Asset Management

Asset Loading and Unloading

Unreal Engine (UE) handles Asset loading and unloading automatically. This provides developers a method to communicate with the Engine on when each asset is going to be needed. However, there may be cases where you want precise control over when and how Assets are discovered, loaded, and audited. For these cases, the Asset Manager can help. The Asset Manager is a unique, global object that exists in the Editor and packaged games. It can be overridden and customized for any project and provides a framework for managing Assets that can divide content into chunks that make sense in the context of your project, without losing the advantages of Unreal's loose package architecture. The Asset Manager provides a set of tools to help audit disk and memory usage, giving you the information you need to optimize the organization of your Assets for Cooking and Chunking when deploying your game.

Primary and Secondary Assets

The Asset management system in Unreal breaks all Assets into two types, Primary Assets and Secondary Assets. Primary Assets can be manipulated directly by the Asset Manager from their Primary Asset ID, which is obtained by calling the function GetPrimaryAssetId. In order to designate Assets made from a specific UObject class as Primary Assets, you can override the GetPrimaryAssetId function to return a valid FPrimaryAssetId structure. Secondary Assets are not handled directly by the Asset Manager, but instead are loaded automatically by the Engine in response to being referenced or used by Primary Assets. By default, only UWorld Assets (levels) are Primary, all other Assets are Secondary. In order to make a Secondary Asset into a Primary Asset, the GetPrimaryAssetId function for its class must be overridden to return a valid FPrimaryAssetId structure. A Primary Asset ID has two parts, a unique Primary Asset Type that identifies a group of Assets, and the name of that specific Primary Asset, which defaults to the Asset's name as it appears in the Content Browser.

Blueprint Class Assets and Data Assets

The Asset Manager handles two different types of Assets: Blueprint Classes, and non-Blueprint Assets like Levels and Data Assets (Asset instances of the UDataAsset class). Each Primary Asset Type is associated with a certain base class, and specifies whether it stores blueprint classes or not in the configuration described below.

Blueprint Classes

To create a new Blueprint Primary Asset, go to the Content Browser and create a new Blueprint class that is a descendant of a class that overrides the GetPrimaryAssetId function. This base class could be Primary Data Asset or any of its children, or an Actor subclass that overrides GetPrimaryAssetId. To access Blueprint Primary Assets, call functions like GetPrimaryAssetObjectClass from C++ code, or use Blueprint Asset Manager functions that include the word "Class" in their names. Once you have the class, you can treat it like any other Blueprint class and use it to spawn new instances, or you can use the Get Defaults function to access read-only data from the Class Default Object associated with the Blueprint.

For Blueprint classes that you never need to instantiate, you can store your data in a Data-Only Blueprint that inherits from UPrimaryDataAsset. You can also derive child classes, including Blueprint-based children, from your base class. For example, you could create a base class like UMyShape that extends UPrimaryDataAsset in C++, then make a Blueprint-based subclass called BP_MyRectangle with UMyShape as its parent, and then a Blueprint-based child of BP_MyRectangle called BP_MySquare. With the default settings, the PrimaryAssetId of the last class you created would be MyShape:BP_MySquare.

Non-Blueprint Assets

You can use non-Blueprint Assets in cases where your Primary Asset Type does not need to store Blueprint data. Non-Blueprint Assets are simpler to access in code, and are more memory-efficient. To create a new non-Blueprint Primary Asset in the editor, create a new Data Asset from the advanced content browser window, or use the custom UI for creating things like new levels. Creating an Asset in this way is not the same as creating a Blueprint class; the Asset you create is an instance of a class, and not a class itself. To access the class, load them with C++ functions like GetPrimaryAssetObject, or the Blueprint functions without Class in their name. Once loaded, you can access them directly to read their data.

Because these Assets are instances rather than classes, you cannot inherit classes or other Assets from them. If you need to do this, for example, if you want to create a child Asset that inherits its parent's values except for those it explicitly overrides, you should use a Blueprint Class instead.

Asset Manager and Streamable Managers

The Asset Manager object is a singleton that manages discovery and loading of Primary Assets. The base Asset Manager class that is included in the Engine provides basic management functionality, but can be extended to suit project-specific needs. A Streamable Manager structure, contained within the Asset Manager, performs the actual work of asynchronously loading objects, as well as keeping objects in memory via the use of Streamable Handles until they are no longer needed and can be unloaded. Unlike the singleton Asset Manager, there are multiple Streamable Managers in different parts of the Engine and for different use cases.

Asset Bundles

An Asset Bundle is a named list of specific Assets associated with a Primary Asset. Asset Bundles are created by tagging the UPROPERTY section of a TSoftObjectPtr or FStringAssetReference member of a UObject with the "AssetBundles" meta tag. The value of the tag will indicate the name of the bundle where the Secondary Asset should be stored. For example, the following Static Mesh Asset, stored in the member variable called MeshPtr, will be added to the Asset Bundle called "TestBundle" when the UObject is saved:

    /** Mesh */
    UPROPERTY(EditDefaultsOnly, BlueprintReadOnly, Category = Display, AssetRegistrySearchable, meta = (AssetBundles = "TestBundle"))
    TSoftObjectPtr<UStaticMesh> MeshPtr;

A second way to use Asset Bundles is by registering them at runtime with the project's Asset Manager class. In this case, a programmer will need to write code that fills in an FAssetBundleData structure and then passes that structure to the Asset Manager. You can do this by either by overriding the UpdateAssetBundleData function, or calling AddDynamicAsset with the Primary Asset ID you want to associate with the Secondary Assets in the bundle.

Registering and Loading Primary Assets From Disk

Most Primary Assets are visible in the Content Browser and exist as Asset files stored on disk, so that they can be edited by artists or designers. The easiest way for a programmer to create a class that can be used in this way is to inherit from the UDataAsset child class, UPrimaryDataAsset, which has built-in functionality for loading and saving Asset Bundle data. If you want to use a different base class, such as APawn, studying UPrimaryDataAsset is useful, since it is a minimal example of the features that you need to implment to get Asset Bundles working for your class. The following class is an example of how to specify a type of zone in a hypothetical game; the zone type tells the game what art Assets to use when building the visual representation of the world in the game's overall map screen:

    /** A zone that can be selected by the user from the map screen */
    class MYGAME_API UMyGameZoneTheme : public UPrimaryDataAsset

        /** Name of the zone */
        UPROPERTY(EditDefaultsOnly, Category=Zone)
        FText ZoneName;

        /** The Level that will be loaded when entering this zone */
        UPROPERTY(EditDefaultsOnly, Category=Zone)
        TSoftObjectPtr<UWorld> LevelToLoad;

        /** The Blueprint class used to represent this zone on the map */
        UPROPERTY(EditDefaultsOnly, Category=Visual, meta=(AssetBundles = "Menu"))
        TSoftClassPtr<class AGameMapTile> MapTileClass;

Because this class inherits from UPrimaryDataAsset, it has a working version of GetPrimaryAssetId that uses the Asset's short name and native class. For example, a UMyGameZoneTheme saved under the name "Forest" would have a Primary Asset ID of "MyGameZoneTheme:Forest". Whenever a UMyGameZoneTheme Asset is saved in the Editor, the AssetBundleData member of PrimaryDataAsset will be updated to include it as a Secondary Asset.

Registering and loading our Primary Assets requires the following actions:

  1. Register your Primary Assets with the Asset Manager. This can be done by configuring in the Project Settings menu, or by programming your Asset Manager class to register the Primary Assets during startup.

    • Configuring with Project Settings (under the Game / Asset Manager section) looks like this:

    Paths to scan for primary Assets can be configured.



    Primary Asset Types to Scan

    Lists the types of Primary Assets to discover and register, as well as where to look for them and what to do with them.

    Directories to Exclude

    Directories that will explicitly not be scanned for Primary Assets. This is useful for excluding test Assets.

    Primary Asset Rules

    Lists the specific Rules Overrides, which dictate how Assets are handled. See Cooking and Chunking for more information.

    Only Cook Production Assets

    Assets designated as DevelopmentCook will cause errors during the cook process if this is checked. Good for ensuring that final, shipping builds are free of test Assets.

    Primary Asset ID Redirects

    When the Asset Manager looks up data about a Primary Asset whose ID appears in this list, the ID will be substituted for the alternate ID provided.

    Primary Asset Type Redirects

    When the Asset Manager looks up data about a Primary Asset, the type name provided in this list will be used instead of its native type.

    Primary Asset Name Redirects

    When the Asset Manager looks up data about a Primary Asset, the Asset name provided in this list will be used instead of its native name.

    • If you want to register Primary Assets directly in code, override the StartInitialLoading function in your Asset Manager class and call ScanPathsForPrimaryAssets from there. In this case, we recommend that you put all Primary Assets of the same type in a single subfolder. This will make discovery and registration faster.

  1. Load the Asset. Use the Asset Manager functions LoadPrimaryAssets, LoadPrimaryAsset, and LoadPrimaryAssetsWithType to begin loading Primary Assets at the appropriate time. Unload Assets later with UnloadPrimaryAssets, UnloadPrimaryAsset, and UnloadPrimaryAssetsWithType. When using these load functions, you can specify a list of Asset Bundles. Loading this way will cause the Asset Manager to load the Secondary Assets that those Asset Bundles reference as described above.

Registering and Loading Dynamically-Created Primary Assets

Primary Asset Bundles can also be dynamically registered and loaded at runtime. There are two Asset Manager functions that are useful to understand for doing this:

  • ExtractSoftObjectPaths examines all UPROPERTY members of the UScriptStruct it is given, and identifies Asset references, which are then stored in an array of Asset names. This array can be used when creating an Asset Bundle. ExtractSoftObjectPaths parameters:




    UStruct to search for Asset references.


    A void pointer to the struct.


    Array used to return Asset references found in the struct.


    Array of property names to exclusive from the return array.

  • RecursivelyExpandBundleData will find all references to Primary Assets and recursively expands to find all of their Asset Bundle dependencies. In this case, it means that the TheaterMapTileClass referenced by the ZoneTheme above will be added to the AssetBundleData. It then registers the named dynamic Asset and starts loading it. RecursivelyExpandBundleData parameters:




    Bundle Data containing Asset references. These will be expanded recursively, and can be useful for loading a set of related assets.

For example, our "MyGame" project could use the following code in its custom Asset Manager class to construct and load Assets based on "theater" data that was downloaded during the game:

    // Construct the name from the theater ID
    UMyGameAssetManager& AssetManager = UMyGameAssetManager::Get();
    FPrimaryAssetId WorldMapAssetId = FPrimaryAssetId(UMyGameAssetManager::WorldMapInfoType, FName(*WorldMapData.UniqueId));

    TArray<FSoftObjectPath> AssetReferences;
    AssetManager.ExtractSoftObjectPaths(FMyGameWorldMapData::StaticStruct(), &WorldMapData, AssetReferences);

    FAssetBundleData GameDataBundles;
    GameDataBundles.AddBundleAssets(UMyGameAssetManager::LoadStateMenu, AssetReferences);

    // Recursively expand references to pick up tile Blueprints in Zone

    // Register a dynamic Asset
    AssetManager.AddDynamicAsset(WorldMapAssetId, FSoftObjectPath(), GameDataBundles);

    // Start preloading
    AssetManager.LoadPrimaryAsset(WorldMapAssetId, AssetManager.GetDefaultBundleState());
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