osb/source/game/StarDungeonGenerator.cpp

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#include "StarDungeonGenerator.hpp"
#include "StarCasting.hpp"
#include "StarRandom.hpp"
#include "StarLogging.hpp"
#include "StarAssets.hpp"
#include "StarLexicalCast.hpp"
#include "StarJsonExtra.hpp"
#include "StarMaterialDatabase.hpp"
#include "StarRoot.hpp"
#include "StarLiquidsDatabase.hpp"
#include "StarDungeonImagePart.hpp"
#include "StarDungeonTMXPart.hpp"
namespace Star {
size_t const DefinitionsCacheSize = 20;
namespace Dungeon {
EnumMap<Dungeon::Direction> const DungeonDirectionNames{
{Dungeon::Direction::Left, "left"},
{Dungeon::Direction::Right, "right"},
{Dungeon::Direction::Up, "up"},
{Dungeon::Direction::Down, "down"},
{Dungeon::Direction::Unknown, "unknown"},
{Dungeon::Direction::Any, "any"},
};
Direction flipDirection(Direction direction) {
if (direction == Direction::Left)
return Direction::Right;
if (direction == Direction::Right)
return Direction::Left;
if (direction == Direction::Up)
return Direction::Down;
if (direction == Direction::Down)
return Direction::Up;
if (direction == Direction::Any)
return Direction::Any;
throw DungeonException("Invalid direction");
}
MaterialId biomeMaterialForJson(int variant) {
if (variant == 0)
return BiomeMaterialId;
if (variant == 1)
return Biome1MaterialId;
if (variant == 2)
return Biome2MaterialId;
if (variant == 3)
return Biome3MaterialId;
if (variant == 4)
return Biome4MaterialId;
starAssert(variant == 5);
return Biome5MaterialId;
}
ConnectorConstPtr chooseOption(List<ConnectorConstPtr>& options, RandomSource& rnd) {
float distribution = 0;
for (size_t i = 0; i < options.size(); i++)
distribution += options[i]->part()->chance();
float pick = rnd.randf() * distribution;
for (size_t i = 0; i < options.size(); i++) {
pick -= options[i]->part()->chance();
if (pick <= 0)
return options.takeAt(i);
}
// float rounding is always fun
return options.takeAt(options.size() - 1);
}
List<RuleConstPtr> Rule::readRules(Json const& rules) {
List<RuleConstPtr> result;
for (auto const& list : rules.iterateArray()) {
Maybe<RuleConstPtr> rule = Rule::parse(list);
if (rule.isValid())
result.push_back(*rule);
}
return result;
}
List<BrushConstPtr> Brush::readBrushes(Json const& brushes) {
List<BrushConstPtr> result;
for (auto const& list : brushes.iterateArray())
result.push_back(Brush::parse(list));
return result;
}
Maybe<RuleConstPtr> Rule::parse(Json const& rule) {
String key = rule.getString(0);
if (key == "worldGenMustContainLiquid")
return as<Rule>(make_shared<const WorldGenMustContainLiquidRule>());
if (key == "worldGenMustNotContainLiquid")
return as<Rule>(make_shared<const WorldGenMustNotContainLiquidRule>());
if (key == "worldGenMustContainSolidForeground")
return as<Rule>(make_shared<const WorldGenMustContainSolidRule>(TileLayer::Foreground));
if (key == "worldGenMustContainAirForeground")
return as<Rule>(make_shared<const WorldGenMustContainAirRule>(TileLayer::Foreground));
if (key == "worldGenMustContainSolidBackground")
return as<Rule>(make_shared<const WorldGenMustContainSolidRule>(TileLayer::Background));
if (key == "worldGenMustContainAirBackground")
return as<Rule>(make_shared<const WorldGenMustContainAirRule>(TileLayer::Background));
if (key == "allowOverdrawing")
return as<Rule>(make_shared<const AllowOverdrawingRule>());
if (key == "ignorePartMaximumRule")
return as<Rule>(make_shared<const IgnorePartMaximumRule>());
if (key == "maxSpawnCount")
return as<Rule>(make_shared<const MaxSpawnCountRule>(rule));
if (key == "doNotConnectToPart")
return as<Rule>(make_shared<const DoNotConnectToPartRule>(rule));
if (key == "doNotCombineWith")
return as<Rule>(make_shared<const DoNotCombineWithRule>(rule));
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Logger::error("Unknown dungeon rule: {}", key);
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return Maybe<RuleConstPtr>();
}
bool Rule::checkTileCanPlace(Vec2I, DungeonGeneratorWriter*) const {
return true;
}
bool Rule::overdrawable() const {
return false;
}
bool Rule::ignorePartMaximum() const {
return false;
}
bool Rule::allowSpawnCount(int) const {
return true;
}
bool Rule::doesNotConnectToPart(String const&) const {
return false;
}
bool Rule::checkPartCombinationsAllowed(StringMap<int> const&) const {
return true;
}
bool Rule::requiresOpen() const {
return false;
}
bool Rule::requiresSolid() const {
return false;
}
bool Rule::requiresLiquid() const {
return false;
}
BrushConstPtr parseFrontBrush(Json const& brush) {
String material;
Maybe<String> mod;
Maybe<float> hueshift, modhueshift;
Maybe<MaterialColorVariant> colorVariant;
if (brush.isType(Json::Type::Object)) {
material = brush.getString("material");
mod = brush.optString("mod");
hueshift = brush.optFloat("hueshift");
modhueshift = brush.optFloat("modhueshift");
colorVariant = brush.optFloat("colorVariant");
} else {
material = brush.getString(1);
if (brush.size() > 2)
mod = brush.getString(2);
}
return make_shared<const FrontBrush>(material, mod, hueshift, modhueshift, colorVariant);
}
BrushConstPtr parseBackBrush(Json const& brush) {
String material;
Maybe<String> mod;
Maybe<float> hueshift, modhueshift;
Maybe<MaterialColorVariant> colorVariant;
if (brush.isType(Json::Type::Object)) {
material = brush.getString("material");
mod = brush.optString("mod");
hueshift = brush.optFloat("hueshift");
modhueshift = brush.optFloat("modhueshift");
colorVariant = brush.optFloat("colorVariant");
} else {
material = brush.getString(1);
if (brush.size() > 2)
mod = brush.getString(2);
}
return make_shared<const BackBrush>(material, mod, hueshift, modhueshift, colorVariant);
}
BrushConstPtr parseObjectBrush(Json const& brush) {
String object;
Star::Direction direction;
Json parameters;
object = brush.getString(1);
JsonObject settings;
if (brush.size() > 2)
settings = brush.getObject(2);
if (settings.contains("direction"))
direction = DirectionNames.getLeft(settings.get("direction").toString());
else
direction = Star::Direction::Left;
if (settings.contains("parameters"))
parameters = settings.get("parameters");
return make_shared<const ObjectBrush>(object, direction, parameters);
}
BrushConstPtr parseSurfaceBrush(Json const& brush) {
Json settings = Json::ofType(Json::Type::Object);
if (brush.size() > 1)
settings = brush.get(1);
return make_shared<const SurfaceBrush>(settings.optInt("variant"), settings.optString("mod"));
}
BrushConstPtr parseSurfaceBackgroundBrush(Json const& brush) {
Json settings = Json::ofType(Json::Type::Object);
if (brush.size() > 1)
settings = brush.get(1);
return make_shared<const SurfaceBackgroundBrush>(settings.optInt("variant"), settings.optString("mod"));
}
BrushConstPtr parseWireBrush(Json const& brush) {
Json settings = brush.get(1);
String group = settings.getString("group");
bool local = settings.getBool("local", true);
return make_shared<const WireBrush>(group, local);
}
BrushConstPtr parseItemBrush(Json const& brush) {
ItemDescriptor item(brush.getString(1), 1);
return make_shared<const ItemBrush>(item);
}
BrushConstPtr Brush::parse(Json const& brush) {
String key = brush.getString(0);
if (key == "clear")
return as<const Brush>(make_shared<ClearBrush>());
if (key == "front")
return parseFrontBrush(brush);
if (key == "back")
return parseBackBrush(brush);
if (key == "object")
return parseObjectBrush(brush);
if (key == "biomeitems")
return as<Brush>(make_shared<BiomeItemsBrush>());
if (key == "biometree")
return as<Brush>(make_shared<BiomeTreeBrush>());
if (key == "item")
return parseItemBrush(brush);
if (key == "npc")
return as<Brush>(make_shared<NpcBrush>(brush.get(1)));
if (key == "stagehand")
return as<Brush>(make_shared<StagehandBrush>(brush.get(1)));
if (key == "random")
return as<Brush>(make_shared<RandomBrush>(brush));
if (key == "surface")
return parseSurfaceBrush(brush);
if (key == "surfacebackground")
return parseSurfaceBackgroundBrush(brush);
if (key == "liquid")
return as<Brush>(make_shared<LiquidBrush>(brush.getString(1), 1.0f, brush.getBool(2, false)));
if (key == "wire")
return parseWireBrush(brush);
if (key == "playerstart")
return as<Brush>(make_shared<PlayerStartBrush>());
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throw DungeonException::format("Unknown dungeon brush: {}", key);
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}
RandomBrush::RandomBrush(Json const& brush) {
JsonArray options = brush.getArray(1);
for (auto const& option : options)
m_brushes.append(Brush::parse(option));
m_seed = Random::randi64();
}
void RandomBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
size_t rnd = (size_t)staticRandomI32(m_seed, position[0], position[1]);
m_brushes[rnd % m_brushes.size()]->paint(position, phase, writer);
}
void ClearBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::ClearPhase)
return;
// TODO: delete objects too?
writer->setLiquid(position, LiquidStore(EmptyLiquidId, 0.0f, 0.0f, false));
writer->setForegroundMaterial(position, EmptyMaterialId, 0, DefaultMaterialColorVariant);
writer->setBackgroundMaterial(position, EmptyMaterialId, 0, DefaultMaterialColorVariant);
writer->setForegroundMod(position, NoModId, 0);
writer->setBackgroundMod(position, NoModId, 0);
}
FrontBrush::FrontBrush(String const& material, Maybe<String> mod, Maybe<float> hueshift, Maybe<float> modhueshift, Maybe<MaterialColorVariant> colorVariant) {
m_material = material;
m_mod = mod;
m_materialHue = hueshift.apply(materialHueFromDegrees).value(0);
m_modHue = modhueshift.apply(materialHueFromDegrees).value(0);
m_materialColorVariant = colorVariant.value(DefaultMaterialColorVariant);
}
void FrontBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::WallPhase)
return;
auto materialDatabase = Root::singleton().materialDatabase();
MaterialId material = materialDatabase->materialId(m_material);
ModId mod = NoModId;
if (m_mod)
mod = materialDatabase->modId(*m_mod);
if (isSolidColliding(materialDatabase->materialCollisionKind(material)))
writer->setLiquid(position, LiquidStore(EmptyLiquidId, 0.0f, 0.0f, false));
writer->setForegroundMaterial(position, material, m_materialHue, m_materialColorVariant);
if (isRealMod(mod)) {
writer->setForegroundMod(position, mod, m_modHue);
}
}
BackBrush::BackBrush(String const& material, Maybe<String> mod, Maybe<float> hueshift, Maybe<float> modhueshift, Maybe<MaterialColorVariant> colorVariant) {
m_material = material;
m_mod = mod;
m_materialHue = hueshift.apply(materialHueFromDegrees).value(0);
m_modHue = modhueshift.apply(materialHueFromDegrees).value(0);
m_materialColorVariant = colorVariant.value(DefaultMaterialColorVariant);
}
void BackBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::WallPhase)
return;
auto materialDatabase = Root::singleton().materialDatabase();
MaterialId material = materialDatabase->materialId(m_material);
ModId mod = NoModId;
if (m_mod)
mod = materialDatabase->modId(*m_mod);
writer->setBackgroundMaterial(position, material, m_materialHue, m_materialColorVariant);
if (isRealMod(mod)) {
writer->setBackgroundMod(position, mod, m_modHue);
}
}
ObjectBrush::ObjectBrush(String const& object, Star::Direction direction, Json const& parameters) {
m_object = object;
m_direction = direction;
m_parameters = parameters;
}
void ObjectBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::ObjectPhase)
return;
writer->placeObject(position, m_object, m_direction, m_parameters);
}
VehicleBrush::VehicleBrush(String const& vehicle, Json const& parameters) {
m_vehicle = vehicle;
m_parameters = parameters;
}
void VehicleBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::ObjectPhase)
return;
writer->placeVehicle(Vec2F(position), m_vehicle, m_parameters);
}
void BiomeItemsBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::BiomeItemsPhase)
return;
writer->placeSurfaceBiomeItems(position);
}
void BiomeTreeBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::BiomeTreesPhase)
return;
writer->placeBiomeTree(position);
}
ItemBrush::ItemBrush(ItemDescriptor const& item) : m_item(item) {}
void ItemBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::ItemPhase)
return;
writer->addDrop(Vec2F(position), m_item);
}
NpcBrush::NpcBrush(Json const& brush) {
m_npc = brush;
auto map = m_npc.toObject();
if (map.value("seed") == Json("stable"))
map["seed"] = Random::randu64();
m_npc = map;
}
void NpcBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::NpcPhase)
return;
if (m_npc.contains("species")) {
// interpret species as a comma separated list of unquoted strings
StringList speciesOptions = m_npc.get("species").toString().replace(" ", "").split(",");
writer->spawnNpc(Vec2F(position), m_npc.set("species", Random::randFrom(speciesOptions)));
} else {
writer->spawnNpc(Vec2F(position), m_npc);
}
}
StagehandBrush::StagehandBrush(Json const& definition) {
m_definition = definition;
}
void StagehandBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::NpcPhase)
return;
writer->spawnStagehand(Vec2F(position), m_definition);
}
DungeonIdBrush::DungeonIdBrush(DungeonId dungeonId) {
m_dungeonId = dungeonId;
}
void DungeonIdBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::DungeonIdPhase)
return;
writer->setDungeonId(position, m_dungeonId);
}
SurfaceBrush::SurfaceBrush(Maybe<int> variant, Maybe<String> mod) {
m_variant = variant.value(0);
m_mod = mod;
}
void SurfaceBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase == Phase::WallPhase) {
writer->setForegroundMaterial(position, biomeMaterialForJson(m_variant), 0, DefaultMaterialColorVariant);
writer->setBackgroundMaterial(position, biomeMaterialForJson(m_variant), 0, DefaultMaterialColorVariant);
}
if (phase == Phase::ModsPhase) {
if (m_mod.isValid()) {
auto materialDatabase = Root::singleton().materialDatabase();
writer->setForegroundMod(position, materialDatabase->modId(*m_mod), 0);
} else {
if (writer->needsForegroundBiomeMod(position)) {
writer->setForegroundMod(position, BiomeModId, 0);
}
}
}
}
SurfaceBackgroundBrush::SurfaceBackgroundBrush(Maybe<int> variant, Maybe<String> mod) {
m_variant = variant.value(0);
m_mod = mod;
}
void SurfaceBackgroundBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase == Phase::WallPhase) {
writer->setBackgroundMaterial(position, biomeMaterialForJson(m_variant), 0, DefaultMaterialColorVariant);
}
if (phase == Phase::ModsPhase) {
if (m_mod.isValid()) {
auto materialDatabase = Root::singleton().materialDatabase();
writer->setBackgroundMod(position, materialDatabase->modId(*m_mod), 0);
} else {
if (writer->needsBackgroundBiomeMod(position)) {
writer->setBackgroundMod(position, BiomeModId, 0);
}
}
}
}
LiquidBrush::LiquidBrush(String const& liquidName, float quantity, bool source)
: m_liquid(liquidName), m_quantity(quantity), m_source(source) {}
void LiquidBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
auto liquidsDatabase = Root::singleton().liquidsDatabase();
LiquidId liquidId = liquidsDatabase->liquidId(m_liquid);
LiquidStore liquid(liquidId, m_quantity, 1.0f, m_source);
if (phase == Phase::WallPhase) {
writer->requestLiquid(position, liquid);
}
}
void WireBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase != Phase::WirePhase)
return;
writer->requestWire(position, m_wireGroup, m_partLocal);
}
void PlayerStartBrush::paint(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
if (phase == Phase::NpcPhase)
writer->setPlayerStart(Vec2F(position));
}
InvalidBrush::InvalidBrush(Maybe<String> nameHint) : m_nameHint(nameHint) {}
void InvalidBrush::paint(Vec2I, Phase, DungeonGeneratorWriter*) const {
if (m_nameHint)
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Logger::error("Invalid tile '{}'", *m_nameHint);
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else
Logger::error("Invalid tile");
}
bool Tile::canPlace(Vec2I position, DungeonGeneratorWriter* writer) const {
if (writer->otherDungeonPresent(position))
return false;
else if (position[1] < 0)
return false;
for (size_t i = 0; i < rules.size(); i++)
if (!rules[i]->checkTileCanPlace(position, writer))
return false;
return true;
}
void Tile::place(Vec2I position, Phase phase, DungeonGeneratorWriter* writer) const {
for (size_t i = 0; i < brushes.size(); i++) {
brushes[i]->paint(position, phase, writer);
}
}
bool Tile::usesPlaces() const {
if (brushes.size() == 0)
return false;
for (size_t i = 0; i < rules.size(); i++)
if (rules[i]->overdrawable())
return false;
return true;
}
bool Tile::modifiesPlaces() const {
return brushes.size() != 0;
}
bool Tile::collidesWithPlaces() const {
return usesPlaces();
}
bool Tile::requiresOpen() const {
for (size_t i = 0; i < rules.size(); i++)
if (rules[i]->requiresOpen())
return true;
return false;
}
bool Tile::requiresSolid() const {
for (size_t i = 0; i < rules.size(); i++)
if (rules[i]->requiresSolid())
return true;
return false;
}
bool Tile::requiresLiquid() const {
for (size_t i = 0; i < rules.size(); i++)
if (rules[i]->requiresLiquid())
return true;
return false;
}
PartConstPtr parsePart(DungeonDefinition* dungeon, Json const& definition, Maybe<ImageTilesetConstPtr> tileset) {
String kind = definition.get("def").getString(0);
if (kind == "image") {
if (tileset.isNothing())
throw DungeonException("Dungeon parts designed in images require the 'tiles' key in the .dungeon file");
return make_shared<const Part>(dungeon, definition, make_shared<ImagePartReader>(*tileset));
} else if (kind == "tmx")
return make_shared<const Part>(dungeon, definition, make_shared<TMXPartReader>());
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throw DungeonException::format("Unknown dungeon part kind: {}", kind);
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}
Part::Part(DungeonDefinition* dungeon, Json const& part, PartReaderPtr reader) {
m_dungeon = dungeon;
m_name = part.getString("name");
m_rules = Rule::readRules(part.get("rules"));
m_chance = part.getFloat("chance", 1);
if (m_chance <= 0)
m_chance = 0.0001f;
m_markDungeonId = part.getBool("markDungeonId", true);
m_overrideAllowAlways = part.getBool("overrideAllowAlways", false);
m_minimumThreatLevel = part.optFloat("minimumThreatLevel");
m_maximumThreatLevel = part.optFloat("maximumThreatLevel");
m_clearAnchoredObjects = part.getBool("clearAnchoredObjects", true);
m_reader = reader;
Json const& def = part.get("def");
if (def.get(1).type() == Json::Type::String) {
reader->readAsset(AssetPath::relativeTo(dungeon->directory(), def.get(1).toString()));
} else {
for (auto const& asset : def.get(1).iterateArray())
reader->readAsset(AssetPath::relativeTo(dungeon->directory(), asset.toString()));
}
m_size = m_reader->size();
scanConnectors();
scanAnchor();
}
String const& Part::name() const {
return m_name;
}
Vec2U Part::size() const {
return m_size;
}
Vec2I Part::anchorPoint() const {
return m_anchorPoint;
}
float Part::chance() const {
return m_chance;
}
bool Part::markDungeonId() const {
return m_markDungeonId;
}
Maybe<float> Part::minimumThreatLevel() const {
return m_minimumThreatLevel;
}
Maybe<float> Part::maximumThreatLevel() const {
return m_maximumThreatLevel;
}
bool Part::clearAnchoredObjects() const {
return m_clearAnchoredObjects;
}
int Part::placementLevelConstraint() const {
Vec2I air = {0, size().y()};
Vec2I ground = {0, 0};
Vec2I liquid = {0, 0};
m_reader->forEachTile([&ground, &air, &liquid](Vec2I tilePos, Tile const& tile) -> bool {
for (auto const& rule : tile.rules) {
if (is<WorldGenMustContainSolidRule>(rule) && tilePos.y() > ground.y()) {
ground = tilePos;
}
if (is<WorldGenMustContainAirRule>(rule) && tilePos.y() < air.y()) {
air = tilePos;
}
if ((is<WorldGenMustContainLiquidRule>(rule) || is<WorldGenMustNotContainLiquidRule>(rule)) && tilePos.y() > liquid.y()) {
liquid = tilePos;
}
}
return false;
});
ground[1] = max(ground[1], liquid[1]);
if (air.y() < ground.y())
throw DungeonException("Invalid ground vs air contraint. Ground at: " + toString(ground.y()) + " Air at: "
+ toString(air.y())
+ " Pixels: highest ground:"
+ toString(ground)
+ " lowest air:"
+ toString(air));
return air.y();
}
bool Part::ignoresPartMaximum() const {
for (size_t i = 0; i < m_rules.size(); i++)
if (m_rules[i]->ignorePartMaximum())
return true;
return false;
}
bool Part::allowsPlacement(int currentPlacementCount) const {
for (size_t i = 0; i < m_rules.size(); i++)
if (!m_rules[i]->allowSpawnCount(currentPlacementCount))
return false;
return true;
}
List<ConnectorConstPtr> const& Part::connections() const {
return m_connections;
}
bool Part::doesNotConnectTo(Part* part) const {
for (size_t i = 0; i < m_rules.size(); i++)
if (m_rules[i]->doesNotConnectToPart(part->name()))
return true;
for (size_t i = 0; i < part->m_rules.size(); i++)
if (part->m_rules[i]->doesNotConnectToPart(m_name))
return true;
return false;
}
bool Part::checkPartCombinationsAllowed(StringMap<int> const& placementCounter) const {
for (size_t i = 0; i < m_rules.size(); i++)
if (!m_rules[i]->checkPartCombinationsAllowed(placementCounter))
return false;
return true;
}
bool Part::collidesWithPlaces(Vec2I pos, Set<Vec2I>& places) const {
if (m_overrideAllowAlways)
return true;
bool result = false;
m_reader->forEachTile([&result, pos, &places](Vec2I tilePos, Tile const& tile) -> bool {
if (tile.collidesWithPlaces())
if (places.contains(pos + tilePos)) {
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Logger::debug("Tile collided with place at {}", pos + tilePos);
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result = true;
return true;
}
return false;
});
return result;
}
bool Part::canPlace(Vec2I pos, DungeonGeneratorWriter* writer) const {
if (m_overrideAllowAlways)
return true;
// Speed up repeated failing calls by first checking the tile that failed
// last time (if it did).
bool result = true;
m_reader->forEachTile([&result, pos, writer](Vec2I tilePos, Tile const& tile) -> bool {
Vec2I position = pos + tilePos;
if (!tile.canPlace(position, writer)) {
result = false;
return true;
}
return false;
});
return result;
}
void Part::place(Vec2I pos, Set<Vec2I> const& places, DungeonGeneratorWriter* writer) const {
placePhase(pos, Phase::ClearPhase, places, writer);
placePhase(pos, Phase::WallPhase, places, writer);
placePhase(pos, Phase::ModsPhase, places, writer);
placePhase(pos, Phase::ObjectPhase, places, writer);
placePhase(pos, Phase::BiomeTreesPhase, places, writer);
placePhase(pos, Phase::BiomeItemsPhase, places, writer);
placePhase(pos, Phase::WirePhase, places, writer);
placePhase(pos, Phase::ItemPhase, places, writer);
placePhase(pos, Phase::NpcPhase, places, writer);
placePhase(pos, Phase::DungeonIdPhase, places, writer);
}
void Part::forEachTile(TileCallback const& callback) const {
m_reader->forEachTile(callback);
}
void Part::placePhase(Vec2I pos, Phase phase, Set<Vec2I> const& places, DungeonGeneratorWriter* writer) const {
m_reader->forEachTile([&places, pos, phase, writer](Vec2I tilePos, Tile const& tile) -> bool {
Vec2I position = pos + tilePos;
if (tile.collidesWithPlaces() || !places.contains(position)) {
try {
tile.place(position, phase, writer);
} catch (std::exception const&) {
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Logger::error("Error at map position {}:", tilePos);
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throw;
}
}
return false;
});
}
bool Part::tileUsesPlaces(Vec2I pos) const {
bool result = false;
m_reader->forEachTileAt(pos,
[&result](Vec2I, Tile const& tile) -> bool {
if (tile.usesPlaces()) {
result = true;
return true;
}
return false;
});
return result;
}
Direction Part::pickByEdge(Vec2I position, Vec2U size) const {
int dxa = position[0];
int dxb = size[0] - position[0];
int dya = position[1];
int dyb = size[1] - position[1];
int m = min(min(dxa, dxb), min(dya, dyb));
if (dxa == m)
return Direction::Left;
if (dxb == m)
return Direction::Right;
if (dya == m)
return Direction::Down;
if (dyb == m)
return Direction::Up;
throw DungeonException("Ambiguous direction");
}
Direction Part::pickByNeighbours(Vec2I pos) const {
int x = pos.x(), y = pos.y();
// if on a border use that, corners use the left/right direction
if (x == 0)
return Direction::Left;
if (x == (int)size().x() - 1)
return Direction::Right;
if (y == 0)
return Direction::Down;
if (y == (int)size().y() - 1)
return Direction::Up;
// scans around the connector, the direction where it finds a solid is where
// it assume the
// connection comes from
if (tileUsesPlaces({x + 1, y}) && !tileUsesPlaces({x - 1, y}))
return Direction::Left;
if (tileUsesPlaces({x - 1, y}) && !tileUsesPlaces({x + 1, y}))
return Direction::Right;
if (tileUsesPlaces({x, y + 1}) && !tileUsesPlaces({x, y - 1}))
return Direction::Down;
if (tileUsesPlaces({x, y - 1}) && !tileUsesPlaces({x, y + 1}))
return Direction::Up;
return Direction::Unknown;
}
void Part::scanConnectors() {
try {
m_reader->forEachTile([this](Vec2I position, Tile const& tile) -> bool {
if (tile.connector.isValid()) {
auto d = tile.connector->direction;
if (d == Direction::Unknown)
d = pickByNeighbours(position);
if (d == Direction::Unknown)
d = pickByEdge(position, m_size);
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Logger::debug("Found connector on {} at {} group {} direction {}", m_name, position, tile.connector->value, (int)d);
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m_connections.append(make_shared<Connector>(this, tile.connector->value, tile.connector->forwardOnly, d, position));
}
return false;
});
} catch (std::exception& e) {
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throw DungeonException(strf("Exception {} in connector {}", outputException(e, true), m_name));
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}
}
void Part::scanAnchor() {
int cx, cy, cc;
cx = cy = cc = 0;
int lowestAir = m_size[1];
int highestGound = -1;
int highestLiquid = -1;
try {
m_reader->forEachTile([&](Vec2I pos, Tile const& tile) -> bool {
int x = pos.x(), y = pos.y();
if (tile.collidesWithPlaces()) {
cx += x;
cy += y;
cc++;
}
if (tile.requiresOpen()) {
if ((int)y < lowestAir)
lowestAir = y;
}
if (tile.requiresSolid()) {
if ((int)y > highestGound)
highestGound = y;
}
if (tile.requiresLiquid()) {
if ((int)y > highestLiquid)
highestLiquid = y;
}
return false;
});
} catch (std::exception& e) {
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throw DungeonException(strf("Exception {} in part {}", outputException(e, true), m_name));
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}
highestGound = max(highestGound, highestLiquid);
if (highestGound == -1)
highestGound = lowestAir - 1;
if (lowestAir == (int)m_size[1])
lowestAir = highestGound + 1;
if (cc == 0) {
cx = m_size[0] / 2;
cy = m_size[1] / 2;
} else {
cx /= cc;
cy /= cc;
}
if (highestGound != -1)
cy = highestGound + 1;
m_anchorPoint = {cx, cy};
}
bool WorldGenMustContainSolidRule::checkTileCanPlace(Vec2I position, DungeonGeneratorWriter* writer) const {
return writer->checkSolid(position, layer);
}
bool WorldGenMustContainAirRule::checkTileCanPlace(Vec2I position, DungeonGeneratorWriter* writer) const {
return writer->checkOpen(position, layer);
}
bool WorldGenMustContainLiquidRule::checkTileCanPlace(Vec2I position, DungeonGeneratorWriter * writer) const {
return writer->checkLiquid(position);
}
bool WorldGenMustNotContainLiquidRule::checkTileCanPlace(Vec2I position, DungeonGeneratorWriter * writer) const {
return !writer->checkLiquid(position);
}
Connector::Connector(Part* part, String value, bool forwardOnly, Direction direction, Vec2I offset)
: m_value(value), m_forwardOnly(forwardOnly), m_direction(direction), m_offset(offset), m_part(part) {}
bool Connector::connectsTo(ConnectorConstPtr connector) const {
if (m_forwardOnly)
return false;
if (m_value != connector->m_value)
return false;
if (m_direction == Direction::Any || connector->m_direction == Direction::Any)
return true;
if (m_direction != flipDirection(connector->m_direction))
return false;
return true;
}
String Connector::value() const {
return m_value;
}
Vec2I Connector::positionAdjustment() const {
if (m_direction == Direction::Any)
return Vec2I(0, 0);
if (m_direction == Direction::Left)
return Vec2I(-1, 0);
if (m_direction == Direction::Right)
return Vec2I(1, 0);
if (m_direction == Direction::Up)
return Vec2I(0, 1);
starAssert(m_direction == Direction::Down);
return Vec2I(0, -1);
}
Part* Connector::part() const {
return m_part;
}
Vec2I Connector::offset() const {
return m_offset;
}
DungeonGeneratorWriter::DungeonGeneratorWriter(DungeonGeneratorWorldFacadePtr facade, Maybe<int> terrainMarkingSurfaceLevel, Maybe<int> terrainSurfaceSpaceExtends)
: m_facade(facade), m_terrainMarkingSurfaceLevel(terrainMarkingSurfaceLevel), m_terrainSurfaceSpaceExtends(terrainSurfaceSpaceExtends) {
m_currentBounds.setMin(Vec2I{std::numeric_limits<int32_t>::max(), std::numeric_limits<int32_t>::max()});
m_currentBounds.setMax(Vec2I{std::numeric_limits<int32_t>::min(), std::numeric_limits<int32_t>::min()});
}
Vec2I DungeonGeneratorWriter::wrapPosition(Vec2I const& pos) const {
return m_facade->getWorldGeometry().xwrap(pos);
}
void DungeonGeneratorWriter::setMarkDungeonId(Maybe<DungeonId> dungeonId) {
m_markDungeonId = dungeonId;
}
void DungeonGeneratorWriter::requestLiquid(Vec2I const& pos, LiquidStore const& liquid) {
m_pendingLiquids[pos] = liquid;
}
void DungeonGeneratorWriter::setLiquid(Vec2I const& pos, LiquidStore const& liquid) {
m_liquids[pos] = liquid;
markPosition(pos);
}
void DungeonGeneratorWriter::setForegroundMaterial(Vec2I const& position, MaterialId material, MaterialHue hueshift, MaterialColorVariant colorVariant) {
m_foregroundMaterial[position] = {material, hueshift, colorVariant};
markPosition(position);
}
void DungeonGeneratorWriter::setBackgroundMaterial(Vec2I const& position, MaterialId material, MaterialHue hueshift, MaterialColorVariant colorVariant) {
m_backgroundMaterial[position] = {material, hueshift, colorVariant};
markPosition(position);
}
void DungeonGeneratorWriter::setForegroundMod(Vec2I const& position, ModId mod, MaterialHue hueshift) {
m_foregroundMod[position] = {mod, hueshift};
markPosition(position);
}
void DungeonGeneratorWriter::setBackgroundMod(Vec2I const& position, ModId mod, MaterialHue hueshift) {
m_backgroundMod[position] = {mod, hueshift};
markPosition(position);
}
bool DungeonGeneratorWriter::needsForegroundBiomeMod(Vec2I const& position) {
if (!m_foregroundMaterial.contains(position))
return false;
if (!isBiomeMaterial(m_foregroundMaterial[position].material))
return false;
Vec2I abovePosition(position.x(), position.y() + 1);
if (m_foregroundMaterial.contains(abovePosition))
if (m_foregroundMaterial[abovePosition].material != EmptyMaterialId)
return false;
return true;
}
bool DungeonGeneratorWriter::needsBackgroundBiomeMod(Vec2I const& position) {
if (!m_backgroundMaterial.contains(position))
return false;
if (!isBiomeMaterial(m_backgroundMaterial[position].material))
return false;
Vec2I abovePosition(position.x(), position.y() + 1);
if (m_backgroundMaterial.contains(abovePosition))
if (m_backgroundMaterial[abovePosition].material != EmptyMaterialId)
return false;
if (m_foregroundMaterial.contains(abovePosition))
if (m_foregroundMaterial[abovePosition].material != EmptyMaterialId)
return false;
return true;
}
void DungeonGeneratorWriter::placeObject(Vec2I const& pos, String const& objectType, Star::Direction direction, Json const& parameters) {
m_objects[pos] = {objectType, direction, parameters};
markPosition(pos);
}
void DungeonGeneratorWriter::placeVehicle(Vec2F const& pos, String const& vehicleName, Json const& parameters) {
m_vehicles[pos] = make_pair(vehicleName, parameters);
markPosition(pos);
}
void DungeonGeneratorWriter::placeSurfaceBiomeItems(Vec2I const& pos) {
m_biomeItems.insert(pos);
markPosition(pos);
}
void DungeonGeneratorWriter::placeBiomeTree(Vec2I const& pos) {
m_biomeTrees.insert(pos);
markPosition(pos);
}
void DungeonGeneratorWriter::addDrop(Vec2F const& position, ItemDescriptor const& item) {
m_drops[position] = item;
markPosition(position);
}
void DungeonGeneratorWriter::requestWire(Vec2I const& position, String const& wireGroup, bool partLocal) {
if (partLocal)
m_openLocalWires[wireGroup].add(position);
else
m_globalWires[wireGroup].add(position);
}
void DungeonGeneratorWriter::spawnNpc(Vec2F const& position, Json const& definition) {
m_npcs[position] = definition;
markPosition(position);
}
void DungeonGeneratorWriter::spawnStagehand(Vec2F const& position, Json const& definition) {
m_stagehands[position] = definition;
markPosition(position);
}
void DungeonGeneratorWriter::setPlayerStart(Vec2F const& startPosition) {
m_facade->setPlayerStart(startPosition);
}
bool DungeonGeneratorWriter::checkSolid(Vec2I position, TileLayer layer) {
if (m_terrainMarkingSurfaceLevel)
return position.y() < *m_terrainMarkingSurfaceLevel;
return m_facade->checkSolid(position, layer);
}
bool DungeonGeneratorWriter::checkOpen(Vec2I position, TileLayer layer) {
if (m_terrainMarkingSurfaceLevel)
return position.y() >= *m_terrainMarkingSurfaceLevel;
return m_facade->checkOpen(position, layer);
}
bool DungeonGeneratorWriter::checkLiquid(Vec2I const& position) {
return m_facade->checkOceanLiquid(position);
}
bool DungeonGeneratorWriter::otherDungeonPresent(Vec2I position) {
return m_facade->getDungeonIdAt(position) != NoDungeonId;
}
void DungeonGeneratorWriter::setDungeonId(Vec2I const& pos, DungeonId dungeonId) {
m_dungeonIds[pos] = dungeonId;
}
void DungeonGeneratorWriter::markPosition(Vec2F const& pos) {
markPosition(Vec2I(pos.floor()));
}
void DungeonGeneratorWriter::markPosition(Vec2I const& pos) {
m_currentBounds.combine(pos);
if (m_markDungeonId)
m_dungeonIds[pos] = *m_markDungeonId;
}
void DungeonGeneratorWriter::clearTileEntities(RectI const& bounds, Set<Vec2I> const& positions, bool clearAnchoredObjects) {
m_facade->clearTileEntities(bounds, positions, clearAnchoredObjects);
}
void DungeonGeneratorWriter::finishPart() {
for (auto& entries : m_openLocalWires)
m_localWires.append(entries.second);
m_openLocalWires.clear();
if (m_currentBounds.xMin() > m_currentBounds.xMax())
return;
m_boundingBoxes.push_back(m_currentBounds);
m_currentBounds.setMin(Vec2I{std::numeric_limits<int32_t>::max(), std::numeric_limits<int32_t>::max()});
m_currentBounds.setMax(Vec2I{std::numeric_limits<int32_t>::min(), std::numeric_limits<int32_t>::min()});
}
void DungeonGeneratorWriter::flushLiquid() {
// For each liquid type, find each contiguous region of liquid, then
// pressurize that region based on the highest position in the region
Map<LiquidId, Set<Vec2I>> unpressurizedLiquids;
for (auto& p : m_pendingLiquids)
unpressurizedLiquids[p.second.liquid].add(p.first);
for (auto& liquidPair : unpressurizedLiquids) {
auto& unpressurized = liquidPair.second;
while (!unpressurized.empty()) {
// Start with the first unpressurized block as the open set.
Vec2I firstBlock = unpressurized.takeFirst();
List<Vec2I> openSet = {firstBlock};
Set<Vec2I> contiguousRegion = {firstBlock};
// For each element in the previous open set, add all connected blocks
// in
// the unpressurized set to the new open set and to the total contiguous
// region, taking them from the unpressurized set.
while (!openSet.empty()) {
auto oldOpenSet = take(openSet);
for (auto const& p : oldOpenSet) {
for (auto dir : {Vec2I(1, 0), Vec2I(-1, 0), Vec2I(0, 1), Vec2I(0, -1)}) {
Vec2I pos = p + dir;
if (unpressurized.remove(pos)) {
contiguousRegion.add(pos);
openSet.append(pos);
}
}
}
}
// Once we have found no more blocks in the unpressurized set to add to
// the open set, then we have taken a contiguous region out of the
// unpressurized set. Pressurize it based on the highest point.
int highestPoint = lowest<int>();
for (auto const& p : contiguousRegion)
highestPoint = max(highestPoint, p[1]);
for (auto const& p : contiguousRegion)
m_pendingLiquids[p].pressure = 1.0f + highestPoint - p[1];
}
}
for (auto& p : m_pendingLiquids)
setLiquid(p.first, p.second);
m_pendingLiquids.clear();
}
void DungeonGeneratorWriter::flush() {
auto geometry = m_facade->getWorldGeometry();
auto displace = [&](Vec2I pos) -> Vec2I { return geometry.xwrap(pos); };
auto displaceF = [&](Vec2F pos) -> Vec2F { return geometry.xwrap(pos); };
PolyF::VertexList terrainBlendingVertexes;
PolyF::VertexList spaceBlendingVertexes;
for (auto bb : m_boundingBoxes) {
m_facade->markRegion(bb);
if (m_terrainMarkingSurfaceLevel) {
// Mark the regions of the dungeon above the dungeon surface as needing
// space, and the regions below the surface as needing terrain
if (bb.yMin() < *m_terrainMarkingSurfaceLevel) {
RectI lower = bb;
lower.setYMax(min(lower.yMax(), *m_terrainMarkingSurfaceLevel));
terrainBlendingVertexes.append(Vec2F(lower.xMin(), lower.yMin()));
terrainBlendingVertexes.append(Vec2F(lower.xMax(), lower.yMin()));
terrainBlendingVertexes.append(Vec2F(lower.xMin(), lower.yMax()));
terrainBlendingVertexes.append(Vec2F(lower.xMax(), lower.yMax()));
}
if (bb.yMax() > *m_terrainMarkingSurfaceLevel) {
RectI upper = bb;
upper.setYMin(max(upper.yMin(), *m_terrainMarkingSurfaceLevel));
spaceBlendingVertexes.append(Vec2F(upper.xMin(), upper.yMin()));
spaceBlendingVertexes.append(Vec2F(upper.xMax(), upper.yMin()));
spaceBlendingVertexes.append(Vec2F(upper.xMin(), upper.yMax() + m_terrainSurfaceSpaceExtends.value(0)));
spaceBlendingVertexes.append(Vec2F(upper.xMax(), upper.yMax() + m_terrainSurfaceSpaceExtends.value(0)));
}
}
}
if (!terrainBlendingVertexes.empty())
m_facade->markTerrain(PolyF::convexHull(terrainBlendingVertexes));
if (!spaceBlendingVertexes.empty())
m_facade->markSpace(PolyF::convexHull(spaceBlendingVertexes));
for (auto iter = m_backgroundMaterial.begin(); iter != m_backgroundMaterial.end(); iter++)
m_facade->setBackgroundMaterial(displace(iter->first), iter->second.material, iter->second.hueshift, iter->second.colorVariant);
for (auto iter = m_foregroundMaterial.begin(); iter != m_foregroundMaterial.end(); iter++)
m_facade->setForegroundMaterial(displace(iter->first), iter->second.material, iter->second.hueshift, iter->second.colorVariant);
for (auto iter = m_foregroundMod.begin(); iter != m_foregroundMod.end(); iter++)
m_facade->setForegroundMod(displace(iter->first), iter->second.mod, iter->second.hueshift);
for (auto iter = m_backgroundMod.begin(); iter != m_backgroundMod.end(); iter++)
m_facade->setBackgroundMod(displace(iter->first), iter->second.mod, iter->second.hueshift);
List<Vec2I> sortedPositions = m_objects.keys();
sortByComputedValue(sortedPositions, [](Vec2I pos) { return pos[1] + pos[0] / 1000.0f; });
for (auto pos : sortedPositions) {
auto& object = m_objects[pos];
m_facade->placeObject(displace(pos), object.objectName, object.direction, object.parameters);
}
for (auto entry : m_vehicles) {
String vehicleName;
Json parameters;
tie(vehicleName, parameters) = entry.second;
m_facade->placeVehicle(displaceF(entry.first), vehicleName, parameters);
}
sortedPositions = List<Vec2I>::from(m_biomeTrees);
sortByComputedValue(sortedPositions, [](Vec2I pos) { return pos[1] + pos[0] / 1000.0f; });
for (auto pos : sortedPositions) {
m_facade->placeBiomeTree(pos);
}
sortedPositions = List<Vec2I>::from(m_biomeItems);
sortByComputedValue(sortedPositions, [](Vec2I pos) { return pos[1] + pos[0] / 1000.0f; });
for (auto pos : sortedPositions) {
m_facade->placeSurfaceBiomeItems(pos);
}
for (auto& npc : m_npcs) {
m_facade->spawnNpc(displaceF(npc.first), npc.second);
}
for (auto& stagehand : m_stagehands) {
m_facade->spawnStagehand(displaceF(stagehand.first), stagehand.second);
}
for (auto& wires : m_globalWires) {
List<Vec2I> wireGroup;
for (auto& pos : wires.second)
wireGroup.append(displace(pos));
m_facade->connectWireGroup(wireGroup);
}
for (auto& wires : m_localWires) {
List<Vec2I> wireGroup;
for (auto& pos : wires)
wireGroup.append(displace(pos));
m_facade->connectWireGroup(wireGroup);
}
for (auto iter = m_drops.begin(); iter != m_drops.end(); iter++)
m_facade->addDrop(displaceF(iter->first), iter->second);
for (auto iter = m_liquids.begin(); iter != m_liquids.end(); iter++)
m_facade->setLiquid(displace(iter->first), iter->second);
for (auto const& dungeonId : m_dungeonIds)
m_facade->setDungeonIdAt(dungeonId.first, dungeonId.second);
}
List<RectI> DungeonGeneratorWriter::boundingBoxes() const {
return m_boundingBoxes;
}
void DungeonGeneratorWriter::reset() {
m_currentBounds.setMin(Vec2I{std::numeric_limits<int32_t>::max(), std::numeric_limits<int32_t>::max()});
m_currentBounds.setMax(Vec2I{std::numeric_limits<int32_t>::min(), std::numeric_limits<int32_t>::min()});
m_pendingLiquids.clear();
m_foregroundMaterial.clear();
m_backgroundMaterial.clear();
m_foregroundMod.clear();
m_backgroundMod.clear();
m_objects.clear();
m_biomeTrees.clear();
m_biomeItems.clear();
m_drops.clear();
m_npcs.clear();
m_stagehands.clear();
m_liquids.clear();
m_globalWires.clear();
m_localWires.clear();
m_openLocalWires.clear();
m_boundingBoxes.clear();
}
}
DungeonDefinitions::DungeonDefinitions() : m_paths(), m_cacheMutex(), m_definitionCache(DefinitionsCacheSize) {
auto assets = Root::singleton().assets();
for (auto file : assets->scan(".dungeon")) {
Json dungeon = assets->json(file);
m_paths.insert(dungeon.get("metadata").getString("name"), file);
}
}
DungeonDefinitionConstPtr DungeonDefinitions::get(String const& name) const {
MutexLocker locker(m_cacheMutex);
return m_definitionCache.get(name,
[this](String const& name) -> DungeonDefinitionPtr {
if (auto path = m_paths.maybe(name))
return readDefinition(*path);
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throw DungeonException::format("Unknown dungeon: '{}'", name);
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});
}
JsonObject DungeonDefinitions::getMetadata(String const& name) const {
auto definition = get(name);
return definition->metadata();
}
DungeonDefinitionPtr DungeonDefinitions::readDefinition(String const& path) {
try {
auto assets = Root::singleton().assets();
return make_shared<DungeonDefinition>(assets->json(path).toObject(), AssetPath::directory(path));
} catch (std::exception const& e) {
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throw DungeonException::format("Error loading dungeon '{}': {}", path, outputException(e, false));
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}
}
DungeonDefinition::DungeonDefinition(JsonObject const& definition, String const& directory) {
m_directory = directory;
m_metadata = definition.get("metadata").toObject();
m_name = m_metadata.get("name").toString();
m_displayName = m_metadata.contains("displayName") ? m_metadata.get("displayName").toString() : "";
m_species = m_metadata.get("species").toString();
m_isProtected = m_metadata.contains("protected") ? m_metadata.get("protected").toBool() : false;
if (m_metadata.contains("rules"))
m_rules = Dungeon::Rule::readRules(m_metadata.get("rules"));
m_maxRadius = m_metadata.value("maxRadius", 100).toInt();
m_maxParts = m_metadata.value("maxParts", 100).toInt();
m_extendSurfaceFreeSpace = m_metadata.value("extendSurfaceFreeSpace", 0).toInt();
m_anchors = jsonToStringList(m_metadata.get("anchor"));
auto tileset = definition.maybe("tiles").apply([](Json const& tileset) {
return make_shared<const Dungeon::ImageTileset>(tileset);
});
for (auto const& partsDefMap : definition.get("parts").iterateArray()) {
Dungeon::PartConstPtr part = parsePart(this, partsDefMap, tileset);
if (m_parts.contains(part->name()))
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throw DungeonException::format("Duplicate dungeon part name: {}", part->name());
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m_parts.insert(part->name(), part);
}
if (m_metadata.contains("gravity"))
m_gravity = m_metadata.get("gravity").toFloat();
if (m_metadata.contains("breathable"))
m_breathable = m_metadata.get("breathable").toBool();
}
JsonObject DungeonDefinition::metadata() const {
return m_metadata;
}
String DungeonDefinition::directory() const {
return m_directory;
}
String DungeonDefinition::name() const {
return m_name;
}
String DungeonDefinition::displayName() const {
return m_displayName;
}
bool DungeonDefinition::isProtected() const {
return m_isProtected;
}
Maybe<float> DungeonDefinition::gravity() const {
return m_gravity;
}
Maybe<bool> DungeonDefinition::breathable() const {
return m_breathable;
}
StringMap<Dungeon::PartConstPtr> const& DungeonDefinition::parts() const {
return m_parts;
}
List<String> const& DungeonDefinition::anchors() const {
return m_anchors;
}
Maybe<Json> const& DungeonDefinition::optTileset() const {
return m_tileset;
}
int DungeonDefinition::maxParts() const {
return m_maxParts;
}
int DungeonDefinition::maxRadius() const {
return m_maxRadius;
}
int DungeonDefinition::extendSurfaceFreeSpace() const {
return m_extendSurfaceFreeSpace;
}
DungeonGenerator::DungeonGenerator(String const& dungeonName, uint64_t seed, float threatLevel, Maybe<DungeonId> dungeonId)
: m_rand(seed), m_threatLevel(threatLevel), m_dungeonId(dungeonId) {
m_def = Root::singleton().dungeonDefinitions()->get(dungeonName);
}
Maybe<pair<List<RectI>, Set<Vec2I>>> DungeonGenerator::generate(DungeonGeneratorWorldFacadePtr facade, Vec2I position, bool markSurfaceAndTerrain, bool forcePlacement) {
try {
Dungeon::DungeonGeneratorWriter writer(facade, markSurfaceAndTerrain ? position[1] : Maybe<int>(), m_def->extendSurfaceFreeSpace());
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Logger::debug(forcePlacement ? "Forcing generation of dungeon {}" : "Generating dungeon {}", m_def->name());
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Dungeon::PartConstPtr anchor = pickAnchor();
if (!anchor) {
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Logger::error("No valid anchor piece found for dungeon at {}", position);
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return {};
}
auto pos = position + Vec2I(0, -anchor->placementLevelConstraint());
if (forcePlacement || anchor->canPlace(pos, &writer)) {
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Logger::info("Placing dungeon at {}", position);
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return buildDungeon(anchor, pos, &writer, forcePlacement);
} else {
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Logger::debug("Failed to place a dungeon at {}", position);
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return {};
}
} catch (std::exception const& e) {
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throw DungeonException(strf("Error generating dungeon named '{}'", m_def->name()), e);
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}
}
pair<List<RectI>, Set<Vec2I>> DungeonGenerator::buildDungeon(Dungeon::PartConstPtr anchor, Vec2I basePos, Dungeon::DungeonGeneratorWriter* writer, bool forcePlacement) {
writer->reset();
Deque<std::pair<Dungeon::Part const*, Vec2I>> openSet;
StringMap<int> placementCounter;
Set<Vec2I> modifiedTiles;
Set<Vec2I> preserveTiles;
int piecesPlaced = 0;
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Logger::debug("Placing dungeon entrance at {}", basePos);
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auto placePart = [&](Dungeon::Part const* part, Vec2I const& placePos) {
Set<Vec2I> clearTileEntityPositions;
part->forEachTile([&](Vec2I tilePos, Dungeon::Tile const& tile) -> bool {
if (tile.modifiesPlaces())
clearTileEntityPositions.insert(writer->wrapPosition(placePos + tilePos));
return false;
});
auto partBounds = RectI::withSize(placePos, Vec2I(part->size()));
writer->clearTileEntities(partBounds, clearTileEntityPositions, part->clearAnchoredObjects());
if (part->markDungeonId())
writer->setMarkDungeonId(m_dungeonId);
else
writer->setMarkDungeonId();
part->place(placePos, preserveTiles, writer);
writer->finishPart();
part->forEachTile([&](Vec2I tilePos, Dungeon::Tile const& tile) -> bool {
if (tile.usesPlaces())
preserveTiles.insert(placePos + tilePos);
if (tile.modifiesPlaces())
modifiedTiles.insert(placePos + tilePos);
return false;
});
openSet.append({part, placePos});
placementCounter[part->name()]++;
piecesPlaced++;
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Logger::debug("placed {}", part->name());
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};
placePart(anchor.get(), basePos);
Vec2I origin = basePos + Vec2I(anchor->size()) / 2;
Set<Vec2I> closedConnectors;
while (openSet.size()) {
Dungeon::Part const* parentPart = openSet.first().first;
Vec2I parentPos = openSet.first().second;
openSet.takeFirst();
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Logger::debug("Trying to add part {} at {} connectors: {}", parentPart->name(), parentPos, parentPart->connections().size());
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for (size_t i = 0; i < parentPart->connections().size(); i++) {
auto connector = parentPart->connections()[i];
Vec2I connectorPos = parentPos + connector->offset();
if (closedConnectors.contains(connectorPos))
continue;
List<Dungeon::ConnectorConstPtr> options = findConnectablePart(connector);
while (options.size()) {
Dungeon::ConnectorConstPtr option = chooseOption(options, m_rand);
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Logger::debug("Trying part {}", option->part()->name());
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Vec2I partPos = connectorPos - option->offset() + option->positionAdjustment();
Vec2I optionPos = connectorPos + option->positionAdjustment();
if (!option->part()->ignoresPartMaximum()) {
if (piecesPlaced >= m_def->maxParts())
continue;
if ((partPos - origin).magnitude() > m_def->maxRadius()) {
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Logger::debug("out of range. {} ... {}", partPos, origin);
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continue;
}
}
if (!option->part()->allowsPlacement(placementCounter[option->part()->name()])) {
Logger::debug("part failed in allowsPlacement");
continue;
}
if (!option->part()->checkPartCombinationsAllowed(placementCounter)) {
Logger::debug("part failed in checkPartCombinationsAllowed");
continue;
}
if (option->part()->collidesWithPlaces(partPos, preserveTiles)) {
Logger::debug("part failed in collidesWithPlaces");
continue;
}
if (option->part()->minimumThreatLevel() && m_threatLevel < *option->part()->minimumThreatLevel()) {
Logger::debug("part failed in minimumThreatLevel");
continue;
}
if (option->part()->maximumThreatLevel() && m_threatLevel > *option->part()->maximumThreatLevel()) {
Logger::debug("part failed in maximumThreatLevel");
continue;
}
if (forcePlacement || option->part()->canPlace(partPos, writer)) {
placePart(option->part(), partPos);
closedConnectors.add(connectorPos);
closedConnectors.add(optionPos);
break;
} else {
Logger::debug("part failed in canPlace");
}
}
}
}
Logger::debug("Settling dungeon water.");
writer->flushLiquid();
Logger::debug("Flushing dungeon into the worldgen.");
writer->flush();
return {writer->boundingBoxes(), modifiedTiles};
}
Dungeon::PartConstPtr DungeonGenerator::pickAnchor() {
auto validAnchors = m_def->anchors().filtered([this](String const& anchorName) {
auto anchorPart = m_def->parts().get(anchorName);
return (!anchorPart->minimumThreatLevel() || m_threatLevel >= *anchorPart->minimumThreatLevel())
&& (!anchorPart->maximumThreatLevel() || m_threatLevel <= *anchorPart->maximumThreatLevel());
});
if (validAnchors.empty())
return {};
return m_def->parts().get(m_rand.randFrom(validAnchors));
}
List<Dungeon::ConnectorConstPtr> DungeonGenerator::findConnectablePart(Dungeon::ConnectorConstPtr connector) const {
List<Dungeon::ConnectorConstPtr> result;
for (auto const& partPair : m_def->parts()) {
if (partPair.second->doesNotConnectTo(connector->part()))
continue;
for (auto const& connection : partPair.second->connections()) {
if (connection->connectsTo(connector))
result.append(connection);
}
}
return result;
}
DungeonDefinitionConstPtr DungeonGenerator::definition() const {
return m_def;
}
}