#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 "CRmgTemplate.h" #include "CRmgTemplateZone.h" #include "CZonePlacer.h" #include "../mapObjects/CObjectClassesHandler.h" void CMapGenerator::foreach_neighbour(const int3 &pos, std::function foo) { for(const int3 &dir : dirs) { int3 n = pos + dir; if(map->isInTheMap(n)) foo(n); } } CMapGenerator::CMapGenerator() : zonesTotal(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]; } } } 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 (0, prisonsRemaining - 16 * map->players.size()); //so at least 16 heroes will be available for every player } std::unique_ptr CMapGenerator::generate(CMapGenOptions * mapGenOptions, int randomSeed /*= std::time(nullptr)*/) { this->mapGenOptions = mapGenOptions; this->randomSeed = randomSeed; assert(mapGenOptions); rand.setSeed(this->randomSeed); mapGenOptions->finalize(rand); map = make_unique(); editManager = map->getEditManager(); try { editManager->getUndoManager().setUndoRedoLimit(0); //FIXME: somehow mapGenOption is nullptr at this point :? addHeaderInfo(); initTiles(); initPrisonsRemaining(); 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->errorStream() << "Random map generation received exception: " << 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, humans %d, computers %d, water %s, monster %s, second expansion map") % mapGenOptions->getMapTemplate()->getName() % randomSeed % map->width % map->height % (map->twoLevel ? "2" : "1") % static_cast(mapGenOptions->getPlayerCount()) % static_cast(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 std::array, 2> teamNumbers; // 0= cpu/human, 1= cpu only int teamOffset = 0; for(int i = 0; i < 2; ++i) { int playerCount = i == 0 ? mapGenOptions->getPlayerCount() : mapGenOptions->getCompOnlyPlayerCount(); int teamCount = i == 0 ? mapGenOptions->getTeamCount() : 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 for(const auto & pair : mapGenOptions->getPlayersSettings()) { const auto & pSettings = pair.second; PlayerInfo player; player.canComputerPlay = true; int j = pSettings.getPlayerType() == EPlayerType::COMP_ONLY ? 1 : 0; if(j == 0) { player.canHumanPlay = true; } 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 pcnt = mapGenOptions->getPlayerCount(); auto w = mapGenOptions->getWidth(); auto h = mapGenOptions->getHeight(); auto tmpl = mapGenOptions->getMapTemplate(); zones = tmpl->getZones(); //copy from template (refactor?) CZonePlacer placer(this); placer.placeZones(mapGenOptions, &rand); placer.assignZones(mapGenOptions); int i = 0; logGlobal->infoStream() << "Zones generated successfully"; } void CMapGenerator::fillZones() { //init native town count with 0 for (auto faction : VLC->townh->getAllowedFactions()) zonesPerFaction[faction] = 0; logGlobal->infoStream() << "Started filling zones"; //initialize possible tiles before any object is actually placed for (auto it : zones) { it.second->initFreeTiles(this); } createConnections(); //make sure all connections are passable before creating borders for (auto it : zones) { it.second->createBorder(this); //we need info about all town types to evaluate dwellings and pandoras with creatures properly it.second->initTownType(this); } std::vector treasureZones; for (auto it : zones) { it.second->fill(this); if (it.second->getType() == ETemplateZoneType::TREASURE) treasureZones.push_back(it.second); } //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->infoStream() << "Zones filled successfully"; } void CMapGenerator::createConnections() { 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 tiles(tilesCopy.begin(), tilesCopy.end()); RandomGeneratorUtil::randomShuffle(tiles, rand); int3 guardPos(-1,-1,-1); auto otherZoneTiles = zoneB->getTileInfo(); int3 posA = zoneA->getPos(); int3 posB = zoneB->getPos(); if (posA.z == posB.z) { for (auto tile : tiles) { if (isBlocked(tile)) //tiles may be occupied by subterranean gates already placed continue; foreach_neighbour (tile, [&guardPos, tile, &otherZoneTiles, this](int3 &pos) { //if (vstd::contains(otherZoneTiles, pos) && !this->isBlocked(pos)) if (vstd::contains(otherZoneTiles, pos)) guardPos = tile; }); if (guardPos.valid()) { setOccupied (guardPos, ETileType::FREE); //just in case monster is too weak to spawn zoneA->addMonster (this, guardPos, connection.getGuardStrength(), false, true); //zones can make paths only in their own area zoneA->crunchPath (this, guardPos, posA, zoneA->getId(), zoneA->getFreePaths()); //make connection towards our zone center zoneB->crunchPath (this, guardPos, posB, zoneB->getId(), zoneB->getFreePaths()); //make connection towards other zone center break; //we're done with this connection } } } else //create subterranean gates between two zones { //find point on the path between zones float3 offset (posB.x - posA.x, posB.y - posA.y, 0); float distance = posB.dist2d(posA); vstd::amax (distance, 0.5f); offset /= distance; //get unit vector float3 vec (0, 0, 0); //use reduced size of underground zone - make sure gate does not stand on rock int3 tile = posA; int3 otherTile = tile; bool stop = false; while (!stop) { vec += offset; //this vector may extend beyond line between zone centers, in case they are directly over each other tile = posA + int3(vec.x, vec.y, 0); float distanceFromA = posA.dist2d(tile); float distanceFromB = posB.dist2d(tile); if (distanceFromA + distanceFromB > std::max(zoneA->getSize() + zoneB->getSize(), distance)) break; //we are too far away to ever connect //if zone is underground, gate must fit within its (reduced) radius if (distanceFromA > 5 && (!posA.z || distanceFromA < zoneA->getSize() - 3) && distanceFromB > 5 && (!posB.z || distanceFromB < zoneB->getSize() - 3)) { otherTile = tile; otherTile.z = posB.z; if (vstd::contains(tiles, tile) && vstd::contains(otherZoneTiles, otherTile)) { bool withinZone = true; foreach_neighbour (tile, [&withinZone, &tiles](int3 &pos) { if (!vstd::contains(tiles, pos)) withinZone = false; }); foreach_neighbour (otherTile, [&withinZone, &otherZoneTiles](int3 &pos) { if (!vstd::contains(otherZoneTiles, pos)) withinZone = false; }); if (withinZone) { auto gate1 = new CGTeleport; gate1->ID = Obj::SUBTERRANEAN_GATE; gate1->subID = 0; zoneA->placeAndGuardObject(this, gate1, tile, connection.getGuardStrength()); auto gate2 = new CGTeleport(*gate1); zoneB->placeAndGuardObject(this, gate2, otherTile, connection.getGuardStrength()); stop = true; //we are done, go to next connection } } } } if (stop) continue; } if (!guardPos.valid()) { auto teleport1 = new CGTeleport; teleport1->ID = Obj::MONOLITH_TWO_WAY; teleport1->subID = getNextMonlithIndex(); auto teleport2 = new CGTeleport(*teleport1); zoneA->addRequiredObject (teleport1, connection.getGuardStrength()); zoneB->addRequiredObject (teleport2, connection.getGuardStrength()); } } } void CMapGenerator::addHeaderInfo() { map->version = EMapFormat::SOD; 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(); } std::map CMapGenerator::getZones() const { return zones; } bool CMapGenerator::isBlocked(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].isBlocked(); } bool CMapGenerator::shouldBeBlocked(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].shouldBeBlocked(); } bool CMapGenerator::isPossible(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].isPossible(); } bool CMapGenerator::isFree(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].isFree(); } bool CMapGenerator::isUsed(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].isUsed(); } void CMapGenerator::setOccupied(const int3 &tile, ETileType::ETileType state) { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); tiles[tile.x][tile.y][tile.z].setOccupied(state); } CTileInfo CMapGenerator::getTile(const int3& tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z]; } void CMapGenerator::setNearestObjectDistance(int3 &tile, float value) { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); tiles[tile.x][tile.y][tile.z].setNearestObjectDistance(value); } float CMapGenerator::getNearestObjectDistance(const int3 &tile) const { if (!map->isInTheMap(tile)) throw rmgException(boost::to_string(boost::format("Tile %s is outside the map") % tile)); return tiles[tile.x][tile.y][tile.z].getNearestObjectDistance(); } int CMapGenerator::getNextMonlithIndex() { if (monolithIndex >= VLC->objtypeh->knownSubObjects(Obj::MONOLITH_TWO_WAY).size()) { //logGlobal->errorStream() << boost::to_string(boost::format("RMG Error! There is no Monolith Two Way with index %d available!") % monolithIndex); //monolithIndex++; //return VLC->objtypeh->knownSubObjects(Obj::MONOLITH_TWO_WAY).size() - 1; //TODO: interrupt map generation and report error 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); } void CMapGenerator::registerZone (TFaction faction) { zonesPerFaction[faction]++; zonesTotal++; } ui32 CMapGenerator::getZoneCount(TFaction faction) { return zonesPerFaction[faction]; } ui32 CMapGenerator::getTotalZoneCount() const { return zonesTotal; }