veloren/server/src/sys/entity_sync.rs
2019-10-23 23:50:06 -04:00

234 lines
8.8 KiB
Rust

use super::SysTimer;
use crate::{
client::{Client, RegionSubscription},
Tick,
};
use common::{
comp::{CharacterState, ForceUpdate, Inventory, InventoryUpdate, Last, Ori, Pos, Vel},
msg::ServerMsg,
region::{Event as RegionEvent, RegionMap},
state::Uid,
};
use specs::{
Entities, Entity as EcsEntity, Join, Read, ReadExpect, ReadStorage, System, Write, WriteStorage,
};
/// This system will send physics updates to the client
pub struct Sys;
impl<'a> System<'a> for Sys {
type SystemData = (
Entities<'a>,
Read<'a, Tick>,
ReadExpect<'a, RegionMap>,
Write<'a, SysTimer<Self>>,
ReadStorage<'a, Uid>,
ReadStorage<'a, Pos>,
ReadStorage<'a, Vel>,
ReadStorage<'a, Ori>,
ReadStorage<'a, CharacterState>,
ReadStorage<'a, Inventory>,
ReadStorage<'a, RegionSubscription>,
WriteStorage<'a, Last<Pos>>,
WriteStorage<'a, Last<Vel>>,
WriteStorage<'a, Last<Ori>>,
WriteStorage<'a, Last<CharacterState>>,
WriteStorage<'a, Client>,
WriteStorage<'a, ForceUpdate>,
WriteStorage<'a, InventoryUpdate>,
);
fn run(
&mut self,
(
entities,
tick,
region_map,
mut timer,
uids,
positions,
velocities,
orientations,
character_states,
inventories,
subscriptions,
mut last_pos,
mut last_vel,
mut last_ori,
mut last_character_state,
mut clients,
mut force_updates,
mut inventory_updates,
): Self::SystemData,
) {
timer.start();
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 left event, iterate through the client list and check if they are subscribed to the destination (hash calc per subscribed client per entity left event)
// - Do something with entity entered events when sphynx is removed??
// 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() {
let mut subscribers = (&mut clients, &entities, &subscriptions, &positions)
.join()
.filter_map(|(client, entity, subscription, pos)| {
if client.is_ingame() && subscription.regions.contains(&key) {
Some((client, &subscription.regions, entity, *pos))
} else {
None
}
})
.collect::<Vec<_>>();
for event in region.events() {
match event {
RegionEvent::Entered(_, _) => {} // TODO use this
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(false)
{
client.notify(ServerMsg::DeleteEntity(uid.into()));
}
}
}
}
}
}
let mut send_msg =
|msg: ServerMsg, entity: EcsEntity, pos: Pos, force_update, throttle: bool| {
for (client, _, client_entity, client_pos) in &mut subscribers {
match force_update {
None if client_entity == &entity => {}
_ => {
let distance_sq = client_pos.0.distance_squared(pos.0);
// Throttle update rate based on distance to player
let update = if !throttle || distance_sq < 100.0f32.powi(2) {
true // Closer than 100.0 blocks
} else if distance_sq < 150.0f32.powi(2) {
(tick + entity.id() as u64) % 2 == 0
} else if distance_sq < 200.0f32.powi(2) {
(tick + entity.id() as u64) % 4 == 0
} else if distance_sq < 250.0f32.powi(2) {
(tick + entity.id() as u64) % 8 == 0
} else if distance_sq < 300.0f32.powi(2) {
(tick + entity.id() as u64) % 16 == 0
} else {
(tick + entity.id() as u64) % 32 == 0
};
if update {
client.notify(msg.clone());
}
}
}
}
};
for (_, entity, &uid, &pos, maybe_vel, maybe_ori, character_state, force_update) in (
region.entities(),
&entities,
&uids,
&positions,
velocities.maybe(),
orientations.maybe(),
character_states.maybe(),
force_updates.maybe(),
)
.join()
{
if last_pos.get(entity).map(|&l| l.0 != pos).unwrap_or(true) {
let _ = last_pos.insert(entity, Last(pos));
send_msg(
ServerMsg::EntityPos {
entity: uid.into(),
pos,
},
entity,
pos,
force_update,
true,
);
}
if let Some(&vel) = maybe_vel {
if last_vel.get(entity).map(|&l| l.0 != vel).unwrap_or(true) {
let _ = last_vel.insert(entity, Last(vel));
send_msg(
ServerMsg::EntityVel {
entity: uid.into(),
vel,
},
entity,
pos,
force_update,
true,
);
}
}
if let Some(&ori) = maybe_ori {
if last_ori.get(entity).map(|&l| l.0 != ori).unwrap_or(true) {
let _ = last_ori.insert(entity, Last(ori));
send_msg(
ServerMsg::EntityOri {
entity: uid.into(),
ori,
},
entity,
pos,
force_update,
true,
);
}
}
if let Some(&character_state) = character_state {
if last_character_state
.get(entity)
.map(|&l| !character_state.is_same_state(&l.0))
.unwrap_or(true)
{
let _ = last_character_state.insert(entity, Last(character_state));
send_msg(
ServerMsg::EntityCharacterState {
entity: uid.into(),
character_state,
},
entity,
pos,
force_update,
false,
);
}
}
}
}
// Sync inventories
for (client, inventory, _) in (&mut clients, &inventories, &inventory_updates).join() {
client.notify(ServerMsg::InventoryUpdate(inventory.clone()));
}
// Remove all force flags.
force_updates.clear();
inventory_updates.clear();
timer.end();
}
}