osb/source/game/StarMonster.cpp

868 lines
30 KiB
C++
Raw Normal View History

2023-06-20 04:33:09 +00:00
#include "StarMonster.hpp"
#include "StarWorld.hpp"
#include "StarLogging.hpp"
#include "StarRoot.hpp"
#include "StarDamageManager.hpp"
#include "StarDamageDatabase.hpp"
#include "StarTreasure.hpp"
#include "StarJsonExtra.hpp"
#include "StarConfigLuaBindings.hpp"
#include "StarEntityLuaBindings.hpp"
#include "StarWorldLuaBindings.hpp"
#include "StarNetworkedAnimatorLuaBindings.hpp"
#include "StarStatusControllerLuaBindings.hpp"
#include "StarScriptedAnimatorLuaBindings.hpp"
#include "StarRootLuaBindings.hpp"
#include "StarBehaviorLuaBindings.hpp"
#include "StarStoredFunctions.hpp"
#include "StarItemDrop.hpp"
#include "StarAssets.hpp"
#include "StarTime.hpp"
#include "StarStatusController.hpp"
namespace Star {
Monster::Monster(MonsterVariant const& monsterVariant, Maybe<float> level) {
m_monsterLevel = level;
m_damageOnTouch = false;
m_aggressive = false;
m_knockedOut = false;
m_knockoutTimer = 0.0;
m_dropPool = monsterVariant.dropPoolConfig;
m_monsterVariant = monsterVariant;
m_questIndicatorOffset = jsonToVec2F(Root::singleton().assets()->json("/quests/quests.config:defaultIndicatorOffset"));
setTeam(EntityDamageTeam(m_monsterVariant.damageTeamType, m_monsterVariant.damageTeam));
m_networkedAnimator = NetworkedAnimator(m_monsterVariant.animatorConfig);
for (auto const& pair : m_monsterVariant.animatorPartTags)
m_networkedAnimator.setPartTag(pair.first, "partImage", pair.second);
m_networkedAnimator.setZoom(m_monsterVariant.animatorZoom);
auto colorSwap = m_monsterVariant.colorSwap.value(Root::singleton().monsterDatabase()->colorSwap(m_monsterVariant.parameters.getString("colors", "default"), m_monsterVariant.seed));
if (!colorSwap.empty())
m_networkedAnimator.setProcessingDirectives(imageOperationToString(ColorReplaceImageOperation{colorSwap}));
m_statusController = make_shared<StatusController>(m_monsterVariant.statusSettings);
m_scriptComponent.setScripts(m_monsterVariant.parameters.optArray("scripts").apply(jsonToStringList).value(m_monsterVariant.scripts));
m_scriptComponent.setUpdateDelta(m_monsterVariant.initialScriptDelta);
auto movementParameters = ActorMovementParameters::sensibleDefaults().merge(ActorMovementParameters(monsterVariant.movementSettings));
if (movementParameters.standingPoly)
movementParameters.standingPoly->scale(m_monsterVariant.animatorZoom);
if (movementParameters.crouchingPoly)
movementParameters.crouchingPoly->scale(m_monsterVariant.animatorZoom);
*movementParameters.walkSpeed *= monsterVariant.walkMultiplier;
*movementParameters.runSpeed *= monsterVariant.runMultiplier;
*movementParameters.airJumpProfile.jumpSpeed *= monsterVariant.jumpMultiplier;
*movementParameters.liquidJumpProfile.jumpSpeed *= monsterVariant.jumpMultiplier;
*movementParameters.mass *= monsterVariant.weightMultiplier;
if (!movementParameters.physicsEffectCategories)
movementParameters.physicsEffectCategories = StringSet{"monster"};
m_movementController = make_shared<ActorMovementController>(movementParameters);
setPersistent(m_monsterVariant.persistent);
setupNetStates();
setNetStates();
}
Monster::Monster(Json const& diskStore)
: Monster(Root::singleton().monsterDatabase()->readMonsterVariantFromJson(diskStore.get("monsterVariant"))) {
m_monsterLevel = diskStore.optFloat("monsterLevel");
m_movementController->loadState(diskStore.get("movementState"));
m_statusController->diskLoad(diskStore.get("statusController"));
m_damageOnTouch = diskStore.getBool("damageOnTouch");
m_aggressive = diskStore.getBool("aggressive");
m_deathParticleBurst = diskStore.getString("deathParticleBurst");
m_deathSound = diskStore.getString("deathSound");
m_activeSkillName = diskStore.getString("activeSkillName");
m_dropPool = diskStore.get("dropPool");
m_effectEmitter.fromJson(diskStore.get("effectEmitter"));
m_scriptComponent.setScriptStorage(diskStore.getObject("scriptStorage"));
setUniqueId(diskStore.optString("uniqueId"));
if (diskStore.contains("team"))
setTeam(EntityDamageTeam(diskStore.get("team")));
}
Json Monster::diskStore() const {
return JsonObject{
{"monsterLevel", jsonFromMaybe(m_monsterLevel)},
{"movementState", m_movementController->storeState()},
{"statusController", m_statusController->diskStore()},
{"damageOnTouch", m_damageOnTouch},
{"aggressive", aggressive()},
{"deathParticleBurst", m_deathParticleBurst},
{"deathSound", m_deathSound},
{"activeSkillName", m_activeSkillName},
{"dropPool", m_dropPool},
{"effectEmitter", m_effectEmitter.toJson()},
{"monsterVariant", Root::singleton().monsterDatabase()->writeMonsterVariantToJson(m_monsterVariant)},
{"scriptStorage", m_scriptComponent.getScriptStorage()},
{"uniqueId", jsonFromMaybe(uniqueId())},
{"team", getTeam().toJson()}
};
}
ByteArray Monster::netStore() {
return Root::singleton().monsterDatabase()->writeMonsterVariant(m_monsterVariant);
}
EntityType Monster::entityType() const {
return EntityType::Monster;
}
ClientEntityMode Monster::clientEntityMode() const {
return m_monsterVariant.clientEntityMode;
}
void Monster::init(World* world, EntityId entityId, EntityMode mode) {
Entity::init(world, entityId, mode);
m_movementController->init(world);
m_movementController->setIgnorePhysicsEntities({entityId});
m_statusController->init(this, m_movementController.get());
if (!m_monsterLevel)
m_monsterLevel = world->threatLevel();
if (isMaster()) {
auto functionDatabase = Root::singleton().functionDatabase();
float healthMultiplier = m_monsterVariant.healthMultiplier * functionDatabase->function(m_monsterVariant.healthLevelFunction)->evaluate(*m_monsterLevel);
m_statusController->setPersistentEffects("innate", {StatModifier(StatBaseMultiplier{"maxHealth", healthMultiplier})});
m_scriptComponent.addCallbacks("monster", makeMonsterCallbacks());
m_scriptComponent.addCallbacks("config", LuaBindings::makeConfigCallbacks([this](String const& name, Json const& def) {
return m_monsterVariant.parameters.query(name, def);
}));
m_scriptComponent.addCallbacks("entity", LuaBindings::makeEntityCallbacks(this));
m_scriptComponent.addCallbacks("animator", LuaBindings::makeNetworkedAnimatorCallbacks(&m_networkedAnimator));
m_scriptComponent.addCallbacks("status", LuaBindings::makeStatusControllerCallbacks(m_statusController.get()));
m_scriptComponent.addCallbacks("behavior", LuaBindings::makeBehaviorLuaCallbacks(&m_behaviors));
m_scriptComponent.addActorMovementCallbacks(m_movementController.get());
m_scriptComponent.init(world);
}
if (world->isClient()) {
m_scriptedAnimator.setScripts(m_monsterVariant.animationScripts);
m_scriptedAnimator.addCallbacks("animationConfig", LuaBindings::makeScriptedAnimatorCallbacks(&m_networkedAnimator,
[this](String const& name, Json const& defaultValue) -> Json {
return m_scriptedAnimationParameters.value(name, defaultValue);
}));
m_scriptedAnimator.addCallbacks("config", LuaBindings::makeConfigCallbacks([this](String const& name, Json const& def) {
return m_monsterVariant.parameters.query(name, def);
}));
m_scriptedAnimator.addCallbacks("entity", LuaBindings::makeEntityCallbacks(this));
m_scriptedAnimator.init(world);
}
setPosition(position());
}
void Monster::uninit() {
if (isMaster()) {
m_scriptComponent.uninit();
m_scriptComponent.removeCallbacks("monster");
m_scriptComponent.removeCallbacks("config");
m_scriptComponent.removeCallbacks("entity");
m_scriptComponent.removeCallbacks("animator");
m_scriptComponent.removeCallbacks("status");
m_scriptComponent.removeActorMovementCallbacks();
}
if (world()->isClient()) {
m_scriptedAnimator.removeCallbacks("animationConfig");
m_scriptedAnimator.removeCallbacks("config");
m_scriptedAnimator.removeCallbacks("entity");
}
m_statusController->uninit();
m_movementController->uninit();
Entity::uninit();
}
Vec2F Monster::mouthOffset() const {
return getAbsolutePosition(m_monsterVariant.mouthOffset) - position();
}
Vec2F Monster::feetOffset() const {
return getAbsolutePosition(m_monsterVariant.feetOffset) - position();
}
Vec2F Monster::position() const {
return m_movementController->position();
}
RectF Monster::metaBoundBox() const {
return m_monsterVariant.metaBoundBox;
}
RectF Monster::collisionArea() const {
return m_movementController->collisionPoly().boundBox();
}
Vec2F Monster::velocity() const {
return m_movementController->velocity();
}
pair<ByteArray, uint64_t> Monster::writeNetState(uint64_t fromVersion) {
return m_netGroup.writeNetState(fromVersion);
}
void Monster::readNetState(ByteArray data, float interpolationTime) {
m_netGroup.readNetState(move(data), interpolationTime);
}
void Monster::enableInterpolation(float extrapolationHint) {
m_netGroup.enableNetInterpolation(extrapolationHint);
}
void Monster::disableInterpolation() {
m_netGroup.disableNetInterpolation();
}
String Monster::description() const {
return m_monsterVariant.description.value("Some indescribable horror");
}
Maybe<HitType> Monster::queryHit(DamageSource const& source) const {
if (!inWorld() || m_knockedOut || m_statusController->statPositive("invulnerable"))
return {};
if (source.intersectsWithPoly(world()->geometry(), hitPoly().get()))
return HitType::Hit;
return {};
}
Maybe<PolyF> Monster::hitPoly() const {
PolyF hitBody = m_monsterVariant.selfDamagePoly;
hitBody.rotate(m_movementController->rotation());
hitBody.translate(position());
return hitBody;
}
List<DamageNotification> Monster::applyDamage(DamageRequest const& damage) {
if (!inWorld())
return {};
auto notifications = m_statusController->applyDamageRequest(damage);
float totalDamage = 0.0f;
for (auto const& notification : notifications)
totalDamage += notification.healthLost;
if (totalDamage > 0.0f) {
m_scriptComponent.invoke("damage", JsonObject{
{"sourceId", damage.sourceEntityId},
{"damage", totalDamage},
{"sourceDamage", damage.damage},
{"sourceKind", damage.damageSourceKind}
});
}
if (!m_statusController->resourcePositive("health"))
m_deathDamageSourceKinds.add(damage.damageSourceKind);
return notifications;
}
List<DamageNotification> Monster::selfDamageNotifications() {
return m_statusController->pullSelfDamageNotifications();
}
List<DamageSource> Monster::damageSources() const {
List<DamageSource> damageSources = m_damageSources.get();
float levelPowerMultiplier = Root::singleton().functionDatabase()->function(m_monsterVariant.powerLevelFunction)->evaluate(*m_monsterLevel);
if (m_damageOnTouch && !m_monsterVariant.touchDamageConfig.isNull()) {
DamageSource damageSource(m_monsterVariant.touchDamageConfig);
if (auto damagePoly = damageSource.damageArea.ptr<PolyF>())
damagePoly->rotate(m_movementController->rotation());
damageSource.damage *= m_monsterVariant.touchDamageMultiplier * levelPowerMultiplier * m_statusController->stat("powerMultiplier");
damageSource.sourceEntityId = entityId();
damageSource.team = getTeam();
damageSources.append(damageSource);
}
auto animationDamageParts = m_monsterVariant.animationDamageParts;
for (auto pair : m_monsterVariant.animationDamageParts) {
if (!m_animationDamageParts.get().contains(pair.first))
continue;
String anchorPart = pair.second.getString("anchorPart");
DamageSource ds = DamageSource(pair.second.get("damageSource"));
ds.damage *= levelPowerMultiplier * m_statusController->stat("powerMultiplier");
ds.damageArea.call([this,&anchorPart](auto& poly) {
poly.transform(m_networkedAnimator.partTransformation(anchorPart));
if (m_networkedAnimator.flipped())
poly.flipHorizontal(m_networkedAnimator.flippedRelativeCenterLine());
});
if (ds.knockback.is<Vec2F>()) {
Vec2F knockback = ds.knockback.get<Vec2F>();
knockback = m_networkedAnimator.partTransformation(anchorPart).transformVec2(knockback);
if (m_networkedAnimator.flipped())
knockback = Vec2F(-knockback[0], knockback[1]);
ds.knockback = knockback;
}
List<DamageSource> partSources;
if (auto line = ds.damageArea.maybe<Line2F>()) {
if (pair.second.getBool("checkLineCollision", false)) {
Line2F worldLine = line.value().translated(position());
float length = worldLine.length();
auto bounces = pair.second.getInt("bounces", 0);
while (auto collision = world()->lineTileCollisionPoint(worldLine.min(), worldLine.max())) {
worldLine = Line2F(worldLine.min(), collision.value().first);
ds.damageArea = worldLine.translated(-position());
length = length - worldLine.length();
if (--bounces >= 0 && length > 0.0f) {
partSources.append(ds);
ds = DamageSource(ds);
Vec2F dir = worldLine.direction();
Vec2F normal = Vec2F((*collision).second);
Vec2F reflection = dir - (2 * dir.piecewiseMultiply(normal).sum() * normal);
if (ds.knockback.is<Vec2F>())
ds.knockback = ds.knockback.get<Vec2F>().rotate(reflection.angleBetween(worldLine.direction()));
worldLine.min() = (*collision).first;
worldLine.max() = worldLine.min() + (reflection * length);
ds.damageArea = worldLine.translated(-position());
} else {
break;
}
}
partSources.append(ds);
}
} else {
partSources.append(ds);
}
damageSources.appendAll(partSources);
}
return damageSources;
}
bool Monster::shouldDie() {
if (auto res = m_scriptComponent.invoke<bool>("shouldDie"))
return *res;
else if (!m_statusController->resourcePositive("health") || m_scriptComponent.error())
return true;
else
return false;
}
void Monster::knockout() {
m_knockedOut = true;
m_knockoutTimer = m_monsterVariant.parameters.getFloat("knockoutTime", 1.0f);
m_damageOnTouch = false;
String knockoutEffect = m_monsterVariant.parameters.getString("knockoutEffect");
if (!knockoutEffect.empty())
m_networkedAnimator.setEffectEnabled(knockoutEffect, true);
auto knockoutAnimationStates = m_monsterVariant.parameters.getObject("knockoutAnimationStates", JsonObject());
for (auto pair : knockoutAnimationStates)
m_networkedAnimator.setState(pair.first, pair.second.toString());
}
bool Monster::shouldDestroy() const {
return m_knockedOut && m_knockoutTimer <= 0;
}
void Monster::destroy(RenderCallback* renderCallback) {
m_scriptComponent.invoke("die");
if (isMaster() && !m_dropPool.isNull()) {
auto treasureDatabase = Root::singleton().treasureDatabase();
String treasurePool;
if (m_dropPool.isType(Json::Type::String)) {
treasurePool = m_dropPool.toString();
} else {
// Check to see whether any of the damage types that were used to cause
// death are in the damage pool map, if so spawn treasure from that,
// otherwise set the treasure pool to the "default" entry.
for (auto const& damageSourceKind : m_deathDamageSourceKinds) {
if (m_dropPool.contains(damageSourceKind))
treasurePool = m_dropPool.getString(damageSourceKind);
}
if (treasurePool.empty())
treasurePool = m_dropPool.getString("default");
}
for (auto const& treasureItem : treasureDatabase->createTreasure(treasurePool, *m_monsterLevel))
world()->addEntity(ItemDrop::createRandomizedDrop(treasureItem, position()));
}
if (renderCallback) {
if (!m_deathParticleBurst.empty())
m_networkedAnimator.burstParticleEmitter(m_deathParticleBurst);
if (!m_deathSound.empty())
m_networkedAnimator.playSound(m_deathSound);
m_networkedAnimator.update(0.0, &m_networkedAnimatorDynamicTarget);
renderCallback->addAudios(m_networkedAnimatorDynamicTarget.pullNewAudios());
renderCallback->addParticles(m_networkedAnimatorDynamicTarget.pullNewParticles());
renderCallback->addParticles(m_statusController->pullNewParticles());
}
m_deathDamageSourceKinds.clear();
if (isMaster())
setNetStates();
}
List<LightSource> Monster::lightSources() const {
auto lightSources = m_networkedAnimator.lightSources(position());
lightSources.appendAll(m_statusController->lightSources());
return lightSources;
}
void Monster::hitOther(EntityId targetEntityId, DamageRequest const& damageRequest) {
if (inWorld() && isMaster())
m_statusController->hitOther(targetEntityId, damageRequest);
}
void Monster::damagedOther(DamageNotification const& damage) {
if (inWorld() && isMaster())
m_statusController->damagedOther(damage);
}
void Monster::update(uint64_t) {
if (!inWorld())
return;
if (isMaster()) {
m_networkedAnimator.setFlipped((m_movementController->facingDirection() == Direction::Left) != m_monsterVariant.reversed);
if (m_knockedOut) {
m_knockoutTimer -= WorldTimestep;
} else {
if (m_scriptComponent.updateReady())
m_physicsForces.set({});
m_scriptComponent.update(m_scriptComponent.updateDt());
if (shouldDie())
knockout();
}
m_movementController->tickMaster();
m_statusController->tickMaster();
updateStatus();
} else {
m_netGroup.tickNetInterpolation(WorldTimestep);
m_statusController->tickSlave();
updateStatus();
m_movementController->tickSlave();
}
if (world()->isServer()) {
m_networkedAnimator.update(WorldTimestep, nullptr);
} else {
m_networkedAnimator.update(WorldTimestep, &m_networkedAnimatorDynamicTarget);
m_networkedAnimatorDynamicTarget.updatePosition(position());
m_scriptedAnimator.update();
2023-06-27 14:50:47 +00:00
SpatialLogger::logPoly("world", m_movementController->collisionBody(), { 255, 0, 0, 255 });
}
2023-06-20 04:33:09 +00:00
}
void Monster::render(RenderCallback* renderCallback) {
for (auto& drawable : m_networkedAnimator.drawables(position())) {
if (drawable.isImage())
2023-06-25 08:12:54 +00:00
drawable.imagePart().addDirectivesGroup(m_statusController->parentDirectives(), true);
2023-06-20 04:33:09 +00:00
renderCallback->addDrawable(move(drawable), m_monsterVariant.renderLayer);
}
renderCallback->addAudios(m_networkedAnimatorDynamicTarget.pullNewAudios());
renderCallback->addParticles(m_networkedAnimatorDynamicTarget.pullNewParticles());
renderCallback->addLightSources(m_networkedAnimator.lightSources(position()));
renderCallback->addDrawables(m_statusController->drawables(), m_monsterVariant.renderLayer);
renderCallback->addLightSources(m_statusController->lightSources());
renderCallback->addParticles(m_statusController->pullNewParticles());
renderCallback->addAudios(m_statusController->pullNewAudios());
m_effectEmitter.render(renderCallback);
for (auto drawablePair : m_scriptedAnimator.drawables())
renderCallback->addDrawable(drawablePair.first, drawablePair.second.value(m_monsterVariant.renderLayer));
renderCallback->addLightSources(m_scriptedAnimator.lightSources());
renderCallback->addAudios(m_scriptedAnimator.pullNewAudios());
renderCallback->addParticles(m_scriptedAnimator.pullNewParticles());
}
void Monster::setPosition(Vec2F const& pos) {
m_movementController->setPosition(pos);
}
Maybe<Json> Monster::receiveMessage(ConnectionId sendingConnection, String const& message, JsonArray const& args) {
Maybe<Json> result = m_scriptComponent.handleMessage(message, world()->connection() == sendingConnection, args);
if (!result)
result = m_statusController->receiveMessage(message, world()->connection() == sendingConnection, args);
return result;
}
float Monster::maxHealth() const {
return *m_statusController->resourceMax("health");
}
float Monster::health() const {
return m_statusController->resource("health");
}
DamageBarType Monster::damageBar() const {
return m_damageBar.get();
}
Vec2F Monster::getAbsolutePosition(Vec2F relativePosition) const {
if (m_movementController->facingDirection() == Direction::Left)
relativePosition[0] *= -1;
if (m_movementController->rotation() != 0)
relativePosition = relativePosition.rotate(m_movementController->rotation());
return m_movementController->position() + relativePosition;
}
void Monster::updateStatus() {
m_effectEmitter.setSourcePosition("normal", position());
m_effectEmitter.setSourcePosition("mouth", position() + mouthOffset());
m_effectEmitter.setSourcePosition("feet", position() + feetOffset());
m_effectEmitter.setDirection(m_movementController->facingDirection());
m_effectEmitter.tick(*entityMode());
}
LuaCallbacks Monster::makeMonsterCallbacks() {
LuaCallbacks callbacks;
callbacks.registerCallback("type", [this]() {
return m_monsterVariant.type;
});
callbacks.registerCallback("seed", [this]() {
2023-06-27 10:23:44 +00:00
return strf("{}", m_monsterVariant.seed);
2023-06-20 04:33:09 +00:00
});
callbacks.registerCallback("uniqueParameters", [this]() {
return m_monsterVariant.uniqueParameters;
});
callbacks.registerCallback("level", [this]() {
return *m_monsterLevel;
});
callbacks.registerCallback("setDamageOnTouch", [this](bool arg1) {
m_damageOnTouch = arg1;
});
callbacks.registerCallback("setDamageSources", [this](Maybe<JsonArray> const& damageSources) {
m_damageSources.set(damageSources.value().transformed(construct<DamageSource>()));
});
callbacks.registerCallback("setDamageParts", [this](StringSet const& parts) {
m_animationDamageParts.set(parts);
});
callbacks.registerCallback("setAggressive", [this](bool arg1) {
m_aggressive = arg1;
});
callbacks.registerCallback("setActiveSkillName", [this](Maybe<String> const& activeSkillName) {
m_activeSkillName = activeSkillName.value();
});
callbacks.registerCallback("setDropPool", [this](Json dropPool) {
m_dropPool = move(dropPool);
});
callbacks.registerCallback("toAbsolutePosition", [this](Vec2F const& p) {
return getAbsolutePosition(p);
});
callbacks.registerCallback("mouthPosition", [this]() {
return mouthPosition();
});
// This callback is registered here rather than in
// makeActorMovementControllerCallbacks
// because it requires access to world
callbacks.registerCallback("flyTo", [this](Vec2F const& arg1) {
m_movementController->controlFly(world()->geometry().diff(arg1, position()));
});
callbacks.registerCallback("setDeathParticleBurst", [this](Maybe<String> const& arg1) {
m_deathParticleBurst = arg1.value();
});
callbacks.registerCallback("setDeathSound", [this](Maybe<String> const& arg1) {
m_deathSound = arg1.value();
});
callbacks.registerCallback("setPhysicsForces", [this](JsonArray const& forces) {
m_physicsForces.set(forces.transformed(jsonToPhysicsForceRegion));
});
callbacks.registerCallback("setName", [this](String const& name) {
m_name.set(name);
});
callbacks.registerCallback("setDisplayNametag", [this](bool display) {
m_displayNametag.set(display);
});
callbacks.registerCallback("say", [this](String line, Maybe<StringMap<String>> const& tags) {
if (tags)
line = line.replaceTags(*tags, false);
if (!line.empty()) {
addChatMessage(line);
return true;
}
return false;
});
callbacks.registerCallback("sayPortrait", [this](String line, String portrait, Maybe<StringMap<String>> const& tags) {
if (tags)
line = line.replaceTags(*tags, false);
if (!line.empty()) {
addChatMessage(line, portrait);
return true;
}
return false;
});
callbacks.registerCallback("setDamageTeam", [this](Json const& team) {
setTeam(EntityDamageTeam(team));
});
callbacks.registerCallback("setUniqueId", [this](Maybe<String> uniqueId) {
setUniqueId(uniqueId);
});
callbacks.registerCallback("setDamageBar", [this](String const& damageBarType) {
m_damageBar.set(DamageBarTypeNames.getLeft(damageBarType));
});
callbacks.registerCallback("setInteractive", [this](bool interactive) {
m_interactive.set(interactive);
});
callbacks.registerCallback("setAnimationParameter", [this](String name, Json value) {
m_scriptedAnimationParameters.set(move(name), move(value));
});
return callbacks;
}
void Monster::addChatMessage(String const& message, String const& portrait) {
m_chatMessage.set(message);
m_chatPortrait.set(portrait);
m_newChatMessageEvent.trigger();
if (portrait.empty())
m_pendingChatActions.append(SayChatAction{entityId(), message, mouthPosition()});
else
m_pendingChatActions.append(PortraitChatAction{entityId(), portrait, message, mouthPosition()});
}
void Monster::setupNetStates() {
m_netGroup.addNetElement(&m_uniqueIdNetState);
m_netGroup.addNetElement(&m_teamNetState);
m_netGroup.addNetElement(&m_monsterLevelNetState);
m_netGroup.addNetElement(&m_damageOnTouchNetState);
m_netGroup.addNetElement(&m_damageSources);
m_netGroup.addNetElement(&m_aggressiveNetState);
m_netGroup.addNetElement(&m_knockedOutNetState);
m_netGroup.addNetElement(&m_deathParticleBurstNetState);
m_netGroup.addNetElement(&m_deathSoundNetState);
m_netGroup.addNetElement(&m_activeSkillNameNetState);
m_netGroup.addNetElement(&m_name);
m_netGroup.addNetElement(&m_displayNametag);
m_netGroup.addNetElement(&m_dropPoolNetState);
m_netGroup.addNetElement(&m_physicsForces);
m_netGroup.addNetElement(&m_networkedAnimator);
m_netGroup.addNetElement(m_movementController.get());
m_netGroup.addNetElement(m_statusController.get());
m_netGroup.addNetElement(&m_effectEmitter);
m_netGroup.addNetElement(&m_newChatMessageEvent);
m_netGroup.addNetElement(&m_chatMessage);
m_netGroup.addNetElement(&m_chatPortrait);
m_netGroup.addNetElement(&m_damageBar);
m_netGroup.addNetElement(&m_interactive);
// don't interpolate scripted animation parameters or animationdamageparts
m_netGroup.addNetElement(&m_animationDamageParts, false);
m_netGroup.addNetElement(&m_scriptedAnimationParameters, false);
m_netGroup.setNeedsLoadCallback(bind(&Monster::getNetStates, this, _1));
m_netGroup.setNeedsStoreCallback(bind(&Monster::setNetStates, this));
}
void Monster::setNetStates() {
m_uniqueIdNetState.set(uniqueId());
m_teamNetState.set(getTeam());
m_monsterLevelNetState.set(m_monsterLevel);
m_damageOnTouchNetState.set(m_damageOnTouch);
m_aggressiveNetState.set(aggressive());
m_knockedOutNetState.set(m_knockedOut);
m_deathParticleBurstNetState.set(m_deathParticleBurst);
m_deathSoundNetState.set(m_deathSound);
m_activeSkillNameNetState.set(m_activeSkillName);
m_dropPoolNetState.set(m_dropPool);
}
void Monster::getNetStates(bool initial) {
setUniqueId(m_uniqueIdNetState.get());
setTeam(m_teamNetState.get());
m_monsterLevel = m_monsterLevelNetState.get();
m_damageOnTouch = m_damageOnTouchNetState.get();
m_aggressive = m_aggressiveNetState.get();
m_knockedOut = m_knockedOutNetState.get();
if (m_deathParticleBurstNetState.pullUpdated())
m_deathParticleBurst = m_deathParticleBurstNetState.get();
if (m_deathSoundNetState.pullUpdated())
m_deathSound = m_deathSoundNetState.get();
if (m_activeSkillNameNetState.pullUpdated())
m_activeSkillName = m_activeSkillNameNetState.get();
if (m_dropPoolNetState.pullUpdated())
m_dropPool = m_dropPoolNetState.get();
if (m_newChatMessageEvent.pullOccurred() && !initial) {
if (m_chatPortrait.get().empty())
m_pendingChatActions.append(SayChatAction{entityId(), m_chatMessage.get(), mouthPosition()});
else
m_pendingChatActions.append(
PortraitChatAction{entityId(), m_chatPortrait.get(), m_chatMessage.get(), mouthPosition()});
}
}
float Monster::monsterLevel() const {
return *m_monsterLevel;
}
Monster::SkillInfo Monster::activeSkillInfo() const {
SkillInfo skillInfo;
if (!m_activeSkillName.empty()) {
auto monsterDatabase = Root::singleton().monsterDatabase();
auto monsterSkillInfo = monsterDatabase->skillInfo(m_activeSkillName);
skillInfo.label = monsterSkillInfo.first;
skillInfo.image = monsterSkillInfo.second;
}
return skillInfo;
}
List<Drawable> Monster::portrait(PortraitMode) const {
if (m_monsterVariant.portraitIcon) {
return {Drawable::makeImage(*m_monsterVariant.portraitIcon, 1.0f, true, Vec2F())};
} else {
auto animator = m_networkedAnimator;
animator.setFlipped(!m_monsterVariant.reversed);
auto drawables = animator.drawables();
Drawable::scaleAll(drawables, TilePixels);
return drawables;
}
}
String Monster::name() const {
return m_name.get().orMaybe(m_monsterVariant.shortDescription).value("");
}
String Monster::typeName() const {
return m_monsterVariant.type;
}
MonsterVariant Monster::monsterVariant() const {
return m_monsterVariant;
}
Maybe<String> Monster::statusText() const {
return {};
}
bool Monster::displayNametag() const {
return m_displayNametag.get();
}
Vec3B Monster::nametagColor() const {
return m_monsterVariant.nametagColor;
}
Vec2F Monster::nametagOrigin() const {
return mouthPosition(false);
}
2023-06-20 04:33:09 +00:00
bool Monster::aggressive() const {
return m_aggressive;
}
Maybe<LuaValue> Monster::callScript(String const& func, LuaVariadic<LuaValue> const& args) {
return m_scriptComponent.invoke(func, args);
}
Maybe<LuaValue> Monster::evalScript(String const& code) {
return m_scriptComponent.eval(code);
}
Vec2F Monster::mouthPosition() const {
return mouthOffset() + position();
}
Vec2F Monster::mouthPosition(bool) const {
return mouthPosition();
}
2023-06-20 04:33:09 +00:00
List<ChatAction> Monster::pullPendingChatActions() {
return std::move(m_pendingChatActions);
}
List<PhysicsForceRegion> Monster::forceRegions() const {
return m_physicsForces.get();
}
InteractAction Monster::interact(InteractRequest const& request) {
auto result = m_scriptComponent.invoke<Json>("interact", JsonObject{{"sourceId", request.sourceId}, {"sourcePosition", jsonFromVec2F(request.sourcePosition)}}).value();
if (result.isNull())
return {};
if (result.isType(Json::Type::String))
return InteractAction(result.toString(), entityId(), {});
return InteractAction(result.getString(0), entityId(), result.get(1));
}
bool Monster::isInteractive() const {
return m_interactive.get();
}
Vec2F Monster::questIndicatorPosition() const {
Vec2F pos = position() + m_questIndicatorOffset;
pos[1] += collisionArea().yMax();
return pos;
}
}