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vcmi/lib/rmg/CMapGenerator.cpp
AlexVinS 15138c23de Finished conversion to new logging API
* removed logger streams
* (float3|int3)::operator() -> (float3|int3)::toString(), it was too ugly and confusing.
2017-08-11 23:06:27 +03:00

854 lines
23 KiB
C++

/*
* CMapGenerator.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 "CMapGenerator.h"
#include "../mapping/CMap.h"
#include "../VCMI_Lib.h"
#include "../CGeneralTextHandler.h"
#include "../mapping/CMapEditManager.h"
#include "../CTownHandler.h"
#include "../StringConstants.h"
#include "../filesystem/Filesystem.h"
#include "CZonePlacer.h"
#include "../mapObjects/CObjectClassesHandler.h"
static const int3 dirs4[] = {int3(0,1,0),int3(0,-1,0),int3(-1,0,0),int3(+1,0,0)};
static const int3 dirsDiagonal[] = { int3(1,1,0),int3(1,-1,0),int3(-1,1,0),int3(-1,-1,0) };
void CMapGenerator::foreach_neighbour(const int3 &pos, std::function<void(int3& pos)> foo)
{
for(const int3 &dir : int3::getDirs())
{
int3 n = pos + dir;
/*important notice: perform any translation before this function is called,
so the actual map position is checked*/
if(map->isInTheMap(n))
foo(n);
}
}
void CMapGenerator::foreachDirectNeighbour(const int3& pos, std::function<void(int3& pos)> foo)
{
for(const int3 &dir : dirs4)
{
int3 n = pos + dir;
if(map->isInTheMap(n))
foo(n);
}
}
void CMapGenerator::foreachDiagonaltNeighbour(const int3& pos, std::function<void(int3& pos)> foo)
{
for (const int3 &dir : dirsDiagonal)
{
int3 n = pos + dir;
if (map->isInTheMap(n))
foo(n);
}
}
CMapGenerator::CMapGenerator() :
mapGenOptions(nullptr), randomSeed(0), editManager(nullptr),
zonesTotal(0), tiles(nullptr), prisonsRemaining(0),
monolithIndex(0)
{
}
void CMapGenerator::initTiles()
{
map->initTerrain();
int width = map->width;
int height = map->height;
int level = map->twoLevel ? 2 : 1;
tiles = new CTileInfo**[width];
for (int i = 0; i < width; ++i)
{
tiles[i] = new CTileInfo*[height];
for (int j = 0; j < height; ++j)
{
tiles[i][j] = new CTileInfo[level];
}
}
zoneColouring.resize(boost::extents[map->twoLevel ? 2 : 1][map->width][map->height]);
}
CMapGenerator::~CMapGenerator()
{
if (tiles)
{
int width = mapGenOptions->getWidth();
int height = mapGenOptions->getHeight();
for (int i=0; i < width; i++)
{
for(int j=0; j < height; j++)
{
delete [] tiles[i][j];
}
delete [] tiles[i];
}
delete [] tiles;
}
}
void CMapGenerator::initPrisonsRemaining()
{
prisonsRemaining = 0;
for (auto isAllowed : map->allowedHeroes)
{
if (isAllowed)
prisonsRemaining++;
}
prisonsRemaining = std::max<int> (0, prisonsRemaining - 16 * mapGenOptions->getPlayerCount()); //so at least 16 heroes will be available for every player
}
void CMapGenerator::initQuestArtsRemaining()
{
for (auto art : VLC->arth->artifacts)
{
if (art->aClass == CArtifact::ART_TREASURE && VLC->arth->legalArtifact(art->id) && art->constituentOf.empty()) //don't use parts of combined artifacts
questArtifacts.push_back(art->id);
}
}
std::unique_ptr<CMap> CMapGenerator::generate(CMapGenOptions * mapGenOptions, int randomSeed)
{
this->mapGenOptions = mapGenOptions;
this->randomSeed = randomSeed;
assert(mapGenOptions);
rand.setSeed(this->randomSeed);
mapGenOptions->finalize(rand);
map = make_unique<CMap>();
editManager = map->getEditManager();
try
{
editManager->getUndoManager().setUndoRedoLimit(0);
//FIXME: somehow mapGenOption is nullptr at this point :?
addHeaderInfo();
initTiles();
initPrisonsRemaining();
initQuestArtsRemaining();
genZones();
map->calculateGuardingGreaturePositions(); //clear map so that all tiles are unguarded
fillZones();
//updated guarded tiles will be calculated in CGameState::initMapObjects()
}
catch (rmgException &e)
{
logGlobal->error("Random map generation received exception: %s", e.what());
}
return std::move(map);
}
std::string CMapGenerator::getMapDescription() const
{
assert(mapGenOptions);
assert(map);
const std::string waterContentStr[3] = { "none", "normal", "islands" };
const std::string monsterStrengthStr[3] = { "weak", "normal", "strong" };
int monsterStrengthIndex = mapGenOptions->getMonsterStrength() - EMonsterStrength::GLOBAL_WEAK; //does not start from 0
std::stringstream ss;
ss << boost::str(boost::format(std::string("Map created by the Random Map Generator.\nTemplate was %s, Random seed was %d, size %dx%d") +
", levels %s, players %d, computers %d, water %s, monster %s, VCMI map") % mapGenOptions->getMapTemplate()->getName() %
randomSeed % map->width % map->height % (map->twoLevel ? "2" : "1") % static_cast<int>(mapGenOptions->getPlayerCount()) %
static_cast<int>(mapGenOptions->getCompOnlyPlayerCount()) % waterContentStr[mapGenOptions->getWaterContent()] %
monsterStrengthStr[monsterStrengthIndex]);
for(const auto & pair : mapGenOptions->getPlayersSettings())
{
const auto & pSettings = pair.second;
if(pSettings.getPlayerType() == EPlayerType::HUMAN)
{
ss << ", " << GameConstants::PLAYER_COLOR_NAMES[pSettings.getColor().getNum()] << " is human";
}
if(pSettings.getStartingTown() != CMapGenOptions::CPlayerSettings::RANDOM_TOWN)
{
ss << ", " << GameConstants::PLAYER_COLOR_NAMES[pSettings.getColor().getNum()]
<< " town choice is " << VLC->townh->factions[pSettings.getStartingTown()]->name;
}
}
return ss.str();
}
void CMapGenerator::addPlayerInfo()
{
// Calculate which team numbers exist
enum ETeams {CPHUMAN = 0, CPUONLY = 1, AFTER_LAST = 2};
std::array<std::list<int>, 2> teamNumbers;
int teamOffset = 0;
int playerCount = 0;
int teamCount = 0;
for (int i = CPHUMAN; i < AFTER_LAST; ++i)
{
if (i == CPHUMAN)
{
playerCount = mapGenOptions->getPlayerCount();
teamCount = mapGenOptions->getTeamCount();
}
else
{
playerCount = mapGenOptions->getCompOnlyPlayerCount();
teamCount = mapGenOptions->getCompOnlyTeamCount();
}
if(playerCount == 0)
{
continue;
}
int playersPerTeam = playerCount / (teamCount == 0 ? playerCount : teamCount);
int teamCountNorm = teamCount;
if(teamCountNorm == 0)
{
teamCountNorm = playerCount;
}
for(int j = 0; j < teamCountNorm; ++j)
{
for(int k = 0; k < playersPerTeam; ++k)
{
teamNumbers[i].push_back(j + teamOffset);
}
}
for(int j = 0; j < playerCount - teamCountNorm * playersPerTeam; ++j)
{
teamNumbers[i].push_back(j + teamOffset);
}
teamOffset += teamCountNorm;
}
// Team numbers are assigned randomly to every player
//TODO: allow customize teams in rmg template
for(const auto & pair : mapGenOptions->getPlayersSettings())
{
const auto & pSettings = pair.second;
PlayerInfo player;
player.canComputerPlay = true;
int j = (pSettings.getPlayerType() == EPlayerType::COMP_ONLY) ? CPUONLY : CPHUMAN;
if (j == CPHUMAN)
{
player.canHumanPlay = true;
}
if (teamNumbers[j].empty())
{
logGlobal->error("Not enough places in team for %s player", ((j == CPUONLY) ? "CPU" : "CPU or human"));
assert (teamNumbers[j].size());
}
auto itTeam = RandomGeneratorUtil::nextItem(teamNumbers[j], rand);
player.team = TeamID(*itTeam);
teamNumbers[j].erase(itTeam);
map->players[pSettings.getColor().getNum()] = player;
}
map->howManyTeams = (mapGenOptions->getTeamCount() == 0 ? mapGenOptions->getPlayerCount() : mapGenOptions->getTeamCount())
+ (mapGenOptions->getCompOnlyTeamCount() == 0 ? mapGenOptions->getCompOnlyPlayerCount() : mapGenOptions->getCompOnlyTeamCount());
}
void CMapGenerator::genZones()
{
editManager->clearTerrain(&rand);
editManager->getTerrainSelection().selectRange(MapRect(int3(0, 0, 0), mapGenOptions->getWidth(), mapGenOptions->getHeight()));
editManager->drawTerrain(ETerrainType::GRASS, &rand);
auto tmpl = mapGenOptions->getMapTemplate();
zones = tmpl->getZones(); //copy from template (refactor?)
CZonePlacer placer(this);
placer.placeZones(mapGenOptions, &rand);
placer.assignZones(mapGenOptions);
logGlobal->info("Zones generated successfully");
}
void CMapGenerator::fillZones()
{
//init native town count with 0
for (auto faction : VLC->townh->getAllowedFactions())
zonesPerFaction[faction] = 0;
findZonesForQuestArts();
logGlobal->info("Started filling zones");
//we need info about all town types to evaluate dwellings and pandoras with creatures properly
//place main town in the middle
for (auto it : zones)
it.second->initTownType(this);
//make sure there are some free tiles in the zone
for (auto it : zones)
it.second->initFreeTiles(this);
createDirectConnections(); //direct
//make sure all connections are passable before creating borders
for (auto it : zones)
it.second->createBorder(this); //once direct connections are done
createConnections2(); //subterranean gates and monoliths
std::vector<CRmgTemplateZone*> treasureZones;
for (auto it : zones)
{
it.second->fill(this);
if (it.second->getType() == ETemplateZoneType::TREASURE)
treasureZones.push_back(it.second);
}
//set apriopriate free/occupied tiles, including blocked underground rock
createObstaclesCommon1();
//set back original terrain for underground zones
for (auto it : zones)
it.second->createObstacles1(this);
createObstaclesCommon2();
//place actual obstacles matching zone terrain
for (auto it : zones)
{
it.second->createObstacles2(this);
}
#define PRINT_MAP_BEFORE_ROADS false
if (PRINT_MAP_BEFORE_ROADS) //enable to debug
{
std::ofstream out("road debug");
int levels = map->twoLevel ? 2 : 1;
int width = map->width;
int height = map->height;
for (int k = 0; k < levels; k++)
{
for (int j = 0; j<height; j++)
{
for (int i = 0; i<width; i++)
{
char t = '?';
switch (getTile(int3(i, j, k)).getTileType())
{
case ETileType::FREE:
t = ' '; break;
case ETileType::BLOCKED:
t = '#'; break;
case ETileType::POSSIBLE:
t = '-'; break;
case ETileType::USED:
t = 'O'; break;
}
out << t;
}
out << std::endl;
}
out << std::endl;
}
out << std::endl;
}
for (auto it : zones)
{
it.second->connectRoads(this); //draw roads after everything else has been placed
}
//find place for Grail
if (treasureZones.empty())
{
for (auto it : zones)
treasureZones.push_back(it.second);
}
auto grailZone = *RandomGeneratorUtil::nextItem(treasureZones, rand);
map->grailPos = *RandomGeneratorUtil::nextItem(*grailZone->getFreePaths(), rand);
logGlobal->info("Zones filled successfully");
}
void CMapGenerator::createObstaclesCommon1()
{
if (map->twoLevel) //underground
{
//negative approach - create rock tiles first, then make sure all accessible tiles have no rock
std::vector<int3> rockTiles;
for (int x = 0; x < map->width; x++)
{
for (int y = 0; y < map->height; y++)
{
int3 tile(x, y, 1);
if (shouldBeBlocked(tile))
{
rockTiles.push_back(tile);
}
}
}
editManager->getTerrainSelection().setSelection(rockTiles);
editManager->drawTerrain(ETerrainType::ROCK, &rand);
}
}
void CMapGenerator::createObstaclesCommon2()
{
if (map->twoLevel)
{
//finally mark rock tiles as occupied, spawn no obstacles there
for (int x = 0; x < map->width; x++)
{
for (int y = 0; y < map->height; y++)
{
int3 tile(x, y, 1);
if (map->getTile(tile).terType == ETerrainType::ROCK)
{
setOccupied(tile, ETileType::USED);
}
}
}
}
//tighten obstacles to improve visuals
for (int i = 0; i < 3; ++i)
{
int blockedTiles = 0;
int freeTiles = 0;
for (int z = 0; z < (map->twoLevel ? 2 : 1); z++)
{
for (int x = 0; x < map->width; x++)
{
for (int y = 0; y < map->height; y++)
{
int3 tile(x, y, z);
if (!isPossible(tile)) //only possible tiles can change
continue;
int blockedNeighbours = 0;
int freeNeighbours = 0;
foreach_neighbour(tile, [this, &blockedNeighbours, &freeNeighbours](int3 &pos)
{
if (this->isBlocked(pos))
blockedNeighbours++;
if (this->isFree(pos))
freeNeighbours++;
});
if (blockedNeighbours > 4)
{
setOccupied(tile, ETileType::BLOCKED);
blockedTiles++;
}
else if (freeNeighbours > 4)
{
setOccupied(tile, ETileType::FREE);
freeTiles++;
}
}
}
}
logGlobal->trace("Set %d tiles to BLOCKED and %d tiles to FREE", blockedTiles, freeTiles);
}
}
void CMapGenerator::findZonesForQuestArts()
{
//we want to place arties in zones that were not yet filled (higher index)
for (auto connection : mapGenOptions->getMapTemplate()->getConnections())
{
auto zoneA = connection.getZoneA();
auto zoneB = connection.getZoneB();
if (zoneA->getId() > zoneB->getId())
{
zoneB->setQuestArtZone(zoneA);
}
else if (zoneA->getId() < zoneB->getId())
{
zoneA->setQuestArtZone(zoneB);
}
}
}
void CMapGenerator::createDirectConnections()
{
for (auto connection : mapGenOptions->getMapTemplate()->getConnections())
{
auto zoneA = connection.getZoneA();
auto zoneB = connection.getZoneB();
//rearrange tiles in random order
auto tilesCopy = zoneA->getTileInfo();
std::vector<int3> tiles(tilesCopy.begin(), tilesCopy.end());
int3 guardPos(-1,-1,-1);
auto otherZoneTiles = zoneB->getTileInfo();
int3 posA = zoneA->getPos();
int3 posB = zoneB->getPos();
// auto zoneAid = zoneA->getId();
auto zoneBid = zoneB->getId();
if (posA.z == posB.z)
{
std::vector<int3> middleTiles;
for (auto tile : tilesCopy)
{
if (isBlocked(tile)) //tiles may be occupied by subterranean gates already placed
continue;
foreachDirectNeighbour (tile, [&guardPos, tile, &otherZoneTiles, &middleTiles, this, zoneBid](int3 &pos) //must be direct since paths also also generated between direct neighbours
{
if (getZoneID(pos) == zoneBid)
middleTiles.push_back(tile);
});
}
//find tiles with minimum manhattan distance from center of the mass of zone border
size_t tilesCount = middleTiles.size() ? middleTiles.size() : 1;
int3 middleTile = std::accumulate(middleTiles.begin(), middleTiles.end(), int3(0, 0, 0));
middleTile.x /= tilesCount;
middleTile.y /= tilesCount;
middleTile.z /= tilesCount; //TODO: implement division operator for int3?
boost::sort(middleTiles, [middleTile](const int3 &lhs, const int3 &rhs) -> bool
{
//choose tiles with both corrdinates in the middle
return lhs.mandist2d(middleTile) < rhs.mandist2d(middleTile);
});
//remove 1/4 tiles from each side - path should cross zone borders at smooth angle
size_t removedCount = tilesCount / 4; //rounded down
middleTiles.erase(middleTiles.end() - removedCount, middleTiles.end());
middleTiles.erase(middleTiles.begin(), middleTiles.begin() + removedCount);
RandomGeneratorUtil::randomShuffle(middleTiles, rand);
for (auto tile : middleTiles)
{
guardPos = tile;
if (guardPos.valid())
{
//zones can make paths only in their own area
zoneA->connectWithCenter(this, guardPos, true);
zoneB->connectWithCenter(this, guardPos, true);
bool monsterPresent = zoneA->addMonster(this, guardPos, connection.getGuardStrength(), false, true);
zoneB->updateDistances(this, guardPos); //place next objects away from guard in both zones
//set free tile only after connection is made to the center of the zone
if (!monsterPresent)
setOccupied(guardPos, ETileType::FREE); //just in case monster is too weak to spawn
zoneA->addRoadNode(guardPos);
zoneB->addRoadNode(guardPos);
break; //we're done with this connection
}
}
}
if (!guardPos.valid())
connectionsLeft.push_back(connection);
}
}
void CMapGenerator::createConnections2()
{
for (auto & connection : connectionsLeft)
{
auto zoneA = connection.getZoneA();
auto zoneB = connection.getZoneB();
int3 guardPos(-1, -1, -1);
int3 posA = zoneA->getPos();
int3 posB = zoneB->getPos();
auto strength = connection.getGuardStrength();
if (posA.z != posB.z) //try to place subterranean gates
{
auto sgt = VLC->objtypeh->getHandlerFor(Obj::SUBTERRANEAN_GATE, 0)->getTemplates().front();
auto tilesBlockedByObject = sgt.getBlockedOffsets();
auto factory = VLC->objtypeh->getHandlerFor(Obj::SUBTERRANEAN_GATE, 0);
auto gate1 = factory->create(ObjectTemplate());
auto gate2 = factory->create(ObjectTemplate());
while (!guardPos.valid())
{
bool continueOuterLoop = false;
//find common tiles for both zones
auto tileSetA = zoneA->getPossibleTiles(),
tileSetB = zoneB->getPossibleTiles();
std::vector<int3> tilesA(tileSetA.begin(), tileSetA.end()),
tilesB(tileSetB.begin(), tileSetB.end());
std::vector<int3> commonTiles;
//required for set_intersection
boost::sort(tilesA);
boost::sort(tilesB);
boost::set_intersection(tilesA, tilesB, std::back_inserter(commonTiles), [](const int3 &lhs, const int3 &rhs) -> bool
{
//ignore z coordinate
if (lhs.x < rhs.x)
return true;
else
return lhs.y < rhs.y;
});
vstd::erase_if(commonTiles, [](const int3 &tile) -> bool
{
return (!tile.x) || (!tile.y); //gates shouldn't go outside map (x = 0) and look bad at the very top (y = 0)
});
if (commonTiles.empty())
break; //nothing more to do
boost::sort(commonTiles, [posA, posB](const int3 &lhs, const int3 &rhs) -> bool
{
//choose tiles which are equidistant to zone centers
return (std::abs<double>(posA.dist2dSQ(lhs) - posB.dist2dSQ(lhs)) < std::abs<double>((posA.dist2dSQ(rhs) - posB.dist2dSQ(rhs))));
});
for (auto tile : commonTiles)
{
tile.z = posA.z;
int3 otherTile = tile;
otherTile.z = posB.z;
float distanceFromA = posA.dist2d(tile);
float distanceFromB = posB.dist2d(otherTile);
if (distanceFromA > 5 && distanceFromB > 5)
{
if (zoneA->areAllTilesAvailable(this, gate1, tile, tilesBlockedByObject) &&
zoneB->areAllTilesAvailable(this, gate2, otherTile, tilesBlockedByObject))
{
if (zoneA->getAccessibleOffset(this, sgt, tile).valid() && zoneB->getAccessibleOffset(this, sgt, otherTile).valid())
{
EObjectPlacingResult::EObjectPlacingResult result1 = zoneA->tryToPlaceObjectAndConnectToPath(this, gate1, tile);
EObjectPlacingResult::EObjectPlacingResult result2 = zoneB->tryToPlaceObjectAndConnectToPath(this, gate2, otherTile);
if ((result1 == EObjectPlacingResult::SUCCESS) && (result2 == EObjectPlacingResult::SUCCESS))
{
zoneA->placeObject(this, gate1, tile);
zoneA->guardObject(this, gate1, strength, true, true);
zoneB->placeObject(this, gate2, otherTile);
zoneB->guardObject(this, gate2, strength, true, true);
guardPos = tile; //set to break the loop
break;
}
else if ((result1 == EObjectPlacingResult::SEALED_OFF) || (result2 == EObjectPlacingResult::SEALED_OFF))
{
//sealed-off tiles were blocked, exit inner loop and get another tile set
continueOuterLoop = true;
break;
}
else
continue; //try with another position
}
}
}
}
if (!continueOuterLoop) //we didn't find ANY tile - break outer loop
break;
}
if (!guardPos.valid()) //cleanup? is this safe / enough?
{
delete gate1;
delete gate2;
}
}
if (!guardPos.valid())
{
auto factory = VLC->objtypeh->getHandlerFor(Obj::MONOLITH_TWO_WAY, getNextMonlithIndex());
auto teleport1 = factory->create(ObjectTemplate());
auto teleport2 = factory->create(ObjectTemplate());
zoneA->addRequiredObject(teleport1, strength);
zoneB->addRequiredObject(teleport2, strength);
}
}
}
void CMapGenerator::addHeaderInfo()
{
map->version = EMapFormat::VCMI;
map->width = mapGenOptions->getWidth();
map->height = mapGenOptions->getHeight();
map->twoLevel = mapGenOptions->getHasTwoLevels();
map->name = VLC->generaltexth->allTexts[740];
map->description = getMapDescription();
map->difficulty = 1;
addPlayerInfo();
}
void CMapGenerator::checkIsOnMap(const int3& tile) const
{
if (!map->isInTheMap(tile))
throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile.toString()));
}
std::map<TRmgTemplateZoneId, CRmgTemplateZone*> CMapGenerator::getZones() const
{
return zones;
}
bool CMapGenerator::isBlocked(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].isBlocked();
}
bool CMapGenerator::shouldBeBlocked(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].shouldBeBlocked();
}
bool CMapGenerator::isPossible(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].isPossible();
}
bool CMapGenerator::isFree(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].isFree();
}
bool CMapGenerator::isUsed(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].isUsed();
}
bool CMapGenerator::isRoad(const int3& tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].isRoad();
}
void CMapGenerator::setOccupied(const int3 &tile, ETileType::ETileType state)
{
checkIsOnMap(tile);
tiles[tile.x][tile.y][tile.z].setOccupied(state);
}
void CMapGenerator::setRoad(const int3& tile, ERoadType::ERoadType roadType)
{
checkIsOnMap(tile);
tiles[tile.x][tile.y][tile.z].setRoadType(roadType);
}
CTileInfo CMapGenerator::getTile(const int3& tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z];
}
TRmgTemplateZoneId CMapGenerator::getZoneID(const int3& tile) const
{
checkIsOnMap(tile);
return zoneColouring[tile.z][tile.x][tile.y];
}
void CMapGenerator::setZoneID(const int3& tile, TRmgTemplateZoneId zid)
{
checkIsOnMap(tile);
zoneColouring[tile.z][tile.x][tile.y] = zid;
}
bool CMapGenerator::isAllowedSpell(SpellID sid) const
{
assert(sid >= 0);
if (sid < map->allowedSpell.size())
{
return map->allowedSpell[sid];
}
else
return false;
}
void CMapGenerator::setNearestObjectDistance(int3 &tile, float value)
{
checkIsOnMap(tile);
tiles[tile.x][tile.y][tile.z].setNearestObjectDistance(value);
}
float CMapGenerator::getNearestObjectDistance(const int3 &tile) const
{
checkIsOnMap(tile);
return tiles[tile.x][tile.y][tile.z].getNearestObjectDistance();
}
int CMapGenerator::getNextMonlithIndex()
{
if (monolithIndex >= VLC->objtypeh->knownSubObjects(Obj::MONOLITH_TWO_WAY).size())
throw rmgException(boost::to_string(boost::format("There is no Monolith Two Way with index %d available!") % monolithIndex));
else
return monolithIndex++;
}
int CMapGenerator::getPrisonsRemaning() const
{
return prisonsRemaining;
}
void CMapGenerator::decreasePrisonsRemaining()
{
prisonsRemaining = std::max (0, prisonsRemaining - 1);
}
std::vector<ArtifactID> CMapGenerator::getQuestArtsRemaning() const
{
return questArtifacts;
}
void CMapGenerator::banQuestArt(ArtifactID id)
{
map->allowedArtifact[id] = false;
vstd::erase_if_present (questArtifacts, id);
}
void CMapGenerator::registerZone (TFaction faction)
{
zonesPerFaction[faction]++;
zonesTotal++;
}
ui32 CMapGenerator::getZoneCount(TFaction faction)
{
return zonesPerFaction[faction];
}
ui32 CMapGenerator::getTotalZoneCount() const
{
return zonesTotal;
}