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vcmi/lib/Mapping/CMap.h

897 lines
22 KiB
C++

/*
* CMap.h, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#pragma once
#include "../ConstTransitivePtr.h"
#include "../CObjectHandler.h"
#include "../ResourceSet.h"
#include "../int3.h"
#include "../GameConstants.h"
class CArtifactInstance;
class CGDefInfo;
class CGObjectInstance;
class CGHeroInstance;
class CCommanderInstance;
class CGCreature;
class CQuest;
class CGTownInstance;
class IModableArt;
class IQuestObject;
class CInputStream;
/**
* The hero name struct consists of the hero id and the hero name.
*/
struct DLL_LINKAGE SHeroName
{
/**
* Default c-tor.
*/
SHeroName();
/** the id of the hero */
int heroId;
/** the name of the hero */
std::string heroName;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & heroId & heroName;
}
};
namespace EAiTactic
{
enum EAiTactic
{
NONE = -1,
RANDOM,
WARRIOR,
BUILDER,
EXPLORER
};
}
/**
* The player info constains data about which factions are allowed, AI tactical settings,
* the main hero name, where to generate the hero, whether the faction should be selected randomly,...
*/
struct DLL_LINKAGE PlayerInfo
{
/**
* Default constructor.
*/
PlayerInfo();
/**
* Gets the default faction id or -1 for a random faction.
*
* @return the default faction id or -1 for a random faction
*/
si8 defaultCastle() const;
/**
* Gets -1 for random hero.
*
* @return -1 for random hero
*/
si8 defaultHero() const;
/** True if the player can be played by a human. */
bool canHumanPlay;
/** True if th player can be played by the computer */
bool canComputerPlay;
/** Defines the tactical setting of the AI. The default value is EAiTactic::RANDOM. */
EAiTactic::EAiTactic aiTactic;
/** A list of unique IDs of allowed factions. */
std::set<TFaction> allowedFactions;
/** Unused. True if the faction should be chosen randomly. */
bool isFactionRandom;
/** Specifies the ID of the main hero with chosen portrait. The default value is -1. */
si32 mainHeroPortrait;
/** The name of the main hero. */
std::string mainHeroName;
/** The list of renamed heroes. */
std::vector<SHeroName> heroesNames;
/** True if the player has a main town. The default value is true. */
bool hasMainTown;
/** True if the main hero should be generated at the main town. The default value is true. */
bool generateHeroAtMainTown;
/** The position of the main town. */
int3 posOfMainTown;
/** The team id to which the player belongs to. The default value is 255 representing that the player belongs to no team. */
ui8 team;
/** Unused. True if a hero should be generated. */
bool generateHero;
/** Unknown and unused. */
si32 p7;
/** Player has a (custom?) hero */
bool hasHero;
/** ID of custom hero, -1 if none */
si32 customHeroID;
/**
* Unused. Count of hero placeholders containing hero type.
* WARNING: powerPlaceholders sometimes gives false 0 (eg. even if there is one placeholder),
* maybe different meaning ???
*/
ui8 powerPlaceholders;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & p7 & hasHero & customHeroID & canHumanPlay & canComputerPlay & aiTactic & allowedFactions & isFactionRandom &
mainHeroPortrait & mainHeroName & heroesNames & hasMainTown & generateHeroAtMainTown &
posOfMainTown & team & generateHero;
}
};
/**
* The loss condition describes the condition to lose the game. (e.g. lose all own heroes/castles)
*/
struct DLL_LINKAGE LossCondition
{
/**
* Default constructor.
*/
LossCondition();
/** specifies the condition type */
ELossConditionType::ELossConditionType typeOfLossCon;
/** the position of an object which mustn't be lost */
int3 pos;
/** time limit in days, -1 if not used */
si32 timeLimit;
/** set during map parsing: hero/town (depending on typeOfLossCon); nullptr if not used */
const CGObjectInstance * obj;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & typeOfLossCon & pos & timeLimit & obj;
}
};
/**
* The victory condition describes the condition to win the game. (e.g. defeat all enemy heroes/castles,
* receive a specific artifact, ...)
*/
struct DLL_LINKAGE VictoryCondition
{
/**
* Default constructor.
*/
VictoryCondition();
/** specifies the condition type */
EVictoryConditionType::EVictoryConditionType condition;
/** true if a normal victory is allowed (defeat all enemy towns, heroes) */
bool allowNormalVictory;
/** true if this victory condition also applies to the AI */
bool appliesToAI;
/** pos of city to upgrade (3); pos of town to build grail, {-1,-1,-1} if not relevant (4); hero pos (5); town pos(6); monster pos (7); destination pos(8) */
int3 pos;
/** artifact ID (0); monster ID (1); resource ID (2); needed fort level in upgraded town (3); artifact ID (8) */
si32 objectId;
/** needed count for creatures (1) / resource (2); upgraded town hall level (3); */
si32 count;
/** object of specific monster / city / hero instance (NULL if not used); set during map parsing */
const CGObjectInstance * obj;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & condition & allowNormalVictory & appliesToAI & pos & objectId & count & obj;
}
};
/**
* The rumor struct consists of a rumor name and text.
*/
struct DLL_LINKAGE Rumor
{
/** the name of the rumor */
std::string name;
/** the content of the rumor */
std::string text;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & name & text;
}
};
/**
* The disposed hero struct describes which hero can be hired from which player.
*/
struct DLL_LINKAGE DisposedHero
{
/**
* Default c-tor.
*/
DisposedHero();
/** the id of the hero */
ui32 heroId;
/** the portrait id of the hero, 0xFF is default */
ui16 portrait;
/** the name of the hero */
std::string name;
/** who can hire this hero (bitfield) */
ui8 players;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & heroId & portrait & name & players;
}
};
/// Class which manages map events.
/**
* The map event is an event which gives or takes resources for a specific
* amount of players and can appear regularly or once a time.
*/
class DLL_LINKAGE CMapEvent
{
public:
/**
* Default c-tor.
*/
CMapEvent();
/**
* Returns true if this map event occurs earlier than the other map event for the first time.
*
* @param other the other map event to compare with
* @return true if this event occurs earlier than the other map event, false if not
*/
bool earlierThan(const CMapEvent & other) const;
/**
* Returns true if this map event occurs earlier than or at the same day than the other map event for the first time.
*
* @param other the other map event to compare with
* @return true if this event occurs earlier than or at the same day than the other map event, false if not
*/
bool earlierThanOrEqual(const CMapEvent & other) const;
/** the name of the event */
std::string name;
/** the message to display */
std::string message;
/** gained or taken resources */
TResources resources;
/** affected players */
ui8 players;
/** affected humans */
ui8 humanAffected;
/** affacted computer players */
ui8 computerAffected;
/** the day counted continously when the event happens */
ui32 firstOccurence;
/** specifies after how many days the event will occur the next time; 0 if event occurs only one time */
ui32 nextOccurence;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & name & message & resources
& players & humanAffected & computerAffected & firstOccurence & nextOccurence;
}
};
/**
* The castle event builds/adds buildings/creatures for a specific town.
*/
class DLL_LINKAGE CCastleEvent: public CMapEvent
{
public:
/**
* Default c-tor.
*/
CCastleEvent();
/** build specific buildings */
std::set<si32> buildings;
/** additional creatures in i-th level dwelling */
std::vector<si32> creatures;
/** owner of this event */
CGTownInstance * town;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & static_cast<CMapEvent &>(*this);
h & buildings & creatures;
}
};
namespace ETerrainType
{
enum ETerrainType
{
BORDER = -1, DIRT, SAND, GRASS, SNOW, SWAMP,
ROUGH, SUBTERRANEAN, LAVA, WATER, ROCK
};
}
namespace ERiverType
{
enum ERiverType
{
NO_RIVER, CLEAR_RIVER, ICY_RIVER, MUDDY_RIVER, LAVA_RIVER
};
}
namespace ERoadType
{
enum ERoadType
{
NO_ROAD, DIRT_ROAD, GRAVEL_ROAD, COBBLESTONE_ROAD
};
}
/**
* The terrain tile describes the terrain type and the visual representation of the terrain.
* Furthermore the struct defines whether the tile is visitable or/and blocked and which objects reside in it.
*/
struct DLL_LINKAGE TerrainTile
{
/**
* Default c-tor.
*/
TerrainTile();
/**
* Gets true if the terrain is not a rock. If from is water/land, same type is also required.
*
* @param from
* @return
*/
bool entrableTerrain(const TerrainTile * from = NULL) const;
/**
* Gets true if the terrain is not a rock. If from is water/land, same type is also required.
*
* @param allowLand
* @param allowSea
* @return
*/
bool entrableTerrain(bool allowLand, bool allowSea) const;
/**
* Checks for blocking objects and terraint type (water / land).
*
* @param from
* @return
*/
bool isClear(const TerrainTile * from = NULL) const;
/**
* Gets the ID of the top visitable object or -1 if there is none.
*
* @return the ID of the top visitable object or -1 if there is none
*/
int topVisitableId() const;
/**
* Gets true if the terrain type is water.
*
* @return true if the terrain type is water
*/
bool isWater() const;
/**
* Gets true if the terrain tile is coastal.
*
* @return true if the terrain tile is coastal
*/
bool isCoastal() const;
/**
* Gets true if the terrain tile has favourable winds.
*
* @return true if the terrain tile has favourable winds
*/
bool hasFavourableWinds() const;
/** the type of terrain */
ETerrainType::ETerrainType terType;
/** the visual representation of the terrain */
ui8 terView;
/** the type of the river. 0 if there is no river */
ERiverType::ERiverType riverType;
/** the direction of the river */
ui8 riverDir;
/** the type of the road. 0 if there is no river */
ERoadType::ERoadType roadType;
/** the direction of the road */
ui8 roadDir;
/**
* first two bits - how to rotate terrain graphic (next two - river graphic, next two - road);
* 7th bit - whether tile is coastal (allows disembarking if land or block movement if water); 8th bit - Favourable Winds effect
*/
ui8 extTileFlags;
/** true if it is visitable, false if not */
bool visitable;
/** true if it is blocked, false if not */
bool blocked;
/** pointers to objects which the hero can visit while being on this tile */
std::vector<CGObjectInstance *> visitableObjects;
/** pointers to objects that are blocking this tile */
std::vector<CGObjectInstance *> blockingObjects;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int version)
{
h & terType & terView & riverType & riverDir & roadType &roadDir & extTileFlags & blocked;
if(!h.saving)
{
visitable = false;
//these flags (and obj vectors) will be restored in map serialization
}
}
};
namespace EMapFormat
{
enum EMapFormat
{
INVALID, WOG=0x33, AB=0x15, ROE=0x0e, SOD=0x1c
};
}
/**
* The map header holds information about loss/victory condition,
* map format, version, players, height, width,...
*/
class DLL_LINKAGE CMapHeader
{
public:
/**
* Default constructor.
*/
CMapHeader();
/**
* D-tor.
*/
virtual ~CMapHeader();
/** The version of the map. The default value is EMapFormat::SOD. */
EMapFormat::EMapFormat version;
/** The height of the map. The default value is 72. */
si32 height;
/** The width of the map. The default value is 72. */
si32 width;
/** Specifies if the map has two levels. The default value is true. */
bool twoLevel;
/** The name of the map. */
std::string name;
/** The description of the map. */
std::string description;
/**
* Specifies the difficulty of the map ranging from 0 easy to 4 impossible.
* The default value is 1 representing a normal map difficulty.
*/
ui8 difficulty;
/**
* Specifies the maximum level to reach for a hero. A value of 0 states that there is no
* maximum level for heroes.
*/
ui8 levelLimit;
/** Specifies the loss condition. The default value is lose all your towns and heroes. */
LossCondition lossCondition;
/** Specifies the victory condition. The default value is defeat all enemies. */
VictoryCondition victoryCondition;
/** A list containing information about players. */
std::vector<PlayerInfo> players;
/** The number of teams. */
ui8 howManyTeams;
/**
* A list of allowed heroes. The index is the hero id and the value is either 0 for not allowed or 1 for allowed.
* The default value is a list of default allowed heroes. See CHeroHandler::getDefaultAllowedHeroes for more info.
*/
std::vector<ui8> allowedHeroes;
/** A list of placeholded heroes. The index is the id of a hero type. */
std::vector<ui16> placeholdedHeroes;
/** Unused. True if there are any playable players on the map. */
bool areAnyPlayers;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler & h, const int Version)
{
h & version & name & description & width & height & twoLevel & difficulty & levelLimit & areAnyPlayers;
h & players & lossCondition & victoryCondition & howManyTeams & allowedHeroes;
}
};
/**
* The map contains the map header, the tiles of the terrain, objects,
* heroes, towns, rumors...
*/
class DLL_LINKAGE CMap : public CMapHeader
{
public:
/**
* Default constructor.
*/
CMap();
/**
* Destructor.
*/
~CMap();
/**
* Erases an artifact instance.
*
* @param art the artifact to erase
*/
void eraseArtifactInstance(CArtifactInstance * art);
/**
* Gets the topmost object or the lowermost object depending on the flag
* lookForHero from the specified position.
*
* @param pos the position of the tile
* @param lookForHero true if you want to get the lowermost object, false if
* you want to get the topmost object
* @return the object at the given position and level
*/
const CGObjectInstance * getObjectiveObjectFrom(int3 pos, bool lookForHero);
/**
* Sets the victory/loss condition objectives.
*/
void checkForObjectives();
/**
* Adds an visitable/blocking object to a terrain tile.
*
* @param obj the visitable/blocking object to add to a tile
*/
void addBlockVisTiles(CGObjectInstance * obj);
/**
* Removes an visitable/blocking object from a terrain tile.
*
* @param obj the visitable/blocking object to remove from a tile
* @param total
*/
void removeBlockVisTiles(CGObjectInstance * obj, bool total = false);
/**
* Gets the terrain tile of the specified position.
*
* @param tile the position of the tile
* @return the terrain tile of the specified position
*/
TerrainTile & getTile(const int3 & tile);
/**
* Gets the terrain tile as a const of the specified position.
*
* @param tile the position of the tile
* @return the terrain tile as a const of the specified position
*/
const TerrainTile & getTile(const int3 & tile) const;
/**
* Gets the hero with the given id.
* @param heroId the hero id
* @return the hero with the given id
*/
CGHeroInstance * getHero(int heroId);
/**
* Validates if the position is in the bounds of the map.
*
* @param pos the position to test
* @return true if the position is in the bounds of the map
*/
bool isInTheMap(const int3 & pos) const;
/**
* Validates if the tile at the given position is a water terrain type.
*
* @param pos the position to test
* @return true if the tile at the given position is a water terrain type
*/
bool isWaterTile(const int3 & pos) const;
/**
* Adds the specified artifact instance to the list of artifacts of this map.
*
* @param art the artifact which should be added to the list of artifacts
*/
void addNewArtifactInstance(CArtifactInstance * art);
/** the checksum of the map */
ui32 checksum;
/** a 3-dimensional array of terrain tiles, access is as follows: x, y, level */
TerrainTile*** terrain;
/** list of rumors */
std::vector<Rumor> rumors;
/** list of disposed heroes */
std::vector<DisposedHero> disposedHeroes;
/** list of predefined heroes */
std::vector<ConstTransitivePtr<CGHeroInstance> > predefinedHeroes;
/** list of .def files with definitions from .h3m (may be custom) */
std::vector<ConstTransitivePtr<CGDefInfo> > customDefs;
/** list of allowed spells, index is the spell id */
std::vector<ui8> allowedSpell;
/** list of allowed artifacts, index is the artifact id */
std::vector<ui8> allowedArtifact;
/** list of allowed abilities, index is the ability id */
std::vector<ui8> allowedAbilities;
/** list of map events */
std::list<ConstTransitivePtr<CMapEvent> > events;
/** specifies the position of the grail */
int3 grailPos;
/** specifies the radius of the grail */
int grailRadious;
/** list of objects */
std::vector< ConstTransitivePtr<CGObjectInstance> > objects;
/** list of heroes */
std::vector< ConstTransitivePtr<CGHeroInstance> > heroes;
/** list of towns */
std::vector< ConstTransitivePtr<CGTownInstance> > towns;
/** list of artifacts */
std::vector< ConstTransitivePtr<CArtifactInstance> > artInstances;
/** list of quests */
std::vector< ConstTransitivePtr<CQuest> > quests;
/** associative list to identify which hero/creature id belongs to which object id(index for objects) */
bmap<si32, si32> questIdentifierToId;
/**
* Serialize method.
*/
template <typename Handler>
void serialize(Handler &h, const int formatVersion)
{
h & static_cast<CMapHeader&>(*this);
h & rumors & allowedSpell & allowedAbilities & allowedArtifact & events & grailPos;
h & artInstances & quests;
h & questIdentifierToId;
//TODO: viccondetails
if(h.saving)
{
// Save terrain
for(int i = 0; i < width ; ++i)
{
for(int j = 0; j < height ; ++j)
{
for(int k = 0; k < (twoLevel ? 2 : 1); ++k)
{
h & terrain[i][j][k];
}
}
}
}
else
{
// Load terrain
terrain = new TerrainTile**[width];
for(int ii = 0; ii < width; ++ii)
{
terrain[ii] = new TerrainTile*[height];
for(int jj = 0; jj < height; ++jj)
{
terrain[ii][jj] = new TerrainTile[twoLevel ? 2 : 1];
}
}
for(int i = 0; i < width ; ++i)
{
for(int j = 0; j < height ; ++j)
{
for(int k = 0; k < (twoLevel ? 2 : 1); ++k)
{
h & terrain[i][j][k];
}
}
}
}
h & customDefs & objects;
// static members
h & CGTeleport::objs;
h & CGTeleport::gates;
h & CGKeys::playerKeyMap;
h & CGMagi::eyelist;
h & CGObelisk::obeliskCount & CGObelisk::visited;
h & CGTownInstance::merchantArtifacts;
h & CGTownInstance::universitySkills;
if(!h.saving)
{
for(ui32 i = 0; i < objects.size(); ++i)
{
if(!objects[i]) continue;
switch (objects[i]->ID)
{
case Obj::HERO:
heroes.push_back (static_cast<CGHeroInstance*>(+objects[i]));
break;
case Obj::TOWN:
towns.push_back (static_cast<CGTownInstance*>(+objects[i]));
break;
}
// recreate blockvis map
addBlockVisTiles(objects[i]);
}
// if hero is visiting/garrisoned in town set appropriate pointers
for(ui32 i = 0; i < heroes.size(); ++i)
{
int3 vistile = heroes[i]->pos;
vistile.x++;
for(ui32 j = 0; j < towns.size(); ++j)
{
// hero stands on the town entrance
if(vistile == towns[j]->pos)
{
if(heroes[i]->inTownGarrison)
{
towns[j]->garrisonHero = heroes[i];
removeBlockVisTiles(heroes[i]);
}
else
{
towns[j]->visitingHero = heroes[i];
}
heroes[i]->visitedTown = towns[j];
break;
}
}
vistile.x -= 2; //manifest pos
const TerrainTile & t = getTile(vistile);
if(t.terType != ETerrainType::WATER) continue;
//hero stands on the water - he must be in the boat
for(ui32 j = 0; j < t.visitableObjects.size(); ++j)
{
if(t.visitableObjects[j]->ID == Obj::BOAT)
{
CGBoat * b = static_cast<CGBoat *>(t.visitableObjects[j]);
heroes[i]->boat = b;
b->hero = heroes[i];
removeBlockVisTiles(b);
break;
}
}
}
}
}
};