use super::sentinel::{DeletedEntities, ReadTrackers, TrackedComps}; use crate::{ client::Client, presence::{Presence, RegionSubscription}, Tick, }; use common::{ comp::{Collider, ForceUpdate, Inventory, InventoryUpdate, Last, Ori, Pos, Vel}, outcome::Outcome, region::{Event as RegionEvent, RegionMap}, resources::TimeOfDay, terrain::TerrainChunkSize, uid::Uid, vol::RectVolSize, }; use common_ecs::{Job, Origin, Phase, System}; use common_net::{msg::ServerGeneral, sync::CompSyncPackage}; use specs::{Entities, Join, Read, ReadExpect, ReadStorage, Write, WriteStorage}; use vek::*; /// This system will send physics updates to the client #[derive(Default)] pub struct Sys; impl<'a> System<'a> for Sys { #[allow(clippy::type_complexity)] type SystemData = ( Entities<'a>, Read<'a, Tick>, ReadExpect<'a, TimeOfDay>, ReadExpect<'a, RegionMap>, ReadStorage<'a, Uid>, ReadStorage<'a, Pos>, ReadStorage<'a, Vel>, ReadStorage<'a, Ori>, ReadStorage<'a, Inventory>, ReadStorage<'a, RegionSubscription>, ReadStorage<'a, Presence>, ReadStorage<'a, Collider>, WriteStorage<'a, Last>, WriteStorage<'a, Last>, WriteStorage<'a, Last>, ReadStorage<'a, Client>, WriteStorage<'a, ForceUpdate>, WriteStorage<'a, InventoryUpdate>, Write<'a, DeletedEntities>, Write<'a, Vec>, TrackedComps<'a>, ReadTrackers<'a>, ); const NAME: &'static str = "entity_sync"; const ORIGIN: Origin = Origin::Server; const PHASE: Phase = Phase::Create; fn run( _job: &mut Job, ( entities, tick, time_of_day, region_map, uids, positions, velocities, orientations, inventories, subscriptions, presences, colliders, mut last_pos, mut last_vel, mut last_ori, clients, mut force_updates, mut inventory_updates, mut deleted_entities, mut outcomes, tracked_comps, trackers, ): Self::SystemData, ) { let tick = tick.0; // To send entity updates // 1. Iterate through regions // 2. Iterate through region subscribers (ie clients) // - Collect a list of entity ids for clients who are subscribed to this // region (hash calc to check each) // 3. Iterate through events from that region // - For each entity entered event, iterate through the client list and // check if they are subscribed to the source (hash calc per subscribed // client per entity event), if not subscribed to the source send a entity // creation message to that client // - For each entity left event, iterate through the client list and check // if they are subscribed to the destination (hash calc per subscribed // client per entity event) // 4. Iterate through entities in that region // 5. Inform clients of the component changes for that entity // - Throttle update rate base on distance to each client // Sync physics // via iterating through regions for (key, region) in region_map.iter() { // Assemble subscriber list for this region by iterating through clients and // checking if they are subscribed to this region let mut subscribers = ( &clients, &entities, presences.maybe(), &subscriptions, &positions, ) .join() .filter_map(|(client, entity, presence, subscription, pos)| { if presence.is_some() && subscription.regions.contains(&key) { Some((client, &subscription.regions, entity, *pos)) } else { None } }) .collect::>(); for event in region.events() { match event { RegionEvent::Entered(id, maybe_key) => { // Don't process newly created entities here (redundant network messages) if trackers.uid.inserted().contains(*id) { continue; } let entity = entities.entity(*id); if let Some((_uid, pos, vel, ori)) = uids.get(entity).and_then(|uid| { positions.get(entity).map(|pos| { (uid, pos, velocities.get(entity), orientations.get(entity)) }) }) { let create_msg = ServerGeneral::CreateEntity(tracked_comps.create_entity_package( entity, Some(*pos), vel.copied(), ori.copied(), )); for (client, regions, client_entity, _) in &mut subscribers { if maybe_key .as_ref() .map(|key| !regions.contains(key)) .unwrap_or(true) // Client doesn't need to know about itself && *client_entity != entity { client.send_fallible(create_msg.clone()); } } } }, RegionEvent::Left(id, maybe_key) => { // Lookup UID for entity if let Some(&uid) = uids.get(entities.entity(*id)) { for (client, regions, _, _) in &mut subscribers { if maybe_key .as_ref() .map(|key| !regions.contains(key)) .unwrap_or(true) { client.send_fallible(ServerGeneral::DeleteEntity(uid)); } } } }, } } // Sync tracked components // Get deleted entities in this region from DeletedEntities let (entity_sync_package, comp_sync_package) = trackers.create_sync_packages( &tracked_comps, region.entities(), deleted_entities .take_deleted_in_region(key) .unwrap_or_default(), ); let mut entity_sync_package = Some(entity_sync_package); let mut comp_sync_package = Some(comp_sync_package); let mut entity_sync_lazymsg = None; let mut comp_sync_lazymsg = None; subscribers.iter_mut().for_each(move |(client, _, _, _)| { if entity_sync_lazymsg.is_none() { entity_sync_lazymsg = Some(client.prepare(ServerGeneral::EntitySync( entity_sync_package.take().unwrap(), ))); comp_sync_lazymsg = Some( client.prepare(ServerGeneral::CompSync(comp_sync_package.take().unwrap())), ); } entity_sync_lazymsg .as_ref() .map(|msg| client.send_prepared(&msg)); comp_sync_lazymsg .as_ref() .map(|msg| client.send_prepared(&msg)); }); for (client, _, client_entity, client_pos) in &mut subscribers { let mut comp_sync_package = CompSyncPackage::new(); for (_, entity, &uid, &pos, vel, ori, force_update, collider) in ( region.entities(), &entities, &uids, &positions, velocities.maybe(), orientations.maybe(), force_updates.maybe(), colliders.maybe(), ) .join() { // Decide how regularly to send physics updates. let send_now = if client_entity == &entity { // Don't send client physics updates about itself unless force update is set force_update.is_some() } else if matches!(collider, Some(Collider::Voxel { .. })) { // Things with a voxel collider (airships, etc.) need to have very stable // physics so we always send updated for these where // we can. true } else { // Throttle update rates for all other entities based on distance to client let distance_sq = client_pos.0.distance_squared(pos.0); let id_staggered_tick = tick + entity.id() as u64; // More entities farther away so checks start there if distance_sq > 500.0f32.powi(2) { id_staggered_tick % 32 == 0 } else if distance_sq > 300.0f32.powi(2) { id_staggered_tick % 16 == 0 } else if distance_sq > 200.0f32.powi(2) { id_staggered_tick % 8 == 0 } else if distance_sq > 120.0f32.powi(2) { id_staggered_tick % 6 == 0 } else if distance_sq > 64.0f32.powi(2) { id_staggered_tick % 3 == 0 } else if distance_sq > 24.0f32.powi(2) { id_staggered_tick % 2 == 0 } else { true } }; if last_pos.get(entity).is_none() { comp_sync_package.comp_inserted(uid, pos); } else if send_now { comp_sync_package.comp_modified(uid, pos); } vel.map(|v| { if last_vel.get(entity).is_none() { comp_sync_package.comp_inserted(uid, *v); } else if send_now { comp_sync_package.comp_modified(uid, *v); } }); ori.map(|o| { if last_ori.get(entity).is_none() { comp_sync_package.comp_inserted(uid, *o); } else if send_now { comp_sync_package.comp_modified(uid, *o); } }); } client.send_fallible(ServerGeneral::CompSync(comp_sync_package)); } // Update the last physics components for each entity for (_, entity, &pos, vel, ori) in ( region.entities(), &entities, &positions, velocities.maybe(), orientations.maybe(), ) .join() { let _ = last_pos.insert(entity, Last(pos)); vel.map(|v| last_vel.insert(entity, Last(*v))); ori.map(|o| last_ori.insert(entity, Last(*o))); } } // Handle entity deletion in regions that don't exist in RegionMap // (theoretically none) for (region_key, deleted) in deleted_entities.take_remaining_deleted() { for client in (presences.maybe(), &subscriptions, &clients) .join() .filter_map(|(presence, subscription, client)| { if presence.is_some() && subscription.regions.contains(®ion_key) { Some(client) } else { None } }) { for uid in &deleted { client.send_fallible(ServerGeneral::DeleteEntity(Uid(*uid))); } } } // TODO: Sync clients that don't have a position? // Sync inventories for (inventory, update, client) in (&inventories, &inventory_updates, &clients).join() { client.send_fallible(ServerGeneral::InventoryUpdate( inventory.clone(), update.event(), )); } // Sync outcomes for (presence, pos, client) in (presences.maybe(), positions.maybe(), &clients).join() { let is_near = |o_pos: Vec3| { pos.zip_with(presence, |pos, presence| { pos.0.xy().distance_squared(o_pos.xy()) < (presence.view_distance as f32 * TerrainChunkSize::RECT_SIZE.x as f32) .powi(2) }) }; let outcomes = outcomes .iter() .filter(|o| o.get_pos().and_then(&is_near).unwrap_or(true)) .cloned() .collect::>(); if !outcomes.is_empty() { client.send_fallible(ServerGeneral::Outcomes(outcomes)); } } outcomes.clear(); // Remove all force flags. force_updates.clear(); inventory_updates.clear(); // Sync resources // TODO: doesn't really belong in this system (rename system or create another // system?) let mut tof_lazymsg = None; for client in (&clients).join() { if tof_lazymsg.is_none() { tof_lazymsg = Some(client.prepare(ServerGeneral::TimeOfDay(*time_of_day))); } tof_lazymsg.as_ref().map(|msg| client.send_prepared(&msg)); } } }