veloren/common/sys/src/controller.rs

112 lines
4.7 KiB
Rust
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use common::{
comp::{BuffChange, ControlEvent, Controller},
event::{EventBus, ServerEvent},
metrics::SysMetrics,
span,
uid::UidAllocator,
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};
use specs::{
saveload::{Marker, MarkerAllocator},
shred::ResourceId,
Entities, Join, Read, ReadExpect, System, SystemData, World, WriteStorage,
};
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use vek::*;
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#[derive(SystemData)]
pub struct ReadData<'a> {
entities: Entities<'a>,
uid_allocator: Read<'a, UidAllocator>,
server_bus: Read<'a, EventBus<ServerEvent>>,
metrics: ReadExpect<'a, SysMetrics>,
}
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pub struct Sys;
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impl<'a> System<'a> for Sys {
type SystemData = (ReadData<'a>, WriteStorage<'a, Controller>);
fn run(&mut self, (read_data, mut controllers): Self::SystemData) {
let start_time = std::time::Instant::now();
span!(_guard, "run", "controller::Sys::run");
let mut server_emitter = read_data.server_bus.emitter();
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for (entity, controller) in (&read_data.entities, &mut controllers).join() {
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let mut inputs = &mut controller.inputs;
// Note(imbris): I avoided incrementing the duration with inputs.tick() because
// this is being done manually in voxygen right now so it would double up on
// speed of time.
// Perhaphs the duration aspects of inputs could be
// calculated exclusively on the server (since the client can't be
// trusted anyway). It needs to be considered if these calculations
// being on the client are critical for responsiveness/client-side prediction.
inputs.tick_freshness();
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// Update `inputs.move_dir`.
inputs.move_dir = if inputs.move_dir.magnitude_squared() > 1.0 {
// Cap move_dir to 1
inputs.move_dir.normalized()
} else {
inputs.move_dir
};
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inputs.move_z = inputs.move_z.clamped(-1.0, 1.0);
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// Process other controller events
for event in controller.events.drain(..) {
match event {
ControlEvent::Mount(mountee_uid) => {
if let Some(mountee_entity) = read_data
.uid_allocator
.retrieve_entity_internal(mountee_uid.id())
{
server_emitter.emit(ServerEvent::Mount(entity, mountee_entity));
}
},
ControlEvent::RemoveBuff(buff_id) => {
server_emitter.emit(ServerEvent::Buff {
entity,
buff_change: BuffChange::RemoveFromController(buff_id),
});
},
ControlEvent::Unmount => server_emitter.emit(ServerEvent::Unmount(entity)),
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ControlEvent::EnableLantern => {
server_emitter.emit(ServerEvent::EnableLantern(entity))
},
ControlEvent::DisableLantern => {
server_emitter.emit(ServerEvent::DisableLantern(entity))
},
ControlEvent::Interact(npc_uid) => {
if let Some(npc_entity) = read_data
.uid_allocator
.retrieve_entity_internal(npc_uid.id())
{
server_emitter.emit(ServerEvent::NpcInteract(entity, npc_entity));
}
},
ControlEvent::InitiateInvite(inviter_uid, kind) => {
server_emitter.emit(ServerEvent::InitiateInvite(entity, inviter_uid, kind));
},
ControlEvent::InviteResponse(response) => {
server_emitter.emit(ServerEvent::InviteResponse(entity, response));
},
ControlEvent::PerformTradeAction(trade_id, action) => {
server_emitter
.emit(ServerEvent::ProcessTradeAction(entity, trade_id, action));
},
ControlEvent::InventoryManip(manip) => {
server_emitter.emit(ServerEvent::InventoryManip(entity, manip.into()));
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},
ControlEvent::GroupManip(manip) => {
server_emitter.emit(ServerEvent::GroupManip(entity, manip))
},
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ControlEvent::Respawn => server_emitter.emit(ServerEvent::Respawn(entity)),
}
}
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}
read_data.metrics.controller_ns.store(
start_time.elapsed().as_nanos() as u64,
std::sync::atomic::Ordering::Relaxed,
);
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}
}