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vcmi/lib/rmg/TreasurePlacer.cpp

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/*
* TreasurePlacer.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 "TreasurePlacer.h"
#include "CMapGenerator.h"
#include "Functions.h"
#include "ObjectManager.h"
#include "RoadPlacer.h"
#include "ConnectionsPlacer.h"
#include "RmgMap.h"
#include "TileInfo.h"
#include "../mapObjects/CommonConstructors.h"
#include "../mapObjects/MapObjects.h" //needed to resolve templates for CommonConstructors.h
#include "../CCreatureHandler.h"
#include "../spells/CSpellHandler.h" //for choosing random spells
#include "../mapping/CMap.h"
#include "../mapping/CMapEditManager.h"
void TreasurePlacer::process()
{
addAllPossibleObjects();
auto * m = zone.getModificator<ObjectManager>();
if(m)
createTreasures(*m);
}
void TreasurePlacer::init()
{
DEPENDENCY(ObjectManager);
DEPENDENCY(ConnectionsPlacer);
POSTFUNCTION(RoadPlacer);
}
void TreasurePlacer::setQuestArtZone(Zone * otherZone)
{
questArtZone = otherZone;
}
void TreasurePlacer::addAllPossibleObjects()
{
ObjectInfo oi;
int numZones = static_cast<int>(map.getZones().size());
for(auto primaryID : VLC->objtypeh->knownObjects())
{
for(auto secondaryID : VLC->objtypeh->knownSubObjects(primaryID))
{
auto handler = VLC->objtypeh->getHandlerFor(primaryID, secondaryID);
if(!handler->isStaticObject() && handler->getRMGInfo().value)
{
for(auto temp : handler->getTemplates())
{
if(temp.canBePlacedAt(zone.getTerrainType()))
{
oi.generateObject = [temp]() -> CGObjectInstance *
{
return VLC->objtypeh->getHandlerFor(temp.id, temp.subid)->create(temp);
};
auto rmgInfo = handler->getRMGInfo();
oi.value = rmgInfo.value;
oi.probability = rmgInfo.rarity;
oi.templ = temp;
oi.maxPerZone = rmgInfo.zoneLimit;
vstd::amin(oi.maxPerZone, rmgInfo.mapLimit / numZones); //simple, but should distribute objects evenly on large maps
possibleObjects.push_back(oi);
}
}
}
}
}
if(zone.getType() == ETemplateZoneType::WATER)
return;
//prisons
//levels 1, 5, 10, 20, 30
static int prisonsLevels = std::min(generator.getConfig().prisonExperience.size(), generator.getConfig().prisonValues.size());
for(int i = 0; i < prisonsLevels; i++)
{
oi.generateObject = [i, this]() -> CGObjectInstance *
{
std::vector<ui32> possibleHeroes;
for(int j = 0; j < map.map().allowedHeroes.size(); j++)
{
if(map.map().allowedHeroes[j])
possibleHeroes.push_back(j);
}
auto hid = *RandomGeneratorUtil::nextItem(possibleHeroes, generator.rand);
auto factory = VLC->objtypeh->getHandlerFor(Obj::PRISON, 0);
auto obj = (CGHeroInstance *) factory->create(ObjectTemplate());
obj->subID = hid; //will be initialized later
obj->exp = generator.getConfig().prisonExperience[i];
obj->setOwner(PlayerColor::NEUTRAL);
map.map().allowedHeroes[hid] = false; //ban this hero
generator.decreasePrisonsRemaining();
obj->appearance = VLC->objtypeh->getHandlerFor(Obj::PRISON, 0)->getTemplates(zone.getTerrainType()).front(); //can't init template with hero subID
return obj;
};
oi.setTemplate(Obj::PRISON, 0, zone.getTerrainType());
oi.value = generator.getConfig().prisonValues[i];
oi.probability = 30;
oi.maxPerZone = generator.getPrisonsRemaning() / 5; //probably not perfect, but we can't generate more prisons than hereos.
possibleObjects.push_back(oi);
}
//all following objects are unlimited
oi.maxPerZone = std::numeric_limits<ui32>().max();
std::vector<CCreature *> creatures; //native creatures for this zone
for(auto cre : VLC->creh->objects)
{
if(!cre->special && cre->faction == zone.getTownType())
{
creatures.push_back(cre);
}
}
//dwellings
auto dwellingTypes = {Obj::CREATURE_GENERATOR1, Obj::CREATURE_GENERATOR4};
for(auto dwellingType : dwellingTypes)
{
auto subObjects = VLC->objtypeh->knownSubObjects(dwellingType);
if(dwellingType == Obj::CREATURE_GENERATOR1)
{
//don't spawn original "neutral" dwellings that got replaced by Conflux dwellings in AB
static int elementalConfluxROE[] = {7, 13, 16, 47};
for(int i = 0; i < 4; i++)
vstd::erase_if_present(subObjects, elementalConfluxROE[i]);
}
for(auto secondaryID : subObjects)
{
auto dwellingHandler = dynamic_cast<const CDwellingInstanceConstructor *>(VLC->objtypeh->getHandlerFor(dwellingType, secondaryID).get());
auto creatures = dwellingHandler->getProducedCreatures();
if(creatures.empty())
continue;
auto cre = creatures.front();
if(cre->faction == zone.getTownType())
{
float nativeZonesCount = static_cast<float>(map.getZoneCount(cre->faction));
oi.value = static_cast<ui32>(cre->AIValue * cre->growth * (1 + (nativeZonesCount / map.getTotalZoneCount()) + (nativeZonesCount / 2)));
oi.probability = 40;
for(auto tmplate : dwellingHandler->getTemplates())
{
if(tmplate.canBePlacedAt(zone.getTerrainType()))
{
oi.generateObject = [tmplate, secondaryID, dwellingType]() -> CGObjectInstance *
{
auto obj = VLC->objtypeh->getHandlerFor(dwellingType, secondaryID)->create(tmplate);
obj->tempOwner = PlayerColor::NEUTRAL;
return obj;
};
oi.templ = tmplate;
possibleObjects.push_back(oi);
}
}
}
}
}
for(int i = 0; i < generator.getConfig().scrollValues.size(); i++)
{
oi.generateObject = [i, this]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::SPELL_SCROLL, 0);
auto obj = (CGArtifact *) factory->create(ObjectTemplate());
std::vector<SpellID> out;
for(auto spell : VLC->spellh->objects) //spellh size appears to be greater (?)
{
if(map.isAllowedSpell(spell->id) && spell->level == i + 1)
{
out.push_back(spell->id);
}
}
auto a = CArtifactInstance::createScroll(*RandomGeneratorUtil::nextItem(out, generator.rand));
obj->storedArtifact = a;
return obj;
};
oi.setTemplate(Obj::SPELL_SCROLL, 0, zone.getTerrainType());
oi.value = generator.getConfig().scrollValues[i];
oi.probability = 30;
possibleObjects.push_back(oi);
}
//pandora box with gold
for(int i = 1; i < 5; i++)
{
oi.generateObject = [i]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
obj->resources[Res::GOLD] = i * 5000;
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = i * generator.getConfig().pandoraMultiplierGold;
oi.probability = 5;
possibleObjects.push_back(oi);
}
//pandora box with experience
for(int i = 1; i < 5; i++)
{
oi.generateObject = [i]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
obj->gainedExp = i * 5000;
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = i * generator.getConfig().pandoraMultiplierExperience;
oi.probability = 20;
possibleObjects.push_back(oi);
}
//pandora box with creatures
const std::vector<int> & tierValues = generator.getConfig().pandoraCreatureValues;
auto creatureToCount = [tierValues](CCreature * creature) -> int
{
if(!creature->AIValue || tierValues.empty()) //bug #2681
return 0; //this box won't be generated
int actualTier = creature->level > tierValues.size() ?
tierValues.size() - 1 :
creature->level - 1;
float creaturesAmount = ((float)tierValues[actualTier]) / creature->AIValue;
if(creaturesAmount <= 5)
{
creaturesAmount = boost::math::round(creaturesAmount); //allow single monsters
if(creaturesAmount < 1)
return 0;
}
else if(creaturesAmount <= 12)
{
(creaturesAmount /= 2) *= 2;
}
else if(creaturesAmount <= 50)
{
creaturesAmount = boost::math::round(creaturesAmount / 5) * 5;
}
else
{
creaturesAmount = boost::math::round(creaturesAmount / 10) * 10;
}
return static_cast<int>(creaturesAmount);
};
for(auto creature : creatures)
{
int creaturesAmount = creatureToCount(creature);
if(!creaturesAmount)
continue;
oi.generateObject = [creature, creaturesAmount]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
auto stack = new CStackInstance(creature, creaturesAmount);
obj->creatures.putStack(SlotID(0), stack);
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = static_cast<ui32>((2 * (creature->AIValue) * creaturesAmount * (1 + (float)(map.getZoneCount(creature->faction)) / map.getTotalZoneCount())) / 3);
oi.probability = 3;
possibleObjects.push_back(oi);
}
//Pandora with 12 spells of certain level
for(int i = 1; i <= GameConstants::SPELL_LEVELS; i++)
{
oi.generateObject = [i, this]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
std::vector <CSpell *> spells;
for(auto spell : VLC->spellh->objects)
{
if(map.isAllowedSpell(spell->id) && spell->level == i)
spells.push_back(spell);
}
RandomGeneratorUtil::randomShuffle(spells, generator.rand);
for(int j = 0; j < std::min(12, (int)spells.size()); j++)
{
obj->spells.push_back(spells[j]->id);
}
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = (i + 1) * generator.getConfig().pandoraMultiplierSpells; //5000 - 15000
oi.probability = 2;
possibleObjects.push_back(oi);
}
//Pandora with 15 spells of certain school
for(int i = 0; i < 4; i++)
{
oi.generateObject = [i, this]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
std::vector <CSpell *> spells;
for(auto spell : VLC->spellh->objects)
{
if(map.isAllowedSpell(spell->id) && spell->school[(ESpellSchool)i])
spells.push_back(spell);
}
RandomGeneratorUtil::randomShuffle(spells, generator.rand);
for(int j = 0; j < std::min(15, (int)spells.size()); j++)
{
obj->spells.push_back(spells[j]->id);
}
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = generator.getConfig().pandoraSpellSchool;
oi.probability = 2;
possibleObjects.push_back(oi);
}
// Pandora box with 60 random spells
oi.generateObject = [this]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::PANDORAS_BOX, 0);
auto obj = (CGPandoraBox *) factory->create(ObjectTemplate());
std::vector <CSpell *> spells;
for(auto spell : VLC->spellh->objects)
{
if(map.isAllowedSpell(spell->id))
spells.push_back(spell);
}
RandomGeneratorUtil::randomShuffle(spells, generator.rand);
for(int j = 0; j < std::min(60, (int)spells.size()); j++)
{
obj->spells.push_back(spells[j]->id);
}
return obj;
};
oi.setTemplate(Obj::PANDORAS_BOX, 0, zone.getTerrainType());
oi.value = generator.getConfig().pandoraSpell60;
oi.probability = 2;
possibleObjects.push_back(oi);
//seer huts with creatures or generic rewards
if(questArtZone) //we won't be placing seer huts if there is no zone left to place arties
{
static const int genericSeerHuts = 8;
int seerHutsPerType = 0;
const int questArtsRemaining = static_cast<int>(generator.getQuestArtsRemaning().size());
//general issue is that not many artifact types are available for quests
if(questArtsRemaining >= genericSeerHuts + (int)creatures.size())
{
seerHutsPerType = questArtsRemaining / (genericSeerHuts + (int)creatures.size());
}
else if(questArtsRemaining >= genericSeerHuts)
{
seerHutsPerType = 1;
}
oi.maxPerZone = seerHutsPerType;
RandomGeneratorUtil::randomShuffle(creatures, generator.rand);
auto generateArtInfo = [this](ArtifactID id) -> ObjectInfo
{
ObjectInfo artInfo;
artInfo.probability = std::numeric_limits<ui16>::max(); //99,9% to spawn that art in first treasure pile
artInfo.maxPerZone = 1;
artInfo.value = 2000; //treasure art
artInfo.setTemplate(Obj::ARTIFACT, id, this->zone.getTerrainType());
artInfo.generateObject = [id]() -> CGObjectInstance *
{
auto handler = VLC->objtypeh->getHandlerFor(Obj::ARTIFACT, id);
return handler->create(handler->getTemplates().front());
};
return artInfo;
};
for(int i = 0; i < std::min((int)creatures.size(), questArtsRemaining - genericSeerHuts); i++)
{
auto creature = creatures[i];
int creaturesAmount = creatureToCount(creature);
if(!creaturesAmount)
continue;
int randomAppearance = chooseRandomAppearance(generator.rand, Obj::SEER_HUT, zone.getTerrainType());
oi.generateObject = [creature, creaturesAmount, randomAppearance, this, generateArtInfo]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::SEER_HUT, randomAppearance);
auto obj = (CGSeerHut *) factory->create(ObjectTemplate());
obj->rewardType = CGSeerHut::CREATURE;
obj->rID = creature->idNumber;
obj->rVal = creaturesAmount;
obj->quest->missionType = CQuest::MISSION_ART;
ArtifactID artid = *RandomGeneratorUtil::nextItem(generator.getQuestArtsRemaning(), generator.rand);
obj->quest->m5arts.push_back(artid);
obj->quest->lastDay = -1;
obj->quest->isCustomFirst = obj->quest->isCustomNext = obj->quest->isCustomComplete = false;
generator.banQuestArt(artid);
this->questArtZone->getModificator<TreasurePlacer>()->possibleObjects.push_back(generateArtInfo(artid));
return obj;
};
oi.setTemplate(Obj::SEER_HUT, randomAppearance, zone.getTerrainType());
oi.value = static_cast<ui32>(((2 * (creature->AIValue) * creaturesAmount * (1 + (float)(map.getZoneCount(creature->faction)) / map.getTotalZoneCount())) - 4000) / 3);
oi.probability = 3;
possibleObjects.push_back(oi);
}
static int seerLevels = std::min(generator.getConfig().questValues.size(), generator.getConfig().questRewardValues.size());
for(int i = 0; i < seerLevels; i++) //seems that code for exp and gold reward is similiar
{
int randomAppearance = chooseRandomAppearance(generator.rand, Obj::SEER_HUT, zone.getTerrainType());
oi.setTemplate(Obj::SEER_HUT, randomAppearance, zone.getTerrainType());
oi.value = generator.getConfig().questValues[i];
oi.probability = 10;
oi.generateObject = [i, randomAppearance, this, generateArtInfo]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::SEER_HUT, randomAppearance);
auto obj = (CGSeerHut *) factory->create(ObjectTemplate());
obj->rewardType = CGSeerHut::EXPERIENCE;
obj->rID = 0; //unitialized?
obj->rVal = generator.getConfig().questRewardValues[i];
obj->quest->missionType = CQuest::MISSION_ART;
ArtifactID artid = *RandomGeneratorUtil::nextItem(generator.getQuestArtsRemaning(), generator.rand);
obj->quest->m5arts.push_back(artid);
obj->quest->lastDay = -1;
obj->quest->isCustomFirst = obj->quest->isCustomNext = obj->quest->isCustomComplete = false;
generator.banQuestArt(artid);
this->questArtZone->getModificator<TreasurePlacer>()->possibleObjects.push_back(generateArtInfo(artid));
return obj;
};
possibleObjects.push_back(oi);
oi.generateObject = [i, randomAppearance, this, generateArtInfo]() -> CGObjectInstance *
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::SEER_HUT, randomAppearance);
auto obj = (CGSeerHut *) factory->create(ObjectTemplate());
obj->rewardType = CGSeerHut::RESOURCES;
obj->rID = Res::GOLD;
obj->rVal = generator.getConfig().questRewardValues[i];
obj->quest->missionType = CQuest::MISSION_ART;
ArtifactID artid = *RandomGeneratorUtil::nextItem(generator.getQuestArtsRemaning(), generator.rand);
obj->quest->m5arts.push_back(artid);
obj->quest->lastDay = -1;
obj->quest->isCustomFirst = obj->quest->isCustomNext = obj->quest->isCustomComplete = false;
generator.banQuestArt(artid);
this->questArtZone->getModificator<TreasurePlacer>()->possibleObjects.push_back(generateArtInfo(artid));
return obj;
};
possibleObjects.push_back(oi);
}
}
}
bool TreasurePlacer::isGuardNeededForTreasure(int value)
{
return zone.getType() != ETemplateZoneType::WATER && value > minGuardedValue;
}
std::vector<ObjectInfo*> TreasurePlacer::prepareTreasurePile(const CTreasureInfo& treasureInfo)
{
std::vector<ObjectInfo*> objectInfos;
int maxValue = treasureInfo.max;
int minValue = treasureInfo.min;
const ui32 desiredValue = generator.rand.nextInt(minValue, maxValue);
int currentValue = 0;
bool hasLargeObject = false;
while(currentValue <= (int)desiredValue - 100) //no objects with value below 100 are available
{
auto * oi = getRandomObject(desiredValue, currentValue, maxValue, !hasLargeObject);
if(!oi) //fail
break;
if(oi->templ.isVisitableFromTop())
{
objectInfos.push_back(oi);
}
else
{
objectInfos.insert(objectInfos.begin(), oi); //large object shall at first place
hasLargeObject = true;
}
//remove from possible objects
assert(oi->maxPerZone);
oi->maxPerZone--;
currentValue += oi->value;
}
return objectInfos;
}
rmg::Object TreasurePlacer::constructTreasurePile(const std::vector<ObjectInfo*> & treasureInfos, bool densePlacement)
{
rmg::Object rmgObject;
for(auto & oi : treasureInfos)
{
auto blockedArea = rmgObject.getArea();
auto accessibleArea = rmgObject.getAccessibleArea();
if(rmgObject.instances().empty())
accessibleArea.add(int3());
auto * object = oi->generateObject();
object->appearance = oi->templ;
auto & instance = rmgObject.addInstance(*object);
do
{
if(accessibleArea.empty())
{
//fail - fallback
rmgObject.clear();
return rmgObject;
}
std::vector<int3> bestPositions;
if(densePlacement)
{
int bestPositionsWeight = std::numeric_limits<int>::max();
for(auto & t : accessibleArea.getTilesVector())
{
instance.setPosition(t);
int w = rmgObject.getAccessibleArea().getTilesVector().size();
if(w < bestPositionsWeight)
{
bestPositions.clear();
bestPositions.push_back(t);
bestPositionsWeight = w;
}
else if(w == bestPositionsWeight)
{
bestPositions.push_back(t);
}
}
}
else
{
bestPositions = accessibleArea.getTilesVector();
}
int3 nextPos = *RandomGeneratorUtil::nextItem(bestPositions, generator.rand);
instance.setPosition(nextPos - rmgObject.getPosition());
auto instanceAccessibleArea = instance.getAccessibleArea();
if(instance.getBlockedArea().getTilesVector().size() == 1)
{
if(instance.object().appearance.isVisitableFromTop() && instance.object().ID != Obj::CORPSE)
instanceAccessibleArea.add(instance.getVisitablePosition());
}
//first object is good
if(rmgObject.instances().size() == 1)
break;
//condition for good position
if(!blockedArea.overlap(instance.getBlockedArea()) && accessibleArea.overlap(instanceAccessibleArea))
break;
//fail - new position
accessibleArea.erase(nextPos);
} while(true);
}
return rmgObject;
}
ObjectInfo * TreasurePlacer::getRandomObject(ui32 desiredValue, ui32 currentValue, ui32 maxValue, bool allowLargeObjects)
{
std::vector<std::pair<ui32, ObjectInfo*>> thresholds; //handle complex object via pointer
ui32 total = 0;
//calculate actual treasure value range based on remaining value
ui32 maxVal = maxValue - currentValue;
ui32 minValue = static_cast<ui32>(0.25f * (desiredValue - currentValue));
for(ObjectInfo & oi : possibleObjects) //copy constructor turned out to be costly
{
if(oi.value > maxVal)
break; //this assumes values are sorted in ascending order
if(!oi.templ.isVisitableFromTop() && !allowLargeObjects)
continue;
if(oi.value >= minValue && oi.maxPerZone > 0)
{
total += oi.probability;
thresholds.push_back(std::make_pair(total, &oi));
}
}
if(thresholds.empty())
{
return nullptr;
}
else
{
int r = generator.rand.nextInt(1, total);
//binary search = fastest
auto it = std::lower_bound(thresholds.begin(), thresholds.end(), r,
[](const std::pair<ui32, ObjectInfo*> &rhs, const int lhs)->bool
{
return (int)rhs.first < lhs;
});
return it->second;
}
}
void TreasurePlacer::createTreasures(ObjectManager & manager)
{
const int maxAttempts = 2;
int mapMonsterStrength = map.getMapGenOptions().getMonsterStrength();
int monsterStrength = zone.zoneMonsterStrength + mapMonsterStrength - 1; //array index from 0 to 4
static int minGuardedValues[] = { 6500, 4167, 3000, 1833, 1333 };
minGuardedValue = minGuardedValues[monsterStrength];
auto valueComparator = [](const CTreasureInfo & lhs, const CTreasureInfo & rhs) -> bool
{
return lhs.max > rhs.max;
};
auto restoreZoneLimits = [](const std::vector<ObjectInfo*> & treasurePile)
{
for(auto * oi : treasurePile)
{
oi->maxPerZone++;
}
};
//place biggest treasures first at large distance, place smaller ones inbetween
auto treasureInfo = zone.getTreasureInfo();
boost::sort(treasureInfo, valueComparator);
//sort treasures by ascending value so we can stop checking treasures with too high value
boost::sort(possibleObjects, [](const ObjectInfo& oi1, const ObjectInfo& oi2) -> bool
{
return oi1.value < oi2.value;
});
int totalDensity = 0;
for (auto t : treasureInfo)
{
//discard objects with too high value to be ever placed
vstd::erase_if(possibleObjects, [t](const ObjectInfo& oi) -> bool
{
return oi.value > t.max;
});
totalDensity += t.density;
//treasure density is inversely proportional to zone size but must be scaled back to map size
//also, normalize it to zone count - higher count means relatively smaller zones
//this is squared distance for optimization purposes
const float minDistance = std::max<float>((125.f / totalDensity), 2.0f);
//distance lower than 2 causes objects to overlap and crash
for(int attempt = 0; attempt <= maxAttempts;)
{
auto treasurePileInfos = prepareTreasurePile(t);
if(treasurePileInfos.empty())
2022-08-27 01:21:27 +02:00
{
++attempt;
continue;
}
int value = std::accumulate(treasurePileInfos.begin(), treasurePileInfos.end(), 0, [](int v, const ObjectInfo * oi){return v + oi->value;});
auto rmgObject = constructTreasurePile(treasurePileInfos, attempt == maxAttempts);
if(rmgObject.instances().empty()) //handle incorrect placement
{
restoreZoneLimits(treasurePileInfos);
continue;
}
//guard treasure pile
bool guarded = isGuardNeededForTreasure(value);
if(guarded)
guarded = manager.addGuard(rmgObject, value);
int3 pos;
auto possibleArea = zone.areaPossible();
auto path = rmg::Path::invalid();
if(guarded)
{
path = manager.placeAndConnectObject(possibleArea, rmgObject, [this, &rmgObject, &minDistance, &manager](const int3 & tile)
{
auto ti = map.getTile(tile);
if(ti.getNearestObjectDistance() < minDistance)
return -1.f;
for(auto & t : rmgObject.getArea().getTilesVector())
{
if(map.getTile(t).getNearestObjectDistance() < minDistance)
return -1.f;
}
auto guardedArea = rmgObject.instances().back()->getAccessibleArea();
auto areaToBlock = rmgObject.getAccessibleArea(true);
areaToBlock.subtract(guardedArea);
if(areaToBlock.overlap(zone.freePaths()) || areaToBlock.overlap(manager.getVisitableArea()))
return -1.f;
return ti.getNearestObjectDistance();
}, guarded, false, ObjectManager::OptimizeType::DISTANCE);
}
else
{
path = manager.placeAndConnectObject(possibleArea, rmgObject, minDistance, guarded, false, ObjectManager::OptimizeType::DISTANCE);
}
if(path.valid())
{
//debug purposes
treasureArea.unite(rmgObject.getArea());
if(guarded)
{
guards.unite(rmgObject.instances().back()->getBlockedArea());
auto guardedArea = rmgObject.instances().back()->getAccessibleArea();
auto areaToBlock = rmgObject.getAccessibleArea(true);
areaToBlock.subtract(guardedArea);
treasureBlockArea.unite(areaToBlock);
}
zone.connectPath(path);
manager.placeObject(rmgObject, guarded, true);
attempt = 0;
}
else
{
restoreZoneLimits(treasurePileInfos);
rmgObject.clear();
++attempt;
}
}
}
}
char TreasurePlacer::dump(const int3 & t)
{
if(guards.contains(t))
return '!';
if(treasureArea.contains(t))
return '$';
if(treasureBlockArea.contains(t))
return '*';
return Modificator::dump(t);
}
ObjectInfo::ObjectInfo()
: templ(), value(0), probability(0), maxPerZone(1)
{
}
void ObjectInfo::setTemplate(si32 type, si32 subtype, Terrain terrainType)
{
auto templHandler = VLC->objtypeh->getHandlerFor(type, subtype);
if(!templHandler)
return;
auto templates = templHandler->getTemplates(terrainType);
if(templates.empty())
return;
templ = templates.front();
}