use specs::{world::WorldExt, Builder, Entity as EcsEntity, Join}; use vek::*; use common::{ assets, comp::{ self, agent::{AgentEvent, Sound, SoundKind}, dialogue::Subject, inventory::slot::EquipSlot, loot_owner::LootOwnerKind, tool::ToolKind, Inventory, LootOwner, Pos, SkillGroupKind, }, consts::{MAX_MOUNT_RANGE, SOUND_TRAVEL_DIST_PER_VOLUME}, event::EventBus, link::Is, mounting::{Mount, Mounting, Rider}, outcome::Outcome, terrain::{Block, SpriteKind}, uid::Uid, vol::ReadVol, }; use common_net::sync::WorldSyncExt; use crate::{state_ext::StateExt, Server}; use crate::pet::tame_pet; use hashbrown::{HashMap, HashSet}; use lazy_static::lazy_static; use serde::Deserialize; use std::iter::FromIterator; pub fn handle_lantern(server: &mut Server, entity: EcsEntity, enable: bool) { let ecs = server.state_mut().ecs(); let lantern_exists = ecs .read_storage::() .get(entity) .map_or(false, |light| light.strength > 0.0); if lantern_exists != enable { if !enable { server .state_mut() .ecs() .write_storage::() .remove(entity); } else if ecs // Only enable lantern if entity is alive .read_storage::() .get(entity) .map_or(true, |h| !h.is_dead) { let inventory_storage = ecs.read_storage::(); let lantern_info = inventory_storage .get(entity) .and_then(|inventory| inventory.equipped(EquipSlot::Lantern)) .and_then(|item| { if let comp::item::ItemKind::Lantern(l) = &*item.kind() { Some((l.color(), l.strength())) } else { None } }); if let Some((col, strength)) = lantern_info { let _ = ecs.write_storage::() .insert(entity, comp::LightEmitter { col, strength, flicker: 0.35, animated: true, }); } } } } pub fn handle_npc_interaction(server: &mut Server, interactor: EcsEntity, npc_entity: EcsEntity) { let state = server.state_mut(); if let Some(agent) = state .ecs() .write_storage::() .get_mut(npc_entity) { if agent.target.is_none() { if let Some(interactor_uid) = state.ecs().uid_from_entity(interactor) { agent .inbox .push_back(AgentEvent::Talk(interactor_uid, Subject::Regular)); } } } } pub fn handle_mount(server: &mut Server, rider: EcsEntity, mount: EcsEntity) { let state = server.state_mut(); if state.ecs().read_storage::>().get(rider).is_none() { let not_mounting_yet = state.ecs().read_storage::>().get(mount).is_none(); let within_range = || { let positions = state.ecs().read_storage::(); within_mounting_range(positions.get(rider), positions.get(mount)) }; let healths = state.ecs().read_storage::(); let alive = |e| healths.get(e).map_or(true, |h| !h.is_dead); if not_mounting_yet && within_range() && alive(rider) && alive(mount) { let uids = state.ecs().read_storage::(); if let (Some(rider_uid), Some(mount_uid)) = (uids.get(rider).copied(), uids.get(mount).copied()) { let is_pet = matches!( state .ecs() .read_storage::() .get(mount), Some(comp::Alignment::Owned(owner)) if *owner == rider_uid, ); if is_pet { drop(uids); drop(healths); let _ = state.link(Mounting { mount: mount_uid, rider: rider_uid, }); } } } } } pub fn handle_unmount(server: &mut Server, rider: EcsEntity) { let state = server.state_mut(); state.ecs().write_storage::>().remove(rider); } fn within_mounting_range(player_position: Option<&Pos>, mount_position: Option<&Pos>) -> bool { match (player_position, mount_position) { (Some(ppos), Some(ipos)) => ppos.0.distance_squared(ipos.0) < MAX_MOUNT_RANGE.powi(2), _ => false, } } #[derive(Deserialize)] struct ResourceExperienceManifest(HashMap); impl assets::Asset for ResourceExperienceManifest { type Loader = assets::RonLoader; const EXTENSION: &'static str = "ron"; } lazy_static! { static ref RESOURCE_EXPERIENCE_MANIFEST: assets::AssetHandle = assets::AssetExt::load_expect("server.manifests.resource_experience_manifest"); } pub fn handle_mine_block( server: &mut Server, entity: EcsEntity, pos: Vec3, tool: Option, ) { let state = server.state_mut(); if state.can_set_block(pos) { let block = state.terrain().get(pos).ok().copied(); if let Some(block) = block.filter(|b| b.mine_tool().map_or(false, |t| Some(t) == tool)) { // Drop item if one is recoverable from the block if let Some(mut item) = comp::Item::try_reclaim_from_block(block) { let maybe_uid = state.ecs().uid_from_entity(entity); if let Some(mut skillset) = state .ecs() .write_storage::() .get_mut(entity) { if let (Some(tool), Some(uid), Some(exp_reward)) = ( tool, maybe_uid, item.item_definition_id() .itemdef_id() .and_then(|id| RESOURCE_EXPERIENCE_MANIFEST.read().0.get(id).copied()), ) { let skill_group = SkillGroupKind::Weapon(tool); let outcome_bus = state.ecs().read_resource::>(); if let Some(level_outcome) = skillset.add_experience(skill_group, exp_reward) { outcome_bus.emit_now(Outcome::SkillPointGain { uid, skill_tree: skill_group, total_points: level_outcome, }); } outcome_bus.emit_now(Outcome::ExpChange { uid, exp: exp_reward, xp_pools: HashSet::from_iter(vec![skill_group]), }); } use common::comp::skills::{MiningSkill, Skill, SKILL_MODIFIERS}; use rand::Rng; let mut rng = rand::thread_rng(); let need_double_ore = |rng: &mut rand::rngs::ThreadRng| { let chance_mod = f64::from(SKILL_MODIFIERS.mining_tree.ore_gain); let skill_level = skillset .skill_level(Skill::Pick(MiningSkill::OreGain)) .unwrap_or(0); rng.gen_bool(chance_mod * f64::from(skill_level)) }; let need_double_gem = |rng: &mut rand::rngs::ThreadRng| { let chance_mod = f64::from(SKILL_MODIFIERS.mining_tree.gem_gain); let skill_level = skillset .skill_level(Skill::Pick(MiningSkill::GemGain)) .unwrap_or(0); rng.gen_bool(chance_mod * f64::from(skill_level)) }; let double_gain = item.item_definition_id().itemdef_id().map_or(false, |id| { (id.contains("mineral.ore.") && need_double_ore(&mut rng)) || (id.contains("mineral.gem.") && need_double_gem(&mut rng)) }); if double_gain { // Ignore non-stackable errors let _ = item.increase_amount(1); } } let item_drop = state .create_item_drop(Default::default(), item) .with(comp::Pos(pos.map(|e| e as f32) + Vec3::new(0.5, 0.5, 0.0))); if let Some(uid) = maybe_uid { item_drop.with(LootOwner::new(LootOwnerKind::Player(uid))) } else { item_drop } .build(); } state.set_block(pos, block.into_vacant()); state .ecs() .read_resource::>() .emit_now(Outcome::BreakBlock { pos, color: block.get_color(), }); } } } pub fn handle_sound(server: &mut Server, sound: &Sound) { let ecs = &server.state.ecs(); let positions = &ecs.read_storage::(); let agents = &mut ecs.write_storage::(); // TODO: Reduce the complexity of this problem by using spatial partitioning // system for (agent, agent_pos) in (agents, positions).join() { // TODO: Use pathfinding for more dropoff around obstacles let agent_dist_sqrd = agent_pos.0.distance_squared(sound.pos); let sound_travel_dist_sqrd = (sound.vol * SOUND_TRAVEL_DIST_PER_VOLUME).powi(2); let vol_dropoff = agent_dist_sqrd / sound_travel_dist_sqrd * sound.vol; let propagated_sound = sound.with_new_vol(sound.vol - vol_dropoff); let can_hear_sound = propagated_sound.vol > 0.00; let should_hear_sound = agent_dist_sqrd < agent.psyche.listen_dist.powi(2); if can_hear_sound && should_hear_sound { agent .inbox .push_back(AgentEvent::ServerSound(propagated_sound)); } } // Attempt to turn this sound into an outcome to be received by frontends. if let Some(outcome) = match sound.kind { SoundKind::Utterance(kind, body) => Some(Outcome::Utterance { kind, pos: sound.pos, body, }), _ => None, } { ecs.read_resource::>().emit_now(outcome); } } pub fn handle_create_sprite(server: &mut Server, pos: Vec3, sprite: SpriteKind) { let state = server.state_mut(); if state.can_set_block(pos) { let block = state.terrain().get(pos).ok().copied(); if block.map_or(false, |b| (*b).is_air()) { let new_block = state .get_block(pos) .unwrap_or_else(|| Block::air(SpriteKind::Empty)) .with_sprite(sprite); server.state.set_block(pos, new_block); } } } pub fn handle_tame_pet(server: &mut Server, pet_entity: EcsEntity, owner_entity: EcsEntity) { // TODO: Raise outcome to send to clients to play sound/render an indicator // showing taming success? tame_pet(server.state.ecs(), pet_entity, owner_entity); }