/* * RiverPlacer.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 "RiverPlacer.h" #include "../Functions.h" #include "../CMapGenerator.h" #include "../RmgMap.h" #include "../../RiverHandler.h" #include "../../TerrainHandler.h" #include "../../mapObjectConstructors/AObjectTypeHandler.h" #include "../../mapObjectConstructors/CObjectClassesHandler.h" #include "../../mapObjects/ObjectTemplate.h" #include "../../mapping/CMap.h" #include "../../mapping/CMapEditManager.h" #include "../RmgPath.h" #include "ObjectManager.h" #include "ObstaclePlacer.h" #include "WaterProxy.h" #include "RoadPlacer.h" VCMI_LIB_NAMESPACE_BEGIN const int RIVER_DELTA_ID = 143; const int RIVER_DELTA_SUBTYPE = 0; const std::array, 4> deltaTemplates { //0 - must be on ground //1 - delta entry //2 - must be on water //3 - anything //4 - prohibit river placement //5 - must be on ground + position //6 - must be on water + position std::array{ 3, 4, 3, 4, 3, 3, 4, 1, 4, 3, 3, 0, 0, 0, 3, 3, 0, 0, 0, 3, 3, 2, 2, 6, 3 }, std::array{ 3, 2, 2, 2, 3, 3, 0, 0, 0, 3, 3, 0, 0, 5, 3, 3, 4, 1, 4, 3, 3, 4, 3, 4, 3 }, std::array{ 3, 3, 3, 3, 3, 4, 4, 0, 0, 2, 3, 1, 0, 0, 2, 4, 4, 0, 0, 6, 3, 3, 3, 3, 3 }, std::array { 3, 3, 3, 3, 3, 2, 0, 0, 4, 4, 2, 0, 0, 1, 3, 2, 0, 5, 4, 4, 3, 3, 3, 3, 3 } }; void RiverPlacer::process() { preprocess(); for(const auto & t : riverNodes) connectRiver(t); if(!rivers.empty()) drawRivers(); } void RiverPlacer::init() { if (!zone.isUnderground()) { DEPENDENCY_ALL(WaterProxy); } DEPENDENCY(ObjectManager); DEPENDENCY(ObstaclePlacer); } void RiverPlacer::drawRivers() { auto tiles = rivers.getTilesVector(); mapProxy->drawRivers(zone.getRand(), tiles, zone.getTerrainType()); } char RiverPlacer::dump(const int3 & t) { if(riverNodes.count(t)) return '@'; if(rivers.contains(t)) return '~'; if(sink.contains(t)) return '2'; if(source.contains(t)) return '1'; if(zone.area()->contains(t)) return ' '; return '?'; } void RiverPlacer::addRiverNode(const int3 & node) { assert(zone.area()->contains(node)); riverNodes.insert(node); } rmg::Area & RiverPlacer::riverSource() { return source; } rmg::Area & RiverPlacer::riverSink() { return sink; } rmg::Area & RiverPlacer::riverProhibit() { return prohibit; } void RiverPlacer::prepareHeightmap() { rmg::Area roads; if(auto * m = zone.getModificator()) { roads.unite(m->getRoads()); } auto area = zone.area(); auto areaUsed = zone.areaUsed(); for(const auto & t : area->getTilesVector()) { heightMap[t] = zone.getRand().nextInt(5); if(roads.contains(t)) heightMap[t] += 30.f; if(areaUsed->contains(t)) heightMap[t] += 1000.f; } //make grid for(int j = 0; j < map.height(); j += 2) { for(int i = 0; i < map.width(); i += 2) { int3 t{i, j, zone.getPos().z}; if(area->contains(t)) heightMap[t] += 10.f; } } } void RiverPlacer::preprocess() { rmg::Area outOfMapTiles; std::map neighbourZonesTiles; rmg::Area borderArea(zone.area()->getBorder()); TRmgTemplateZoneId connectedToWaterZoneId = -1; for(const auto & t : zone.area()->getBorderOutside()) { if(!map.isOnMap(t)) { outOfMapTiles.add(t); } else if(map.getZoneID(t) != zone.getId()) { if(map.getZones()[map.getZoneID(t)]->getType() == ETemplateZoneType::WATER) connectedToWaterZoneId = map.getZoneID(t); neighbourZonesTiles[map.getZoneID(t)].add(t); } } rmg::Area outOfMapInternal(outOfMapTiles.getBorderOutside()); outOfMapInternal.intersect(borderArea); //looking outside map if(!outOfMapInternal.empty()) { auto elem = *RandomGeneratorUtil::nextItem(outOfMapInternal.getTilesVector(), zone.getRand()); source.add(elem); outOfMapInternal.erase(elem); } if(!outOfMapInternal.empty()) { auto elem = *RandomGeneratorUtil::nextItem(outOfMapInternal.getTilesVector(), zone.getRand()); sink.add(elem); outOfMapInternal.erase(elem); } //calculate delta positions if(connectedToWaterZoneId > -1) { auto river = VLC->terrainTypeHandler->getById(zone.getTerrainType())->river; auto & a = neighbourZonesTiles[connectedToWaterZoneId]; auto availableArea = zone.areaPossible() + zone.freePaths(); for(const auto & tileToProcess : availableArea.getTilesVector()) { int templateId = -1; for(int tId = 0; tId < 4; ++tId) { templateId = tId; for(int i = 0; i < 25; ++i) { if((deltaTemplates[tId][i] == 2 || deltaTemplates[tId][i] == 6) && !a.contains(tileToProcess + int3(i % 5 - 2, i / 5 - 2, 0))) { templateId = -1; break; } if((deltaTemplates[tId][i] < 2 || deltaTemplates[tId][i] == 5) && !availableArea.contains(tileToProcess + int3(i % 5 - 2, i / 5 - 2, 0))) { templateId = -1; break; } } if(templateId > -1) break; } if(templateId > -1) { for(int i = 0; i < 25; ++i) { auto p = tileToProcess + int3(i % 5 - 2, i / 5 - 2, 0); if(deltaTemplates[templateId][i] == 1) { sink.add(p); deltaSink.add(p); deltaOrientations[p] = templateId + 1; //specific case: deltas for ice rivers amd mud rivers are messed :( if(river == River::ICY_RIVER) { switch(deltaOrientations[p]) { case 1: deltaOrientations[p] = 2; break; case 2: deltaOrientations[p] = 3; break; case 3: deltaOrientations[p] = 4; break; case 4: deltaOrientations[p] = 1; break; } } if(river == River::MUD_RIVER) { switch(deltaOrientations[p]) { case 1: deltaOrientations[p] = 4; break; case 2: deltaOrientations[p] = 3; break; case 3: deltaOrientations[p] = 1; break; case 4: deltaOrientations[p] = 2; break; } } for(auto j = 0; j < 25; ++j) { if(deltaTemplates[templateId][j] >= 5) { deltaPositions[p] = tileToProcess + int3(j % 5 - 2, j / 5 - 2, 0); } } } if(deltaTemplates[templateId][i] == 0 || deltaTemplates[templateId][i] == 4 || deltaTemplates[templateId][i] == 5) { prohibit.add(p); } } } } } prepareHeightmap(); //decorative river if(!sink.empty() && !source.empty() && riverNodes.empty() && !zone.areaPossible()->empty()) { addRiverNode(*RandomGeneratorUtil::nextItem(source.getTilesVector(), zone.getRand())); } if(source.empty()) { logGlobal->info("River source is empty!"); //looking outside map for(auto & i : heightMap) { if(i.second > 0) source.add(i.first); } } if(sink.empty()) { logGlobal->error("River sink is empty!"); for(auto & i : heightMap) { if(i.second <= 0) sink.add(i.first); } } } void RiverPlacer::connectRiver(const int3 & tile) { auto riverType = VLC->terrainTypeHandler->getById(zone.getTerrainType())->river; const auto * river = VLC->riverTypeHandler->getById(riverType); if(river->getId() == River::NO_RIVER) return; rmg::Area roads; if(auto * m = zone.getModificator()) { roads.unite(m->getRoads()); } auto movementCost = [this, &roads](const int3 & s, const int3 & d) { float cost = heightMap[d]; if(roads.contains(s)) cost += 1000.f; //allow road intersection, but avoid long overlaps return cost; }; auto availableArea = zone.area().get() - prohibit; rmg::Path pathToSource(availableArea); pathToSource.connect(source); pathToSource.connect(rivers); pathToSource = pathToSource.search(tile, true, movementCost); availableArea.subtract(pathToSource.getPathArea()); rmg::Path pathToSink(availableArea); pathToSink.connect(sink); pathToSource.connect(rivers); pathToSink = pathToSink.search(tile, true, movementCost); if(pathToSource.getPathArea().empty() || pathToSink.getPathArea().empty()) { logGlobal->error("Cannot build river"); return; } //delta placement auto deltaPos = pathToSink.getPathArea() * deltaSink; if(!deltaPos.empty()) { assert(deltaPos.getTilesVector().size() == 1); auto pos = deltaPos.getTilesVector().front(); auto handler = VLC->objtypeh->getHandlerFor(RIVER_DELTA_ID, RIVER_DELTA_SUBTYPE); assert(handler->isStaticObject()); std::vector> tmplates; for(auto & temp : handler->getTemplates()) { if(temp->canBePlacedAt(zone.getTerrainType())) tmplates.push_back(temp); } if(tmplates.size() > 3) { if(tmplates.size() % 4 != 0) throw rmgException(boost::str(boost::format("River templates for (%d,%d) at terrain %s, river %s are incorrect") % RIVER_DELTA_ID % RIVER_DELTA_SUBTYPE % zone.getTerrainType() % river->shortIdentifier)); AnimationPath targetTemplateName = AnimationPath::builtinTODO(river->deltaName + std::to_string(deltaOrientations[pos]) + ".def"); for(auto & templ : tmplates) { if(templ->animationFile == targetTemplateName) { auto * obj = handler->create(map.mapInstance->cb, templ); rmg::Object deltaObj(*obj, deltaPositions[pos]); deltaObj.finalize(map, zone.getRand()); } } } } rivers.unite(pathToSource.getPathArea()); rivers.unite(pathToSink.getPathArea()); } VCMI_LIB_NAMESPACE_END