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mirror of https://github.com/vcmi/vcmi.git synced 2024-11-28 08:48:48 +02:00
vcmi/lib/CGameInfoCallback.cpp
Ivan Savenko 8353bca34f Small refactoring of adventure map spell casting:
- Removed duplicated checks for DD possibility
- Moved most of spell-specific code from AdventureMapInterface to library
code
- AdventureSpellMechanics class now provides methods to check whether
spellcast is possible, similarly to battle spells
- If it is not possible to cast adventure map spell (e.g. no mana or no
move points) game will show infowindow immediately on clicking spellbook
instead of on cast attempt
- If hero does not have movement points for a DD, game will show correct
error message
- Added game settings 'dimensionDoorFailureSpendsPoints' due to
discovered H3 logic
2024-04-10 20:04:08 +03:00

1035 lines
30 KiB
C++

/*
* CGameInfoCallback.cpp, 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
*
*/
#include "StdInc.h"
#include "CGameInfoCallback.h"
#include "gameState/CGameState.h"
#include "gameState/InfoAboutArmy.h"
#include "gameState/SThievesGuildInfo.h"
#include "gameState/TavernHeroesPool.h"
#include "gameState/QuestInfo.h"
#include "mapObjects/CGHeroInstance.h"
#include "mapObjects/CGTownInstance.h"
#include "mapObjects/MiscObjects.h"
#include "networkPacks/ArtifactLocation.h"
#include "CGeneralTextHandler.h"
#include "StartInfo.h" // for StartInfo
#include "battle/BattleInfo.h" // for BattleInfo
#include "GameSettings.h"
#include "TerrainHandler.h"
#include "spells/CSpellHandler.h"
#include "mapping/CMap.h"
#include "CPlayerState.h"
VCMI_LIB_NAMESPACE_BEGIN
//TODO make clean
#define ERROR_VERBOSE_OR_NOT_RET_VAL_IF(cond, verbose, txt, retVal) do {if(cond){if(verbose)logGlobal->error("%s: %s",BOOST_CURRENT_FUNCTION, txt); return retVal;}} while(0)
#define ERROR_RET_IF(cond, txt) do {if(cond){logGlobal->error("%s: %s", BOOST_CURRENT_FUNCTION, txt); return;}} while(0)
#define ERROR_RET_VAL_IF(cond, txt, retVal) do {if(cond){logGlobal->error("%s: %s", BOOST_CURRENT_FUNCTION, txt); return retVal;}} while(0)
PlayerColor CGameInfoCallback::getOwner(ObjectInstanceID heroID) const
{
const CGObjectInstance *obj = getObj(heroID);
ERROR_RET_VAL_IF(!obj, "No such object!", PlayerColor::CANNOT_DETERMINE);
return obj->tempOwner;
}
int CGameInfoCallback::getResource(PlayerColor Player, GameResID which) const
{
const PlayerState *p = getPlayerState(Player);
ERROR_RET_VAL_IF(!p, "No player info!", -1);
ERROR_RET_VAL_IF(p->resources.size() <= which.getNum() || which.getNum() < 0, "No such resource!", -1);
return p->resources[which];
}
const PlayerSettings * CGameInfoCallback::getPlayerSettings(PlayerColor color) const
{
return &gs->scenarioOps->getIthPlayersSettings(color);
}
bool CGameInfoCallback::isAllowed(SpellID id) const
{
return gs->map->allowedSpells.count(id) != 0;
}
bool CGameInfoCallback::isAllowed(ArtifactID id) const
{
return gs->map->allowedArtifact.count(id) != 0;
}
bool CGameInfoCallback::isAllowed(SecondarySkill id) const
{
return gs->map->allowedAbilities.count(id) != 0;
}
std::optional<PlayerColor> CGameInfoCallback::getPlayerID() const
{
return std::nullopt;
}
const Player * CGameInfoCallback::getPlayer(PlayerColor color) const
{
return getPlayerState(color, false);
}
const PlayerState * CGameInfoCallback::getPlayerState(PlayerColor color, bool verbose) const
{
//funtion written from scratch since it's accessed A LOT by AI
if(!color.isValidPlayer())
{
return nullptr;
}
auto player = gs->players.find(color);
if (player != gs->players.end())
{
if (hasAccess(color))
return &player->second;
else
{
if (verbose)
logGlobal->error("Cannot access player %d info!", color);
return nullptr;
}
}
else
{
if (verbose)
logGlobal->error("Cannot find player %d info!", color);
return nullptr;
}
}
TurnTimerInfo CGameInfoCallback::getPlayerTurnTime(PlayerColor color) const
{
if(!color.isValidPlayer())
{
return TurnTimerInfo{};
}
auto player = gs->players.find(color);
if(player != gs->players.end())
{
return player->second.turnTimer;
}
return TurnTimerInfo{};
}
/************************************************************************/
/* */
/************************************************************************/
const CGObjectInstance* CGameInfoCallback::getObj(ObjectInstanceID objid, bool verbose) const
{
si32 oid = objid.num;
if(oid < 0 || oid >= gs->map->objects.size())
{
if(verbose)
logGlobal->error("Cannot get object with id %d", oid);
return nullptr;
}
const CGObjectInstance *ret = gs->map->objects[oid];
if(!ret)
{
if(verbose)
logGlobal->error("Cannot get object with id %d. Object was removed", oid);
return nullptr;
}
if(!isVisible(ret, getPlayerID()) && ret->tempOwner != getPlayerID())
{
if(verbose)
logGlobal->error("Cannot get object with id %d. Object is not visible.", oid);
return nullptr;
}
return ret;
}
const CGHeroInstance* CGameInfoCallback::getHero(ObjectInstanceID objid) const
{
const CGObjectInstance *obj = getObj(objid, false);
if(obj)
return dynamic_cast<const CGHeroInstance*>(obj);
else
return nullptr;
}
const CGTownInstance* CGameInfoCallback::getTown(ObjectInstanceID objid) const
{
const CGObjectInstance *obj = getObj(objid, false);
if(obj)
return dynamic_cast<const CGTownInstance*>(obj);
else
return nullptr;
}
void CGameInfoCallback::fillUpgradeInfo(const CArmedInstance *obj, SlotID stackPos, UpgradeInfo &out) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_IF(!canGetFullInfo(obj), "Cannot get info about not owned object!");
ERROR_RET_IF(!obj->hasStackAtSlot(stackPos), "There is no such stack!");
gs->fillUpgradeInfo(obj, stackPos, out);
//return gs->fillUpgradeInfo(obj->getStack(stackPos));
}
const StartInfo * CGameInfoCallback::getStartInfo(bool beforeRandomization) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(beforeRandomization)
return gs->initialOpts;
else
return gs->scenarioOps;
}
int32_t CGameInfoCallback::getSpellCost(const spells::Spell * sp, const CGHeroInstance * caster) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!canGetFullInfo(caster), "Cannot get info about caster!", -1);
//if there is a battle
auto casterBattle = gs->getBattle(caster->getOwner());
if(casterBattle)
return casterBattle->battleGetSpellCost(sp, caster);
//if there is no battle
return caster->getSpellCost(sp);
}
int64_t CGameInfoCallback::estimateSpellDamage(const CSpell * sp, const CGHeroInstance * hero) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(hero && !canGetFullInfo(hero), "Cannot get info about caster!", -1);
if(hero) //we see hero's spellbook
return sp->calculateDamage(hero);
else
return 0; //mage guild
}
void CGameInfoCallback::getThievesGuildInfo(SThievesGuildInfo & thi, const CGObjectInstance * obj)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_IF(!obj, "No guild object!");
ERROR_RET_IF(obj->ID == Obj::TOWN && !canGetFullInfo(obj), "Cannot get info about town guild object!");
//TODO: advmap object -> check if they're visited by our hero
if(obj->ID == Obj::TOWN || obj->ID == Obj::TAVERN)
{
int taverns = 0;
for(auto town : gs->players[*getPlayerID()].towns)
{
if(town->hasBuilt(BuildingID::TAVERN))
taverns++;
}
gs->obtainPlayersStats(thi, taverns);
}
else if(obj->ID == Obj::DEN_OF_THIEVES)
{
gs->obtainPlayersStats(thi, 20);
}
}
int CGameInfoCallback::howManyTowns(PlayerColor Player) const
{
ERROR_RET_VAL_IF(!hasAccess(Player), "Access forbidden!", -1);
return static_cast<int>(gs->players[Player].towns.size());
}
bool CGameInfoCallback::getTownInfo(const CGObjectInstance * town, InfoAboutTown & dest, const CGObjectInstance * selectedObject) const
{
ERROR_RET_VAL_IF(!isVisible(town, getPlayerID()), "Town is not visible!", false); //it's not a town or it's not visible for layer
bool detailed = hasAccess(town->tempOwner);
if(town->ID == Obj::TOWN)
{
if(!detailed && nullptr != selectedObject)
{
const auto * selectedHero = dynamic_cast<const CGHeroInstance *>(selectedObject);
if(nullptr != selectedHero)
detailed = selectedHero->hasVisions(town, BonusCustomSubtype::visionsTowns);
}
dest.initFromTown(dynamic_cast<const CGTownInstance *>(town), detailed);
}
else if(town->ID == Obj::GARRISON || town->ID == Obj::GARRISON2)
dest.initFromArmy(dynamic_cast<const CArmedInstance *>(town), detailed);
else
return false;
return true;
}
int3 CGameInfoCallback::guardingCreaturePosition (int3 pos) const //FIXME: redundant?
{
ERROR_RET_VAL_IF(!isVisible(pos), "Tile is not visible!", int3(-1,-1,-1));
return gs->guardingCreaturePosition(pos);
}
std::vector<const CGObjectInstance*> CGameInfoCallback::getGuardingCreatures (int3 pos) const
{
ERROR_RET_VAL_IF(!isVisible(pos), "Tile is not visible!", std::vector<const CGObjectInstance*>());
std::vector<const CGObjectInstance*> ret;
for(auto * cr : gs->guardingCreatures(pos))
{
ret.push_back(cr);
}
return ret;
}
bool CGameInfoCallback::isTileGuardedUnchecked(int3 tile) const
{
return !gs->guardingCreatures(tile).empty();
}
bool CGameInfoCallback::getHeroInfo(const CGObjectInstance * hero, InfoAboutHero & dest, const CGObjectInstance * selectedObject) const
{
const auto * h = dynamic_cast<const CGHeroInstance *>(hero);
ERROR_RET_VAL_IF(!h, "That's not a hero!", false);
InfoAboutHero::EInfoLevel infoLevel = InfoAboutHero::EInfoLevel::BASIC;
if(hasAccess(h->tempOwner))
infoLevel = InfoAboutHero::EInfoLevel::DETAILED;
if (infoLevel == InfoAboutHero::EInfoLevel::BASIC)
{
auto ourBattle = gs->getBattle(*getPlayerID());
if(ourBattle && ourBattle->playerHasAccessToHeroInfo(*getPlayerID(), h)) //if it's battle we can get enemy hero full data
infoLevel = InfoAboutHero::EInfoLevel::INBATTLE;
else
ERROR_RET_VAL_IF(!isVisible(h->visitablePos()), "That hero is not visible!", false);
}
if( (infoLevel == InfoAboutHero::EInfoLevel::BASIC) && nullptr != selectedObject)
{
const auto * selectedHero = dynamic_cast<const CGHeroInstance *>(selectedObject);
if(nullptr != selectedHero)
if(selectedHero->hasVisions(hero, BonusCustomSubtype::visionsHeroes))
infoLevel = InfoAboutHero::EInfoLevel::DETAILED;
}
dest.initFromHero(h, infoLevel);
//DISGUISED bonus implementation
if(getPlayerRelations(*getPlayerID(), hero->tempOwner) == PlayerRelations::ENEMIES)
{
//todo: bonus cashing
int disguiseLevel = h->valOfBonuses(BonusType::DISGUISED);
auto doBasicDisguise = [](InfoAboutHero & info)
{
int maxAIValue = 0;
const CCreature * mostStrong = nullptr;
for(auto & elem : info.army)
{
if(static_cast<int>(elem.second.type->getAIValue()) > maxAIValue)
{
maxAIValue = elem.second.type->getAIValue();
mostStrong = elem.second.type;
}
}
if(nullptr == mostStrong)//just in case
logGlobal->error("CGameInfoCallback::getHeroInfo: Unable to select most strong stack");
else
for(auto & elem : info.army)
{
elem.second.type = mostStrong;
}
};
auto doAdvancedDisguise = [&doBasicDisguise](InfoAboutHero & info)
{
doBasicDisguise(info);
for(auto & elem : info.army)
elem.second.count = 0;
};
auto doExpertDisguise = [this,h](InfoAboutHero & info)
{
for(auto & elem : info.army)
elem.second.count = 0;
const auto factionIndex = getStartInfo(false)->playerInfos.at(h->tempOwner).castle;
int maxAIValue = 0;
const CCreature * mostStrong = nullptr;
for(auto creature : VLC->creh->objects)
{
if(creature->getFaction() == factionIndex && static_cast<int>(creature->getAIValue()) > maxAIValue)
{
maxAIValue = creature->getAIValue();
mostStrong = creature.get();
}
}
if(nullptr != mostStrong) //possible, faction may have no creatures at all
for(auto & elem : info.army)
elem.second.type = mostStrong;
};
switch (disguiseLevel)
{
case 0:
//no bonus at all - do nothing
break;
case 1:
doBasicDisguise(dest);
break;
case 2:
doAdvancedDisguise(dest);
break;
case 3:
doExpertDisguise(dest);
break;
default:
//invalid value
logGlobal->error("CGameInfoCallback::getHeroInfo: Invalid DISGUISED bonus value %d", disguiseLevel);
break;
}
}
return true;
}
int CGameInfoCallback::getDate(Date mode) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->getDate(mode);
}
bool CGameInfoCallback::isVisible(int3 pos, const std::optional<PlayerColor> & Player) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->isVisible(pos, Player);
}
bool CGameInfoCallback::isVisible(int3 pos) const
{
return isVisible(pos, getPlayerID());
}
bool CGameInfoCallback::isVisible(const CGObjectInstance * obj, const std::optional<PlayerColor> & Player) const
{
return gs->isVisible(obj, Player);
}
bool CGameInfoCallback::isVisible(const CGObjectInstance *obj) const
{
return isVisible(obj, getPlayerID());
}
// const CCreatureSet* CInfoCallback::getGarrison(const CGObjectInstance *obj) const
// {
// //boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
// if()
// const CArmedInstance *armi = dynamic_cast<const CArmedInstance*>(obj);
// if(!armi)
// return nullptr;
// else
// return armi;
// }
std::vector <const CGObjectInstance *> CGameInfoCallback::getBlockingObjs( int3 pos ) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile requested!", ret);
for(const CGObjectInstance * obj : t->blockingObjects)
ret.push_back(obj);
return ret;
}
std::vector <const CGObjectInstance *> CGameInfoCallback::getVisitableObjs(int3 pos, bool verbose) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos, verbose);
ERROR_VERBOSE_OR_NOT_RET_VAL_IF(!t, verbose, pos.toString() + " is not visible!", ret);
for(const CGObjectInstance * obj : t->visitableObjects)
{
if(getPlayerID() || obj->ID != Obj::EVENT) //hide events from players
ret.push_back(obj);
}
return ret;
}
const CGObjectInstance * CGameInfoCallback::getTopObj (int3 pos) const
{
return vstd::backOrNull(getVisitableObjs(pos));
}
std::vector <const CGObjectInstance *> CGameInfoCallback::getFlaggableObjects(int3 pos) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile requested!", ret);
for(const CGObjectInstance *obj : t->blockingObjects)
if(obj->tempOwner != PlayerColor::UNFLAGGABLE)
ret.push_back(obj);
return ret;
}
int3 CGameInfoCallback::getMapSize() const
{
return int3(gs->map->width, gs->map->height, gs->map->twoLevel ? 2 : 1);
}
std::vector<const CGHeroInstance *> CGameInfoCallback::getAvailableHeroes(const CGObjectInstance * townOrTavern) const
{
ASSERT_IF_CALLED_WITH_PLAYER
std::vector<const CGHeroInstance *> ret;
//ERROR_RET_VAL_IF(!isOwnedOrVisited(townOrTavern), "Town or tavern must be owned or visited!", ret);
//TODO: town needs to be owned, advmap tavern needs to be visited; to be reimplemented when visit tracking is done
const CGTownInstance * town = getTown(townOrTavern->id);
if(townOrTavern->ID == Obj::TAVERN || (town && town->hasBuilt(BuildingID::TAVERN)))
return gs->heroesPool->getHeroesFor(*getPlayerID());
return ret;
}
const TerrainTile * CGameInfoCallback::getTile(int3 tile, bool verbose) const
{
if(isVisible(tile))
return &gs->map->getTile(tile);
if(verbose)
logGlobal->error("\r\n%s: %s\r\n", BOOST_CURRENT_FUNCTION, tile.toString() + " is not visible!");
return nullptr;
}
const TerrainTile * CGameInfoCallback::getTileUnchecked(int3 tile) const
{
if (isInTheMap(tile))
return &gs->map->getTile(tile);
return nullptr;
}
EDiggingStatus CGameInfoCallback::getTileDigStatus(int3 tile, bool verbose) const
{
if(!isVisible(tile))
return EDiggingStatus::UNKNOWN;
for(const auto & object : gs->map->objects)
{
if(object && object->ID == Obj::HOLE && object->pos == tile)
return EDiggingStatus::TILE_OCCUPIED;
}
return getTile(tile)->getDiggingStatus();
}
//TODO: typedef?
std::shared_ptr<const boost::multi_array<TerrainTile*, 3>> CGameInfoCallback::getAllVisibleTiles() const
{
assert(getPlayerID().has_value());
const auto * team = getPlayerTeam(getPlayerID().value());
size_t width = gs->map->width;
size_t height = gs->map->height;
size_t levels = gs->map->levels();
auto * ptr = new boost::multi_array<TerrainTile *, 3>(boost::extents[levels][width][height]);
int3 tile;
for(tile.z = 0; tile.z < levels; tile.z++)
for(tile.x = 0; tile.x < width; tile.x++)
for(tile.y = 0; tile.y < height; tile.y++)
{
if ((*team->fogOfWarMap)[tile.z][tile.x][tile.y])
(*ptr)[tile.z][tile.x][tile.y] = &gs->map->getTile(tile);
else
(*ptr)[tile.z][tile.x][tile.y] = nullptr;
}
return std::shared_ptr<const boost::multi_array<TerrainTile*, 3>>(ptr);
}
EBuildingState CGameInfoCallback::canBuildStructure( const CGTownInstance *t, BuildingID ID )
{
ERROR_RET_VAL_IF(!canGetFullInfo(t), "Town is not owned!", EBuildingState::TOWN_NOT_OWNED);
if(!t->town->buildings.count(ID))
return EBuildingState::BUILDING_ERROR;
const CBuilding * building = t->town->buildings.at(ID);
if(t->hasBuilt(ID)) //already built
return EBuildingState::ALREADY_PRESENT;
//can we build it?
if(vstd::contains(t->forbiddenBuildings, ID))
return EBuildingState::FORBIDDEN; //forbidden
auto possiblyNotBuiltTest = [&](const BuildingID & id) -> bool
{
return ((id == BuildingID::CAPITOL) ? true : !t->hasBuilt(id));
};
std::function<bool(BuildingID id)> allowedTest = [&](const BuildingID & id) -> bool
{
return !vstd::contains(t->forbiddenBuildings, id);
};
if (!t->genBuildingRequirements(ID, true).satisfiable(allowedTest, possiblyNotBuiltTest))
return EBuildingState::FORBIDDEN;
if(ID == BuildingID::CAPITOL)
{
const PlayerState *ps = getPlayerState(t->tempOwner, false);
if(ps)
{
for(const CGTownInstance *town : ps->towns)
{
if(town->hasBuilt(BuildingID::CAPITOL))
{
return EBuildingState::HAVE_CAPITAL; //no more than one capitol
}
}
}
}
else if(ID == BuildingID::SHIPYARD)
{
const TerrainTile *tile = getTile(t->bestLocation(), false);
if(!tile || !tile->terType->isWater())
return EBuildingState::NO_WATER; //lack of water
}
auto buildTest = [&](const BuildingID & id) -> bool
{
return t->hasBuilt(id);
};
if (!t->genBuildingRequirements(ID).test(buildTest))
return EBuildingState::PREREQUIRES;
if(t->builded >= VLC->settings()->getInteger(EGameSettings::TOWNS_BUILDINGS_PER_TURN_CAP))
return EBuildingState::CANT_BUILD_TODAY; //building limit
//checking resources
if(!building->resources.canBeAfforded(getPlayerState(t->tempOwner)->resources))
return EBuildingState::NO_RESOURCES; //lack of res
return EBuildingState::ALLOWED;
}
const CMapHeader * CGameInfoCallback::getMapHeader() const
{
return gs->map;
}
bool CGameInfoCallback::hasAccess(std::optional<PlayerColor> playerId) const
{
return !getPlayerID() || getPlayerID()->isSpectator() || gs->getPlayerRelations(*playerId, *getPlayerID()) != PlayerRelations::ENEMIES;
}
EPlayerStatus CGameInfoCallback::getPlayerStatus(PlayerColor player, bool verbose) const
{
const PlayerState *ps = gs->getPlayerState(player, verbose);
ERROR_VERBOSE_OR_NOT_RET_VAL_IF(!ps, verbose, "No such player!", EPlayerStatus::WRONG);
return ps->status;
}
std::string CGameInfoCallback::getTavernRumor(const CGObjectInstance * townOrTavern) const
{
MetaString text;
text.appendLocalString(EMetaText::GENERAL_TXT, 216);
std::string extraText;
if(gs->rumor.type == RumorState::TYPE_NONE)
return text.toString();
auto rumor = gs->rumor.last[gs->rumor.type];
switch(gs->rumor.type)
{
case RumorState::TYPE_SPECIAL:
text.replaceLocalString(EMetaText::GENERAL_TXT, rumor.first);
if(rumor.first == RumorState::RUMOR_GRAIL)
text.replaceTextID(TextIdentifier("core", "arraytxt", 158 + rumor.second).get());
else
text.replaceTextID(TextIdentifier("core", "plcolors", rumor.second).get());
break;
case RumorState::TYPE_MAP:
text.replaceRawString(gs->map->rumors[rumor.first].text.toString());
break;
case RumorState::TYPE_RAND:
text.replaceTextID(TextIdentifier("core", "randtvrn", rumor.first).get());
break;
}
return text.toString();
}
PlayerRelations CGameInfoCallback::getPlayerRelations( PlayerColor color1, PlayerColor color2 ) const
{
return gs->getPlayerRelations(color1, color2);
}
bool CGameInfoCallback::canGetFullInfo(const CGObjectInstance *obj) const
{
return !obj || hasAccess(obj->tempOwner);
}
int CGameInfoCallback::getHeroCount( PlayerColor player, bool includeGarrisoned ) const
{
int ret = 0;
const PlayerState *p = gs->getPlayerState(player);
ERROR_RET_VAL_IF(!p, "No such player!", -1);
if(includeGarrisoned)
return static_cast<int>(p->heroes.size());
else
for(const auto & elem : p->heroes)
if(!elem->inTownGarrison)
ret++;
return ret;
}
bool CGameInfoCallback::isOwnedOrVisited(const CGObjectInstance *obj) const
{
if(canGetFullInfo(obj))
return true;
const TerrainTile *t = getTile(obj->visitablePos()); //get entrance tile
const CGObjectInstance *visitor = t->visitableObjects.back(); //visitong hero if present or the obejct itself at last
return visitor->ID == Obj::HERO && canGetFullInfo(visitor); //owned or allied hero is a visitor
}
bool CGameInfoCallback::isPlayerMakingTurn(PlayerColor player) const
{
return gs->actingPlayers.count(player);
}
CGameInfoCallback::CGameInfoCallback():
gs(nullptr)
{
}
CGameInfoCallback::CGameInfoCallback(CGameState * GS):
gs(GS)
{
}
int CPlayerSpecificInfoCallback::howManyTowns() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!getPlayerID(), "Applicable only for player callbacks", -1);
return CGameInfoCallback::howManyTowns(*getPlayerID());
}
std::vector < const CGTownInstance *> CPlayerSpecificInfoCallback::getTownsInfo(bool onlyOur) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
auto ret = std::vector < const CGTownInstance *>();
for(const auto & i : gs->players)
{
for(const auto & town : i.second.towns)
{
if(i.first == getPlayerID() || (!onlyOur && isVisible(town, getPlayerID())))
{
ret.push_back(town);
}
}
} // for ( std::map<int, PlayerState>::iterator i=gs->players.begin() ; i!=gs->players.end();i++)
return ret;
}
std::vector < const CGHeroInstance *> CPlayerSpecificInfoCallback::getHeroesInfo(bool onlyOur) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
std::vector < const CGHeroInstance *> ret;
for(auto hero : gs->map->heroesOnMap)
{
// !player || // - why would we even get access to hero not owned by any player?
if((hero->tempOwner == *getPlayerID()) ||
(isVisible(hero->visitablePos(), getPlayerID()) && !onlyOur) )
{
ret.push_back(hero);
}
}
return ret;
}
int CPlayerSpecificInfoCallback::getHeroSerial(const CGHeroInstance * hero, bool includeGarrisoned) const
{
if (hero->inTownGarrison && !includeGarrisoned)
return -1;
size_t index = 0;
auto & heroes = gs->players[*getPlayerID()].heroes;
for (auto & heroe : heroes)
{
if (includeGarrisoned || !(heroe)->inTownGarrison)
index++;
if (heroe == hero)
return static_cast<int>(index);
}
return -1;
}
int3 CPlayerSpecificInfoCallback::getGrailPos( double *outKnownRatio )
{
if (!getPlayerID() || gs->map->obeliskCount == 0)
{
*outKnownRatio = 0.0;
}
else
{
TeamID t = gs->getPlayerTeam(*getPlayerID())->id;
double visited = 0.0;
if(gs->map->obelisksVisited.count(t))
visited = static_cast<double>(gs->map->obelisksVisited[t]);
*outKnownRatio = visited / gs->map->obeliskCount;
}
return gs->map->grailPos;
}
std::vector < const CGObjectInstance * > CPlayerSpecificInfoCallback::getMyObjects() const
{
std::vector < const CGObjectInstance * > ret;
for(const CGObjectInstance * obj : gs->map->objects)
{
if(obj && obj->tempOwner == getPlayerID())
ret.push_back(obj);
}
return ret;
}
std::vector < const CGDwelling * > CPlayerSpecificInfoCallback::getMyDwellings() const
{
ASSERT_IF_CALLED_WITH_PLAYER
std::vector < const CGDwelling * > ret;
for(CGDwelling * dw : gs->getPlayerState(*getPlayerID())->dwellings)
{
ret.push_back(dw);
}
return ret;
}
std::vector <QuestInfo> CPlayerSpecificInfoCallback::getMyQuests() const
{
std::vector <QuestInfo> ret;
for(const auto & quest : gs->getPlayerState(*getPlayerID())->quests)
{
ret.push_back (quest);
}
return ret;
}
int CPlayerSpecificInfoCallback::howManyHeroes(bool includeGarrisoned) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!getPlayerID(), "Applicable only for player callbacks", -1);
return getHeroCount(*getPlayerID(), includeGarrisoned);
}
const CGHeroInstance* CPlayerSpecificInfoCallback::getHeroBySerial(int serialId, bool includeGarrisoned) const
{
ASSERT_IF_CALLED_WITH_PLAYER
const PlayerState *p = getPlayerState(*getPlayerID());
ERROR_RET_VAL_IF(!p, "No player info", nullptr);
if (!includeGarrisoned)
{
for(ui32 i = 0; i < p->heroes.size() && static_cast<int>(i) <= serialId; i++)
if(p->heroes[i]->inTownGarrison)
serialId++;
}
ERROR_RET_VAL_IF(serialId < 0 || serialId >= p->heroes.size(), "No player info", nullptr);
return p->heroes[serialId];
}
const CGTownInstance* CPlayerSpecificInfoCallback::getTownBySerial(int serialId) const
{
ASSERT_IF_CALLED_WITH_PLAYER
const PlayerState *p = getPlayerState(*getPlayerID());
ERROR_RET_VAL_IF(!p, "No player info", nullptr);
ERROR_RET_VAL_IF(serialId < 0 || serialId >= p->towns.size(), "No player info", nullptr);
return p->towns[serialId];
}
int CPlayerSpecificInfoCallback::getResourceAmount(GameResID type) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!getPlayerID(), "Applicable only for player callbacks", -1);
return getResource(*getPlayerID(), type);
}
TResources CPlayerSpecificInfoCallback::getResourceAmount() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!getPlayerID(), "Applicable only for player callbacks", TResources());
return gs->players[*getPlayerID()].resources;
}
const TeamState * CGameInfoCallback::getTeam( TeamID teamID ) const
{
//rewritten by hand, AI calls this function a lot
auto team = gs->teams.find(teamID);
if (team != gs->teams.end())
{
const TeamState *ret = &team->second;
if(!getPlayerID().has_value()) //neutral (or invalid) player
return ret;
else
{
if (vstd::contains(ret->players, *getPlayerID())) //specific player
return ret;
else
{
logGlobal->error("Illegal attempt to access team data!");
return nullptr;
}
}
}
else
{
logGlobal->error("Cannot find info for team %d", teamID);
return nullptr;
}
}
const TeamState * CGameInfoCallback::getPlayerTeam( PlayerColor color ) const
{
auto player = gs->players.find(color);
if (player != gs->players.end())
{
return getTeam (player->second.team);
}
else
{
return nullptr;
}
}
const CGHeroInstance * CGameInfoCallback::getHeroWithSubid( int subid ) const
{
if(subid<0)
return nullptr;
if(subid>= gs->map->allHeroes.size())
return nullptr;
return gs->map->allHeroes.at(subid).get();
}
bool CGameInfoCallback::isInTheMap(const int3 &pos) const
{
return gs->map->isInTheMap(pos);
}
void CGameInfoCallback::getVisibleTilesInRange(std::unordered_set<int3> &tiles, int3 pos, int radious, int3::EDistanceFormula distanceFormula) const
{
gs->getTilesInRange(tiles, pos, radious, ETileVisibility::REVEALED, *getPlayerID(), distanceFormula);
}
void CGameInfoCallback::calculatePaths(const std::shared_ptr<PathfinderConfig> & config)
{
gs->calculatePaths(config);
}
void CGameInfoCallback::calculatePaths( const CGHeroInstance *hero, CPathsInfo &out)
{
gs->calculatePaths(hero, out);
}
const CArtifactInstance * CGameInfoCallback::getArtInstance( ArtifactInstanceID aid ) const
{
return gs->map->artInstances[aid.num];
}
const CGObjectInstance * CGameInfoCallback::getObjInstance( ObjectInstanceID oid ) const
{
return gs->map->objects[oid.num];
}
const CArtifactSet * CGameInfoCallback::getArtSet(const ArtifactLocation & loc) const
{
return gs->getArtSet(loc);
}
std::vector<ObjectInstanceID> CGameInfoCallback::getVisibleTeleportObjects(std::vector<ObjectInstanceID> ids, PlayerColor player) const
{
vstd::erase_if(ids, [&](const ObjectInstanceID & id) -> bool
{
const auto * obj = getObj(id, false);
return player != PlayerColor::UNFLAGGABLE && (!obj || !isVisible(obj->pos, player));
});
return ids;
}
std::vector<ObjectInstanceID> CGameInfoCallback::getTeleportChannelEntraces(TeleportChannelID id, PlayerColor player) const
{
return getVisibleTeleportObjects(gs->map->teleportChannels[id]->entrances, player);
}
std::vector<ObjectInstanceID> CGameInfoCallback::getTeleportChannelExits(TeleportChannelID id, PlayerColor player) const
{
return getVisibleTeleportObjects(gs->map->teleportChannels[id]->exits, player);
}
ETeleportChannelType CGameInfoCallback::getTeleportChannelType(TeleportChannelID id, PlayerColor player) const
{
std::vector<ObjectInstanceID> entrances = getTeleportChannelEntraces(id, player);
std::vector<ObjectInstanceID> exits = getTeleportChannelExits(id, player);
if((entrances.empty() || exits.empty()) // impassable if exits or entrances list are empty
|| (entrances.size() == 1 && entrances == exits)) // impassable if only entrance and only exit is same object. e.g bidirectional monolith
{
return ETeleportChannelType::IMPASSABLE;
}
auto intersection = vstd::intersection(entrances, exits);
if(intersection.size() == entrances.size() && intersection.size() == exits.size())
return ETeleportChannelType::BIDIRECTIONAL;
else if(intersection.empty())
return ETeleportChannelType::UNIDIRECTIONAL;
else
return ETeleportChannelType::MIXED;
}
bool CGameInfoCallback::isTeleportChannelImpassable(TeleportChannelID id, PlayerColor player) const
{
return ETeleportChannelType::IMPASSABLE == getTeleportChannelType(id, player);
}
bool CGameInfoCallback::isTeleportChannelBidirectional(TeleportChannelID id, PlayerColor player) const
{
return ETeleportChannelType::BIDIRECTIONAL == getTeleportChannelType(id, player);
}
bool CGameInfoCallback::isTeleportChannelUnidirectional(TeleportChannelID id, PlayerColor player) const
{
return ETeleportChannelType::UNIDIRECTIONAL == getTeleportChannelType(id, player);
}
bool CGameInfoCallback::isTeleportEntrancePassable(const CGTeleport * obj, PlayerColor player) const
{
return obj && obj->isEntrance() && !isTeleportChannelImpassable(obj->channel, player);
}
VCMI_LIB_NAMESPACE_END