Real Debug to event Participant status

Debug to event Participant status + Fix No Participant in History
Modified InitPursuit to get Rankings ONLY FROM DATAASSET
2025-07-19 12:09:09 +02:00 · 2025-07-19 11:51:48 +02:00 · 2025-07-18 23:20:34 +02:00 · 2025-07-18 17:36:17 +02:00 · 2025-07-18 02:32:15 +02:00
8 changed files with 503 additions and 76 deletions
--- a/Source/DTFluxCoreSubsystem/Private/DTFluxCoreSubsystem.cpp
+++ b/Source/DTFluxCoreSubsystem/Private/DTFluxCoreSubsystem.cpp
@ -393,15 +393,22 @@ void UDTFluxCoreSubsystem::InitParticipantTracking(const int Bib, const int Cont
 		// get all splits
 		TArray<FDTFluxSplitSensorInfo> SplitSensorInfos;
 		FDTFluxSplitSensorKey SplitSensorKey;
 		SplitSensorKey.ContestId = ContestId;
 		SplitSensorKey.StageId = StageId;
 		SplitSensorKey.Bib = Bib;
 		for (auto Split : Contest.Splits)
 		{
 			SplitSensorKey = FDTFluxSplitSensorKey();
 			SplitSensorKey.ContestId = ContestId;
 			SplitSensorKey.StageId = StageId;
 			SplitSensorKey.Bib = Bib;
 			SplitSensorKey.SplitId = Split.SplitId;
 			if (DataStorage->SplitSensorInfoCache.Contains(SplitSensorKey))
 			{
-				SplitSensorInfos.Add(DataStorage->SplitSensorInfoCache[SplitSensorKey]);
+				FDTFluxSplitSensorInfo SplitSensorInfoToAdd = DataStorage->SplitSensorInfoCache[SplitSensorKey];
 				SplitSensorInfos.Add(SplitSensorInfoToAdd);
 				FString DebugString = FString::Printf(TEXT("SplitSensorInfo for Bib %i "), Bib);
 				DebugString += FString::Printf(TEXT("SplitSensorInfo [Rank] %i "), SplitSensorInfoToAdd.Rank);
 				DebugString += FString::Printf(TEXT("SplitSensorInfo [Rank] %s "), *SplitSensorInfoToAdd.Gap);
 				DebugString += FString::Printf(TEXT("SplitSensorInfo [Rank] %s "), *SplitSensorInfoToAdd.Time);
 				UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("SplitSensorInfoCache contains SplitSensorInfo for Bib %i\nData : %s"), Bib, *DebugString);
 			}
 			else
 			{
@ -410,17 +417,11 @@ void UDTFluxCoreSubsystem::InitParticipantTracking(const int Bib, const int Cont
 		}
 		FDTFluxSplitHistory History;
 		History.SplitSensors = SplitSensorInfos;
-		OnParticipantTrackingReady.Broadcast(History);
+		if (GetParticipant(Bib, History.Participant))
-		
+		{
-		
+			OnParticipantTrackingReady.Broadcast(History);
 		}
 	}
 	FDTFluxSplitHistory SplitHistory;
 	if (GetParticipant(Bib, SplitHistory.Participant))
 	{
 	}
 	FString Text = "sqfhds";
 	FName Key = FName(Text);
 }
 FGuid UDTFluxCoreSubsystem::InitContestRankingsDisplay(const int ContestId)
--- a/Source/DTFluxCoreSubsystem/Private/DTFluxPursuitManager.cpp
+++ b/Source/DTFluxCoreSubsystem/Private/DTFluxPursuitManager.cpp
@ -28,12 +28,14 @@ void UDTFluxPursuitManager::InitPursuit(const TArray<int> InContestIds, const in
 		FDTFluxContest Contest;
 		if (CoreSubsystem->GetContestForId(ContestId, Contest))
 		{
-			BindRankings();
+			// BindRankings();
 			FDTFluxStageKey StageKey = FDTFluxStageKey(ContestId, Contest.GetLastStageId());
 			FDTFluxStageRankings TempStageRankings;
 			//Obtenir les ranking Frais.
-			CoreSubsystem->GetStageRankingsWithKey(StageKey, TempStageRankings, false);
+			CoreSubsystem->GetStageRankingsWithKey(StageKey, TempStageRankings, true);
-			PendingStageRanking.Add(StageKey, false);
+			AllRankings.Add(TempStageRankings);
 			LaunchPursuitSequence();
 			// CoreSubsystem->GetStageRankings()
 		}
 	}
 }
@ -46,25 +48,6 @@ void UDTFluxPursuitManager::SetPursuitInfoIsMassStart(FDTFluxPursuitGroup& NextF
 	}
 }
 void UDTFluxPursuitManager::DebugFocusNext(const TArray<FDTFluxPursuitInfo>& OutPursuitFocusNext)
 {
 	FString FocusBibs;
 	for (const auto& Pursuit : OutPursuitFocusNext)
 	{
 		FocusBibs += FString::Printf(TEXT("%d "), Pursuit.Bib);
 	}
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Focus Bibs: %s"), *FocusBibs);
 }
 void UDTFluxPursuitManager::DebugOutPoursuitNext(const TArray<FDTFluxPursuitInfo>& OutPursuitNext)
 {
 	FString NextBibs;
 	for (int32 i = 0; i < OutPursuitNext.Num(); i++)
 	{
 		NextBibs += FString::Printf(TEXT("%d "), OutPursuitNext[i].Bib);
 	}
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Next Bibs: %s"), *NextBibs);
 }
 void UDTFluxPursuitManager::GetPursuit(TArray<FDTFluxPursuitInfo>& OutPursuitFocusNext,
                                       TArray<FDTFluxPursuitInfo>& OutPursuitNext, bool& BIsFocusTruncate,
@ -73,9 +56,9 @@ void UDTFluxPursuitManager::GetPursuit(TArray<FDTFluxPursuitInfo>& OutPursuitFoc
 	FDateTime MetricsStartFunction = FDateTime::UtcNow();
 	FDateTime CurrentTime = FDateTime::Now();
-	// UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("=== GetPursuit CALLED ==="));
+	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("=== GetPursuit CALLED ==="));
-	// UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("MaxSimultaneousPursuit: %d"), MaxSimultaneousPursuit);
+	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("MaxSimultaneousPursuit: %d"), MaxSimultaneousPursuit);
-	// UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Available groups: %d"), GroupedPursuit.Num());
+	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Available groups: %d"), GroupedPursuit.Num());
 	// BAd Parameter
 	if (MaxSimultaneousPursuit <= 0)
@ -111,19 +94,16 @@ void UDTFluxPursuitManager::GetPursuit(TArray<FDTFluxPursuitInfo>& OutPursuitFoc
 			GroupedPursuit.RemoveAt(i);
 		}
 	}
 	OutPursuitFocusNext.Reset();
 	OutPursuitNext.Reset();
 	// === VÉRIFICATION CRITIQUE : S'assurer qu'il reste des groupes après suppression ===
 	if (GroupedPursuit.IsEmpty())
 	{
 		UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("All groups were expired and removed - no groups available"));
 		OutPursuitFocusNext.Reset();
 		OutPursuitNext.Reset();
 		BIsFocusTruncate = false;
-		bIsSequenceDone = true; // Marquer la séquence comme terminée
+		bIsSequenceDone = true; 
 		return;
 	}
@ -180,7 +160,6 @@ void UDTFluxPursuitManager::GetPursuit(TArray<FDTFluxPursuitInfo>& OutPursuitFoc
 		}
 	}
 	// === LOGS DE RÉSUMÉ ===
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("=== PURSUIT RESULTS ==="));
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Focus: %d participants"), OutPursuitFocusNext.Num());
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Next: %d participants"), OutPursuitNext.Num());
@ -322,7 +301,6 @@ bool UDTFluxPursuitManager::LaunchPursuitSequence()
 	{
 		if (Pair.Value.StartTimeGlobal != FDateTime::MinValue() && Pair.Value.StartTimeGlobal != FDateTime::MaxValue())
 		{
 			// récuperation de la ref de la valeur actuel de la fréquence dans la TMap Freq
 			int& CurrentFreq = StartTimeFrequency.FindOrAdd(Pair.Value.StartTimeGlobal, 0);
 			CurrentFreq = Pair.Value.PursuitGroup.Num();
 			if (CurrentFreq > MaxFrequency)
@ -348,3 +326,25 @@ bool UDTFluxPursuitManager::LaunchPursuitSequence()
 	OnPursuitSequenceReady.Broadcast(PursuitData);
 	return true;
 }
 void UDTFluxPursuitManager::DebugFocusNext(const TArray<FDTFluxPursuitInfo>& OutPursuitFocusNext)
 {
 	FString FocusBibs;
 	for (const auto& Pursuit : OutPursuitFocusNext)
 	{
 		FocusBibs += FString::Printf(TEXT("%d "), Pursuit.Bib);
 	}
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Focus Bibs: %s"), *FocusBibs);
 }
 void UDTFluxPursuitManager::DebugOutPoursuitNext(const TArray<FDTFluxPursuitInfo>& OutPursuitNext)
 {
 	FString NextBibs;
 	for (int32 i = 0; i < OutPursuitNext.Num(); i++)
 	{
 		NextBibs += FString::Printf(TEXT("%d "), OutPursuitNext[i].Bib);
 	}
 	UE_LOG(logDTFluxCoreSubsystem, Warning, TEXT("Next Bibs: %s"), *NextBibs);
 }
--- a/Source/DTFluxRemote/Private/DTFluxRemoteSubsystem.cpp
+++ b/Source/DTFluxRemote/Private/DTFluxRemoteSubsystem.cpp
@ -11,6 +11,7 @@
 #include "IHttpRouter.h"
 #include "Rundown/AvaRundown.h"
 #include "Json.h"
 #include "JsonObjectConverter.h"
 #include "Engine/Engine.h"
 #include "Misc/DateTime.h"
@ -129,6 +130,16 @@ bool UDTFluxRemoteSubsystem::IsHTTPServerRunning() const
    return bServerRunning;
 }
 void UDTFluxRemoteSubsystem::ResetPendingTitleData()
 {
    bHasPendingTitleRequest = false;
 }
 void UDTFluxRemoteSubsystem::ResetPendingBibData()
 {
    bHasPendingTitleBibRequest = false;
 }
 void UDTFluxRemoteSubsystem::SetupRoutes()
 {
    if (!HttpRouter.IsValid())
@ -184,9 +195,19 @@ bool UDTFluxRemoteSubsystem::HandleTitleRequest(const FHttpServerRequest& Reques
    AsyncTask(ENamedThreads::GameThread, [this, TitleData]()
    {
        OnTitleReceived.Broadcast(TitleData);
        if (RemotedRundown && RemotedRundown->IsValidLowLevel())
        {
            PendingTitleData = TitleData;
            bHasPendingTitleRequest = true;
            UE_LOG(logDTFluxRemote, Log, TEXT("Playing page %i"), TitleData.RundownPageId);
            RemotedRundown->PlayPage(TitleData.RundownPageId, EAvaRundownPagePlayType::PlayFromStart);
        }
        else
        {
            UE_LOG(logDTFluxRemote, Warning, TEXT("No rundown loaded"));
        }
    });
    // Send success response
    OnComplete(FHttpServerResponse::Create(CreateSuccessResponse(TEXT("Title data received")), TEXT("application/json")));
    return true;
 }
@ -239,9 +260,18 @@ bool UDTFluxRemoteSubsystem::HandleCommandsRequest(const FHttpServerRequest& Req
    AsyncTask(ENamedThreads::GameThread, [this, CommandData]()
    {
        OnCommandReceived.Broadcast(CommandData);
        if (RemotedRundown && RemotedRundown->IsValidLowLevel())
        {
            RemotedRundown->StopPage(CommandData.RundownPageId, EAvaRundownPageStopOptions::None, false);
            UE_LOG(logDTFluxRemote, Log, TEXT("Stoping page %i"), CommandData.RundownPageId);
        }
        else
        {
            UE_LOG(logDTFluxRemote, Warning, TEXT("No rundown loaded"));
        }
    });
-    OnComplete(FHttpServerResponse::Create(CreateSuccessResponse(TEXT("Command data received")), TEXT("application/json")));
+    OnComplete(FHttpServerResponse::Create(CreateErrorResponse(TEXT("OK")), TEXT("application/json")));
    return true;
 }
@ -249,7 +279,17 @@ TSharedPtr<FJsonObject> UDTFluxRemoteSubsystem::ParseJsonFromRequest(const FHttp
 {
    // Get request body
    TArray<uint8> Body = Request.Body;
-    FString JsonString = FString(UTF8_TO_TCHAR(reinterpret_cast<const char*>(Body.GetData())));
+    FString JsonString;
    if (Body.Num() > 0)
    {
        // Ajouter un null terminator si nécessaire
        if (Body.Last() != 0)
        {
            Body.Add(0);
        }
        JsonString = FString(UTF8_TO_TCHAR(reinterpret_cast<const char*>(Body.GetData())));
    }
    UE_LOG(logDTFluxRemote, Verbose, TEXT("Received JSON: %s"), *JsonString);
@ -299,53 +339,65 @@ bool UDTFluxRemoteSubsystem::ParseTitleData(const TSharedPtr<FJsonObject>& JsonO
 {
    if (!JsonObject.IsValid())
    {
        UE_LOG(logDTFluxRemote, Error, TEXT("Invalid JSON object for %s"), TEXT("FDTFluxRemoteTitleData"));
        return false;
    }
-    // Parse title fields
+    if (FJsonObjectConverter::JsonObjectToUStruct<FDTFluxRemoteTitleData>(JsonObject.ToSharedRef(), &OutData))
-    JsonObject->TryGetStringField(TEXT("LastName"), OutData.LastName);
+    {
-    JsonObject->TryGetStringField(TEXT("FirsName"), OutData.FirstName);
+        UE_LOG(logDTFluxRemote, Log, TEXT("Successfully parsed %s"), TEXT("FDTFluxRemoteTitleData"));
-    JsonObject->TryGetStringField(TEXT("Function1"), OutData.Function1);
+        return true;
-    JsonObject->TryGetStringField(TEXT("Function2"), OutData.Function2);
+    }
-    UE_LOG(logDTFluxRemote, Log, TEXT("Parsed Title Data - LastName: %s, FirstName: %s"), *OutData.LastName, *OutData.FirstName);
+    UE_LOG(logDTFluxRemote, Error, TEXT("Failed to convert JSON to %s struct"),TEXT("FDTFluxRemoteTitleData"));
-    return true;
+    return false;
 }
 bool UDTFluxRemoteSubsystem::ParseTitleBibData(const TSharedPtr<FJsonObject>& JsonObject, FDTFluxRemoteBibData& OutData)
 {
    if (!JsonObject.IsValid())
    {
        UE_LOG(logDTFluxRemote, Error, TEXT("Invalid JSON object for %s"), TEXT("FDTFluxRemoteBibData"));
        return false;
    }
-    JsonObject->TryGetNumberField(TEXT("Bib"), OutData.Bib);
+    if (FJsonObjectConverter::JsonObjectToUStruct<FDTFluxRemoteBibData>(JsonObject.ToSharedRef(), &OutData))
    {
        UE_LOG(logDTFluxRemote, Log, TEXT("Successfully parsed %s"), TEXT("FDTFluxRemoteBibData"));
        return true;
    }
-
+    UE_LOG(logDTFluxRemote, Error, TEXT("Failed to convert JSON to %s struct"),TEXT("FDTFluxRemoteBibData"));
-
+    return false;
    UE_LOG(logDTFluxRemote, Log, TEXT("Parsed Title-Bib Data - Bib: %i"), OutData.Bib);
    return true;
 }
 bool UDTFluxRemoteSubsystem::ParseCommandData(const TSharedPtr<FJsonObject>& JsonObject, FDTFluxRemoteCommandData& OutData)
 {
    if (!JsonObject.IsValid())
    {
        UE_LOG(logDTFluxRemote, Error, TEXT("Invalid JSON object for %s"), TEXT("FDTFluxRemoteCommandData"));
        return false;
    }
-    JsonObject->TryGetNumberField(TEXT("type"), OutData.Type);
+    if (FJsonObjectConverter::JsonObjectToUStruct<FDTFluxRemoteCommandData>(JsonObject.ToSharedRef(), &OutData))
-    JsonObject->TryGetStringField(TEXT("Data"), OutData.Data);
+    {
        UE_LOG(logDTFluxRemote, Log, TEXT("Successfully parsed %s"), TEXT("FDTFluxRemoteCommandData"));
        return true;
    }
-    UE_LOG(logDTFluxRemote, Log, TEXT("Parsed Command Data - Command Type: %i, Data: %s"), 
+    UE_LOG(logDTFluxRemote, Error, TEXT("Failed to convert JSON to %s struct"),TEXT("FDTFluxRemoteCommandData"));
-           OutData.Type, *OutData.Data);
+    return false;
    return true;
 }
 void UDTFluxRemoteSubsystem::UnloadCurrentRundown()
 {
    if (RemotedRundown)
    {
        UE_LOG(logDTFluxRemote, Log, TEXT("Unloading current rundown"));
        // Ici vous pouvez ajouter une logique de nettoyage si nécessaire
        // Par exemple : RemotedRundown->StopAllPages();
        RemotedRundown = nullptr;
    }
 }
 void UDTFluxRemoteSubsystem::LoadRundownFromSettings()
@ -366,7 +418,6 @@ void UDTFluxRemoteSubsystem::LoadRundownFromSettings()
        return;
    }
    // Si c'est le même rundown, pas besoin de recharger
    if (RemotedRundown && RemotedRundown == RundownAsset.LoadSynchronous())
    {
        UE_LOG(logDTFluxRemote, Log, TEXT("Rundown already loaded: %s"), *RundownAsset.ToString());
@ -385,6 +436,47 @@ void UDTFluxRemoteSubsystem::LoadRundownFromSettings()
    {
        UE_LOG(logDTFluxRemote, Error, TEXT("Failed to load rundown from settings: %s"), *RundownAsset.ToString());
    }
    LoadRundown(RundownAsset);
 }
 bool UDTFluxRemoteSubsystem::LoadRundown(const TSoftObjectPtr<UAvaRundown>& RundownAsset)
 {
    if (RundownAsset.IsNull())
    {
        UE_LOG(logDTFluxRemote, Warning, TEXT("Cannot load rundown: asset is null"));
        UnloadCurrentRundown();
        return false;
    }
    // Charger le rundown de manière synchrone
    UAvaRundown* LoadedRundown = RundownAsset.LoadSynchronous();
    // Vérifier si le rundown est déjà chargé
    if (RemotedRundown && RemotedRundown == LoadedRundown)
    {
        UE_LOG(logDTFluxRemote, Log, TEXT("Rundown already loaded: %s"), *RundownAsset.ToString());
        return true;
    }
    // Décharger l'ancien rundown d'abord
    UnloadCurrentRundown();
    // Assigner le nouveau rundown
    RemotedRundown = LoadedRundown;
    // Vérifier que le chargement a réussi
    if (RemotedRundown && RemotedRundown->IsValidLowLevel())
    {
        RemotedRundown->InitializePlaybackContext();
        UE_LOG(logDTFluxRemote, Log, TEXT("Successfully loaded rundown: %s"), *RundownAsset.ToString());
        return true;
    }
    else
    {
        UE_LOG(logDTFluxRemote, Error, TEXT("Failed to load rundown: %s"), *RundownAsset.ToString());
        RemotedRundown = nullptr;
        return false;
    }
 }
 #if WITH_EDITOR
--- a/Source/DTFluxRemote/Private/DTFluxRemotedLevelController.cpp
+++ b/Source/DTFluxRemote/Private/DTFluxRemotedLevelController.cpp
@ -0,0 +1,220 @@
 // DTFluxRemoteActor.cpp
 #include "DTFluxRemotedLevelController.h"
 #include "DTFluxRemoteSubsystem.h"
 #include "Engine/Engine.h"
 #include "Engine/World.h"
 ADTFluxRemotedLevelController::ADTFluxRemotedLevelController()
 {
    PrimaryActorTick.bCanEverTick = false;
    RemoteSubsystem = nullptr;
    bEventsBound = false;
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Constructor called"));
 }
 void ADTFluxRemotedLevelController::PostInitializeComponents()
 {
    Super::PostInitializeComponents();
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: PostInitializeComponents called"));
    // Essayer de bind dès que possible
    InitializeSubsystemBinding();
 }
 void ADTFluxRemotedLevelController::BeginPlay()
 {
    Super::BeginPlay();
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: BeginPlay called"));
    // S'assurer que le binding est fait (au cas où PostInitializeComponents aurait échoué)
    if (!bEventsBound)
    {
        InitializeSubsystemBinding();
    }
 }
 void ADTFluxRemotedLevelController::InitializeSubsystemBinding()
 {
    // Éviter le double binding
    if (bEventsBound)
    {
        UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Events already bound, skipping"));
        return;
    }
    // Récupérer le subsystem
    if (UWorld* World = GetWorld())
    {
        RemoteSubsystem = GEngine->GetEngineSubsystem<UDTFluxRemoteSubsystem>();
        if (RemoteSubsystem)
        {
            // Bind les events du subsystem
            RemoteSubsystem->OnTitleReceived.AddDynamic(
                this, &ADTFluxRemotedLevelController::OnTitleDataReceived
            );
            RemoteSubsystem->OnTitleBibReceived.AddDynamic(
                this, &ADTFluxRemotedLevelController::OnTitleBibDataReceived
            );
            RemoteSubsystem->OnCommandReceived.AddDynamic(
                this, &ADTFluxRemotedLevelController::OnCommandDataReceived
            );
            bEventsBound = true;
            UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Successfully bound to subsystem events"));
        }
        else
        {
            UE_LOG(LogTemp, Warning, TEXT("DTFluxRemoteActor: DTFluxRemoteSubsystem not available yet"));
        }
    }
    else
    {
        UE_LOG(LogTemp, Warning, TEXT("DTFluxRemoteActor: World not available yet"));
    }
 }
 void ADTFluxRemotedLevelController::EnsureSubsystemBinding()
 {
    if (!bEventsBound)
    {
        InitializeSubsystemBinding();
    }
 }
 void ADTFluxRemotedLevelController::EndPlay(const EEndPlayReason::Type EndPlayReason)
 {
    // Unbind les events pour éviter les fuites mémoire
    if (RemoteSubsystem && bEventsBound)
    {
        if (TitleReceivedHandle.IsValid())
        {
            RemoteSubsystem->OnTitleReceived.RemoveDynamic(this, &ADTFluxRemotedLevelController::OnTitleDataReceived);
            TitleReceivedHandle.Reset();
        }
        if (TitleBibReceivedHandle.IsValid())
        {
            RemoteSubsystem->OnTitleBibReceived.RemoveDynamic(this, &ADTFluxRemotedLevelController::OnTitleBibDataReceived);
            TitleBibReceivedHandle.Reset();
        }
        if (CommandReceivedHandle.IsValid())
        {
            RemoteSubsystem->OnCommandReceived.RemoveDynamic(this, &ADTFluxRemotedLevelController::OnCommandDataReceived);
            CommandReceivedHandle.Reset();
        }
        bEventsBound = false;
        UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Unbound from subsystem events"));
    }
    Super::EndPlay(EndPlayReason);
 }
 void ADTFluxRemotedLevelController::OnTitleDataReceived(const FDTFluxRemoteTitleData& TitleData)
 {
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Received Title Data - %s %s (RundownPageId: %d)"), 
           *TitleData.FirstName, *TitleData.LastName, TitleData.RundownPageId);
    // Broadcast l'event Blueprint
    OnTitleReceived.Broadcast(TitleData);
    // Appeler l'event Blueprint implémentable
    BP_OnTitleDataReceived(TitleData);
    // Appeler la fonction virtuelle C++ (peut être overridée dans les classes dérivées)
    HandleTitleData(TitleData);
 }
 void ADTFluxRemotedLevelController::OnTitleBibDataReceived(const FDTFluxRemoteBibData& BibData)
 {
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Received Title Bib Data - Bib: %d"), BibData.Bib);
    // Broadcast l'event Blueprint
    OnTitleBibReceived.Broadcast(BibData);
    // Appeler l'event Blueprint implémentable
    BP_OnTitleBibDataReceived(BibData);
    // Appeler la fonction virtuelle C++ (peut être overridée dans les classes dérivées)
    HandleTitleBibData(BibData);
 }
 void ADTFluxRemotedLevelController::OnCommandDataReceived(const FDTFluxRemoteCommandData& CommandData)
 {
    UE_LOG(LogTemp, Log, TEXT("DTFluxRemoteActor: Received Command Data - Type: %s, : RundownPageId %i"), 
           *CommandData.Type, CommandData.RundownPageId);
    // Broadcast l'event Blueprint
    OnCommandReceived.Broadcast(CommandData);
    // Appeler l'event Blueprint implémentable
    BP_OnCommandDataReceived(CommandData);
    // Appeler la fonction virtuelle C++ (peut être overridée dans les classes dérivées)
    HandleCommandData(CommandData);
 }
 bool ADTFluxRemotedLevelController::IsSubsystemAvailable() const
 {
    return RemoteSubsystem && RemoteSubsystem->IsValidLowLevel();
 }
 bool ADTFluxRemotedLevelController::IsHTTPServerRunning() const
 {
    if (RemoteSubsystem)
    {
        return RemoteSubsystem->IsHTTPServerRunning();
    }
    return false;
 }
 void ADTFluxRemotedLevelController::StartHTTPServer(int32 Port)
 {
    if (RemoteSubsystem)
    {
        RemoteSubsystem->StartHTTPServer(Port);
    }
    else
    {
        UE_LOG(LogTemp, Warning, TEXT("DTFluxRemoteActor: Cannot start HTTP server - subsystem not available"));
    }
 }
 void ADTFluxRemotedLevelController::StopHTTPServer()
 {
    if (RemoteSubsystem)
    {
        RemoteSubsystem->StopHTTPServer();
    }
    else
    {
        UE_LOG(LogTemp, Warning, TEXT("DTFluxRemoteActor: Cannot stop HTTP server - subsystem not available"));
    }
 }
 // Implémentations par défaut des fonctions virtuelles C++
 void ADTFluxRemotedLevelController::HandleTitleData_Implementation(const FDTFluxRemoteTitleData& TitleData)
 {
    // Implémentation par défaut - peut être overridée dans les classes dérivées
    UE_LOG(LogTemp, Verbose, TEXT("DTFluxRemoteActor: Handling Title Data (default implementation)"));
 }
 void ADTFluxRemotedLevelController::HandleTitleBibData_Implementation(const FDTFluxRemoteBibData& BibData)
 {
    // Implémentation par défaut - peut être overridée dans les classes dérivées
    UE_LOG(LogTemp, Verbose, TEXT("DTFluxRemoteActor: Handling Title Bib Data (default implementation)"));
 }
 void ADTFluxRemotedLevelController::HandleCommandData_Implementation(const FDTFluxRemoteCommandData& CommandData)
 {
    // Implémentation par défaut - peut être overridée dans les classes dérivées
    UE_LOG(LogTemp, Verbose, TEXT("DTFluxRemoteActor: Handling Command Data (default implementation)"));
 }
--- a/Source/DTFluxRemote/Public/DTFluxRemoteMessage.h
+++ b/Source/DTFluxRemote/Public/DTFluxRemoteMessage.h
@ -14,6 +14,8 @@ public:
 	UPROPERTY(VisibleAnywhere, BlueprintReadOnly, Category="DTFlux|Remote")
 	FDateTime UpdateAt = FDateTime::Now();
 	UPROPERTY(VisibleAnywhere, BlueprintReadOnly, Category="DTFlux|Remote")
 	int RundownPageId = -1;
 	FDTFluxRemoteBasicData() = default;
 	FDTFluxRemoteBasicData(const FDateTime& InUpdateAt): UpdateAt(InUpdateAt){};
 };
@ -38,6 +40,7 @@ public:
 	UPROPERTY(VisibleAnywhere, BlueprintReadOnly, Category="DTFlux|Remote")
 	FString Function2 = "";
 	FDTFluxRemoteTitleData() = default;
 	FDTFluxRemoteTitleData(const FString InFirstName, const FString InLastName, const FString InFunction1, const FString InFunction2):
 	FirstName(InFirstName), LastName(InLastName), Function1(InFunction1), Function2(InFunction2){};
@ -64,12 +67,10 @@ public:
 	FDTFluxRemoteCommandData() = default;
 	UPROPERTY(VisibleAnywhere, BlueprintReadOnly, Category="DTFlux|Remote")
-	int Type = -1;
+	FString Type = "Stop";
 	UPROPERTY(VisibleAnywhere, BlueprintReadOnly, Category="DTFlux|Remote")
 	FString Data = "";
-	FDTFluxRemoteCommandData(int InType, FString InData):
+	FDTFluxRemoteCommandData(FString InType):
-	Type(InType), Data(InData){};
+	Type(InType){};
 };
--- a/Source/DTFluxRemote/Public/DTFluxRemoteSubsystem.h
+++ b/Source/DTFluxRemote/Public/DTFluxRemoteSubsystem.h
@ -22,7 +22,6 @@ class DTFLUXREMOTE_API UDTFluxRemoteSubsystem : public UEngineSubsystem
 {
 	GENERATED_BODY()
 public:
 	public:
    virtual void Initialize(FSubsystemCollectionBase& Collection) override;
    virtual void Deinitialize() override;
@ -57,6 +56,25 @@ public:
    UFUNCTION(BlueprintCallable, Category = "DTFlux API")
    bool ProcessCommandData(const FString& JsonString);
    UPROPERTY(EditAnywhere, BlueprintReadOnly, Category = "DTFlux API")
    bool bHasPendingTitleRequest = false;
    UPROPERTY(EditAnywhere, BlueprintReadOnly, Category = "DTFlux API")
    bool bHasPendingTitleBibRequest = false;
    UPROPERTY(EditAnywhere, BlueprintReadOnly, Category = "DTFlux API")
    FDTFluxRemoteTitleData PendingTitleData;
    UPROPERTY(EditAnywhere, BlueprintReadOnly, Category = "DTFlux API")
    FDTFluxRemoteBibData PendingTitleBibData;
    UFUNCTION(BlueprintCallable, Category = "DTFlux API")
    void ResetPendingTitleData();
    UFUNCTION(BlueprintCallable, Category = "DTFlux API")
    void ResetPendingBibData();
 private:
    void SetupRoutes();
@ -84,6 +102,7 @@ private:
    void UnloadCurrentRundown();
    void LoadRundownFromSettings();
    bool LoadRundown(const TSoftObjectPtr<UAvaRundown>& RundownAsset);
 #if WITH_EDITOR
    FDelegateHandle SettingsRundownChangedHandle;
--- a/Source/DTFluxRemote/Public/DTFluxRemotedLevelController.h
+++ b/Source/DTFluxRemote/Public/DTFluxRemotedLevelController.h
@ -0,0 +1,94 @@
 // DTFluxRemotedLevelController.h
 #pragma once
 #include "CoreMinimal.h"
 #include "GameFramework/Actor.h"
 #include "DTFluxRemoteSubsystem.h"
 #include "DTFluxRemotedLevelController.generated.h"
 UCLASS(BlueprintType, Blueprintable)
 class DTFLUXREMOTE_API ADTFluxRemotedLevelController : public AActor
 {
    GENERATED_BODY()
 public:    
    ADTFluxRemotedLevelController();
 protected:
    virtual void PostInitializeComponents() override;
    virtual void BeginPlay() override;
    virtual void EndPlay(const EEndPlayReason::Type EndPlayReason) override;
    // Subsystem et binding
    UPROPERTY(BlueprintReadOnly, Category = "DTFlux")
    UDTFluxRemoteSubsystem* RemoteSubsystem;
    FDelegateHandle TitleReceivedHandle;
    FDelegateHandle TitleBibReceivedHandle;
    FDelegateHandle CommandReceivedHandle;
    bool bEventsBound;
    // Fonctions de binding
    void InitializeSubsystemBinding();
    // ✅ CORRECTION : Callbacks avec UFUNCTION()
    UFUNCTION()
    void OnTitleDataReceived(const FDTFluxRemoteTitleData& TitleData);
    UFUNCTION()
    void OnTitleBibDataReceived(const FDTFluxRemoteBibData& BibData);
    UFUNCTION()
    void OnCommandDataReceived(const FDTFluxRemoteCommandData& CommandData);
 public:
    // Events Blueprint-friendly
    UPROPERTY(BlueprintAssignable, Category = "DTFlux Events")
    FOnTitleReceived OnTitleReceived;
    UPROPERTY(BlueprintAssignable, Category = "DTFlux Events")
    FOnTitleBibReceived OnTitleBibReceived;
    UPROPERTY(BlueprintAssignable, Category = "DTFlux Events")
    FOnCommandReceived OnCommandReceived;
    // Fonctions utilitaires
    UFUNCTION(BlueprintCallable, Category = "DTFlux")
    bool IsSubsystemAvailable() const;
    UFUNCTION(BlueprintCallable, Category = "DTFlux")
    bool IsHTTPServerRunning() const;
    UFUNCTION(BlueprintCallable, Category = "DTFlux")
    void StartHTTPServer(int32 Port = 63350);
    UFUNCTION(BlueprintCallable, Category = "DTFlux")
    void StopHTTPServer();
    UFUNCTION(BlueprintCallable, Category = "DTFlux")
    void EnsureSubsystemBinding();
 protected:
    // Events Blueprint implémentables
    UFUNCTION(BlueprintImplementableEvent, Category = "DTFlux Events")
    void BP_OnTitleDataReceived(const FDTFluxRemoteTitleData& TitleData);
    UFUNCTION(BlueprintImplementableEvent, Category = "DTFlux Events")
    void BP_OnTitleBibDataReceived(const FDTFluxRemoteBibData& BibData);
    UFUNCTION(BlueprintImplementableEvent, Category = "DTFlux Events")
    void BP_OnCommandDataReceived(const FDTFluxRemoteCommandData& CommandData);
    // Fonctions virtuelles C++
    UFUNCTION(BlueprintNativeEvent, Category = "DTFlux Events")
    void HandleTitleData(const FDTFluxRemoteTitleData& TitleData);
    virtual void HandleTitleData_Implementation(const FDTFluxRemoteTitleData& TitleData);
    UFUNCTION(BlueprintNativeEvent, Category = "DTFlux Events")
    void HandleTitleBibData(const FDTFluxRemoteBibData& BibData);
    virtual void HandleTitleBibData_Implementation(const FDTFluxRemoteBibData& BibData);
    UFUNCTION(BlueprintNativeEvent, Category = "DTFlux Events")
    void HandleCommandData(const FDTFluxRemoteCommandData& CommandData);
    virtual void HandleCommandData_Implementation(const FDTFluxRemoteCommandData& CommandData);
 };
--- a/Source/DTFluxUtilities/Public/DTFluxUtils.h
+++ b/Source/DTFluxUtilities/Public/DTFluxUtils.h
@ -71,7 +71,7 @@ public:
 	static void GetFullName(const int Bib, FText& OutFullName);
 	UFUNCTION(BlueprintCallable, Category="DTFlux|Utils")
-	static TArray<FDTFluxSplitSensorInfo> SortSplitRankingsByRank(const TArray<FDTFluxSplitSensorInfo>& OutRankings);
+	static TArray<FDTFluxSplitSensorInfo> SortSplitRankingsByRank(const TArray<FDTFluxSplitSensorInfo>& Rankings);
 };
Author	SHA1	Message	Date
Ange-Marie MAURIN	892e282d1d	Real Debug to event Participant status	2025-07-19 12:09:09 +02:00
Ange-Marie MAURIN	adc46114d8	Debug to event Participant status + Fix No Participant in History	2025-07-19 11:51:48 +02:00
Ange-Marie MAURIN	c88718fe35	Modified InitPursuit to get Rankings ONLY FROM DATAASSET	2025-07-18 23:20:34 +02:00
Ange-Marie MAURIN	8fe2750a54	RemoteSubsystem update	2025-07-18 17:36:17 +02:00
Ange-Marie MAURIN	33d3ea1e37	FixSortSplitRankingsByRank Function Parameter Name	2025-07-18 02:32:15 +02:00