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bug(debug_ui): Fix egui session panel sync with engine state

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The session UI panel was not updating when networking started via
control socket because poll_engine_events used commands.insert_resource
which queued updates until end of schedule. The UI could run before
the command was applied.

Fixed by:
- Initialize CurrentSession at startup in offline state (session.rs)
- Use direct ResMut mutation in poll_engine_events (engine_bridge.rs)
- Check session.state instead of resource existence (session_ui.rs)

This ensures Bevy's change detection triggers immediately when engine
events update the session state.

Refs #131, #132

Signed-off-by: Sienna Meridian Satterwhite <sienna@r3t.io>
This commit is contained in:
Sienna Meridian Satterwhite
2025-12-24 11:32:30 +00:00
parent b03b71c1d9
commit 702d85ef60
3 changed files with 72 additions and 54 deletions
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88
crates/app/src/engine_bridge.rs
View File

@@ -7,7 +7,7 @@
use bevy::prelude::*;
use libmarathon::{
engine::{EngineBridge, EngineCommand, EngineEvent},
networking::{CurrentSession, NetworkedEntity, NodeVectorClock, Session, SessionState, VectorClock},
networking::{CurrentSession, NetworkedEntity, NodeVectorClock, Session, SessionState},
};
pub struct EngineBridgePlugin;
@@ -42,9 +42,8 @@ fn detect_changes_and_tick(
/// 1. Polls all available events from the EngineBridge
/// 2. Dispatches them to update Bevy resources and state
fn poll_engine_events(
mut commands: Commands,
bridge: Res<EngineBridge>,
mut current_session: Option<ResMut<CurrentSession>>,
mut current_session: ResMut<CurrentSession>,
mut node_clock: ResMut<NodeVectorClock>,
) {
let events = (*bridge).poll_events();
@@ -53,70 +52,77 @@ fn poll_engine_events(
for event in events {
match event {
EngineEvent::NetworkingStarted { session_id, node_id } => {
info!("🌐 Networking started: session={}, node={}",
info!("Networking started: session={}, node={}",
session_id.to_code(), node_id);
// Create session if it doesn't exist
if current_session.is_none() {
let mut session = Session::new(session_id.clone());
session.state = SessionState::Active;
commands.insert_resource(CurrentSession::new(session, VectorClock::new()));
info!("Created new session resource: {}", session_id.to_code());
} else if let Some(ref mut session) = current_session {
// Update existing session state to Active
session.session.state = SessionState::Active;
}
// Update session to use the new session ID and set state to Active
current_session.session = Session::new(session_id.clone());
current_session.session.state = SessionState::Active;
info!("Updated CurrentSession to Active: {}", session_id.to_code());
// Update node ID in clock
node_clock.node_id = node_id;
}
EngineEvent::NetworkingFailed { error } => {
error!("Networking failed: {}", error);
error!("Networking failed: {}", error);
// Keep session state as Created (if session exists)
if let Some(ref mut session) = current_session {
session.session.state = SessionState::Created;
}
// Keep session state as Created
current_session.session.state = SessionState::Created;
}
EngineEvent::NetworkingStopped => {
info!("🔌 Networking stopped");
info!("Networking stopped");
// Update session state to Disconnected (if session exists)
if let Some(ref mut session) = current_session {
session.session.state = SessionState::Disconnected;
}
// Update session state to Disconnected
current_session.session.state = SessionState::Disconnected;
}
EngineEvent::PeerJoined { node_id } => {
info!("👋 Peer joined: {}", node_id);
info!("Peer joined: {}", node_id);
// TODO(Phase 3.3): Trigger sync
}
EngineEvent::PeerLeft { node_id } => {
info!("👋 Peer left: {}", node_id);
info!("Peer left: {}", node_id);
}
EngineEvent::LockAcquired { entity_id, holder } => {
debug!("🔒 Lock acquired: entity={}, holder={}", entity_id, holder);
debug!("Lock acquired: entity={}, holder={}", entity_id, holder);
// TODO(Phase 3.4): Update lock visuals
}
EngineEvent::LockReleased { entity_id } => {
debug!("🔓 Lock released: entity={}", entity_id);
debug!("Lock released: entity={}", entity_id);
// TODO(Phase 3.4): Update lock visuals
}
EngineEvent::ClockTicked { sequence, clock: _ } => {
debug!("Clock ticked: sequence={}", sequence);
// Clock tick confirmed - no action needed
}
EngineEvent::SessionJoined { session_id } => {
info!("Session joined: {}", session_id.to_code());
// Update session state
current_session.session.state = SessionState::Joining;
}
EngineEvent::SessionLeft => {
info!("Session left");
// Update session state
current_session.session.state = SessionState::Left;
}
EngineEvent::EntitySpawned { entity_id, position, rotation, version: _ } => {
debug!("Entity spawned: id={}, pos={:?}, rot={:?}", entity_id, position, rotation);
// TODO: Spawn entity in Bevy
}
EngineEvent::EntityUpdated { entity_id, position, rotation, version: _ } => {
debug!("Entity updated: id={}, pos={:?}, rot={:?}", entity_id, position, rotation);
// TODO: Update entity in Bevy
}
EngineEvent::EntityDeleted { entity_id, version: _ } => {
debug!("Entity deleted: id={}", entity_id);
// TODO: Delete entity in Bevy
}
EngineEvent::LockDenied { entity_id, current_holder } => {
debug!("Lock denied: entity={}, holder={}", entity_id, current_holder);
// TODO(Phase 3.4): Show visual feedback
debug!("Lock denied: entity={}, current_holder={}", entity_id, current_holder);
// TODO: Show lock denied feedback
}
EngineEvent::LockExpired { entity_id } => {
debug!("Lock expired: entity={}", entity_id);
// TODO(Phase 3.4): Update lock visuals
}
EngineEvent::ClockTicked { sequence, clock } => {
debug!("🕐 Clock ticked to {}", sequence);
// Update the NodeVectorClock resource with the new clock state
node_clock.clock = clock;
}
_ => {
debug!("Unhandled engine event: {:?}", event);
debug!("Lock expired: entity={}", entity_id);
// TODO: Update lock visuals
}
}
}

16
crates/app/src/session.rs
View File

@@ -6,17 +6,17 @@
use bevy::prelude::*;
use libmarathon::{
networking::{
EntityLockRegistry, NetworkEntityMap, NodeVectorClock, VectorClock,
CurrentSession, EntityLockRegistry, NetworkEntityMap, NodeVectorClock, Session, VectorClock,
},
};
use uuid::Uuid;
/// Initialize offline resources on app startup
///
/// This sets up the vector clock and networking-related resources, but does NOT
/// create a session. Sessions only exist when networking is active.
/// This sets up the vector clock and networking-related resources.
/// Creates an offline CurrentSession that will be updated when networking starts.
pub fn initialize_offline_resources(world: &mut World) {
info!("Initializing offline resources (no session yet)...");
info!("Initializing offline resources...");
// Create node ID (persists for this app instance)
let node_id = Uuid::new_v4();
@@ -32,5 +32,11 @@ pub fn initialize_offline_resources(world: &mut World) {
world.insert_resource(NetworkEntityMap::default());
world.insert_resource(EntityLockRegistry::default());
info!("Offline resources initialized (vector clock ready)");
// Create offline session (will be updated when networking starts)
// This ensures CurrentSession resource always exists for UI binding
let offline_session_id = libmarathon::networking::SessionId::new();
let offline_session = Session::new(offline_session_id);
world.insert_resource(CurrentSession::new(offline_session, VectorClock::new()));
info!("Offline resources initialized (vector clock ready, session created in offline state)");
}

22
crates/app/src/session_ui.rs
View File

@@ -7,7 +7,7 @@ use bevy::prelude::*;
use libmarathon::{
debug_ui::{egui, EguiContexts, EguiPrimaryContextPass},
engine::{EngineBridge, EngineCommand},
networking::{CurrentSession, NodeVectorClock, SessionId},
networking::{CurrentSession, NodeVectorClock, SessionId, SessionState},
};
pub struct SessionUiPlugin;
@@ -28,10 +28,15 @@ struct SessionUiState {
fn session_ui_panel(
mut contexts: EguiContexts,
mut ui_state: ResMut<SessionUiState>,
current_session: Option<Res<CurrentSession>>,
current_session: Res<CurrentSession>,
node_clock: Option<Res<NodeVectorClock>>,
bridge: Res<EngineBridge>,
) {
// Log session state for debugging
debug!("Session UI: state={:?}, id={}",
current_session.session.state,
current_session.session.id.to_code());
let Ok(ctx) = contexts.ctx_mut() else {
return;
};
@@ -40,21 +45,22 @@ fn session_ui_panel(
.default_pos([320.0, 10.0])
.default_width(280.0)
.show(ctx, |ui| {
if let Some(session) = current_session.as_ref() {
// ONLINE MODE: Session exists, networking is active
// Check if networking is active based on session state
if current_session.session.state == SessionState::Active {
// ONLINE MODE: Networking is active
ui.heading("Session (Online)");
ui.separator();
ui.horizontal(|ui| {
ui.label("Code:");
ui.code(session.session.id.to_code());
ui.code(current_session.session.id.to_code());
if ui.small_button("📋").clicked() {
// TODO: Copy to clipboard (requires clipboard API)
info!("Session code: {}", session.session.id.to_code());
info!("Session code: {}", current_session.session.id.to_code());
}
});
ui.label(format!("State: {:?}", session.session.state));
ui.label(format!("State: {:?}", current_session.session.state));
if let Some(clock) = node_clock.as_ref() {
ui.label(format!("Connected nodes: {}", clock.clock.clocks.len()));
@@ -68,7 +74,7 @@ fn session_ui_panel(
bridge.send_command(EngineCommand::StopNetworking);
}
} else {
// OFFLINE MODE: No session, networking not started
// OFFLINE MODE: Networking not started or disconnected
ui.heading("Offline Mode");
ui.separator();