo;
// The amount of memory reserved for the AI-special-vehicles
#define AI_MAX_SPECIAL_VEHICLES 100
typedef struct Ai_SpecialVehicle {
VehicleID veh_id;
uint32 flag;
} Ai_SpecialVehicle;
typedef struct PlayerAiNew {
uint8 state;
uint tick;
uint idle;
int temp; // A value used in more than one function, but it just temporary
// The use is pretty simple: with this we can 'think' about stuff
// in more than one tick, and more than one AI. A static will not
// do, because they are not saved. This way, the AI is almost human ;)
int counter; // For the same reason as temp, we have counter. It can count how
// long we are trying something, and just abort if it takes too long
// Pathfinder stuff
Ai_PathFinderInfo path_info;
AyStar *pathfinder;
// Route stuff
CargoID cargo;
byte tbt; // train/bus/truck 0/1/2 AI_TRAIN/AI_BUS/AI_TRUCK
int new_cost;
byte action;
int last_id; // here is stored the last id of the searched city/industry
Date last_vehiclecheck_date; // Used in CheckVehicle
Ai_SpecialVehicle special_vehicles[AI_MAX_SPECIAL_VEHICLES]; // Some vehicles have some special flags
TileIndex from_tile;
TileIndex to_tile;
byte from_direction;
byte to_direction;
bool from_deliver; // True if this is the station that GIVES cargo
bool to_deliver;
TileIndex depot_tile;
byte depot_direction;
byte amount_veh; // How many vehicles we are going to build in this route
byte cur_veh; // How many vehicles did we bought?
VehicleID veh_id; // Used when bought a vehicle
VehicleID veh_main_id; // The ID of the first vehicle, for shared copy
int from_ic; // ic = industry/city. This is the ID of them
byte from_type; // AI_NO_TYPE/AI_CITY/AI_INDUSTRY
int to_ic;
byte to_type;
} PlayerAiNew;
typedef struct Player {
uint32 name_2;
uint16 name_1;
uint16 president_name_1;
uint32 president_name_2;
uint32 face;
int32 player_money;
int32 current_loan;
int64 money64; // internal 64-bit version of the money. the 32-bit field will be clamped to plus minus 2 billion
byte player_color;
byte player_money_fraction;
byte avail_railtypes;
byte block_preview;
PlayerID index;
uint16 cargo_types; /* which cargo types were transported the last year */
TileIndex location_of_house;
TileIndex last_build_coordinate;
PlayerID share_owners[4];
Year inaugurated_year;
byte num_valid_stat_ent;
byte quarters_of_bankrupcy;
byte bankrupt_asked; // which players were asked about buying it?
int16 bankrupt_timeout;
int32 bankrupt_value;
bool is_active;
bool is_ai;
PlayerAI ai;
PlayerAiNew ainew;
int64 yearly_expenses[3][13];
PlayerEconomyEntry cur_economy;
PlayerEconomyEntry old_economy[24];
EngineRenewList engine_renew_list; // Defined later
bool engine_renew;
bool renew_keep_length;
int16 engine_renew_months;
uint32 engine_renew_money;
uint16 num_engines[TOTAL_NUM_ENGINES]; // caches the number of engines of each type the player owns (no need to save this)
} Player;
uint16 GetDrawStringPlayerColor(PlayerID player);
void ChangeOwnershipOfPlayerItems(PlayerID old_player, PlayerID new_player);
void GetNameOfOwner(PlayerID owner, TileIndex tile);
int64 CalculateCompanyValue(const Player* p);
void InvalidatePlayerWindows(const Player* p);
void UpdatePlayerMoney32(Player *p);
#define FOR_ALL_PLAYERS(p) for (p = _players; p != endof(_players); p++)
VARDEF PlayerID _local_player;
VARDEF PlayerID _current_player;
#define MAX_PLAYERS 8
VARDEF Player _players[MAX_PLAYERS];
// NOSAVE: can be determined from player structs
VARDEF byte _player_colors[MAX_PLAYERS];
byte ActivePlayerCount(void);
static inline Player* GetPlayer(PlayerID i)
{
assert(i < lengthof(_players));
return &_players[i];
}
static inline bool IsLocalPlayer(void)
{
return _local_player == _current_player;
}
void DeletePlayerWindows(PlayerID pi);
byte GetPlayerRailtypes(PlayerID p);
/** Finds out if a Player has a certain railtype available */
static inline bool HasRailtypeAvail(const Player *p, RailType Railtype)
{
return HASBIT(p->avail_railtypes, Railtype);
}
/* Validate functions for rail building */
static inline bool ValParamRailtype(uint32 rail) { return HASBIT(GetPlayer(_current_player)->avail_railtypes, rail);}
/** Returns the "best" railtype a player can build.
* As the AI doesn't know what the BEST one is, we have our own priority list
* here. When adding new railtypes, modify this function
* @param p the player "in action"
* @return The "best" railtype a player has available
*/
static inline RailType GetBestRailtype(const Player* p)
{
if (HasRailtypeAvail(p, RAILTYPE_MAGLEV)) return RAILTYPE_MAGLEV;
if (HasRailtypeAvail(p, RAILTYPE_MONO)) return RAILTYPE_MONO;
if (HasRailtypeAvail(p, RAILTYPE_ELECTRIC)) return RAILTYPE_ELECTRIC;
return RAILTYPE_RAIL;
}
#define IS_HUMAN_PLAYER(p) (!GetPlayer(p)->is_ai)
#define IS_INTERACTIVE_PLAYER(p) ((p) == _local_player)
typedef struct HighScore {
char company[100];
StringID title; // NO_SAVE, has troubles with changing string-numbers.
uint16 score; // do NOT change type, will break hs.dat
} HighScore;
VARDEF HighScore _highscore_table[5][5]; // 4 difficulty-settings (+ network); top 5
void SaveToHighScore(void);
void LoadFromHighScore(void);
int8 SaveHighScoreValue(const Player *p);
int8 SaveHighScoreValueNetwork(void);
/* Engine Replacement Functions */
/**
* Remove all engine replacement settings for the given player.
* @param p Player.
*/
static inline void RemoveAllEngineReplacementForPlayer(Player *p) { RemoveAllEngineReplacement(&p->engine_renew_list); }
/**
* Retrieve the engine replacement for the given player and original engine type.
* @param p Player.
* @param engine Engine type.
* @return The engine type to replace with, or INVALID_ENGINE if no
* replacement is in the list.
*/
static inline EngineID EngineReplacementForPlayer(const Player *p, EngineID engine) { return EngineReplacement(p->engine_renew_list, engine); }
/**
* Check if a player has a replacement set up for the given engine.
* @param p Player.
* @param engine Engine type to be replaced.
* @return true if a replacement was set up, false otherwise.
*/
static inline bool EngineHasReplacementForPlayer(const Player *p, EngineID engine) { return EngineReplacementForPlayer(p, engine) != INVALID_ENGINE; }
/**
* Add an engine replacement for the player.
* @param p Player.
* @param old_engine The original engine type.
* @param new_engine The replacement engine type.
* @param flags The calling command flags.
* @return 0 on success, CMD_ERROR on failure.
*/
static inline int32 AddEngineReplacementForPlayer(Player *p, EngineID old_engine, EngineID new_engine, uint32 flags) { return AddEngineReplacement(&p->engine_renew_list, old_engine, new_engine, flags); }
/**
* Remove an engine replacement for the player.
* @param p Player.
* @param engine The original engine type.
* @param flags The calling command flags.
* @return 0 on success, CMD_ERROR on failure.
*/
static inline int32 RemoveEngineReplacementForPlayer(Player *p, EngineID engine, uint32 flags) {return RemoveEngineReplacement(&p->engine_renew_list, engine, flags); }
#endif /* PLAYER_H */